EPA Report Number 904/9-78-002
June 1978
RURAL NON-POINT POLLUTION STUDIES IN MARYLAND
(Non-Point Pollution Studies on Agrucultural
Land Use Types Prevalent in the Coastal Plain
Zone of Maryland)
by
David L. Correll
Tung-Lin Wu
Jack W. Pierce
Maria A. Faust
Chesapeake Bay Center
for Environmental Studies
Smithsonian Institution
P. 0. Box 28
Edgewater, Md. 21037
Ken M. Lomax
J. Court Stevenson
M. Scott Christy
Center for Environmental and Estuarine Studies
University of Maryland
Horn Point Environmental Laboratories
Box 775
Cambridge, Md. 21613
Grant Number R804536-01
Project Officer
Mr. William R. Payne
Environmental System Branch
Environmental Research Laboratory
Athens, Georgia 30601
Environmental System Branch
Environmental Research Laboratory
U. S. Environmental Protection Agency
Athens, Georgia 30601
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EPA Report Number 904/9-78-002
June 1978
RURAL NON-POINT POLLUTION STUDIES IN MARYLAND
(Non-Point Pollution Studies on Agricultural
Land Use Types Prevalent in the Coastal Plain
Zone of Maryland)
by
David L. Correll
Tung Lin Wu
Jack W. Pierce
Marie A. Faust
Chesapeake Bay Center
for Environmental Studies
Smithsonian Institution
P.O. Box 28
Edgewater, MD 21037
Ken M. Lomax
J. Court Stevenson
M. Scott Christy
Center for Environmental
and Estuarine Studies
University of Maryland
Horn Point Environmental Laboratories
Box 775
Cambridge, MD 21613
Grant Number R804536-01
Project Officer
Mr. Willi am R. Payne
Environmental System Branch
Environmental Research Laboratory
Athens, Georgia 30601
Environmental System Branch
Environmental Research Laboratory
U. S. Environmental Protection Agency
Athens, Georgia 30601
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DISCLAIMER
This report has been reviewed by the Environmental Research Laboratory,
U.S. Environmental Protection Agency, and approved for publication. Ap-
proval does not signify that the contents necessarily reflect the views
and policies of the U.S. Environmental Protection Agency, nor does men-
tion of trade names or commercial products constitute endorsement or rec-
ommendation for use.
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PREFACE
This research grant was funded to improve and extend a non-point sources
research program previously funded by NSF/RANN from 1973 to December 1976 and
by the Environmental Protection Agency since that time. The study site is
the Rhode River, a tidal arm of Chesapeake Bay, and its watershed. It is
located in the Maryland coastal plain on the western shore of Chesapeake
Bay in an area which is primarily agricultural.
The purposes of the grant included 1) the measurement of the relationship
of pollution with herbicides, nutrients, sediments, heavy metals, and bac-
teria to agricultural land uses; and 2) the collection of data for the test-
ing of field and basin-sized watershed models.
This grant was initiated on June 14, 1976, but has profited from the
prior existence of a large data bank and some research conducted "in antici-
pation" of the award of the grant to obtain 'baseline' data in the early
spring before crops were planted.
The grant was also amended to include (a) a study of the effects of
agricultural land runoff on submerged, rooted aquatic plants in Chesapeake
Bay, and (b) a non-point source research program to study basin-sized water-
sheds on the Rhode, Choptank and Patuxent Rivers. The funds for these a-
mendments came from EPA Region Ill's Chesapeake Bay Program. The purposes
of the first amendment included 1) the field testing of two hypotheses of
the causes of plant die-offs in recent years -- agricultural herbicides or
increased shading due to sediments and phytoplankton; and 2) laboratory
bioassay studies of herbicide effects on rooted aquatics. The purposes of
the second amendment included 1) the measurement of sediments, nutrients,
and bacteria in runoff from a series of basin-sized watersheds on the
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western and eastern shores of Chesapeake Bay, 2) the direct testing of
statistical model predictions of runoff from selected Patuxent River water-
sheds and 3) the measurement of the filtering effects on water quality
of tidal marsh/mudflat areas on the shoreline of the Bay.
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ABSTRACT
The Research Program was initiated in April 1976 (to obtain baseline
data before crop planting) and full-scale activity (funded) began in June.
Data on herbicide and fertilizer application, soil chemistry, and the vol-
ume and composition of runoff waters were obtained for a cornfield watershed
for two complete years. Rainfall, soil moisture and temperature, plant
growth and nutrient removal, soil coverage by plants, soil mineralogy and
particle size distribution were also measured. A woodlot watershed has al-
so now been instrumented. Data on the volume and composition of runoff
from this second field-sized watershed have also been gathered for over a
year, as well as soil temperature, moisture, and compositional data. A
pasture watershed has been instrumented and a weir has been constructed.
Runoff data and soil data have been collected for one year. A total of
six fraction collectors have been constructed and a suspended sediment
splitter was designed and built. Runoff samples from eight basin-sized
watersheds and rainfall composition were also analyzed for cation and
herbicide concentrations. An improved rainfall gauging network has been
instrumented including seven recording and 20 manual gauges. A freezer,
an explosion proof refrigerator, and a walk-in cold room have been purchased
and installed. A Tracor gas chromatograph with both (E-C and Hall detectors
was puchased and is now operational. Improved areas for well ventilated
solvent extraction and concentration have been provided for herbicide ex-
traction. Surveys of farmer and homeowner land use practices have been
carried out.
Sampling and measurement of herbicide concentrations in estuarine
waters, suspended sediments, and bottom sediments, salinity, temperature,
turbidity, suspended sediment load and phytoplankton chlorophyll
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concentrations, bottom sediment characteristics, and submerged, rooted aqua-
tic plant populations was carried out monthly at five stations in the Rhode
River estuary, four times a year at eight stations in the Choptank River
estuary, and at four stations in the shallows near the Poplar Islands in
the open areas of Chesapeake Bay. Beginning in the spring of 1977, weekly
studies were conducted at one Rhode River station including in situ bioassays
of respiration and photosynthetic rates of the plants.
Four sets of laboratory bioassays under controlled conditions have
been completed. Zannichellia palustris (Horned Pondweed) Potamogeton
pectinatus (Sago Pondweed), Vallisneria americana (Wild Celery) and Zostera
marina (Eelgrass) was grown in aquaria under controlled conditions selected
to stimulate conditions prevalent at the Rhode River station which is as-
sayed weekly. Non-contaminated forest soils were used for bottom sediments.
Linuron and atrazine toxicity were separately studied in a total of 16 tanks.
Plant responses measured included weight gain, growth in length and width
of leaves, photosynthetic rates, and respiratory rates. These parameters
were measured at least eight time points over a time span of at least four
weeks.
All samples taken prior to May 1978 have been analyzed for all param-
eters with the major exception of cations and herbicides. Many 1977 soil
and estuarine bottom sediment samples have not yet been analyzed for herbi-
cides and, while all runoff samples have been processed and prepared for
cation analysis, the atomic absorption assays are not completed on 1977 sam-
ples. Data from eight Rhode River basins have been obtained since the be-
ginning of the grant and from two Choptank River basins for 1977-78. Data
was gathered from two Patuxent River basins for a complete year and is now
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being gathered for two more. A study of the water quality modulating ef-
fects of Rhode River tidal marshes has been published. A shallow ground water
monitoring program on the Choptank River watershed has been gathering data
for two years. Some of the acquired data has not yet been computer pro-
cessed and much of the detailed data analysis and summarization has not
been completed. However, 18 papers have been published at this time. Al-
though there will be some repetition, the reader is referred to our 1977
Annual Report for earlier data and to two detailed data reports published on
aspects of the basin-sized watershed amendment.
This report was submitted as the second annual progress report on re-
search Grant No. R804536-01 by the Smithsonian Institution's Chesapeake Bay
Center for Environmental Studies under the partial sponsorship of the U.S.
Environmental Protection Agency. This report covers the work done during
the period April 1976 to May 1978.
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CONTENTS
Page No.
Preface
Abstract
List of figures
List of tables
Section A. Parent Grant
1. Introduction 1
2. Conclusions 7
3. Recommendations 8
4. Methods 9
5. Results 23
6. References 26
Section B. Submerged Aquatic Plants in Chesapeake
Bay Amendment
1. Introduction 28
2. Conclusions 32
3. Recommendations 33
4. Methods 34
5. Results 43
6. References 45
Section C. Basin-sized Watershed Non-point Sources
Amendment
1. Introduction 46
2. Conclusions 53
3. Recommendations 54
4. Methods 55
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Page No.
5. Results 65
6. References 67
Section D. List of publications 68
Appendix
1. Figures
A. Parent Grant 70
B. Submerged Aquatic Plants in Chesapeake
Bay Amendment 114
C. Basin-sized Watershed Non-point Sources Amendment 133
2. Tables
A. Parent Grant 141
B. Submerged Aquatic Plants in Chesapeake
Bay Amendment 403
C. Basin-sized Watershed Non-point Sources Amendment 453
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List of Figures
Page No.
Section A.
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Figure
Parent Grant
1. Chesapeake Bay area map
2. Rhode River watershed map
3. Watershed 109 map, a field-sized cropland
(corn) watershed
4. Soils map of watershed 109
5. Watershed 110 map, a field-sized forest
watershed
6. Soils map of watershed 110
7. Watershed 111 map, a field-sized pasture-
land watershed
8. Soils map of watershed 111
9. Relationship between corn plant height and
leaf area index on watershed 109 (1976-1977)
Figure 10. Corn plant total biomass per surface area at
various plant ages on watershed 109 (1976-
1977)
Figure 11. Corn plant above and below ground biomass
per surface area at various plant ages on
watershed 109 (1976-1977)
Figure 12. Relationship between mean corn biomass per
surface area and mean plant height for
watershed 109 (1976-1977)
Figure 13. Mean total phosphorus in corn plants per
surface area on watershed 109 (1976-1977)
Figure 14. Mean above and below ground total phosphorus
in corn plants per surface area on watershed
109 (1976-1977)
Figure 15. Mean total Kjeldahl nitrogen in corn plants
per surface area on watershed 109 (1976-1977)
Figure 16. Mean above and below ground total Kjeldahl
nitrogen in corn plants on watershed 109
(1976-1977)
70
71
72
73
74
75
76
77
78
79
80
81
82
83
84
85
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Page No.
Figure 17. Rainfall intensity data for storm events
sampled on field-sized watersheds
A. April 24, 1977 86
A. December 18-22, 1977 87
B. January 25-26, 1978 88
C. March 14, 1978 89
D. March 25-26, 1978 90
E. May 8-9, 1978 91
F. May 15, 1978 92
G. May 16, 1978 93
Figure 18. Discharge rates and sampling times
A. December 19-22, 1977
I. Watershed 109 94
B. January 25-26, 1978
I. Watershed 109 96
II. Watershed 110 98
III. Watershed 111 99
C. March 14, 1978
I. Watershed 109 100
D. March 26-27, 1978
I. Watershed 109 101
II. Watershed 110 103
E. May 8-9, 1978
I. Watershed 109 104
II. Watershed 110 105
F. May 15, 1978
I. Watershed 109 106
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Page No.
G. May 16, 1978
I. Watershed 109 107
II. Watershed 110 108
Figure 19. Soil moisture calibration data
A. Gypsum block moisture probe response
versus moisture tension at 22° +2° 109
B. Effect of temperature on gypsum block
moisture probe response at moisture
saturation
110
C. Soil moisture retention curves
I. Watershed 109 ^
II. Watershed 110
III. Watershed 111
113
Section B. Aquatic Plants Amendment
Figure 20. Rhode River estuary map 114
Figure 21 Choptank River estuary map H5
Figure 22. Poplar Island map 116
Figure 23. Laboratory microcosm bioassay data for.
Vallisneria americana (Wild celery)
A. Plant growth
I. Relationship between leaf area and
whole plant dry weight for control
plants 117
II. Leaf area change in various con-
centrations of atrazine 118
III. Leaf area change in various con-
centrations of linuron 119
B. Example of dissolved oxygen raw data plots 120
C. Gross photosynthesis in the light
I. Effects of atrazine 121
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Page No.
II. Effects of linuron 122
D. Net oxygen production per day
I. Effects of atrazine 123
II. Effects of linuron 124
Figure 24. Laboratory microcosm bioassay data for
Potamogeton pectinatus (Sago pondweed)
A. Gross photosynthesis in the light
I. Effects of atrazine 125
II. Effects of linuron 126
B. Net oxygen production per day
I. Effects of atrazine 127
II. Effects of linuron 128
Figure 25. Laboratory microcosm bioassay data for
Zostera marina (Eelgrass)
A. Gross photosynthesis in the light
I. Effects of atrazine 129
II. Effects of linuron 130
B. Net oxygen production per day
I. Effects of atrazine 131
II. Effects of linuron 132
Section C. Basin-sized Watershed Amendment
Figure 26. Rain gauge locations on Rhode River watershed 133
Figure 27. Location of the Eastern Shore study site along
the Choptank River 134
Figure 28. Map of the Choptank River (Eastern Shore)
study site at Horn Point showing land use and
vegetation 135
Figure 29. Contour map of the Eastern Shore study site
with one foot contour intervals 136
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Page No.
Figure 30. Man-made features on the Eastern Shore study
site where drainage ditches are important
determinants of watershed boundaries
Figure 31. Generalized classification of sediments below
the top soil of the Eastern Shore study sites
Figure 32. Groundwater levels in relation to surface top-
ography at two seasons on Eastern Shore water-
sheds
Figure 33. Well transect on vegetation map on Eastern
Shore study site
137
138
139
140
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List of Tables
Page No.
Section A. Parent Grant
Table 1. Land use analysis (1976) of Rhode River
watersheds shown in Figure 2 141
Table 2. Daily rainfall for field-sized watersheds
and weather station 145
Table 3. Soil moisture data for watershed 109
A. Gravimetric data
I. Watershed 109 155
II. Watershed 110 158
III. Watershed 111 160
B. Gypsum block sensor data
I. Watershed 109
II. Watershed 110 173
III. Watershed 111 185
C. Data from moisture retention calibration
studies
I. Gypsum block calibration data 197
II. Effect of temperature on gypsum
block moisture probe readings at
water saturation 198
III. Moisture retention data for
undisturbed soil cores from
watersheds 109, 110, and 111 199
IV. Moisture retention for disturbed
soil samples from watersheds 109,
110, and 111 200
Table 4. Soil Temperature data
A. Watershed 109 203
B. Watershed 110 214
C. Watershed 111 226
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Page No.
Table 5. Height and leaf area index of corn plants
on watershed 109 in 1977 237
Table 5A. Average corn plant heights on watershed 109
in 1977 238
Table 6. Corn plant populations and nutrient mass
withdrawal by com plants on watershed 109
in 1977
A. Total phosphorus 239
B. Total Kjeldahl nitrogen 240
Table 7. Total phosphorus concentrations in corn
plant parts on watershed 109 in 1977
A. May 26, 1977 241
B. June 10, 1977 242
C. June 16, 1977 243
D. June 30, 1977 244
E. July 22, 1977 245
Table 8. Total Kjeldahl nitrogen concentration in
corn plant parts on watershed 109 in 1977
A. May 26, 1977 246
B. June 10, 1977 247
C. June 16, 1977 248
D. June 30, 1977 249
E. July 22, 1977 250
Table 9. Corn dry weight and total nutrient content
for various plant parts on watershed 109
in 1977
A. May 26, 1977 251
B. June 10, 1977 252
C. June 16, 1977 253
D. June 30, 1977 254
E. July 22, 1977 255
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256
257
258
259
260
261
261
261
262
262
262
263
265
Dry weight to fresh weight ratios of corn
plant parts on watershed 109 in 1977
A. May 26, 1977
B. June 10, 1977
C. June 16, 1977
D. June 30, 1977
E. July 22, 1977
Mean soil bulk densities
A. Watershed 109
B. Watershed 110
C. Watershed 111
Mass of soil per surface area in depth zones
corresponding to those sampled
A. Watershed 109
B. Watershed 110
C. Watershed 111
Soil composition data - percent sand, silt,
clay, and organic matter
A. Watershed 109
C. Watershed 111
Soil pH and nutrient composition
A. Total phosphorus, distilled water extract-
able orthophosphate, potassium chloride
extractable orthophosphate, and total ortho-
phosphate; pH and organic carbon
I. Watershed 109
II. Watershed 110
III. Watershed 111
B. Total Kjeldahl nitrogen, distilled water
extractable ammonia and nitrate, K CI
extractable ammonia and nitrate, and total
ammonia
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Page No.
I. Watershed 109 276
II. Watershed 110 281
III. Watershed 111 283
Table 16. Soil nutrient pool sizes
A. Watershed 109 285
B. Watershed 110 303
C. Watershed 111 311
Table 17. Herbicide concentrations in the soil of
watershed 109 in 1976
A. Atrazine 321
B. Alachlor 325
C. Data summary by depth 329
Table 18. Application rates for agricultural herbicides
and fertilizers on watershed 109 in 1977 333
Table 19. Cattle population and feeding data for water-
shed 111 in 1977 335
Table 20. Corn harvest data for watershed 109 in 1977 339
Table 21. Summary of farm survey data by watershed
basins for 1977 341
Table 22. Bacterial discharge data for field-sized
watersheds
A. Watershed 109 342
B. Watershed 110 343
C. Watershed 111 344
Table 23. Particulate discharge data for field-sized
watersheds
A. Watershed 109 345
B. Watershed 110 348
C. Watershed 111 350
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Page No.
Table 24. Nutrient discharge data for field-sized
watersheds
A. Watershed 109 352
B. Watershed 110 356
C. Watershed 111 360
Table 25. Compositional data from storm events
I. Watershed 109 364
II. Watershed 110 372
III. Watershed 111 376
Table 26. Discharge data for watershed weeks in which
fraction collector data were taken 380
Table 27. Herbicide data for watersheds 121 and 122 383
Table 28. Cation discharqe data for watersheds
101, 102, 103, 105, i06, 107, 108, 109, 110 387
Section B. Aquatic Plants Amendment
Table 29. Submerged, rooted aquatic plant populations 403
Table 30. Estuarine bottom sediment characteristics
(percent sand, silt, clay, organic matter) 406
Table 31. Suspended particulate data in estuarine
surface waters (total suspended and mineral
suspended particulates, mineralogy of
suspended particulates) 408
Table 32. Salinity, turbidity, phytosynthetically
active light penetration, and trans-
mi ssometer data 411
Table 33. Phytoplankton chlorophyll a concentrations 420
Table 34. Herbicide concentrations at estuarine stations
A. Atrazine 422
B. Alachlor 426
C. Trifluralin 430
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Page No.
Table 35. Bioassay data collected at station 30.2 in
Rhode River 433
Table 36. Bioassay data under controlled laboratory
conditions in microcosms. (Weight gain,
shoot growth, respiration rates, and photo-
synthetic rates)
I. Vailisneria americana
A. Controls 435
B. Atrazine 436
C. Linuron 437
II. Potamogeton pectinatus
A. Controls 438
B. Atrazine 439
C. Linuron 440
III. Zostera marina
A. Controls 441
B. Atrazine 442
C. Linuron 443
IV. Linear regressions obtained from
bioassays data 444
Table 37. Average plant response to various con-
centrations of atrazine or linuron
I. Vailisneria americana
A. Net oxygen release per day per
dry weight 446
B. Gross photosynthesis per hour
per mg dry weight 447
II. Potamogeton pectinatus
A. Net oxygen release per day per
dry weight 448
B. Gross photosynthesis per hour
per mg dry weight 449
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Page No.
III. Zostera marina
A. Net oxygen release per day per
dry weight 450
B. Gross photosynthesis per hour
per mg dry weight 451
Table 38. Vallisneria americana laboratory microcosm
data on leaf area as a function of whole
plant dry weight for controls 452
Section C. Basin-sized Watershed Non-point Sources Amendment
Table 39. Daily rainfall from Rhode River site (see
Figure 26) rain gauge grid
A. Manual gauges 453
B. Recording gauges 467
Table 40. Area yield loading due to dryfall and bulk
precipitation at Rhode River site
A. Dryfall 471
B. Bulk precipitation 508
Table 41. Rainfall at Horn Point (Choptank River)
weather station 534
Table 42. Bacterial discharge data for Horn Point
watersheds 535
Table 43. Area yield discharge in surface runoff per
season for Horn Point watersheds 536
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SECTION A. PARENT GRANT REPORT
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INTRODUCTION
This is the second annual progress report on this grant. It is both
a status report and a detailed data report. It is not an in-depth analysis
of results. The watershed research part of this grant was focused upon:
1) The selection and instrumentation of three field-sized watersheds
with predominantly one land use. These were row crops (corn, pastureland,
and forest.
2) The measurement of a restricted set of parameters (herbicides,
cations) on runoff from eight previously instrumented basin-sized watersheds
and of a much more detailed set of watershed and runoff parameters from the
three field-sized watersheds.
The Watershed Program at Rhode River
The Chesapeake Bay Center for Environmental Studies, established in
1965 by the Smithsonian Institution, is a 1,000 hectare research facility
on the Rhode River. Rhode River is a subestuary on the western shore of
Chesapeake Bay just south of Annapolis, Maryland. This site was chosen
for long-term environmental research because it offered the opportunity to
study an estuary and its associated watershed which had many desirable fea-
tures for an intensive study. The system is small enough (485 ha of open
water and 3,332 ha of watershed) to be studied in some detail, yet large
enough to have most of the characteristics of an estuary and multiple land
use watershed typical of the coastal plain on the western shore of Chesapeake
Bay. A large part of the research program at the Center is concerned with
man's effect on the watershed through air pollution, land use practices, and
the changing pattern of land brought about by a rapidly growing human popu-
lation.
The goals of the Watershed Program include:
1) The accurate measurement of the loading of the estuarine receiving
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waters with land runoff and the contents of the runoff waters.
2) The determination of the present average area yield loading rates
for each major land use category on the watershed for each parameter. This
will enable accurate predictions of the effects of urbanization, etc. on
diffuse source estuarine loading to be made by a deterministic approach.
3) The determination of sufficiently detailed information on watershed
characteristics, local meteorology and runoff parameters from small single-
use watersheds, typical of each major land use category to allow the de-
velopment of mechanistic predictive models.
4) The determination of the effects of variations in land use prac-
tices upon runoff from each major land use category.
5) Testing the results and predictions derived from studies of the
Rhode River watershed for their validity or transferability on other coastal
plain watersheds in this region.
6) To develop a tested methodology for application in other regions.
These goals point out the extent to which this program is focused upon
the impact of man's activities upon the watershed. The watershed was set-
tled by Europeans in the 16501s and cleared for agriculture. Prior to that
time, it was occupied intermittently by Indian villages for several thousand
years. It should be noted that this watershed had a human population of a-
bout 3,000 in 1973, and in 1976 the portion of the watershed under study
(2,964 ha) had a land use composition as follows: 15.8% row crops; 2.2%
freshwater (non-tidal) swamps and ponds; 1.9% tidal marshes; 58.6% forest
and old fields; 10.2% pasture; and 11.2% residential, commercial, and other
categories. A land use history based upon written records has been com-
piled by Dan Higman and an oral land use history is being compiled by Amy
Hiatt. The spatial pattern of land use on the watershed can best be
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described as a mosaic, and is typical of this region, Thus, it is not
possible to select subwatershed basins of any size (more than a few ha)
which contain only one land use. Instead, basins containing a more complex
mixture of land uses must be studied and the results analyzed with respect
to the effects of land use.
Description of Watershed
The geography of the Rhode River watershed and the various subwatersheds
which are under study are shown in Figure 2. The location of the weather
station (W) is also shown. Table 1 lists the subwatersheds under study by
name and number, as well as giving their total surface areas and a summary
of the proportions of six land use categories present on each. The monitored
watersheds vary in size from a few hectares to about 1,200 hectares. Land
use varies from all or nearly all one type to complex mixtures of all land
use categories. The larger basins include some (102, 108) with relatively
high proportions of row crops, one (121) with more upland wet areas, one
(122) with more tidal wet areas, many (103, 105, 107, and 122) with high
proportions of forest and old fields, some (101, 106) with more pasture, and
two (123, 124) with more residential area. Small single-use watersheds (109,
110, 111) have been selected for intensive study of areas which best typify
row crops, forest, and pasture land uses. The slopes of the larger water-
sheds average between 3 and 9 percent with an overall average slope for the
whole study area of about 5 percent. Geologically, the Rhode River wate-
shed has sedimentary soils from the Pleistocene Talbot formation at low ele-
vations on the eastern portion of the watershed and Eocene Nanjemoy forma-
tion soils at low elevations further west, Miocene Calvert formation soils
at intermediate elevations and Pleistocene Sunderland formation soils at
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the highest elevations. A few outcrops of Pleistocene Wicomico formation
soils are also found. The mineralogy of the soils in the various parts
of the watershed is fairly uniform with a high level of montmorillonite
and quartz, intermediate levels of i11ite and kaolinite, and low levels of
gibbsite, chlorite, potassium feldspar, and plagioclase. The soils differ
locally primarily with respect to the proportions present of sand, silt,
and clay. Bedrock is several thousand feet below the surface. The aqua-
clud is a clay layer, the Marlboro clay at about sea level elevation through-
out the watershed.
Scope of the Research
The Rhode River Watershed Research Program began in the summer of 1971.
At that time, the monitoring of water composition in five streams was begun.
Also, Dr. Edward Pluhowski, of the U.S. Geological Survey built a 90° notch
weir on watershed 101 and began to establish a rough correlation between
stream flow on each of the other four streams and the flow he measured at
station 101. The composition of grab samples from these streams was meas-
ured until it became apparent in 1973 that permanent weirs and volume-
integrated composite sampling on each watershed would be necessary to ac-
curately measure discharge rates. By early 1974, the first five of these
weirs were completed. The network of weirs has been enlarged to 12 permanent
and 2 temporary weirs in operation at the beginning of 1978. Five more perm-
anent stations are under construction or planned for 1978. These monitoring
stations are of two general types, but all are designed to measure the volume
of water movement and to sample proportional to that flow. In addition to
composite samplers, six fraction collectors for the discrete sampling of
storm events have been built.
Special rainfall collectors for rainfall and dryfall chemistry were
first used in early 1973. Now several types are in use. They are located
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at the weather station in Figure 2. A network of rain gauges was established
in 1973 and expanded in 1976. One has been operated at the weather station
for many years. The weather station, operated by Dan Higman, measures sun-
light, rainfall, evaporation, wind speed and direction, air temperature, dew
point, and barometric pressure.
Rainwater and stream water samples are now analyzed for: pH, turbidity,
temperature, total and orthophosphate phosphorus in filtered and whole water,
total Kjeldahl nitrogen, nitrate, nitrite, ammonia, organic matter, alkalin-
ity, total and mineral suspended particulates, suspended particle mineralogy,
twelve cations (Ca, Mg, K, Na, Fe, Ni, Zn, Cu, Pb, Cr, Cd, Mn), total viable
bacterial cells, total and fecal coliform bacteria, fecal Streptococci, and
four herbicides (alachlor, atrazine, simazine, and trifluralin).
Land use is determined by the analysis of low elevation aerial photos
and ground truth surveys. Land use practices of landowners are surveyed by
the use of door-to-door questionnaires. The land use practices surveyed in-
clude area planted in each crop, applications of agricultural chemicals (e.g.
herbicides, fertilizers, lime), livestock populations, residential use of
pesticides, fertilizers and lime, and human populations.
In the case of field-sized watersheds, selected to typify major land
use categories, a number of parameters are measured to enable a better as-
sessment of the mechanisms or causes of changes in the composition of runoff
waters. These include detailed studies of land use practices, plant popula-
tions, productivity, soil cover, frequent surveys of soil chemistry (e.g.
levels of various forms of nitrogen and phosphorus, levels of pesticide, pH
major cations such as Ca, Mg, and K), detailed geochemistry (e.g. percentage
of organic matter, sand, silt, and clay; mineralogy of silt and of clay),
frequent monitoring of soil temperature and moisture. The soil parameters
5
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are usually determined as vertical profiles at each of a series of elevational
contours. The field-sized watersheds have also been soil mapped in detail
by the Soil Conservation Service at the request of the Smithsonian (see
Figures 4, 6, and 8).
6
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CONCLUSIONS
After two years of funded activity, we feel that our Non-point Source
Pollution Research Program is proceeding well. Our intensive efforts to
measure the application of herbicides and fertilizer to a cornfield water-
shed, as well as enough parameters during the growing season and prior to
planting to calculate a mass balance for these components has succeeded for
1976 and 1977. A backlog of frozen, stored samples is being analyzed for
herbicides and no final results can be reported for 1977, but no serious
sampling or analysis omissions have been found and the research is flowing
smoothly as planned. The construction and instrumentation of a cornfield
watershed weir, a woodlot watershed weir and a pasture watershed weir were
completed on schedule. Some modifications in the pasture weir are being
carried out to prevent certain problems which have been encountered during
major storms. Samples from previously existent basin-sized watershed weirs
are being analyzed routinely for cations and herbicides. Landowner chemical
application data is being collected by door-to-door survey. Data from all
phases of the program are being processed and stored in the Smithsonian com-
puter data bank.
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RECOMMENDATIONS
Watershed Research Program
As a result of our research efforts to date several recommendations can
be made to improve future results.
1. A much closer interaction with the people involved in watershed
modeling for EPA would be desirable.
2. The use of an apparatus to measure the light scattering due to
particulates in unprocessed water samples, such as a ruby layer system
marketed by Spectrex, would be valuable in the determination of the degree
of aggregation and flocculation of suspended particulates in the proposed
channel transport work.
3. An electronic particle size analyzer with a size spectrum attached
would be very useful in the proposed channel transport work.
4. A better system of setting priorities for herbicide sampling is
needed or increased laboratory personnel to handle the sample load.
8
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METHODS
I. Land Use Survey
1. Farm Land Use
Using the 1972 tax map as a guide (with some revisions) we have
identified 53 farms in the Rhode River watershed. These lands cover
about 6648 acres or about 74% of the watershed. For the purposes of
this survey we have defined a "farm" as any individual parcel (or com-
bination of adjacent parcels with the same owner) which consists of
20 acres or more. Only about 60% of these "farms" contain any land that
is actually being used for the production of crops so the term is some-
thing of a misnomer. The remaining lands fall under a variety of land
use categories: woodland, recreational, abandoned fields, etc. Since
almost all real farms also contain some of these other land uses we saw
no reason to limit the sample.
So far we have surveyed all of the farms in the watersheds covered
in this report. Detailed data on livestock, land use ground truth for
each field, fertilizers, lime, and pesticides have been compiled. Where
advisable the amounts of identity of farm chemicals have been further
confirmed at the local farm cooperatives, where most local farmers ob-
tain their materials.
2. Residential Land Use Practices
A retired door-to-door salesman who lives on the watershed was hired
part-time to conduct this survey. A questionnaire was designed to put
the home owners at ease by asking such questions as how do you keep your
lawn so good looking? The residential parts of the watershed were first
divided into neighborhoods whose boundaries correspond to both drainage
basins and neighborhood age, affluence, etc. Then each was subjected to
9
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a stratified random subsampling of about 20% of the homes and businesses.
3. Land Use on Field-Sized Watersheds
a. Herbicide Application on Cornfield 109:
Herbicides are applied (by a tractor-drawn sprayer) to the corn
fields in the normal manner recommended by U.S.D.A. and the manu-
facturers. The more commonly used herbicides that are recommended
by the State of Maryland on corn fields are atrazine, simazine,
alachlor, and paraquat. In order to accurately measure the dose per
surface area of applied herbicides, the rate of spray application is
measured in three ways: 1) the time of application is measured per
whole field and volume of spray per time is measured under actual
field conditions; 2) 142 mm Whatman #42 filter paper discs are placed
flat on the field prior to spraying at ten stations and later anal-
yzed for pesticide; 3) large volume soil cores are taken for 0 - 1
cm segments. Samples of spray and the filters and soil samples are
thfen analyzed in the laboratory.
b. Fertilizer Application on Cornfield 109:
Times and application rates and methods are noted from observation,
consultation with the farmer and manufacturer's labels, actual samples
of granular and liquid fertilizer are also laboratory analyzed. Spray
application rates are also measured as above (part a).
c. Other Land Use Data on 109 and 111:
Lime application rates are calculated from farmer data and times
of application are noted. Cultivation times and methods are noted
for 109. Dates and populations of cattle on 111 are recorded rou-
tinely. The dates and yields of hay mowing for 111 are recorded.
II. Soil Analysis
1. Sampli ng
10
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Soils are sampled as needed for the purposes of the pesticide and
nutrient transport models with a split tube soil coring tube and/or a
large volume shallow coring apparatus (as developed by Charles Smith,
Athens, Georgia, EPA). Sets of integrated soil samples are taken at
specified intervals by taking three cores at each of ten stations on
each watershed, segmenting them, and combining segments (one from each
core) from like depths at each location and in some cases from stations
on the same elevational contour line (Correll and Miklas, 1975). Stations
are placed along elevation contours. In 1976, cores were divided into
segments; 0 - 1 cm, 1 - 2.5 cm, 5-8 cm, 8-12 cm, 18 - 24 cm, and
24 - 30 cm. In 1977 segments of 0 - 1 cm, 1 - 7.5 cm, 7.5 - 15 cm,
15-30 cm, and 30 - 75 cm were used. These segment dimensions may
change as model requirements are defined. Composite soil samples are
then homogenized with a twin-shelled blender. Sampling frequency varies
from daily (for herbicides) immediately after application of chemicals
to seasonal. Soil samples are kept frozen until they can be analyzed.
2. Temperature and Moisture
At each soil sampling station moisture and temperature probes were
buried at depths of 5, 15, 30 and 75 cm with electrical leads connected
to sockets in a junction box aboveground for manual readings. Delmhorst
gypsum block moisture sensors and a Delmhorst, Model KS-1, moisture testor
are used. The ranges of the testor have been modified to allow zeroing
against 0, 100, or 10,000 ohms resistance. In situ calibration curves for
each probe were constructed by gravimetric moisture determinations from
soil cores at the appropriate depths under various moisture conditions.
A series of probe calibrations and soil moisture response tests were also
conducted in the laboratory with a soil moisture pressure bomb system.
(Soil Moisture Equipment Co., Santa Barbara, CA). A ceramic plate extractor
11
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was used. Both reconstituted and undisturbed soil samples were tested
from surface and subsurface soils by the methods of Richards (1954).
Temperature was measured with Fenwal precision unicurve thermistors,
coated with epoxy cement and resistance was read with a battery powered
Fluke digital multimeter. During intensive study periods reading of
probes are made daily. At other times they are read approximately weekly.
3. Percent Sand, Silt, and Clay Organic Matter; Mineralogy
Soil minerals are fractionated into sand, silt, and clay by screening
and hydrodynamic methods and each fraction is weighed. The amount of or-
ganics is determined by firing. Mineralogy is determined on silt and clay
fractions by X-ray diffraction. Preparation is described by Carroll (1970).
Soils are analyzed for free-iron oxides and allophane (Jackson, 1956).
4. pH
pH was measured with a hydrogen electrode system after suspension of
an aliquot of soil core in one ml of distilled water per g of soil and
centrifugation.
5. Cations
A sample of 0.1 g of oven-dried soil is placed into a 30 ml micro-
Kjeldahl flask. 5 ml of concentrated nitric acid is added and boiled
gently .until the solution is about 2 ml, cool the Kjeldahl flask and add
10 ml of distilled water and again boil down to about 2 ml. The solution
is then diluted to 50 ml with distilled water in a volumetric flask. Ali-
quots of this solution are subjected to atomic absorption analysis for
Fe, Mn, Zn, Ni, Cu, Cd, Pb, Cr, K, Ca, and Mg. A Jarrell Ash 82-500 atomic
absorption spectrophotometer was used. Concentrations reported are cor-
rected for efficiency of analysis.
6. Herbicides
a. Extraction
To a glass thimble which contains approximately 6 g of anhydrous
12
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sodium sulfate an accurately weighed wet soil sample of 20 g is added.
Then add another 6 g of anhydrous sodium sulfate on top of the soil
sample. This thimble is subjected to a soxhlet extraction with a mix-
ture of 50 ml benzene and 150 ml of methylene chloride. Water content
of the soil is determined by drying a duplicate sample of 0.20 g wet
soil at 100°C for 24 hours.
b. Clean-up Procedure
The organic extract is treated overnight with anhydrous sodium sul-
fate and is then concentrated to about 8 ml with a Kuderna-Danish Evap-
orator on a water bath. A glass chromatographic column packed with 15 g
of alumina (activity grave V) and topped with 5 g anhydrous sodium sul-
fate, is washed with 50 ml petroleum ether. The sample is applied to
the column and eluted with 100 ml hexane and then a mixture of 50 ml
benzene and 50 ml hexane. The combined elute is collected directly in
a Kuderna-Danish evaporator on flask and is then concentrated to about
8 ml and stored in a refrigerator.
c. GLC Chromatography
An aliquot of sample is injected into a Tracor model 560, gas chrom-
atograph equipped with a Ni-63 electron capture detector. A 6 ft X 4mm
coiled all glass column is used. The column is packed with 10% DC 200
on Gas-chrom Q (100 - 200 mesh). Input temperature is 200°, column
temperature is 190° and detector temperature is 350°. Standard is run
between each unknown sample and the next. Calibration series are run
with standard solutions of each herbicide.
d. Confirmation of GC Peaks
It is necessary to confirm the identity of various peaks occas-
ionally. We have attempted to do this in two ways.
First by subjection of samples to integrated GC/mass spectrograph
13
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analysis.
Secondly, we make confirmations by the two column procedure. A
second GC column (Carbowax 20 M) is run (Muir and Baker, 1976). We
also attempt to obtain confirmation by use of a Tracor Model 310, Hall
dector in the nitrogen mode and plan to check about 10% of our samples
for this program in this manner,
e. Quality Control Program
A program had been developed and partially implemented as noted in
our June 1977 Annual Report and our June 1977 laboratory guide for herb-
icide analysis. As a result of visits and discussions with Mr. Payne
and Mrs. Benner, we are now improving and expanding this program and
will report on it in detail in the near future.
7. Nutrients
a. Nitrogen
i. Total Kjeldahl nitrogen is determined by digestion with sul-
furic acid and hydrogen peroxide, distillation and Nesslerization
(Martin, 1972).
ii. Total ammonia is determined by Kjeldahl distillation from un-
digested but alkaline samples plus Nesslerization.
iii. Water soluble ammonia is determined as above but on distilled
water extracts of soil.
iv. Exchangeable ammonia is determined on 1 M K CI extracts of
previously water extracted soils.
v. Nitrate is determined by the modified Conway microdiffusion
method (Stanford, et al, 1973).
b. Phosphorus
Total phosphorus, acid labile, and orthophosphate were determined
as described by Correll and Miklas (1975). Total phosphorus was de-
termined on whole soil only. Orthophosphate was determined on whole
14
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soil, a 1 M K CI extract, and on a distilled water extract. The ex-
traction procedure is to extract one gram of soil with 15 ml distilled
water, then with 10 ml distilled water, removing soil from extraction
liquid by centrifugation. The extracted soil is then reextracted in
the same manner but with 1 M K CI.
III. Meteorological Measurements
1. Rainfall and Dry Fall
Tilting bucket rain gauges (Stevens) with a resolution of 0.01 inch
per pulse and a readout on paper tape every five minutes are located at
six stations (Figure 2Q. A strip chart recording weighing rain gauge
is also located at the weather station (Figure 2). A total of 20 manual
rain gauges are now located on the watershed (Figure 26). Rainfall is
also collected in a special apparatus mounted 13 meters above the ground
for chemical analysis (nutrients and heavy metals). The rain collectors
consist of two identical four liter pyrex glass bottles, and two Nalgene
polethylene 28 cm diameter funnels. The funnels are fitted to the top
of the bottles with a rubber stopper. Fiberglass window screening was
placed over the funnels to prevent insects from getting into the bottles.
Both funnels were exposed to atmospheric fallout at all times. One funnel
was used for bulk precipitation measurements, the other was used for dry
fall.
Bulk precipitation samples were taken continuously. The sampler
was emptied after each rain event and then repositioned. If sufficient
sample was taken from one rain event, it was then analyzed. If the rain-
fall amount was too small, it was placed in a sealed plastic bottle and
refrigerated at 4°C until the next bulk precipitation sample was added to
it. This procedure went on until sufficient sample was obtained. The
bulk precipitation collector bottle funnel and screen were cleaned, and
15
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the dates and times recorded each time a sample was removed. This pro-
cedure assumes that each rain event washes the dry fall off the funnel
into the bulk precipitation collector bottle. Thirty-three bulk pre-
cipitation sampling events were analyzed for 1976. The exposure time
ranged from one day to twenty-eight days. Elemental loading rates in
Kg/ha-day were determined for each bulk precipitation sampling event.
This data was then cumulated into monthly, seasonal, and yearly values.
Dry fall samples were taken intermittently. If a rain event oc-
curred while the sampler was in position, the sample was discarded. Each
time a sample was taken or discarded, the entire sampler was cleaned,
then it was repositioned, and the dates and times were recorded. If
no rain event occurred during sampling time, a liter of distilled water
was used to wash the dry fall off the funnel into the collector bottle.
The sample was then analyzed for the five elements. Exposure time
ranged from two to six days and the mean time was 2.9 days. One hundred
thirteen days of dry fall data were analyzed in 39 separate sampling
events for 1976. Naturally more samples were taken in dry months than
wet months. Exposure time, surface area of the funnel, and concentration
were all used in determining the loading rate in Kg/ha-day. This loading
rate was determined for each dry fall sampling event. Time points be-
tween sampling events were given mean loading rate values as determined
by averaging the loading rates determined immediately before and after
the missing time interval. Loading rates were then cumulated for the
entire month and were then adjusted by subtraction of a fraction equal
to the proportion of the time when rain was falling. These adjusted
monthly values were cumulated into seasonal and yearly values, and ex-
pressed as percent of bulk precipitation.
16
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Another large surface area stainless steel apparatus is located at
the Center on a roof top for the collection of rainfall from pesticide
analysis.
2. Evaporation and Wind Run
These parameters are monitored with automated standard weather
equipment (evaporation pan and anemometer).
3. Air Temperature, Dew Point, Wind Speed and Direction, and Sunlight.
These parameters are monitored with automated thermister, Lithium
chloride sleeve dew point apparatus, anemometer and weathervane (at
elevation of 20 meters), and an Eppley precision pyroheliometer.
IV. Plant Populations on Field-Sized Watersheds
1. Corn Plant Heights and Soil Coverage on Watershed 109
Corn plant height and total plant soil coverage were measured in the
cornfield watershed at approximately 10 day intervals during the growth
season. Heights were measured at five stations on randomly selected
plants. Soil coverage was measured by taking vertical color pictures
from an elevation of 6 meters. Percent leaf coverage was estimated by
projecting the color slides onto a grid with randomly selected inter-
cepts premarked. The percentage of intercepts which fell on plants was
then used to calculate soil coverage (point-intercept method).
2. Biomass and Nutrient Removal of Corn on Watershed 109
At approximately 20-day intervals during the growing season and at
harvest time corn plants were excavated at five stations. They were
separated into roots, stems, leaves, flowers, corn kernels, and corn
cobs for dry weight determinations, total Kjeldahl nitrogen content, and
total phosphorus determinations. Nutrient assays were done by the same
techniques as for soils. In September 1976 aboveground weed biomass was
measured as numbers and dry weight by species in three 25 m^ plots at
each of the ten stations. Three random 0.5 X 0.5 m subplots were
17
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sampled at each station.
3. Biomass and Nutrient Removal by Plants on Watersheds 110 and 111.
During the growing season of 1978 biomass of grass roots and tops
as well as nutrient contents are being measured monthly at each station
on Watershed 111. On Watershed 110 each month the nutrient composition
of foliage, heartwood, sapwood, main roots, and fibrous roots is being
measured for individual marked specimens of the major forest tree species
at each station. Population and biomass estimates can be obtained from
other research ongoing at the Center.
4. Plant Leaf Area Indexes on Watershed 109
At approximately 20-day intervals during the growing season corn
leaf areas per plant were determined in the same plots used for biomass.
5. Plant Populations on Watershed 109 Cornfields
In September the numbers of plants of each species on the cornfield
watershed were measured per surface area in the same plots used for bio-
mass and leaf area.
6. Plants on Watershed 110
Twenty 1 m^ wooden litter fall boxes, with screen bottoms, were
distributed over the entire watershed in a stratified random pattern.
Leaf, seed, and miscellaneous litter were collected at one or two week
intervals. These samples are sorted by species and counted. Regressions
of weight and leaf areas for each species are used to establish these
parameters based on data collected the two prior years.
V. Runoff Waters
1. Hydrographs and Water Sampling
All weirs (Stations 101, 102, 103, 105, 106, 107, 108, 109, 110, 111
in Table 1) are now 120° sharp crested V-notch weirs. The instrumentation
of these weirs was described in Correll, Pierce, and Faust (1975). It
has now been improved to include two parallel sampling pumps one of which
18
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pumps to a glass sample bottle, the other to a plastic sample bottle
which contains a small volume of 18 N sulfuric acid initially. In some
cases, on very small watersheds, the normal 25 lobe sampling cam in the
Leupold and Stevens Model 61 R flow meter has been replaced by a 50 lobe
cam. Custom fraction collectors have been built for use on some weirs,
especially on small single land use watersheds. These fraction collec-
tors are designed to trigger automatically at a predetermined water stage.
They then collect a fixed aliquot of water every time the flow meter
sampling switch is triggered (giving a pulse) by a given volume of flow.
A pulse counter triggers the fraction collector to move from one bottle
to the next when the preset number of pulses have been received, and an
event marker on the flow meter strip chart records the times of pumping.
Twelve bottles of twelve liters volume each can be collected. Since the
fractions are collected at identical times to the volume-integrated com-
posite samples, the composition of flows prior and subsequent to storm
event flows can be calculated. All stations are entirely battery operated
and are usually serviced twice a week. Volume-integrated samples are
collected weekly.
Grab samples are also taken every two weeks at a recorded time and
discharge rate for analysis of non-conservative parameters. Samples from
storm events are split with a stainless steel water-sediment splitter
(Fleming and Leonard; 1973). Samples are refrigerated prior to analysis
2. Particulates
Samples of water from weirs are filtered and the concentrations of
total particulates and mineral phase are then determined, as well as
size fractions and mineralogy. The volume-integrated composite samples
are filtered through pre-weighed and treated, 0.45 um nominal pore size
filters to remove the particulates. Weight gain of the filters gives
19
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total particulate material, and loss of material upon combusion gives
a measure of organic material. Spot samples at known flow rates will
be taken for mineralogy by X-ray diffraction and size distribution.
Mineralogy will be done on selected volume-integrated samples also.
(Carroll, 1970).
3. Cations
Samples for heavy metals determinations are prepared by concentration
of 500 ml of whole water to 10 ml after acidifying with 5 ml conc. HNO3.
Samples are then diluted appropriately and assayed for Fe, Mn, Zn, Ni,
Cu, Cd, Pb, Cr, K, Ca, and Mg by atomic absorption.
4. Nutrients
Samples are analyzed for concentrations of 1) total and ortho-
phosphate before and after Millipore HA filtration, 2) nitrate plus
nitrite, 3) ammonia, 4) organic nitrogen, 5) total organic matter.
The techniques used are those in common practice for nonautomated wet
chemistry. These concentrations multiplied by the water discharge rates
give total discharges per watershed.
a. Particulate and Dissolve Ortho- and Total Phosphorus
Samples plus or minus Millipore HA filtration in the field are
analyzed for phosphate by the stannous chloride method (Standard Methods,
1971) before and after digestion with perchloric acid (King, 1932). Com-
posited samples are only analyzed for total phosphorus.
b. Nitrate Plus Nitrite
Nitrate is converted to nitrite by passage through an amalgamated
cadmium column. Then nitrite is determined colorimetrically (Standard
Methods, 1971).
c. Arrcnonia
Determined by oxidation to nitrite with sodium hypochlorite and
20
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then as above.
d. Organic Matter
Determined by Kjeldahl digestion as described by Martin (1972),
distillation of the released ammonia and Nesslerization.
e. Organic Matter in Fresh Water Samples
Determined by the wet oxidation method of Maciolek (1962).
5. Herbicides
Samples of 2 to 10^ are treated with 5 g CaCl2* 6H2O per liter
overnight under refrigeration. They are then filtered through a 142 mm
Gelman, type A, glass fiber filter. The filter is placed in a glass
thimble with anhydrous sodium sulfate and is extracted with a mixture
of 50 ml benzene and 150 ml methylene dichloride in a Soxhlet extractor.
If recovery of benzene is less than 20 ml another 50-100 ml of benzene
is added at this stage. The filtrate is first extracted with 80 ml
benzene then it is extracted two times with 100 ml of benzene and 50 ml
of methylene dichloride. The organic extracts are then combined.
The organic extracts from 1) the filter (particulates) and 2) the
filtrate fractions are then concentrated, cleaned up on alumina columns,
and chromatographed (GLC) as described under the section on soils.
The extracted filter is then stored in a freezer and shipped on dry
ice to the Athens, Georgia EPA laboratory for paraquat analysis.
6. Bacteria
Bacteria that are indicators of fecal pollution and water quality
are monitored. These bacteria are total coliforms, fecal coliforms,
total and fecal Streptococci and Salmonella. Water samples are collected
from the weirs in sterile bottles at weekly intervals. Collected samples
are properly treated to retain viability of the above bacteria and returned
21
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to the laboratory within two hours of collection. The identification of
pathogenic bacteria involves procedures and techniques recommended and
described in Standard Methods for Examination of Water and Waste Water
(1971). Two methods are used for the identification and enumeration of
pathogenic bacteria, the Membrane Filter and Multiple Tube Fermentation
techniques. These techniques separate these organisms based upon their
physiological and temperature requirements such as lactose fermentation,
selenite, and azide tolerance, etc. Positive cultures for Salmonella
were confirmed by using biochemical and serological characters of these
organisms. Isolated cultures were serotypes with Salmonella 0 group A -
E antisera, Salmonella 0 poly valent antisera, and Salmonella Vj antisera.
All of the above antisera are commercially available (Blair, et al, 1973).
Total viable counts of heterotrophic, aerobic bacteria are determined
by standard plate counts.
22
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RESULTS
Data for all parameters measured on field-sized watersheds (109, 110,
and 111, Figure 2) are included in this section, as well as data on flow, heavy
metals, and herbicides from larger Rhode River watersheds. In general, we
have avoided repeating data already included in our progress report of a year
ago (#904/9-77-001). Figures 3 - 8 are maps of the three field-sized water-
sheds. A map of sampling stations, topography and land use boundaries, and a
soils map (Soil Conservation Service classification series) are presented for
each watershed. The latter were prepared by the Maryland district of SCS as a
service to the Smithsonian.
Rainfall per day data for our weather station and the field-sized water-
sheds are presented in Table 2. Major precipitation events occurred in 1977
on June 17, October 9, October 14, October 26, November 6, and December 19.
In 1978 major precipitation events occurred on January 25, March 26, May 4,
and May 16.
Soil moisture data are given in Table 3. Gravimetric data from soil cores
are given in part A. These were taken primarily to use in the calibration of
moisture probe readings. The actual probe (Gypsum blocks) readings for four
depths and 30 stations are given in part B of Table 3. Extensive data were
also obtained in the laboratory upon the response of the gypsum blocks to
various moisture tensions and temperatures (Table 3C, parts I and II) and on
the moisture retention characteristics of undisturbed (part III) and
disturbed (part IV) soil samples from the watersheds. These data (from
Table 3) have been graphed for use in Figures 19A - 19C. Probe response data
can be converted to moisture tension by using Figure 19A. The effects of
23
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temperature can be evaluated, to a certain degree, with Figure 19B. Soil
moisture content for various locations can be related to moisture tension
with the curves in Figures 19C, parts I - III. Soil temperature data for four
depths at 30 stations are reported in Table 4. A series of Tables (5-10)
and Figures (9 - 16) are extensions of data reported a year ago on corn plant
populations, leaf areas, heights, productivity, and nutrient withdrawal at
various times during the growing season. These data complete the set
necessary to translate corn plant height data into estimates of the other
paramaters in the series. Tables 11 - 17 report soil data of various types
for the three watersheds, not included in last year's report. These include
bulk densities, mass per surface area in depth zones, composition with respect
to particle size, organic matter, pH, nutrients, and herbicides.
Table 18 gives estimates of materials application rates to the corn
field watershed, as well as listing times of various farming activities.
Table 19 gives cattle grazing population data, hay removal, and feed input
data for the pasture watershed. Table 20 gives corn harvest data for water-
shed 109 in 1977. Table 21 summarizes farm survey data on materials
application by watershed basin in 1977.
A series of graphs in Figure 17 give rainfall intensity data for
selected storm events for which discrete sample data were taken. The highest
observed intensities were about 1.5 mm/min on March 14, 1978 (Figure 17C).
Figure 18 is a parallel series of hydrograph plots for field-sized watersheds
with the time periods marked for which samples were taken. Since the
fractions or samples were volume-integrated over time, the sample times are
shown as bars or brackets. Often sampling was not ideally distributed over
the entire course of the hydrograph. Compositional data for the water
discharged during these storm events is given in Table 25. Discharge data
24
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[volume-integrated over a week long period bracketing the storm) is given
for these same events in Table 26.
Tables 22 - 24 give discharge data for each week from the three field-
sized watersheds for bacteria, particulates, and nutrients. Table 28 gives
heavy metals discharge data for basin and field-sized watersheds. Table 27
gives herbicide discharge data for stations 12] and 122. Some of these data
have not been analyzed but some portions have been. The results can be found
in the publications listed at the end of the progress report.
25
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REFERENCES
Blair, J. E., E. H. Lennett, J. P. Truant. 1973. Manual of Clinical
Microbiology. Williams and Wilken Co., Baltimore, Md. pp. 151-174.
Carroll, D. 1970. Clay Minerals: A Guide to their X-ray Identification.
Geol. Soc. Amer. Sp. Paper 126, 80 pp.
Correll, D. L. and J. Miklas. 1975. In_: Mineral Cycling in Southeastern
Ecosystems. F. G. Howell, J. B. Gentry, and M. H. Smiths, editors.
ERDA Symposium Series (Conf-740513).
Correll, D. L., J. W. Pierce, M. A. Faust. 1975. A Quantitative Study
of the Nutrient, Sediment, and Coliform Bacterial Constituents of
Water Pollution. Proc. Southeastern Regional Conf., May 1975,
Blacksburg, Va. pp. 131-143. Va. Water Resources Research Institute.
Fleming, W. G. and R. A. Leonard. 1973. Water Sediment Splitter for Runoff
Samples Containing Coarse-Grained Sediment. Soil Sci. Soc. Amer.
Proc. 37:961-2.
Jackson, M. L. 1969. Soil Chemical Analysis - Advanced Course. 2nd Ed.
M. L. Jackson, Madison, Wise. 895 pp.
King, E. J. 1932. The Colorimetric Determination of Phosphorus. Biochem.
J. 26:292-297.
Maciolek, J. A. 1962. Limnological Organic Analyses by Quantitative
Dichromate Oxidation. U.S. Fish and Wildlife Service Report #60.
Martin, D. F. 1972. Marine Chemistry. Vol. 1. pp. 174-179. Marcel Dekker.
New York, N. Y.
Muir, D. C. and B. E. Baker 1976. Detection of Triazine Herbicides and
their Degradation Products in Tide Drain Water from Fields under In-
tensive Corn (Maize) Production. J. Agric. Food Chem. 24:122-125.
Richards, L.A. 1954. Diagnosis and Improvement of Saline and Alkali Soils.
U.S.D.A. Handbook No. 60, pp. 109-111.
-------�
Standard Methods for the Examination of Water and Waste Water, 13th Ed.
American Public Health Assoc., New York, N.Y.
Stanford, G., J. N. Carter, E. C. Simpson Jr., and D. E. Schwaniger. 1973.
Nitrate Determination of a Modified Conway Microdiffusion Method. J.
of the Assoc. Official Anal. Chem. 56:1365-8.
27
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SECTION B. SUBMERGED AQUATIC PLANTS IN CHESAPEAKE
BAY AMENDMENT
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INTRODUCTION
This is the second annual progress report on this amendment of the
status report and a detailed data report. It is not an indepth analysis
of results. It includes information with respect to an amendment to the
grant entitled "The Relationship between Die-Off of Submerged Higher Aquatic
Plants in Chesapeake Bay and Herbicides in Land Runoff," which was funded
by Region III of the Environmental Protection Agency under the Chesapeake
Bay Program.
The research in the above amendment was focused upon testing two hy-
potheses of the causes for a general die-off of rooted, submerged aquatic
plants in Chesapeake Bay in recent years. These hypotheses were:
1) That the plants are being inhibited or killed by agricultural
herbicides in land runoff, and 2) that increased turbidity due to erosion
and increased phytoplankton blooms are shading out the rooted plants.
These two hypotheses need not be mutually exclusive since both agri-
cultural herbicides and reduced light penetration would reduce photosyn-
thesis (many of the herbicides are photosynthetic inhibitors).
The Smithsonian Chesapeake Bay Center
The Chesapeake Bay Center for Environmental Studies, established in
1965 by the Smithsonian Institution, is a 1,000 hectare research facility
on the Rhode River. Rhode River is a subestuary on the western shore of
Chesapeake Bay just south of Annapolis, Maryland. This site was chosen
for long-term environmental research because it offered the opportunity
to study an estuary and its associated watershed which had many desirable
features for an intensive study. The system is small enough (485 ha of
open water and 3,332 ha of watershed) to be studied in some detail, yet
large enough to have most of the characteristics of an estuary and multiple
28
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land use watershed typical of the coastal plain on the western shore of
Chesapeake Bay. A large part of the research program at the Center is
concerned with man's effect on the water quality and biota of the estuary.
The Problem and Hypotheses about its Cause
Dense beds of a number of species of higher plants formerly occurred
widely in Chesapeake Bay as submerged "seagrass" or "seaweed" beds ten to
twenty years ago. These plant beds have suffered great declines, especially
in the last few years. The populations of many valuable animal species are
now suspected to be, in turn, adversely affected by this vegetable decline.
For example, Canvasback ducks depend heavily upon Potamogeton pectinatus
(sago pondweed) for forage and the "seaweed" beds provide "nursery grounds"
for many shellfish and finfish species. The dense beds of plants acted
1) to stabilize the bottom sediments and 2) as wave filters to protect shore-
lines on the Bay, thus their decline has been speculatively linked to in-
creased rates of shoreline erosion in recent years. The plant beds also
function not only as primary producers, but also as a mechanism of nutrient
recycling from bottom sediments. At least three speculative hypotheses have
been advanced to help explain the decline of higher aquatic in the Bay.
The first hypothesis is plant disease. In one case, the so-called
northeast disease of milfoil, a specific virus has been shown to be involved
in the decline. However, many species of plants in several families are in-
volved and no strong evidence is available linking general plant population
declines to diseases.
The second hypothesis is increased turbidity due to both erosion and
phytoplankton, and consequent shading out of submerged plant beds. There
is some support for the contention that turbidity due to phytoplankton has
increased in the upper Bay in the last ten to twenty years (chlorophyll levels
have gone up significantly). Erosion has also been high in areas adjacent
29
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to housing and industrial land developments. However, the evidence is not
very compelling and this is "the major" causal mechanism for the plant de-
cline. Erosion has not increased in many localities on the Bay where plants
have died out and the effects of erosion are rather localized.
The third hypothesis is that increased levels, as well as new types of
herbicides, used on agricultural lands in Maryland are the cause of the plant
die-offs. The list of herbicides which have been introduced on a wide scale
in Maryland agriculture in the last twenty years as a partial or complete
substitute for mechanical crop cultivation includes simazine, atrazine,
linuron, alachlor, trifluralin, and paraquat. These compounds are generally
toxic to the "seaweed" or "seagrass" plants, since they are vascular plants.
In fact, when these plants were abundant on the Bay, atrazine and simazine
were used in their control. Some of this list of compounds are of special
interest, since they are more likely to be transported into the estuary
(linuron) or they are used in the largest amount (alachlor) or they are likely
to be relatively persistent (simazine and atrazine).
Field Work Undertaken
This research program was designed to experimentally approach the ques-
tion of whether these herbicides are, in fact, responsible for part of the
dramatic die-off of submerged aquatic plants in recent times or whether shading
factors can be implicated. Much of the field research is being carried out
in the Rhode River, a subestuary of Chesapeake Bay near Annapolis, Maryland.
The Rhode River estuary has a surface area of about two square miles of open
water. The discharge of runoff water from most of its watershed into the Rhode
River is currently being monitored and sampled for chemical analyses as part
of the watershed research program. Less intensive but more extensive field
research is being conducted on the Choptank River, a large eastern shore sub-
estuary of Chesapeake Bay, and at the Poplar Islands (on the open Bay). The
30
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watershed of the Choptank River supports relatively intensive no-till agri-
culture while the crops on the Rhode River watershed are primarily grown with
minimum-till practices. No agriculture is practiced on or immediately adja-
cent to the Poplar Islands.
Laboratory Work Undertaken
Bioassays of the effects of the herbicides most likely to be present
in the Bay on important species of rooted, submerged higher aquatic plants
are being conducted in the laboratory under controlled conditions. This is
being done to test whether herbicide concentrations encountered in Chesapeake
Bay can be shown directly to be toxic to the plants.
31
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CONCLUSIONS
After two years of funded activity the estuarine plant/herbicide program
is on schedule. Field studies of plant populations on the Rhode and Choptank
Rivers and at the Poplar Islands versus habitat, shading and herbicide fac-
tors have been carried out for two growing seasons. Laboratory microcosm
bioassays have been conducted on four species of submerged vascular plants
with two herbicides. All data except herbicide analytical work are finished
for 1976 and 1977. A backlog of stored organic extracts for herbicide anal-
ysis still exists. Many Choptank River and Poplar Island samples haven't
been analyzed yet by GC. All Rhode River samples have been analyzed by
Ni-63 Electron Capture GC, but should also be analyzed with a Hall detector
in the nitrogen mode. Some multiple column confirmation has been done, but
more is desirable. Present data indicate that the partitioning of herbicides
in estuarine waters is an important issue that deserves more study.
32
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RECOMMENDATIONS
As a result of this research study, a series of recommendations can now
be made with respect to further resolving and defining, in an objective quan-
titative way, the causes of the observed die-off of submerged higher aquatic
plants in Chesapeake Bay. Also some recommendations can be made with respect
to other ramifications of our findings.
1. Data on the concentrations of other commonly used herbicides,
especially paraquat and phenoxyacetic acids should be collected.
2. Bioassays of chronic toxicity to filter-feeding shellfish and their
larvae such as oysters should be run by varying the concentrations of herb-
icides in suspended particulates.
3. A sediment seed bank study should be carried out in Chesapeake Bay
to establish the come back potential of the rooted, submerged higher aquatic
plant species native to the Bay.
4. Bioassays of synergistic herbicide effects on submerged, rooted
aquatic plants should be initiated.
5. Bioassays of the toxicity to submerged, rooted aquatic plants of
potential replacement herbicides for preemergent applications on soybeans
and corn should be initiated.
6. Bioassays of the toxicity of paraquat on submerged, rooted aquatic
plants should be carried out to test whether this herbicide is toxic to the
plants after it binds to clays and particulate organic matter.
7. Bioassays of the toxicity of simulated storm runoff events in
microcosms should be conducted in which herbicides are added as suspended
sediments which have been dosed with herbicide. The suspended sediments,
should be selected such that their Kd's are very high.
33
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Methods
1. Sampling stations descriptions
Figures 9 (Rhode River), 10 (Choptank River), 11 (Poplar Islands) and
the following listings give the details of station locations. Rhode River
stations are sampled once a month, year round. Other stations are sampled
in April, June, August, and October. Stations were selected in shallows (0.5-
2 meters at mean low tide) in areas which are realtively protected from wave
action.
a. Rhode River
Station River Latitude N/ Description
No. axis (Km) Longitude W
28
RR
0.0
38° 511
76° 31'
cr> co
Mouth of the Rhode River
on Cheston Point
28.4
RR
1.0
38° 52'
76° 311
25"
15"
In Canning House Bay, South
of channel marker RR 4
29
RR
2.1
38° 52'
76° 31'
57"
22"
In shallows south of channel
marker RR 7
30.2
RR
4.0
38° 53'
76° 32'
3"
44"
In shallows of Fox Cove
31.5
RR
5.1
38° 52'
76° 32'
40"
55"
Center of sediment trap area
at mouth of Muddy Creek
Choptank
River
71
CR
0.6
38° 39'
76° 20'
0"
0"
In shallows just north of
channel marker 9
72
CR
10.2
38° 37'
76° 13'
42"
45"
In shallows on upstream shore
of Todd Point
73
CR
20.8
38° 36'
76° 8'
12"
21"
In shallows on upstream shore
of Horn Point
74
CR
30.8
38° 34'
76° 3'
6"
24"
On south shore at concrete
bulkhead just downstream
from channel marker 27
34
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Station River Latitude N/ Description
No. axis (Km) Longitude W
75
CR
39.6
38°
75°
36'
58'
33"
30"
On southeastern shoreline
opposite Warwick Creek
channel marker 1
76
CR
48.4
38°
75°
40'
56'
27"
42"
On eastern shoreline opposite
channel marker 41 (at mouth of
Hunting Creek)
77
CR
67.9
38°
75°
46'
57'
42"
48"
On southeastern shore opposite
channel marker 58. On upstream
side of a narrow point.
78
CR
88.3
38°
75°
52'
50'
57"
24"
On the western shore opposite
channel marker 79, just down-
stream from Denton
5oplar Islands
81
38°
76°
46'
22'
12"
30"
Midway between Jefferson Island
and northern Poplar Island in
3-4 feet of water
82
38°
76°
45'
22'
33"
42"
On inner (eastern) side of
south end of Poplar Island
83
38°
76°
45'
21'
18"
57"
Near dock on northeastern side
of Coaches Island
84
38°
76°
45'
21'
0"
45"
On eastern shore of southeastern
corner of Coaches Island
2. Submerged higher aquatic plants
A common steel garden rake is used to collect plants by scrapping the
surface of the bottom sediments in random paths in areas of 0.6 to 1.2 meters
depth. A total area of bottom of from 10 to 100 square meters per station is
sampled, depending upon plant abundance. Samples of plants from each station
are sorted by species, counted, dried to constant weight at 60° C in an oven
and weighed. On side visual observations are also recorded of presence or
absence of plants.
35
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The Shannon diversity index was calculated from plant population (numbers)
data by the formula:
Shannon Index = -E^ Pi In P..
where: P. = number of individuals of species i per m2 divided by
the total number of individuals per m2
3. Habitat parameters
a. Salinity
Vertical profiles of salinity were determined at each station with
a Beckman model RS5-3 induction type salinometer calibrated before each
cruise with standard seawater.
b. Bottom sediment characterization
At each station 3 Pflueger cores were taken unless the bottom was
too hard in which case 3 Ekman Dredge samples were taken. These samples
were analyzed for percent organics, mineralogy, and mineral particle
size distribution. In the case of cores these parameters were measured
as vertical profiles. Soils are fractionated into sand, silt, and clay
by screening and hydrodynamic methods and each fraction is weighed. The
amount of organics is determined by firing. Mineralogy is determined on
silt and clay fractions by X-ray diffraction. Preparation is described
by Carroll (1970).
4. Shading parameters
a. Phytoplankton chlorophyll a concentrations
Between stations the boat was operated at an even speed and surface
waters were pumped continuously from a depth of 0.5m through a flow-thru
door (110-880A) on a Turner model 111 fluorometer. The fluorometer had
a F4T4-BL blue excitation lamp, a Corning 5-60 excitation filter, a
36
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Corning 2-64 emission filter, and a red sensitive photomultiplier tube
(R-136). The signal was recorded on an integrating strip chart recorder.
A sample of known volume was taken at a marked time position on the chart
for each transect filtered through a Millipore HA filter, and the filter
was dissolved in 90% acetone saturated with MgC03 and stored in the dark.
The acetone extract was then analyzed for chlorophyll a by the method of
Loftus and Carpenter (1971). The average in vivo fluorometer response
was then determined by regression of the transect recording versus the
in vivo concentrations. Concentration of chlorophyll a was determined
by multiplying times the ug in vitro chlorophylla, per in vivo response
unit from the regression.
b. Turbidity
A Hach, model 2100A, turbidimeter was used to measure the turbidity
of samples in the field. It was calibrated, in Jackson units, with
sealed standards before each measurement. Three samples of surface
waters were analyzed at each station.
c. Suspended particulate characterization
Surface water samples were filtered through prewashed and weighed
Millipore HA filters. Weight gain was used to assay for total particu-
lates. Mineral particulates were determined after firing organic matter
present in the sample. Size fractions and mineralogy were determined as
described by Carroll (1970).
d. Photosynthetically active radiation penetration.
A Lambda model LI-185 quantum radiometer equipped with a LI-190S
quantum sensor and a LI-192S underwater quantum sensor was used, be-
37
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ginning in the spring of 1977, to measure incoming PAR quanta flux and
underwater penetration of PAR to various depths.
5. Herbicide parameters
a. Sampling and extraction
At each station 15Ŗ of surface waters are taken and 5Qg CA Cl2
are
added. The sample is allowed to stand overnight and is then filtered
through a 142mm Gilman, type A, glass fibre filter. The filter it. then
treated with anhydrous sodium sulfate and extracted with 59 ml of benzene
and 150 ml of methylene dichloride in a Soxhlet extractor. The filtrate
is extracted with ICO ml (or enough to obtain at least 20 ml of extract)
of benzene and then twice with 100 ml benzene and 50 ml of methylene
dichloride. Sediment cores (3) are taken at each station with a Pflueger
corer. In cases of hard bottom conditions, a set of three Ekman dredge
samples were taken. These sediment samples were stored on ice until they
could be segmented (cores) into surface to 3cm and 3-6cm segments. Sub-
samples of lOg weight were then mixed with TOg anhydrous sodium sulfate
and extracted with a mixture of 50 ml benzene and 150 ml of methylene
dichloride in a Soxhlet extractor. Water content of the sediment is
determined by drying a duplicate sample Df 0.20g wet sediment at 100°C
for 24 hours.
b. Cleanup procedure
The organic extract is treated overnight with anhydrous sodium sul-
fate and is then concentrated to about 8m? with a Kuderna-Danish Evaporator
on a water bath. A glass chromatographic column packed with 15g of alumina
(activity grade V) and topped with 5g anhydrous sodium sulfate, is washed
with 50ml petroleum ether. The sample is applied to the column and eluted
38
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with 100 ml hexane and then a mixture of 50 ml benzene and 50 ml hexane.
The combined elute is collected directly in a Kuderna-Danish evaporation
flask and is then concentrated to about 8 ml and stored in a refrigerator.
c. GLC chromatography
An aliquot sample is injected into a Tracor, model 560, gas chromato-
graph equipped with a Ni-63 electron capture detector and a model 310 Hall
detector. A 6 ft X 4mm coiled all glass column is used. The column is
packed with 10% DC 200 on Gas-chrom Q (100-200 mesh). Input temperature
is 200°, column temperature is 190° and detector temperature is 350°. A
standard is run between each unknown sample and the next. Calibration
series are run with standard solutions of each herbicide.
d. Confirmation of GC peaks
It is necessary to confirm the identity of various peaks occasionally.
We have attempted to do this in two ways.
First by subjection of samples to integrated GC/mass spectrograph
analysis. Secondly, we make confirmations by the two column procedure.
A second GC column (Carbowax 20M) is run (Muir and Baker, 1976). We also
attempt to obtain confirmation by use of a Tracor, model 310, Hall de-
tector in the nitrogen mode and plan to check as many as possible of our
samples for this program in this manner.
e. Quality control program
A program had been developed and partially implemented as noted in
our June, 1977 annual report and our June, 1977 Laboratory guide, for
herbicide analysis. As a result of visits and discussions with Mr. Payne
and Mrs. Benner, we are now improving and expanding this program and will
report on it in detail in the near future. We also plan to incorporate
any suggestion from EPA, region III.
39
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6. Submerged aquatic plant/herbicide bioassays
a. Growth conditions
Two 4 foot x 8 foot x 1 foot (deep) steel water jackets were built,
insulated with styrofoam, and equipped with recirculating thermostated
water chillers (Neslab model CF 75 with PD-2 pumps). Two 4 foot x 8 foot
reflector lined fluorescent light banks were built. Each contains 24 -
80 watt fluorescent units with daylight type tubes. The light banks are
on timers set for 16 hour photoperiods. Vycor immersion heaters were
used to provide a constant heat load to the water jackets and the tem-
perature was maintained at 23°C, except for studies of Zostera which
was run at 12°C. One water jacket was used to temperature control 9 -
20 gallon all-glass aquaria, which are used as holding tanks for experi-
mental plants. The second water jacket was used to temperature control
16 - 10 gallon all-glass aquaria for test (bioassay) purposes. All aquaria
were aerated with air from two commercial aquaria compressors. Aerators
are horizontal tubes with small holes every inch of their length which
run the full length of the aquaria. They are regulated with needle valves
and their depth can be adjusted. Glass plates are kept over 90% of the
surface of each aquarium. Forest soils from watershed 110's drainage
channel were analyzed for particle size distribution, mineralogy, and
percent organic matter to select a sample for tank bottom sediments which
best matched conditions at station 30.5 (Figure 9). This was done to assure
a noncontaminated baseline in the aquaria, since no herbicides have ever
been used within approximately one mile of watershed 110. In addition,
samples were analyzed for herbicides. Each tank was filled to a depth of
5cm with this soil. Herbicide, in alcohol or methanol, was added to a
calculated concentration and was well mixed. Plants were transplanted
40
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into the soil approximately 200 young Zannichellia palustris per tank in
the first experiment). Well water plus enough instant ocean salt mixture
(Aquarium Systems, Inc.) to bring it to 5 parts per thousand was added
and it was aerated until the pH was about 8, except in the study of
Zostera, in which the salt concentration used was 12ppt. The next day,
after excessive turbidity had subsided, herbicide was added to bring the
water to a level calculated to be a thousand fold lower in concentration
than the sediments. Eight tanks were used to assay atrazine effects and
eight for linuron effects. In each case, two banks were controls (un-
treated), two were given about 1 ppm of herbicide in the sediments, two
were given about 10 ppm of herbicide in the sediments, and two were given
about 100 ppm of herbicide in the sediments. Experiments were carried
out for at least four weeks from herbicide addition.
Bottom sediments in test tanks
Desired to Actually used
replicate from 110
Parameter Station 30.5 mean ą SE
% organic 11.5 11.4 ą 5.0
% sand 29.1 32.1 ą 2.5
% silt 61.2 60.2 ą 5.7
% clay 9.7 7.7 ą 4.0
b. Assays
Tanks were routinely monitored for water temperatures and turbidity.
Photosynthetically active radiation was measured. At the surface of the
light banks PAR was 430 pE/m2sec. At the water surface in the aquaria
PAR varied from 80 to 140 yE/m2sec. Subsamples of plants were bioassayed
two times a week by washing off the accumulated growth of algae and
41
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sediments then placing them in BOD bottles filled with Mi Hi pore HA
filtered well water which had been adjusted to the same salinity and
pH as the test tanks. A YSI BOD oxygen electrode probe was then in-
serted in each bottle and the bottle was floated in the water jacket
under the light banks. Each assay was routinely begun at the beginning
of the 8 hour dark period. DO was read after thoroughly mixing the
bottle contents at 0, 4, and 8 hours of darkness, then at more frequent
intervals during the light period. The plants from each bottle were then
counted and their length and dry weights were measured. The data points
for dark and light DO sets were then subjected to linear least squares
regression to obtain DO slopes for respiration and photosynthetic rate
estimates.
c. Herbicide sampling
Bottom sediments from each tank were sampled at the beginning and
end of the four week run. Water samples were taken (one liter each)
once a week and were not replaced. Samples were analyzed as described
in other earlier sections.
42
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RESULTS
Sample collection
The 12 stations on the Choptank River (Figure 21) and at the Poplar
Islands (Figure 22) were sampled in April, June, August, and October of 1977.
The five Rhode River stations (Figure 20) were sampled every month from April
through November of 1977 and again from April through June, 1978.
Laboratory bioassays
In addition to the assays on Horned pondweed (Zannichellia palustris)
described in last year's report, assays were also conducted on Sago pondweed
(Potamogeton pectinatus), Wild celery (Vallisneria americana), and Eel grass
(Zosteria marina). The conditions of the assays were identical to last year's,
except in the case of eelgrass, where the temperature was lowered to 12° and
the salinity was raised to 12 ppt.
Data from field activities
The data from the field activities is included in Tables 29 - 34. In
general, data included in last year's report is not duplicated in this report,
except as noted below. Plant population data is given in Table 29. In 1977
plants grew well until midsummer when they experienced an almost total die-off.
A few plants lingered on at a few stations into the fall. Data concerning
bottom sediment physical/chemical characteristics is included in Table 30.
Table 31 lists the characteristics of suspended sediments. Table 32 lists a
variety of estuarine parameters affecting plant stress (e.g. salinity and
temperature) or light penetration (e.g. turbidity, PAR penetration). Table 33
gives the phytoplankton chlorophyll a concentrations. Chlorophyll is a
selective shading factor.
43
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Table 34 lists herbicide concentration data for Rhode River stations in
both 1976 and 1977. Values for herbicides at estuarine stations in the 1976
report (904/9-77-001, Table 34) were incorrect and these new values should be
substituted.
Data obtained in the laboratory bioassays and in field bioassay are
reported in Tables 35 - 38 and in Figures 23 - 25.
In situ field bioassay data are given for Sago pondweed at Rhode River
station 30.2 in Table 35, parts A - C. The same type of data are given for
Widgeon grass (Rupia maritima) in Table 35, part D. In all cases PAR values
are also given for each depth. In the last part the plants were also assayed
in the laboratory under standard bioassay conditions.
Table 36 gives bioassay raw data from the laboratory for Wild celery,
Sago pondweed, and Eel grass, Figure 23A, I shows the relationship between
Wild celery leaf surface area and whole plant dry weight for controls.
Figures 23A, II and III show the effects of herbicides on leaf area change
for Wild celery. Figure 23B gives an example of a set of raw data from a
Wild celery assay after 4 days exposure to herbicides at various concentrations.
Table 36, part IV gives the regression equations obtained when either gross
photosynthetic rates or net oxygen production rates are regressed against
time of exposure. The plots of the data used to obtain the regression
relationship of Table 36, part IV are found in Figures 23C through 25B. The
same data are listed in Tables 37. The data from Figure 23A, part I are
given in Table 38. Those results which have been analyzed in detail have been
published in several papers listed at the end of the report.
44
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References
Carroll, D. (1970). Clay Minerals: A Guide to Their X-Ray Identification.
Loftus, M.E. and Carpenter, J.H. (1971). A fluorimetric method for
determining chlorophylls a, b and c. J. Marine Res. 29: 319-338.
Muir, D.C. and Baker, B.E. (1976). Detection of triazine herbicides and
their degradation products in tile-drain water from fields under in-
tensive corn (maize) production. J. Agric. Food Chem. 24: 122-125.
45
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SECTION C. BASIN-SIZED WATERSHED NONPOINT
SOURCES AMENDMENT
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Introduction
This is the second annual progress report on this amendment of the grant.
It is both a status report and a detailed data report. It is not an in-
depth analysis of the results. It includes information with respect to an
amendment to the grant entitled "A Quantitative Study of the Diffuse Source
Loading of Chesapeake Bay", which was funded by Region III of the Environmental
Protection Agency under the Chesapeake Bay Program.
The goals of this amendment included (A) the maintenance of the cali-
bration of a statistical model relating non-point sources to land use on basin-
sized Rhode River watersheds, (B) the verification of the application of this
model to subbasins of the Patuxent River, (C) the quantification of non-point
source ameliorating affects of tidal marshes, and (D) the initiation of sur-
face runoff and the shallow groundwater studies on very flat eastern shore
agricultural lands at Horn Point.
The watershed program at Rhode River
The Chesapeake Bay Center for Environmental Studies, established in 1965
by the Smithsonian Institution, is a 1,000 hectare research facility on the
Rhode River. Rhode River is a subestuary on the western shore of Chesapeake
Bay just south of Annapolis, Maryland. This site was chosen for long-term
environmental research because it offered the opportunity to study an estuary
and its associated watershed which had many desirable features for an intensive
study. The system is small enough (485 ha of open water and 3,332 ha of
watershed) to be studies in some detail, yet large enough to have most of
the characteristics of an estuary and multiple land use watershed typical
of the coastal plain on the western shore of Chesapeake Bay. A large part of
46
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the research program at the Center is concerned with man's effect on the water-
shed through air pollution, land use practices, and the changing pattern of
land brought about by a rapidly growing human population.
The goals of the watershed program include:
(1) The accurate measurement of the loading of the estuarine receiving
waters with land runoff waters and the contents of the runoff waters.
(2) The determination of the present average area yield loading rates
for each major land use category on the watershed for each parameter.
This will enable accurate predictions of the effects of urbanization,
etc. on diffuse source estuarine loading to be made by a determin-
istic approach.
(3) The determination of sufficiently detailed information on watershed
characteristics, local meterology and runoff parameters from small
single-use watersheds, typical of each major land use category to
allow the development of mechanistic predictive models.
(4) The determination of the effects of variations in land use practices
upon runoff from each major land use category.
(5) Testing the results and predictions derived from studies of the
Rhode River watershed for their validity or transferability on other
coastal plain watersheds in this region.
(6) To develop a tested methodology for application in other regions.
These goals point out the extent to which this program is focused upon the
impact of man's activities upon the watershed. The watershed was settled by
Europeans in the 1650's and cleared for agriculture. Prior to that time, it
was occupied intermittently by Indian villages for several thousand years. It
should be noted that this watershed had a human population of about 3,000 in
47
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1973, and in 1976 the portion of the watershed under study (2,964 ha) has a
land use composition as follows: 15.8% row crops; 2.2% freshwater (nontidal)
swamps and ponds; 1.9% tidal marshes; 58.6% forest and old fields; 10.2%
pasture; and 11.2% residential, commercial, and other categories. A land use
history based upon written records has been compiled by Dan Higman and an oral
land use history is being compiled by Amy Hiatt. The spatial pattern of land
use on the watershed can best be described as a mosaic, and is typical of this
region. Thus, it is not possible to select subwatershed basins of any size
(more than a few ha) which contain only one land use. Instead, basins contain-
ing a more complex mixture of land uses must be studied and the results analyzed
with respect to the effects of land use.
Description of Rhode River watershed
The geography of the Rhode River watershed and the various subwatersheds
which are under study are shown in Figure 2. The location of the weather station
(W) is also shown. Table 1 lists the subwatersheds under study by name and num-
ber, as well as giving their total surface areas and a summary of the proportions
of six land use categories present on each. The monitored watersheds vary in
size from a few hectares to about 1,200 hectares. Land use varies from all or
nearly all one type to complex mixtures of all land use categories. The larger
basins include some (102, 108) with relatively high proportions of row crops,
one (121) with much more upland wet areas, one (122) with more tidal wet areas,
many (103, 105, 107 and 122) with high proportions of forest and old fields,
some (101, 106) with more pasture, and two (123, 124) with more residential
area. Small single-use watersheds (109, 110, 111) have been selected for in-
tensive study of areas which best typify row crops, forest, and pasture land
uses. The slopes of the larger watersheds average between 3 and 9 percent with
48
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an overall average slope for the whole study area of about 5 percent. Geo-
logically the Rhode River watershed has sedimentary soils from the Pleistocene
Talbot formation at low elevations on the eastern portion of the watershed and
Eocene Nanjemoy formation soils at low elevations further west, Miocene Calvert
formation soils at intermediate elevations and Pleistocene Sunderland formation
soils at the highest elevations. A few outcrops of Pleistocene Wicomico forma-
tion soils are also found. The mineralogy of the soils in the various parts of
the watershed is fairly uniform with a high level of montmorillonite and quartz,
intermediate levels of illite and kaolinite, and low levels of gibbsite, chlorite,
potassium feldspar, and plagioclase. The soils differ locally primarily with
respect to the proportions present of sant, silt, and clay. Bedrock is several
thousand feet below the surface. The aquaclude is a clay layer, the Marlboro
clay at about sea level elevation throughout the watershed.
Scope of the research at Rhode River
The Rhode River watershed research program began in the summer of 1971.
At that time the monitoring of water composition in five streams was begun.
Also, Dr. Edward Pluhowski, of the U.S. Geological Survey built a 90° notch
weir on watershed 101 and began to establish a rough correlation between stream
flow on each of the other four streams and the flow he measured at station 101.
The composition of grab samples from these streams was measured until it became
apparent in 1973 that permanent weirs and volume-integrated composite sampling
on each watershed would be necessary to accurately measure discharge rates.
By early 1974, the first five of these weirs were completed. The network of
weirs has been enlarged to 12 permanent and 2 temporary weirs in operation at
the beginning of 1978. Five more permanent stations are under construction or
planned for 1978. These monitoring stations are of two general types but all
49
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are designed to measure the volume of water movement and to sample proportional
to that flow. In addition to composite samplers, six fraction collectors for
the discrete sampling of storm events have been built.
c
Special rainfall collectors for rainfall and dryfall chemistry were first
used in early 1973. Now several types are in use. They are located at the
weather station in Figure 2. A network of rain gauges was established in 1973
and expanded in 1976. One has been operated at the weather station for many
years. The weather station, operated by Dan Higman, measures sunlight, rainfall,
evaporation, wind speed and direction, air temperature, dew point, and baro-
metric pressure.
Rainwater and stream water samples are now analyzed for: pH, turbidity,
temperature, total and orthophosphate phosphorus in filtered and whole water,
total Kjeldahl nitrogen, nitrate, nitrite, ammonia, organic matter, alkalinity,
total and mineral suspended particulates, suspended particle mineralogy, eleven
cations (Ca, Mg, K, Fe, Ni, Cu, Zn, Pb, Cr, Cd, Mn), total viable bacterial cells,
total and fecal coliform bacteria, fecal Streptococci, and four herbicides
(alachlor, atrazine, simazine and trifluralin).
Land use is determined by the analysis of low elevation aerial photos and
ground truth surveys. Land use practices of landowners are surveyed by the use
of door to door questionnaires. The land use practices surveyed include area
planted in each crop, applications of agricultural chemicals (e.g. herbicides,
fertilizers, lime), livestock populations, residential use of pesticides,
fertilizers and lime, and human populations.
In the case of field-sized watersheds, selected to typify major land use
categories, a number of parameters are measured to enable a better assessment
of the mechanisms or causes of changes in the composition of runoff waters.
50
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These include detailed studies of land use practices, plant populations, pro-
ductivity, soil cover, frequent surveys of soil chemistry (e.g. levels of various
forms of nitrogen and phosphorus, levels of pesticides, pH, major cations such
as Ca, Mg, and K), detailed geochemistry (e.g. percentage of organic matter,
sand, silt and clay; mineralogy of silt and of clay), frequent monitoring of
soil temperature and moisture. The soil parameters are usually determined as
vertical profiles at each of a series of elevational contours.
The Horn Point Study Site
Study of non-point source loading on the eastern shore is an important
adjunct to the Rhode River study on the western shore. Particular differences
between the two sides of the bay are topography, land use, and vegetation. The
eastern shore is flat, low coastal plain with more tidal shore line than the
western shore. Urban and suburban areas are sparsely located and relatively
small on the predominately rural eastern shore. Agricultural land use can be
generalized as having more crop farming on the eastern shore than livestock
rearing.
The study site at Horn Point Enviornmental Laboratories (HPEL) is typical
of the lower eastern shore in all respects. The topography is relatively flat
with most of the land about eleven feet above sea level (3.5m). Land use is
crop farming, specifically corn, soybeans, and small grain, and few home sites.
Vegetation on the watersheds at HPEL is forest, grass, and crops. Figure
shows the vegetation at the study site without indicating the type of crop for
each field. The standard croping system is a two-year, there crop rotation
for corn, wheat, and soybeans, in that order.
These basin-sized watersheds have been studied at Horn Point. Two are
instrumented with 3 foot Parshall flumes and volume-integrated water samplers.
51
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One is forested and drains 33.2 ha and the other is cropland and drains 86.3 ha.
A third basin has a variety of land uses on 53.5 ha and drains into a tidal
marsh. The marsh is connected to the Choptank River by a tidal creek on which
a tidal flume has been constructed for flow measurements.
In addition to runoff (primarily surface) gauging with the Parshall
flumes, a network of shallow ground water wells has been constructed for moni-
toring water table slopes and water quality. Percolation rate studies, as a
function of water table slope, allow the calculation of ground water area yield
discharge rates via ground water percolation directly into the Choptank River
and associated lagoons and tidal marshes. More detailed descriptions of the
soils, geology and agricultural setting at the Horn Point site can be obtained
in Stevenson and Lomax (1977).
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Conclusions
Continuous data sets during 1976-1978 have been gathered on eight basin-
sized watersheds at Rhode River for water, sediment, nutrient, and bacterial
discharges. Two basins on the Lyons Creek subwatershed of the Patuxent River
were monitored for the same parameters for the 1977 watershed year and two basins
draining the town of Crofton on the Little Patuxent River watershed are now being
monitored. A detailed report on the results of monitoring Patuxent River water-
shed runoff versus predictions of runoff has been published and is appended to
this report. Generally, statistical comparisons between Rhode River watersheds
and Patuxent River watersheds based on land use and slope were able to predict
non-point source loadings reasonably well.
Data sets for two Horn Point basins were collected in 1977-78 for surface
runoff and shallow ground water percolation to evaluate the behavior of these
very flat agricultural lands. Data sets were collected on the water quality
modulating effects of tidal marshes and a detailed report for the spring, summer,
and fall seasons at Rhode River was prepared. That report is appended to the
grant report. Data from all phases of the program is being processed and stored
in the Smithsonian computer data bank.
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Recommendations
As a result of our research efforts to date, several recommendations can
be made to improve future results.
1. If adequate weir maintenance, land use data collection, and map
analysis are to be done, full funding must be obtained. For
approximately two years only low-level emergency maintenance funding
has been provided.
2. Attempts should be made to test simulation models such as ARM and
the USDA hydrologic model on these watersheds where from three to
six years of data are available.
3. At Rhode River an attempt should be made to couple watershed models
to an estuarine receiving water model. The system is small enough
to do this at reasonable cost and a large data set exists.
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Methods
1. Land Use Survey
a. Farm Land use on Rhode River Watersheds
Land use breakdowns into various categories and the area of land
within each category on each watershed have been determined for Rhode
River and monitored Patuxent River watersheds from low elevation aerial
photos (see Table 1).
In addition, using the 1972 tax map as a guide (with some revisions)
we have identified 53 farms in the Rhode River watershed. These lands
cover about 6,648 acres or about 74% of the watershed. For the purposes
of this survey we have defined a "farm" as any individual parcel (or com-
bination of adjacent parcels with the same owner) which consists of 20
acres or more. Only about 60% of these "farms" contain any land that
is actually being used for the production of crops, so the term is some-
thing of a misnomer. The remaining lands fall under a variety of land
use categories: woodland, recreational, abandoned fields, etc. Since
almost all real farms also contain some of these other land uses, we saw
no reason to limit the sample.
So far we have surveyed all of the farms in the watersheds covered
in this report. Detailed data on livestock, land use ground truth for
each field, fertilizers, lime, and pesticides have been compiled. Where
advisable the amounts and identity of farm chemicals have been further
confirmed at the local farm cooperatives, where most local farmers ob-
tain their materials.
b. Residential Land Use Practices on Rhode River Watersheds
A retired door-to-door salesman who lives on the watershed, was hired
part-time to conduct this survey. A questionnaire was designed to put the
55
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home owners at ease by asking such questions as how do you keep your lawn
so good looking? The residential parts of the watershed were first di-
vided into neighborhoods whose boundaries correspond to both drainage
basins and neighborhood age, affluence, etc. Then each was subjected
to a stratified random subsampling of about 20% of the homes and businesses.
2. Topographic Survey of Horn Point Site
Surface watershed determinations were based on a topographic survey and
visual observation. The flat land makes map determination of the watershed
difficult even with a one-foot contour map as shown in Figure 29. Notice
the prominence of the man-made ditches relative to surface relief. During
the following rain events, notes were made on the direction and apparent rate
of flow in ditches and depressions. These observations were instrumental in
establishing the watershed boundaries shown on Figure 28. The areas of the
watersheds are as follows: forested, 33.2 ha (82 acres); marsh, 53.5 ha (132
acres); agriculture, 86.3 ha (213 acres). Figure 30 shows the man-made
activities on the study site. The one building in the agriculture watershed
has an evapotranspiration system for sewage disposal so that neither the woods
nor agriculture watersheds have any septic systems to contribute bacteria and
nutrients to runoff.
3. Meteorological Measurements
a. Rainfall and Dry Fall
Tilting bucket rain gauges (Stevens) with a resolution of 0.01 inch
per pulse and a readout on paper tape every five minutes are located at
six stations on Rhode River (Figure 26). A strip chart recording weighing
rain gauge is also located at the Rhode River weather station (Figure 2)
56
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and at the Horn Point study site. A total of 20 manual rain gauges are
now located on the Rhode River watershed (Figure 26) and one at each
Patuxent site. Rainfall is also collected at Rhode River in a special
apparatus mounted 13 meters above the ground for chemical analysis
(nutrients). The rain collectors consist of two identical four liter
pyrex glass bottles, and two Nalgene polyethylene 28cm diameter funnels.
The funnels are fitted to the top of the bottles with a rubber stopper.
Fiberglass window screening was placed over the funnels to prevent insects
from getting into the bottles. Both funnels were exposed to atmospheric
fall out at all times. One funnel was used for bulk precipitation measure-
ments, the other was used for dry fall.
Bulk precipitation samples were taken continuously. The sampler
was emptied after each rain event and then repositioned. If sufficient
sample was taken from one rain event, it was then analyzed. If the rain-
fall amount was too small, it was placed in a sealed plastic bottle and
refrigerated at 4° C until the next bulk precipitation sample was added
to it. This procedure went on until sufficient sample was obtained. The
bulk precipitation collector bottle funnel and screen were cleaned, and
dates and times recorded each time a sample was removed. This procedure
assumes that each rain event washes the dry fall off the funnel into the
bulk precipitation collector bottle. Thirty-three bulk precipitation
sampling events were analyzed for 1976. The exposure time ranged from
one day to twenty-eight days. Elemental loading rates in Kg/ha-day were
determined for each bulk precipitation sampling event. This data was then
cumulated into monthly, seasonal, and yearly values.
57
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Dry fall samples were taken intermittently. If a rain event occurred
while the sampler was in position, the sample was discarded. Each time a
sample was taken or discarded, the entire sampler was cleaned, then it
was repositioned, and the dates and times were recorded. If no rain
event occurred during sampling time, a liter of distilled water was used
to wash the dry fall off the funnel into the collector bottle. The sample
was then analyzed for the five elements. Exposure time ranged from two
to six days and the mean time was 2.9 days. One hundred thirteen days of
dry fall data were analyzed in 39 separate sampling events for 1976.
Naturally more samples were taken in dry months than wet months. Ex-
posure time, surface area of the funnel, and concentration were all used
in determining the loading rate in Kg/ha-day. This loading rate was
determined for each dry fall sampling event. Time points between sampling
events were given mean loading rate values as determined by averaging the
loading rates determined immediately before and after the missing time
interval. Loading rates were then cumulated for the entire month and were
then adjusted by subtraction of a fraction equal to the proportion of the time
when rain was falling. These adjusted monthly values were cumulated into
seasonal and yearly values, and expressed as percent of bulk precipitation.
b. Evaporation and wind run
These parameters were monitored with standard weather equipment
(evaporation pan and anemometer) at both Rhode River and Horn Point.
c. Air temperature, dew point, wind speed and direction, and sunlight
These parameters are monitored with automated thermister, Lithium
chloride sleeve dew point apparatus, anemometer and weathervane (at ele-
vation of 20 meters), and an Eppley precision pyroheliometer at Rhode River.
58
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Runoff Waters
a. Hydrographs, surface flow and water sampling
All Rhode River basin weirs (Stations 101, 102, 103, 105, 106, 107
and 108 in Table 1) are now 120° sharp crested V-notch weirs. The instru-
mentation of these weirs was described in Correll, Pierce and Faust (1975).
It has now been improved to include two parallel sampling pumps one of
which pumps to a glass sample bottle, the other to a plastic sample bottle
which contains a small volume of 18 N sulfuric acid initially. In some
cases, on very small watersheds, the normal 25 lobe sampling cam in the
Leopold and Stevens Model 61 R flow meter has been replaced by a 50 lobe
cam. Surface water flow from Horn Point basins is measured by parshall
flumes and a flux section. The flumes on the agriculture and woods water-
sheds are both 3 ft. (.90m) parshall type manufactured of fiberglass to
standard shape and dimensions. The flumes are of equal size for inter-
changeable instruments even though the watersheds are unequal in area.
Selection of this flow measuring system was based on its ability to pro-
vide accurate or correctable data with low head and submerged conditions.
The instruments at the flume sites are identical with those located at the
weir sites of the Rhode River study, and punch tape records are processed
at Rhode River. The flux section at the mouth of the marsh watershed is
not yet complete. Samples were collected at HPEL sites as described above
for Rhode River.
The subsurface movement of water may be more important as a carrier
of pollutants on flat lands adjacent to the estuary than on steeper slopes
further from the estuary. Sub-surface water movement is being studied
using a grid of ground water wells to measure fluctuation in the elevation
-------�
of the water table. Elevations of the free water in the sub soil sedi-
ments are used to calculate flow in the aquifers. The sediments on the
study site are varied, as deposited in geologic history, but can be
grouped into four major categories. The categories of sediment from lm
(3 ft.) to 3m (10 ft.) below the ground surface are silt, shallow sand,
sand and silt, and deep sand as shown on Figure
The sediment map (Figure31) was developed from the drilling logs
recorded for each ground water well. Each location was classified into
one of the four categories as follows: a profile showing predominantly
silt of a uniform character was called silt. Shallow sand indicated that
a sandy stratum at least .3m (1 ft.) thick was found within 1.5m (5 ft.)
of the ground surface. When a profile lacked a sandy stratum, but con-
tained layers of sand and silt intermixed, then the location was called
sand/silt. The Deep Sand category indicated a sandy stratum starting
below 1.5m (5 ft.) and continuing at some places below 3m (10 ft.). Grain
size was generally larger for deep sands than for shallow sands.
Measurement of the water table in the groundwater wells was biweekly
for all wells and weekly for about one-third of the 290 wells in the grid.
Using a tape measure and flashlight, the well reader determined the dis-
tance from the top of the pipe to the water surface and recorded that
distance to the nearest one-eighth inch (.32cm).
Water samples were taken from selected wells to determine nutrient
concentrations. Each study well was pumped empty and allowed to refill
immediately prior to withdrawal of the one-half liter sample.
Soil hydraulic conductivity studies were also carried out at Horn
Point using shallow ground water wells to determine the permeability of
the various soil types. The equipment used to measure hydraulic conduc-
60
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tivity (k) is simplistic. A float 7.5cm (3 in) in diameter is weighted
enough to keep the attached string taut. This is clipped to properly
backed filament tape. Weights are attached to the other end of the tape
to counter-balance the weight of the float. To insure free movement of
the tape, spools with axles are installed into notches cut out of both
ends of a board. A springed hinge attached to the board serves as a mount
for the marking pen. The board is secured to a tripod. A level, water
pump and stopwatch complete the equipment list.
Screen pipes in auger holes are used in the study. Horizontal
band saw cuts are made along the bottom two feet of the well casing
spaced approximately every half inch. To plug the end of the pipe a
PVC cap is cut and glued in place. The screen portion of the pipe is
placed in contact with the soil type to be studied.
The equipment is set and adjustments made to level the board. The
equilibrium water table level is then measured. From this measurement
the depth of the water in the well is determined. The distance equaling
25 percent of this depth is recorded. The water is pumped from the well
with the float in the casing. As soon as the well is pumped dry the pump
hose is quickly pulled from the well casing and a recorder pushes the pen
to the tape, simultaneously starting the stopwatch. The tape is marked
at regular time intervals depending on the speed of the well refill.
Measurements are made until the tape reaches the 25 percent value re-
corded earlier.
Equation and Calculation of Data
To calculate k, the Ernst formula is used (Luthin, 1957).
61
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k = (20+ h/a) (2-y/h) T" exPressed in
d = depth of well
Ay = rise of water surface in well casing during time interval At
h = depth of water in well before pumping
y = change in level of water surface before and after pumping
At = time interval during which measurements are made
a = radius of well casing
All quantities are in centimeters and seconds. According to Ernst
the value of k is accurate to within 20 percent if 3cm < a< 7, 20cm
< d < 200cm, .2cm < h/d < 1. Two of the wells tested were at depths
greater than 200cm. The degree of error this causes in k is unknown.
Ernst points out that for results to hold, measurements would end before
25 percent of the volume of water removed from the well has been replen-
ished. The soil types are then classified according to a USDA permea-
bility chart,
b. Particulates
Samples of water from weirs are filtered and the concentrations of
total particulates and mineral phase are then determined, as well as size
fractions and mineralogy. The volume-integrated composite samples are
filtered through pre-weighed and treated, 0.45um nominal pore size fil-
ters to remove the particulates. Weight-gain of the filters gives total
particulate material, and loss of material upon combustion gives a measure
of organic material. Spot-samples at known flow rates will be taken for
mineralogy by X-ray diffraction and size distribution. Mineralogy will
be done on selected volume-integrated samples also (Carroll, 1970).
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c. Nutrients
Samples are analyzed for concentrations of (1) total and ortho-
phosphate before and after Millipore HA filtration, (2) nitrate plus
nitrite, (3) ammonia, (4) organic nitrogen, (5) total organic matter.
The techniques used are those in common practice for nonautomated wet
chemistry. These concentrations multiplied by the water discharge
rates give total discharges per watershed.
1) Particulate and dissolved ortho- and total phosphorus
Samples plus or minus Millipore HA filtration in the field are
analyzed for phosphate by the stannous chloride method (Standard
Methods, 1971) before and after digestion with perchloric acid
(King, 1932). Composited samples are only analyzed for total
phosphorus.
2) Nitrate plus nitrite
Nitrate is converted to nitrite by passage through an amalga-
mated cadmium column. Then nitrite is determined colorimetrically
(Standard Methods, 1971).
3) Ammonia
Determined by oxidation to nitrite with sodium hypochlorite
and then as above.
4) Organic matter
Determined by Kjeldahl digestion as described by Martin (1972),
distillation of the released ammonia and Nesslerization.
5) Organic matter in fresh water samples. Determined by the wet
oxidation method of Maciolek (1962).
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d. Bacteria
Bacteria that are indicators of fecal pollution and water quality
are monitored. These bacteria are total coliforms, fecal coliforms,
total and fecal Streptococci. Water samples are collected from the
weirs in sterile bottles at weekly intervals. Collected samples are
properly treated to retain viability of the above bacteria and returned
to the laboratory within two hours of collection. The identification of
pathogenic bacteria involves procedures and techniques recommended and
described in Standard Methods for Examination of Water and Waste Mater
(1971). Two methods are used for the identification and enumeration of
pathogenic bacteria, the Membrane Filter and Multiple Tube Fermentation
techniques. These techniques separate these organisms based upon their
physiological and temperature requirements such as lactose fermentation,
selenite, and azide tolerance, etc. Total viable counts of heterstrophic
aerobic bacteria are determined by standard plate counts.
64
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RESULTS
Most of the results of this part of the grant have been reported in detail
in the accompanying Chesapeake Bay Center for Environomental Studies technical
reports. Some additional data from the Rhode River study area are included
here, as well as the results of the Horn Point, Eastern Shore watershed sub-
contract.
Figure 26 is a map of the Rhode River watershed showing the locations and
numbers of each rain gauge station. The rainfall data from these stations,
other than thatgivenin Table 2, section A; is given in Table 39. Table 40
gives extensive data on Rhode River precipitation chemistry. Part A gives dry
fall chemistry and part B gives bulk precipitation data.
Tables 41 - 43 and Figures 28 - 33 give results from the Horn Point study
site. Figure 28 is a map showing land use and vegetation, while Figure 29 is a
topographic map. Figure 30 shows such man-made features as drainage ditches.
Figure 31 gives subsoil sediment classification data. Figure 32 shows several
groundwater table contours along a well transect shown in Figure 33.
Table 41 gives rainfall data from the weather station at Horn Point.
Table 42 gives bacterial discharge data for the two Horn Point watersheds on
specific dates. Table 43 gives a seasonal summary of nutrient and bacterial
discharge (surface) from the Horn Point watersheds.
Precipitation as the driving force for runoff was relatively low during
calendar year 1977 with 90 cm annual total, consequently the flume sites were
dry until about December, 1977. The winter (1977-78) and Spring of 1978 have
been relatively wet with high volume, high intensity storms occurring in
January and March.
65
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Hydrograph records of the agriculture watershed indicate that in response
to a rainfall event during the colder part of the year, the runoff is
relatively quick and of short duration. This behavior can be expected on
crop land with little winter cover. For the storm occurring on days 084-086,
the measurable hydrograph started on day 085 and lasted through most of day 087.
During that time there was a discharge of 5 x 10^ liters or 66% of the pre-
cipitation was measured as runoff. The nitrate plus nitrite yield for that
storm was 0.12 Kg/ha, which is approximately 70% of the spring season yield.
Likewise this storm accounted for much of the phosphorus movement yielding
97 g/ha. It is important to note that a portion of the agriculture watershed
is wooded, approximately 16%. This portion of the watershed seems to have
little impact in lengthening the discharge hydrograph. By comparison the woods
watershed had an extended flat hydrograph for the storm of days 084-086. The
duration of measurable discharge was ten days.
The area yield discharges from Horn Point watersheds given in Table 43
do not include groundwater discharges. Soil and water texts suggest that
lines of free water saturation are essentially parallel with surface topography
(Schwab, et al., 1966). The well readings presented in Figure 32 show that
the water table does not follow the landscape at all times. The location of
this transect of wells is shown on the vegetation map in Figure 33. The pine
forest surrounding well W-143 appears to have sufficient water pulling capacity
to cause the water table to drop below that found beneath adjacent agricultural
areas. During the winter when transpiration rates are reduced, the water table
rises in the pine forest area and more closely parallels the landscape. Tran-
spiration appears to explain the water table behavior better than do the sub-
surface sediments (Figure 31). These observations on low flat landscapes are
important in terms of nutrient and chemical transport because the sub-surface
66
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References
Carroll, D. 1970. Clay Minerals: A Guide to Their X-Ray Identification.
Geol. Soc. Amer. Sp. Paper 126, 80 pp.
Correll, D.C.; Pierce, J.W.; Faust, M.A. 1975. A quantitative study of
the nutrient, sediment, and coliform bacterial constituents of water
runoff from the Rhode River watershed. In: Non-Point Sources of Mater
Pollution, Proc. Southeastern Regional Conf.; May 1975, Blacksburg, Va.
pp. 131-143. Va. Water Resources Research Institute.
King, E.J. 1932. The colorimetric determination of phosphorus. Biochem.
J. 26; 292-297.
Maciolek, J.A. 1962. Limnological organic analyses by quantitative dichromate
oxidation. U.S. Fish and Wildlife Service Report #60.
Martin, D.F. 1972. Marine Chemistry. Vol. 1. pp. 174-179. Marcel Dekker.
New York, N.Y.
Stevenson, J.C. and K. Lomax. 1977. Non-Point Pollution Studies on Chesapeake
Bay. V. The Eastern Shore Watersheds at Horn Point. Ches. Research
Consort. Publ. No. 58.
Standard Methods for the Examination of Water and Waste Water, 13th Ed.
American Public Health Assoc., New York, N.Y.
Schwab, G.O.; Frevert, R.K.; Edminster, T.W. and Barnes, K.K. 1966. Soil
and Water conservation engineering. Wiley, New York. Second Edition.
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SECTION D. LIST OF PUBLICATIONS
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1
2
3
4
5
6
7
8
9
10
List of Publications
Chirlin, G.R. 1977. Non-Point Source Studies on Chesapeake Bay. IV.
Weekly Surface Hydrology of Seven Sub-basins within the Rhode River
Watershed, Calendar Years 1974-1976. Chesapeake Research Consortium
(CRC) Publication No. 57. 60 pp.
and D.L. Correll. 1977. A linear approach to the calculation of
area yield coefficients based on land use. pp. 831-859. In: Water-
shed Research in Eastern North America (Ed. D.L. Correll), Smithsonian
Press, Washington, D.C.
and R.W. Schaffner. 1977. Observations on the water balance for
seven sub-basins of the Rhode River, Md. pp. 277-306. In: Watershed
Research in Eastern North America (Ed. D.L. Correll), Smithsonian
Press, Washington, D.C.
Correll, D.L. 1977. An overview of the Rhode River Watershed Program.
pp. 105-123. In: Watershed Research in Eastern North America. Ed.
D.L. Correll, Smithsonian Press, Washington, D.C.
; M.A. Faust; J.W. Pierce. 1977. Non-Point Source Studies on
Chesapeake Bay: VIII. Preliminary tests of the application of Rhode
River statistical models to Patuxent River Subwatersheds. Ches. Re-
search Consortium Publ. No. 61. 151 pp.
; E.S. Friebele and J. Miklas. 1977. Non-Point Source Studies on
Chesapeake Bay: II. Nutrients in Land Runoff From Rhode River Water-
sheds in 1975 and 1976. CRC Publ. No. 55. 412 pp.
; T.L. Wu; E.S. Friebele and J. Miklas. 1977. Nutrient discharges
from Rhode River watersheds and their relationship to land use patterns,
pp. 413-437. In: Watershed Research in Eastern North America. Ed.
D.L. Correll, Smithsonian Press, Washington, D.C.
. 1978. Relationship of land use to water quality in the Chesa-
peake Bay region, pp. 177-188. In: Proc. NASA Conf. Application
of Remote Sensing to the Chesapeake Bay Region, April, 1977; Cool-
Font, W.Va.
. (in press) Endangered Receiving Waters: Runoff Monitoring as a
Tool to Determine Sources and Magnitudes of Pollution. In: UNESCO,
IHP handbook on the application of hydro!ogic data to environmental
problems.
; J.W. Pierce; T.L. Wu. 1978. Studies of the transport of atrazine
and alachlor from minimum till corn fields into Chesapeake Bay tidal
waters. Proc. Northeastern Weed Sci. Soc. 32 (suppl.) 12 pp. Jan.
1978. New York City.
68
-------�
11. Correll, D.L.; J.W. Pierce; T.L. Wu. 1978. Herbicides and submerged
plants in Chesapeake Bay. pp. 858-877. Coastal Zone 78; Symp.
Tech., Environ., Socioecon., Regul. Aspects of Coastal Zone
Management. March, 1978. San Francisco, Calif.
12. Faust, M.A. and N.M. Goff. 1977. Basin size, water flow and land use
affects on fecal coliform pollution from a rural watershed, pp.
611-634. In: Watershed Research in Eastern North America. Ed.
D.L. Correll, Smithsonian Press, Washington, D.C.
13. ; N.M. Goff and A.C. Jackson. 1977. Non-Point Source Studies on
Chesapeake Bay: III. Relationship between bacterial contamination
and land use in the Rhode River watershed, and survival studies of
Streptococcus faecal is in the estuary. Chesapeake Research Con-
sortium Publ. No. 56, pp. 124.
14. Miklas, J.; T.L. Wu; A. Hiatt and D.L. Correll. 1977. Nutrient Loading
of the Rhode River watershed via land use practice and precipitation,
pp. 169-193. In: Watershed Research in Eastern North America. Ed.
D.L. Correll, Smithsonian Press, Washington, D.C.
15. Stevenson, J. Court and K. Lomax. 1977. Non-Point Pollution Studies on
Chesapeake Bay. V. The Eastern Shore Watersheds at Horn Point.
Chesapeake Bay Research Consortium Publ. No. 58, 190 pp.
16. Wu, T.L. and M. Hoopes. 1977. Land utilization and metals discharge from
Rhode River watersheds, pp. 683-706. In: Watershed Research in
Eastern North America. Ed. D.L. Correll, Smithsonian Press,
Washington, D.C.
17. and M. Hoopes. 1977. Non-Point Source Studies on Chesapeake Bay:
VII. Cations. Chesapeake Research Consortium Publ. No. 60, 194 pp.
18. ; N.J. Mick and B.M. Fox. 1977. Runoff studies of the agricultural
herbicides, alachlor and atrazine from Rhode River watershed during
the 1976 growing season, pp. 707-726. In: Watershed Research in
Eastern North America. Ed. D.L. Correll, Smithsonian Press,
Washington, D.C.
69
-------�
APPENDIX
-------�
Figure 1. Chesapeake Bay area map.
70
-------�
-------�
WATERSHED No. 109
16.4 hectares
ro
LAND use
Trees - 5.7 ha.
m Cultivated - 10.4 ha.
Residential, Roads ft Buildings - 0.3 ha.
Weir R - Rain gauge
^ Sampling Station
-------�
Figure 4. Soils map of
watershed 109.
-------�
Figure 5. Watershed 110 map, a field-sized forest watershed.
3,900
3,800
+
3^700
WATERSHED
tv +
No. 110
-f-
hectares
3,600
4-
"6,000
"*6,100
LAND USE
+
~h
6,400
Trees
6.2 ha.
R Rain Gauge
Road
0.1 ha.
Sampling Station
Weir
~ Leaf Litter Box
7
-------�
-------�
4,800
+
4,700
+
~~vl
Ol
4,600
4,500
+,
WATERSHED No
+ +
5.4 hectares
+ +
5,800
LAND USE
fK-rns
WW V'- ,x.
'Ļ Ļ Ļ Ļ
vr?' v.1
r*ģ*
^ '> , 1 ' ' .L,' J- * * / i , '
^ir V.- y ' & 'Ļ 1 J-ii. ' 1 J- 1 j- v i 1 Ļ'
Xv-i'.T-?/ 1 x j 1 " "j ' ' * 'Ļ 4 1 A Ni. l' x'
Ļ J. < Jj , J A"1 * J. i
^>77 'bi. i * 'Ļ j. '-j. i. u 'Ļ J" * ;'Ļ ' j. t-
5,900
6,000
6,100
0 TREES - 1.0 ha.
ED PASTURE - 4.4 ha.
Sampling Station
Weir
R Rain Gauge
ii ii ii
50 0
50
to
c
-s
a>
a>
c+
ro
-5
lo
3-
fD
O-
I
rt-
fD
-1
13"
fD
a.
100 METERS
100
100 200 300 400 FEET
-------�
Figure 8. Soils map of watershed
Page 77
-------�
Fiqure 9. Relationship between corn plant height and leaf area index on
watershed 109 (1976 and 1977)
"-J
00
X
Q)
T3
C
<0
Q)
V
fO
<+-
03
00
350
-------�
3.0 "
2.5
CM
E
4->
5
"D
CT>
on
to
fd
2.0
1.5
C
S.
o
<0
o
+->
fO
O)
i.o .
0.5 -
Figure 10. Corn plant total biomass per surface area
at various plant ages on watershed 109
(1976 and 1977).
50 100 150
Corn plant age (days)
0.017x - 0.37
R2 = 0.84
-O.OOlx2 + 0.029x
. 0.73, R2 = 0.86
200
79
-------�
Figure 11. Com plant above and below ground biomass
per surface area at various plant ages.
3.0
above ground biomass (1976 data)
G below ground biomass (1976 data)
A. above ground biomass (1977 data)
A below ground biomass (1977 data)
Y = 0.016x - 0.36, R2 = 0.85
Y
Y
Y
-O.OOOlx2 + 0.025x - 0.64,
R2 = 0.86
0.0014x - 0.012,
R2 = 0.74
-O.OOOOx2 + 0.0032x
0.070, R2 = 0.83
50
J L
100 150
Corn plant age (days)
80
200
-------�
Figure 12. Relationship between mean corn biomass
per surface area and mean plant height
for watershed 109 (1976 and 1977).
(height and biomass were averaged for
stations 1, 3, and 6 and for stations
Mean corn height (cm)
81
-------�
Figure 13. Mean total phosphorus in corn plants
per surface area on watershed 109
(1976 and 1977).
Y = -0.0003x2 + 0.088x - 1.9, R2 = 0.82
Corn age (days)
82
-------�
Figure 14. Mean above and below ground total phosphorus
in corn plants per surface area on watershed
109 (1976 and 1977).
CM
E
o>
i-
o
o
in
3
S.
O
_c
CL
I/)
O
(Q
+J
O
c
rd
-------�
Figure 15. Mean total Kjeldahl nitrogen in corn plants
Corn plant age (days)
84
-------�
A
A
Ŗ above ground Kjeldahl nitrogen
(1976 data)
below ground Kjeldahl nitrogen
^ (1976 data)
above ground Kjeldahl nitrogen
(1977 data)
A below ground Kjeldahl nitrogen
(1977 data)
-------�
Figure 17. Rainfall intensity data.
A. April 24, 1978
April 24, 1977
86
-------�
Fiqure 17. Rainfall intensity data.
I
0000
1200
Dec. 18
A. December 18 - 22, 1977
Watershed 109
(December 18-19 = 7.39 cm)
(December 20-21 = 1.39 cm)
1200
Dec. 19
1200
Dec. 20
-------�
1.2
Figure 17. Rainfall intensity data.
B. January 25 - 26, 1978
1.0
0.8
C
E
00 0.6
oo >.
+->
CO
Ŗ
0)
0.4
0.2
0000
Solid line - weather station (7.06 cm)
Broken line - watershed 109 (6.33 cm)
0600
1200
January 25, 1978
1800
0000
January 26, 1978
-------�
Figure 17. Rainfall intensity data.
1.4
1.0
C
ģr
E
to
c
OJ
4->
C
0.6
0.2
1000
1200
March 14, 1978
\
B
11
Solid line - weather station (1.60 cm)
Broken line - watershed 109 (2.03 cm)
1400
March 14, 1978
89
1600
1800
-------�
Figure 17. Rainfall intensity data.
1.0
D. March 25 - 26, 1978
Solid line - weather station (7.44 cm)
Broken line - 109 (7.98 cm)
0.6
o
o
>>
+->
r-
t/>
C
o>
c
0.2
1500
2100
March 25, 1978
0300 0900
March 26, 1978
-------�
Fiaure 17. Rainfall intensity data.
0.6
E. May 8-9, 1978
Solid line - weather station (4.26 cm)
Broken line - watershed 109 (4.11 cm)
0.4
4->
C
a>
+j
c
0.2
0600
1200
May 8, 1978
1800
I
co
II
N\-
0000
0400
May 9, 1978
-------�
Figure 17. Rainfall intensity data.
F. May 15, 1978
Solid line - weather station (2.27 cm)
Broken line - watershed 109 (2.72 cm)
May 15, 1978
92
-------�
Figure 17. Rainfall intensity data.
G. May 16, 1978
Solid line - weather station (3.00 cm)
Broken line - watershed 109 (2.39 cm)
0.6
0.4
C
*i
>s
+->
n
in
C
-------�
Figure 18. Discharge rates and sampling times.
December 19, 1977
-------�
Figure 18. Discharge rates and sampling tim
A. December 19 - 22, 1977
I. Watershed 109
Part b
D
_i 1 I L
0800 1200 1600 2000
December 20, 1977
E
1100 on
Dec. 22
-J 1 I L_
0400 0800 1200 1600
December 21, 1977
-------�
January 25, 1978
-------�
Figure 18. Discharge rates and sampling times.
B. January 25-26, 1978
January 26, 1978
97
-------�
Figure 18. Discharge rates and sampling times.
B. January 25 - 26, 1978
II. Watershed 110
300
200
100
B
_L
C
_L
T
1200
1800
January 25, 1978
0000
H
I
1200
January 26, 1978
-------�
Figure 18. Discharge rates and sampling times.
B. January 25 - 26, 1978
III. Watershed 111
U3
-------�
Figure 18. Discharge rates and sampling times.
C. March 14, 1978
B C
I. Watershed 109
1200
1500
March 14, 1978
1800
2100
100
-------�
Figure 18. Discharge rates and sampling times.
-------�
Figure 18. Discharge rates and sampling times.
D. March 26-27, 1978
March 27, 1978
102
-------�
Figure 18. Discharge rates and sampling times.
-------�
-------�
Figure 18. Discharge rates
and sampling
times.
E. May 8-9, 1978
II. Watershed 110
40
O
en
(j
CD
tn
O)
CT>
s.
fO
-C
u
tn
20
1800
B
0600
1200
May 9, 1978
-------�
May 15, 1978
106
-------�
Figure 18. Discharge rates and sampling times.
G. May 16, 1978
I. Watershed 109
O
Q)
(/>
CD
crģ
s-
ro
_C
O
to
0600
1200
May 16, 1978
107
-------�
-------�
Firjure 19A. Gypsum block moisture probe response versus moisture tension
at 20° C ą 2°.
10.0
J~L
112 1
o TO 1 3
Tension (bars)
U
c0
u
O
Ļu
CO
w
-------�
Figure 19B. Effect of temperature on gypsum block moisture probe readings at
moisture saturation.
10.0
n §
Y = 0.0004x + 0.038x + 8.
R2 = 0.95
Hand-fitted curve
0.0
10.0
JL
20.0 30.0
Temperature (° C)
40.0
-------�
Figure 19C. Soil moisture retention curves.
I. Watershed 109.
(0
u
3
u
(0
W
-------�
Figure 19C. Soil moisture
II. Watershed 110.
500
400
Station 1, 5 cm depth
Station 1, 75 cm depth
A
Station 10, 5 cm depth
0 ~
Station TO, 75 cm depth
O
Mean, stations 1 and 10,
5 cm and 75 cm depths
300
4
200
Ļ, a;
* A-
'0-
100
~A
0
c
o
11 1
10 3
c0
u
2
u
w
Tension (bars)
-------�
Figure 19C. Soil moisture
4-J
CO
-------�
Figure 2Q. Rhode River estuary map.
76°33'
2Sf22l
T
1/2
-I I I I L.
I km
J
IOOO 0 1000 2000 8000
I l l I I l _1 I J FT.
J38°54'
38°53'
38*52'
114
-------�
CHOPTANK RIVER SAMPLING STATIONS
SAINT MICHAELS
EASTON
lie -.11
57;
lle-U
58
DEN
1* -9
7 9'
#78
#71
OXFi
C " 9"
.a'^b"
'18 A"
H *11
C 19
# 72
#73
A R 20
'41
N " 3 6"
CAMBRIDGE
#74"
#77
CHOPTANK/
SAMPLING
STATIONS
k(# I )
A CHANNEL
nr MARKERS
V\-(C"4" )
# 76
ģ H . II
1 Miles
3 Kilometer
-------�
Figure 22. Poplar Island map.
POPLAR ISLAND GROUP
CO
LJ
<
U
Q_
<
cn
LJ
X
o
v
>
;
/
-N-
JEFFERSON
ISLAND
.COACHES
ISLAND
r&m
SAMPLING
STATIONS
1847
1937
1972
IOOO
1000 FEET
116
-------�
Figure 23A. Vallisneria americana bioassay data - plant growth.
Whole plant dry weight (mg)
-------�
150
125
100
75
50
25
0
-25
-50
-75
Figure 23A. Vallisneria americana bioassay data - plant growth.
II. Leaf area change in various concentrations of atrazine.
A Control
O 1 ppm
10 ppm
Q w 100 PPm
Control
R2 = 0.39
1 ppm
R2 = 0.07
20
Time (days)
-------�
Time (days)
-------�
Figure 236. Vallisneria americana bioassay data - dissolved oxygen measurements taken on
individual plants after 4 days exposure to various concentrations of linuron.
\ \V
. \
" \ \ \\
X \ V
\ \
\
\
0\
\
\
\
\
2 ~
Each Rc >0.99
_L
J I
0 2 4 6 8
Time (hrs) - Dark
-i20
A
Control -
101
mg
dry
wt
0
1 ppm
108
mg
dry
wt
o
10 ppm -
78
mg
dry
wt
100 ppm -
73
mg
dry
wt
R =>0.99-
~
'7
ą
' * V
L
^-R =>0.99
jv' r -*i Ļ
4 6 8 10 12
Time (hrs) - Light
14 16
-------�
Figure 23C. Vailisneria americana bioassay data - gross photosynthesis in the light.
I. Effects of atrazine.
Time (days)
-------�
Figure 23C. Vallisneria americana bioassay data - gross photosynthesis in the light.
Control
O 1 ppm II. Effects of linuron. ^
^7 10 ppm
0 100 pom
Control
2
R =0.24
1 ppm
R2 = 0.01
-------�
Time (days)
-------�
Figure 23D. Vallisneria americana bioassay data
II. Effects of linuron.
° ° *
V o o
-ŠO"
8
*
A
A
A A
100 ppm
r\2
0.12
10
10 ppm
= 0.37
15
20
Time (days)
oxygen production per day.
A
6
0.22
R = 0.01
A
O
A
A - Control
O 1 ppm
V 10 ppm
~ 100 ppm
_L
25
i
30
_L
35
I
40
-------�
7
6
5
4
3
2
1
0
1
2
Figure 24A. Potamoqeton pectinatus bioassay data - gross photosynthesis in the light.
I. Effects of atrazine.
A Control
O 1 ppm
^7 10 ppm
0100 ppm
o
1 ppm
2
R = 0.0002
@ Control R2 = 0.01
10 ppm R2 = 0.15
100 ppm = 0.2'
10
15
20
25
30
35
40
Time (days)
-------�
7
6
5
4
3
2
1
0
Ļ1
2
Figure 24A. Potamoqeton pectinatus bioassay data - gross photosynthesis in the light.
II. Effects of linuron.
A Control
O 1 ppm
10 ppm
~ 100 ppm
Y
v
A °
^ 1 ppm
%/ R2 = 0.0002
Ž Control
5 R2 = 0.01
10
15
20
Time (days)
25
30
35
40
-------�
80
70
60
50
40
30
20
10
0
10
20
Figure 24B. Potamogeton pectinatus bioassay data - net oxygen production per day.
I. Effects of atrazine.
~
~
A
O
v
~
Control
1 Dpm
10 opm
100 pom
10 ppm
R2 = 0.48
20
Time (days)
-------�
70
60
50
40
30
20
10
0
10
20
30
Figure 24B.
Potamogeton pectinatus bioassay data - net oxygen production per day.
II. Effects of linuron.
A Control
O 1 ppm
V 10 ppm
~ 100 ppm (several data points are off scale)
A O O A A °
O
A
O
V
10 ppm
1 ppm
R2 = 0.32
Control
R = 0.14
= 0.16
10
15
20 25
Time (days)
30
35
40
-------�
Figure 25A. Zostera marina bioassay data - net oxygen production per day.
I. Effects of atrazine.
A-
O -
D -
V-
Control
1 ppm
10 ppm
100 ppm
ro
1 ppm
Control
R2 = 0.1/
ppm
R2 = 0.69
^ R = 0.72
10
I
20
Time (days)
30
40
-------�
ngure2W. da"
II. Effects of linuron
. net oxygen production per day.
A"
o
D
Control
1 ppro
10 ppm
100 ppm
+j
>.
i-
-o
40
>>
to
-a
csi
C
&
201
c
o
r-
O
-o
O
s-
o
c
0)
>>
X
o
a -20
T
Ŗ
-00"
A
A
* 8
o
A
A Aa
~ģ
~
*
o
o
-A.
&
V
"V~
o
"Or
J2_ŖL
*
A A
o 0
9
?
&
A
&
1
10 ppro
0.64
100 ppm
^2 _ 0.53
1 ppro
r2 = o.
Control
R2 = 0.
10
20
Time (days)
30
40
-------�
Figure 25B. Zostera marina bioassay data - gross Photosynthesis in the light.
Time (days)
-------�
Figure 25B. Zostera marina bioassay data - gross photosynthesis in the light
Time (days)
-------�
GAUGE LOCATIONS - RHODE RIVER
WATERSHED
7 6Ž 37
76°35
76°33'
76*3I'
-------�
H
HOW POIMT
LECCXATTE BAY
\
Ļf-
%
*p
I.
>
S
CŖfĢv<
\
Sco-le i"\ miles
Figure 27* Location of Eastern Shore study site along
Choptank River.
134
-------�
K
/1
!\
'a>-- -W~ ģ,>-.V*
;Ļ* o?v
.7 <-x:-^ra
1-lT- -
WATERSHEDS
Agricu I t ure
Marsh
Wood 1
*******
">'x '
* ,o'?u -
%* *'
[:<*$$
ff
& *;
I.V *i.
' * *'
>*- * -
* *
*
*
*
*
*18111%
411 + H +m%
* Ļ
*
tVŖ
re
e*t *>*
Ŗ'X-
fĢvC?"A -
MWvBK.a
Ļ t I I I I I I VJ r 0° T T f 1
.;:. 1(nf+>^^oV^Vo;+11 +/
V*1H =o II+ '
, v-v* J s "> ,1 s -\ C } V*J" ģ> xU A '
F^MZZur^l--s-'v
r nr.'CtK'
?-*\'>VX'x'V<.
r.T
0..-Sģ, T i^ ^ ^ "I *> r ^ ^ f ^
Vegetation
Mtrih
Cull
HHtro45" r+ * ~:
-f' |!hHH| ft jV^-j ^oo'V'^ + *:
Pin* PI nt ation
Figure 28 Map of watersheds on Eastern Shore study site
showing land use by vegetation.
135
-------�
Ģ' ' /
O 90 0 1 00 0
WATERSHEDS
Agr iculture
Marsh *******
Wood s
Figure 29 . Contour map of Eastern Shore study site with one
foot interval.
136
-------�
Z -^4^
500 1 OOP
~=>'
/
- ---!*Ļ
s '
\ Jt
\
,'x.
X
/ \
\
V /V
//
.//*
vģ
.1'-
w
\(
A
\S
KEY
Ditches
Flume
Bui dings
Ļ a
- Ļģ //
<5?;
v<
\ *Ļ
Ļ *
\
\ \
\ \
V \
1
Figure 30 Man-made features on the Eastern Shore study site
where drainage ditches are important determinants
of watershed boundaries.
137
-------�
Figure 31 . Generalized classification of sediments below the
top soil on Eastern Shore study sites.
138
-------�
W OS
GROUND LEVEL
WATER LEVEL 13 OCT. 197?
12 JAN 1978
SEASONAL VARIATIONS IN WATERTABLE LEVELS AT HORN POINT
Figure 32. Groundwater levels in relation to surface topography
at two seasons on Eastern Shore watershed.
-------�
ft
II
/A
<4|
....
v\;,
-^?;a>
&--Ļ
Vv
S;*!i
jģ?f
'ģ A
S-x
. x+ + *
41 H.4 + iTN#^
y t>.,4 + 11 + + H4?J|||5
A t iA( +1 udS&Si
tlHIII I, ?v~ o .. ^ -
,. f Ļ j Ļ} \ '\ ^ ~y
t I + I It i >ji-'705 ^ J ,5>' Xj t I +/
, , , , :'soJ '.iVw.nj ;
V -V
I I I I Aw o ^ 3 Ŗ>
0^,
y -
O -ģ J y'J o
0^30 o \J -> J
. V ** J \ 1 ^ "} f\ i 'i *ģ> ^ \ '-> V A
+ , =: cl + I:'
"
Ļ;'rr.^'TjA
rT<
fl" .J
Figure 33 Well transect on vegetation map on Eastern Shore
study site.
140
-------�
TABLE 1. LAND USE ANALYSIS OF RHODE RIVER
ESTUARY WATERSHEDS UNDER STUDY.
Hectares in each land use category*
Basin Row Crops Hay Fields Upland wet Tidal Forest
areas marshes
101 (North
Branch of Muddy
Creek)
102 (Blue Jay
Branch of Muddy
Creek)
103 (William-,
son Branch of
Muddy Creek)
105 (North
Branch of
Sellman Creek)
106 (South
Branch of
Sellman Creek)
107 (Fox
Creek)
108 (Stein-
lein Branch
of Muddy Creek)
109 (Corn
Field)
110 (Forest)
111 (Pasture)**
121 (Main
Branch of Muddy
Creek Flux Sec-
tion)
21.6 (9.6)
34.8 (18.1)
5.09 (2.0)
4.91 (13.1)
12.1 (12.7)
2.45 (13.5)
35.2 (23.5)
10.4 (63.8)
0.00
0.00
260 (21.2)
0.72 (0.3)
6.68 (3.5)
10.4 (4.1)
1.52 (4.1)
14.7 (15.4)
0.00
14.2 (9.5)
0.00
0.00
0.00
2.40 (1.1)
0.97 (0.5)
0.68 (0.3)
0.00
0.00
0.19 (0.67)
1.36 (0.91)
0.00
0.00
0.00
59.0 (4.8)
0.00 85.3
0.00 90.6
0.00 159
0.00 11.7
0.00 42.8
0.00 16.8
0.00 58.4
0.00 4.26
0.00 5.71
0.00 1.65
0.00 549
141
-------�
TABLE 1. LAND USE ANALYSIS OF RHODE RIVER
ESTUARY WATERSHEDS UNDER STUDY
Hectares in each land use category1
Old Fields Pasture Feed Lots^ Residential Total
and others area
(37.7) 41.6 (18.4) 60.7 (26.9) 0.000 13.6 (6.0) 226
(47.2) 13.0 (6.8) 34.8 (18.1) 0.036 10.8 (5.6) 192
(62.8) 35.6 (14.1) 31.4 (12.4) 0.062 11.6 (4.6) 253
(31.2) 18.4(49.1) 0.80 (2.1) 0.000 0.16(0.4) 37.5
(44.9) 4.77(5.0) 19.6 (20.7) 0.100 1.22(1.3) 95.3
(59.6) 4.67(16.6) 2.54(9.0) 0.000 1.56(5.5) 28.2
(38.9) 20.2 (13.5) 16.2 (10.8) 0.028 4.82(3.2) 150
(26.1) 1.37(8.4) 0.00 0.000 0.26(1.6) 16.32
(90.6) 0.53(8.4) 0.00 0.000 0.054(0.9) 6.3
(27.3 j 0.00 4.41 (72.7) 0.000 0.00 6.063
(44.7) 157 (12.8) 109 (8.8) ** 94.8 (7.7) 1229.0
142
-------�
Basin
TABLE 1. LAND USE ANALYSIS OF RHODE RIVER
ESTUARY WATERSHEDS UNDER STUDY.
Hectares in each land use category*
Row Crops Hay Fields Upland wet Tidal
areas marshes
Forest
122 (Fox Point
Flux Section)
123 (Bearneck
Creek FUix
Section)
124 (Cadle
Creek FJjlix
Section)
Total Area
22.1 (7.4)
21.5 (6.5)
2.6 (2.1)
**
**
**
0.70 (0.2) 46.9 (15.7) 203
(0.00) (8.9)(2.7) 129
0.5 (0.4) 0.8 (0.7) 19.0
422 (14.2) 48.2 (1.6) 65.8 (2.2) 56.6 (1.9) 1370
Footnotes:
1. Land use in 1975 for basins 101-111, and in 1972 for basins 121-124.
The numbers in parentheses are percentages.
2. This basin is part of basin 108.
3. This basin is part of basin 101.
4. Also includes basin 101, 102, 103, 108, 110, 121, and 26 ha of mud
flats and tidal creek.
5. Also includes 60.7 ha of tidal creek open waters.
6. Also includes 19.9 ha of tidal creek of open waters.
7. Feed lot area was arbitrarily determined to be 0.001 ha per hog.
** This category was not separated from the others.
143
-------�
TABLE 1. LAND USE ANALYSIS OF RHODE RIVER
ESTUARY WATERSHEDS UNDER STUDY
Hectares in each land use category"*
Old Fields Pasture Feed Ix>ts7 Residential Total
and others area
(67.9) 15.3(5.1) 0.5 (0.2) ** 10.5 (3.5) 299.4
(39.5) 40.3(12.3) 8.4 (2.6) ** 118 (36.2) 327.5
(15.7) 15.3(12.6) 19.1 (15.8) ** 63.9 (52.8) 121.6
(46.2) 367(12.4) 303 (10.2) 0.226(0.0) 331 (11.2) 2964
(89%)
144
-------�
Table 2. Daily rainfall for field-sized watersheds and weather station
(cm/day).
Date
Cornfield
(#109)
Forest
(#110)
Pasture
(#111)
Weather
Station
(1977)
May 2
(122)
May 4
(124)
May 5
(125)
May 6
(126)
May 7
(127)
May 14
(134)
May 18
(138)
May 19
(139)
May 24
(144)
May 25
(145)
June 5
(156)
June 6
(157)
June 9
(160)
June 17
(168)
June 18
(169)
0.00
0.76
0.15
1.45
0.28
0.08
0.28
0.13
0.08
1.07
0.28
1.42
2.06
4.70
0.18
0.61
0.36
0.76
0.51
1.63
-0.84
-1.07
-1.50
vV
2.21
-6.35
0.13
1.02
0.03
1.40
0.36
0.18
0.33
0.23
0.05
0.91
0.25
1.24
2.11
6.27
0.08
\V
145
-------�
Table 2.
Date
(cont)
Cornfield
(#109)
Forest
(#110)
Pasture
(#111)
Weather
Station
(1977)
June 20
(171)
June 21
(172)
June 25
(176)
June 28
(179)
July 1
(182)
July 7
(188)
July 9
(190)
July 11
(192)
July 12
(193)
July 13
(194)
July 17
(198)
July 20
(201)
July 21
(202)
July 22
(206)
July 30
(211)
Aug. 1
(213)
1.32
0.00
0.00
0.43
0.15
0.15
0.25
2.69
1.02
0.18
1.27
0.13
0.03
0.30
0.76
0.81
0.99
0.00
0.08
0.86
0.33
2.79
-3.61
0.63
0.14
2.06
1.16
0.40
1.79
0.18
0.13
0.34
-1.42
Ļ1.64
1.07
0.03
0.03
0.18
0.00
0.23
0.15
2.13
1,09
0.05
1.78
0.15
0.05
0.38
0.94
0.66
146
-------�
Table 2. (cont)
Date
Cornfield
(#109)
Forest
(#110)
Pasture
(#111)
Weather
Station
(1977)
Aug. 5
(217)
Aug. 7
(219)
Aug. 8
(220)
Aug. 10
(222)
Aug. 11
(223)
Aug. 12
(224)
Aug. 13
(225)
Aug. 14
(226)
Aug. 24
(236)
Sept. 5
(248)
Sept. 6
(249)
Sept. 9
(252)
Sept. 16
(259)
Sept. 17
(260)
Sept. 26
(269)
0.03
0.03
0.71
0.18
0.00
0.07
0.30
0.08
2.64
0.20
0.40
0.56
0.41
0.05
0.07
0.66
0.00
-1.37
- 0.13
- 0.69
2.97
0.28
1.04
0.43
-0.69
0.18
0.13
0.00
0.90
0.00
0.00
-0.50
2.69
0.08
0.66
0.34
*0.52
0.12
0.20
0.03
0.71
0.33
0.03
0.03
0.25
0.23
1.85
0.25
1.01
0.41
0.48
0.08
0.00
147
-------�
Table 2.
Date
(cont)
Cornfield
(#109)
Forest
(*110)
Pasture
miD
Weather
Station
(1977)
Oct. 2
(275)
Oct. 6
(279)
Oct. 8
(281)
Oct. 9
(282)
Oct. 14
(287)
Oct. 15
(288)
Oct. 16
(289)
Oct. 17
(290)
Oct. 26
(299)
Oct. 27
(300)
Nov. 3
(307)
Nov. 4
(308)
Nov. 5
(309)
Nov. 6
(310)
Nov. 7
(311)
0.08
0.05
0.38
3.78
5.11
0.05
0.94
0.17
4.60
0.43
0.79
0.03
0.05
3.33
0.58
0.08
Ļ3.30
4.27
-6.07
0.08
5.08
0.10
-0.86
-3.53
-0.06
3.98
Ļv
-4.44
*
/N
1.06
/K
-4.76
-0.79
-3.43
0.03
0.05
0.36
3.84
4.72
0.05
0.86
0.15
4.47
0.28
0.73
0.05
0.05
3.38
0.23
148
-------�
Table 2.
Date
(cont)
Cornfield
(#109)
Forest
(#110)
Pasture
(#111)
Weather
Station
(1977)
Nov. 8
(312)
Nov. 10
(314)
Nov. 16
(320)
Nov. 17
(321)
Nov. 22
(326)
Nov. 23
(327)
Nov. 24
(328)
Nov. 25
(329)
Nov. 26
(330)
Nov. 29
(333)
Nov. 30
(334)
Dec. 1
(335)
Dec. 5
(339)
Dec. 6
(340)
Dec. 9
(343)
0.33
1.27
0.05
1.73
1.63
0.84
0.08
2.11
0.08
0.66
2.29
0.25
0.73
0.13
0.25
\v
~ 3.05
0.81
-2.31
xK
-5.87
1.14
0.37
1.14
-1.92
-2.09
y
0.12
-2.02
f
0.61
-2.32
0.11
0.68
0.22
0.03
1.03
0.00
0.00
1.47
0.84
0.10
1.98
0.08
0.64
0.81
0.00
0.84
0.00
0.30
149
-------�
Table 2.
Date
(cont)
Cornfield
(#109)
Forest
(#110)
Pasture
Ģin)
Weather
Station
(1977)
Dec. 15
(349)
Dec. 17
(351)
Dec. 19
(353)
Dec. 20
(354)
Dec. 21
(355)
Dec. 25
(359)
Dec. 30
(364)
Dec. 31
(365)
(1978)
Jan. 8
(008)
Jan. 9
(009)
Jan. 11
(011)
Jan. 12
(012)
Jan. 13
(013)
Jan. 14
(014)
1.88
0.13
7.39
0.51
0.88
0.33
0.30
0.03
2.39
1.83
0.00
0.00
2.36
0.89
10.80
- 1.52
0.38
- 0.97
-8.61
1.92
8.61
>Y
-1.44
0.33
-0.93
-3.93
-3.54
1.78
0.00
8.00
1.24
0.58
0.30
0.60
0.13
2.24
1.82
0.03
0.03
1.45
0.84
150
-------�
Table 2.
Date
(cont)
Cornfield
(#109)
Forest
(#110)
Pasture
urn)
Weather
Station
(1978)
Jan. 17
(017)
Jan. 18
(018)
Jan. 20
(020)
Jan. 21
(021)
Jan. 22
(022)
Jan. 23
(023)
Jan. 24
(024)
Jan. 25
(025)
Jan. 26
(026)
Feb. 3
(034)
Feb. 8
(039)
Feb. 9
(040)
Feb. 15
(046)
Feb. 16
(047)
Feb. 17
(048)
1.57
0.36
1.91
0.10
0.13
0.25
0.48
4.55
1.78
0.05
0.30
0.05
0.30
0.18
0.05
5.05
-3.12
-6.10
/ \
-1.19
-0.76
4.91
>r
-1.97
-5.54
si/
*
-0.12
w
0.30
2.72
0.05
0.99
0.05
0.00
0.05
0.013
5.21
1.85
0.00
0.10
0.00
0.13
0.00
0.03
151
-------�
Table 2.
Date
(cont)
Cornfield
(#109)
Forest
(#110)
Pasture
(#m)
Weather
Station
(1978)
Mar. 1
(060)
Mar. 6
(065)
Mar. 7
(066)
Mar. 9
(068)
Mar. 10
(069)
Mar. 14
(073)
Mar. 16
(075)
Mar. 17
(076)
Mar. 21
(080)
Mar. 25
(084)
Mar. 26
(085)
Mar. 27
(086)
Mar. 31
(090)
Apr. 3
(093)
Apr. 6
(096)
Apr. 7
(097)
0.18
0.23
0.20
0.81
1.19
2.03
0.61
0.08
0.33
0.56
7.42
1.42
0.00
0.03
0.13
0.13
-1.24
-2.26
1.85
- 0.81
- 9.45
- 0.20
- 0.46
0.16
-1.52
nK
1.82
-0.55
0.30
/N
-8.84
/V
-0.08
-0.34
0.00
0.00
0.00
0.05
1.40
1.60
0.15
0.00
0.20
0.53
6.91
1.27
0.33
0.05
0.10
0.05
sU
152
-------�
Table 2.
Date
(cont)
Cornfield
(#109)
Forest
(#110)
Pasture
(*m)
Weather
Station
(1978)
Apr. 11
(101)
Apr. 18
(108)
Apr. 19
(109)
Apr. 26
(116)
Apr. 27
(117)
May 2
(122)
May 4
(124)
May 5
(125)
May 6
(126)
May 8
(128)
May 9
(129)
May 13
(133)
May 14
(134)
May 15
(135)
May 16
(136)
May 18
(138)
0.10
0.91
1.80
0.79
0.23
0.00
4.01
0.15
0.18
1.90
2.21
1.30
1.09
2.72
2.39
0.03
0.20
2.84
0.86
0.48
-4.24
4*
0.71
4.44
-4.65
a
Ļ4.32
0.16
-2.62
0.69
0.20
-3.60
-0.55
3.39
-3.56
>N
-2.68
0.12
0.08
0.71
1.60
0.66
0.18
0.03
3.56
0.05
0.36
1.75
2.51
1.37
1.09
2.27
3.00
0.08
153
-------�
Table 2.
Date
(cont)
Cornfield
(#109)
Forest
(#110)
Pasture
(#m)
Weather
Station
(1978)
May 23
(143)
May 24
(144)
May 29
(149)
May 31
(151)
0.53
0.03
0.15
0.10
-1.12
0.08
0.00
-1.38
0.30
0.00
0.58
0.81
0.00
0.00
* No data, use weather station data
154
-------�
Table 3. Soil moisture data. Part A. Gravimetric data from soil cores.
I. Watershed 109.
Depth Moisture
Date Station (cm) (mg H20/cc)
Depth Moisture
Date Station (cm) (mg H2O/CC)
77 221
1
5
15
30
75
96
79
138
320
77 258
5
15
30
75
107
85
79
193
77 286
5
15
165
154
77 363
15
30
75
180
189
346
77 363
78 95
5
15
30
75
5
5
5
389
242
208
444
310
311
310
78 98
77 253
15
5
15
30
75
191
101
162
133
113
78 100
5
15
30
75
293
284
280
433
77 272
5
15
30
75
163
141
108
173
77 221
5
15
30
75
142
83
94
55
77 347
78
15
30
15
30
75
256
356
274
261
385
77 242
5
5
5
15
15
15
30
30
30
75
75
75
114
122
134
81
83
123
71
75
61
67
99
44
78 95
77 242
77 347
5
15
30
75
15
30
75
325
170
155
156
311
328
383
376
78 12
30
75
183
231
78 95
279
155
-------�
Table 3. (Continued).
I. Watershed 109.
Depth Moisture
Date Station (cm) (mg H2O/CC)
Depth Moisture
Date Station (cm) (mg H2O/CC)
78 101
77 286
78 87
78 95
78 100
78 101
77 221
77 363
6
6
5
5
5
15
30
75
5
5
15
15
30
75
5
15
30
5
5
5
5
5
5
15
15
15
30
30
30
75
75
75
15
30
75
262
282
308
254
274
365
140
96
151
152
241
277
335
339
375
213
254
266
219
236
114
129
144
130
140
129
102
97
105
193
253
257
194
282
419
78 95
77 208
77 265
77 347
78 12
78 95
77 258
77 347
78 12
78 95
8
5
5
5
15
15
15
30
30
30
75
75
5
30
75
15
30
75
30
75
5
15
30
75
5
15
30
75
15
30
75
257
159
136
184
234
192
181
140
184
121
219
306
118
115
134
262
341
279
293
266
246
120
90
115
234
379
252
321
414
327
305
389
295
156
-------�
Table 3. (Continued).
I. Watershed 109.
Depth Moisture
Date Station (cm) (mg H20/cc)
77 221 10 5 155
5 118
5 113
15 193
15 183
15 148
30 102
30 174
30 117
75 534
75 535
75 370
77 242 10 5 162
15 220
30 193
75 418
77 363 10 5 473
5 490
5 290
15 329
15 302
15 333
30 318
30 377
30 350
75 585
75 552
75 711
78 87 10 5 397
5 465
5 411
15 371
15 397
15 380
30 381
78 100 10 75 514
75 470
75 535
157
-------�
Table 3. (Continued)
II. Watershed 110
Depth Moisture
Date Station (cm) (mg H2O/CC)
Depth Moisture
Date Station (cm) (mg H2O/CC)
77 262
1
5
15
30
75
204
239
260
234
77 350
5
15
30
75
162
274
428
437
77 350
5
15
30
75
386
347
382
430
77 229
5
15
30
75
177
194
134
137
77 262
5
15
30
75
173
139
254
264
77 350
5
15
30
75
338
318
282
327
77 350
5
15
30
75
334
320
394
406
77 228
5
15
30
75
130
106
76
246
77 262
5
15
30
75
123
113
171
222
77 315
5
15
30
75
250
259
315
345
77 362
5
15
30
75
418
427
376
518
77 228
5
15
30
75
136
88
239
147
77 229
77 273
5
15
75
5
15
30
75
162
121
259
131
122
242
224
77 273
5
5
5
15
15
15
30
30
30
104
123
114
156
149
88
269
249
258
158
-------�
Table 3. (Continued).
II. Watershed 110.
Depth Moisture Depth Moisture
Date Station (cm) (mg ^O/cc) Date Station (cm) (mg H2O/CC)
77 273 7 75 190 78 54 9 5 321
75 187 15 350
75 231 30 395
75 429
77 315 7 5 353
15 333
30 346
75 339 77 229 10 5 468
15 304
78 10 7 5 283 30 358
15 309 75 453
30 383
75 290 78 54 10 5 464
15 466
30 574
75 535
77 227 8 5 185
15 229
30 213
77 273 8 5 132
15 195
30 220
75 105
77 362 8 15 318
30 408
75 311
78 54 8 5 366
15 354
30 314
75 456
77 228 9 5 252
15 190
30 170
75 334
77 273 9 5 197
15 154
30 170
159
-------�
Table 3. (Continued).
III. Watershed 111.
Depth
Date Station (cm)
Moisture Depth Moisture
(mg H20/cc) Date Station (cm) (mg H2O/CC)
77 270
1
5
15
30
75
108
100
87
229
77 270
5
15
30
75
132
122
179
220
78 95
5
15
30
75
235
216
207
318
77 320
5
15
30
75
240
248
403
473
78 122
5
5
5
15
30
75
161
185
198
177
247
296
77 270
5
15
30
75
84
87
103
147
77 234
5
15
30
75
106
126
147
232
77 320
5
15
30
75
236
190
251
295
77 271
5
15
30
75
99
122
167
316
77 270
5
15
30
75
123
113
117
332
77 320
78
78 95
5
15
30
75
5
5
5
15
30
75
5
15
30
75
240
251
320
367
292
328
304
210
316
385
198
260
333
383
77 320
77 217
5
15
30
75
5
5
15
15
30
30
75
75
247
208
265
521
108
92
85
131
163
141
516
205
160
-------�
Table 3. (Continued).
III. Watershed 111.
Depth Moi sture
Date Station (cm) (mg H20/CC)
Depth Moisture
Date Station (cm) (mg t^O/cc)
77 271
77 320
77 270
77 320
77 257
77 272
77 364
78 95
5
15
30
75
5
15
30
75
5
15
30
75
5
15
30
75
5
15
30
75
5
15
30
75
15
30
75
101
87
179
431
224
239
342
445
104
88
93
315
252
247
114
386
106
124
155
164
74
76
127
172
245
278
349
252
77 364
78 95
77 257
10
77 272
10
77 340
10
77 364
10
78 95
10
15
30
75
5
15
30
75
5
5
5
15
15
15
30
30
30
75
75
75
5
15
30
75
5
15
30
75
5
15
30
75
227
294
452
333
155
203
170
133
233
171
148
244
204
197
181
222
166
123
174
164
387
395
329
613
463
390
303
425
379
335
267
379
77 270
5
15
30
75
94
81
89
361
161
-------�
Table 3B. Gypsum block sensor data.
I. Watershed 109
WATERSHED 109
STATION
TIME
DEPTH
MOISTURE
STATION
TIME
CM
1
77
55
1 1 00
5
8.90
4
77
63
040
1
77
55
1 1 00
15
8-25
5
77
63
055
1
77
55
1 1 00
30
3.50
5
77
63
055
1
77
55
1 1 00
75
9.25
5
77
63
055
2
77
55
1115
5
0.90
5
77
63
055
2
77
55
1115
15
8.90
6
77
63
015
2
77
55
1115
30
8.50
G
77
63
015
2
77
55
1115
75
8.20
6
77
63
015
3
77
55
1 1 05
5
8.90
6
77
63
015
3
77
55
1 105
15
8.90
7
77
63
010
3
77
55
1 1 05
30
8.00
7
77
63
010
3
77
55
1 1 05
75
8.75
7
77
63
010
4
77
55
1 1 50
5
8.90
7
77
63
010
4
77
' 55
1 1 50
15
8.90
8
77
63
045
4
77
55
1 150
30
8.80
8
77
63
045
4
77
55
1 1 50
75
9. 25
8
77
63
045
5
77
55
1200
5
8.75
8
77
63
045
5
77
55
1200
15
8.60
9
77
63
050
5'
77
55
1200
30
1.10
9
77
63
050
5
77
55
1200
75
9.30
9
77
63
050
6
77
55
1 1 25
5
9.10
10
77
63
020
6
77
55
1 1 25
15
9. 25
10
77
63
020
6
77
55
1 1 25
30
0.90
10
77
63
020
6
77
55
1125
75
9.20
10
77
63
020
7
77
55
1 1 20
5
8.90
1
77
67
1 00
7
77
55
1 1 20
1 5
9 .00
1
77
67
100
7
77
55
1 1 20
30
9.40
1
77
67
1 00
7
77
55
1 1 20
75
9.25
1
77
67
1 00
8
77
55
1155
5
8.90
2
77
67
145
8
77
55
1 1 55
15
8.90
2
77
67
145
8
77
55
1 1 55
30
9.00
2
77
67
145
8
77
55
1 1 55
75
9. 20
2
77
G7
145
9
77
55
1 1 45
5
9.00
3
77
67
555
9
77
55
1 1 45
1 5
8.75
3
77
67
555
9
77
55
1 1 45
30
8.80
3
77
67
555
9
77
55
t 1 45
75
9.25
3
77
67
555
10
77
55
1 1 30
5
8.80
6
77
67
320
10
77
55
1 1 30
15
8.90
6
77
67
320
10
77
55
1 1 30
30
9.00
6
77
67
320
10
77
55
1 1 30
75
9.10
6
77
67
320
1
77
63
955
5
8.90
7
77
67
230
1
77
63
955
15
9.20
7
77
67
230
1
77
63
955
30
9.00
7
77
67
230
1
77
63
955
75
9.10
7
77
67
230
2
77
63
1005
5
9.00
10
77
67
400
2
77
63
1005
15
9.00
10
77
67
400
2
77
63
1005
30
9.10
10
77
67
400
2
77
63
1005
75
9.10
10
77
67
400
3
77
63
1 000
5
9.00
4
77
68
105
3
77
63
1000
15
9. 25
4
77
68
1 05
3
77
63
1000
30
8.90
a
77
60
) 05
3
77
63
1000
75
9.00
4
77
G8
1 05
4
77
63
1040
5
9.10
5
77
68
125
4
77
63
1040
15
9.25
5
77
68
125
4
77
63
1040
30
9.10
5
77
68 '
125
WATERSHED 109
DEPTH
MOISTURE
STATION
TIME
depth
MOISTURE
CM
CM
75
9-30
5
77
68
125
75
9.25
5
9. 00
8
77
68
040
5
9.10
15
9.00
8
77
68
040
15
9.10
30
9.00
8
77
68
040
30
9. 10
75
9.30
8
77
68
040
75
9.30
5
9. 20
9
77
68
015
5
9.00
15
9. 25
9
77
68
015
15
9.30
30
9. 00
9
77
68
015
30
9.30
75
9.20
9
77
68
015
75
9. 70
5
9.10
1
77
75
055
5
9.25
15
9. 20
1
77
75
055
15
9.30
30
9. 25
1
77
75
055
30
9.30
75
9. 30
1
77
75
055
75
9.25
5
9. 00
2
77
75
110
5
9.25
15
9.10
2
77
75
1 10
15
9.10
30
9.25
2
77
75
1 10
30
9.30
75
9.25
2
77
75
1 10
75
9.30
15
9.10
3
77
75
225
5
9.10
30
9.00
3
77
75
225
15
9.40
75
9.25
3
77
75
225
30
9.25
5
9.00
3
77
75
225
75
9.40
15
9.00
4
77
75
240
5
9. 25
30
9.20
4
77
75
240
15
9. 40
75
9.25
4
77
75
240
30
9. 20
5
9.20
4
77
75
240
75
9 . 40
1 5
9.20
5
77
75
1 55
5
9.10
30
3.30
5
77
75
155
15
9.25
75
9.30
5
77
75
1 55
30
9. 25
5
9.10
5
77
75
155
75
9. 30
15
9.10
6
77
75
1 30
5
9. 30
30
9.20
6
77
75
1 30
15
9.40
75
9.20
6
77
75
1 30
30
9.25
5
9.20
6
77
75
1 30
75
9 . 25
1 5
9.50
7
77
75
1 20
5
9 . 30
30
9.25
7
77
75
1 20
15
9. 30
75
9.30
7
77
75
1 20
30
9.40
5
9.30
7
77
75
1 20
75
9.40
15
9.30
8
77
75
250
5
9 . 30
30
9. 20
8
77
75
?50
15
9. 25
75
9. 25
8
77
75
250
30
9. 25
5
9. 30
8
77
75
250
75
9 Ļ 60
1 5
9.30
9
77
75
210
5
8. 70
30
9. 30
9
77
75
210
1 5
9 . 30
75
9.40
9
77
75
2 1 0
30
9.20
5
9. 30
9
77
75
210
75
9.40
15
9. 20
10
77
75
1 40
5
9. 30
30
9.00
10
77
75
1 40
15
9. 25
75
9.25
10
77
75
140
30
9.10
5
9.25
10
77
75
140
75
9. 30
1 5
9.30
1
77
02
400
5
9. 25
30
9.25
1
77
82
400
15
9. 40
75
9.50
1
77
82
400
30
9. 25
5
6.30
1
77
82
400
75
9. 30
15
9.00
2
77
82
415
5
9.25
30
9.00
2
77
82
415
15
9.10
-------�
Table 3B. (continued)
WATERSHED 109
T10N
TIME
DEPTH
CM
2
7
82
415
30
2
7
82
415
75
3
7
82
420
15
3
7
82
420
30
3
7
82
420
75
4
7
82
520
5
4
7
82
520
15
4
7
82
520
30
4
7
82
520
75
5
7
82
515
5
5
7
82
515
15
5
7
82
515
30
5
7
82
515
75
6
7
82
450
5
6
7
82
450
15
6
7
82
450
30
6
7
82
450
75
7
7
82
425
5
7
7
82
425
15
7
7
82
425
30
7
7
82
425
75
8
7
82
525
5
8
7
82
525
15
8
7
82
525
30
8
7
82
525
75
9
7
82
530
5
9
7
82
530
15
9
7
82
530
30
9
7
82
530
75
10
7
82
500
5
10
7
62
500
15
10
7
82
500
30
10
7
82
500
75
1
7
90
345
5
1
7
90
345
15
1
7
90
345
30
1
7
90
345
75
2
7
90
350
5
2
7
90
350
15
2
7
90
350
30
2
7
90
350
75
3
7
90
620
5
3
7
90
620
15
3
7
90
620
30
3
7
90
620
75
4
7
90
500
5
4
7
90
500
15
4
7
90
500
30
4
7
90
500
75
5
7
90
540
5
5
7
90
540
15
5
7
90
540
30
5
7
90
540
75
6
7
90
400
5
6
7
90
400
15
MOISTURE
9.20
9.25
9.40
9.20
9.30
9.40
9.25
9.10
9.40
9.20
9.20
9.10
9.30
9.40
9.30
9.20
9.30
9.30
9.30
9.30
9.40
9.20
9.20
9.30
9. 30
9.20
9.50
9.20
9.30
9.30
9. 20
9.10
9.25
9.30
9.50
9.50
9.40
9.30
9.40
9.40
9-30
9.25
9.40
9. 10
9.30
9.50
9.50
9.30
9.40
7.75
9.25
9. 00
9.40
9.30
9.40
WATERSHED 109
STATION TIME
6
77
90
1400
6
77
90
1400
7
77
90
1355
7
77
90
1355
7
77
90
1 355
7
77
90
1355
8
77
90
1600
8
77
90
1600
8
77
90
1600
8
77
90
1600
9
77
90
1515
9
77
90
1515
9
77
90
1515
9
77
90
1515
10
77
90
1405
10
77
90
1405
10
77
90
1405
10
77
90
T405
1
77
91
1010
1
77
91
1010
1
77
91
1010
1
77
91
1010
4
77
91
930
4
77
91
930
4
77
91
930
4
77
91
930
10
77
91
1 130
10
77
91
1 130
10
77
91
1 130
10
77
91
1 130
10
77
91
1 130
1
77
143'
1115
1
77
1 43
1115
1
77
143
1115
1
77
143
1115
2
77
143
1 100
2
77
143
1 1 00
2
77
143
1 1 00
2
77
143
1 100
3
77
143
1000
3
77
143
1 000
3
77
143
1 000
4
77
143
935
4
77
143
935
4
77
143
935
4
77
143
935
5
77
143
920
5
.77
143
920
5
77
143
920
5
77
143
920
6
77
143
1035
6 .
77
143
1035
6
77
143
1035
6
77
143
1035
7
77
143 '
1050
WATERSHED 109
OEPTH
MOISTURE
STATION
TIME
DEPTH
MOISTURE
CM
CM
30
9.30
7
77
143
1050
15
9. 50
75
9.30
7
77
143
1050
30
9.60
5
9.50
7
77
143.
1050
75
9.75
15
9. 50
8
77
143
945
5
9.30
30
9.50
8
77
143
945
15
9.40
75
9.50
8
77
143
945
30
9.60
5
9.30
8
77
143
945
75
9.50
15
9.40
9
77
143
900
5
9.10
30
9.30
9
77
143
900
15
9.30
75
9.40
9
77
143
900
30
9.40
5
7.75
9
77
143
900
75
9.60
15
9.40
10
77
143
1015
5
9.40
30
9.30
10
77
143
1015
15
9. 40
75
9.40
10
77
143
1015
30
9.30
5
9.40
10
77
143
1015
75
9.40
15
9.70
10
77
144
830
5
9. 50
30
9.25
10
77
144
830
1 5
9. 50
75
9.25
10
77
144
830
30
9.40
5
9. 10
10
77
144
030
75
9. 50
15
9.30
1
77
1 46
1405
5
9.50
30
9.40
1
77
146
1405
15
9. 30
75
9.40
1
77
146
1405
30
9.30
5
9. 10
1
77
146
1405
75
9.50
15
9.25
2
77
1 46
1445
5
9.60
30
9. 25
2
77
1 46
1445
15
9.50
75
9.40
2
77
146
1445
30
9.50
5
9.20
2
77
146
1445
75
9.50
5
9.25
3
77
146
1425
15
9. 60
15
9.30
3
77
146
1425
30
9.40
30
9.30
3
77
146
1425
75
9 . 60
75
9.40
4
77
146
855
5
9. 75
5
6.80
4
77
146
855
15
9. 60
15
9.00
4
77
1 46
855
30
9. 50
30
9.30
4
77
146
855
75
9.60
75
9.50
5
77
146
830
5
9.60
5
9.50
5
77
146
830
15
9. 50
15
9.50
5
77
146
830
30
9. 50
30
9.50
5
77
1 46
83C
75
9.50
75
9.50
6
77
1 46
1515
5
9. 75
15
9.40
6
77
146
1515
15
9. 30
30
9.40
6
77
146
1515
30
9. 25
75
9.60
6
77
146
1515
75
9.50
5
9.30
7
77
146
1 500
5
9.60
15
9.40
7
77
146
1500
15
9. 50
30
9.50
7
77
146
1500
30
9.40
75
9.60
7
77
146
1 500
75
9.60
5
9.20
8
77
1 46
1320
5
9.60
15
9.40
8
77
146
1320
15
9.60
30
9.50
8
77
146
1320
30
9.50
75
9.60
8
77
146
1320
75
9. 50
5
8.20
9
77
1 46
815
5
9.50
15
9.20
9
77
146
815
15
9.40
30
9.25
9
77
146
815
30
9.40
75
9.50
9
77
146
815
75
9.60
5
8.80
10
77
146
1530
75
0.
-------�
Tabled, (continued)
WATERSHED 109
STATION TIME
1
77
153
1230
1
77
153
1230
1
77
153
1230
1
77
153
1 230
2
77
153
1255
2
77
153
1255
2
77
153
1255
2
77
153
1255
3
77
153
1 240
3
77
153
1240
3
77
1 53
1 240
4
77
153
1340
4
77
'153
1 340
4
77
153
1 340
4
77
153
1340
5
77
153
1410
5
77
153
1410
5
77
153
1410
5
77
153
1410
G
77
153
1315
G
77
153
1315
6
77
153
1315
G
77
153
1315
7
77
153
1305
7
77
153
1305
7
77
153
1 305
7
77
153
1305
8
77
153
1350
8
77
153
1350
8
77
153
1 350
0
77
103
1 350
9
77
153
1 -100
9
77
1 53
1 400
9
77
153
1 400
9
77
1 53
1400
10
77
1 53
1 325
10
77
1 53
1325
10
77
1 53
1 325
10
77
1 53
1 325
1
77
1 G 1
0 1 0
1
77
161
810
1
77
161
810
1
77
1 G 1
810
2
77
161
855
2
77
161
855
2
77
1 G 1
855
2
77
101
855
3
77
161
830
3
77
161
830
3
77
161
830
4
77
161
1 025
4
77
161
1 025
4
77
161
1 025
4
77
161
1 025
5
77
161
955
WATERSHED'109
DEPTH
MOISTURE
STATION TIME
CM
5
5.50
5
77 161
955
15
8.40
5
77 161
955
30
9.10
5
77 161
955
75
9.75
6
77 161
920
5
9. 60
6
77 161
920
1 5
9.50
6
7.7 161
920
30
9.50
6
77 161
920
75
9.50
7
77 161
905
15
9. 50
7
77 161
905
30
9.50
7
77 161
905
75
9.50
7
77 161
905
5
9. 70
8
77 161
1040
15
9.60
8
77 161
1040
30
9. 50
8
77 161
1040
75
9.60
8
77 161
1040
5
9.10
9
77 161
1015
15
9. 60
9
77 161
1015
30
9. 60
9
77 161
1015
75
9.70
9
77 161
1015
5
7.30
10
77 161
935
15
9.20
10
77 161
935
30
9. 20
10
77 161
935
75
9. 50
1 0
77 161
935
5
9. 30
1
77 167
820
15
9.40
1
77 167
820
30
9. 50
1
77 167
820
75
9. 60
1
77 167
820
5
9. 60
2
77 167
905
15
9.50
2
77 167
905
30
9. 50
2
77 167
905
75
9. 50
2
77 107
905
5
9. 00
3
Ļ77 1G7
040
15
9. 30
3
77 1 G7
040
30
9.40
3
77 1 07
U40
75
9.60
4
77 1 G7
1 030
5
9- 60
4
77 1 67
10.30
15
9. 60
4
77 107
1 030
30
9. 50
4
77 107
1030
75
9. 60
5
77 167
1000
5
9 . 40
5
77 1G7
1000
15
9.40
5
77 107
1 000
30
9.00
5
77 167
1000
75
9. 60
6
77 1G7
930
5
9. 50
6
77 167
930
15
9.40
6
77 167
930
30
9.40
6
77 167
930
75
9.50
*7
77 167
915
15
9.75
7
77 167
915
30
9.40
7
77 167
915
75
9.50
7
77 167
915
5
9.75
8
77 167
1035
15
9.60
8
77 167
1035
30
9.50
8
77 167
1C35
75
9.60
8
77 167
1035
5
9.75
9
77 167
1020
WATERSHED 109
DEPTH
MOISTURE
STATION
TIME
DEPTH
MOISTURE
CM
CM
9 .50
15
9.60
9
77 167
1020
15
30
9.50
9
77 167
1020
30
9.40
75
9.60
9 .
77 167
1020
75
9. 60
5
9.60
10
77 167
945
5
9.60
15
9.40
10
77 167
945
15
9. 60
30
9.30
10
77 167
945
30
9.50
75
9.60
10
77 167
945
75
9. 60
5
9.40
1
77 186
1325
5
0.40
15
9.40
1
77 186
1325
15
0. 30
30
9.40
1
77 186
1325
30
1.10
75
9.50
1
77 1 86
1325
75
9. 60
5
9.50
1
77 188
830
5
0.25
15
9.50
1
77 188
830
15
0.25
30
9.60
1
77 188
830
30
0.70
75
9.60
1
77 188
830
75
9.60
5
9.60
2
77 188
910
5
0.25
15
9.40
2
77 188
910
15
1 .20
30
9.40
2
77 188
910
30
1.10
75
9.60
2
77 188
910
75
9.40
5
9.50
3 '
77 188
935
15
0.10
15
9.50
3'
77 188
935
30
0.20
30
9.40
3
77 188
935
75
5.40
75
9.60
4
77 188
1040
5
0.10
5'
7.60
4
77 188
1 040
15
0. 20
15
9.00
4
77 108
1 040
30
1 . 75
30
9.10
4
77 1 88
1 040
75
9. 60
75
9.60
5
77 1 88
1 030
5
0.20
5
9.40
5
77 108
1 030
1 5
0 .40
1 5
9.60
5
77 180
1 030
30
0. 30
30
9.50
5
77 188
1 030
75
9. 00
75
9.40
6
77 1Uģ
1005
5
0.10
1 5
9.00
C
77 100
1 005
1 5
0.10
30
9.40
G
77 1 (JO
10 05
30
1 . 20
75
9.50
G
77 100
1 005
75
9.50
5
9.40
7
77 180
055
5
0 . 80
15
9.60
7
77 1 00
055
15
0 . 90
30
9 . 60
7
77 1 00
055
30
7 . 00
75
9. 60
7
77 180
055
75
9. GO
5
7. 90
8
77 108
1 05C
r.
0 . 75
1 5
9.40
0
77 100
1050
1 5
1 . 20
30
9.60
U
7 7 1 U11
1 050
30
5. 00
75
9. 60
8
77 100
1050
75
9. 7.0
5
7. 25
9
77 188
1 020
5
0.30
15
9.40
9
77 160
1 020
15
0 . 40
30
9.30
9
77 188
1 020
30
0. 30
75
9. 50
9
77 1 08
1020
75
9. 60
5
9.40
10
77 188
95C
5
0.90
15
9.40
10
77 188
950
15
4.10
30
9. 50
10
77 188
950
30
9.40
75
9. 50
10
77 108
950
75
9 . 60
5
8.90
1
77 190
1315
5
7.25
15
9.40
1
77 196
1315
15
0 . 70
30
9.60
1
77 196
1315
30
0 . 40
75
9.60
1
77 196
1315
75
2 . 20
r;
9.40
2
77 196
1 350
5
9 . 70
-------�
Table str7. (continued)
WATERSHED 109
STATION TIME
2
77
196
1350
2
77
196
1350
2
77
196
1350
3
77
196
1330
3
77
1 96
1330
3
77
196
1330
6
77
196
1420
6
77
196
1420
6
77
196
1420
6
77
196
1420
7
77
196
1405
7
77
196
1405
7
77
196
1405
7
77
196
1405
10
77
196
1440
10
77
196
1440
10
77
196
1440
10
77
1 96
1440
1
77
203
900
1
77
203
900
1
77
203
900
1
77
203
900
2
77
203
1 050
2
77
203
1 050
2
77
203
1050
2
77
203
1050
3
77
203
950
3
77
203
950
3
77
203
950
4
77
203
1430
4
77
203
1430
4
77
203
1430
4
77
203
' 1430
5
77
203
1355
5
77
203
1355
5
77
203
13S5
5
77
203
1 355
6
77
203
1310
6
77
203
1310
6
77
203
1310
6
77
203
1310
7
77
203
1035
7
77
203
1 035
7
77
203
1035
7
77
203
1035
8
77
203
1435
8
77
203
1435
8
77
203
1435
8
77
203
1435
9
77
203
1505
9
77
203
1 505
9
77
203
1505
9
77
203
1505
10
77
203
1335
10
77
203
1335
WATERSHED 109
DEPTH MOISTURE STATION TIME
CM
15
9.40
10
77
203
1335
30
4.40
10
77
203
1335
75
2.80
10
77
203
1335
15
0.25
8
77
208
825
30
0.20
8
77
208
825
75
1 .20
8
77
208
825
5
5.20
8
77
208
825
15
5.75
1
77
209
835
30
5.90
1
77
209
835
75
9.40
1
77
209
835
5
6.75
1
77
209
835
15
1 .40
6
77
209
1030
30
2.90
6
77
209
1030
75
9.50
6
77
209
1 030
5
7. 10
6
77
209
1 030
15
7.20
10
j 77
209
950
30
9. 20
10
' 77
209
950
75
9.70
10
77
209
950
5
0.50
10
77
209
950
15
0.30
1
77
210
940
30
0. 30
1
77
210
940
75
0.80
1
77
210
940
5
1 .90
1
77
210
940
15
1.10
2
77
210
1340
30
0.40
2
77
210
1340
75
0.75
2
77
210
1340
15
0.20
2
77
210
1 340
30
0.10
3
77
210
1250
75
0.70
3
77
210
1250
5
0.20
3
77
210
1250
15
0.20
4
77
210
1000
30
0.30
4
77-
210
1000
75
9.50
4
77
210
1000
5
0.25
4
77
210
1000
15
0.25
5
77
210
855
30
0.20
5
77
210
855
75
9.60
5
77
210
055
5
0.20
5
77
210
855
15
0.20
7
77
210
1425
30
0.50
7
77
210
1425
75
9.50
7
77
210
1425
5
1.10
7
77
210
1425
15
0.50
e
77
210
930
30
1 .40
8
77
210
930
75
8.60
8
77
210
930
5
0.80
8
77
210
930
15
0.90
9
77
210
1045
30
1.10
9
77
210
1045
75
6.50
9
77
210
1045
5
0.80
9
77
210
1045
15
0.30
6
77
214
0
30
0.20
6
77
214
0
75
1 .20
6
77
214
0
5
1 .00
6
77
214
0
15
2.10
1
77
216
950
WATERSHED 109
DEPTH
MOISTURE
STATION
TIME
DEPTH
MOISTl
CM
CM
30
3.60
1
77
216
950
15
0.20
55
555.55
1
77
216
950
30
0. 20
75
9.60
1
77
216
950
75
0.20
5
0.40
2
77
216
915
5
3.20
15
0.40
2
77
216
915
15
0.10
30
0.40
2
77
216
915
30
0.20
75
2.30
2
77
216
915
75
0.25
5
0.20
3
77
216
935
15
0. 10
15
0.20
3
77
216
935
30
0.10
30
0.20
3
77
216
935
75
0.30
75
0.30
4
77
216
1220
5
0. 20
5
0.
4
77
216
1220
15
0.10
15
0.
4
77
216
1220
30
0. 20
30
0.20
4
77
216
1220
75
9. 40
75
9.40
5
77
216
1025
5
0.10
5
0.25
5
77
216
1025
15
0.10
15
0.60
5
77
216
1025
30
0. 10
30
1 .00
5
77
216
1025
75
9.50
75
9.50
6
77
216
830
5
0. 20
5
3.00
6
77
216
830
15
0.10
15
2.20
6
77
216
830
30
0. 25
30
6.70
6
77
216
830
75
9.40
75
9.60
7
77
216
855
5
1 . 20
5
0.20
7
77
216
855
15
0.30
15
0.20
7
77
216
855
30
0.70
30
0.20
7
77
216
855
75
1 . 75
75
0.25
8
77
216
1230
5
0. 70
15
0.10
8
77
216
1 230
15
0.50
30
0.10
8
77
216
1 230
30
0.40
75
0.30
8
77
216
1230
75
0.10
5
0.
9
77
216
1010
5
2. 25
15
0.10
9
77
216
1010
15
0.25
30
0.20
9
77
216
1010
30
0.10
75
9.50
9
77
215
1010
75
0. 50
5
0.
10
77
216
805
5
1 . 30
15
0.10
10
77
216
805
15
1.10
30
0.10
10
77
216
805
30
1 . 60
75
9.60
10
77
216
805
75
9.60
5
0.50
1
77
221
1340
5
0.20
1 5
0.25
1
77
221
1 340
15
0.10
30
0.70
1
77
221
1340
30
0.10
75
1 .50
1
77
221
1340
75
0.10
5
0.30
2
77
221
1 300
5
0.25
15
0.40
2
77
221
1300
15
0.20
30
0.30
2
77
221
1300
30
0.25
75
1 .40
2
77
221
1 300
75
0.25
5
0.20.
7
77
221
1 000
5
0.30
15
0.10
7
77
221
1 000
1 5
0.20
30
0.10
7
77
221
1000
30
0.50
75
0.30
7
77
221
'1000
75
0.90
5
0.40
10
77
221
820
5
0.40
15
0.20
10
77
221
820
15
0.60
30
0.25
10
77
221
820
30
0.50
75
9.40
10
77
221
820
75
9.50
5
0.60
1
77
223
815
5
0.20
-------�
Table 3B. (continued)
WATERSHED 109
STATION TIME
1
77
223
815
1
77
223
815
1
77
223
815
2
77
223
655
2
77
223
855
2
77
223
855
2'
77
223
855
3
77
223
830
3
77
223
830
3.
77
223
830
4
77
223
1020
4
77
223
1020
4
77
223
1 020
4
77
223
1 020
5
77
223
950
5
77
223
950
5
77
223
950
5
77
223
950
6
77
223
935
6
77
223
935
6
77
223
935
6
77
223
935
7
77
223
905
7
77
223
905
7
77
223
905
7
77"
Ļ 223
905
8
77
223
1035
8
77
223
1035
8
77
223
1035
8
77
223
1 035
9
77
223
1 005
9
77
223
1 005
9
77
223
1 005
9
77
223
1005
1 0
77
223
920
1 0
77
223
920
10
77
223
920
1
77
231
1215
1
77
231
12 15
1
77
231
1215
1
77
231
12 15
2
77
231
1 250
2
77
231
1250
2
77
231
1250
2
77
231
1250
3
77
231
1 230
3
77
231
1230
3
77
231
1230
4
77
231
1130
4
77
231
1430
4
77
231
14 30
A
77
231
1 430
5
77
231
1400
5
77
231
1 400
5
77
231
1400
WATERSHED 109
DEPTH MOISTURE STATION TIME
CM
15
0.20
5
77 231
1400
30
0.10
6
77 231
1340
75
0.10
6
77 231
'340
5
0.40
6
77 231
1340
15
0.10
6
77 231
1340
30
0.10
7
77 231
1305
75
0.20
7
77 231
1305
15
0.10
7
77 231
1305
30
0.10
7
77 231
1305
75
0.30
8
77 231
1 545
5
0.10
8
77 231
1545
15
0. 10
8
77 231
1545
30
0.20
8
77 231
1545
75
9.40
9
77 231
1415
5
0.10
9
77 231
14.1 5
15
0.10
9
77 231
1415
30
0.10
9
77 231
1415
75
9.60
10
77 231
1325
5
0.10
10
77 231
1325
15
0.10
10
77 231
1325
30
0. 20
1
77 238
1015
75
9.40
1
77 238
1015
5
0.40
1
77 238
1015
1 5
0.20
1
77 238
1015
30
0.60
2
77 230
1200
75
0.90
2
77 238
1200
5
0.40
2
77 238
1200
15
0 .40
2
77 238
1200
30
0.20
3
77 238
1045
75
0 .60
3
77 238
1045
5
0 . 75
3
77 238
1045
1 5
0.10
4
77 238
1335
30
0.10
4
77 238
1335
75
0.30
4
77 238
1335
1 5
0. 50
4
77 230
1 335
30
0.75
5
77 238
1320
75
9.50
5
77 238
1320
5
0.10
5
77 238
1320
1 5
0 . 20
5
77 230
1320
30
0. 20
G
77 23U
1250
75
0.10
6
77 238
1250
5
0.40
6
77 238
1250
1 5
0.10
C
77 230
1250
30
0. 20
7
77 230
1 220
75
0.25
7
77 238
1220
15
0.10
7
77 238
1220
30
0.10
7
77 238
1220
75
0.30
8
77 238
1345
5
0. 10
8
77 238
1345
1 5
0.
8
77 230
1345
30
0.20
8
77 230
1345
75
9.20
9
77 230
1310
5
0. 10
9
77 238
1310
15
0.10
9
77 238
1310
30
0.10
9
77 230 '
1310
DEPTH
MOIST!
CM
75
9.50
5
0.10
15
0.10
30
0.10
75
9.40
5
0.30
15
0.20
30
0.40
75
0.75
5
0.25
1 5
0.25
30
0.20
75
0.40
5
0.25
15
0.10
30
0.
75
0.30
1 5
0.40
30
0.70
75
9.50
5
1 .00
15
0.10
30
0.20
75
0.10
5
9.50
15
0.40
30
4.90
75
0.25
15
0.10
30
0.10
75
0.30
5
0.10
15
0.10
30
0.20
75
8. 80
5
1 . 25
15
0. 70
30
0.30
75
9.40
5
0.10
15
0.20
30
0.25
75
9. 30
5
1.10
15
0.20
30
0.40
75
0.70.
5
0.75
15
0.25
30
0.20
75
0.30
5
0.25
15
0.10
30
0.10
75
0.30
WATERSHED 109
STATION TIME
10
77
238
1235
10
77
238
1235
10
77
238
1235
2
77
242
835
2
77
242
835
2
77
242
835
2
77
242
835
5
77
242
1255
5
77
242
1255
5
77
242
1255
5
77
242
1255
10
77
242
1220
10
77
242
1220
10 ..
77
242
1 220
1
77
251
1115
1
77
251
1115
1
77
251
1115
1
77
251
1115
2
77
251
1055
2
77
251
1055
2
77
251
1055
2
77
251
1055
3
77
251
1010
3
77
251
1010
3
77
251
1010
4
77
251
1000
4
77
251
1000
4
77
251
1000
Ļ4
77
251
1 000
5
77
251
930
5
77
251
930
5
77
251
930
5
77
251
930
6
77
251
1 040
6
77
251
1 040
6
77
251
1 040
6
77
251
1040
7
77
251
1 1 05
7
77
251
1 1 05
7
77
251
1 1 05
7
77
251
1 1 05
8
77
251
955
8
77
251
955
8-
77
251
955
8
77
251
955
9
77
251
945
9
77
251
945
9
77
251
945
9
77
251
945
10
77
251
1030
10
77
251
1030
10
77
251
1030
1
77
258
1330
1
77
258
1330
1
77
258
1330
PTH
MOISTURE
CM
15
0.70
30
1 .00
75
9. 50
5
9.30
15
4.50
30
7.40
75
0.25
5
1 .20
15
0.40
30
0.20
75
9.50
15
0.40
30
0.20
75
9-50
5
0.25
15
0.20
30
0.25
75
0.20
5
7.00
15
5.10
30
6.00
75
0 . 90
15
0.30
30
0.25
75
0 . 50
5
0.10
15
0.
30
0.30
75
8 . ! 0
5
0 .GO
15
0.40
30
0.25
75
9.75
5
0 .
1 5
0 .20
30
0.25
75
0.30
5
0.40
1 5
0.25
30
0.70
75
0.00
5
0.30
15
0 . 25
30
0.20
75
0 . 40
5
0.25
15
0.40
30
0.50
75
0.75
15
1 .00
30
1 .30
75
9. 75
5
0.50
15
0.20
30
0.20
-------�
Table 3BS. (continued)
WATERSHED
STATION
109
WATERSHED 109
TIME
DEPTH
MOISTURE
STATION
TIME
CM
'0.10
258
1330
75
6
77
265
910
258
1350
5
8.30
6
77
265
910
258
1350
15
5.25
6
77
265
910
258
1350
30
4.25
7
77
265
940
258
1350
75
0.30
7
77
265
940
258
1245
15
0. 25
7
77
265
940
258
1245
30
0-20
7
77
265
940
258
1245
75
0.40
8
77
265
1330
258
830
5
0.25
8
77
265
1330
258
830
15
0.20
8
77
265
1330
258
830
30
0.30
8
77
265
1330
258
830
75
7.60
9
77
265
1300
258
940
5
.1 .25
9
77
265
1300
258
940
15
0.25
9
77
265
1300
258
940
30
0.20
9
77
265
1300
258
940
75
9.40
10
77
265
835
258
1415
5
0. 10
10
77
265
835
258
1415
15
0.10
10
77
265
835
258
1415
30
0.25
1
77
272
855
258
1415
75
9.25
1
77
272
855
258
1400
5
0.60
1
77
272
855
258
1400
15
0.25
1
77
272
855
258
1400
30
0.50
2
77
272
750
258
1400
75
0.90
2
77
272
750
258
925
5
0.40
2
77
272
750
258
925
15
0.25
2
77
272
750
250
925
30
0.20
3
77
272
845
250
925
75
0.40
3
77
272
845
258
955
5
0.40
3
77
272
Q45
258
955
15
0. 20
4
77
272
925
258
955
30
0.10
4
77
272
925
258
955
75
0.70
4
77
272
925
258
14 30
15
1 .50
4
77
272
925
208
1430
30
2.00
5
77
272
905
258
1430
75
9.40
5
77
272
905
265
10.20
5
0. 70
5
77
272
905
265
1020
15
0.20
5
77
272
905
255
1 020
30
0.20
6
77
272
815
2G5
1020
75
0.10
6
77
272.
815
2G5
925
5
8. 10
6
77
272
81-5
2C5
925
15
5.20
6
77
272
815
265
925
30
3.70
7
77
272
000
265
925
75
0.30
7
77
272
000
265
1005
15
0.25
7
77
272
800
265
1005
30
0.20
7
77
272
800
205
1005
75
0.40
8
77
272
930
265
1315
5
0.40
8
77
272
930
265
1315
15
0.20
8
77
272
930
265
1315
30
0-30
8
77
272
930
265
1315
75
7.40
9
77
272
915
265
1245
5
0 60
9
77
272
915
265
1245
15
0.30
9
77
272
915
265
1245
30
0.20
9
77
272
915
265
1245
75
9.25
10
77
272
830
265
910
5
0.20
10
77
272
830
DEPTH MOISTURE
CM
15
0.20
30
0.30
75
9.20
5
0.60
15
0.30
30
0.70
75
1 .20
5
0.30
15
0.30
30
0.20
75
0.40
5
0.50
15
0.20
30
0.10
75
0.80
15
2.10
30
3.20
75
9.50
5
0.30
15
0.20
30
0. 10
75
0.10
5
4.25
15
4.25
30
3. 20
75
0.30
15
0.20
30
0.20
75
0.40
5
0.20
15
0.10
30
0.30
75
7.10
5
0.25
15
0.30
30
0.20
75
9.40
5
0.10
15
0.10
30
0.25
75
9.20
5
0.30
15
0.25
30
0.70
75
1 .40
5
0.20
15
0.25.
30
0.20
75
0.40
5
0.20
15
0.10
30
0.10
75
0.90
15
1 .75
30
3.75
WATERSHED 109
STATION TIME
10
77
272
830
6
77
279
1430
6
77
279
1430
6
77
279
1430
6
77
279
1430
10
77
279
1315
10
77
279
1315
10
77
279
1315
1
77
286
955
1
77
286
955
1
77
286
955
1
77
286
955
2
77
286
925
2
77
286
925
2
77
286
925
2
77
286
925
3
77
286
945
3
77
286
945
3
77
286
945
4
77
286
1035
4
77
286
1035
4
77
286
1035
4
77
286
1035
5
77
286
1015
5
77
20G
1015
5
77
2BC
1015
5
77
286
1015
7
77
286
935
7
77
286
935
7
77
286
935
7
77
2Q6
935
8
77
286
1040
8
77
286
1040
8
77
236
1040
8
77
286
1040
9
77
286
1025
9
77
286
1025
9
77
286
1025
9
77
286
1025
1
77
291
1410
1
77
291
1410
1
77
291
1410
4
77
291
1245
4
77
291
1245
4 '
77
291
1245
4
7?
291
1245
8
77
291
1320
8
77
291
1320
8
77
291
1320
8
77
291
1320
9
77
291
1015
.9
77
291
1015
9
77
291
1015
9
77
291
1015
1
77
294
1350
DEPTH
MOIST
CM
75
9.40
5
0.10
15
0.10
30
0. 25
75
9.10
15
1 .50
30
3.60
75
9.40
5
5. 60
15
4.50
30
0.20
75
0.10
5
9.30
15
9.30
30
9.30
75
0.30
15
0.40
30
0.25
75
0.40
5
0.50
15
0.20
30
0.40
75
6.60
5
4 . 70
15
0.60
30
0.20
75
9.40
5
2.90
15
0.30
3.0
0.60
75
1 .60
5
1 . 20
15
0.80
30
0 .30
75
0.40
5
1 .25
15
0.10
30
0.10
75
0.80
15
9.30
30
7.10
75
0.40
5
8.20
15
3.10
30
5.60
75
7.50
5
5. 10
1 5
6. 00
30
0. 75
75
0.40
5
8.40
15
0.20
30
0.10
75
0.80
5
9.30
-------�
Table HT. (continued)
WATERSHED 109
STATION TIME DEPTH MOISTURE
CM
1
77
294
1350
15
9.30
1
77
294
1350
30
5.50
1
77
294
1350
75
0.10
2
77
294
1300
5
9.25
2
77
294
1300
15
9.20
2
77
294
1300
30
9.20
2
77
294
1300
75
9.40
7
77
294
950
5
6.25
7
77
294
950
15
6.25
7
77
294
950
30
8-25
7
77
294
950
75
1 .70
5
77
313
1335
5
9.30
5
77
313
1335
15
9.40
5
77
313
1335
30
9.40
5
77
313
1335
75
9.50
1
77
319
1430
5
9.20
1
77
319
1430
15
9.30
1
77
319
1430
30
9.40
1
77
319
1430
75
9.30
2
77
319
1435
5
9.10
2
77
'319
1435
15
8.90
2
77
319
1435
30
9.10
2
77
319
1435
75
9.30
3
77
319
1505
15
9.30
3
77
319
1505
30
9.20
3
77
319
1505
75
9.40
5
77
319
1515
5
9.10
5
77
319
1515
15
9.10
5
77
319
1515
30
9.30
5
77
319
1515
75
9.40
6
77
319
1450
5
9.00
6
77
319
1450
15
9.30
6
77
319
1450
30
9.20
6
77
319
1450
75
9.30
7
77
319
1 445
5
9.00
7
77
319
1445
15
9.40
7
77
319
1445
30
9.25
7
77
319
1445
75
9.50
10
77
319
1 500
5
9.20
10
77
319
1500
15
9. 30
10
77
319
1500
30
9.20
10
77
319
1500
75
9.30
1
77
327
1055
5
9.20
1
77
327
1055
15
9.40
1
77
327
1055
30
9.40
1
77
327
1055
75
9.40
2
77
327
1 105
5
9.00
2
77
327
1 105
15
8.90
2
77
327
1 105
30
9.20
2
77
327
1 105
75
9.25
3
77
327
1 120
15
9.20
3
77
327
1 1 20
30
9.20
3
77
327
1 120
75
9.30
4
77f
327
1015
5
9.30
A
77
327
1015
15
9.40
WATERSHED 109
TION
T IME
A
77
327
1015
A
77
327
1015
5
77
327
955
5
77
327
955
5
77
327
955
5
77
327
955
6
77
327
1155
6
77
327
1155
6
77
327
1 155
6
77
327
1 155
7
77
327
1 1 35
7
77
327
1135
7
77
327
1 135
7
77
327
1 135
8
77
327
1030
8
77
327
1030
8
77
327
1030
8
77
327
1030
9
77
327
1040
9
77
327
1040
9
77
327
1040
9
77
327
1040
10
77
327
1205
10
77
327
1205
10
77
327
1205
10
77
327
1205
1
77
336
11 20
1
77
336
1120
1
77.
336
1 1 20
1
77
336
1 1 20
2
77
336
1110
2
77
336
11 10
2
77
336
1110
2
77
336
1110
3
77
336
1055
3
77
336
1055
3
77
336
1055
4
77
336
1020
A
77
336
1020
A
77
336
1020
A
77
336
1020
5
77
336
1040
5
77
336
1040
5
77
336
1040
5
77
336
1040
6
77
336
1125
6
77
336
11 25
6
77
336
11 25
6
77
336
1 125
7
77
336
1 105
7
77
336
1 105
7
77
336
1 105
7
77
336
1105
8
77
336
1030
8
77
336 '
1030
DEPTH
MOISTl
CM
30
9.30
75
9.30
5
9.00
15
9.10
30
9.30
75
9.40
5
9.40
15
9.40
30
9.20
75
9.30
5
9. 10
15
9.40
30
9.30
75
9.40
5
9.20
15
9.30
30
9.25
75
9.30
5
9.70
15
9.60
30
9.20
75
9.40
5
9.20
15
9.30
30
9.25
75
9.30
5
9. 10
15
9.30
30
9.40
75
9^.40
5
9. 10.
15
8.90
30
9.20
75
9.20
15
9.30
30
9.20
75
9.30
5
9.20
15
9.50
30
9.30
75
9.25
5
8.90
15
9.10
30
9.20
75
9.30
5
9.40
15
9.30.
30
9.20
75
9.20
5
9.00
15
9.40
30
9.20
75
9.30
5
9.10
15
9,10
WATERSHED 109
STATION TIME
8
77
336
1030
8
77
336
1030
9
77
336
1045
9
77
336
1045
9
77
336
1045
9
77
336
1045
10
77
336
1 130
10
77
336
1 130
10
77
336
1 130
10
77
336
1 130
1
77
341
1405
1
77
341
1405
1
77
341
1405
1
77
341
1405
1
77
343
1550
1
77
343
1550
1
77
343
1550
1
77
343
1550
2
77
343
1455
2
77
343
1455
2
77
343
1455
2
77
343
1 455
3
77
343
1440
3
77
343
1440
3
77
343
1440
A
77
343
1405
A
77
343
1405
A
77
343
1405
A
77
343
1405
5
77
343
1420
5
77
343
1420
5
77
343
1420
5
77
343
1420
6
77
343
1505
6
77
343
1505
6
77
343
1505
6
77
343
1505
7
77
343
1450
7
77
343
1450
7
77
343
1450
7
77
343
1450
8
77
343
1415
B
77
343
1415
8
77
343
1415
8
77
343
1415
9
77
343
1430
9
77
343
1430
9
77
343
1430
9
77
343
1430
10
77
343
1515
10
77
343
1515
10
77
343
1515
10
77
343
1515
A
77
347
1500
4 .
77
347
1500
DEPTH
MOISTU
CM
30
9.20
75
9.20
5
9.40
15
9.40
30
9.20
75
9.30
5
9.2 9
15
9.30
30
9.20
75
9.30
5
8.80
15
9.20
30
9.30
75
9.30
5
8.80
15
9.20
30
9.20
75
9.30
5
8.40
15
8.70
30
8.90
75
9.10
15
9.00
30
8.90
75
9.20
5
8.30
15
9.30
30
9.20
75
9.20
5
8.60
15
8.75
30
9.00
75
9.30
5
6.20
15
9.10
30
9.00
75
9.10
5
8.80
15
9.10
30
9.00
75
9.20
5
8.90
15
8.90
30
9. 10
75
9.20
5
9.30
15
9.30
30
9. 10
75
9.30
5
8.90
15
9. 10
30
8.90
75
9.20
5
1 .60
15
9.30
-------�
Table 36*. (continued)
WATERSHED 109
STATION TIME DEPTH
CM
4
77
347
1500
30
4
77
347
1500
75
5
77
347
1350
5
5
77
347
1350
15
5
77
347
1350
30
5
77
347
1350
75
8
77
347
1515
5
3
77
347
1515
15
8
77
347
1515
30
8
77
347
1.515
75
9
77
347
1425
5
9
77
347
1425
15
9
77
347
1425
30
9
77
347
1425
75
1
77
357
925
5
1
77
357
925
15
1
77
357
925
30
1
77
357
925
75
2
77
357
950
5
2
77
357
950
15
2
77
357
950
30
2
77
357
950
75
3
77
357
1000
15
3
77
357
1 000
30
3
77
357
1000
75
4
77
"357
1050
5
4
77
357.
1050
15
4
77
357
1050
30
4
77
357
1050
75
5
77
357
1 1 20
5
5
77
357
1 120
15
5
77
357
1 120
30
.5
77
357
1 1 20
75
6
77
357
1025
5
6
77
357
1025
15
G
77
357
1025
30
6
77
357
1025
75
7
77
357
1010
5
7
77
357
1010
15
7
77
357
1010
30
7
77
357
1010
75
8
77
357
1 100
5
8
77
357
1 1 00
15
8
77
357
1 100
30
8
77
357
1 1 00
75
9
77
357
1110
5
9
77
357
1110
15
9
77
357
1110
30
9
77
357
1110
75
10
77
357
1032
5
10
77
357
1032
15
1 0
77
357
1032
30
10
77
357
1032
75
1
77
363
1530
5
1
77
363
1530
15
WATERSHED 109
MOISTURE STATION TIME
9.10
1
77
363
1530
9.20
1
77
363
1530
0.70
2
77
363
1015
8.70
2
77
363
1015
8.90
2
77
363
1015
9.30
2
77
363
1015
8.30
3
77
363
1320
8.70
3
77
363
1320
9.00
3
77
363
1320
9.10
3
77
363
1320
8.70
A
77
363
955
9.20
4
77
363
955
9.00
A
77
363
955
9.30
A
77
363
955
8.70
5
77
363
940
9.20
5
77
363
940
9.20
5
77
363
940
9.20
5
77
363
940
8.70
6
77
363
1020
8.80
6
77
363
1020
8.80
6
77
363
1020
9.00
6
77
363
1020
9.20
7
77
363
1350
8.90
7
77
363
1350
9.30
7
77
363
1350
8.70
8
77
363
11300
9.30
8
77
363
1000
8.90
8
77
363
1000
9.20
8
77
363
1000
8.60
9
77
363
945
8.80
9
77
363
945
9.00
9
77
363
945
9.20
9
77
363
945
8. 80
10
. 77
363
1420
9.20
10
77
363
1420
9.10
10
77
363
1420
9.10
10
77
363
1420
8.GO
1
77
0
0
9.00
1
77
0
0
9.00
1
77
0
0
9.30
1
77
0
0
8.90
4
78
6
1340
8.90
4
78
6
1 340
9.10
4
78
6
1340
9.10
4
78
6
1340
8.90
5
78
6
1405
9.10
5
78
6
1405
9.10
5
78
6
1405
9.30
5
78
6
1405
8.90
8
78
6
1335
8.90
8
78
6
1 335
8.90
8
78
6
1335
9.20
8
78
6
1335
8.10
10
78
6
1415
8.90
10
78
6 '
1415
WATERSHED 109
DEPTH
MOISTURE
STATION
TIME
DEPTH
MOISU
CM
CM
30
9.20
10
78
6
1415
30
8.90
75
9.20
10
78
6
1415
75
9.10
5
0.
1
78
12
1010
5
7.60
1 5
0.25
1
78
12
1010
15
8. 90
30
8.90
1
78
1 2
1010
30
9.10
75
9.10
1
78
12
1010
75
9.10
5
0.
2
78
12
1025
5
0.
15
7.30
2
78
12
1025
15
0.10
30
8.90
2
78
12
1025
30
8.80
75
9.20
2
78
12
1025
75
8.90
5
0.10
3
78
12
1015
15
0.20
15
9.10
3
78
12
1015
30
8.80
30
8.90
3
78
12
1015
75
9.00
75
9.20
A
78
12
1415
5
-0.10
5
0.
A
78
12
1415
1 5
3.25
15
8.25
A
78
1 2
1415
30
8.90
30
8.80
A
78
12
1415
75
9.10
75
9.20
5
78
12
1425
5
-0.10
5
0.
5
7B
12
1425
1 5
0.10
15
9.00
5
78
12
1425
30
8.80
30
8.90
5
78
12
1425
75
9.10
75
9.00
6
78
12
1 1 05
5
-0.10
5
0.20
6
78
12
1 1 05
1 5
0.90
30
8.80
6
78
12
1 105
30
8. 90
75
9.20
6
78
12
1 105
75
9.10
5
0.10
7
78
12
1055
5
0.10
15
0.30
7
78
12
1055
1 5
8. 50
30
8.90
7
78
12
1055
30
8. 80
75
9.10
7
78
12
1055
75
9. 20
5
0.10
8
78
12
1350
5
0.20
15
8.90
8
78
1 2
1350
15
0. 20
30
9.00
8
78
12
1350
30
8.90
75
9.30
8
78
12
1350
75
9.10
5
8.70
9
78
12
1430
5
0.30
15
8.90
9
78
12
1430
1 5
8. 80
30
8.90
9
78
1 2
1430
30
8. 90
75
9. 10
9
78
1 2
1430
75
9.20
5
8.20
10
78
1 2
1 1 20
5
8.70
1 5
8.80
10
78
12
1 1 20
1 5
8.90
30
9.00
10
78
12
1 1 20
30
8. 80
75
9. 10
10
78
12
1 1 20
75
9.10
5
0.60
1
78
1 9
1010
5
8. 70
15
9. 20
1
78
19
1010
15
9.10
30
8. 90
1
78
19
1010
30
9.10
75
9.10
1
78
19
1010
75
9. 10
5
0.75
2
78
19
1 000
5
0.10
1 5
8.40.
2
78
19
1000
1 5
8.70
30
8.90
2
78
19
1000
30
8. 90
75
9.20
2
78
19
1000
75
8. 90
5
4.30
3
78
19
940
15
8.10
15
4.70
3
78
19
940
30
8. 80
30
8.90
3
78
19
940
75
9. 10
75
9-00
4
78
19
925
5
0.10
5
8.75
4
78
19
925
15
9.20
15
8.90
4
78
19
92E.
30
8.90
-------�
Table SB. (continued)
WATERSHED 109.
STATION TIME DEPTH MOISTURE
CM
4
78
19
925
75
9.10
5
78
19'
920
5
0.10
5
78
19
920
15
7.20
5
78
19
920
30
8.90
5
78
19
920
75
9.10
6
78
19
1025
5
0.10
6
78
19
1025
15
8.80
6
78
19
1025
30
8.'80
6
78
19
1025
75
9.00
7
78
19
950
5
5.70
7
78
19
950
15
8.90
7
78
19
950
30
8.80
7
78
19
950
75
9.20
8
78
19.
930
5
0.25
8
78
19
930
15
6.90
8
78
19
930
30
8.90
8
78
19
930
75
9.10
9
78
19
910
5
0.40
9
78
19
910
15
9.00
9
78
19
910
30
8.90
9
78
19
910
75
9.20
10
78
19
1 020
5
8.80
1 0
78
19
1020
15
8.90
10
78
19
1020
30
8.80
10
78
19
1 020
75
9. 00
1
78
23
1025
5
8.60
1
78
23
1 025
15
9.10
1
78
23
1 025
30
9.00
1
78
23
1025
75
9.10
2
78
23
1115
5
0.10
2
78
23
1115
15
8 . 70
2
70
23
1115
30
0.00
2
70
23
1115
75
9 . 80
3
78
23
1 445
15
8.90
3
78
23
1445
30
8.80
3
78
23
1445
75
9.10
4
73
23
1510
5
0.10'
4
78
23
1510
15
9.20
4
70
23
1510
30
8.90
4
78
23
1510
75
9.10
5
70
23
1550
5
0.10
5
73
23
1 550
1 5
0 . 70
5
70
23
1550
30
8.90
5
70
23
1550
75
9.10
0
78
23
1 330
5
0.
C
70
23
1330
15
8.90
c
70
23
1 330
30
8.90
G
78
23
1 330
75
9.00
7
78
23
1 1 45
5
8.30
7
78
23
1 1 45
15
8.90
7
70
23
1 145
30
8 30
7
70
23
1 145
75
9.20
8
78
23
1530
5
0.30
8
78
23
1530
15
8-90
8
78
23
1530
30
8.70
WATERSHED 109
STATION TIME
8
78
23
1530
10
78
23
1400
10
78
23
1400
10
78
23
1400
10
78
23
1400
1
78
24
1525
1
78
24
1525
1
78
24
1525
1.
78
24
1525
9
78
24
1025
9
78
24
1025
9
78
24
1025
9
78
24
1025
10
78
24
1500
10
78
24
1500
10
78
24
1500
10
78
24
1500
1
78
34
940
1
78
34
940
1
78
34
940
2
78
34
1005
2
78
34
1005
2
78
34
1005
2
78
34
1005
3
78
34
945
3
78
34
945
3
78
34
945
4
78
34
1050
4
7B
34
1050
4
7B
34
1050
4
7B
34
1050
5
78
34
1045
5
70
34
1 045
5
78
34
1045
5
78
34
1045
6
78
34
1010
6
78
34
1010
6
78
34
1010
6
78
34
1010
7
78
34
955
7
78
34
950
7
78
34
955
7
78
34
955
8
78
34
1 100
8
78
34
1 100
8
78
34
1 1 00
8
78
34
1 1 00
9
78
34
1035
9
78
34
1035
9
78
34
1035
9
78
34
1035
10
78
34
1020
10
78
34
1020
10
78
34
1020
10
78
34 '
1020
WATERSHED 109
DEPTH
MOISTURE
STATION
TIME
DEPTH
MOISTURE
CM
9. 00
CM
75
10
78
34
1020
15
8. 80
5
8.80
10
78
34
1020
15
8 . 80
1 5
8. 60
10
78
34
1020
15
8.90
30
8.80
10
78
34
1 020
15
8.00
75
9.00
10
78
34
1020
30
8.80
5
8.60
10
78
34
1020
30
8. 80
15
9.00
10
78
34
1020
30
8.90
30
9.10
10
78
34
1020
'30
8. 80
75
9.10
10
78
34
1 020
75
8.90
5
0.20
10
78
34
1020
75
9.00
15
8.90
10
78
34
1 020
75
8.80
30
8.90
10
78
34
1020
75
8. 70
75
9. 20
1
78
40
1505
5
0.10
5
8.80
1
78
40
1505
15
0. 20
15
8.90
1
78
40
1505
30
8.60
30
8. 80
1
78
40
1505
75
9.10
75
9.00
2
78
40
1510
5
0.10
5
0.
2
78
40
1510
15
0.
15
0.20
2
78
40
1510
30
0.
30
8.90
2
78
40
1510
75
8. 80
5
-0.10
3
78
40
1 455
15
0.10
1 5
-0.10
3
78
40
1455
30
0 .25
30
-0.10
3
78
40
1455
75
9.00
75
8. 90
4
78
40
1445
5
0.
15
0.
4
78
40
1445
15
1 . 30
30
0.10
4
78
40
1445
30
8.00
75
9. 00
4
78
40
1445
75
9.10
5
-0.10
5
78
40
1435
5
0.
1 5
0.70
5
78
40
1435
15
0.10
30
8.90
5
70
40
14 35
30
0 . 20
75
9.10
5
70
40
1435
75
9.10
5
-0.10
6
70
40
1 400
5
-0.10
15
0.
C
78
40
1 400
1 5
0.10
30
4.10
6
78
40
1400
30
8 . 20
75
9.10
6
78
40
1 400
75
8.90
5
-0.10
7
78
. 40
14 15
5
0.30
15
-0.10
7
78
40
1415
1 5
5.80
30
8. 70
7
78
40
1410
30
0 . 80
75
9.00
7
78
40
1415
75
9. 20
5
0.10
0
78
40
1440
5
0.10
1 5
5. 30
8
78
40
1 440
ir-
0.10
30
8.80
8
70
40
1440
30
8 . 90
75
9. 20
8
78
40
1440
75
9.00
5
-0.10
9
70
40
1430
5
0.20
1 5
0.10
9
78
40
1430
1 5
0. 20
30
8. 90
9
78
40
1 43C
30
0. 00
75
9. 00
9
78
40
1 4 3C
75
9.10
5
0.
10
78
40
1405
5
7.00
1 5
0.10
10
78
40
1 405
15
8.80
30
8. 80
10
70
40
1 405
30
8.80
75
9. 10
10
70
40
1405
75
9.00
5
8.00
1
78
03
1 120
5
0.10
5
1 . 80
1
78
53
1 1 20
15
0.40
5
2.00
1
78
53
1 120
30
8 . 20
5
1 . 40
1
78
53
1 120
75
9.00
-------�
Table "3B. (continued)
WATERSHED 109
STATION TIME DEPTH MOISTURE
CM
2
78
53
1330
5
0.10
2
78
53
1330
15
0.10
2
78
53
1330
30
0.10
2
78
53
1330
75
8.80
3
78
53
1425
15
-0.10
3
78
53
1425
30
0.20
3
78
53
1425
75
9.10
4
78
53
1445
5
4.10
4
78
53
1445
15
6.70
4
78
53
1445
30
8.80
4
78
53
1445
75
9.10
5
78
53
1525
5
0.
5
78
53
1525
15
0.10
5
78
53
1525
30
0.40
5
78
53
1525
75
9.10
6
78
53,
1110
5
0.10
6
78
53
1110
15
0.10
6
78
53
1110
30
8.60
6
78
53
1110
75
8.90
7
78
53
1350
5
0.60
7
78
53
1350
15
8.90
7
78
53
1350
30
8.80
7
78
53
1350
75
9.20
8
78
53
1500
5
0.30
8
78
53
1500
15
0.20
8
78
53
1500
30
8.90
8
78
53
1500
75
9. 10
9
78
53
1540
5
0.30
9
78
53
1540
15
0.20
9
78
53
1540
30
8.80
9
78
53
1540
75
9.10
10
78
53
1025
5
8. 80
1.0
78
53
1025
15
8.90
10
78
53
1025
30
8.80
10
78
53
1025
75
8.90
1
78
61
940
5
0.10
1
70
61
940
15
0.60
1
78
'61
940
30
6.20
1
78
61
940
75
9.00
2
78
61
920
5
0.10
2
78
61
920
15
0.10
2
78
61
920
30
0.30
2
78
61
920
75
8.90
3
78
61
945
15
0.
3
78
61
945
30
1 .30
3
78
61
945
75
8.90
4
78
61
955
5
3.00
4
78
61
955
15
8.90
4
78
61
955
30
8.80
4
78
61
955
75
9.00
5
78
61
1015
5
0.
5
78
61
1015
15
0.10
5
78
61
.1015
30
2.20
5
78
61
1015
75
9.10
G
78
61
915
5
0.
WATERSHED 109
STATION TIME
6
78
61
915
6
78
61
915
6
78
61
915
7
78
61
930
7
78
61
930
7
78
61
930
7
78
61
930
8
78
61
1000
8
78
61
1000
8
78
61
1000
8
78
61
1000
9
78
61
1005
9
78
61
1005
9
78
61
1005
9
78
61
1005
10
78
61
905
10
78
61
905
10
78
61
905
10
78
61
905
1
78
72
1400
1
78
72
1400
1
78
72
1400
1
78
72
1400
2
78
72
1415
2
78
72
1415
2
78
72
1415
2
78
72
1415
3
78
72
1405
3
78
72
1405
3
78
72
1405
4
78
72
1500
4
78
72
1500
4
78
72
1500
4
78
72
1500
5
78
72
1455
5
78
72
1455
5
78
72
1 455
5
78
72
1455
6
78
72
1515
6
78
72
1515
6
78
72
1515
6
78
72
1515
7
78
72
1420
7
78
72
1420
7
78
72
1420
7
78
72
1420
8
78
72
1508
8
78
72
1508
8
78
72
1508
8
78
72
1508
9
78
72
1445
9
78
72
1445
9
78
72
1445
9
78
72
1445
10
78
72
1430
DEPTH MOISTURE
CM
15
0.10
30
8.50
75
8.90
5
8.60
15
8.80
30
8.80
75
9.20
5
8.70
15
5.00
30
8.90
75
9.00
5
4.40
15
3.90
30
8.80
75
9.10
5
8.80
15
8.80
30
8.80
75
8.90
5
3.50
15
6. 10
30
8.90
75
9.00
5
9.00
15
4.30
30
1 .40
75
8.80
15
2.90
30
7.00
75
8.90
5
8.90
15
9.20
30
8.80
75
9.00
5
8.50
15
4.70
30
7.10
75
9. 00
5
2.00
15
1.10
30
8.60
75
8.90
5
8.80
15
8.90
30
8.80
75
9.20
5
9.20.
15
8.90
30
8.90
75
9.00
5
8.80
15
8.90
30
8.80
75
9.10
5
8.70
WATERSHED 109
STATION TIME
10
78
72
1430
10
78
72
1430
10
78
72
1430
1
78
80
1000
1
78
80
1 000
1
78
80
1000
1
78
80
1000
2
78
80
1040
2
78
80
1040
2
78
80
1040
2
78
80
1040
3
78
80
1020
3
78
BO
1020
3
78
80
1020
4
78
80
"1500
4
78
80
1500
4
78
80
1500
4
78
80
1500
5
78
BO
1530
5
78
80
1530
5
78
BO
1530
5
78
BO
1530
6
78
80"
1115
6
78
BO
1115
6
78
BO
1115
6
78
BO
1115
7
78
BO
1055
7
78
BO
1055
7
78
80
1055
7
78
80
1055
8
78
80
1320
8
78
80
1320
8
78
80
1320
8
78
80
1320
9
78
80
1515
9
78
80
1515
9
78
BO
1515
9
78
BO
1515
10
78
80
1235
10
78
80
1235
10
78
80
1235
10
78
00
1235
6
78
137
1455
6
78
07
1455
6
78
87
1455
6
78
87
1455
10
78
87
1520
10
78
87
1520
10
78
87
1520
10
78
87
1520
1
78
95
1 105
1
78
95
1 105
1
78
95
1105
1
78
95
1105
2
78
95
945
DEPTH
MOISTI
CM
15
8.90
30
8.75
75
8.80
5
9.00
15
9.25
30
9.20
75
9.00
5
9.10
15
9.00
30
9.20
75
9.00
15
9.10
30
8.80
75
8.. 80
5
9. 30
15
9. 30
30
9.10
75
9.10
5
9.00
15
9.00
30
9. 00
75
9.10
5
9.20
15
9.10
30
8.90
75
8.90
5
9.00
15
9.10
30
9.00
75
9.25
5
9.30
15
9.10
30
9.10
75
9.00
5
9 .30
15
9.30
30
9.10
75
9.20
5
9.10
15
9.20
30
8.90
75
8.90
5
9.30
15
9.30
30
9. 10
75
9.10
5
9.30
15
9.30
30
9. 10
75
9.00
5
9.20
15
9.30
30
9.30
75
9.20
5
9.10
-------�
Table 3B. (continued)
ro
CM
2
78
95
945
15
9.20
2
78
95
945
30.
9.30
2
73
95
945
75
9.20
3
78
95
1000
15
9.30
3
78
95
1000
30
9. 10
3
78
95
1000
75
9.20
4
78
95
1015
5
9.20
4
78
95
1015
15
9.30
4
78
95
1015
30
9.20
4
78
95
1015
75
9.20
5
78
95
1035
5
8.90
5
78
95
1035
15
9.10
5
78
95
1035
30
9.20
5
78
95
1035
75
9.20
6
78
95
915
5
8.40
6
78
95
91 5
15
9.30
6
78
95
915
30
9.20
6
78
95
915
75 '
9.20
7
78
95
950
5
9-10
7
78
95
950
15
9.30
7
78
95
950
30
9.20
7
78
95
950
75
9.30
8
78
95
1025
5
9.20
8
78
95
1025
15
9.30
8
78
95
1025
30
9.20
8
78
95
1025
75
9.20
9
78
95
1045
5
9.20
9
78
95
1045
1 5
9.25
9
78
95
1045
30
9.20
9
70
95
1045
75
9. 25
10
78
95
930
5
9.30
10
78
95
930
15
9.20
10
78
95
930
30
9.10
10
78
95
930
75
9.10
1
78
100
1000
5
9.10
1
78
100
1 000
15
9.30
1
78
1 00
1000
30
9.30
1
78
100
1 000
75
9.30
2
78
100
1015
5
9.00
2
78
100
1015
15
9. 10
2
78
100
1015
30
9. 30
2
78
100
1015
75
9.20
3
78
1 00
1005
15
9.20
3
78
100
t COS
30
9.10
3
78
100
1005
75
9.20
4
78
100
1 1 05
5
9.20
4
78
100
1 105
15
9.30
4
78
100
1 1 05
30
9.30
4
78
1 00
1 1 05
75
9.20
5
78
100
1055
5
8.10
5
70
100
1055
15
9. 10
5
70
100
1055
30
9.20
5
78
1 00
1055
75
9.30
6
78
100
1 030
5
3.70
6
70
100
1030
15
9.30
WATERSHED 109
STATION
TIME
DEPTH
MOIST
CM
6
78
100
1 030
30
9. 20
6
78
1 00
1030
75
9.20
7
78
1 00
1 020
5
9. 10
7
78
1 00
1 020
1 5
9. 20
7
78
100
1 020
30
9. 20
i
78
100
1020
75
9.30
8
78
100
1 100
5
9.10
8
78
1 00
1 1 00
1 5
9. 20
8
70
1 00
1 100
30
9.10
8
78
100
1 1 00
75
9. 20
9
78
100
1050
5
8.90
9
78
100
1 050
1 5
9.20
9
78
100
1 050
30
9.20
9
78
100
1 050
75
9.30
10
78
100
1 035
5
9.30
10
78
100
1 035
1 5
9.30
10
78
1 00
1035
30
9.10
10
78
100
1035
75
9.10
5
78
101
920
5
7.30
5
78
101
920
1 5
9.00
5
78
101
920
30
9. 20
5
78
101
920
75
9.30
6
78
101
1 500
5
3. 50
6
78
101
1500
1 5
9. 30
6
78
101
1500
30
9.10
6
7 fi
101
1500
75
1.20
-------�
Table 3B. (continued)
II. Watershed 110
OJ
riON
TIME
depth
MOISTU
CM
1
77
111.
950
15
3.60
1
77
1 1 1
950
30
9.40
1
77
1 11
950
75
9.70
2
77
1 1 1
930
5
9.75
2
77
1 1 1
930
15
9.25
2
77
1 1 1
930
30
9.40
2
77
1 1 1
930
75
9.90
3
77
1 1 1
1015
5
9.50
3
77
1 1 1
1015
15
9.50
3
77
1 1 1
1015
30
9.70
3
77
1 1 1
1015
75
9.50
5
77
1 1 1
1 1 05
5
9. 50
5
77
1 1 1
1 1 05
15
9.50
5
77
1 1 1
1 1 05
30
9.50
5
77
111-
1 1 05
75
9.50
6
77
1 1 1
1 450.
5
9.30
6
77
1 1 1
1450
15
9.60
6
77
1 1 1
1450
30
9.75
6
77
11 1
1450
75
9.50
7
77
1 1 1
1430
5
9.50
7
77
1 1 1
1430
1 5
9.30
7
77
1 1 1
1430
30
9.30
7
77
1 1 1
1430
75
9.30
8
77
1 1 1
1405
5
9.25
8
77-
1 1 1
1405
15
9.50
'8
77
1 1 1
1405
30
9.30
8
77
ri i
1405
75
9.60
9
77
111
1315
5
9.50
9
77
111
1315
15
9.50
9
77
111
1315
30
9.40
9
77
111
1315
75
9.70
10
77
111
1345
5
9.50
10
77
111
1345
15
9. 30
10
77
111
1345
30
9.40
10
77-
111
1345
75
9.50
1
77
.1 18
1420
5
9.50
1
77
118
1 420
15
9.50
1
77
1 1 8
1420
30
9.30
1
77
118
1420
75
9.60
2
77
1 10
1430
5
9.70
2
77
1 18
1430
15
9.30
2
77
116
1430
30
9 .40
2
77
118
1430
75
9. 75
3
77
1 18
1405
5
9.50
3
77
1 10
1405
15
9.40
3
77
1 18
1 405
30
9. 40
3
77
1 1.8
1405
75
9.40
5
77
118
1345
5
9.50
5
77
1 18
1345
15
9.50
5
77
118
1345
30
9.50
5
77
118
1345
75
9.50
6
77
118
1320
5
9.50
6
77
118
1 320
15
9.50
6
77
118
1320
30
9.70
'6
77
118
1320
75
9.50
TI ON
TIME
7
7
1 18
325
7
7
1 18
325
7 .
7
1 18
325
7
7
1 18
325
. 8
7
1 18
335
8
7
1 18
335
8
7
118
335
8
7
118
335
9
7
118
310
9
7
118
310
9
7
1 18
310
9
7
118
310
10
7
1 18
300
10
7
118
300
10
7
1 18
300
10
7
1 1 8
300
1
7
125
515
1
7
125
515
1
7
125
515
1
7
125
515
2
7
125
520
2
7
125
520
2
7
125
520
2
7
125
520
3
7
125
505
3
7
125
505
3
7
125
505
3
7
125
505
5
7
125
410
5
7
125
410
5
7
125
410
5
7
125
410
6
7
125
440
6
7
125
440
6
7
125
440
6
7
125
440
7
7
1 25
445
7
7
125
445
7
7
125
445
7
7
125
445
8
7
1 25
415
8
7
125
415
8
7
125
415
8
7
1 25
415
9
7
1 25
430
9
7
1 25
430
9
7
125
430
9
/
1 25
430
10
1 25
425
10
7
125
425
10
7
125
425
10
7
125
425
1
7
133
425
1
7
133
425
1
7
133
425
DEPTH
MOISTURE
STATION
TIME
DEPTH
MOISTI
CM
9.40
CM
5
1
77
1 33
1425
75
9. 40
15
9.40
2
77
133
1435
5
9.60
30
9.40
2
77
1 33
1435
15
9.40
75
9.40
2
77
133
1435
30
9.30
5
9.30
2
77
1 33
143S
75
9. 70
15
9.50
3
77
1 33
1415
5
9.60
30
9.30
3
.77
1 33
1415
15
9.40
75
9.50
3
77
133
1415
30
9.50
5
9.50
3
77
1 33
1415
75
9.40
15
9.50
5
77
1 33
1310
5
9.40
30
9.50
5
77
133
1310
15
9.40
75
9.60
5
77
133
1310
30
9.40
5
9.50
5
77
1 33
1310
75
9.40
15
9.40
6
77
1 33
1340
5
9.25
30
9.40
6
77
133
1340
15
9.40
75
9.50
6
77
1 33
1 340
30
9.60
5
9.60
6
77
133
1 340
75
9.40
15
9. 60
7
77
133
1 345
5
9.40
30
9.40
7
77
133
1345
15
9.40
75
9. 50
7
77
1 33
1 345
30
9 . 40
5
9. 70
7
77
133
1345
75
9.40
15
9. 40
8
77
133
1 320
5
9.30
30
9.40
8
77
1 33
1 320
15
9. 30
75
9. 75
8
77
133
1320
30
9.40
5
9.90
8
77
133
1320
75
9.40
15
9. 50
9
77
133
1330
5
9.40
30
9.60
9
77
1 33
1 330
15
9.40
75.
9.40
9
77
133
1330
30
9.40
5
9.50
9
77
1 33
1 330
75
9. 50
15
9.50
10
77
133
1325
5
9.40
30
9. 50
10
77
133
1 325
15
9.40
75
9. 50
10
77
1 33
1325
30
9. 30
5
9. 25
10
77
133
1325
75
9.40
15
9.50
6
77
143
1 440
5
8.90
30
9.60
6
77
143
1440
15
9. 00
75
9.40
6
77
143
1 440
30
9. 30
5
9.50.
6
77
143
1440
75
9.40
15
9.40
7
77
143
1 445
5
9. 40
30
9.40
7
77
143
1445
15
9.40
75
9.40
7
77
143
1445
30
9. 30
5
9. 40
7
77
1 43
1 445
75
9.30
15
9.30
9
77
143
1435
5
9.50
30
9.40
9
77
143
1435
15
9.40
75
9.40
9
77
143
1435
30
9.40
5
9.50
9
77
1 43
1435
75
9.50
15
9.40
10
77
143
1430
5
9. 40
30
9.40
10
77
143
1430
1 5
9.40
75
9.50
10
77
143
430
30
9.40
5
9.50
10
77
143
1430
75
9. 40
15
9.40
1
77
151
1310
5
8.75
30
9.40
1
77
151
1310
15
9.25
75
9.40
1
77
151
1310
30
9'. 20
5
9.50
1
77
151
1310
75
9.40
15
9.40
2
77
151
1300
5
2.25
30
9.25
2
77
151 '
1300
15
2.75
-------�
Table 3B. (Continued)
II. Watershed
ION
TIME
DEPTH
CM
2
77
151
3Q0
30
2
77
151
300
75
3
77
151
320
5
3
77
151
320
15
3
77
151
320
30
3
77
151
320
75
5
77
151
255
5
5
77
151
255
15
5
77
151
255
30
5
77
151
255
75
6
77
151
335
5
6
77
151
335
15
6
77
151
335
30
6
77
151
335
75
7
77
151
330
5
7
77
151
330
15
7
77
151
330
30
7
77
151
330
75
8
77
151
250
5
8
77
151
250
15
8
77
151
250
30
8
77
151
250
75
9
77
151
340
5
9
77
151
340
15
9
77
151
340
30
9
77
-151
340
75
fo
77
fvf
24 Ŗ/
I
10
77
151
240
15
10
77
151
240
30
10
77
151
240
75
1
77
1 58
455
5
1
77
108
455
15
1
77
1 58
455
30
1
77
158
455
75
2
77
1 50
510
5
2
77
158
510
15
2
77
158
510
30
2
77
1 58
510
75
3
77
158
440
5
3
77
158
140
15
3
77
150
440
30
3
77
158
440
75
5
77
158
355
5
5
77
150
355
15
5
77
1 58
355
30
5
77
158
355
75
6
77
158
420
5
6
77
158
420
15
0
77
158
420
30
6
77
158
420
75
7
. 77
150
Ļ125
5
7
77
158
425
15
7
77
158
425
30
7
77
150
425
75
0
77
158
405
5
110 ģ
moisture station time
9.25
8
77
158
1405
9.70
8
77
158
1405
8. 10
8
77
158
1405
9.25
9
77
158
1415'
9.40
9
77
158
1415
9.40
9
77
1 58
1415
9.30
9
77
1 58
1415
9.30
10
77
158
1410
9.40
10
77
158
1410
9. 40
10
77
158
1410
7.80
10
77
1 58
1410
6. 75
1
77
166
1510
7.00
1
77
166
1510
9.30
1
77
166
1510
9.40
1
77
106
1510
9.40
2
77
166
1520
9.40
2
77
166
1520
9.40
2
77
166
1520
9.25
2
77
1 66
1520
8.80
3
77
1 66
1500
9.00
3
77
1 66
1500
9.30
3
77
1 66
1500
9.40
3
77
166
1500
9.40
5
77
1 66
1405
9.40
5
77
166
1405
9.60
5
77
1 GG
1405
y * AO
I
_/
77
! t>o
KCib
9.40
6
.77
166
1435
9.40
6
77
166
1435
9.40
6
77
166
1435
5.90
6
77
1 66
1435
6.80
7
77
1-G6
1440
8.30
.7
77
1 66
1440
9.30
7
77.
1 6G
1 440
9.25
7
77
1 66
1440
0 .90
8
77
1 66
14.15
8.70
a
77
1 GG
14 15
9.60
8
77
1 66
1415
9.30
8
77
1 66
1415
9.00
9
77
1 66
1425
9. 00
9
77
1 66
14 25
9.50
9
77
1 66
1425
9 .40
9
77
1 66
1425
9.40
10
77
1 66
1420
9.40
10
77
166
1420
9.40
10
77
166
1420
6.80
10
77
166
1420
6.00
5
77
195
1300-.
4.80
5
77
1 95
1300
8.90
5
77
195
1300
9.40
5
77
1 95
1300
9.40
7
77
1 95
1320
9.40
7
77
195
1320
9.40
7
77
195
1 320
9. 25
7
77
195
1320
DEPTH
MOISTURE
STATION TIME
DEPTH
MOIS TI
CM
CM
15
8.25
8
77 195
1325
5
9.40
30
8.50
8
77' 195
1325
1 5
9.30
75
9.40
8
77 195
1325
30
9. 30
5
9.40
8
77 195
1325
75
9.30
15
9.40
10
77 195
0
5
9. 50
30
9.40
10
77 195
0
75
9.50
75
9.60
1
77 196
1020
5
7.60
5
9.30
1
77 196
1020
15
6.60
15
9.30
1
77 196
1020
30
9. 20
30
9.40
1
77 196
1020
75
9. 20
75
9.40
2
77 196
1005
5
9. 50
5
9.20
2
77 196
1005
15
1 . 20
15
3.30
2
77 196
1005
30
9.30
30
9.20
2
77 196
1005
75
9.60
75
8.90
3
77 196
1035
5
9.40
5
9.50
3
77 196
1035
1 5
9. 10
15
0.90
3
77 196
1035
30
9.30
30
7.30
3
77 196
1035
75
9.00
75
9.60
6
77 196
1045
5
4. 60
5
9.40
6
77 196
1045
15
4.90
15
9.30
Ļ6
77 196
1045
30
4.10
30
9.40
6
77 196
1045
75
2.00
75
9.30
7
77 196
1050
5
8. 00
5
9.40
7
77 196
1050
15
7.50
15
9.40
7
77 196
1050
30
0.10
30
9.40
7
'77 1'JC
1 050
75
9.4Q
75
9.40
1
77 2C.2
1545
5
4 . Ŗ0
5
6.80
1
77 202
1345
15
0.80
15
5. 50
1
77 202
1345
30
4.30
30
5. 00
1
77 202
1345
75
7 . 25
75
5.25
2
77 202
1 305
5
9. 60
5
9.40
2
77 202
1 305
1 5
0. 60
15
9.40
2
77 20-2
1305
30
8.70
30
9. 30
2
77 202
1305
75
9. 60
75
9. 30
3
77 202
1420
5
9.10
5
9. 30
3
77 202
1420
1 5
7. 90
15
9. 25
3
77 202
1420
30
7.40
30
9. 25
3
77 202
1420
75
8.10
75
9.40
4
77 202
1030
5
9.30
5
9.40
4
77 202
1 030
15
9.20
15
9.40
4
77 202
1030
30
8.50
30
9.40
4
77 202
1 030
75
0.80
75
7.60
5
77 202
1 005
5
9.60
5
9.40
5
7.7 202
1005
15
8.25
15
9. 30
5
77 202
1005
30
9.50
30
9.40
5
77 202
1005
75
9.50
75
9.40
6
77 202
855
1 . 30.
5
9.40
6
77 202
855
15
2.20
15
9.40
6
77 202
855
30
1 .75
30
9-50
6
77 202
055
75
1 .20
75
9.50
7
77 202
920
5
5.00
5
8.30
7
77 202
920
15
5.30
15
7.70
)
77 202
920
30
6.60
30
8. 2D
7
77 202
920
75
8.90
75
9.20
0
77 202 '
940
9.30
-------�
Tabl? 3B. (Continued)
II. Watershed 110
STATION TIME DEPTH. MOISTURE
CM
8
77
202
940
15
9.20
8
77
202
940
30
9.40
8
77
202
940
75
9.30
9
77
202
830
5
9.50
9
77
202
830
15
9.50
9
77
202
830
30
9.50
9
77
202
830
75
9.70
10
77
202
800
5
9.40
10
77
202
800
15
9.40
10
77
202
800
30
9.50
10
77
202
800
75
9.50
1
77
208
1350
5
0.20
1
77
208
1350
15
0.10
1
77
208
1350
30
0.30
1
77
208
1 350
75
0.30
2
77
208
1400
5
5.50
2
77
208
1400
15
0.30
2
77
208
1400
30
3.80
2
77
208
1 400
75
9. 50
3
77
208
1345
5
0. 50
3
77
208
1 345
15
0.90
3
77
208
1 345
30
1 .25
3
77
208
1345
75
5. 20
4
77
208
1340
5
4.75
4
77
208
1340
15
4.50
A
77
208
1340
30
2.50
A
77
208
1 340
75
5.00
5
77
208
1305
5
2.25
5
77
208
1305
15
1 .00
5
77
208
1305
30
8. 70
5
77
208
1205
75
9.50
6
77
208
1 325
5
0.20
6
77
208
1325
15
0.25
6
77
208
1325
30
0.40
6
77
208
1325
75
0.50
7
77
208
1330
5
0. 60
7
77
208
1 330
15
0. 80
7
77
200
1330
30
2. 00
7
77
208
1330
75
7.25
8
77
208
1310
5
0.80
8
77
208
1310
15
0.30
8
77
208
1310
30
2.00
8
77
208
1310
75
9. 30
9
77
208
1 320
5
9. 40
9
77
208
1320
15
9.40
9
77
208
1320
30
9.40
9
77
208
1 320
75
9.70
10
77
208
1315
5
9.40
10
77
208
1315
15
9.40
10
77
208
1315
30
9.40
1
77
216
1455
5
0.20
1
77
216
1455
15
0. 10
1
77
216
1455
30
0.20
1
77
516
1455
75
1 .00
2
77
216
1505
5
3.60
STATION TIME
2
77
216
1505
2
77
216
1505
2
77
216
1505
3
77
216
1445
3
77
216
1445
3
77
216
1445
3
77
216
1445
4
77
216
1435
4
77
216
1435
4
77
216
1435
4
77
216
1435
5
77
216
1350
5
77
216-
1350
5
77
216
1350
5
77
216
1350
6
77
216
1420
6
77
216
1420
6
77
216
1420
6
77
216
1420
7
77
216
1430
7
77
216
1430
7
77
216
1430
7
77
216
1430
8
77
216
1400
8
77
216
1 400
8
77
216
1 400
8
77
216
1400
9
77
216
1415
9
77
216
1415
9
77
216
1415
9
77
216
1-415
10
77
216.
1405
10
77
216
1 405
10
77
216
1 405
10
7.7
216
1405
1
77
222
1325
1
77
222
1325
1
77
222
1325
1
77
222
1325
2
77
222
1335
2
77
222
1335
2
77
222
1335
2
77
222
1335
3
77
222
1315
3
77
222
1315
3
77
222
1315
3
77
222
1315
4
77
222
1310
4
77
222
1310
4
77
222
1310
4
77
222
1310
5
77
222
1215
5
77
222
.1215
5
77
222
1215
5
77
222
1215
DEPTH
MOISTURE
STATION TIME
DEPTH
MOISTURE
CM
CM
15
0.10
6
77 222
1245
5
0. 10
30
0.80
6
77 222
1245
15
0.10
75
9.50
6
77 222
1245.
30
0.70
5
1.10
6
77 222
T245
75
0.10
15
0.30
7
77 222
V300
5
0.25
30
0.40
7
77 222
1300
15
0.25
75
2.40
7
77 222
1300
30
0.40
5
7.20
7
77 222
1 300
75
2.10
15
1 .25
8
77 222
1 220
5
0.75
30
0.60
8
77 222
1 220
1 5
0. 25
75
2.00
8
77 222
1220
30
1 . 60
5
0.80
8
77 222
1 220
75
8.70
15
0'. 30
9
77 222
1 235
5
9.40
30
1 .50
9
77 222
1235
1 5
8.80
75
9.25
9
77 222
1235
30
9.40
5
0.20
9
77 222
1235
75
9.60
15
0.20
10
77 222
1230
5
9.40
30
0.70
10
77 222
1230
15
9.40
75
0.25
10
77 222
1 230
30
9.40
5
0.40
10
77 222
1230
75
9.40
15
0.30
8
77 227
1300
5
0.60
30
0.75
8
77 227
1300
15
0.10
75
3.80
8
77 227
1 300
30
0.40
5
4 .40
8
77 227
1 300
75
5.60
15
1 . 80
6
77 228
1330
5
0.10
30
1 .00
6
77 228
1330
15
0.10
75
9.30
6
77 228
1330
30
0.20
5
9.50
6
77 228
1330
75
0.10
15
9.40
7
77 228
930
5
0.20
30
9.40
7
77 228
930
15
0.20
75
9.60.
7
77 228
930
30
0.30
5
9.40
7
77 228
930
75
1 .25
15
9.40
9
77 228
1410
5
8.50
30
9.40
9
77 228
1410
1 5
5.00
75
9.50
9
77 228
1410
30
9.25
5
0.10
9
77 228
1410
75
9.60
15
0.10
1
77 229
1320
5
0.10
30
0.10
1
77 229
1320
15
0.
75
0.50
1
77 229
1320
30
0.10
5
0.50
1
77 229
1320
75
0.30
15
0.10
2
77 229
1310
5
0.20
30
0.40
2
77 229
1310
15
0.10
75
9.40
2
77 229
1310
30
0 . 20
5
0.30
2
77 229
1310
75
9.10
15
0.25
3
77 229
1330
5
0.20
30
0.20
3
77 229
1330
15
0.20
75
1 .25
3
77 229
1330
30
0.20
5
7.50
3
77 229
1330
75
0 . 70
15
1.10
4
77 229
835
5
0.80
30
0.30
4
77 229
835
15
0.40
75
1 .25
4
77 229
835
30
0.25
5
0.50
4
77 229
035
75
0.75
15
0.25
5 '
77 229
920
5
0.20
30
0.40
5
77 229
920
15
0.20
75
5.10
5
77 229 '
920
30
0.20
-------�
TablŖ~3B. (Continued)
II. Watershed 110
noN
TIME
DEPTH
CM
MOIST
5
7
229
920
75
0.70
6
7
229
1345
5
0.50
6
7
229
1345
15
0.10
6
7
229
1345
30
0.20
6
7
229
1345
75
4.20
10
7
229
755
5
9.40
10
7
229
755
15
9.40
10
7
229
755
30
9 .40
10
7
229
755
75
9.50
1
7
237
1525
5
7 .70
1
7
237
1525
15
0.10
1
7
237
1525
30
3.00
1
7
237
1525
75
0.25
2
7
237
1535
5
9.30
2
7
237
1535
15
0.30
2
7
237
1535
30
1 . 30
2
7
237
1535
75
2 . 50
3
7
237
1520
5
9.20
3
7
237
1520
15
2.70
3
7
237
1520
30
0.20
3
7
237
1520
75
0.30
4
7
237
1510
5
9.20
A
7
237
1510
15
8.60
4
7
237
1510
30
8.25
4
7
237
1510
75
0.80
5
7
237
1415
5
0.10
5
7
237
1415
1 5
0.10
5
7
237
1415
30
0.10
5
7
237
1-115
75
0.20
6
7
237
1455
5
0.25
6
7
237
1455
15
0.25
6
7
237
10 55
30
4.30
6
7
237
1455
75
0.10
7
7
237
1 500
5
0.10
7
7
237
1500
15
0.40
7 .
7
237
1500
30
0. 90
7
7
237
1500
75
0 . 80
8
7
237
1425
5
0.60
8
7
237
1425
15
0.50
8
7
237
1425
30
9.20
8
7
237
1425
75
5.60
9
7
237
14 45
5
9.30
9
7
237
1 445
15
2.75
9
7
237
1445
30
9.30
9
7
237
1 445
75
9.60
10
7
237
1435
5
9.30
10
7
237
1435
15
9.30
10
7
237
1435
30
9.30
10
7
237
1435
75
9.50
1
7
243
1515
5
0.10
1
7
243
1515
15
0. 10
1
7
243
1515
30
0.30
1
7
243
1515
75
0.20
2
7
243
1525
5
7.90
2
7
243
1525
15
0.10
STATION TIME
2
77
243
1525
2
77
243
1525
3
77
243
1510
3
77
243
1510
3
77
243
1510
3
77
243
1510
4
77
243
1500
4
77
243
1500
4
77
243
1500
A
77
243
1500
5
77
243
1415
5
77
243
1415
5
77
243
1415
5
77
243
1415
6
77
243
1450
6
77
243
1450
6
77
243
1450
6
77
243
1450
7
77
243
1455
7
77
243
1455
7
77
243
1455
7
77
243
1455
8
77
243
1425
8
77
243
1425
8
77
243
1425
8
77
243
1425
9
77
243
1440
9
77
243
1440
9
77
243
1 440
9
77
243
1440
10
77
243
1435
10
77
243
1435
10
77
243
1435
10
77
243
1435
1
77
251
1400
1
77
251
1400
1
77
251
1 400
1
77
251
1 400
2
77
251
1415
2
77
251
1415
2
77
251
1415
2
77
251
1415
3
77
251
1405
3
77
251
1405
3
77
251
1405
3
77
251
1405
4
77
251
1440
4
77
251
1440
4
77
251
1440
4
77
251
1440
5
77
251
1425
5
77
251
1425
5
77
251
1425
5
77
251
1425
6
77
251
1510
DEPTH
MOISTURE
STATION
TIME
DEPTH
MOISTURE
CM
CM
30
0.10
6
77
251
1510
15
0.
75
1 .30
6
77
251
1510
30
0.
5
0.30
6
77
251
1510
75
3.80
15
0.70
7
77
251
1 430
5
1 .00
30
0 .20
7
77
251
1430
15
0.25
75
0.25
7
77
251
1430
30
0.60
5
7.50
7
77
251
1 430
75
9.60
15
8.30
8
77
251
1520
5
0.30
30
6.40
8
77
251
1 520
15
0. 25
75
0.60
8
77
251
1520
30
6.80
5
0.20
8
77
251
1 520
75
9.80
15
0.10
9
' 77
251
1500
5
0.
30
0.20
9
77
251
1500
5
1 .25
75
0.10
9
77
251
1500
15
0.
5
0.10
9
77
251
1500
15
0.60
15
0-10
9
77
251
1 500
30
0.
30
0.30
9
77
251
1 500
30
3. 75
75
0.
9
77
251
1 500
75
7.10
5
0.20
9
77
251
1500
75
2.40
15
0.20
1
77
259
950
5
0.10
30
0 .40
1
77
259
950
15
-0.10
75
0.80
1
77
259
950
30
0.10
5
0.50
1
77
259
950
75
0.10
15
0.10
2
77
259
1 000
5
0.10
30
0.30
2
77
259
1 000
15
0.10
75
6.80
2
77
259
1 000
30
0.10
5
9.30
2
77
259
1 000
75
0 . 20
15
6.00
3
77
259
945
5
-0.10
30
9.40
3
77
259
945
1 5
0.10
75
9.60
3
77
259
045
30
0.10
5
9.40
3
77
259
945
75
0. 20
15
9.40
4
77
259
935
5
0. 30
30
9.40
4
77
259
935
15
0 . 20
75
9.50
4
77
259
935
30
0.10
5
0.
4
77
259
935
75
0 . 20
15
6.30
5
77
259
900
5
0.10
30
0.
5
77
259
900
1 5
0.10
75
1 .50
5
77
259
900
30
0.10
5
0.
5
77
259
900
75
0.10
15
1 .60
6
77
259
925
5
0.10
30
4. 20
6
77
259
925
15
0.10
75
9. 70
6
77
259
925
30
0.10
5
-0.10
6
77
259
925
75
0.10
15
-0.10
7
77
259
930
5
0.10
30
-0.10
7
77
259
930
15
0.10
75
1 .60
7
77
259
930
30
0.10
5
3.10
7
77
259
930
75
0.25
15
0.10
8
77
259
905
5
0 .20
30
1 .25
8
77
259
905
15
0.
75
2.90
8
77
259
905
30
0.10
5
1 . 30
8
77
259
905
75
0.60
15
5.25
9
77
259
920
5
1 .30
30
4.60
9
77
259
920
15
0.30
75
5. 25
9
77
259
920
30
0.80
5
0.
9
77
259 '
920
75
0.95
-------�
Table jB. (Continued)
II. Watershed 110
STATION TIME DEPTH MOISTURE
CM
10
77
259
915
5
9.40
10
77
259
915
15
9.30
10
77
259
915
30
9. 30
10
77
259
915
75
9. 40
1
77
262
945
5
0.10
1
77
262
945
15
-0.10
1
77
262
945
30
0.10
1
77
262
945
75
0.20
2
77
262
850
5
0.10
2
77
262
850
15
0.10
2
77
262
850
30
0.10
2
77
262
850
75
0.20
3
77
262
1040
5
0.10
3
77
262
1040
15
0.10
3
77
262
1040
30
0.10
3
77
262
1040
75
0.20
1
77
264
1340
5
0.10
1
77
264
1340
15
0.
1
77
264
1340
30
0.10
1
77
264
1340
75
0.20
2
77
264
1350
5
0.10
2
77
2C4
1350
15
0.
2
77
264
1350.
30
0.
2
77
264
1350
75
0. 20
3
77
264
1330
5
0.
3
77
264
1330
15
0.
3
77
264
1.330
30
0.10
3
77
264
1330
75
0.20
4
77
264
1320
5
0.25
4
77
264
1 320
15
0.10
4
77
2G4
1320
30
0.10
4
77
264
1320
75
0.20
5
77
264
1225
5
0.10
5
77
264
1225
15
0.10
5
77
264
1225
30
0.10
5
77
264
1225
75
0.10
6
77
264
1300
5
0.10
6
77
264
1 300
1 5
0 .
6
77
264
1 300
30
0.10
6
77
264
1300
75
0.
7
77
264
1310
5
0.
7
77
264
1310
15
0.
7
77
264
1310
30
0.10
7
77
264
1310
75
0.20
8
77
264
1 240
5
0.25
B
77
264
1240
15
0.
0
77
264
1 240
30
0.10
8
77
264
1240
75
0.40
9
77
264
1255
5
1 .20
9
77
264
1255
15
0.30
9
77
264
1255
30
0.60
9
77
264
1255
75
9.50
10
77
264
1250
5
9.40
10
77
264
1250
15
9.25
10
77
264
1250
30
9.40
STATION TIME
10
77
264
1250
1
77
271
1500
1
77
271
1500
1
77
271
1 500
1
77
271
1500
2
77
271
1505-
2
77
271
1505
2
77
271
1505
2
77
271
1505
3
77
271
1450
3
.77
271
1450
3
77
271
1450
3
77
271
1-4 50
4
77
271
1440
4
77
271
1440
4
77
271
1440
4
77
271
1440
5
77
271
1400
5
77
271
1400
5
77
271
1400
5
77
271
1400
6
77.
.271
1425
6
77
271
1425
6
77
271
1425
7
77
271
1435
7
77
271
14 35
7
77
271
1435
7
77
271
1435
8
77
271
1410
8
77
271
1410
8
77
271
1410
8
77
271
1410
9
77
271
1420
9
77
271
1420
9
77
271
1420
9
77
271
1420
10
77
271
1415
10
77
271
1415
10
77
271
1415
10
77
271
1415
4
77
273
1000
4
77
273
1000
4
77
273
1000
4
77
273
1000
7
77
273
1315
7
77
273
1315
7
77
273
1315
7
77
273
1315
8
77
273
830
8
77
273
830
8
77
273
830
8
77
273
830
9
77
273
1035
9
77
273
1035
9
77
273
1035
DEPTH
MOISTURE
STATION TIME
DEPTH
MOISTI
CM
CM
75
9.40
9
77 273 1035
75
9.40
5
0.10
1
77 278 1430
5
-0.10
15
-0.10
1
77 278 1430
1 5
-0.10
30
0.
1
77 278 1430
30
-0.10
75
0.10
1
77 278 1430
75
0.10
5
0.10
2
77 278 1440
5
0.10
15
0.
2
77 278 1440
1 5
0.
30
0.
2
77 278 1440
30
0.
75
0.10
2
77 278 1440
75
0.10
5
0.10
3
77 278 1425
5
0.
15
0.10
3
77 278 1425
15
-0.10
30
0.10
3
77 278 1425
30
0.
75
0.20
3
77 278 1425
75
0.
5
0.10
4
77 278 1415
5
0.10
15
0.10
4
77 278 1415
15
0.10
30
0.
4
77 278 1415
30
0.
75
0.10
4
77 278 1415
75
0.10
5
0.10
5
77 278 1335
5
-0.10
15
0.10
5
77 278 1335
1 5
-0.10
30
0.10
5
77 278 1335
30
-0.10
75
0.10
5
77 278 1335
75
0.10
5
0.10
6
77 278 1405
5
-0.10
30
0.10
6
77 278 1405
1 5
-0.10
75
0.
6
77 278 1405
30
-0.10
5
0.10
6
'77 278 1405
75
-0.10
15
0.10
7
77 278 1410
5
0.10
30
0.10
7
77 278 1410
1 5
0.
75
0.20
7
77 278 1410
30
0.10
5
0. 20
7
77 270 1410
75
0.10
15
-0.10
8
77 278 1345
5
0.10
30
0.
8
77 278 1345
1 5
0.10
75
0.25
8
77 270 1345
30
0.10
5
0. 75
8
77 278 1345
75
0 . 20
1 5
0. 25
9
77 278 1400
5
0 . 40
30
0.30
9
77 278 1400
1 5
0.10
75
9. 50
9
77 278 1400
30
0.20
5
9. 30
9
77 278 1400
75
9.50
1 5
9.30
10
77 278 1350
5-
9.00
30
9.30
10
77 278 1350
1 5
8 . 80
75
9.40
10
77 27B 1350
30
9.25
5
0.10
10
77 27U 1350
75
9.40
15
0.10
1
77 205 1500
5
7.10
30
0.
1
77 285 1500
1 5
7.90
75
0.10
1
77 285 1500
30
8.40
5
0.
1
77 285 1500
75
2.70
1 5
0.10
2
77 285 1510
5
9.30
30
0.10
2
77 285 1510
1.5
0.25
75
0.10
2
77 285 1510
30
2.75
5
0.10
2
77 285 1510
75
0 .40
1 5
-0.10
3
77 285 1450
5
3.70
30
0.10
3
77 205 1450
15
5.70
75
0.20
3
77 285 1450
30
0.20
5
0. 70
3
77 285 1450
75
0.10
15
0.20
4
77 285 1440
5
3.90
30
0.25
4
77 285 1440
15
4.70
-------�
Table 3B. (Continued)
II. Watershed 110
TION
TIME
DEPTH
MOISTURE
STATION
TIME
CM
4
77 285
1 440
30
8.70
8
77
292
350
4
77 285
1440
75
6.40
8
77
292
350
5
77 285
1400
5
0.
8
77
292
350
5
77 285
1400
15
0.
9
77
292
300
5
77 285
1400
30
0.75
9
77
292
300
5
77 285
1 400
75
0.10
9
77
292
300
6
77 285
1430
5
1 .50
9
77
292
300
6
77 285
1430
15
2.75
10
77
292
240
6
77 285
1430
30
4.90
10
77
292
240
6
77 285
1430
75
1 .75
10
77
292
240
7
77 285
1435
5
0.10
10
77
292
240
7
77 285
1 435
15
0.10
1
77
306
605
7
77 285
1435
30
0.10
1
77
306
605
7
77 285
1435
75
0.10
1
77
306
605
8
77 285
1410
5
0.40
1
77
306
605
8
77 235
1410
15
0.20
2
77
306
615
8
77 285
1410
30
0.70
2
77
306
615
8
77 285
1410
75
2.10
2
77
306
615
9
77 285
1420
5
3.80
2
77
306
615
9
77 285
1420
15
1.10
3
77
306
600
9
77 285
1420
30
2.30
3
77
306
600
9
77 295
1 420
75
9.50
3
77
306
600
10
77 285
1415
5
9.25
3
77
306
600
10
77 285
1415
15
9.25
4
77
306
555
10
77 285
1415
30
9.25
4
77
306
555
10
77-285
1415
75
9.40
4
77
306
555
1
77 292
740
5
9.00
4
77
306
555
1
77 292
740
15
9.20
5
77
306
515
1
77 292
740
30
9.10
5
77
306
515
1
77 292
740
75
9.20
5
77
306
515
2
77 292
600
5
9.30
5
77
306
515
2
77 292
800
15
8.20
6
77
306
540
2
77 292
800
30
4. 10
6
77
306
540
2
77 292
800
75
0.40
6
77
306
540
3
77 292
1 435
5
8.60
6
77
306
540
3
77 292
1435
1 5
9.10
7
77
306
550
3
77 292
1435
30
8.60
7
77
306
550
3
77 292
14 35
75
0.10
7
77
306
550
4
77 292
1420
5
9.00
7
77
306
550
4
77 292
1 420
1 5
9.00
8
77
306
.525
4
77 292
1 420
30
9.10
8
77
306
525
4
77 292
1 420
75
9.25
8
77
306
525
5
77 292
1 405
5
0 . 20
0
77
306
525
5
77 292
1 405
15
0.30
9
77
300
535
5
77 292
I 405
30
4 . 40
9
77
30G
535
5
77 292
1 405
75
0.20
9
77
306
535
6
77 292
1315
5
4 .00
9
77
306
535
6
77 292
1315
1 5
9.00
10
77
306
530
6
77 292
1315
30
9.00
10
77
306
530
6
77 292
1315
75
8.30
10
77
306
530
7
77.292
1 330
5
0.30
10
77
306
530
7
77 292
1 330
15
3.25
1
77
315
535
7
77 292
1330
30
0 .80
1
77
315- -
535
7
77 292
1 330
75
0.30
1
77
315
535
8
77 292
1350
5
1 .90
1
77
315
535
DEPTH
MOISTURE
STATION TIME
DEPTH
MOISTURE
CM
CM
15
1 .40
2
77 315 1545
5
9. 30
30
5.90
2
77 315 1545
15
9.30
75
9.20
2
77 315 1545
30
9. 30
5
9.30
2
77 315 1545
75
9.40
15
9.20
3
77 315 1525
5
9.40
30
. 9.30
3
77 315 1525
15
9.30
75
9.30
3
77 315 1525
30
9.40
5
9.20
3
77 315 1525
75
9.40
15
9.20
A
77 315 1520
5
9. 20
30
9.20
4
77 315 1520
15
9.20
75
9.30
4
77 315 1520
30
9.25
5
9.30
4
77 315 1520
75
9.30
15
9.30
5
77 315 1400
5
9.40
30
9.30
5
77 315 1400
15
9.40
75
9.30
5
77 315 1400
30
9.40
5
9.30
5
77 315 1400
75
9. 30
15
9.20
6
77 315 1430
5
9.20
30
9.25
6
77 '315 1430
15
9.30
75
9. 30
6
77 315 1430
30
9.40
5
9.30
6
77 315 .1430
75
9.30
15
9.30
7
77 315 1455
5
9.30
30
9.30
7
77 315 1455
15
9.30
75
9.30
7
77 315 1455
30
9.10
5
9.25
7
77 315 1455
75
8.40
15
9.25
8
77 315 1410
5
9.25
30
9.25
8
77 315 1410
1 5
9.20
75
9.30
8
77 315 1410
30
9.40
5
6.70
8
77 315 1410
75
9.30
15
9.30
9
77 315 1425
5
9.30
30
9.30
9
77 315 1425
15
9.30
75
7.30
9
77 315 1425
30
9.30
5
8.10
9
77 315 1425
75
9.40
15
9.30
10
77 315 1420
5
9.30
30-
9.25
10
77 315 1420
15
9.20
75
9.00
10
77 315 1420
30
9.30
5
9.20
10
77 315 1420
75
9 . 30
15
9.25
1
77 320 1455
5
9.20
30
4.90
1
77 320 1455
15
9. 20
75
2.30
1
77 320 1455
30
9. 30
5
7 . 80
1
77 320 1455
75
9.20
15
6.25
2
77 320 1505
5
9. 30
30
9.20
2
77 320 1505
15
9. 25
75
9.30
2
77 320 1505
30
9. 25
5
9.30
2
77 320 1505
75
9. 30
15
9.30
3
77 320 1420
5
9. 30
30
9.30
3
77 320 1420
15
9.25
75
9.50
3
77 320 1420
30
9. 30
5
9.25
3
77 320 1420
75
9. 30
15
9.25
4
77 320 1440
5
9. 20
30
9.25
4
77 320 1440
15
9. 20
75
9.40
4
77 320 1440
30
9.20
5
9.30
4
77 320 1440
75
9.20
15
9. 30
'5
77 320 1435
5
9. 30
30
9. 30
5
77 320 1435
1 5
9. 30
75
9.30
5
.77 320 1435
30
9.30
-------�
Table ^B: (Continued)
II. Watershed 110
STATION TIME
5 77 320 1435
6 77 320 1410
6 77 320 1410
6 77 320 1410
6 77 320 1410
7 77 320 1420
7 77 320 1420
7 77 320 1420
7 77 320 1420
8 77 320 1425
8 77 320 1425
8 77 320 1425
8 77 320 1425
9 77 320 1400
9 77 320 1400
9 77 320 1400
9 77 320 1400
10 77 320 1355
10 77 320 1355
10 77 320 1355
10 77 320 1355
6 77 329 1020
6 77 329 1020
6 77 329 1020
^ 6 77 329 1020
7 77 329 1025
7 77 329 1025
7 .77 329 1025
7 77 329 1025
8 77 329 1030
8 77 329 1030
8 77 329 1030
8 77 329 1030
9 77 329 1010
9 77 329 1010
9 77 329 1010
9 77 329 1010
10 77 329 1005
10 77 329 1005
10 77 329 1005
10 77 329 1005
1 77 336 1445
1 77 336 1445
1 77 336 1445
1 77 336 1445
2 77 336 1455
2 77 336 1455
2 77 336 1455
2 77 336 1455
3 77 336 1440
3 77 336 1440
3 77 336 1440
3 77 336 1440
4 77 336 1430
4 77 336 1430
DEPTH
MOISTURE
STATION
TIM
CM
75
9. 30
4
77
336
5
9.10
4
77
336
15
9. 20
5
77
336
30
9.30
5
77
336
75
9.30
5
77
336
5
9.30
5
77
336
15
9.30
6
77
336
30
9. 20
6
77
336
75
9.20
6
77
336
5
9.20
6
77
336
1 5
9.10
7
77
336
30
9.20
7
77
336
75
9.30
7
77
336
5
9.25
7
77
336
15
9. 20
8
77
336
30
9.30
8
77
336
75
9.40
8
77
336
5
9.''20
8
77
336
15
9.20
9
77
336
30
9.20
9
77
336
75
9.40
9
77
336
5
9.10
9
77
336
15
9. 20
10
77
336
30
9.30
10
77
336
75
9. 30
10
77
336
5
9.20
10
77
336
15
9. 20
1
77
342
30
9.20
1
77
342
75
9.25
1
77
342
5
9.00
1
77
342
1 5
9.10
2
77
342
30
9.20
2
77
342
75
9.30
2
77
342
5
9.20
2
77
342
15
9.20
3
77
342
30
9.30
3
77
342
75
9.40
3
77
342
5
9.10
3
77
342
1 5
9.10
4
77
342
30
9.20
4
77
342
75
9.30
4
77
342
5
9.10
4
77
342
15
9.10
5
77
342
30
9.20
5
77
342
75
9.10
5
77
342
5
9.10
5
77
342
15
9.10
6
77
342
30
9.20
6
77
342
75
9.20
6
77
342
5
9.20
6
77
342
15
9.10
7
77
342
30
9.20
7
77
342
75
9.20
7
77
34?
5
9.00
7
77
342
15
8.90
8
77
342
DEPTH
MOISTURE
STATION TIME
DEPTH
MOISTl
CM
CM
430
30
9.00
8
77 342 1525
15
8.90
430
75
9. 20
8
77 342 1525
30
9.10
425
5
9.10
8
77 342 1525
75
9.20
425
15
9. 20
9
77 342 1540
5
9.00
425
30
9. 25
9
77 342 1540
15
9. 00
425
75
9. 30
9
77 342 1540
30
9.10
400
5
9.10
9
77 342 1540
75
9.40
400
15
9. 20
10
77 342 1530
5
9. 00
400
30
9.30
10
77 342 1530
15
9.00
400
75
9. 30
10
77 342 1530
30
9.10
405
5
9. 20
10
77 342 1530
75
9.30
405
15
9.20
1
77 350 940
5
8.90
405
30
9. 20
1
77 350 940
15
9.00
405
75
9. 20
1
77 350 940
30
9 . 00
415
5
9. 00
1
77 350 S40
75
9.10
415
15
9. 00
2
77 350 1130
5
9. 00
415
30
9.10
2
77 350 1130
15
9 . 00
415
75
9. 20
2
77 350 1130
30
9.20
350
5
9.10
2
77 350 1130
75
9. 20
350
15
9.10
3
77 350 1605
5
9 . 20
350
30
9. 20
3
77 350 1G05
15
9.00
350
75
9. 50
3
77 350 1605
30
9.10
345
5
9. 20
3
77 350 1605
75
9.20
345
15
9.10
4
77 350 1520
5
8.90
345
30
9. 20
4
77 350 1520
15
8.30
345
75
9.40
4
77 350 1520
30
9. 00
605
5
8.90
4
77 350 1520
75
9.10
005
15
9.00
5
77 350 1455
5
9.10
605
30
9.10
5
77 350 1455
15
9. 00
605
75
9.20
5
77 350 1455
30
9. 20
610
5
9.00
5
77 350 1455
75
9. 20
610
15
9.10
6
7? 350 1600
5
8.'90
610
30
9. 20
6
77 350 1600
1 5
9. 00
610
75
9. 30
6
77 350 1600
30
9. 20
600
5
9.10
6
77 350 1600
75
9. 20
600
15
9.10
7
77 350 1610
5
9. 00
600
30
9.10
7
77 350 1610
1 5
9.10
600
75
9. 20
7
77 350 1610
30
9.10
555
5
8. 70
7
77 350 1610
75
9.10
555
15
8. 80
8
77 350 1545
5
8.90
555
30
8.90
8
77 350 1545
1 5
8. 90
555
75
9. 20
8
77 350 1545
30
9.10
515
5
8.90
8
77 350 1545
75
9. 20
515
15
8.90
9
77 350 1555
5
9.10
515
30
9. 10
9
77 350 1555
15
9.10
51 5
75
9. 20
9
77 350 1555
30
9. 20
545
5
8.90
9
77 350 1555
75
9.40
545
15
9.10
10
77 350 1550
5
9.10
545
30
9. 20
10
77 350 1550
1 5
9.20
545
75
9. 20
10
77 350 1550
30
9.10
550
5
8.90
10
77 350 1550
75
9. 20
550
15
9.00
1
77 361 1530
5
8.80
550
30
9.10
1
77 361 1530
1 5
9. 00
550
75
9.20
1
77 361 1530
30
9.00
525
5
8.80
1
77 361 1530
75
8.90
-------�
Table 3B. (Continued)
II. Watershed
STATION time depth
CM
2
77
361
540
5
2
77
361
540
15
2
77
361
540
30
2
77
361
540
75
3
77
361
525
5
3
77
361
525
15
3
77
361
525
30
3
77
361
525
75
4
77
361
440
5
4
77
361
440
15
4
77
361
440
30
4
77
361
440
75
5
77
361
430
5
5
77
361
430
15
5
77
361
430
30
5
77
361
430
7 &
6
77
361
515
5
6
77
361
515
15
6
77
361
515
30
6
77
361
515
75
7
77
361
445
5
7
77
361
445
15
7
77
361
445
30
7
77
361
445
75
8
77
361
455
5
8
77
.361
455
15
8
77
361
455
30
8
77
361'
455
75
9
77
351
510
5
9
77
361
510
15
9
77
361
510
30
9
77
361
510
75
10
77
361
500
5
10
77
361
500
15
10
77
361
500
30
10
77
361
500
75
3
77
362
350
5
3
77
362
350
15
3
77
362
350
30
3
77
362
350
75
8
77
362
430
5
8
77
362
430
15
8
77
302
430
30
8
77
362
4 30
75
1
78
4
500
5
1
78
4
500
15
1
78
4
500
30
1
78
4
500
75
2
78
4
505
5
2
78
4
505
15
2
78
4
505
30
2
78
4
505
75
3
78
4
455
5
3
78
4
455
15
3
78
4
455
30
110
MOISTURE STATION TIME
8.90
3
78
4
1455
8.90
4
78
4
1450
9.10
4
78
4
1450
9.20
4
78
4
1450
9.00
4
78
4
1450
8.90
5
78
4
1410
9.10
5
78
4
1410
9.20
5
78
4
1410
8.70
5
78
4
14 10
8.80
6
78
4
1435
8.90
6
78
4
1435
9.10
6
78
4
1435
8.80
6
78
4
1435
8.90
7
78
4
1440
8.90
7
78
4
1440
9.10
7
78
4
1440
8.70
7
78
4
1440
8.90
8
78
4
1415
9.20
8
78
4
1415
9.10
8
78
4
1415
8.60
8
78
4
1415
9.00
9
78
4
1425
9.00
9
78
4
1425
9.00
9
78
4
1425
8.70
9
78
4
1425
8.80
10
79
4
1420
9.00
10
78
4
1420
9.10
10
78
4
1420
8.90
10
78
4
1420
8.90
7
78
1 0
1420
9.10
7
78
1 0
1 420
9.40
7
78
10
1 420
8.90
7
78
10
1420
9. 00
1
78
1 1
1545
8.90
1
78
1 1
1545
9. 30
1
78
1 1
1545
8.90
1
78
1 1
1545
8.90
2
78
1 1
1540
8.00
2
78
1 1
1 540
9.10
2
78
1 1
1 540
8 . 70
2
78
1 1
1540
8 . 80
3
78
1 1
1550
9.00
3
78
1 1
1550
9.10
3
78
1 1
1550
8. 70
3
78
1 1
1550
8.90
4
78
1 1
1555
8.90
4
78
1 1
1555
8.90
4
78
11
1555
8.90
4
78
1 1
1555
8.90
5
78
1 1
1625
9.00
5
78
1 1
1625
9. 00
5
78
1 1
1625
0.90
5
78
11
1625
8.90
6
78
1 1
1605
9.00
6
78
1 1
1605
DEPTH
MOISTURE
STATION
TIME
DEPTH
MOISTURE
CM
CM
75
9. 10
6
78
1 1
1605
30
8.90
5
8.60
6
78
1 1
1605
75
9.10
15
8.70
7
78
11
1600
5
8.80
30
8.80
7
78
1 1
1600
15
8.90
75
8.90
7
78
1 1
1600
30
8. 90
5
8.80
7
78
11
1600
75
9.00
15
8.80
8
78
1 1
1620
5
8.70
30
8.90
8
78
1 1
1620
15
8.80
75
9.00
8
78
1 1
1620
30
8.90
5
8.70
8
78
1 1
1620
75
9.10
15
8.80
9
78
1 1
1610
5
8.80
30
9.00
9
78
1 1
1610
15
8.80
75
9.00
9
78
1 1
1610
30
9.00
5
8.80
9
78
11
1610
75
'9.40
15
8.90
10
78
1 1
1615
5
8.80
30
9.00
10
78
1 1
1615
15
8.90
75
8.90
10
78
1 1
1615
30
8 . 80
5
8.70
10
78
1 1
1615
75
9.20
15
8.80
1
78
18
1530
5
8 . 80
30
8.90
1
78
18
1530
15
8.80
75
9.00
1
78
18
1530
30
8.90
5
8. 80
1
78
18
1530
75
8 . 80
15
8.80
2
78
18
1 545
5
8 80
30
9.10
2
78
18
1545
1 5
8.80
75
9.30
2
78
18
1545
30
8.90
5
8.90
2
78
18
1545
75
9.00
1 5
8.90
6
78
18
1 340
5
8.70
30
*8,90
6
78
18
1 340
15
8 . 80
75
9.10
6
78
18
1 340
30
8 . 90
5
8.80
6
78
18
1 340
75
8.90
15
8.90
7
78
18
1355
5
S . 30
30
8.90
7
78
18
1355
1 5
8.80
75
9.00
7
78
18
1355
30
8.90
5
8.70
7
78
1 8
1 355
75
S . 93
15
8.80
9
78
18
1 320
5
8.90
30
8.90
9
78
18
1320
15
8.90
75
8.90
9
78
18
1 320
30
8.90
5
8.80
9
78
1 8
1 320
75
9 .40
1 5
8.80
1
78
24
1 550
5
8 . 90
30
9.00
1
78
24
1550
5
8.80
75
9.00
1
78
24
1550
15
8 . 90
5
8.90
1
78
24
1550
15
8.80
15
8.80
1
78
24
1550
30
B 90
30
8.90
1
78
24
1550
30
8.80
75
9.10
1
78
24
1550
75
8 . 90
5
8.70
1
78
24
1550
75
9.10
15
8. 70
1
78
27
1 1 30
5
8 . 70.
30
8.. 80
1
78
27
1 1 30
15
8.80
75
9. 00
1
78
27
1 130
30
8 . 90
5
8.80
1
78
27
1 130
75
8. 90
15
8.80
5
78
27
1605
5
8.80
30
9. 00
5
78
27
1605
15
8.80
75
9.10
'5
78
27
1605
30
8.80
5
8. 70
5
78
27
1605
75
9. 00
15
8.90
7
78
27
1610
5
8. 70
-------�
Tab1§ 3B. (Continued)
II.
Watershed
110
STATION
TIME
DEPTH
MOISTURE
STATION
TIME
CM
7
78
27 1610
15
8.80
5
78
39
1 1 20
7
78
27 1610
30
8.80
5
78
39.
1 1 20
7
78
27 1610
75
8.80
5
78
39
1 1 20
9
78
27 1615
5
8.90
5
78
39
1 1 20
9
78
27 1615
15
8.80
6
78
39
1340
9
78
27 1615
30
9.00
6
78
39
1 340
9
78
27 1615
75
9.30
6
78
39
1 340
10
78
27 925
5
8.80
6
78
39
1340
10
78
27 925
15
8.90
7
78
39
1350
10
78
27 925
30
8.90
7
78
39
1350
10
78
27 925
75
9.10
7
78
39
1 350
1
78
32 1130
5
8. 70
7
78
39
1 350
1
78
32 1130
15
8.80
8
78
39
1355
1
78
32 1130
30
8.90
8
78
39
1355
1
78
32 1130
75
8.90
8
78
39
1 355
2
78
32 1145
5
8.70
8
78
39
1355
2
78
32 1145
15
8.80
9
78
39
1335
2
78
32 1145
30
8.90
9
78
39
1335
2
78
32 1145
75
8. 75
9
78
39
1335
3
78
32 1155
5
8.80
9
78
39
1335
3
78
32 1155
15
8.80
1 0
78
39
1330
3
78
32 1155
30
8.90
10
78
39
1330
3
78
32 1155
75
9.10
1 0
78
39
1330
4
78
32 1140
5
8.40
10
78
39
1330
Ļ 4
78
32 1140
1 5
8. 70
1
78
48
1430
52 4
78
32 1140
30
8.80
Ģ
78
48
1430
4
78
32 1140
75
8.80
1
78
48
1430
5
78
32 1050
5
0.
1
78
48
1430
5
78
32 1050
15
8.80
2
78
40
1420
5
78
32 1050
30
8.80
2
78
48
1420
5
78
32 1050
75
8.90
2
78
48
1420
6
78
32 1200
5
8.60
2
78
48
1420
6
78
32 1200
15
8.80
3
78
48
1435
6
78
32 1200
30
8 . 80
3
78
48
1435
6
78
32 1200
75
8.80
3
78
48
1435
7
78
32 1120
5
8.70
3
7B
48
1435
7
78
32 1120
15
8.80
4
78
48
1440
7
78
32 1120
30
8.80
4
78
48
1 440
7
78
32 1120
75
8.80
4
78
48
1440
8
78
32 1105
5
7.80
4
78
48
1440
8
78
32 1105
1 5
8. 70
5
78
48
1415
8
78
32 1105
30
8. 70
5
78
40
1415
8
78
32 1105
75
8.80
5
78
40
1415
9
78
32 1115
5
8. 75
5
78
48
1415
9
78
32 1115
15
8.80
6
78
48
1455
9
78
32 1115
30
9. 00
6
78
48
1455
9
78
32 1115
75
9.30
6
78
48
1455
10
78
32 1110
5
8.80
6
78
48
1455
10
78
32 1110
15
8.90
7
78
48
1'450
10
78
32 1110
30
8.80
7
78
48
1450
10
78
32 1110
75
9.10
7
78
48
1450
1
78
39 1135
5
4.30
7
78
48
1450
4
78
39 1150
15
8.70
8
78
48
1 51 5
4
78
39 1150
30
8.70
8
78
48
1515
4
78
39 1150
75
8.90
8
78
48
1515
DEPTH
MOISTURE
STATION
TIME
DEPTH
MOISTURE
CM
CM
5
0.10
8
78
48
1515
75
8 . 80
15
8.70
9
78
48
1500
5
8.80
30
8.80
9
78
48
1500
1 5
8.80
75
9.00
9
78
48
1500
30
8.90
5
8.60
9
78
48
1500
75
9.30
1 5
8.75
10
78
48
1510
5
8.80
30
8.80
10
78
48
1510
15
8. 80
75
8.90
10
78
48
1510
30
8.80
5
8.80
10
78
48
1510
75
9.10
15
8. 80
1
78
54
1350
5
8.80
30
8. 80
1
78
54
1350
15
8.80
75
8. 80
1
78
54
1350
30
8.80
5
7. 70
1
78
54
1350
75
8 . 70
15
8. 70
2
78
54
1355
5
8. 80
30
8.80
2
78
54
1355
15
8.80
75
8.80
2
78
54
1355
30
8.80
5
8.80
2
78
54
1 355
75
8.90
15
8.80
3
78
54
1340
5
8 . 90
30
8.90
3
78
54
1 340
15
8.80
75
9. 30
3
78
54
1 340
30
8.90
5
8. 80
3
78
54
1 340
75
9.20
15
8.80
4
78
54
1 405
5
8.00
30
8. 80
4
78
54
1405
15
8 . 70
75
9.10
4
78
54
1405
30
8 . 80
5
8.80
4
78
54
1405
75
8 . 80
15
8. 80
5
78
54
14 10
5
0 . 20
30
8.80
5
78
54
1410
15
8. 80
75
8. 70
5
78
54
1410
30
8.90
5
8 - 70
5
78
54
1410
75
8.90
15
8. 80
6
78
54
1 335
5
8 . 60
30
8.80
6
78
54
1 335
1 5
8.80
75
8. 80
6
78
54
1 335
30
B . 90
5
8. 90
6
78
54
1 335
75
8.90
1 5
8.80
7
78
54
1330
5
8.80
30
8.90
7
78
54
1330
15
8.80
75
9.10
7
78
54
1 330
30
8 . 80
5
8.50
7
78
54
1 330
75
8 . 80
15
8. 70
8
7 B
54
1 440
5
8 .80
30
8.70
8
78
54
1 440
15
8.80
75
8.80
8
78
54
1440
30
8.80
5
1 .25
8
78
54
1440
75
8.90
1 5
8.80
9
78
54
1510
5
8.90
30
8.80
9
78
54
1510
15
8.80.
75
9.00
9
78
54
1510
30
8.90
5
8.60
9
78
54
1510
75
9.30
1 5
8.80
10
78
54
950
5
8.80
30
8.80
10
78
54
950
15
8.80
75
8 . 80
10
78
54
950
30
8.80
5
8.70
10
78
54
950
75
9.10
15
8.80
1
78
60
1550
5
8.70
30
8.80
1
78
60
1550
15
8.80
75
8.80
1
78
60
1 550
30
8.80
5
8.70
1
78
60
1550
75
8.70
15
8.70
2
78
60
1600
5
8.70
30
8.80
2
78
60
1 600
15
8.70
-------�
Table 3B. (Continued)
II.
Watershed
110
STATION
TIME
DEPTH
MOISTURE
STATION
TIME
CM
2
78
60
1600
30
8.80
6
78
66
350
2
78
60
1600
75
8.80
6
78
66
350
3
78
60
1540
5
8.80
6
78
66
350
3
"78
60
1540
15
8.80
7
78
66
355
3
78
60
1540
30
8.90
7
78
66
355
3
78
60
1540
75
9.00
7
78
66
355
4
78
60
1535
5
8.60
7
78
66
355
4
78
60
1535
1 5
8.60
8
78
66
330
4
78
60
1535
30
8.70
8
78
66
330
4
78
60
1535
75
8.80
8
78
66
330
5
78
60
1530
5
0.70
8
78
66
330
5
78
60
1530
15
8.70
9
78
66
345
5
78
60
1530
30
8.80
9
78
66
345
5
78
60
1530
75
8.90
9
78
66
345
6
78
60
1510
5
8.60
9
78
66
345
6
78
60
1510
15
8.80
10
78
66
340
6
78
60
1510
30
8.90
10
78
66
340
6
78
60
1510
75
8.90
10
78
66
340
7
78
60
1520
5
8.70
10
78
66
340
7
78
60
1520
15
8.80
1
78
76
1 15
7
78
60
1520
30
8.80
1
78
76
1 15
7
78
60
1520
75
8.80
1
78
76
1 15
8
78
60
1525
5
8.70
1
78
76
115
8
78
60
1525
1 5
8.70
2
78
76
1 25
8
78
60
1525
30
8.80
2
78
76
1 25
00 8
78
60
1525
75
8.80
2
rQ
76
1 25
g
78
60
1505
5
8.80
2
78
76
1 25
9
78
60
1505
1 5
8.80
3
78
76
1 10
9
78
60
1505
30
8.90
3
78
76
1 10
9
78
60
1505
75
9.30
3
78
76
1 10
1 0
78
60
1500
5
8.80
3
78
76
1 10
1 0
78
60
1500
1 5
8.80
4
78
76
1 10
10
78
60
1500
30
8.80
.4
78
76
1 10
10
78
60
1500
75
9.00
4
78
76
1 10
1
78
66
1420
5
8.80
4
78
76
1 10
1
78
. 66
1420
15
8.80
5
78
76
025
1
78
66
M20
30
8.80
5
78
76
025
1
78
66
1420
75
8. 70
5
78
76
025
2
78
66
1440
5
8.80
5
78
76
025
2
78
66
1140
1 5
8.80
6
78
76
045
2
78
66
1440
30
8.80
6
78
76
045
2
78
66
1440
75
8.80
6
78
76
045
3
78
66
1425
5
8.80
6
78
76
045
3
78
66
1425
15
8.80
7
78
76
055
3
78
66
1 425
30
8.80
7
78
76
055
3
78
66
1425
75
9.10
7
78
76
055
4
78
66
1435
5
8.70
7
78
76
055
4
78
56
1435
15
8. 70
8
78
76
030
4
78
66
1435
30
8. 70
8
78
76
030
4
78
66
1435
75
8. 80
8
78
76
030
5
78
66
1325
5
1.10
8
78
76
030
5
78
66
1325
15
8.80
9
78
76
040
5
78
66
1325
30
8.80
9
78
76
040
5
78
66
1325
75
8.90
9
78
76
040
6
78
66
1350
5
8.60
9
78
76
040
DEPTH MOISTURE
CM
15
8.80
30
8.90
75
8.80
5
8.80
15
8.80
30
8.80
75
8.80
5
8-70
15
8.70
30
8.80
75
8.80
5
8.80
15
8.80
30
8.90
75
9.30
5
8 . 80
15
8.80
30
8.80
75
9.00
5
8.90
15
8.90
30
8.90
75
8.90
5
8.80
15
8.80
30
8.90
75
8.90
5
9.10
15
8.90
30
9.00
75
9.20
5
8.70
15
8. 70
30
8.80
75
8. 90
5
s-eo
15
8.80
30
8-80
75
8.90
5
8.75
15
8.90
30
8. 90
75
8-90
5
8.80
15
8-90
30
8.90
75
8.80
5
8.80
15
8. 80
30
8.90
75
8. 90
5
9.00
15
8.90
30
9. 00
75
9.30
TIME
OEPTH
MOISTU
CM
76
1035
5
8.90
76
1035
15
8.90
76
1035
30
8.90
76
1035
75
9.10
83
1 030
5
9.10
83
1030
1 5
9.10
83
1030
30
9.10
83
1030
75
8.80
83
1035
5
9. 10
83
1035
1 5
9. 00
83
1035
30
9.00
83
1035
75
8.90
83
1020
5
9.20
83
1020
15
9.10
83
1020
30
9. 20
83
1020
75
9.30
83
1015
5
8.90
83
1015
15
8.90
83
1015
30
8.90
83
1015
75
8.90
83
940
5
9.10
83
940
1 5
9. 00
83
940
30
9.10
83
940
75
9. 10
83
1005
5
8.90
83
1005
15
9.00
83
1005
30
9.10
83
1005
75
8.90
83
1010
5
9.10
83
1010
1 5
9.10
83
1010
30
9.00
03
1010
75
8.90
83
950
5
9.00
83
950
15
9.00
83
950
30
9.00
83
950
75
8.90
83
1 000
5
9.00
83
1000
1 5
9. 00
83
1000
30
9.10
83
1000
75
9.30
83
955
5
9.10
83
9 5 Ei
1 5
9.00
83
955
30
9.00
03
95J.
75
9.20
93
1 030
5
9. 00
93
1030
1 5
9.00
93
1 03C'
30
9.00
93
1 030
75
8. 90
93
945
5
9.10
93
94 5.
1 5
9.10
93
945
30
9. 20
93
945
75
9.10
93
1015
5
8.90
93
1020
5
9.10
93
1015
15
9.10
STAT I ON
10 78
10 78
10 78
10 78
1 78
1 78
1 78
1 78
2 78
2 78
2 78
2 78
3 78
3 78
3 78
3 78
4 78
4 78
4 78
4 78
5 78
5 78
5 78
5 78
6 78
$ 78
6 78
6 78
7 78
7 78
7 78
7 78
8 78
8 78
8 78
8 78
9 78
9 78
9 78
9 78
10 78
10 78
10 78
10 78
4 78
4 78
4 78
4 78
5 78
5 78
5 78
5 78
6 78
6 78
6 78
-------�
Table 3B. (Continued)
STATION TIME
6
78
93
1020
6
78
93
1 020
6
78
93
1015
6
78
93
1020
6
78
93
1015
8
78
93
955
8
78
93
955
8
78
93
955
8
78
93
955
9
78
93
1010
9
78
93
1010
9
78
93
1010
9
78
93
1010
1 0
78
93
1005
10
78
93
1 005
1 0
78
93
1005
10
78
93
1005
1
78
103
1020
1
78
103
1020
1
78
103
1020
1
78
103
1 020
2
78
103
930
2
78
103
930
2
78
103
930
2
78
103
930
3
78
103
1115
3
78
103
1115
3
78
103
1115
3
78
103
1115
6
78
103
1400
6
78
103
1400
6
78
103
1400
6
78
1 03
1400
9
78
103
1450
9
70
103
1 450
9
78
103
1450
9
78
1 03
1450
10
78
103
1545
1 0
78
103
1545
10
78
103
1 545
1 0
78
103
1 545
<1
78
104
15^0
4
78
104
1540
4
78
1 04
1 540
4
. 78
104
1 540
5
78
1 04
1430
5
78
104
1430
5
78
104
1430
5
78
104
1430
7
78
1 04
9 1 5
7
78
104
915
7
78
104
915
7
78
104
915
8
78
1 04
1 1 00
8
78
104
1 100
. Watershed 110
DEPTH MOISTURE
CM
15
9.10
30
9.10
30
9.10
75
9.10
75
9.00
5
9.00
15
9.00
30
9.10
75
9.00
5
9.20
1 5
9.10
30
9.20
75
9.40
5
9.10
1 5
9.20
30
9.10
75
9.20
5
9.20
15
9.20
30
9.20
75
8.80
5
9.20
1 5
9.10
30
9.10
75
8.90
5
9.70
1 5
9.50
30
9.50
75
9.90
5
9.10
15
9.20
30
9.20
75
9.10
5
9.30
1 5
9.10
30
9.20
75
9.40
5
9.20
1 5
9.20
30
9.20
75
9.20
5
9.10
15
9.10
30
9.10
75
8.90
5
9.30
15
9.20
30
9.20
75
9.20
5
9.20
15
9.20
30
9.20
75
9.10
5
9.10
15
9.00
STATION TIME
8
78
104
1 1 00
8
78
1 04
1 1 00
1
78
1 1 0
1340
1
78
1 1 0
1340
1
78
1 1 0
1340
1
78
1 1 0
1340
2
78
1 1 0
1355
2
78
1 1 0
1 355
2
78
1 1 0
1355
2
78
1 1 0
1355
3
78
1 1 0
1325
3
78
1 1 0
1325
3
78
1 1 0
1 325
3
78
1 1 0
1 325
4
78
1 1 0
1315
4
78
1 1 0
1315
4
78
1 1 0
1315
4
78
1 1 0
1315
5
78
1 1 0
1 300
5
78
1 1 0
1300
5
78
1 1 0
1300
5
78
1 1 0
1 300
6
78
1 1 0
1 440
6
78
1 1 0
1440
6
78
1 1 0
1440
6
78
1 10
1 440
7
78
1 1 0
1 425
7
78
1 1 0
1 425
7
78
1 1 0
1425
7
78
1 1 0
1 425
8
78
1 1 0
1410
8
78
1 10
14 10
8
78
1 1 0
1410
8
78
1 1 0
14 10
9
78
1 1 0
1 450
9
78
1 1 0
1 450
9
78
1 1 0
1 450
9
78
1 1 0
1450
10
78
1 1 0
1510
10
78
1 1 0
1510
10
78
1 1 0
1510
10
78
1 1 0
1510
1
78
1 24
905
1
78
1 24
905
1
78
1 24
905
1
78
1 24
905
2
78
1 24
915
2
78
1 24
915
2
78
1 24
915
2
78
1 24
915
3
78
1 24
900
3
78
1 24
900
3
78
1 24
900
3
78
124
900
4
78
124
845
DEPTH
MOISTURE
STATION
T I ME
DEPTH
MOISTURE
CM
CM
30
9.10
4
78
1 24
845
15
9.10
75
9.00
4
78
1 24
845
30
9.10
5
9.20
4
78
1 24
845
75
8.90
1 5
9.30
5
78
1 24
800
5
9 . 20
30
9.20
5
78
1 24
800
15
9. 20
75
9.10
5
78
1 24
800
30
9.20
5
9.30
5
78
1 24
800
75
9.20
15
9.20
6
78
1 24
825
5
9.10
30
9.20
6
78
1 24
825
1 5
9. 20
75
9.00
6
78
1 24
825
30
9 . 20
5
9.30
6
78
1 24
825
75
9.10
1 5
9.20
7
78
124
840
5
9.20
30
9. 30
7
78
1 24
840
15
9.20
75
9.10
7
78
1 24
840
30
9.20
5
9.20
7
78
1 24
840
75
9.10
15
9.10
8
78
1 24
805
5
9.10
30
9.10
8
78
1 24
805
15
9.10
75
9. 00
8
78
1 24
805
30
9.10
5
9.20
8
78
1 24
805
75
9.10
15
9.20
9
78
1 24
820
5
9. 20
30
9. 20
9
78
1 24
820
15
9. 20
75
9.20
9
78
1 24
820
30
9 . 30
5
9.10
9
78
1 24
820
75
9 . 40
1 5
9. 20
10
78
1 24
810
5
9 . 20
30
9.20
10
78
1 24
810
1 5
8 . 90
75
9.10
10
78
1 24
810
30
9.20
5
9.20
10
78
1 24
810
75
9. 30
1 5
9. 20
4
78
1 32
1 500
5
9.20
30
9.10
4
78
1 32
1500
1 5
9.20
75
9.10
4
78
1 32
1 500
30
9.20
5
9.20
4
78
1 32
1 500
75
8.90
15
9.10
5
78
1 32
1435
5
9. 75
30
9.10
5
78
1 32
1 435
15
9.50
75
9.10
5
78
1 32
1 435
30
9 . 50
5
9. 30
5
78
1 32
1 435
75
8 . 80
15
9. 20
6
78
1 32
930
5
9. 20
30
9. 20
6
78
1 32
930
15
9. 20
75
9 . 40
6
78
1 32
930
30
9.30
5
9.20
6
78
1 32
930
75
9.20
15
9.30
7
78
1 32
900
5
9. 25
30
9.10
7
78
1 32
900
15
9. 20
75
9.20
7
78
1 32
900
30
9 . 20
5
9.20
7
78
1 32
900
75
9. 20
15
9. 20
8
78
1 32
025
5
9.20
30
9 . 20
8
78
1 32
825
1 5
9- 20
75
8.90
8
78
1 32
825
30
9.20
5
9.20
8
78
1 32
825
75
9. 20
1 5
9.20
9
78
1 32
1 220
5
9 . 30
30
9.20
9
78
1 32
1 220
15
9. 20
75
9.10
9
78
1 32
1220
30
9.30
5
9.30
9
78
1 32
1 220
75
9.40
15
9.20
10
78
1 32
1325
5
9. 20
30
9.20
10
78
1 32
1325
15
9.10
75
7.20
10
78
132
1325
30
9.20
5
9.10
10
78
1 32 '
1325
75
9. 30
-------�
Table 3B. (Continued)
II. Watershed 110
STATION TIME DEPTH MOISTURE
CM
7
78
137
1000
5
9.25
7
78
137
1000
15
9.20
7
78
137
1000
30
9. 20
7
78
137
1 000
75
9.20
8
78
1 37
800
5
9.20
8
78
137
000
15
9.20
8
78
137
800
30
9.20
8
78
137
800
75
9. 20
1
78
138
1230
5
9.40
1
78
138
1230
15
9.30
1
78
1 38
1230
30
9.30
1
78
1 38
1230
75
9.20
2
78
1 38
1510
5
9.40
2
78
138
1510
15
9.40
2
78
138
1510
30
9.30
2
78
138
1510
75
9.20
3
76
138
1250
5
9.40
3
78
138
1250
1 5
9.30
3
78
138
1250
30
9.30
3
78
138
1250
75
8.60
4
78
138
1300
5
9.20
4
78
1 38
1300
1 5
9. 20
4
78
130
1300
30
9.20
4
78
138
1300
75
9.20
5
78
138
1320
5
9.30
5
78
-138
1320
15
9.30
5
78
138
1 320
30
9.20
5
78
138s
1320
75
9.30
6
78
138
1125
5
9.20
6
70
138
1425
15
9.25
6
78
130
1425
30
9.30
6
78
138
1425
75
9.20
7
78
138
1440
5
9.30
7
78
130
1440
15
9.30
7
78
130
1440
30
9.20
7
7.8
1 30
1440
75
9.20
8
78
130
1335
5
9.20
8
73
130
1335
30
9.20
8
78
138
1335
75
9.20
9
78
130
14 10
5
9.30
9
78
130
1410
1 5
9.20
9
70
130
14 10
30
9.25
9
70
130
14 10
75
9.40
10
70
130
1350
5
9.30
10
78
130
1350
1 5
9. 20
10
78
1 30
1350
30
9-30
10
78
138
1350
75
9.30
1
76
160
1225
5
2.70
1
76
1 60
1225
15
9.30
1
76
160
1225
30
10.00
2
76
160
1110
4.00
2
76
160
1110
15
9.80
2
76
160
1110
30
10.00
3
76
160
1250
5
A .60
3
76
100
1 250
15
10. 00
-------�
Table 3B. (Continued)
Watershed 111
TION
TIME
DEPTH
MOISTURE
9
77
173
1025
"5
9.50
9
77
173
1 025
15
9.40
9
77
1 73
1025
30
9.30
9
77
173
1025
75
9.30
10
77
1 73
1020
5
9.40
10
77
1 73
1020
15
9.40
10
77
1 73
1020
30
9.40
10
77
173
1 020
75
9.40
1
77
182
1315
15
2.70
1
77
182
1315
30
3.80
1
77
182
1315
75
8.90
2
77
182
1325
5
0.50
2
77
182
1325
15
4.70
2
77
182
1325
30
7.80
2
77
1 82
1325
75
9.70
3
77
1 82
1335
5
0.10
3
77
1 82
1335
15
0.80
3
77
1 02
1335
30
3.60
3
77
182
1335
75
8.90
4
77
1 82
1450
5
2.20
4
77
1 82
1450
15
9.40
4
77
182
1450
30
9.60
4
77
1 82
1450
75
9.50
5
77
1 82
1440
5
0.40
5
77
182
1440
15
7.75
5
77
1 82
1440
30
9.00
5
77
182
1 440
75
9. 20
6
77
182
1345
5
0.20
6
77
1 82
Ļ1345
15
5.80
STATION TIME
6
77
182
1345
7
77
1 82
1430
7
77
1 82
1430
7
77
1 82
1430
7
77
1 82
1430
8
77
182
1435
8
77
182
1435
8
77
1 82
1435
8
77
182
1435
9
77
182
1355
9
77
1 82
1 355
9
77
1 82
1355
9
77
1 82
1 355
10
77
1 82
1 405
10
77
1 82
1 405
10
77
1 82
1405
10
77
1 82
1405
1
77
1 88
1310
1
77
188
1310
1
77
1 88
1310
2
77
1 88
1 445
2
77
1 00
1 445
2
77
1 88
1445
2
77
188
1445
3
77
1 88
1435
3
77
1 83
1435
3
77
1 08
1 435
3
77
1 83
1 435
4
77
1 88
1320
4
77
1 88
1320
4
77
1 00
1320
4
77
1 88
1 320
5
77
1 88
1 440
5
77
1 88
1440
5
77
1 88
1 440
5
77
.1 80
1 440
5
77
1 08
1425
5
77
1 88
14 2 5
6
77
1 88
1425
7
77
1 00
1 500
7
77
1 80
1 500
7
77
180
1 500
7
77
1 88
1500
8
77
1 88
1455
8
77
188
1455
8
77
188
1455
8
77
1 88
1455
9
77
108
1420
9
77
188
1420
9
77
183
1420
9
77
188
1420
10
77
188
1510
10
77
ise
1510
10
77
188
1510
10
77
186
1510
DEPTH
MOISTURE
STATION
TIME
DEPTH
MOISTUI
CM
CM
75
9.00
1
77
194
1520
15
9. 40
5
9. 00
1
77
1 94
1520
30
9.40
15
9.50
1
77
194
1520
75
8.80
30
9. 60
2
77-
1 94
1405
5
9 . 40
75
9.60
2
77
194
1405
15
9. 20
5
0.20
2
77
194
1405
30
7.80
15
9.40
2
77
1 94
1405
75
9.50
30
9.60
3
77
194
1415
5
4 . 25
75
9.60
3
77
1 94
1415
15
7 . 30
5
0.40
3
77
194
1415
30
0.20
15
9.40
3
77
194
1415
75
6.60
30
9.50
4
77
194
1515
5
9.40
75
9.60
4
77
1 94
1515
15
9.40
5
9.10
4
77
1 94
1515
30
9. 50
15
9.40
4
77
194
1515
75
9. 40
30
9.40
5
77
194
1510
5
9.50
75
9.40
5
77
1 94
1510
15
9. 50
1 5
0.80
5
77
1 94
1510
30
9. 40
30
2.30
5
77
194
1510
75
9. 00
75
8.80
6
77
194
1420
5
9.40
5
0.25
6
77
1 94
1420
15
2 . 60
15
1 .50
6
77
1 94
1420
75
8 . 20
30
2.25
7
77
1 94
1 455
5
9.40
75
9.40
7
77
1 94
1455
15
9.40
5
-0.10
7
77
194
1455
30
9.40
1 5
-0.10
7
77
'194
1455
75
9. 60
30
0 . 50
8
77
1 94
1500
5
9. 50
75
7.40
8
77
1 94
1500
15
9. 30
5
0.25
8
77
194
1500
30
9. 50
1 5
7.20
8
77
194
1500
75
9.40
30
9.40
9
77
1 94
1 430
5
9 . 40
75
9.50
9
77
194
1430
15
9.40
5
0. 10
9
77
1 94
1430
30
8. 80
15
0.30
9
77
1 94
1 430
75
9. 60
30
2.20
10
77
194
1445
5
9. 30
75
8 . 80
10
77
1 94
1445
1 5
9. 30
5
0.10
10
77
1 94
1 445
30
9. 50
15
0.30
10
77
194
1 445
75
9.50
75
8.60
1
77
200
000
15
9. 40
5
1 .30
1
77
200
000
30
9. 50
15
8.75
1
77
200
000
75
8.90
30
9.40
2
77
200
820
5
9.30
75
9.60
2
77
200
820
1 5
9. 40
5
-0.10
2
77
200
020
30
9.40
15
2.30
2
77
200
020
75
9. 60
30
9.50
3
77
200
835
5
0.10
75
9.50
3
77
200
835
1 5
0. 70
5
0.10
3
77
200
835
30
0.10
15
7.30
3
77
200
835
75
5. 70
30
9.40
4
77
200
930
5
9.30
75
9.60
4
77
200
930
15
9.30
5
1 .70
4
77
200
930
30
9.40
15
9.30
4
77
200
930
75
9.40
30
9.50
5
77
200
915
5
9.40
75
9.60
5
77
200
915
15
9.40
-------�
Taoie Jb. (Continued)
III. Watershed 111
station
TIME
DEPTH
MOISTURE
STATION
TIME
CM
5
77
200
915
30
9.40
10
77
207
450
5
77
2C0
915
75
8.90
10
77
207
450
6
77
200
855
5
3.75
10
77
207
450
6
77
200
855
15
3.20
10
77
207
450
6
77
200
055
75
7. 75
1
77
215
320
7
77
200
950
5
9.30
'1
77
215
320
7
77
200
950
1 5
9.40
1
77
215
320
7
77
200
950
30
9.50
1
77
215
320
7
77
200
950
75
9.60
2
77
215
325
8
77
200
1010
5
4 . 30
2
77
215
325
8
77
200
1010
15
9.40
2
77
215
325
8
77
200
1010
30
9.60
2
77
215
325
8
77
200
1010
75
9.50
3
77
215
330
9
77
200
1035
5
7.10
3
77
215
330
9
77
200
1 035
15
9.40
3
77
215
330
9
77
200
1 035
30
8.40
3
77
215
330
9
77
200
1 035
75
9.60
4
77
215
310
10
77
200
1045
5
9.40
4
77
215
310
10
77
200
1 045
15
9.40
4
77
215
310
10
77
2C0
1045
30
9.40
4
77
215
310
10
77
200
1045
75
9.50
5
77
215
300
1
77
207
1 340
15
5.40
5
77
215
300
1
77
207
1 340
30
8. 90
5
77
215
300
1
77
207
1340
75
8.80
5
77
215
300
C4
-------�
Tabid" 3B. (Continued)
III. Watershed 111
STATION TIME DEPTH MOISTURE
CM
4
77
231
825
15
0.10
4
77
231
825
30
9.70
4
77
231
025
75
4.70
5
77
231
835
5
0.20
5
77
231
835
15
0.20
5
77
231
835
30
0.40
5
77
231
835
75
5.70
6
77
231
920
5
-0.10
6
77
231
920
15
-0.10
6
77
231
920
75
1 .20
7
77
231
850
5
-0.10
7
77
231
850
15
0.10
7
77
231
850
30
0.60
7
77
231
850
75
9.30
8
77
231
845
5
-0.10
8
77
231
845
15
0.10
8
77
231
045
30
1 .60
8
77
231
845
75
9.40
9
77
231
915
5
-0.10
g
77 231
915
15
-0.10
9
77.
231
915
30
0.10
9
77
231
915
75
9.50
10
77
231
900
5
0.10
10
77
231
900
15
0.25
10
77
231
900
30
0.60
10
77
231
900
75
9.40
2
77
234
930
5
-0.10
2
77
234
930
15
0.
2
77
234
930
30
0.20
2
77
234
930
75
9.20
3
77
234
1020
5
-0.10
3
77
234
1020
15
-0.10
3
77
234
1020
30
-0.10
3
77
234
1020
75
1 .00
1 0
77
234
1 320
5
0.20
10
77
234
1320
15
0.20
10
77
234
1320
30
0.30
10
77
234
1320
75
9.00
1
77
238
1450
5
8.50
1
77
230
1450
15
0.10
1
77.
233
1450
30
0.10
1
77
238
1450
75
2.70
2
77
238
1405
5
0.90
2
77
230
1405
15
9.30
2
77
230
1405
30
9.30
2
77
238
1405
75
9.40
3
77
238
1520
5
0.
3
77
238
1520
15
0.50
3
77
238
1520
30
-0.10
3
77
238
1520
75
1 .90
4
77
230
1455
5
9.10
A
77
238
1455
15
9.10
A
77
238
1455
30
9.90
A
77
238
1455
75
3.30
5
77
230
1415
5
4.25
STATION
TIME
DEPTH
MOISTURE
STATION TIME
DEPTH
MOIST
CM.
CM
5
77
230
415
15
3.80
9
77 245 1450
75
8. 20
5
77
238
415
30
5.10
10
77 245 1455
5
0.40
5
77
238
415
75
5.50
10
77 245 1455
15
0.80
6
77
238
515
5
0.60
10
77 245 1455
30
5.90
6
77
238
515
15
0.10
10
77 245 1455
75
4. 20
6
77
238
515
75
4.00
1
77 251 -1340
5
0.
7
77
230
505
5
9.10
1
77 251 1340
15
6.30
7
77
238
505
15
9.30
1
77 251 1340
30
0.
7
77
238
505
30
2.30
1
77 251 1340
75
o
in
7
77
238
505
75
9.30
2
77 251 1345
5
0.
8
77
238
420
5
1 .20
2
77 251 1345
15
1 . 60
8
77
238
420
15
1 .00
2
77 251 1345
30
4. 20
8
77
238
420
30
9.30
2
77 251 1345
75
.9. 70
8
77
238
420
75
9.40
3
77 251 1310
5
-0.10
9
77
238
510
5
0.10
3
77 251 1310
1 5
-0.10
9
77
238
510
15
1 .50
3
77 251 1310
30
-0.10
9
77
238
510
75
9.10
3
77 251 1310
75
1 .60
10
77
238
425
5
0.70
4
77 251 1330
5
3.10
10
77
238
425
15
0.70
4
77 251 1330
15
0.10
10
77
238
425
30
8.70
4
77 251 1330
30
1 .25
10
77
238
425
75
8.75
4
'77 251 1330
75
2.90
1
77
245
520
5
-0.10
5
77 251 1300
5
1 . 30
1
77
245
520
15
0.
5
77 251 1300
15
5.25
1
77
245
520
30
0.10
5
77 251 1300
30
4.60
1
77
245
520
75
1 .60
5
77 251 1300
75
5.25
2
77
245
525
5
-0.10
6
77 251 1245
5
-0.10
2
77
245
525
15
8.70
6
77 251 1245
1 5
-0.10
2
77
245
525
30
8.80
6
77 251 1245
75
3.80
2
17
245
525
75
9.30
7
77 251 1320
5
1 . 00
3
77
245
440
5
-0.10
7
77 251 1320
1 5
0. 25
3
77
245
440
1 5
-0.10
7
77 251 1320
30
0 . GO
3
77
245
440
30
-0.10
7
77 251 1320
75
9. GO
3
77
245
440
75
1 .40
8
77 251 1235
5
0 . 30
A
77
245
515
5
0.
0
77 251 1235
1 5
0.25
4
77
245
515
1 5
0.20
0
77 251 1235
30
6.GO
4
77
245
515
30
9.90
6
77 251 12.35
75
9.80
4
77
245
515
75
3.30
9
77 251 1240
5
-0.10
5
77
245
510
5
3.20
9
77 251 1240
1 5
-0.10
5
77
245
510
15
7.30
9
77 251 1240
30
-0.10
5
77
245
510
30
6.60
9
77 251 1240
75
7.10
5
77
245
510
75
5.25
10
77 251 1230
5
1 .25-
6
77
245
445
5
-0.10
10
77 251 1230
15
0 .60
6
77
245
445
15
-0.10
10
77 251 1230
30
3.75
6
77
245
445
75
3.50
10
77 251 1230
75
2.40
7
77
245
500
5
0.10
1
77 257 1450
5
-0.10
7
77
245
500
15
1 .30
1
77 257 1450
1 5
0.10
7
77
245
500
30
2.10
1
77 257 1450
30
0.10
7
77
245
500
75
9.30
1
77 257 1450
75
1.10
8
77
245
505
5
-0.10
2
77 257 1245
5
-0.10
8
77
245
505
15
0.30
2
77 257 1245
1 5
0.20
8
77
245
505
33
8.90
2
77 257 1245
30
0.90
Q
77
245
505
75
9.40
2
77 257 1245
75
9.10
9
77
245
450
5
-0.10
3
77 257 .1255
5
-0.10
9
77
245
450
15
-0.10
3
77 257 1255
15
-0.10
9
77
245
450
30
0.
3
77 257 1255
30
-0.10
-------�
Table 3B. (Continued)
III. Watershed 111
STATION TIME DEPTH MOISTURE
CM
4
77
231
825
15
0.10
4
77
231
825
30
9.70
4
77
231
825
75
4.70
5
77
231
835
5
0.20
5
77
231
835
15
0.20
5
77
231
835
30
0.40
5
77
231
835
75
5. 70
6
77
231
920
5
-0.10
6
77
231
920
15
-0.10
6
77
231
920
75
1 .20
7
77
231
850
5
-0.10
7
77
231
850
15
0.10
7
77
231
850
30
0.60
7
77
231
850
75
9.30
8
77
231
845
5
-0.10
8
77
231
845
1 5
0.10
8
77
231
845'
30
1 .60
8
77
231
845
75
9.40
9
77
231
915
5
-0.10
9
77
231
915
15
-0.10
9
77
231
915
30
0.10
9
77
231
915
75
9.50
10
77
231
900
5
0.10
10
77
231
900
15
0. 25
10
77
231
900
30
0.60
10
77
231
900
75
9.40
2
77
234
930
5
-0.10
2
77
234
930
15
0.
2
77
234
930
30
0.20
2
77
234
930
75
9.20
3
77
234
1 020
5
-0.10
3
77
234
1020
15
-0.10
3
77
234
1020
30
-0.10
3
77
234
1020
75
1 .00
10
77
234
1 320
5
0.20
10
77
234
1320
15
0.20
10
77
234
1 320
30
0.30
10
77
234
1320
75
9.00
1
77
238
1 450
5
8.50
1
77
233
1450
15
0.10
1
77
238
1450
30
0.10
1
77
238
1 450
75
2.70
2
77
238
1 405
5
0.90
2
77
230
1405
1 5
9.30
2
77
230
1 405
30
9.30
2
77
238
1 405
75
9.40
3
77
238
1520
5
0.
3
77
238
1520
15
0.50
3
77
238
1520
30
-0.10
3
77
238
1520
75
1 .90
4
77
238
1455
5
9.10
4
77
238
1455
15
9.10
4
77
238
1455
30
9.90
4
77
238
1455
75
3.30
5
77
238
1415
5
4.25
STATION
TIME
DEPTH
MOISTURE
STATION TIME
DEPTH
MOIST
CM
CM
5
77
238
415
15
3.80
9
77 245 1450
75
8.20
5
77
238
415
30
5.10
10
77 245 1455
5
0.40
5
77
238
415
75
5.50
10
77 245 1455
15
0.80
6
77
238
515
5
0. 60
10
77 245 1455
30
5.90
6
77
238
515
15
0.10
10
77 245 1455
75
4.20
6
77
238
515
75
4.00
1
77 251 1340
5
0.
7
77
238
505
5
9.10
1
77 251 1340
15
6.30
7
77
238
505
15
9.30
1
77 251 1340
30
0.
7
77
238
505
30
2. 30
1
77 251 1340
75
1 .50
7
77
238
505
75
9.30
2
77 251 1345
5
0.
8
77
238
420
5
1 .20
2
77 251 1345
15
1 .60
8
77
238
420
15
1 .00
2
77 251 1345
30
4.20
8
77
238
420
30
9.30
2
77 251 1345
75
9.70
8
77
238
420
75
9.40
3
77 251 1310
5
-0.10
9
77
238
510
5
0.10
3
77 251 1310
15
-0.10
9
77
238
510
15
1 .50
3
77 251 1310
30
-0.10
9
77
238
510
75
9.10
3
77 251 1310
75
1 .60
10
77
238
425
5
0.70
4
77 251 1330
5
3.10
10
77
238
425
15
0.70
4
77 251 1330
15
0.10
10
77
238
425
30
8.70
4
77 251 1330
30
1 .25
10
77
238
425
75
8.75
4
77 251 1330
75
2.90
1
77
245
520
5
-0.10
5
77 251 1300
5
1 .30
1
77
245
520
15
0.
5
77 251 1300
15
5-25
1
77
245
520
30
0.10
5
77 251 1300
30
4.60
1
77
245
520
75
1 .60
5
77 251 1300
75
5.25
2
77
245
525
5
-0.10
6
77 251 1245
5
-0.10
2 .
77
245
525
15
8.70
6
77 251 1245
15
-0.10
2
77
245
525
30
8.80
6
77 251 1245
75
3.80
2
17
245
525
75
9.30
7
77 251 1320
5
1 .00
3
77
245
440
5
-0.10
7
77 251 1320
1 5
0. 25
3
77
245
440
15
-0. 10
7
77 251 1320
30
0 . GO
3
77
245
440
30
-0.10
7
77 251 1320
75
9. 60
3
77
245
440
75
1 .40
.8
77 251 1235
5
0. 30
4
77
245
515
5
0.
8
77 251 1235
1 5
0.25
4
77
245
515
1 5
0. 20
8
77 251 1?35
30
6.80
4
77
245
515
30
9.90
8
77 251 1235
75
9.80
4
77
245
515
75
3. 30
9
77 251 1240
5
-0.10
5
77
245
510
5
3.20
9
77 251 1240
15
-0.10
5
77
245
510
15
7.30
9
77 251 1240
30
-0.10
5
77
245
510
30
6.60
9
77 251 1240
75
7.10
5
77
245
510
75
5.25
10
77 251 1230
5
1 .25-
6
77
245
445
5
-0.10
10
77 251 1230
15
0.60
6
77
245
445
15
-0.10
10
77 251 1230
30
3.75
6
77
245
445
75
3. 50
10
77 251 1230
75
2.40
7
77
245
500
5
0.10
1
77 257 1450
5
-0.10
7
77
245
500
15
1 .30
1
77 257 1450
15
0.10
7
77
245
500
30
2.10
1
77 257 1450
30
0.10
7
77
245
500
75
9.30
1
77 257 1450
75
1.10
8
77
245
505
5
-0.10
2
77 257 1245
5
-0.10
8
77
245
505
15
0.30
2
77 257 1245
15
0. 20
8
77
245
505
33
8.90
2
77 257 1245
30
0.90
8
77
245
505
75
9.40
2
77 257 1245
75
9. 10
9
77
245
450
5
-0.10
3
77 257 1255
5
-0.10
9
77
245
450
15
-0.10
3
77 257 1255
15
-0.10
9
77
245
450
30
0.
3
77 257 1255
30
-0.10
-------�
TablŖ"3B. (Continued)
III. Watershed 111
STATION TIME DEPTH MOISTURE
CM
3
77
257
1255
75
1.10
4
77
257
1440
5
0.
4
77
257
1440
15
0.10
4
77
257
1440
30
1 . 00
A
77
257
1440
75
2.40
5
77
257
1430
5
1 .30
5
77
257
14 30
15
4.60
5
77
257
1430
30
3.30
5
77
257
1430
75
4.SO
6
77
257
1305
5
-0.10
6
77
257
1305
15
-0.10
6
77
257
1305
75
3.40
7
77
257
1315
5
0.10
7
77
257
1315
15
0.10
7
77
257
1315
30
0.30
7
77
257
1315
75
B. 80
8
77
257
1325
5
-0.10
8
77
257
1325
15
0.20
8
77
257
1325
30
1 .90
8
77
257
1325
75
9.40
9
77
257
1310
5
-0.10
9
77
257
1310
15
-0.10
9
77
257
1310
30
0.
9'
77
257
1310
75
5.70
10
77
257
1405
5
0.25
10"
77
257
1405
15
0.30
10
77.
257
1405
30
0.40
10
77
257
1405
75
1 .40
1
77
264
1040
5
-0.10
1
77
264
1040
15
-0.10
1
77
264
1040
30
0.10
1
77
264
1040
75
1.10
2
77
264
930
5
0.
2
77
264
930
15
0. 10
2
77
264
930
30
0.25
2
77
264
930
75
8.10
3
77
2G4
940
5
-0.10
3
77
264
940
15
-0.10
3
77
264
940
30
-0.10
3
77
264
940
75
1 .00
4
77
264
1035
5
0.10
A
77
264
1035
15
0.10
A
77
264
1035
30
0.80
A
77
264
1035
75
2.00
5
77
264
1025
5
0.20
5
77
264
1025
15
1 .00
5
77
264
1025
30
1 .50
5
77
264
1025
75
4.70
6
77
264
950
5
-0.10
6
77
264
950
15
-0.10
6
77
264
950
75
3.50
7
77
264
1010
5
0.10
7
77
264
1010
15
0.10
7
77
264
1010
30
0.30
7
77
264
1010
75
7.70
STATION TIME
8
77
264
1 020
8
77
264
1020
8
77
264
1 020
8
77
264
1020
9
77
264
955
9
77
264
955
9
77
264
955
9
77
264
955
10
77
264
1005
10
77
264
1005
10
77
264
1005
10
77
264
1005
1
77
270
1240
1
77
270
1 240
1
77
270
1 240
1
77
270
1 240
3
77
270
930
3
77
270
930
3
77
270
930
3
77
270
930
4
77
270
1 000
4
77
270
1000
4
77
270
1000
4
77
270
1 000
5
77
270
1315
5
77
270
1315
5
77
270
1315
5
77
270
1315
7
77
270
855
7
77
270
855
7
77
270
855
7
77
270
855
9
77
270
820
9
77
270
820
9
77
270
820
9
77
270
820
8
77
272
0
8
77
272
0
8
77
272
0
8
77
272
0
10
77
272
0
10
77
272
0
10
77
272
0
10
77
272
0
1
77
270
1 045
1
77
278
1045
1
77
278
1045
1
77
278
1045
2
77
278
035
2
77
278
935
2
77
278
935
2
77
278
935
3
77
278
945
3
77
278
945
3
77
278
945
DEPTH
MOISTURE
STATION
T I ME
DEPTH
MOISTU
CM
CM
5
-0.10
3
77
278
945
75
0.70
15
0.10
4
77
278
1030
5
-0.10
30
1 .00
4
77
278
1030
1 5
-0.10
75
9.40
4
77
278
1 030
75
1 .40
5
0.
5
77
278
1025
5
0.10
15
0.
5
77
278
1025
15
0.10
30
0.10
5
77
278
1025
30
0.50
75
4.40
5
77
278
1025
75
3.90
5
0.20
6
77
278
955
5
-0.10
15
0.25
6
77
278
955
15
-0.10
30
0.30
6
77
278
955
75
3.25
75
1 .20
7
77
278
1010
5
-0.10
5
-0.10
7
77
278
1010
15
0.10
15
-0.10
7
77
278
1010
30
0.20
30
0. 10
7
77
278
1010
75
4. 75
75
1.10
8
77
278
1020
5
-0.10
5
-0.10
8
77
278
1020
15
0.
15
-0.10
8
77
278
1020
30
0.30
30
0.
8
77
278
1 020
75
9.30
75
0.90
9
77
278
1 000
5
-0.10
5
0.10
9
77
278
1000
15
-0.10
15
0.10
9
77
278
1000
30
0.
30
0.75
9
77
278
1C00
75
2. 30
75
1 .80
10
77
278
1 005
5
0.10
5
0. 10
10
77
278
1005
15
0.10
15
0.30
10
77
278
1005
30
0.10
30
0.80
10
77
278
1005
75
0.90
75
3.90
1
77
285
1330
5
7.90
5
-0.10
1
77
285
1330
1 5
9.00
15
0.
1
77
285
1 330
30
0.10
30
0.20
1
77
205
1330
75
0.80
75
6.40
2
77
285
1215
5
2.60
5
-0.10
2
77
200
1215
1 5
9. 20
15
0.
2
77
285
1215
30
9. 25
30
0.10
2
77
285
1215
75
9. 30
75
3.50
3
77
285
1 220
5
0.60
5
-O.iO
3
77
2G5
1 220
15
2.30
15
0.
3
77
205
1 220
30
7. 20
30
0.30
3
77
285
1220
75
4.80
75
9.30
4
77
285
1 325
5
9.00
5
0.10
4
77
285
1325
15
9. 20
15
0.10
4
77
205
1325
30
8.10
30
0, 20
4
77
285
1 325
75
2.00
75
1 . 00
5
77
285
1315
5
3.60
5
-0. 10
5
77
205
1315
15
5. 20
15
-0.10
5
77
285
1315
30
9.10
30
-0. 10
5
77
285
1315
75
5.10
75
0.90
6
77
285
1230
5
0. 75
5
0.10
6
77
285
1230
1 5
0.
15
0. 10
6
77
205
1 230
75
3.90
30
0.
7
77
205
1300
5
9.10
75
3.90
7
77
205
1300
15
9.25
5
-0.10
7
77
205
1300
30
9.00
15
-0.10
7
77
285
1300
75
4.30
30
-0.10
8
77
285
1305
5
2. 80
-------�
Tabled. (Continued)
III.
STATION TIME
8
77
285
1305
8
77
285
1305
8
77
285
1305
9
77
285
1235
9
77
285
1235
9
.77
285
1235
9
77
285
1235
10
77
285
1245
10
77
285
1245
10
77
285
1245
10
77
285
1245
1
77
290
1400
1
77
290
1400
1
77
290
1400
1
77
290
1400
2
77
290
1005
2
77
290
1005
2
77
290
1005
2
77
290
1005
3
77
290
1210
3
77
290
1210
3
77
290
1210
3
77
290
1210
4
77
290
1020
4
77
290
1020
-4
77
290
1020
4
77
290
1020
5
77
290
1 040
5
77
290
1040
5
77
290
1040
5
77
290
1040
G
77
290
1230
6
77
290
1230
G
77
290
1230
7
77
290
1335
7
77
290
1 335
7
77
290
1335
7
77
290
1335
8
77
290
1 345
8
77
290
1 345
8
77
290
1345
8
77
290
1 345
9
77
290
1 250
9
77
290
1250
9
77
290
1250
9
77
290
1 250
10
77
290
1 305
10
77
290
1305
10
77
290
1305
10
77
290
'305
1
77
298
1135
1
77
290
1135
1
77
298
1435
1
77
298
1-135
2
77
298
1340
itershed 111
DEPTH MOISTURE
CM
15
3.80
30
9. 10
75
9.30
5
0.10
15
8.25
30
0.10
75
2.00
5
0.60
15
0.30
30
8.70
75
4.00
5
8.90
15
9.00
30
9.20
75
0.80
5
9.00
15
9.10
30
9.25
75
9.40
5
8.90
15
6.75
30
9. 10
75
8.50
5
9.00
15
9. 10
30
8. 25
75
9. 10
5
8.90
15
8.90
30
9.25
75
8.40
5
3. 60
15
0.10
75
4.80
5
9.20
15
9.30
30
9.30
75
5.00
5
9. 00
15
9.20
30
9.25
75
9.30
5
0.80
1-5
9-10
30
7.70
75
2.20
5
7.90
15
5.80
30
9-10
75
9-20
5
8.80
15
9.10
30
9. 20
75
5.30
5
8.60
STATION TIME
2
77
298
1340
2
77
298
1340
2
77
298
1340
3
77
298
1350
3
77
29B
1350
3
77
298
1350
3
77
298
1350
4
77
298
1430
4
77
298
1430
4
77
298
1430
4
77
298
1430
5
77
298
1425
5
77
298
1425
5
77
298
1425
5
77
298
1425
6
77
298
1355
6
77
298
1355
6
77
298
1355
7
77
298
1415
7
77
298
1415
7
77
290
1415
7
77
298
1415
8
77
298
1420
8
77
298
1420
8
77
298
1420
8
77
298
1420.
9
77
298
1400
9
77
298
1400
9
77
298
1400
9
77
298
1 400
10
77
298
1410
10
77
298
1410
10
77
290
1410
10
77
298
1410
1
77
305
1 145
1
77
305
1 145
1
77
305
1 145
1
77
305
1 145
2
77
305
1050
2
77
305
1050
2
77
305
1050
2
77
305
1050
3
77
305
1055
3
77
305
1055
3
77
305
1055
3
77
305
1055
4
7"
305
1 140
4
77
305
1 140
4
77
305
1 140
4
77
305
1 140
77
305
1335
5
77
305
1 335
5
77
305
1335
5
77
305
1335
6
77
305
11 00
DEPTH
MOISTURE
CM
15
9.20
30
9.30
75
9.30
5
2.30
15
6.50
30
9.00
75
8.90
5
9.20
15
9. 10
30
8.20
75
9.20
5
9.20
15
9.20
30
9.20
75
8.50
5
5.50
15
1 .50
75
4.75
5
9.20
15
9. 30
30
9.30
75
7. 70
5
8.90
15
9.30
30
9.20
75
9.25
5
4.60
15
9.20
30
9.20
75
2.70
5
9.10
15
9.00
30
9.20
75
9. 30
5
9.00
15
9.20
30
9.20
75
9.30
5
9.00
15
9.25
30
9.30
75
9.40
5
8.70
15
9-10
30
9.10
75
9.20
5
9.20
15
9.10
30
8.40
75
9.20
5
9.20
15
9.20
30
9.20
75
9.00
5
7.90
*TI0N
TIME
DEPTH
MOISTUR
CM
6
77
305
1100
15
8.70
6
77
305
1100
75
6.30
7
77
305
1120
5
9.10
7
77
305
1 20
15
9.20
7
77
305
11 20
30
9.30
7
77
305
1120
75
9.25
8
77
305
1 125
5
9.10
8
77
305
1 1 25
15
9.30
8
77
305
1125
30
9.25
8
77
305
1125
75
9.30
9
77
305
1110
5
9.20
9
77
305
1110
15
9.20
9
77
305
1110
30
9.20
9
77
305
1110
75
9.25
10
77
305
1115
5
9.20
10
77
305
1115
15
9.10
10
77
305
1115
30
9.20
10
77
305
1115
75
9.30
1
77
312
1445
5
9.30
1
77
312
1445
15
9. 30
1
77
312
1445
30
9.30
1
77
312
1445
75
9.40
2
77
312
1 330
5
9.40
2
77
312
1330
1 5
9.40
2
77
312
1330
30
9.40
2
77
312
1 330
75
9.40
3
77
312
1340
5
9.30
3
77
312
1340
15
9. 30
3
77
312
1340
30
9.25
3
77
312
1340
75
9.25
4
77
312
1 440
5
9.30
4
77
312
1440
15
9. 30
.4
77
312
1440
30
8.60
4
77
312
1440
75
9.30
5
77
312
1430
5
9.25
5
77
312
14.30
15
9. 25
5
77
312
1430
30
9.25
5
77
312
1430
75
9.20
G
77
312
1350
5
9. 30
6
77
312
1350
15
9.40
6
77
312
1 350
75
7.60
7
77
312
1415
5
9.30
7
77
312
1415
15
9.40
7
77
312
1415
30
9.40
7'
77
312
1415
75
9.40
0
77
312
1420
5
9.30
8
77
312
1420
1 5
9.40
8
77
312
1420
30
9.30
8
77
312
1420
75
9.30
9
77
312
1355
5
9.30
9
77
312
1355
15
9.40
9
77
312
1355
30
9.30
9
77
312
1355
75
9.40
10
77
312
1405
5
9. 30
10
77
312
1405
1 5
9.20
-------�
Table 3"B. (Continued)
III. Watershed
STATION TIME DEPTH
CM
10
77
312
1405
30
10
77
312
1405
75
1
77
320
1310
5
1
77
320
1310
15
1
77
320
1310
30
1
77
320
1310
75
2
77
320
940
5
2
77
320
940
15
2
77
320
940
30
2
77
320
940
75
3
77
320
1010
5
3
77
320
1010
15
3
77
320
1010
30
3
77
320-
1010
75
4
77
320
1210
5
4
77
320
1210
15
4
77
320
1210
30
4
77
320
1210
75
5
77
320
1 150
5
5
77
320
1 1 50
15
5
77
320
1 1 50
30
5
77
320
1 1 50
75
6
77
320
1035
5
6
77
320
1035
15
6
77
320
1035
75
7
77
-320
1 1 25
5
7
77
320
1 1 25
15
7
77
320v
1 1 25
30
7
77
320
1 1 25
75
8
77
320
1 320
5
0
77
320
1320
15
8
77
320
1320
30
8
77
320
1 320
75
9
77
320
1055
5
9
77
320
1055
15
9
77
320
1 055
30
9
77
320
1055
75
10
77
320
1 1 00
2
10
77
320
1 1 00
15
10
77
320
1 1 00
30
10
77
320
1 1 00
75
1
77
332
1525
5
1
77
332
1 525
15
1
77
332
1525
30
1
77
332
1525
75
2
77
332
14 10
5
2
77
332
14 10
15
2
77
332
14 10
30
2
77
332
1410
75
3
77
332
1415
5
3
77
332
14 15
15
3
77
332
1415
30
3
77
332
1415
75
4
77
332
1520
5
4
77
332
1520
15
111
MOISTURE STATION TIME
9.25
4.
77
332
1520
9.40
4
77
332
1520
9.00
5
77
332
1510
9.00
5
77
332
1510
9.10
5
77
332
1510
9.25
5
77
332
1510
9.00
6
77
332
1430
9. 20
6
77
332
1430
9.25
6
77
332
1430
9.25
7
77
332
1455
8.90
7
77
332
1 455
9.20
7
77
332
1455
9.20
7
77
332
1455
9.20
8
77
332
1 500
8.90
8
77
332
1500
9. tO
8
77
332
1500
8.25
8
77
332
1500
9.20
9
77
332
1440
8.90
9
77
332
1440
9.00
9
77
332
1440
9.00
9
77
332
1440
9.00
10
77
332
1450
9.10
10
77
332
1450
9.10
10
77
332
1450
8.70
10
77
332
1 450
9. 10
3
77
340
1435
9. 20
3
77
. 340
1'135
9.20
3
77
340
1435
9. 25
3
77
340
1 435
9. 20
4
77
340
1455
9. 20
4
77
340
1455
9.20
4
77
340
1 455
9 . 25
4
77
340
1455
9.50
5
77
340
1445
9.10
5
77
340
1445
9 . 20
5
77
340
1445
9.30
5
77
340
1445
9.20
6
77
340
1430
9.10
6
77
340
1430
9.10
6
77
340
1 430
9.30
7
77
340
1350
8.80
7
77
340
1350
8.90
7
77
340
1350
8.90
7
77
340
1350
9.20
8
77
340
1450
9.10
8
77
340
1450
9.10.
8
77
340
14 50
9.10
a
77
340
14 50
9.20
9
77
340
1420
9-00
9
77
340
1420
8.90
9
77
340
1420
9.00
9
77
340
1420
3.10
10
77
340
1400
8.90
10
77.
340
1 400
8.90
10
77
340
1400
DEPTH
VOISTUBE
STATION
TIME
DEPTH
MOISTUR
CM.
CM
30
8. 10
10
77
340
400
75
9.20
75
9.20
1
77
346
340
5
-0.10
5
8.90
1
77
34S
340
15
0.10
15
8.90
1'
77
345
340
30
8.80
30
8.90
1
77
346
340
75
9.10
75
9. 10
2
77
346
330
5
1 .40
5
9. 00
2
77
346
330
1 5
8.80
15
8.90
2
77
346
330
30
8.90
75
9.10
2
77
346
330
75
9.10
5
8.90
10
77
346
440
5
8.80
15
9.00
10
77
346
440
1 5
8.80
30
9. 10
10
77
346
440
30
8.90
75
9.20
10
77
346
440
75
9. 20
5
9.00
1
77
349
510
5
0.80
15
9. 10
1
77
349
510
1 5
8.80
30
9.10
1
77
349
510
30
8.80
75
9.20
1
77
349
510
75
8.90
5
9.00
2
77
349
610
5
9.10
15
9.10
2
77
349
610
1-5
9.20
30
9.00
2
77
349
610
30
9.10
75
9.20
2
77
349
610
75
9.10
5
8.90
3
77
349
600
5
9.00
15
8.90
3
77
349
600
1 5
8.90
30
9. 00
3
77
349
600
30
8.90
75
9.25
3
77
349
600
75
8.90
5
9. 20
4
77
349
515
5
8.80
15
9. 10
4
77
349
515
1 5
0 . 80
30
9.10
4
77
349
515
30
7 .90
75
9.00
.4
77
349
515
75
8.90
5
8.90
5
77
349
525
5
9.00
15
9. 00
5
77
349
525
1 5
Q .90
30
8. 20
5
77
349
525
30
8.80
75
9.10
.5
77
349
525
75
8.90
5
9.00
6
77
349
555
5
9.10
15
8. 90
6
77
349
555
1 5
9.10
30
9. 00
6
77
349
555
75
8 . 90
75
9.10
7
77
349
535
5
D .90
5
8.90
7
77
349
535
1 5
9.00
15
9. 10
7
77
349
535
30
9 . 00
75
9.20
7
77
34l)
535
75
9.00
5
9. 00
8
77
349
530
5
9.10
15
9.00
8
77-
349
530
1 5
9.20
30
9.10
8
77
349
530
30
9.00
75
9.20
0
77
349
530
75
9.10
5
9. 10
9
77
349
550
5
9.10
15
9.10
9
77
349
550
15
9.10
30
8. 90
9
77
349
550
30
9.00
75
9.20
9
77
349
550
75
9.10
5
9.00
10
77
349
545
5
9.00
15
9.20
10
77
349
545
15
9.00
30
9.00
10
77
349
545
30
9.00
75
9-. 20
10
77
349
545
75
9. 20
5
8.90
1
77
355
525
5
8.80
15
8.90
1
77
355
525
15
8.90
30
9.00
1
77
355
525
30
8.90
-------�
Table 3B. (Continued)
III. Watershed 111
STATION
TIME
DEPTH
MOIST
CM
1
77
355
1525
75
9.00
2
77
355
1425
5
9. 10
2
77
355
1425
15
9. 10
2
77
355
1425
30
9. 10
2
77
355
1425
75
9. 10
3
77
355
1430
5
9.00
3
77
355
1430
1 5
8.90
3
77
355
1 430
30
8.90
3
77
355
14 30
75
8.90
4
77
355
1520
5
8.90
4
77
355
1520
15
8.90
4
77
355
1520
30
8. 10
4
77
355
1520
75
8.90
5
77
355
1 5 1 5
5
9.00
5
77
355
1515
15
8.90
5
77
355
1515
30
8.80
5
77
355
1515
75
8.90
6
77
355
I 435
5
8.90
S
77
355
1 435
15
9.00
S
77
355
1435
75
9.10
7
77
355
1 505
15
8.90
7
77
355
1505
30
9.00
7
77
355
15C5
75
9.10
8
77
355
1510
5
9.00
B
77
355
1510
15
9.10
8
77
355
1510
30
9.00
8
77
355
1510
75
9.10
9
77
355
1440
5
8.90
9
77
355
1440
15
9.00
9
77
355
1440
30
8.90
9
77
355
1440
75
9.10
10
77
355
1450
5
9.00
10
77
355
14 50
1 5
8.90
10
77
355
1450
30
8.90
10
77
355
1 450
75
9.10
1
77
364
1405
5
0.10
1
77
3C-1
1 405
15
0.10
1
77
364
1405
30
8.70
1
77
3G4
1405
75
8. 90
2
77
364
1 030
5
0.25
2
77
364
1030
15
8.80
2
77
3G4
1 030
30
8. 90
2
77
364
1030
75
9.00
3
77
354
1 035
5
0.
3
77
354
1035
15
8.60
3
77
364
1035
30
8. 70
3
'77
364
1035
75
8. 90
4
77
364
1115
5
0.10
4
77
364
1115
15
6.20
4
77
364
1115
30
8.00
4
77
364
1115
75
9.00
5
77
364
1110
5
0. 10
5
77
364
1110
15
8. 70
5
77
364
1110
30
8.60
5
77
364
1110
75
8.80
STATION time
6
77
364
1045
6
77
364
1045
6
77
364
1045
7
77
364
1 100
7
77
364
1 1*00
7
77
364
1 100
7
77
364
1 1 00
8
77
364
1 340
8
77
364
1 340
8
77
364
1 340
8
77
364
1 340
9
77
364
1310
9
77
364
1310
9
77
364
1310
9
77
364
1310
10
77
364
1055
10
77
364
1055
10
77
364
1055
10
77
364
1 055
1
78
6"
1045
1
78
6
1045
1
78
6
1045
2
78
6
1 150
2
78
6
1 1 50
2
78
6
1 150
2
78
6
1 150
3
78
6
1 1 30
3
78
6
1 1 30
3
78
6
1 1 30
3
78
C
1 1 30
4
78
6
1 1 45
4
78
6
1 145
4
78
6
1 1 45
4
78
6
1 145
5
78
6
1 140
5
78
6
1 1 40
5
78
6
1 1 40
5
78
6
1 1 40
6
78
6
1 1 25
6
78
6
1 1 25
6
78
6
1 1 25
7
78
6
1115
7
78
6
1115
7
78
6
1115
7
78
6
1115
8
78
6
1055
8
78
S
1055
8
78
6
1055
8
78
6
1055
9
78
6
1 1 00
9
78
6
1 1 op
9
78
6
1 1 00
9
78
6
1 1 00
10
78
6
1110
10
78
5
1110
DEPTH
WO 1ST
CM.
5
0.10
15
8. 70
75
9.00
5
0. 50
15
8. 80
30
8.90
75
9.00
5
0.40
15
8.80
30
8.90
75
9.00
5
0.70
15
8.70
30
8.80
75
9. 10
5
8. GO
15
8. 70
30
8.80
75
9.00
5
0. 1 0
15
0.10
75
8.80
5
8.20
15
8.80
30
8.80
75
8.90
15
8.60
30
8. 80
30
8. 70
75
8.80
5
0.10
15
1 .70
30
8.00
75
8.80
5
1 .40
15
8.70
30
8.70
75
8.80
5
4.50
15
8.70
75
8.90
5
3.90
15
8.80
30
8.80
75
8.90
5
5.20
15
8.70
30
3.80
75
8.90
5
6-20
15
8.80
30
8.70
75
8.90
5
8.80
15
8.70
STATION TIME
1 0
10
1
1
1
1
2
2
2
2
3
3
3
3
4
4
A
4
5
5
5
5
6
6
6
7
7
7
7
8
0
0
8
9
9
9
9
10
10
10
10
7
7
7
7
8
8
8
8
9
9
9
9
4
A
78
78
78
78
78
78
78
78
78
78
78
78
78
. 78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
78
6 1110
6 1110
16 1055
16 1055
16 1055
16 1055
16 1015
16 1015
16 1015
16 1015
16 1340
16 1340
16 1340
16 1340
16 1520
16 1520
16 1520
16 1520
16 1450
16 1450
16 1450
16 1450
16 1420
16 1420
16 1420
16 1540
16 1540
16 1540
16 1540
16 1530
16 1530
16 1530
16 1530
16 1550
16 1550
16 1550
16 1550
Ļ16 1545
16 1545
16 1545
16 1545
17 950
17
17
17
1 7
17
17
17
950
950
950
920
920
920
920
17 1030
17 1030
17 1030
17 .1030
18 1025
10 1025
DEPTH
CM
30
75
5
1 5
30
75
5
1 5
30
75
5
1 5
30
75
5
15
30
75
5
15
30
75
5
15
75
5
15
30
75
5
15
30
75
5
15
30
75
5
15
3.0
75
5
1 5
30
75
5
15
30
75
5
15
30
75
5
15
8.80
9.00
-0.10
-0.10
8.70
8.80
0.10
8.80
8.90
8.90
, 10
.90
8.80
8.80
10
10
90
90
-0
0
7
8
0.
8.60
8.70
8. 80
10
70
8.90
6.80
8.80
3. 30
8.90
0 . 40
8.30
8.80
8.90
1 .60
8.80
8.70
8.90
8.80
8.70
8.80
9.00
6.30
8.80
8.90
8.80
0.25
8.80
8 . 30
8.90
1 .50
8.80
8. 70
8.90
0. 30
0.80
-------�
Table 3B. (Continued)
III. Watershed 111
TI ON
TIME
depth
MOISTURE
STATION
TIME
CM
4
78
18
1025
30
8.00
8
78
32
505
4
78
18
1025
75
8.90
8
78
32
505
1 0
78
18
945
5
8. 70
9
78
32
525
1 0
78
18
945
15
8.60
9
78
32
525
1 0
78
18
945
30
8.80
9
78
32
525
1 0
78
18
945
75
8.90
9
78
32
525
2
78
26
1 030
5
8.00
10
78
32
520
2
78
26
1030
1 5
8.80
10
78
32
520
2
78
26
1030
30
8.80
10
78
32
520
2
78
26
1030
75
8.80
10
78
32
520
1
78
27
1410
5
0.10
3
78
39
450
1
78
27
1410
15
0.
3
78
39
450
1
78
27
1410
30
0.40
3
78
39
450
1
78
27
'1410
75
8.80
3
78
39
450
5
78
27
1520
5
0.10
6
78
39
500
5
78
27
1520
15
8.70
6
78
39
500
5
78
27
1520
30
8.80
6
78
39
500
5
78
27
1520
75
8.90
10
78
39
510
7
78
27
1515
5
1 .30
10
78
39
510
7
78
27
1515
15
8.80
10
78
39
510
7
78
27
1515
30
8.80
10
78
39
510
7
78
27
1515
75
8.80
1
78
48
410
1 0
78
27
1500
5
8.80
1
78
48
410
1 0
78
27
1500
15
8.70
1
78
48
410
10
78
27
1500
30
8.70
1
78
48
410
10
78
- 27
1 50C
75
8.90
2
78
48
415
1
78
32
1 555
5
-0.10
2
78
48
415
1
78
32
1555
15
-0.10
2
78
48
415
. 1
78
32
1555
30
-0.10
2
78
48
4 1 5
1
78
32
1555
75
8.80
3
78
48
420
2
78
32
1545
5
0. 20
3
7e
48
420
2
78
32
1545
15
0.10
3
78
48
420
2
78
32
1545
30
8.80
3
78
48
420
2
78
32
1545
75
3.90
5
78
48
4 40
3
78
32
1 540
5
0.10
5
78
48
440
3
78
32
1 540
15
0.10
5
78
48
440
3
78
32
1540
30
6.30
5
78
48
440
3
78
32
1540
75
8.80
6
78
48
425
4
78
32
1445
5
-0.10
6
78
48
425
4
78
32
1445
15
-0.10
-6
78
48
425
4
78
32
1445
30
0.10
10
78
48
430
4
78
32
1445
75
8.80
10
78
48
430
5
78
32
1455
5
-0.10
10
78
48
430
5
78
32
1455
1 5
-0.10
10
78
48
430
5
78
32
1455
30
8.40
1
78
55
440
5
78
32
1455
75
8. 70
1
78
55
440
6
78
32
1530
5
0.20
1
78
55
440
6
78
32
1530
15
0.10
1
78
55
440
6
78
32
1530
75
8.90
2
78
55
325
7
78
32
1510
5
0.10
2
78
55
325
7
78
32
1510
15
8.80
2
78
55
325
7
78
32
1510
30
8.80
2
78
55
325
7
78
32
1510
75
8.90
3
78
55
335
8
78
32
1505
5
0.20
3
78
55
335
8
78
32
1505
15
0.20
3
78
55
335
DEPTH
MOISTURE
STATION
TIME
DEPTH
MOIST
CM
CM
30
8. 80
3
78
55 1335
75
8. 70
75
8.80
5
78
55 1430
5
0.
5
0.30
5
78
55 1430
15
0.10
15
8.10
5
78
55 1430
30
4. 75
30
8.80
5
78
55 1430
75
8.70
75
8.90
6
78
55 1345
5
0.10
5
0.80
6
78
55 1345
15
0.10
15
8.60
6
78
55 1345
75
8.80
30
8.70
8
78
55 1425
5
0. 20
75
8.80
8
78
55 1425
15
8. 70
5
0.10
8
78
55 1455"
30
8. 80
15
0.10
8
78
55 1425
75
8.80
30
0.10
9
78
55 1355
5
0. 25
75
8.70
9
78
55 1355
1 5
8. 80
5
0.10
9
78
55 1355
30
8.80
15
0.10
9
78
55 1355
75
8.80
75
8.80
10
78
55 1410
5
1 . 70
5
0.30
10
78
55 1410
15
8.60
15
8.50
10
78
55 1410
30
8. 70
30
8.60
10
78
55 1410
75
8.80
75
8.80
1
78
61 1135
5
-0.10
5
0.10
1
78
61 1135
15
-0.10
15
0.
1
78
61 1135
30
0.
30
0.10
1
78
61 1135
75
8.70
75
8.70
2
78
61 1040
5
8.70
5
0 . 40
2
78
61 1040
1 5
8.80
15
2.90
2
78
61 1040
30
8.80
30
8.80
2
78
61 1040
75
8.80
75
8.80
3
78
61 1045
5
0.10
5
0.10
3
78
G1 1045
1 5
0.10
15
0.10
3
78
61 1045
30
1 .30
30
0.10
3
78
61 1045
75
8.70
75
8.70
.5
78
61 1125
5
0.10
. 5
0.10
5
78
61 1125
1 5
2.00
15
0.10
5
78
61 1125
30
8.60
30
2. 00
5
78
61 1 1 2f>
75
8.70
75
8.70
6
78
61 1050
5
0.40
5
0.10
6
78
61 1050
1 5
2 . 60
15
0.10
6
78
61 1050
75
8.80
75
8. 80
7
78
61 1110
5
0.10
5
0.40
7
78
61 1110
1 5
8.80
15
6.80
7
78
61 1110
30
8.80
30
8.60
7
78
61 1110
75
8.80
75
8.80
8
78
61 1120
5
0.20
5
0.
8
78
61 1120
1 5
8 . 80
15
-0.10
8
78
61 1120
30
8 . 80
30
-0.10
8
78
61 1120
75
8.80
75
8. 70
9
78
61 1100
5
5.80
5
0.25
9
78
61 1100
15
8.80
15
8.80
9
78
61 1100
30
0.80
30
8.80
9
78
61 1100
75
8. 90
75
8.80
10
78
61 1105
5
8. 70
5
0.10
10
78
61 1105
15
8.60
15
0.
10
78
61 1105
30
8. 70
30
0.10
10
78
61 1105
75
8.80
-------�
TabTe 3B. (Continued)
III. Watershed 111
TI ON
TIME
DEPTH
MOISU
CM
2
78
66
1500
5
8.70
2
78
66
1500
15
8.80
2
78
66
1 500
30
8.80
2
78
G6
1 500
75
8.80
3
78
66
1 505
5
0.10
3
78
66
1505
15
0.10
3
78
66
1505
30
0. 60
3
78
66
1505
75
8.70
6
78
66
1515
5
0.20
6
78
66
1515
15
0.25
6
78
66
1515
75
8.80
9
78
66
1 520
5
1 . 30
9
78
66
1520
15
8.80
9
78
66 '
1520
30
8. 70
9
78
66
1520
75
8.90
10
78
66
1525
5
8.70
10
78
66
1525
15
8.60
10
78
66
1525
30
8.60
10
78
66
1525
75
8.80
1
78
74
1535
5
9.10
1
78
74
1535
15
8.90
1
78
74
1535
30
6.10
1
78
74
1535
75
8.70
2
78
74
1430
5
9.20
2
78
74
1430
15
9. 20
2
78
"-74
1430
30
9. 00
2
78
74
1430
75
8.90
3
78
74
1440
5
9.20
3
78
74
1 440
15
8.90
3
78
74
1440
30
8.20
3
78
74
1440
75
8. 70
4
70
74
1530
5
8.00
4
78
74
1 530
15
t . SO
4
78
74
1 530
30
4.90
4
70
74
1 030
75
8.80
5
78
74
1445
5
9.10
5
78
74
1 445
15
8.80
5
78
74
1 445
30
8.60
5
78
74
1445
75
8.70
C
78
74
1 505
5
9 . 20
G
78
74
1505
15
8.90
6
70
74
1505
75
8.70
7
70
74
1510
5
8.90
7
78
74
1 51 0
15
8.00
7
78
7-1
1510
30
8. 00
7
78
74
1510
75
8.80
8
78
74
1455
5
9.30
3
78
74
1455
15
9.10
8
78
74
1455
30
8.80
8
78
74
1455
75
8.80
9
73
74
1520
5
9.20
9
78
74
1520
15
9.20
9
78
74
1520
30
8.90
9
78
74
1520
75
8.90
10
73
74
1505
5
9.20
STATION TIME
10
78
74
1505
10
78
74
1505
10
78
74
1505
1
78
83
1355
1
78
83
1355
1
78
83
1355
1
78
83
1355
2
78
83
1400
2
78
83
1400
2
78
83
1 400
2
78
83
1400
3
78
83
1405
3
78
83
1 405
3
78
83
1405
3
78
83
1405
A
78
83
1 335
A
78
83
1335
A
78
83
1335
A
78
83
1335
5
78
83
1345
5
78
83
1345
5
78
83
1345
5
78
83
1345
6
78
83
1410
6
78
83
1410
6
78
83
1410
7
78
83
1425
7
78
83
1425
7
78
83
1425
7
78
83
1425
8
78
83
1435
0
78
03
1435
8
78
03
1 435
a
78
03
1 435
9
70
83
1415
9
78
83
1415
9
78
83
1415
9
78
83
1415
10
78
83
1 420
10
78
83
1420
10
78
03
1 420
10
78
83
1420
7
70
09
1 130
7
70
.89
1 130
7
78
89
1 1 30
7
78
89
1 1 30
8
78
89
1405
8
78
89
1^05
8
78
89
1405
8
78
89
1405
9
73
89
1440
9
78
89
144 0
9
78
89
* 44 0
9
78
89
1 440
10
78
39
1 530
DEPTH
MOIST
CM
15
8.80
30
8.80
75
8.80
5
9. 10
15
9.00
30
8.90
75
8.80
5.
9.00
15
9.10
30
9.10
75
8.90
5
9. 20
15
9.20
30
9.00
75
8.80
5
9.10
15
8.90
30
8.40
75
8.80
5
9.10
15
9. 10
30
9.00
75
8.90
5
9.20
15
9.20
75
8.90
5
9. 10
15
9. 10
30
9.10
75
9.00
5
9.30
15
9.20
30
9. 20
75
9.10
5
9. 20
15
9.20
30
9.10
75
9. 10
5
9.20
15
8.90
30
8.90
75
9. 00
5
9.2C
15
9. 20
30
9.20
75
9. 10
5
9.30
15
9.20
30
9.10
75
9.00
5
9.30
15
9.25
30
9.10
75
9.10
5
9.20
STATION TIME
10
78
89
1530
10
78
89
1530
10
78
89
1530
1
78
90
-9
1
78
90
-9
1
78
90
-9
1
78
90
-9
2
78
90
-9
2
78
90
-9
2
78
90
-9
2
78
90
-9
3
78
90
1 100
3
78
90
1 1 00
3
78
90
1 100
3
78
90
1 100
5
78
90
-9
5
78
90
-9
5
78
90
-9
5
78'
90
-9
6
78
90
1000
6
78
90
1000
6
78
90
1000
1
78
95
1350
1
78
95
1350
1
78
95
1350
1
78
95
1350
2
78
95
1525
2
78
95
1525
2
78
95
1 525
2
78
95
1525
3
78
95
1520
3
78
95
1520
3
70
95
1520
3
78
95
1520
4
78
95
14 10
4
78
95
14.10
A
78
95
1410
A
78
95
1410
5
78
95
1420
5
78
95
1420
5
78
95
1420
5
78
95
14 20
6
78
95
1515
6
78
9b
1515
6
78
95
1515
7
78
95
1435
7
78
95
1435
7
78
95
1435
7
78
95
1435
8
78
95
1425
8
78
95
1425
8
78
95
1425
8
76
95
.1425
9
78
95
1445
9
78
95
1445
DEPTH
MOISTUI
CM
1 5
9.00
30
9.00
75
9.00
5
9.20
15
9.10
30
9.00
75
9.00
5
9.-20
1 5
9. 00
30
9. 00
75
9.00
5
9.20
15
9.10
30
9.00
75
8. 90
5
9. 20
15
9.10
30 '
9.00
75
9.00
5
9.00
15
9.00
75
9.10
5
9.00
15
9.10
30
9.00
75
9.00
5
8.30
15
9.30
30
9.20
75
9.10
5
9.00
15
9 .20
30
9.10
7 5
9.00
5
9-30
15
9.10
30
8.70
75
9.10
5
9.20
15
9.20
30
9.10
75
9.10
5
9.20
15
9.30
75
9.10
5
9.30
1 5
9.30
30
9.20
75
9.20
5
9.40
15
9.30
30
9.20
75
9.10
5
9 . 30
15
9.30
-------�
Table 3B. (Continued)
III. Watershed 111
STATION
TIME
DEPTH
MOISTURE
STATION TIME
CM
9
78
95
445
30
9. 20
3
78 108 1415
9
78
95
445
75
9. 20
3
78 108 1415
10
78
95
455
5
9.3Q
4
78 108 1500
10
78
95
455
15
9.00
4
78 108 1500
10
78
95
455
30
9.00
4
78 108 1500
10
78
95
455
75
9.10
4
78 10B 1500
1
78
1 02
535
5
5.80
5
78 108 1445
1
78
102
535
15
9. 20
5
78 108 1445
1
78
1 02
535
30
9. 20
5
78 103 1445
1
78
1 02
535
75
9. 20
5
78 108 1445
2
78
1 02
525
5
0.60
6
78 108 1430
2
78
102
525
15
9.20
6
78 108 1430
2
78
102
525
30
9. 20
6
78 108 1430
2
78
1 02 Ļ
525
75
9. 20
7
78 108 1545
3
78
1 02
605
5
1.10
7
78 108 1545
3
78
1 02
605
1 5
9.10
7
78 108 1545
3
78
102
605
30
9. 10
7
78 108 1545
3
78
1 02
605
75
9.10
8
78 108 1515
4
78
102
615
5
9.20
8
78 108 1515
4
78
102
615
15
9.20
8
78 108 1515
4
78
102
615
30
8. 70
8
78 108 1515
4
78
102
615
75
9. 10
9
78 108 1530
5
78
1 02
610
5
6.60
9
78 108 1530
5
78
102
610
15
9. 20
9
78 108 1530
5
78
1 02
610
30
9.10
9
78 100 1530
5
78
-102
610
75
9.10
10
78 108 1600
6
78
1 02
600
5
8. 60
10
78 100 1600
6
78
102
600
15
9.30
10
78 108 1C00
6
78
1 02
600
75
9.10
iO
78 108 1600
7
78
1 02
545
5
9. 30
1
78 122 1400
7
78
1 02
545
15
9.30
1
78 122 1400
7
78
102
545
30
9.20
4
78 122 1400
7
78
1 02
545
75
9.10
1
78 122 1400
8
78
102
540
5
8. 70
2
78 122 1500
8
78
1 02
540
1 5
9.30
2
78 122 1500
8
78
1 02
540
30
9. 20
2
78 122 1500
8
78
102
540
75
9. 20
2
78 122 1500
9
78
1 02
555
5
9.30
4
78 122 900
9
78
102
555
15
9. 30
4
78 122 900
9
78
102
555
30
9.20
4
78 122 900
9
78
1 02
555
75
9. 20
4
78 122 900
10
78
102
550
5
9. 30
5
78 122 1300
10
78
1 02
550
1 5
9. 10
5
78 122 1300
10
78
1 02
550
30
9. 00
5
78 122 1300
10
78
1 02
550
75
9.10
5
78 122 1300
1
78
1 08
345
5
0.30
6
78 122 1100
1
78
108
345
15
8. 70
6
78 122 1100
1
78
108
345
30
9. 10
6
78 122 1100
1
78
1 08
345
75
9.10
3
78 123 900
2
78
1 08
400
5
0.10
3
78 123 900
2
78
1 08
400
15
7.70
3
78 123 900
2
78
1 08
4 00
30
9. 20
3
73 123 900
2
78
108
400
75
9.20
7
78 123 1400
3
78
108
415
5
0.10
7
78 123 1400
3
78
108
415
15
8.30
7
78 123 1400
DEPTH
MOISTURE
STATION
TIME
DEPTH
MOISTURE
CM
CM
30
9.00
7
78 123 1400
75
9.30
75
9.10
8
78 123 1330
5
0 . 70
5
7.90
8
78 123 1330
15
9. 30
15
9. 10
8
78 123 1330
30
9.20
30
8.80
8
78 123 1330
75
9. 20
75
9.10
9
78 123 1000
5
9. 00
5
0.20
9
78 123 1000
15
9.30
15
9. U>
9
78 123 1000
30
9.20
30
9. 10
9
78 123 1000
75
9.30
75
9.00
10
78 123 1440
5
9.20
5
3.80
10
78 123 1440
15
9.10
15
9. 10
10
78 123 1440
30
9.10
75
9.20
10
78 123 1440
75
9.20
5
9.10
1
78 129 1345
5
9.40
15
9.25
1
78 129 1345
15
9.30
30
9.20
1
78 129 1345
30
9 .20
75
9.20
1
78 129 1345
75
9.20
5
0.30
2
78 129 1510
5
9.30
15
9.20
2
78 129 1510
15
9.20
30
9.20
2
78 129 1510
30
9.20
75
9.20
2
78 129 1510
75
9.20
5
8.00
3
78 129 1505
5
9.40
15
9.30
3
78 129 1505
15
9 . 20
30
9.20
3
78 129 1505
30
9.20
75
9.30
3
78 129 1505
75
9.10
5
8.80
4
78 129 1355
5
9.40
15
8.90
4
78 129' 1355
15
9.30
30
8.90
4
78 129 1355
30
8 . 80
75
9.10
4
78 129 1355
75
9. 20
5
4.40
5
78 129 1400
5
9.40
15
8.90
5
78 129 '400
15
9.30
30
9.10
5
78 129 1400
30
9.20
75
9. 10
5
78 129 1400
75
9.10
5
0.30
6
78 129 1440
5
9.40
15
2.20
6
78 129 1440
15
9.40
30
9.20
6
78 129 1440
75
9-20
75
9.20
7
78 129 1415
5
9.40
5
8.70
7
78 129 1415
1 5
9.30
15
9.10
7
78 129 1415
30
9.30
30
8.70
7
78 129 1415
75
9.20
75
9.20
8
78 129 1410
5
9.40
5
7.40
8
78 129 1410
1 5
9.40
15
9. 10
8
78 129 1410
30
9.25
30
9.10
8
78 129 1410
75
9 .20
75
9. 20
9
78 129 1435
5
9.40
5
7. 30
9
78 129 1435
1 5
9.40
15
9.10
9
78 129 1435
30
9-25
75
9.20
9
78 129 1435
75
9. 25
5
0.20
10
78 129 1425
5
9.40
15
4.80
10
78 129 1425
15
9.20
30
8. 90
10
78 129 1425
30
9.10
75
9. 10
10
78 129 1425
75
9.10
5
9.20
1
78 139 1420
5
9.30
15
9.30
1
78 139 1420
15
9.30
30
9.30
1
78 139 1420
30
9.30
-------�
Table^lB. (Continued)
III. Watershed 111
ĻTTOV
TTI7IE
DEPTH
MOISTURE
CM
1
78
139
1420
75
9.30
2
78
139
1305
5
9.40
2
78
139
1305
15
9.40
2
78
139
1305
30
9.40
2
78
139
1305
75
9.30
3
78
139
1410
5
9.40
3
78
139
1410
15
9.30
3
78
1 39
1410
30
9.30
3
78
1 39
1410
75
9.20
4
78
139
1 320
5
9.30
4
78
139
1 320
15
9.30
4
78
139
1320
30
8.90
4
78
139
1320
75
9.30
6
78
1 39
1405
5
9.50
6
78
1 39
1405
15
9.40
6
78
139
1405
75
9.30
7
78
139
1340
5
9.40
7
78
1 39
1340
15
9.40
7
78
1 39
1340
30
9.40
7
78
1 39
1340
75
9.30
B
78
1 39
1335
5
9.50
8
78
1 39
1335
15
9.50
8
78
139
1335
30
9.30
8
78
1 39
1335
75
9.20
9
7B
139
1355
5
9.40
9
78
1 39
1355
15
9.40
9
78
139
1355
30
9.30
9
78
1 39
1355
75
9.30
-------�
Table 3C. Data from moisture retention calibration studies.
I. Gypsum block calibration data
Tension Probe readings
(bars) 1 2 3 4 5 6 7
saturation 9.4 9.4 9.5 9.4 9.4 9.4 9,4
(22.1° C)
saturation 9.3 9.2 9.3 9.3 9.2 9.2 9.2
(20.5° C)
1/10 bar 9.4 9.4 9.5 9.4 9.4 9.4 9.4
(21.6° C)
1/3 bar 9.3 9.3 9.4 9.3 9.1 9.3 9.2
(21.3° C)
2/3 bar 6.7 6.9 7.3 7.1 6.1 6.7 7.1
(21.6° C)
1 bar 3.6 3.3 3.9 6.5 3.3 3.6 4.9
(20.4° C)
3 bar 0.4 0.4 0.4 0.3 0.3 0.5 0.4
(~ 18.5° C)
15 bar 0.2 0.4 0.5 0.3 0.5 0.4 0.6
(22.0 C)
8 9 10 1J 1_2 Mean ą scj
9.4 9.4 9.5 9.4 9.4 9.4 ą 0.039
9.2 9.2 9.3 9.2 9.2 9.2 ą 0.040
9.4 9.4 9.5 9.4 9.4 9.4 ą 0.039
9.3 9.2 9.4 9.3 9.3 9.3 ą 0.80
6.8 6.7 7.1 6.8 7.2 6.9 ą 0.32
4.1 3.8 4.0 3.6 3.4 4.0 ą 0.90
0.3 0.4 0.4 0.4 0.4 0.4 ą 0.06
0.5 0.4 0.5 0.5 0.5 0.4 ą 0.10
-------�
Table 3C. (Continued)
II. Effect of temperature on gypsum block moisture probe readings at water saturation.
Temperature
(°C)
4
5
6
7
Probe readings
8 9
10
11
12
Mean
ą sd
0.0
8.5
8.5
8.4
8.7
8.5
8.5
8.5
8.5
8.4
8.5 ą
0.087
3.7
8.9
8.9
8.8
9.0
8.9
8.9
8.8
8.9
8.8
8.9 ą
0.067
4.2
8.9
8.9
8.8
9.1
8.9
8.9
8.9
8.9
8.9
8.9 ą
0.078
4.7
8.9
8.9
8.9
9.1
8.9
8.9
8.9
8.9
8.9
8.9 ą
0.067
8.4
9.1
9.1
9.1
9.2
9.1
9.1
9.1
9.1
9.1
9.1 ą
0.033
12.6
9.1
9.1
9.1
9.2
9.1
9.1
9.1
9.1
9.0
9.1 ą
0.050
20.1
9.2
9.2
9.2
9.4
9.3
9.2
9.2
9.2
9.2
9.2 ą
0.071
21.5
9.4
9.4
9.4
9.5
9.4
9.4
9.4
9.4
9.4
1+
0.033
22.3
9.3
9.3
9.3
9.3
9.3
9.25
9.3
9.3
9.3
9.3 ą
0.016
24.1
9.3
9.3
9.3
9.4
9.4
9.3
9.3
9.3
9.3
9.3 ą
0.044
26.5
9.5
9.5
9.5
9.6
9.5
9.5
9.5
9.5
9.5
9.5 ą
0.033
28.7
9.5
9.5
9.5
9.6
9.5
9.6
9.5
9.5
9.5
9.5 ą
0.044
35.4
9.6
9.6
9.6
9.7
9.6
9.6
9.6
9.6
9.6
9.6 ą
0.033
39.9
9.6
9.6
9.6
9.7
9.6
9.6
9.6
9.6
9.6
9.6 ą
0.033
50.3
9.7
9.7
9.7
9.8
9.7
9.7
9.7
9.7
9.7
9.7 ą
0.033
53.7
9.7
9.7
9.7
9.8
9.7
9.7
9.7
9.7
9.7
9.7 ą
0.033
-------�
"Table 3C. (Continued)
III. Moisture retention data for undisturbed soil cores from watersheds 109, 110, and 111.
a. Watershed 109, moisture as mg H2O
cc soil
Station
Core segment
depth (cm)
Saturated
1/10 bar
Moisture tension (bars)
1/3 bar 1 bar
3 bars
15 bars
1
3.5
- 6.5
406
341
284
237
186
97
1
73.5
- 76.5
412
395
377
359
325
281
10
3.5
- 6.5
412
303
259
-
200
135
10
73.5
- 76.5
519
517
506
482
431
36
Mean ą a
437 ą 55
389 ą 93
357 ą 112
335 ą 112
272 ą 132
137 ą 104
b. Watershed 110, moisture as mg
H20
cc
soil
1
3.5
- 6.5
512
442
402
371
296
259
1
73.5
- 76.5
385
373
352
327
269
233
10
3.5
- 6.5
565
431
336
276
216
167
10
73.5
- 76.5
383
367
280
227
176
138
Mean ą 0
461 ą 92
403 ą 39
343 ą 50
300 ą 62
239 ą 54
199 ą 56
c. Watershed 110, moisture as mg
H2O
cc
soil
2
3.5
- 6.5
439
321
283
240
204
200
2
73.5
- 76.5
406
398
384
360
306
258
10
3.5
- 6.5
406
358
321
286
267
219
10
73.5
- 76.5
403
310
268
246
211
174
Mean ą a
414 ą 17
348 ą 40
314 ą 52
283 ą 55
247 ą 48
213 ą 35
-------�
Table 3C. (Continued)
IV. Moisture retention data for disturbed soil samples from watersheds 109, 110, and 111
*~
a. Watershed 109, moisture as % dry weight.
Station
Core segment
depth (cm)
Saturated
Moisture tension (bars)
1/10 bar 1/3 bar
15 bars
3.5 - 6.5
A
B
C
48.8
50.0
48.9
23.5
23.4
23.0
16.6
17.0
17.0
6.6
7.2
3.0
73.5 - 76.5
A
B
C
76.2
80.4
82.7
26.0
27.4
27.6
22.3
24.0
24.6
14.0
12.4
12.5
10
3.5 - 6.5
A
B
C
44.2
48.4
50.0
17.3
21.6
22.2
12.7
17.6
18.0
6.3
10.9
11.1
10
73.5 - 76.5
A
B
C
78.0
73.0
79.6
28.4
29.4
26.4
26.1
27.2
26.2
18.9
17.3
16.0
* Samples prepared by passing through a 2 mm round hole sieve.
** Samples oven dried to constant weight at 90° C.
-------�
Table 3C. (Continued)
*
IV. Moisture retention data for disturbed soil samples from watersheds 109, 110, and 111,
b. Watershed 110, moisture as % dry** weight.
Core segment Moisture tension (bars)
Station depth (cm) Saturation 1/10 bar 1/3 bar 15 bars
1 3.5 - 6.5
A 43.0 27.0 23.4 13.5
B 44.0 31.8 23.9 13.6
C 51.5 27.5 24.0 11.8
1 73.5 - 76.5
A 69.1 25.9 20.6 11.1
B 68.9 25.6 20.3 11.2
C 70.4 24.7 21.2 9.8
10 3.5 - 6.5
A 47.8 19.3 15.1 6.3
B 45.1 19.9 15.3 7.0
C 65.7 22.4 16.3 5.2
10 73.5 - 76.5
A 56.4 17.7 12.3 5.5
B 52.3 14.9 11.5 5.3
C 57.4 17.2 12.8 5.4
* Samples prepared by passing through a 2 mm round hole sieve.
** Samples oven dried to constant weight at 90° C.
-------�
Table 3C. (Continued)
IV. Moisture retention data for disturbed soil samples from watersheds 109, 110, and 111
~~
c. Watershed 111, moisture as % dry weight.
Station
Core segment
depth (cm)
Saturated
Moisture tension (bars)
1/10 bar 1/3 bar
15 bars
3.5 - 6.5
A
B
C
33.7
35.3
40.4
19.1
19.7
22.4
15.9
16.6
19.3
8.8
7.8
10.8
73.5 - 76.5
ro
o
ro
A
B
C
78.4
77.8
79.3
22.9
22.7
22.5
19.2
19.3
19.7
11.0
10.5
9.9
10
3.5 - 6.5
A
B
C
47.4
44.6
43.7
25.1
25.2
24.8
20.9
21.3
21.1
10.1
11.2
11.5
10
73.5 - 76.5
A
B
C
60.5
55.5
57.0
20.7
19.3
19.0
16.4
16.0
15.7
8.5
7.2
7.2
* Samples prepared by passing through a 2 mm round hole sieve.
** Samples oven dried to constant weight at 90° C.
-------�
laDie a 50ii temperature aata.
A. Watershed 109
WATERSHED f09
WATERSHED 109
ro
O
CO
TION
T I ME
DEPTH
TEMPER)
CM
CENT
1
77
55
1 100
5
02.6
1
77
55
1 100
15
-0.1
1
77
55
1 100
30
-0.1
1
77
55
1 100
75
00.8
2
77
55
1115
5
04.3
2
77
55
1115
15
01 .2
2
77
55
1-1 15
30
-0.2
2
77
55
1115
75
00. 1
3
77
S5
1 1 or.
5
02.9
3
77
t 1 05
15
00.2
3
77
55
1 1 05
30
-0.2
3
77
55
1 1 05
75
00.0
4
77
55
1 150
5
02.9
4
77
55
1 150
15
00.8
A
77
55
1 150
30
-0.2
A
77
55
1 150
75
01 .0
5
77
55
1200
5
02.6
5
77
55 .
1200
15
00.0
5
77
55
1200
30
-0.2
5
77
55
1200
75
00.5
6
77
55
1 125
5
03.3
6
77
55
1 1 25
15
00.7
6
77
55
1 1 25
30
-0.2
6
77
55
1 1 25
75
00.2
7
77
55
1 1 20
5
04.2
7
77
55
1 120
15
00.9
7
77
55
1 120
30
-0.1
7
77
55
1 1 20
75
01 .5
8
77
55
1 155
5
04.4
0
77
55
1 155
15
01 .3
8
77
55
1 155
30
00.4
8
77
55
1 155
75
01 .2
9
77
55
1 145
5
03.6
9
77
55
1 145
15
-0. 1
9
77
55
1145
30
-0.0
9
77
55
1 145
75
00.9
10
77
55
1 1 30
5
03.8
10
77
55
1 130
15
00.8
10
77
55
1 130
30
-0.0
10
77
55
1 130
75
01 .6
1
77
' 63
955
5
04.6
1
77
63
955
15
02.3
1
77
63
955
30
01.6
1
77
63
955
75
01 .3
2
77
63
1005
5
05.7
2
77
63
1005
15
03.7
2
77
63
1005
30
02.8
2
77
63
1005
75
01 .9
3
77
63
1000
5
04.6
3
77
63
1 000
15
02.2
3
77
63
1000
30
00.4
3
77
63
1000
75
00.9
4
77
63
104.0
5
05.4
4
77
63
1040
15
04.5
4
77
63
1040
30
03.7
T10N
TIME
4
7
63
040
5
7
63
055
5
7
63
055
5
7
63
055
5
7
63
055
6
7
63
015
6
7
63
015
6
7
63
015
6
7
G3
015
7
7
ro
010
7
7
63
010
7
7
63
010
7
7
63 .
010
8
7
63
045
8
7
63
045
8
7
63
045
8
7
63
045
9
7
63
050
9
7
63
050
9
7
63
050
10
7
63
020
10
7
63
020
10
7
63
020
10
7
63
020
1
7
67
100
1
7
67
1 00
1
7
67
1 00
1
7
67
1 00
2
7
67
145
2
7
67
145
2
7
67
145
2
7
67
145
3
7
67
555
3
7
67
555
3
7
67
555
3
7
67
555
6
7
67
320
6
7
67
320
6
7
67
320
6
7
67
320
7
7
67
230
7
7
67
230
7
7
67
230
7
7
67
230
10
7
67
400
10
7
67
400
10
7
67
400
10
7
67
400
A
7
68
105
4
7
68
105
4
7
68
105.
4
7
68
105
5
7
68
125
5
7'
68
125
5
7
68
125
DEPTH
TEMPERA
CM
CENT
75
03.1
5
05.0
15
03.6
30
02.5
75
01 .5
5
04.9
15
02.9
30
01.4
75
00 . 5
5
00. G
15
05. 1
30
04.5
75
04. 1
5
06.5
15
05.0
30
04.6
75
04.2
15
04.4
30
04. 1
75
03.6
5
06. 1
15
04.6
30
03.8
75
03.5
5
05.2
15
03.4
30
03.6
75
03'. 6
5
12.0
15
06.0
30
04.6
75
04.6
5
11.4
15
06.9
30
03.5
75
02.9
5
12.0
15
06.0
30
03.6
75
03.2
5
13.5
15
06.6
30
05.3
75
05.8
5
12.7
15
07.4
30
05.1
75
05. 1
5
07.5
15
04.6
30
04.9
75
05.0
5
07.6
15
04.6
30
04.0
WATERSHED 1Q9
TION
TIME
DEPTH
TEMPER
CM
CENT
5
77
68
1 1 25
75
04.0
8
77
68
1040
5
07. 1
8
77
60
1040
15
04.8
8
77
60
1040
30
05.5
8
77
68
1040
75
05.9
9
77
68
1015
5
06.4
9
77
68
1015
1 5
04.5
9
77
GO
10 15
30
05. 1
9
7 7
r.n
1015
75
05.5
1
7 7
v
1 0'j5
5
11.5
1
77
75
1055
15
08.8
1
77
75
1055
30
08. 1
1
77
75
1055
75
07.0
2
77
75
1110
5
16.4
2
77
75
1110
15
10.8
2
77
75
1110
30
09.2
2
77
75'
1110
75
08.2
3
77
75
1225
5
14.0
3
77
75
1225
15
09.8
3
77
75
1225
30
07.9
3
77
75
1225
75
06.5
4
77
75
1240
5
13.6
4
77
75
1240
15
10.3
4
77
75
1240
30
08.8
4
77
75
1240
75
07 .4
5
77
75
1 155
5
12.6
5
77
75
1 1 55
15
10.0
5
77
75
1 155
30
08.6
5
77
75
1 1 55
75
06.9
6
77
'75
1 1 30
5
15.0
6
77
75
1 1 30
15
10.2
6
77
75
1 1 30.
30
08.5
6
77
75
1 130
75
06.9
7
77
75
1 1 20
5
15.5
7
77
75
1 1 20
15
10.2
7
77
75
1 1 20
30
09. 1
7
77
75
1 1 20
75
08.3
8
77
75
1250
5
14.8
8
77
75
1250
15
10.1
8
77
75
1250
30
09.2
8
77
75
1250
75
08.4
9
77
75
1210
5
13.5
9
77
75
1210
15
09.4
9
77
75
1210
30
08.9
9
77
75
1210
75
08. 1
10
77
75
1 140
5
16.5
10
77
75
1 140
15
11.1
10
77
75
1 140
30
08.8
10
77
75
1 140
75
07.6
1
77
82
1400
5
08.9
1
77
82
1400
15
06.3
1
77
82
1400
30
05.3
1
77
82
1400
75
06.4
2
77
82
1415
5
1 1 .4
2
77
82
1415
15
07.2
-------�
Tablq^ (Continued).
A. Watershed 109
WATERSHED 109
STATION TIME
2
77
82
1415
2
77
82
1415
3
77
B'2
1120
3
77
82
1420
3
77
82
1420
4
77
02
1520
4
77
82
1520
4
77
82
1520
4
77
82
1520
5
77
82
1515
5
77
82
1515
5
77
82
1515
5
77
82
1515
6
77
82
1450
6
77
82
1450
6
77
82
1450
6
77
82
1 450
7
77
82
1425
7
77
82
1425
7
77
82
1425
7
77
82
1425
8
77
D2
1525
8
77
82
1525
8
77
82
1525
8
77
82
1525
9
77
82
1530
9
77
82
1530
9
77
82
1530
9
77
82
1530
10
77
82
1500
10
77
82
1500
10
77
82
1500
10
77
82
1500
1
77
90
1345
1
77
90
1345
1
77
90
1345
1
77
90
1345
2
77
90
1350
2
77
90
1350
.2
77
90
1350
2
77
90
1350
3
77
90
1620
3
77
90
1620
3
77
90
1620
3
77
90
1620
4
77
90
1500
4
77
90
1500
4
77
90
1500
4
77
90
1500
5
77
90
1540
5
77
90
1540
5
77
90
1540
5
77
90
1540
6
77
90
1400
6
77
90
1400
DEPTH TEMPERATURE
CM
CENT
30
05.5
75
06.9
15
06.1
30
04.9
75
06.1
5
08.5
15
06.6
30
06.1
7*
07.2
5
08.0
15
06.5
30
05.5
75
06.7
5
10.9
15
07.6
30
05.6
75
06.6
5
12.7
15
08.0
30
06.2
75
07.5
5
11.4
15
07.2
30
06.6
75
07.7
5
08.6
15
06.2
30
06.2
75
07.1
5
12.3
15
09.1
30
06.1
75
07.0
5
15.9
15
14.2
30
12.0
75
08.7
5
24.0
15
18.9
30
15.1
75
10.6
5
17.7
15
15.5
30
12.3
75
08.4
5
17.5
15
15.2
30
12.3
75
08.6
5
19.2
15
16.9
30
13.6
75
08.6
5
22.9
15
17.9
WATERSHED 109
STATTON TIME
6
77
90
"1400
6
77
90
1400
7
77
90
1355
7
77
90
1355
7
77
90
1355
7
77
90
1355
8
77
90
1600
8
77
90
1600
8
77
90
1600
8
77
90
1600
9
77
90
1515
9
77
90
1515
9
77
90
1515
9
77
90
1515
10
77
.90
1405
10
77
90
1405
10
77
90
1405
10
77
90
1405
1
77
91
1010
1
77
91
1010
1
77
91
1010
1
77
91
1010
4
77
91
930
4
77
91
930
4
77
91
930
4
77
91
930
10
77
91
1130
10
77
91
1 130
10
77
91
1 130
10
77
91
1130
10
77
91
1 130
1
77
143
1115
1
77
143
i 1 15
1
77
143
1115
1
77
143
11 15
2
77
143
1100
2
77
143
1 100
2
77
143
1100
2
77
143
1100
3
77
143
1000
3
77
143
1000
3
77
143
1000
4
77
143
935
4
77
143
935
4
77
143
935
4
77
143
935
5
77
143
920
5
77
143
920
5
77
143
920
5
77
1.43
920
6
77
143
1035
6
77
143
1035
6
77
143
1035
6
77
143
1035
7
77
143
1050
DEPTH
TEMPER,
CM
CENT
30
13.6
75
09.0
5
20.8
15
16.0
30
13.1
75
09.7
5
20.4
15
15.3
30
12.6
75
10.0
5
18.6
15
13.7
30
12.. 6
75
09.8
5
21.2
15
17.5
30
13.2
75
09.2
5
11 .4
15
09.4
30
09.4
75
09.0
5
09.5
15
09.9
30
11 .0
75
09.2
5
09.4
5
16.9
15
1 1.7
30
10.8
75
09.7
5
24.8
15
21 .5
30
20.5
75
17.6
5
24.2
15
23.0
30
22.5
75
20.2
15
21 .9
30
21 .6
75
18.2
5
23.7
15
22.4
30
22.3
75
18.7
5
23.0
15
22.3
30
22.2
75
18.9
5
22.2
15
22.0
30
21.5
75
17.7
5
23.0
WATERSHED 109
station
TIME
DEPTH
TEMPER
CM
CENT
7
77
143
1050
15
21.3
7
77
143
1050
30
20.9
7
77
143
1050
75
18.0
8
77
143
945
5
23.2
8
77
143
945
15
22.4
8
77
143
945
30
22.2
8
77
143
945
75
19.5
9
.77
143
900
5
22.1
9
77
143
900
15
21.3
9
77
143
900
30
21.3
9
77
143
900
75
18.4
10
77
143
1015
5
23.2
10
77
143
1015
15
21 .2
10
77
143
1015
30
24.9
10
77
143
1015
75
17.1
10
77
144
830
5
21 .2
10
77
144
330
15
20.8
10
77
1 44
830
30
20.9
10
77
144
830
75
17.3
1
77
146
1405
5
29.0
1
77
146
1405
15
23.8
1
77
146
1405
30
20.3
1
77
146
1405
75
18.0
2
77
146
1445
5
28.3
2
77
146
1445
15
24.8
2
77
146
1445
30
21.8
2
77
146
1445
75
20. 1
3
77
146
1425
15
23.8
3
77
146
1425
30
21.5
3
77
146
1425
75
18.7
4
77
146
855
5
24.0
4
77
146
855
15
20.9
4
77
146
855
30
21 . 1
4
77
146
855
75
19.3
5
77
146
830
5
20.4
5
77
146
830
15
20.6
5
77
146
830
30
20.9
5
77
146
830
75
19.5
6
77
146
1515
5
24.8
6
77
146
1515
15
23.6
6
77.
146
1515
30
21 . 1
6
77
146
1515
75
18.3
7
77
146
1500
5
28.0
7
77
146
1500
15
23.0
7
77
146
1500
30
20.8
7
77
146
1500
75
18.4
8
77
146
1320
5
28.4
8
77
146
1320
15
24.5
8
77
146
1320
30
21.5
8
77
146
1320
75
19.7
9
77
146
815
5
21.2
9
77
146
815
15
20.3
9
77
146
815
30
20.3
9
77
146
815
75
18.7
10
77
146
1530
75
-------�
Tame <\. ^onnnuea;
Watershed 109
WATERSHEO 109
STATION TIME
1
77
153
1230
1
77
153
1 230
1
77
153
1230
1
77
153
1230
2
77
153
1255
2
77
153
1255
2
77
153
1255
2
77
153
1255
3
77
153
1240
3
77
153
1240
3
77
153
1240
4
77
153
1340
4
77
153
1340
4
77
153
1340
4
77
153
1340
5
77
153
1410
5
77
153
1410
5
77
153
1410
5
77
153
1410
6
77
153
1315
6
77
153
1315
6
77
153
1315
6
77
153
1315
7
77
153
1305
7
77
153
1305
7
77
153
1305
7
77
153
1305
8
77
153
1350
0
77
153
1350
e
77
153
1350
0
77
153
1350
9
77
153
1400
9
77
153
1400
9
77
153
1400
9
77
153
1400
10
77
153
1325
10
77
153
1325
10
77
153
1325
10
77
153
1325
1
77
161
010
1
77
161
810
1
77
1G1
810
1
77
161
010
2
77
161
H55
2
77
161
055
2
77
161
B55
2
77
161
055
3
77
161
830
3
77
161
830
3
77
161
830
4
77
161
1025
4
77
161
1025
4
77
161
1025
4
77
161
1025
S
77
161
955
DEPTH TEMPERATURE
CM
cent
5
30.8
15
23.S
30
20.4
75
18.4
5
27.8
15
25.1
30
22.1
75
20.4
15
24.2
30
21 .8
75
19.3
5
34.6
15
25.2
30
22.1
75
19. C
5
29.2
15
24.8
30
22.3
75
19.9
5
25.5
15
23.9
30
21 .6
75
19.0
5
28.0
15
22.6
30
20.8
75
18.7
5
31 .8
15
26.5
30
22.5
75
20.2
5
31 .7
15
24.6
30
21 .5
75
19.2
5
31 .4
15
23.3
30
20.8
75
18.2
5
15.3
15
16.1
30
17.3
75
17.7
5
15.7
15
16.0
30
17.2
75
18.5
15
16.3
30
17.3
75
18.3
5
18.2
15
17.1
30
18.1
75
18.9
5
15.7
WATERSHED 109
STATION TIME
5
77
161
95S
5
77
161
955
5
77
161
955
6
77
161
920
6
77
161
920
6
77
161
920
6
77
161
920
7
77
161
905
7
77
161
905
7
77
161
905
7
77
161
905
8
77
161
1040
8
77
161
1040
0
77
161
1040
8
77
161
1040
9
77
161
1015
9
77
161
1015
9
77
161
1015
9
77
161
1015
10
77
161
935
10
77
161
935
10
77
161
935
10
77
161
935
1
77
167
820
1
77
167
820
1
77
167
820
1
77
167
820
2
77
167
905
2
77.
167
905
2
77
167
905
2
77
167
905
3
77
167
840
3
77
167
840
3
77
167
840
4
77
167
1030
4
77
167
1030
4
77
167
1030
4
77
167
1030
5
77
167
1000
5
77
167
1000
5
77
167
1000
5
77
167
1000
6
77
167
930
6
77
167
930
6
77
167
930
6
77
167
- 930
7
77
167
915
7
77
167
915
7
77
167
915
7
77
167
915
8
77
167
1035
8
77
167
1035
8
77
167
1035
8
77
167
1035
9
77
167
1020
WATERSHEO 109
DEPTH
TEMPERATURE
STATION TIME
DEPTH
TEMPERATURE
CM
CENT
CM
CENT
15
16.7
9
77 167 1020
15
20.7
30
17.6
9
77 167 1020
30
20.1
75
18.8
9
77 167 1020
75
18.9
5
16.1
10
77 167 945
5
24.3
15
16.7
10
77 167 945
15
20.2
30
17.8
10
77 167 945
30
19.8
75
18.3
10
77 167 945
75
18.2
5
16.2
1
77 186 1325
5
28.4
15
16.7
1
77 186 1325
15
24.2
30
17.4
1
77 186 1325
30
22.2
75
17.9
1
77 106 1325
75
20.3
5
18.7
1
77 188 830
5
24. 1
15
17.7
1
77 180 030
15
23.9
30
18.3
1
77 188 830
30
23.4
75
19.4
1
77 108 830
75
20.9
5
16.2
2
77 188 910
5
26.7
15
16.5
2
77 188 910
15
26.7
30
17.4
2
77 100 910
30
26.6
75
18.2
2
77 188 910
75
24. 1
5
16.4
3
77 188 935
15
24.6
15
16.7
3
77 108 935
30
24.3
30
17.3
3
77 108 935
75
21.5
75
17.7
4
77 188 1040
5
29.6
5
20.7
4
77 108 1040
15
25.3
15
19.4
4
77 188 1040
30
24.7
30
19.5
4
77 188 1040
75
22.0
75
18.2
5
77 180 1030
5
26.6
5
21.5
S
77 188 1030
15
24.8
15
20.8
5
77 188 1030
30
24.2
30
20.8
5
77 188 1030
75
22.0
75
20.0
6
77 188 1005
5
25.8
15
20.0
6
77 180 1005
15
25.5
30
20.2
6
77 188 1005
30
24.9
75
18.9
6
77 188 1005
75
21.5
5
27.1
7
77 188 055
5
24.2
15
21 .3
7
77 180 855
15
23.8
30
20.7
7
77 108 055
30
23.5
75
19.5
7
77 188 855
75
20.9
5
23.3
8
77 188 1050
5
26.8
15
20.3
8
77 180 1050
15
24.8
30
20.3
8
77 188 1050
30
24.1
75
19.3
8
77 180 1050
75
22.2
5
20.6
9
77 180 1020
5
26.7
15
20.2
9
77 180 1020
15
24.6
30
20.3
9
77 188 1020
30
24.2
75
18.7
9
77 188 1020
75
21 .9
5
20.2
10
77 188 950
5
25. 1
15
19.5
10
77 180 950
15
24.0
30
19.7
10
77 188 950
30
23.6
75
18.5
10
77 188 950
75
21 .0
5
25.4
1
77 196 1315
5
26.7
15
21.5
1
77 196 1315
15
23.9
30
20.4
1
77 196 1315
30
23.0
75
19.9
1
77 196 1315
75
21 .5
5
25.3
2
77 196 1350
5
29.2
-------�
TaniA.4. vcontinued
A. VJatershed 109
WATERSHED 109
ro
o
cr>
TI ON
TIME
DEPTH
TEMPER*
CM
CENT
2
77
196
1350
15
26.6
2
77
196
1350
30
24.7
2
77
196
1350
75
23.8
3
77
196
1330
15
24.0
3
77
196.
1330
30
23,3
3
77
196
1330
75
22.0
6
77
196
1420
5
26.0
6
77
196
1420
15
24.8
6
77
196
1420
30
23.8
6
77
196
1420
75
22.1
7
77
196
1405
5
27.1
7
77
196
1405
15
23.3
7
77
1 96
1405
30
22.9
7
77
196
1405
75
21 .5
10
77
196
1440
5
26.9
10
77
196
1440
15
24.3
10
77
196
1440
30
23.4
10
77
196
1440
75
21.8
1
77
203
900
5
24.0
1
77
203
900
15
24.0
1
77
203
900
30
23.9
1
77
203
900
75
22.2
2
77
203
1050
5
27. 1
2
77
203
1050
15
26.0
2
77
203
1050
30
25.8
2
77
203
1050
75
24.5
3
77
203
950
15
24.5
3
77
203
950
30
24.4
3
77
203
950
75
22.5
4
77
203
1430
5
30. 1
4
77
203
1430
15
26.0
A
77
203
1430
30
24.9
A
77
203
1430
75
23. 1
5
77
203
1355
5
28.4
5
77
203
1355
15
25.2
5
77
203
1355
30
24.5
5
77
203
1355
75
23.2
C
77
203
1310
5
26.2
6
77
203
1310
15
25.6
6
77
203
1310
30
24.8
6
77
203
1310
75
22.6
7
77
203
1035
5
24.6
7
77
203
1035
15
24.1
7
77
203
1035
30
24. 0
7
77
203
1035
75
22.-1
8
77
203.
1435
5
26.8
8
77
203
1435
15
25.7
8
77
203
1435
30
24.5
8
77
203
1435
75
23.1
9
77 203
1505
5
28,7
9
77
203
1505
15
25.6
9
77
203
1505
30
24.4
9
77
203
1505
75
22.7
10
77
203
1335
5
26.4
10
77
203
1335
15
25,0
WATERSHED 109
STATION TIME
10
77
203
1335
10
77
203
1335
10
77
203
1335
8
77
208
825
8
77
208
825
8
77
208
825
8
77
208
825
1
77
209
835
1
77
209
835
1
77
209
835
1
77
209
835
6
77
209
1030
6
77
209
1030
6
77
209
1030
6
77
209
1030
10
77
209
950
10
77
209
950
10
77
209
950
10
77
209
950
1
77
210
940
1
77
210
940
1
77
210
940
1
77
210
940
2
77
210
1340
2
77
210
1340
2
77
210
1340
2
77
210
1340
3
77
210
1250
3
77
210
1250
3
77
210
1250
4
77
210
1000
4
77
210
1000
.4
77
210
1000
4
77
210
1000
5
77
210
855
5
77
210
855
5
77
210
(J 5 5
5
77
210
855
7
77
210
1425
7
77
210
1425
7
77
210
1425
7
77
210
1425
8
77
210
930
8
77
210
930
8
77
210
930
8
77
210
930
9
77
210
1045
9
77
210
1045
9
77
210
1045
9
77
210
1045
6
77
214
0
6
77
214
0
6
77
214
0
6
** ^
i 1
214
0
1
77
216
950
WATERSHED 109
DEPTH
TEMPERATURE
STATION
TIME
DEPTH
TEMPERATURE
CM
CENT
CM
CENT
30
24.3
1
77
216
950
15
21.7
55
55.5
1
77
216
950
30
20.2
75
22.4
1
77
216
950
75
18.9
5
19.4
2
77
216
915
5
22.8
15
20.1
2
77
216
915
15
21.5
30
21.5
2
77
216
915
30
19.8
75
22.1
2
77
216
915
75
18.6
5
19.7
3
77
216
935
15
21.5
15
20.1
3
77
216
935
30
20.7
30
21.4
3
77
216
935
75
19.0
75
21 .3
4
77
216
1220
5
21.9
5
20.9
4
77
216
1220
15
20.6
15
21.0
4
77
216
1220
30
19.8
30
21.8
4
77
216 1220
75
17.8
75
21.8
5
77
216
1025
5
22.5
5
19.6
5
77
216
1025
15
20.7
15
19.8
5
77
216
1025
30
19.9
30
20.7
5
77
216
1025
75
18.6
75
21.3
6
77
216
830
5
21.6
5
23.8
6
77
216
830
15
20.5
15
22.7
6
77
216
830
30
19.6
30
22.2
C
77
216
830
75
17.8
75
20.0
7
77
216
855
5
23.0
5
29.6
7
77
216
055
15
20.4
15
26.0
7
77
216
055
30
19.9
30
23.8
7
77
216
855
75
18.9
75
23.0
8
77
216
1230
5
21.2
15
21.9
8
77
216
1230
15
20.0
30
21.5
8
77
216
1230
30
19. 1
75
21.2
8
77
216
1230
75
17.4
5
25.9
9
77
216
1010
5
20.9
15 -
22.2
9
77
216
1010
15
20.6
30
22.5
9
77
216
1010
30
19.8
75
22. 1
9
77
216
1010
75
18.4
5
21.8
10
77
216
805
5
21.8
15
21.7
10
77
216
805
15
20.0
30
22.2
10
77
2 1 C
U05
30
19.3
75
22.0
10
77
216
005
75
17.7
5
25.8
1
77
221
1340
5
27.5
15
21.4
1
77
221
1340
1b
24.7
30
21 .0
1
77
221
1340
30
23.5
75
20.6
1
77
221
1340
75
22.0
5
21.8
2
77
221
1300
5
29.6
15
21.0
2
77
221
1300
15
27.3
30
21.3
2
77
221
1300
30
26.2
75
21.5
2
77
221
1300
75
24.5
5
23.9
7
77
221
1000
5
24.2
15
21.6
7
77
221
1000
15
23.7
30
21.5
7
77
221
1000
30
23.7
75
21 .3
7
77
221
1000
75
21.6
5
21 .8
10
77
221
820
5
23,6
15
22.1
10
77
221
820
15
23.9
30
22.8
10
77
221
820
30
23.9
75
21.6
10
77
221
020
75
21.9
5
25.2
1
77
223
015
5
23.9
-------�
Tab"1^4. (Continued)
A. Watershed 109
WATERSHED 109
STATION TIME
1
77
223
815
1
77
223
815
1
77
223
815
2
77
223
855
2
77
223
855
2
77
223
855
2
77
223
855
3
77
223
830
3
77
223
830
3
77
223
830
4
77
223
1020
4
77
223
1020
4
77
223
1020
4
77
223
1020
5
77
223
950
5
77
223
950
5
77
223
950
5
77
223
950
6
77
223
935
6
77
223
935
6
77
223
935
6
77
223
935
7
77
223
905
7
77
223
905
7
77
223
905
7
77
223
905
0
77
223
1035
8
77
223
1035
8
77
223
1035
8
77
223
1035
9
77
223
1005
9
77
223
1005
9
77
223
1005
9
77
223
1005
10
77
223
920
10
77
223
920
10
77
223
920
1
77
231
1215
1
77
231
1215
1
77
231
1215
1
77
231
1215
2
77
231
1250
2
77
231
1 ?50
2
77
231
1250
2
77
231
1250
3
77
231
1230
3
77
231
1230
3
77
231
1230
4
77
231
1430
4
77
231
1430
4
77
231
1430
4
77.
231
1430
5
77
231
1400
5
77
231
1400
5
77
231
1400
DEPTH TEMPERATURE
CM
CENT
15
23.9
30
23.8
75
22.1
5
25.6
15
25.7
30
26.1
75
24.4
15
24.2
30
24.2
75
22.2
5
27.5
15
25.1
30
25.0
75
23.3
5
25.6
15
24.9
30
24.9
75
23.4
5
25.1
15
25.0
30
24.9
75
22.6
5
24.1
15
24.1
30
24.0
75
21.6
5
25.9
15
24.6
30
24.2
75
22.9
5
26.3
15
24.5
30
24.4
75
22.6
15
24.2
30
24. 1
75
22.1
5
23.6
15
21.7
30
22.0
75
22.0
5
26.1
15
24.0
30
23.5
75
23.8
15
21.4
30
21.6
75
22.0
5
27.6
15
23.5
30
22.9
75
23.1
5
26.6
15
23.4
30
22.6
WATERSHED 109
STATION TIME
5
77
231
1400
6
77
231
1340
6
77
231
1340
6
77
231
1340
6
77
231
1340
7
77
231
1305
7
77
231
1305
7
77
231
1305
7
77
231
1305
8
77
231
1545
8
77
231
1545
8
77
231.
1545
8
77
231
1545
9
77
231
1415
9
77
231
1415
9
77
231
1415
9
77
231
1415
10
77
231
1325
10
77
231
1325
10
77
231
1325
1
77
238
1015
1
77
238
1015
1
77
238
1015
1
77
238
1015
2
77
238
1200
2
77
238
1200
2
77
238
1200
2
77
238
1200
3
77
238
1045
3
77
238
1045
3
77
238
1045
4
77
238
1335
.4
77
238
1335
4
77
238
1335
4
77
238
1335
5
77
238
1320
5
77
238
1320
5
77
238
1320
5
77
238
1320
6
77
238
1250
6
77
238
1250
6
77
238
1250
6
77
238
1250
7
77
238
1220
7
77
238
1220
7
77
238
1220
7
77
238
1220
8
77
238
1345
8
77
238
1345
8
77
238
1345
8
77
238
1345
9
77
238
1310
9
77
230
1310
9
77
238
1310
9
77
238
1310
WATERSHED 109
DEPTH
TEMPERATURE
STATION
TIME
DEPTH
TEMPERATURE
CM
CENT
CM
CENT
75
23.2
10
77
238
1235
15
19.1
5
23.9
10
77
238
1235
30
19.7
1 5
23.2
10
77
238
1235
75
21.0
30
22.7
2
77
242
835
5
24.5
75
22.4
2
77
242
835
15
24.7
5
23.1
2
77
242
835
30
25.0
1 5
20.9
2
77
242
835
75
22.9
30
21.3
5
77
242
1255
5
29.0
75
21.6
5
77
242
1255
15
25.2
5
24.1
5
77
242
1255
30
23.9
1 5
23.0
5
77
242
1255
75
22.4
30
22.0
10
77
242
1220
15
23.1
75
22.4
10
77
242
1220
30
22.5
5
27.2
10
77
242
1220
75
21 .1
15
23.0
1
77
251
1115
5
22.8
30
22.2
1
77
251
1115
15
22.0
75
22.3
1
77
251
1115
30
22.4
15
21.5
1
77
251
1115
75
22.1
30
21.7
2
77
251
1055
5
23.6
75
22.1
2
77
251
1055
15
22.8
5
18.7
2
77
251
1055
30
23.3
15
18.6
2
77
251
1055
75
23.8
30
20.2
3
77
251
1010
15
21 .6
75
21.1
3
77
251
1010
30
22.0
5
22.0
3
77
251
1010
75
21 .9
15
20.1
4
77
251
1000
5
24.4
30
20.4
4
77
251
1000
15
22.5
75
22.4
4
77
251
1000
30
23.3
15
18.1
4
77
251
1000
75
23.1
30
19.1
5
77
251
930
5
22.2
75
20.9
5
77
251
930
15
22.2
5
24.7
5
77
251
930
30
22.8
15
20.1
5
77
251
930
75
23.0
30
20.6
6
77
251
1040
5
20.9
75
22.1
6
77
251
1040
15
22.3
5
24.6
6
77
251
1040
30
22.7
15
20.7
6
77
251
1040
75
22.2
30
20.1
7
77
251
1 105
5
22.8
75
22.1
7
77
251
1 105
15
21 .8
5
20.7
7
77
251
1 10S
30
22.0
15
20.1
7
77
251
1 105
75
21 .4
30
20.3
8
77
251
955
5
22.3
75
21 .5
8
77
251
955
15
21 .9
5
20.4
B
77
251
955
30
22.3
15
18.5
0
77
251
955
75
22.5
30
19. 1
9
77
251
945
5
22.4
75
20.6
9
77
251
945
15
21 .9
5
22.5
9
77
251
945
30
22.5
15
20.8
9
77
251
945
75
22.4
30
19.8
10
77
251
1030
15
22.0
75
21.3
10
77
251
1030
30
22.4
5
23.9
10
77
251
1030
75
21.9
15
20.1
1
77
258
1330
5
20.4
30
20.0
1
77
258
1330
15
20.1
75
21 .1
1
77
250
1330
30
20.4
-------�
Table 4. {Continued)
W. Watershed 109
WATERSHED 109
STATION TIME DEPTH TEMPERATURE
CM
CENT
1
77
258
1330
75
20.5
2
77
258
1350
5
21 .4
2
77
258
1350
15
20.9
2
77
258
1350
30
21 .1
2
77
258
1350
75
21 .6
3
77
258
1245
15
19.4
3
77
258
1245
30
19.7
3
77
258
1 245
75
20.1
4
77
258
830
5
18.7
4
77
258
830
15
19.9
4
77
258
830
30
21 .2
4
77
258
830
75
21 .3
5
77
258
940
5
19.0
5
77
258
940
15
19.7
5
77
258
940
30
20.4
5
77
258
940
75
21 .2
6
77
258
1415
5
20.0
6
77
258
1415
15
20.1
6
77
258
1415
30
20.4
6
77
258
1415
75
20.5
7
77
258
1400
5
19.8
7
77
258
1400
15
19.4
7
77
258
1 400
30
19.8
7
77
258
1400
75
20.1
8
77
258
925
5
18.6
8
77
258
925
15
19.3
8
77
258
925
30
20.2
8
77
258
925
75
20.8
9
77
258
955
5
19.1
9
77
250
955
15
19.5
9
77
258
955
30
20.4
9
77
258
955
75
20.7
10
77
258
1430
15
19.4
10
77
258
1430
30
19.9
10
77
258
1430
75
20.4
1
77
265
1020
5
19.8
1
77
265
1 020
15
19.9
1
77
265
1020
30
20.7
1
77
265
1020
75
20.8
2
77
205
925
5
20.2
2
77
265
925
15
20.6
2
77
265
925
30
21 .7
2
77
265
925
75
22.2
3
77
265
1005
15
19.6
3
77
265
1005
30
20.2
3
77
265
1005
75
20.6
4
77
265
1315
5
20.9
4
77
265
1315
15
20.8
4
77
265
1315
30
21.2
4
77
265
1315
75
21.5
5
77
265
1245
5
20.4
5
77
265
1245
15
20.4
5
77
265
1245
30
20.7
5
77
265
1 245
75
21 .4
6
77
265
910
5
19.5
WATERSHED 109
STATION TIME
6
77
265
910
6
77
265
910
6
77
265
910
7
77
265
940
7
77
265
940
7
77
265
940
7
77
265
940
8
77
265
1330
8
77
265
1 330
8
77
265
1330
8
77
265
1330
9
77
265
1300
9
77
265
1300
9
77
265
1 300
9
77
265
1 300
10
77
265
835
10
77
265
835
10
77
265
835
1
77
272
855
1
77
272
855
1
77
272
855
1
77
272
855
2
77
272
750
2
77
272
750
2
77
272
750
2
77
272
750
3
77
272
845
3
77
272
845
3
77
272
845
4
77
272
925
4
77
272
925
4
77
272
925
4
77
272
925
5
77
272
905
5
77
272
905
5
77
272
905
5
77
272
905
6
77
272
815
6
77
272
815
6
77
272
815
6
77
272
015
7
77
272
000
7
77
272
800
7
77
272
800
7
77
272
800
8
77
272
930
8
77
272
930
8
77
272
930
8
77
272
930
9
77
272
915
9
77
272
915
9
77
272
915
9
77
272
915
10
77
272
830
10
77
272
830
DEPTH
TEMPER*
CM
CENT
15
19.9
30
20.8
75
20.7
5
19.4
15
19.9
30
20.4
75
20.5
5
20. 1
15
20.2
30
20.4
75
21.0
5
20.3
15
20.3
30
20.6
75
20.9
15
19.9
30
20.5
75
20.7
5
15. 1
15
17.6
30
19.5
75
20. 1
5
16.2
15
17.7
30
20. 1
75
21.0
15
17.6
30
18.9
75
19.9
5
18.6
15
17.6
30
19.9
75
20.8
5
15.4
15
17.4
30
18.9
75
20.6
5
16.3
15
17.2
30
19.3
75
20. 0
5
14.7
15
17.9
30
19.1
75
19. B
5
17.0
15
17.0
30
18.7
75
20.3
5
16.6
15
17.2
30
19. 1
75
20.2
t5
17.6
30
19.1
WATERSHED 109
STATION
TIME
DEPTH
TEMPER
CM
CENT
10
77
272
830
75
20.0
6
77
279
1430
5
15.2
6
77
279
1430
15
15.3
6
77
279
1430
30
16.2
6
77
279
1430
75
18.2
10
77
279
1315
15
15.5
10
77
279
1315
30
16.3
10
77
279
1315
75
18.3
1
77
286
955
5
10.7
1
77
286
955
15
12.2
1
77
286
955
30
14.2
1
77
286
955
75
16.4
2
77
286
925
5
10.9
2
77
286
925
15
11.6
2
77
286
925
30
13.4
2
77
286
925
75
16. 1
3
77
286
S45
15
11.7
3
77
286
945
30
13.1
3
77
286
945
75
16.0
4
77
286
1035
5
11.8
4
77
286
1035
15
12.7
4
77
28G
1035
30
14.5
4
77
286
1035
75
17.1
5
77
286
1015
5
11.3
5
77
286
1015
15
12.6
5
77
286
1015
30
13.7
5
77
286
1015
75
16.7
7
77
286
935
5
11.2
7
77
2UG
035
1 5
12.8
7
77
28G
935
30
13.9
7
77
286
935
75
16.2
8
77
286
1040
5
11.5
8
77
286
1040
1 5
12.3
8
77
286
1040
30
13.8
8
77
286
1040
75
16.3
9
77
286
1025
5
11.6
9
77
286
1025
15
12.7
9
77
286
1025
30
14.3
9
77
286
1025
75
16.5
1
77
291
14 10
15
09. 1
1
77
291
1410
30
09.4
1
77
291
1410
75
13.6
4
77
291
1 245
5
15.0
4
77
291
1 245
1 5
10.4
4
77
291
1245
30
10.8
4
77
291
1245
75
14.9
8
77
291
1320
5
12.2
8
77
291
1 320
15
10.7
8
77
291
1320
30
10.4
8
77
291
1 320
75
14. 1
9
77
291
1015
5
08.8
9
77
291
1015
15
08.2
9
77
291
1015
30
10.4
9
77
291
1015
75
14.4
1
77
294
1350
5
13.6
-------�
Table 4. (Continued)
a. Watershed
109
WATERSHED 109
WATERSHED 109
ro
o
CM
CENT
1
77
294
1350
15
11 .5
1
77
294
1350
30
11 .5
1
77
294
1350
75
13.6
2
77
294'
1 300
5
14.4
2
77
294
1300
15
11 .5
2
77
294
1300
30
10.7
2
77
294
1300
75
12.7
7
77
294
950
5
10.0
7
77
294
950
15
10.3
7
77
294
950
30
11.3
7
77
294
950
75
13.7
5
77
313
1335
5
17.7
5
77
313
1335
15
16.4
5
77
313
1335
30
16.0
5
77
313
1335
75
15.9
1
77
319
1430
5
08.8
1
77
319
1430
15
07.9
1
77
319
1430
30
08.2
1
77
319
1430
75
11.7
2
77
319
1435
5
08.2
2
77
319
1435
15
07.2
2
77
319
1435
30
06.5
2
77
319
1435
75
10.3
3
77
319
1505
15
07 .4
3
77
319
1505
30
07.5
3
77
319
1505
75
11.5
5
77
319
1515
5
08.5
5
77
319
1515
15
07.8
5
77
3 1 9
i r> 15
30
08.0
5
77
319
1515
75
11.9
6
77
319
1450
5
08.8
6
77
319
1450
15
07.5
6
77
319
1450
30
07.7
6
77
319
1450
75
12.0
7
77
319
1445
5
09.7
7
77
319
1445
15
08.0
7
77
319
1445
30
08.5
7
77
319
1445
75
12.1
10
77
319
1500
5
1 1 .0
10
77
319
1500
15
08.3
10
77
3 1 'J
1500
30
09.1
10
77
319
1500
75
13.3
1
77
377
10135
5
07.2
1
77
377
1055
15
07.6
1
77
327
1055
30
08.9
1
77
327
1055
75
10.7
2
77
327
1 105
5
06.7
2
77
327
1 105
15
06.9
2
77
327
1105
30
07.8
2
77
327
1105
75
10.0
3
77
327
1 120
15
07.5
3
77
327
1120
30
08.2
3
77
327
1 120
75
10.4
4
77
327
1015
5
07.5
4
77
327
1015
15
08.2
TION
TIME
4
7
327
4
7
327
5
7
327
5
1
327
5
7
327
5
7
327
6
7
327
6
7
327
6
7
327
6
7
327
7
7
327
7
7
327
7
7
327
7
7
327
8
7
327
8
7
327
8
7
327
8
7
327
9
7
327
9
7
327
9
7
327
9
7
327
10
7
327
10
7
327
10
7
327
10
7
327
1
7
336
1
7
336
1
7
336
1
7
3 JG
2
7
336
2
7
330
2
7
336
2
7
336
3
7
336
3
7
336
3
7
336
4
7
336
4
7
336
4
7
336
4
7
330
5
7
330
5
7
336
5
7
330
5
7
330
6
7
336
6
7
336
6
7
336
6
7
336
7
7
336
7
7
336
7
7
336
7
7
336
8
7
336
8
7
336
WATERSHED 109
DEPTH
TEMPERATURE
STATION TIME
DEPTH
TEMPERATUI
CM
CENT
CM
CENT
1015
30
09.3
8 77 336 1030
30
07.4
1015
75
1 1 .5
8 77 336 1030
75
08.6
955
5
07.0
9 77 336 1045
5
06.9
955
15
07.7
9 77 336 1045
15
06.8
955
30
08. 1
9 77 336 1045
30
07.6
955
75
10.3
9 77 336 1045
75
08.7
1 155
5
07.2
10 77 336 1130
5
08.4
1 155
15
07.5
10 77 336 1130
15
08.0
1155
30
08.5
10 77 336 1130
30
08.6
1 155
75
10.5
10 77 336 1130
75
09.8
1 135
5
08. 1
1 77 341 1405
5
01 . 1
1 135
15
08.3
1 77 341 1405
15
02.5
1 135
30
09. 1
1 77 341 1405
30
05. 1
1 135
75
1 1 .0
1 77 341 1405
75
08. 2
1030
5
07.6
1 77 343 1550
5
01.3
1030
15
07.9
1 77 343 1550
15
02.4
1030
30
08.9
1 77 343 1550
30
03.6
1030
75
11.0
1 77 343 1550
75
07.0
1040
5
07.4
2 77 343 1455
5
00.4
1040
15
08.1
2 77 343 1455
15
00.8
1040
30
09.2
2 77 343 1455
30
02. 1
1040
75
1 1 .2
2 77 343 1455
75
05.5
1205
5
08.5
3 77 343 1440
1 5
01 .3
1205
15
09.1
3 77 343 1440
30
03.8
1205
30
09.9
3 77 343 1440
75
06. 7
1205
75
12.0
4 77 343 1405
5
04.5
1120
5
07.1
4 77 343 1405
15
01 .8
1 120
15
06.9
4 77 343 1405
30
03.2
1 120
30
07.4
4 77 343 1405
75
07.5
1 120
75
08.4
5 77 343 1420
5
00.3
1110
5
06.5
5 77 343 1420
15
01 .5
1110
15
06.3
5 77 343 1420
30
02.8
1110
30
06.8
5 77 343 1420
75
06.7
1110
75
07.6
6 77 343 1505
5
00. 1
1055
15
06.5
6 77 343 1505
15
01 . 1
1055
30
07.0
6 77 343 1505
30
02.8
1055
75
08. 1
6 77 343 1505
75
06.9
1020
5
07.3
7 77 343 1450
5
03.9
1020
15
06.8
7 77 343 1450
15
02.0
1020
30
07.6
7 77 343 1450
30
03.4
1020
75
00. U
7 77 343 1450
75
07.2
1040
5
06.7
8 77 343 1415
5
01.9
1040
15
06.7
0 77 34 3 14 113
1'j
02.2
1040
30
07.2
0 77 34J 1415
30
03. 1
1040
75
08. 1
0 77 343 1415
75
06.9
1 125
5
06.6
9 77 343 1430
5
00.5
1 125
15
06.3
9 77 343 1430
15
02.3
1 125
30
07.0
9 77 343 1430
30
03.4
1 125
75
08.2
9 77 343 1430
75
07. 1
1 105
5
07.2
10 77 343 1515
5
04.5
1 105
15
07.0
10 77 343 1515
15
03.6
1 105
30
07.4
10 77 343 1515
30
04.7
1 105
75
08.7
10 77 343 1515
75
08.5
1030
5
06.a
4 77 347 1500
5
00.9
1030
15
06.7
A 77 347 1500
15
00.3
-------�
Table 4. (Continued)
A. Watershed 109
WATERSHED 109
STATION TIME DEPTH TEMPERATURE
CM CENT
4
77
347
1500
30
01 .7
4
77
347
1500
75
05.8
5
77
347
1350
5
-0.3
5
77
3'17
1350
15
00.3
5
77
347
1350
30
01 .4
5
77
347
1350
75
05. 1
8
77
347
1515
5
-0.1
8
77
347
1515
15
00.3
8
77
347
1515
30
01.7
Q
77
347
1515
75
05.2
9
77
347
1425
5
-0.2
9
77
347
1 <125
15
00.6
9
77
347
1425
30
02.0
9
77
347
1 425
75
05.6
1
77
357
925
5
00.9
1
77
357
925
15
01 .9
1
77
357
925
30
03.5
1
77
357
925
75
05.7
2
77
357
950
5
00.9
2
77
357
950
15
01 .6
2
77
357
950
30
02.8
2
77
357
050
75
05.0
3
77
307
1 000
15
01.7
3
77
357
1000
30
02.7
3
77
357
1000
75
05.3
4
77
357
1050
5
00.2
4
77
357
1050
15
02.2
4
77
357
1050
30
03.7
4
77
357
1050
75
06.2
5
77
357
1 120
5
00.8
5
77
357
1 1 20
1 5
02.0
5
77
357
1 120
30
03. 1
5
77
357
1 120
75
05.6
6
77
357
1025
5
00.9
6
77
357
1025
15
01.8
6
77
357
1025
30
03.2
6
77
357
1025
75
05.4
7
77
357
1010
5
01.0
7
77
357
1010
15
02.7
7
77
357
1010
30
03.7
7
77
357
1010
75
06. 1
8
77
357
1 100
5
00.9
8
77
357
1100
15
01 .8
8
77
357
1 100
30
03.4
8
77
357
1 100
75
05.8
9
77
357
1110
5
00.8
9
77
357
1110
15
02.3
9
77
357
1110
30
03.8
9
77
357
1110
75
06.2
10
77
357
1032
5
00.9
10
77
357
1032
15
03.4
10
77
357
1032
30
04.6
10
77
357
1032
75
07.1
1
77
363
1530
5
-0.3
1
77
363
1530
15
00.5
WATERSHED 109
STATION TIME
1
77
363
1530
1
77
363
1530
2
77
363
1015
2
77 .363
1015
2
77
363
1015
2
77
363
1015
3
77
363
1 320
3
77
3G3
1 320
3
77
363
1 320
3
77
363
1320
4
77
363
955
4
77
363
955
4
77
363
955
4
77
363
955
5
77
363
940
5
77
363
940
5
77
363
940
5
77
363
940
6
77
363
1 020
6
77
363
1020
6
77
363
1020
6
77
363
1020
7
77
3G3
1350
7
77
363
1350
7
77
363
1350
8
77
363
1000
8
77
363
1 000
8
77
363
1000
8
77
363
1000
9
77
363
945
9
77
363
945
9
77
363
945
9
77
363
945
10
77
363
1420
10
77
363
1420
10
77
363
1420
10
77
363
1420
1
77
0
0
1
77
0
0
1
77
0
0
1
77
0
0
4
78
6
1340
4
78
6
1340
4
78
6
1340
4
78
6
1340
5
78
6
1405
5
78
6
1405
5
78
6
1405
5
78
6
1405
8
78
6
1335
8
78
6
1335
8
78
6
1335
8
78
6
1335
10
78
6
1415
10
78
6
1415
DEPTH TEMPERATURE
WATERSHED 109
STATION TIME
CM
CENT
30
02.0
10
78
75
04.6
10
78
5
-1 .5
1
78
15
-0.5
1
78
30
00.9
1
78
75
03.6
1
78
5
-0.8
2
78
15
-0.4
2
78
30
01 .0
2
78
75
04.3
2
78
5
-2.2
3
78
1 5
-0. 1
3
78
30
01 .5
3
78
75
05.0
4
78
5
-2.0
4
78
15
00.0
4
78
30
01 .2
4
78
75
04.6
5
78
5
-2.4
5
78
15
-0.9
5
78
30
01 .1
5
78
75
04.5
6
78
5
-0.9
6
78
30
01.8
6
78
75
05. 1
6
78
5
-1 .8
7
78
15
-0.3
7
78
30
01 .3
7
78
75
04.5
7
78
5
-2.0
8
78
15
00.3
8
78
30
01.8
8
78
75
04.9
8
78
5
-0.1
9
78
15
01 .7
9
78
30
03.0
9
78
75
06.2
9
78
5
-0.2
10
78
15
00.3
10
78
30
01 .4
10
78
75
03.5
10
78
5
-0.2
1
78
15
00.2
1
78
30
01 .0
1
-78
75
03.6
1
78
5
-0.3
2
78
15
00.0
2
78
30
00.8
2
78
75
03. 1
2
78
5
-0.1
3
78
15
00.0
3
78
30
00.9
3
78
75
03.3
4
78
5
00.0
4
78
15
01.4
4
78
6 1415
6 1415
12 1010
12 1010
12 1010
12 1010
12 1025
12 1025
12 1025
12 1025
12 1015
12 1015
12 1015
12 14 15
12 1415
12 1415
12 1415
12 1425
12 1425
12 1425
12 1425
12 1105
12 1105
12 1105
12 1105
12 1055
12 1055
12 1055
12 1055
12 1350
12 1350
12 1350
12 1350
12 1430
12 1430
12 1430
12 1430
12 1120
12 1120
12 1120
12 1120
19 1010
19 1010
19 1010
19 1010
19 1000
19 1000
19 1000
19 1000
19 940
19
19
19
19
19
940
940
925
925
925
DEPTH
CM
30
75
5
15
30
75
5
15
30
75
1 5
30
75
5
1 5
30
75
5
15
30
75
5
15
30
75
5
15
30
75
5
15
30
75
5
15
30
75
5
15
30
75
5
15
30
75
5
15
30
75
15
30
75
5
15
30
TEMPERATURE
CENT
02.2
.9
. 7
.3
. 3
. 2
.0
.0
.5
.5
.4
04
-0
00
01
03
-2
-0
00
02
-0
00.6
02.9
-0.
-0
00.
03,
-1 ,
-0.
00.5
02.9
-2.7
-1 .3
00.5
03.0
-0.9
00 . 2
01.1
03.8
-0.8
-0.5
00.6
03. 1
-0.7
00 . 1
01 .2
03.6
-0.6
00. 1
02. 1
04.7
-0.2
00.2
01.0
02.6
-0.2
-0. 1
00.4
02.0
-0. 1
00.4
02.4
-1 .0
00. 1
00.7
-------�
Table 4 (Continued)
A. Watershed 109
WATERSHED 109
STATION TIME DEPTH TEMPERATURE
CM CENT
4
78
19
925
75
02.8
5
78
19
920
5
-0.4
5
78
19
920
15
00.0
5
78
19
920
30
00.5
5
78
19
920
75
02.4
6
78
19
1025
5
-0.8
6
78
19
1025
15
-0.3
6
78
19
1025
30
00.5
6
78
19
1025
75
02.6
7
78
1 9
950
5
-0.1
7
78
19
950
15
00.4
7
78
19
950
30
01.0
7
78
19
950
75
03.2
8
78
19
930
5
-0.5
8
78
19
930
15
00.0
8
78
19
930
30
00.7
8
78
19
930
75
02.6
9
78
19
910
5
-0.5
9
78
19
910
15
00.4
9
78
19
910
30
01.1
9
78
19
910
75
02.9
10
78
19
1020
5
-0.1
10
78
19
1020
15
00.9
10
78
19
1020
30
01 .5
10
78
19
1020
75
03.5
1
78
23
1025
5
-0.2
1
78
23
1025
15
00.2
1
78
23
1025
30
01.0
1
78
23
1025
75
02.5
2
78
23
1115
5
-0.6
2
78
23
1115
15
-0. 1
2
78
23
1115
30
00.4
2
78
23
1115
75
02.0
3
78
23
1445
15
-0.1
3
78
23
1445
30
00.5
3
78
23
1145
75
02.3
4
78
23
1510
5
-0.5
4
78
23
1510
15
00.2
4
78
23
1510
30
00.7
4
78
23
1510
75
02.6
5
78
23
1550
5
-0.7
5
78
23
1550
15
00.0
5
78
23
1550
30
00.6
5
78
23
1550
75
02.3
6
78
23
1330
5
-1 . 1
6
78
23
1330
15
-0.4
6
78
23
1330
30
00.6
6
78
23
1330
75
02.6
7
78
23
1 145
5
00.0
7
78
23
1 145
15
00.5
7
78
23
1 145
30
01 .1
7
78
23
1145
75
03. 1
8
78
23
1530
5
-0.3
8
78
23
1530
15
00.1
8
78
23
1530
30
00.7
WATERSHED 109
STATION TIME
8
78
23
1530
10
78
23
1400
10
78
23
1400
10
78
23
1400
10
78
23
1400
1
78
24
1525
1
78
24
1525
1
78
24
1525
1
78
24
1525
9
78
24
1025
9
78
24
1025
9
78
24
1025
9
78
24
1025
10
78
24
1500
10
78
24
1500
10
78
24
1500
10
78
24
1500
1
78
34
940
1
78
34
940
1
78
34
940
2
78
34
1005
2
78
34
1005
2
78
34
1005
2
78
34
1005
3
78
34
945
3
78
34
945
3
78
34
945
4
78
34
1050
4
78
34
1050
4
78
34
1050
4
78
34
1050
5
78
34
1045
5
78
34
1045
5
78
34
1045
5
78
34
1045
6
78
34
1010
G
78
34
1010
6
78
34
1010
6
78
34
1010
7
78
34
955
7
78
34
955
7
78
34
955
7
78
34
955
8
78
34
1 100
8
78
34
1 100
8
78
34
1 100
8
78
34
1 100
9
78
34
1035
9
78
34
1035
9
78
34
1035
9
78
34
1035
10
78
34
1020
10
78
34
.1020
10
78
34
1020
10
78
34
1020
WATERSHED 109
DEPTH
TEMPERATURE
STATION
TIME
DEPTH
TEMPERATURE
CM
CENT
CM
CENT
75
02.5
10
78
34
1020
15
00.8
5
00.0
10
78
34
1020
15
00.3
15
01.1
10
78
34
1020
15
00.6
30
01 .7
10
78
34
1020
15
00.1
75
03.5
10
78
34
1020
30
01 .2
5
-a. 2
10
78
34
1020
30
01 .2
15
00.2
10
78
34
1020
30
01 .4
30
01 .0
10
78
34
1020
30
01.3
75
02.4
10
78
34
1020
75
03.2
5
-0.7
10
78
34
1020
75
03. 1
15
00.4
10
78
34
1020
75
02.5
30
01.0
10
78
34
1020
75
02.6
75
02.7
1
78
40
1505
5
-0.6
5
00.0
1
78
40
1505
15
-0.4
15
01 .1
1
78
40
1505
30
00.3
30
01 .7
1
78
40
1505
75
01 .8
75
03.6
2
78
40
1510
5
-1 .3
5
-1 .6
2
78
40
1510
15
-2.0
15
-0.7
2
78
40
1510
30
-1.8
30
00.4
2
78
40
1510
75
00.7
5
-3.4
3
78
40
1455
15
-0.8
15
-3.0
3
78
40
1455
30
-0.4
30
-1.6
3
78
40
1455
75
01 .6
75
01 .1
4
78
40
1445
5
-0.7
15
-1 .8
4
78
40
1445
15
-0.6
30
-0.6
4
78
40
1445
30
00.0
75
01 .8
4
78
40
1445
75
01.8
5
-1 .9
5
78
40
1435
5
-1 .2
15
-1 .2
5
78
40
1435
15
-1.4
30
00.0
5
78
40
1435
30
-0.5
75
02.0
5
78
40
1435
75
01 .5
5
-2.5
6
78
40
1400
5
-1 .0
15
-1 .5
6
78
40
1400
15
-0.7
30
-0.3
6
78
40
1400
30
-Oil
75
01.7
6
78
40
1 400
75
02. 1
5
-2.6
7
78
40
1415
5
-0.3
15
-1 .6
7
78
40
1415
15
00.0
30
-0.1
7
70
40
14 15
30
00.7
75
02.3
7
78
40
1415
75
02.9
5
-1.1
8
78
40
1440
5
-0.7
15
00.1
8
78
40
1440
15
-0.6
30
00.7
8
78
40
1440
30
-0.1
75
03.1
8
78
40
1440
75
01 .6
5
-1 .9
9
78
40
1430
5
-0.9
15
-1 .4
9
78
40
1430
15
-0.4
30
-0.1
9
78
40
1430
30
00.2
75
01 .9
9
78
40
1430
75
01.9
5
-2.0
10
78
40
1405
5
-0.3
15
-0.8
10
78
40
1405
15
00.5
30
00.3
10
78
40
1405
30
01 . 1
75
02.1
10
78
40
1405
75
03.0
5
-0.1
1
78
53
1 120
5
-1.6
5
-1 .0
1
78
53
1120
15
-0.5
5
-0.2
1
78
53
1 120
30
00.3
5
-0.2
1
78
53
1120
75
01 .6
-------�
Table 4>. '(Continued)
A. Watershed 109
WATERSHED 109
STATION TIME
2
78
53
1330
2
78
53
1330
2
78
53
1330
2
78
53
1 330
3
78
53
1425
3
78
53
1425
3
78
53
1425
4
78
53
1445
4
78
53
1445
4
78
53
1445
4
78
53
1445
5
78
53
1525
5
78
53
1525
5
78
53
1525
5
78
53
1525
6
78
53
1110
6
78
53
1110
6
78
53
1110
6
78
53
1110
7
78
53
1350
7
78
53
V350
7
78
53
1350
7
78
53
1 350
8
78
53
1500
B
78
53
1500
0
70
53
1500
0
70
53
1500
9
78
53
1540
9
78
53
1540
9
78
53
1540
9
78
53
1540
10
78
53
1025
10
78
53
1025
10
78
53
1025
10
78
53
1025
1
78
61
940
1
78
61
940
1
78
61
940
1
78
61
940
2
70
61
920
2
78
61
920
2
78
61
920
2
78
61
920
3
78
61
945
3
78
61
945
3
78
61
945
4
78
61
955
4
78
CI
955
4
78
61
955
4
78
61
955
5
78
61
1015
5
78
61
1015
5
78
61
1015
5
78
61
1015
G
78
61
915
WATERSHED 109
DEPTH
TEMPERATURE
STATION
TIME
CM
CENT
5
-0.7
6
78
61
915
15
-0.8
6
78
61
915
30
-0.7
6
78
61
915
75
00.6
7
78
61
930
15
-1 .0
7
78
61
930
30
-0.5
7
78
61
930
75
01.4
7
78
61
930
5
00.1
8
78
61
1000
15
-0.2
8
78
6!
1000
30
00.0
8
78
61
1000
75
01.5
8
78
61
1000
5
-0.7
9
78
61
1005
15
-0.7
9
78
61
1005
30
-0.3
9
78
61
1005
75
01 .2
9
78
61
1005
5
-1.3
10
78
61
905
15
-0.9
10
78
61
905
30
-0.1
10
78
61
905
75
01 .8
10
78
61
905
5
-0.3
1
78
72
1400
15
00.0
1
78
72
1400
30
00.7
1
78
72
1400
75
02.7
1
78
72
1400
5
-0.4
2
78
72
1415
15
-0.4
2
78
72
1415
30
-0.1
2
78
72
1415
75
01 .4
2
78
72
1415
5
-0.5
3
78
72
1405
15
-0.2
3
78
72
1405
30
00.2
3
78
72
1405
75
01.7
4
78
72
1500
5
-0.2
4
78
72
1500
15
00.6
.4
78
72
1500
30
01 .1
4
78
72
1500
75
02.8
5
78
72
1455
5
-0.8
5
78
72
1455
15
-0.3
5
78
72
1455
30
00,2
5
78
72
1455
75
01 .4
6
78
72
1515
5
-0.9
6
70
72
1515
15
-0.3
C
78
72
1515
30
-0.3
6
78
72
1515
75
00,6
7
78
72
1420
15
-0.6
7
78
72
1420
30
-0.3
7
78
72
1420
75
01 .3
7
78
72
1420
5
-0.4
8
78
72
1508
15
-0.1
8
78
72
1508
30
00.1
8
78
72
1508
75
01 .5
8
78
72
1508
5
-1 .7
9
78
72
1445
15
-0.6
9
78
72
1445
30
-0.2
S
78
72
1445
75
01 .1
9
78
72
1445
5
-1 .1
10
78
72
1430
DEPTH TEMPERATURE
CM
CENT
15
-0.7
30
-0.1
75
01.7
5
-0.1
15
00.1
30
00.7
75
02.7
5
-0.1
15
-0.2
30
00.0
75
01.4
5
-0.7
15
-0.1
30
00.3
75
01.6
5
-0.1
15
00.5
30
00.9
75
02.5
5
00. 1
15
-0.2
30
00.6
75
01.3
5
03.9
15
-0.2
30
-0.2
75
00.8
15
-0.2
30
-0.2
75
01.3
5
11.3
15
04.2
30
01.3
75
01.6
5
01.2
15
-0.2
30
-0.1
75
01.1
5
-0.1
15
-0.3
30
-0.1
75
01.6
5
00.1
15
00.3
30
00.9
75
02.8
5
08.6
15
04.9
30
00.9
75
01.7
5
02.1
15
00.1
30
00.5
75
01.7
5
07.7
WATERSHED 109
STATION TIME
10
78
72
1430
10
78
72
1430
10
78
72
1430
1
78
80
1000
1
78
80
1000
1
78
80
1000
1
78
80
1000
2
78
80
1040
2
78
00
1040
2
70
80
1040
2
78
80
1040
3
78
80
1020
3
78
80
1020
3
78
80
1020
4
78
80
1500
4
78
80
1500
4
78
80
1500
4
78
80
1500
5
78
80
1530
5
78
80
1530
5
78
80
1530
5
70
00
1530
6
78
80
1115
6
78
80
1115
6
78
80
1115
6
78
80
1115
7
70
80
1055
7
78
80
1055
7
78
80
1055
7
78
80
1055
8
78
80
1320
8
78
80
1320
8
78
80
1320
8
78
80
1320
9
78
80
1515
9
78
80
1515
9
78
00
1015
9
78
00
1515
10
78
80
1235
10
78
00
1235
10
78
00
1235
10
78
80
1235
6
78
87
1455
6
78
87
1455
6
78
87
1455
6
78
87
1 4 55
10
78
07
1520
10
78
87
1520
10
78
87
1520
10
78
87
1520
1
78
95
1105
1
78
95
1105
1
78
95
1 105
1
78
95
1105
2
78
95
945
DEPTH TEMPERATURE
CM
CENT
15
00.4
30
00.6
75
02.0
5
05.2
15
03.3
30
03.0
75
02.2
5
06.5
15
04.5
30
03.0
75
03. 1
15
02.7
30
02. 1
75
01 .9
5
16.3
15
08.7
30
05.5
75
04.2
5
11.9
15
07.0
30
04 .5
75
02.5
5
06. 1
15
03. 1
30
02.2
75
01.9
5
08.6
15
05.2
30
05.3
75
05. 1
5
14.7
15
09.4
30
05.9
75
04.8
5
14.0
1 5
09. 1
30
05.8
75
04.2
5
12.7
15
05. 1
30
04.4
75
03.9
5
13.5
15
09.9
30
07.3
75
05.3
5
16.8
1 5
09. 1
30
07.7
75
06.3
5
14.0
15
10.9
30
09.1
75
07.3
5
13.5
-------�
Table 4. ^tontmuecij
A. Watershed 109
WATERSHED 109
STATION TIME DEPTH
CM
2
78
95
945
15
2
78
95
945
30
2
78
95
945
75
3
78
95
1000
15
3
78
95
1000
30
3
78
95
1000
75
4
78
95
1015
5
4
78
95
1015
15
4
78
95
1015
30
4
78
95
1015
75
5
78
95
1035
5
5
78
95
1035
15
5
78
95
1035
30
5
78
95
1035
75
6
78
95
915
5
6
78
95
915
15
0
78
95
915
30
6
78
95
915
75
7
78
95
950
5
7
78
95
950
15
7
78
95
950
30
7
78
95
950
75
e
78
95
1025
5
8
78
95
1025
15
8
78
95
1025
30
8
78
95
1025
75
9
78
95
1045
5
9
78
95
1045
15
9
78
95
1045
30
9
78
95
1045
75
10
78
95
930
5
10
78
95
930
15
10
78
95
930
30
10
78
95
930
75
1
78
100
1000
5
1
78
1 00
1000
15
1
78
100
1000
30
1
78
100
1000
75
2
78
100
1015
5
2
70
100
1015
15
1
78
100
1015
30
2
78
100
1015
75
3
78
100
1005
15
3
78
1 00
1005
30
3
78
100
1005
75
4
78
100
1 105
5
4
78
100
1 105
15
4
78
100
1105
30
4
78
100
1 105
75
5
78
100
1055
5
5
78
100
1055
15
5
78
100
1055
30
5
78
100
1055
75
6
78
100
1030
5
6
78
100
1030
15
TEMPERATURE
CENT
11.5
10.4
08.9
10.1
09.3
07.5
16.0
10.5
09.8
08.2
13.2
10.1
09.2
07.4
11.2
09.6
09.1
07.3
12.8
10.3
10.1
09.2
14.2
11.3
10.0
08.9
14.4
10.8
09.7
08.3
13.3
09.7
09.1
07.9
11.1
09.4
09.3
08.3
12.9
11.8
1 1 .G
10.6
09.7
09.5
08.6
16.3
11.1
10.7
09.4
12.3
09.9
09.6
08.5
11.8
09.9
WATERSHED 109
STATION TIME DEPTH TEMPERATURE
CM CENT
6
78
100
1030
30
09.9
6
78
100
1030
75
08.5
7
78
100
1020
5
12.3
7
78
100
1020
15
10.2
7
78
100
1020
30
10.4
7
78
100
1020
75
10.0
8
78
100
11 00
5
13.8
8
78
100
1100
15
11 .5
8
78
100
1100
30
10.9
8
78
100
1100
75
10.0
9
78
100
1050
5
12.8
9
78
100
1050
15
10.1
9
78
100
1050
30
09.8
9
78
100
1050
75
09.1
10
78
100
1035
5
13.3
10
78
100
1035
15
09.9
10
78
100
1035
30
09.7
10
78
100
1035
75
08.9
5
78
101
920
5
10.6
5
78
101
920
15
09.9
5
78
101
920
30
09.9
5
78
101
920
75
08.7
6
78
101
1500
5
15.7
6
78
101
1500
15
12.2
6
78
101
1500
30
10.4
6
78
101
1500
75
08.7
-------�
Table A.
(Continued)
B. Watershed 110
watershed HO
STATION
TIME
DEPTH
TEMPER
CM
CENT
1
7
1 11
950
15
12.0
1
7
1 11
950
30
11.5
1
7
1 1 1
950
75
10.2
2
7
1 11
930
5
12.3
2
7
1 1 1
930
15
11.7
2
7
1 11
930
30
11.2
2
7
1 11
930
75
09.8
3
7
1 11
1015
5
13.9
3
7
1 11
1015
15
12.6
3
7
1 1 1
1015
30
12.4
3
7
1 11
1015
75
11.0
5
7
1 11
1 105
5
12.8
5
7
1 11
1 105
15
11.9
5
7
1 1 1
1 105
30
11.5
5
7
1 11
1 105
75
10.5
6
7
1 1 1
1450
5
13.4
6
7
1 1 1
1450
15
12.2
6
7
1 11
1450
30
11.7
6
7
1 11
1450
75
10.4
7
7
1 1 1
1430
5
14.0
7
7
1 1 1
1430
15
11.9
7
7
1 1 1
1430
30
11.5
7
7
1 1 1
1430
75
10.8
8
7
1 1 1
1405
5
12.7
8
7
1 1 1
1405
15
11.6
8
7
1 11
1405
30
11.0
8
7
1 11
1405
75
09.8
9
7
1 11
1315
5
14.2
9
7
1 11
1315
15
12.0
9
7
1 11
1315
30
11.5
9
7
111
1315
75
10.3
10
7
1 11
1345
5
14.6
10
7
1 11
1345
15
11.8
10
7
1 1 1
1345
30
11.3
10
7
1 11
1345
75
10.1
1
7
1 1 B
1420
5
17.6
1
7
1 18
1420
15
13.2
1
7
1 18
1420
30
12.0
1
7
118
1420
75
1 1 .3
2
7
1 18
1430
5
15.8
2
7
1 18
1430
15
13.6
2
7
1 18
1430
30
11.7
2
7
1 18
1430
75
11.0
3
7
1 18
1405
5
16.6
3
7
118
1405
15
13.3
3
7
1 18
1405
30
12.8
3
7
1 18
1405
75
12.1
5
7
1 18
1345
5
13.6
5
7
1 18
1345
15
1 1 .9
5
7
1 18
1345
30
11.6
5
7
1 18
1345
75
11.2
6
7
1 18
1320
5
13.1
6
7
118
1320
15
12.2
6.
7
118
1320
30
12.0
6
7
118
1320
75
11.3
WATERSHED 110
STATION TIME
7
77
1 18
1325
7
77
1 18
.1325
7
77
1 18
1325
7
77
1 18
1325
8
77
t 18
1335
8
77
1 18
1335
8
77
1 18
1335
8
77
1 18
1335
9
77
1 18
1310
9
77
1 18
1310
9
77
1 18
1310
9
77
t 18
1310
10
77
118
1300
10
77
1 18
1300
10
77
1 18
1300
10
77
1 18
1300
1
77
125
1515
1
77
125
1515
1
77
125
1515
1
77
125
1515
2
77
1 25
1520
2
77
125
1520
2
77
125
1520
2
77
1 25
1520
3
77
1 25
1505
3
77
1 25
1505
3
77
125
1505
3
77
1 25
1505
5
77
125
1410
5
77
1 25
1410
5
77
1 25
1410
5
77
125
1410
6
77
1 25
'1440
6
77
1 25
1440
6
77
1 25
1440
6
77
1 25
1440
7
77
125
1445
7
77
125
1445
7
77
125
1445
7
77
125
1445
8
77
1 25
1415
8
77
1 25
1415
8
77
1 25
1415
8
77
125
1415
9
77
125
1430
9
77
1 25
1430
9
77
125
1430
9
77
1 25
1430
10
77
125
1425
10
77
125
1425
10
77
125
1425
10
77
125
1425
1
77
133
1425
1
77
133
1425
1
77
133
1425
DEPTH TEMPERATURE
CM
CENT
5
13.9
15
12.0
30
1 1 .8
75
11.5
5
12.6
15
11.6
30
11.3
75
10.7
5
13.9
15
12,0
30
11.7
75
11.2
5
13.8
15
11.8
30
11.5
75
10.8
5
20.1
15
15.5
30
13.1
75
11.7
5
18.3
15
16.2
30
12.7
75
11.3
5
19.2
15
15.1
30
13.9
75
12.4
5
16.0
15
13.5
30
12.5
75
11.4
5
15.3
15
13.8
30
12.8
75
11.4
5
16.8
15
13.6
30
12.8
75
11.9
5
14.8
15
13.3
30
12.2
75
10.9
5
16.6
15
13.6
30
12.6
75
1 1 .4
5
16.1
15
13.4
30
12.4
75
11 .0
5
21 .0
15
15.0
30
13.0
WATERSHED HO
STATION TIME DEPTH
CM
1
77
1 33
1425
75
2
77
133
1435
5
2
77
133
1435
15
2
77
133
1435
30
2
77
1 33
1435
75
3
77
1 33
1415
5
3
77
1 33
1415
15
3
77
133
1415
30
3
77
133
1415
75
5
77
133
1310
5
5
77
133
1310
15
5
77
1 33
1310
30
5
77
133
1310
75
6
77
133
1340
5
6
77
133
1340
15
6
77
133
1340
30
6
77
133
1340
75
7
77
133
1345
5
7
77
133
1345
15
7
77
133
1345
30
7
77
133
1345
75
8
77
133
1320
5
a
77
133
1320
15
8
77
133
1320
30
8
77
133
1320
75
9
77
133
1330
5
9
77
133
1330
15
9
77
1 33
1330
30
9
77
133
1330
75
10
77
133
1325
5
10
77
133
1325
15
10
77
133
1325
30
10
77
133
1325
75
6
77
143
1440
5
6
77
143
1440
15
6
77
143
1440
30
6
77
143
1440
75
7
77
143
1445
5
7
77
143
1445
15
7
77
143
1445
30
7
77
143
1445
75
9
77
143
1435
5
9
.77
143
1435
15
9.
77
143
1435
30
9
77
143
1435
75
10
77
143
1430
5
10
77
143
1430
15
10
77
143
1430
30
10
77
143
1430
75
1
77
151
1310
5
1
77
151
1310
15
1
77
151
1310
30
1
77
151
1310
75
2
77
151
1300
5
2
77
151
1300
15
TEMPERATURE
CENT
11.9
18. 1
15.6
12.6
11.6
18.2
14.3
13.5
12.5
14.6
12.7
12.1
11.4
14.1
12.8
12.2
11.5
15.9
13.1
12.6
12.0
14.0
12.7
11.9
11.2
15.6
12.9
12.2
11.5
15.0
12.5
12.0
11.1
16.6
15.6
14.8
13.0
17.6
15.6
15.0
13.9
17.5
15.5
14.6
13.1
16.7
14.8
14.1
12.4
16.6
15.7
15.2
14.3
16.0
16.0
-------�
Table. 4 (Continued)
B. Watershed 110
WATERSHED 110
STATION TIME
2
77
151
1300
2
77
151
1300
3
77
151
1320
3
77
151
1320
3
77
151
1320
3
77
151
1320
5
77
151
1255
5
77
151
1255
5
77
151
1255
5
77
151
1255
6
77
151
1335
6
77
151
1335
6
77
151
1335
6
77
151
1335
7
77
151
1330
7
77
151
1330
7
77
151
1330
7
77
151
1330
8
77
151
1250
8
77
151
1250
8
77
151
1250
8
77
151
1250
9
77
151
1340
9
77
151
1340
9
77
151
1340
9
77
151
1340
10
77
151
1240
10
77
151
1240
10
77
151
1240
10
77
151
1240
1
77
158
1455
1
77
158
1455
1
77
158
1455
1
77
158
1455
2
77
158
1510
2
77
158
1510
2
77
158
1510
2
77
158
1510
3
77
158
1440
3
77
158
1440
3
77
158
1440
3
77
158
1440
5
77
158
1355
5
77
158
1355
5
77
158
1355
5
77
158
1355
6
77
1 58
1420
6
77
1 58
1420
6
77
158
1420
6
77
158
1420
7
77
158
1425
7
77
158
1425
7
77
158
1425
7
77
158
1425
8
77
158
1405
WATERSHED 110
DEPTH
TEMPERATURE
STATION
TIME
CM
CENT
30
15.0
8
77
158
1405
75
14.1
8
77
158
1405
5
16.6
8
77
1 58
1405
15
15.9
9
77
158
1415
30
15.7
9
77
158
1415
75
14.7
9
77
150
1415
5
15.7
9
77
158
1415
15
15.2
10
77
1 58
1410
30
14.9
10
77
158
1410
75
14.1
10
77
158
1410
5
15.5
10
77
158
1410
15
15. \
1
77
166
1510
30
14.9
1
77
166
1510
75
13.8
1
77
166
1510
5
16.0
1
77
166
1510
15
15.4
2
77
166
1520
30
15.2
2
77
166
1520
75
14.6
2
77
166
1520
5
15. 1
2
77
166
1520
15
14.8
3
77
166
1500
30
14.4
3
77
1 GG
1500
75
13.3
3
77
166
1500
5
15.8
3
77
166
1500
15
15.2
5
77
166
1405
30
14.9
5
77
166
1405
75
14.0
5
77
166
1405
5
15.2
5
77
166
1405
15
14.7
6
77
166
1435
30
14.4
6
77
166
1435
75
13.2
6
77
166
1435
5
18.3
6
77
166
1435
15
15.7
7
77
166
1440
30
14.9
7
77
166
1440
75
14.3
7
77
166
1440
5
16.4
7
77
166
1440
15
15.9
8
77
166
1415
30
14.8
8
77
166
1415
75
14.2
8
77
166
1415
5
17.3
8
77
166
1415
15
15.6
9
77
166
1425
30
15.4
9
77
166
1425
75
14.7
9
77
166
1425
5
14.6
9
77
166
1425
15
14.5
10
77
166
1420
30
14.6
10
77
166
1420
75
14.2
10
77
166
1420
5
14.8
10
77
166
1420
15
14.6
5
77
195
1300
30
14.6
5
77
195
1300
75
13.9
5
77
195
1 300
5
15.6
5
77
195
1300
15
15.0
7
77
195
1320
30
15.0
7
77
195
1320
75
14.7
7
77
195
1320
5
14.3
7
77
195
1320
DEPTH
TEMPER
CM
CENT
15
14.3
30
14.2
75
13.5
5
15.1
15
14.7
30
14.7
75
14.1
5
14.7
15
14.4
30
14.3
75
13.5
5
18.4
15
16.5
30
15.6
75
14.4
5
17.5
15
16.7
30
15.4
75
17.0
5
18.1
15
16.6
30
16.1
75
14.8
5
17.2
15
16.1
30
15.3
75
14.2
5
16.6
15
15.9
30
15.3
75
13.8
5
17.4
15
16.0
30
15.6
75
14.7
5
16.2
15
15.6
30
14.8
75
13.5
5
17.0
15
15.9
30
15.3
75
14.1
5
16.5
15
15.3
30
14.8
75
13.5
5
22.7
15
21 .5
30
20.5
75
18.6
5
23.3
15
21 .0
30
20.3
75
18.9
110
TIME
DEPTH
CM
TEMPERAT
CENT
195
325
5
21.6
195
325
15
20.5
195
325
30
19.4
195
325
75
17.0
195
0
5
21.9
1 95
0
75
17.0
196
020
5
22.5
1 96
020
15
21.0
196
020
30
20.4
196
020
75
18.7
196
005
5
21.4
196
005
15
20.9
196
005
30
20. 1
196
005
75
18.4
196
035
5
22.8
196
035
15
21.2
196
035
30
20.9
196
035
75
18.8
1 96
045
5
21 .2
196
045
15
20.5
19G
045
30
20. 1
196
045
75
17.8
1 96
050
5
21.9
1 96
050
15
20.5
196
050
30
20. 1
196
050
75
18.9
202
345
5
26.6
202
345
15
23. 1
202
345
30
21.4
202
345
75
19.5
202
305
5
25. 1
202
305
15
23. 3
202
305
30
21.0
202
305
75
19.2
202
420
5
26.2
202
420
15
23.0
202
420
30
22.0
202
420
75
19.6
202
030
5
23.2
202
030
15
22. 1
202
030
30
21.4
202
030
75
18.2
202
005
5
23.8
202
005
15
22.5
202
005
30
21.4
202
005
75
19.6
202
855
5
22.7
202
855
15
22.0
202
855
30
21.1
202
855
75
18.4
202
920
5
23.5
202
920
15
21.8
202
920
30
21 .2
202
920
75
19.7
202
940
5
22.3
WATERSHED
STATION
8 77
8 77
8 77
8 77
10 77
10 77
1 77
1 77
1 77
1 77
2 77
2 77
2 77
2 77
3 77
3 77
3 77
3 77
6 77
6 77
6 77
6 77
7 77
7 77
7 77
7 77
1 77
1 77
1 77
1 77
2 77
2 77
.2 77
2 77
3 77
3 77
3 77
3 77
4 77
4 77.
4 77
4 77
5 77
5 77
5 77
5 77
6 77
6 77
6 77
6 77
7 77
7 77
7 77
7 77
8 77
-------�
Table 4. (Continued)
B. Watershed
110
WATERSHED HO
STATION TIME
8
77
202
940
8
77
202
940
8
77
202
940
9
77
202
830
9
77
202
830
9
77
202
030
9
77
202
830
10
77
202
GOO
10
77
20?
000
10
77
202
800
10
77
202
800
1
77
208
1350
1
77
200
1350
1
77
200
1350
1
77
20B
1350
2
77
208
1400
2
77
208
1400
2
77
208
1400
2
77
208
1400
3
77
206
1345
3
77
200
1345
3
77
200
1345
3
77
208
1345
4
77
208
1340
4
77
208
1340
4
77
208
1340
4
77
208
1 340
5
77
208
1305
5
77
208
1305
5
77
208
1305
5
77
208
1305
6
77
208
1325
6
77
208
1325
6
77
208
1325
6
77
208
1325
7
77
208
1330
7
77
208
1330
7
77
208
1330
7
77
208
1330
8
77
208
1310
8
77
208
1310
8
77
208
1310
8
77
208
1310
9
77
208
1320
9
77
208
1320
9
77
208
1320
9
77
208
1320
10
77
208
1315
10
77
208
1315
10
77
208
1315
1
77
216
1455
1
77
216
1455
1
77
216
1455
1
77
216
1455
2
77
216
1505
WATERSHED 110
DEPTH
TEMPERATURE
STATION
TIME
CM
CENT
15
21 .4
2
77
216
1505
30
20.2
2
77
216
1505
75
17.8
2
77
216
1505
5
22.0
3
77
216
1445
15
21 .7
3
77
216
1445
30
20.9
3
77
216
1445
75
18.7
3
77
2 t 6
1445
5
21.9
4
77
216
1435
15
20.9
4
77
216
1435
30
20.2
4
77
2 1 6
1435
75
17.7
4
77
216
1435
5
21 .4
5
77
216
1350
15
19.8
5
77
2 1 G
1350
30
16.5
5
77
216
1350
75
18.8
5
77
216
1350
5
20.8
6
77
216
1420
15
19.9
6
77
216
1420
30
19.4
6
77
216
1420
75
18.7
6
77
216
1420
5
21 .0
7
77
216
1430
15
19.9
7
77
216
1430
30
19.8
7
77
216
1430
75
19. 1
7
77
216
1430
5
18.7
8
77
216
1400
15
18.6
8
77
216
1400
30
18.8
8
77
216
1400
75
18.1
8
77
216
1400
5
18.7
9
77
216
1415
15
18.7
9
77
216
1415
30
19.0
9
77
216
1415
75
18.6
9
77
216
1415
5
18.9
10
77
216
1405
15
18.6
10
77
216
1405
30
18.7
10
77
216
1405
75
17.9
10
77
216
1405
5
19.5
1
77
222
1325
15
19.1
1
77
222
1325
30
19.2
1
77
222
1325
75
18.9
1
77
222
1325
5
18.5
2
77
222
1335
15
18.4
2
77
222
1335
30
18.3
2
77
222
1335
75
17.4
2
77
222
1335
5
19.0
3
77
222
1315
15
19.1
3
77
222
1315
30
19.1
3
77
222
1315
75
18.4
3
77
222
1315
5
19.0
4
77
222
1310
15
18.6
4
77
222
1310
30
18.6
4
77
222
1310
5
25.2
4
77
222
1310
15
21 .7
5
77
222
1215
30
20.2
5
77
222
1215
75
18.9
5
77
222
1215
5
22.8
5
77
222
1215
WATERSHED 110
DEPTH
TEMPERATURE
STATION
TIME
DEPTK/
TEMPER/
CM
CENT
CM
CENT
15
21 .5
6
77
222
1245
5
23.4
30
19.8
6
77
222
1245
15
22.0
75
18.6
6
77
222
1245
30
20.8
5
24.2
6
77
222 .
1 245
75
18.6
15
21 .5
7
77
222
1300
5
24.8
3a
20.7
7
77
222
1300
15
21 .8
75
19.0
7
77
222
1300
30
21.0
5
21.9
7
77
222
1300
75
19.8
15
20.6
0
77
222
1 220
5
22.6
30
19.8
8
77
222
1 220
15
21 .3
75
17.8
8
77
222
1 220
30
20.2
5
22.5
8
77
222
1 220
75
18.1
15
20.7
9
77
222
1235
5
21.9
30
19.9
9
77
222
1235
15
22.0
75
18.6
9
77
222
1235
30
21.1
5
21.6
9
77
222
1 235
75
19.1
15
20.5
10
77
222
1230
5
23.3
30
19.6
10
77
222
1230
1 5
21 .3
75
17.8
10
77
222
1 230
30
20.5
5
23.0
10
77
222
1230
75
18.4
15
20.4
8
77
227
1300
5
21 .8
30
19.9
8
77
227
1300
15
21 .0
75
18.9
8
77
227
1300
30
20.2
5
21 .2
8
77
227
1300
75
18.5
15
20.0
6
77
228
1 330
5
22.6
30
19.1
6
77
2 28'
1 330
15
21.6
75
17.4
6
77
228
1 330
30
20.7
5
20.9
6
77
228
1330
75
18.8
15
20.6
7
77
228
930
5
22.5
30
19.8
7
77
228
930
15
21 .4
75
18.4
7
77
228
930
30
21 .0
5
21 .8
7
77
228
930
75
20.0
15
20.0
9
77
228
1410
5
21 .8
30
19.3
9
77
228
1410
15
21 .9
75
17.7
9
77
228
1410
30
21.1
5
26.6
9
228
1410
75
19.5
15
22.9
1
229
1320
5
25.1
30
21 .5
1
77
229
1320
15
23.0
75
19.8
1
77
229
1320
30
21 .7
5
24.0
1
77
229
1320
75
20. 1
15
22.7
2
77
229
1310
5
23.8
30
20.9
2
77
229
1310
15
22.8
75
19.4
2
77
229
1310
30
21.2
5
25.9
2
77
229
1310
75
19.8
15
22.7
3
77
229
1330
5
25. 1
30
21 .9
3
77
229
1330
15
22.8
75
19.8
3
77
229
1330
30
22.0
5
23.7
3
77
229
1330
75
20.2
15
22. 1
4
77
229
835
5
23.0
30
21 .2
4
77
229
835
15
22.0
75
18.5
4
77
229
835
30
21.4
5
24.3
4
77
229
835
75
18.9
15
22.3
5
77
229
920
5
23.6
30
21 .2
5
77
229
920
15
22.4
75
19.6
5
77
229
920
30
21.5
-------�
Table 4, (Continued)
B. Watershed 110
WATERSHED 110
TI ON
TIME
5
77
229
920
6
77
229
1345
6
77
229
1345
6
77
229
1345
6
77
229
1345
10
77
229
755
10
77
229
755
10
77
229
755
10
77
229
755
1
77
237
1525
1
77
237
1525
1
77
237
1525
1
77
237
1525
2
77
237
1535
2
77
237
1535
2
77
237
1535
2
77
237
1535
3
77
237
1520
3
77
237
1520
3
77
237
1520
3
77
237
1520
4
77
237
1510
4
77
237
1510
4
77
237
1510
4
77
237
1510
5
77
237
1415
5
77
237
1415
5
77
237
1415
5
77
237
1415
6
77
237
1455
6
77
237
1455
6
77
237
1455
6
77
237
1455
7
77
237
1500
7
77
237
1 500
7
77
237
1500
7
77
237
1500
8
77
237
1425
8
77
237
1425
8
77
237
1425
8
77
237
1425
9
77
237
1445
9
77
237
1445
9
77
237
1445
9
77
237
1445
10
77
237
1435
10
77
237
1435
10
77
237
1435
10
77
237
1435
1
77
243
1515
1
77
243
1515
1
77
243
1515
1
77
243
1515
2
77
243
1525
2
77
243
1525
WATERSHED 110
DEPTH
TEMPERATURE
STATION
TIME
CM
CENT
75
19.9
2
77
243
1525
5
23.0
2
77
243
1525
15
21 .8
3
77
243
1510
30
20.6
3
77
243
1510
75
18.6
3
77
243
1510
5
22.6
3
77
243
1510
15
21.6
4
77
243
1500
30
20.8
4
77
243
1500
75
18.8
4
77
243
1500
D
21.6
4
77
243
1500
15
19.9
5
77
243
14 15
30
19.6
5
77
243
1415
75
19.2
5
77
243
1415
5
19.6
5
77
243
1415
15
19.5
6
77
243
1450
30
19.4
6
77
243
1450
75
19.0
6
77
243
1450
5
20.4
6
77
243
1450
15
19.9
7
77
243
1455
30
19.8
7
77
243
1455
75
19.2
7
77
243
1455
5
18.8
7
77
243
1455
15
18.8
8
77
243
1425
30
18.9
8
77
243
1425
75
18.3
8
77
24 3
1425
5
18.4
8
77
243
1425
15
18.6
9
77
243
1440
30
19.1
9
77
243
1440
75
18.8
9
77
243
1440
5
18.7
9
77
243
1440
15
18.6
10
77
243
1435
30
18.9
10
77
243
1435
75
18.3
10
77
243
1435
5
19.4
10
77
243
1435
15
19. 1
1
77
251
1400
30
19.2
1
77
251
1400
75
19. 1
1
77
251
1400
5
18.4
1
77
251
1400
15
18.6
2
77
251
1415
30
18.6
2
77
251
1415
75
18.0
2
77
251
1415
5
19.3
2
77
251
1415
15
19.2
3
77
251
1405
30
19.4
3
77
251
1405
75
18.8
3
77
251
1405
5
19.2
3
77
251
1405
15
18.9
4
77
251
1440
30
18.9
4
77
251
1440
75
18.3
4
77
251
1440
5
25.4
4
77
251
1440
15
22.3
5
77
251
1425
30
20.7
5
77
251
1425
75
19.4
5
77
251
1425
5
23.1
5
77
251
1425
15
21.8
6
77
251
1510
WATERSHED 110
DEPTH
TEMPER.
CM
CENT
30
20.2
75
19.0
5
24.5
15
21.8
30
21.0
75
19.5
5
22.3
15
21 .0
30
20.3
75
18.3
5
23.0
15
21 .2
30
20.2
75
19. 1
5
22.3
15
21 . 1
30
20.1
75
18.4
5
23.5
15
20.9
30
20.3
75
19.4
5
21 .6
15
20.4
30
19.6
75
18.0
5
21 .0
15
21 .2
30
20.4
75
18.9
5
22.7
15
20.7
30
19.9
75
18.3
5
22.3
15
21.0
30
20.6
75
19.8
5
21 .2
15
20.8
30
20.2
75
19.5
5
22.1
15
21 .2
30
20.9
75
19.9
5
20.3
15
20.1
30
19.9
75
18.7
5
20.7
15
20.3
30
20.1
75
19.5
5
20.5
CM
CENT
6
77
251
1510
15
20. 1
6
77
251
1510
30
19.9
6
77
251
1510
75
18.8
7
77
251
1430
5
21.0
7
77
251
1430
15
20.4
7
77"
251
1430
30
20.2
7
77
251
1430
75
19.8
8
77
251
1520
5
20.4
8
77
251
1520
15
20.0
0
77
251
1520
30
19.6
8
77
251
1520
75
18.5
9
77
251
1500
5
20.5
9
77
251
1 500
5
20.9
9
77
251
1500
15
20.6
9
77
251
1500
1 5
20.2
9
77
251
1500
30
20.3
9
77
251
1500
30
19.8
9
77
251
1500
75
19.4
9
77
251
1500
75
18.8
1
77
259
950
5
18.7
1
77
259
950
15
18.5
1
77
259
950
30
18.6
1
77
259
950
75
18.5
2
77
259
1000
5
18.5
2
77
259
1000
1 5
18.3
2
77
259
1000
30
18.5
2
77
259
1000
75
18.4
3
77
259
945
5
18.9
3
77
259
945
15
18.8
3
77
259
945
30
18.9
3
77
259
945
75
18.7
4
77
259
935
5
' 18.0
4
77
259
935
15
18.0
4
77
259
935
30
18.0
4
77
259
935
75
17.8
5
77
259
900
5
17.9
5
77
259
900
1 5
18.0
5
77
259
900
30
18.1
5
77
259
900
75
18.0
6
77
259
925
5
18.0
6
77
259
925
15
18.0
6
77
259
925
30
18.1
6
77
259
925
75
17.9
7
77
259
930
5
18.3
7
77
259
930
15
18.4
7
77
259
930
30
18.4
7
77
259
930
75
18.5
8
77
259
905
5
17.8
8
77
259
905
15
17.8
8
77
259
905
30
17.8
8
77
259
905
75
17.6
9
77
259
920
5
18.4
9
77
259
920
15
18.4
9
77
259
920
30
18.6
9
77
259
920
75
18.4
-------�
Table A (Continued)
B. Watershed 110
WATERSHED 110
STATION TIME
10
77
259
915
10
77
259
915
10
77
259
915
10
77
259
915
1
77
2U2
945
1
77
262
945
1
77
262
945
1
77
262
945
2
77
262
050
2
77
26?
050
2
77
2(32
050
2
77
262
850
3
77
262
1040
3
77
262
1040
3
77
262
1 040
3
77
262
1040
1
77
264
1340
1
77
264
1340
1
77
264
1340
1
77
264
1340
2
77
264
1350
2
77
264
1350
2
77
264
1350
2
77
?<">4
1 350
3
7 7
?r. a
1 330
3
77
^04
1 330
3
77
264
1 330
3
77
264
1330
4
77
264
1320
4
77
264
1320
4
77
264
1320
4
77
264
1320
5
77
264
1225
5
77
264
1225
5
77
264
1225
5
77
264
1225
6
77
264
1300
6
77
264
1300
6
77
264
1300
6
77
264
1300
7
77
264
1310
7
77
264
1310
7
77
264
1310
7
77
264
1310
e
77
264
1240
8
77
264
1240
e
77
264
1240
8
77
264
1240
9
77
264
1255
9
77
264
1255
9
77
264
1255
9
77
264
1255
10
77
264
1250
10
77
264
1250
10
77
264
1250
WATERSHED 110
DEPTH
TEMPERATURE
STATION
TIME
CM
CENT
5
18.2
10
7
264
1250
15
18.1
1
7
271
1500
30
18.1
1
7
271
1500
75
17.9
1
7
27 1
1'jOO
5
21 .2
1
7
271
1500
15
20.0
2
7
271
1505
30
19.6
2
7
271
1505
75
18.8
2
7
271
1505
5
19.9
2
7
271
1505
15
19.8
3
7
271
14 50
30
19.3
3
7
271
1450
75
18.5
3
7
271
1 450
5
21.8
3
7
271
1450
15
20.3
4
7
271
1 440
30
20. 1
4
7
271
1440
75
18.9
4
7
271
1440
5
20. 1'
4
7
271
1440
15
19.9
5
7
271
1400
30
19.7
5 Ļ
7
271
1400
75
19.0
5
7
271
1400
5
19.7
5
7
271
1400
15
19.6
6
7
271
1425
30
19.5
6
7
271
1425
75
in.7
6
7
271
1425
5
20.4
7
7
?7 1
14 35
15
20. 1
7
7
27 1
14 35
30
20. 1
7
7
271
1435
75
19.2
7
7
271
1435
5
19.2
8
7
271
1410
15
19.2
8
7
271
1410
30
19.2
8
7
271
1410
75
18.1
8
7
271
1410
5
19.3
9
7
271
1420
15
19.4
9
7
271
1420
30
19.4
9
7
271
1420
75
18.7
9
7
271
1420
5
19.5
10
7
271
1415
15
19.4
10
7
271
1415
30
19.3
10
7
271
1415
75
18.3
10
7
271
1415
5
19.4
4
7
273
1000
15
19.6
4
7
273
1000
30
19.6
4
7
273
1000
75
19.1
4
7
273
1000
5
19.2
7
7
273
1315
15
19.2
7
7
273
1315
30
19.0
7
7
273
1315
75
17.9
7
7
273
1315
5
19.7
8
7
273
830
15
19.7
8
7
273
830
30
19.7
8
7
273
830
75
18.8
8
7
273
830
5
19.3
9
7
273
1035
15
19.3
9
7
273
1035
30
19.2
9
7
273
1035
WATERSHED 110
DEPTH
TEMPERATURE
STATION
TIME
DEPTH
TEMPERATU
CM
CENT
CM
CENT
75
18.2
9
77 273
1035
75
18.1
5
19.9
1
77 278
1430
5
16.7
15
18.8
1
77 278
1430
15
15.3
30
18.7
1
77 278
1430
30
15.9
75
18.5
1
77 270
1430
75
15.9
5
19.1
2
77 278
1440
5
16.0
15
18.6
2
77 270
1440
15
15.5
30
18.6
2
77 270
1440
30
16.3
75
18.3
2
77 278
1 440
75
17.0
5
20. 1
3
77 270
1425
5
17.3
15
19.2
3
77 270
1425
15
16.3
30
19.1
3
77 278
1425
30
16.6
75
18.7
3
77 278
1425
75
17.4
5
18.2
4
77 278
1415
5
15.0
15
18.1
4 .
77 278
1415
15
15.2
30
18.3
4
77 278
1415
30
15.6
75
17.8
4
77 278
1415
75
16.9
5
18.2
5
77 278
1335
5
14.8
15
18.2
5
77 278
1335
15
14.8
30
18.4
5
77 278
1335
30
15.7
75
18.2
5
77 278
1335
75
16.6
5
18.7
6
77 278
1405
5
15.3
30
18.4
6
77 278
1405
15
15.3
75
17.9
6
77 27H
1405
30
16.0
5
10.9
6
77 2VI)
1 -10i
7 5
17.0
1 5
18.6
7
77 27U
14 10
!3
1'J.5
30
18.6
7
77 278
14 10
15
15.9
75
18.5
7
77 278
1410
30
16.3
5
18.0
7
77 278
1410
75
17.1
15
18.1
8
77 278
1345
5
14.8
30
18.1
8
77 278
1 345
1 5
15.2
75
17.6
8
77 278
1345
30
15.9
5
18.7
8
77 278
1345
75
16.6
15
18.7
9
77 278
1400
5
15.6
30
18.8
9
77 278
1 400
15
15.5
75
18.5
9
77 278
1400
30
16.4
5
18.7
9
77 278
1400
75
17.4
15
18.4
10
77 278
1350
5
15.5
30
18.4
10
77 278
1350
15
15.3
75
18.0
10
77 278
1350
30
15.9
5
15.2
10
77 278
1 350
75
17.0
15
16.1
1
77 285
1500
5
15.0
30
16.8
1
77 285
1500
15
14.5
75
17.6
1
77 285
1500
30
14.8
5
17.4
1
77 285
1500
75
15.4
15
17.1
2
77 285
1510
5
14.1
30
17.4
2
77 285
1510
15
14.2
75
17.9
2
77 285
1510
30
14.9
5
15.2
2
77 285
1510
75
15.5
15
16.3
3
77 285
1450
5
15.8
30
17.1
3
77 285
1450
15
15.3
75
17.3
3
77 285
1450
30
15.4
5
16.8
3
77 285
1450
75
16.1
15
16.6
4
77 285
1440
5
13.4
30
17.6
4
77 285
1440
15
14.0
-------�
idULt: ;t. ^uuiiLinueu;
B. Watershed
110
WATERSHED 110
STATION TIME
4
77
285
1440
4
77
285
1440
5
77
285
1400
5
77
285
1400
5
77
285
1400
5
77
285
1400
6
77
285
1430
6
77
285
1430
6
77
285
1430
6
77
285
1430
7
77
285
1435
7
77
285
1435
7
77
285
1435
7
77
285
1435
8
77
285
1410
8
77
285
1410
8
77
285
1410
8
77
285
1410
9
77
285
1420
9
77
285
1420
9
77
285
1420
9
77
285
1420
10
77
285
1415
10
77
285
1415
10
77
285
1415
10
77
285
1415
1
77
292
740
1
77
292
740
1
77
292
740
1
77
292
740
2
77
292
800
2
77
292
800
2
77
292
800
2
77
292
800
3
77
292
1435
3
77
292
1435
3
77
292
1435
3
77
292
1435
4
77
292
1420
4
77
292
1 420
4
77
292
1420
4
77
292
1420
5
77
292
1405
5
77
292
1405
5
77
292
1405
5
77
292
1405
6
77
292
1315
6
77
292
1315
6
77
292
1315
6
77
292
1315
7
77
292
1330
7
77
292
1330
7
77
292
1330
7
77
292
1330
8
77
292
1350
WATERSHED 110
DEPTH TEMPERATURE STATION TIME
CM CENT
30
14.4
8
77
292
1350
75
15.6
8
77
292
1350
5
12.6
8
77
292
1350
15
13.5
9
77
292
1300
30
14.3
9
77
292
1300
75
15.0
9
77
292
1300
5
14.1
9
77
292
1300
15
14.2
10
77
292
1240
30
14.8
10
77
292
1240
75
15.7
10
77
292
(240
5
13.9
10
77
292
1240
15
14.5
1
77
306
1605
30
14.9
1
77
306
1605
75
15.5
1
77
306
1605
5
13.3
1
77
306
1605
15
13.9
2
77
306
1615
30
14.5
2
77
306
1615
75
15.3
2
77
306
1615
5
14.8
2
77
306
1615
15
14.7
3
77
306
1600
30
15.2
3
77
306
1600
75
16. 1
3
77
306
1600
5
13.9
3
77
306
1600
15
14.5
4
77
306
1555
30
14.9
4
77
306
1555
75
15. B
4
77
306
1555
5
10.7
4
77
306
1555
15
11.7
5
77
306
1515
30
12.6
5
77
306
1515
75
13.4
5
77
306
1515
5
11.1
5
77
306
1515
15
1 1.4
6
77
306
1540
30
12.6
6
77
306
1540
75
13.5
6
77
306
1540
5
13.6
6
77
306
1540
15
12.6
7
77
306
1550
30
12.9
7
77
306
1550
75
14.1
7
77
306
1550
5
11.4
7
77
306
1550
15
11.3
8
77
306
1525
30
11.6
8
77
306
1525
75
13.7
8
77
306
1525
5
11.0
8
77
306
1525
15
10.9
9
77
306
1535
30
11.5
9
77
306
1535
75
12.6
9
77
306
1535
5
12.0
9
77
306
1535
15
11.8
10
77
306
1530
30
12.3
10
77
306
1530
75
13.8
10
77
306
1530
5
11.9
10
77
306
1530
15
11.8
1
77
315
1535
30
12.2
1
77
315
1535
75
13.2
1
77
315
1535
5
11.2
1
77
315
1535
WATERSHED 110
DEPTH
TEMPERATURE
STATION
TIME
DEPTH
TEMPERATl
CM
CENT
CM
CENT
15
11.4
2
77
315
1545
5
12.3
30
12.0
2
77
315
1545
15
12.9
75
13.6
2
77
315
1545
30
14.4
5
12.1
2
77
315
1545
75
14.7
15
11.9
3
77
315
1525
5
13.J
30
12.6
3
77
315
1525
15
14.2
75
14.1
3
77
315
1525
30
14.8
5
12.5
3
77
315
1525
75
15.3
15
12.1
4
77
315
1520
5
12.5
30
12.6
4
77
315
1520
15
13.3
75
14.2
4
77
315
1520
30
14.0
5
15.2
4
77
315
1520
75
15.0
15
14.0
5
77
315
1400
5
12.2
30
13.5
5
77
315
1400
15
13.6
75
13.6
5
77
315
1400
30
14.5
5
14.7
5
77
315
1400
75
14.8
15
14.1
6
77
315
1430
5
13.5
30
13.4
6
77
315
1430
15
14.1
75
13.5
6
77
315
1430
30
14.8
5
15.6
6
77
315
1430
75
15.2
15
14.4
7
77
315
1455
5
13.0
30
14.1
7
77
315
1455
15
14.1
75
14.2
7
77
315
1455
30
14.6
5
14.7
7
77
315
1455
75
15.0
15
13.8
8
77
315
1410
5
12.5
30
13.5
8
77
315
1410
1 5
13.7
75
13.8
8
77
315
1410
30
14.5
5
14.8
8
77
315
14 10
75
14.7
15
13.5
9
77
315
1425
5
14.2
30
13.2
9
77
315
1425
15
13.9
75
13.2
9
77
315
1425
30
14.8
5
14.8
9
77
315
1425
75
15.1
15
14.2
10
77
315
1420
5
13.1
30
13.9
10
77
315
1420
15
14.3
75
14.2
10
77
315
1420
30
14.7
5
14.8
10
77
315
1420
75
15.1
15
13.8
1
77
320
1455
5
11.4
30
13.6
1
77
320
1455
15
10.1
75
13.6
1
77
320
1455
30
10.8
5
14.3
1
77
320
1455
75
12.2
15
13.6
2
77
320
1505
5
11.1
30
13.3
2
77
320
1505
15
10.3
75
13.6
2
77
320
1505
30
11.1
5
14.1
2
77
320
1505
75
12.4
15
14.1
3
77
320
1420
5
11.8
30
13.9
3
77
320
1420
1 5
10.8
75
14.2
3
77
320
1420
30
11.3
5
15.1
3
77
320
1420
75
13.0
15
14.2
4
77
320
1440
5
10.7
30
13.9
4
77
320
1440
15
10.2
75
14.2
4
77
320
1440
30
10.5
5
12.5
4
77
320
1440
75
13.2
15 -
13.4
5
77
320
.1435
5
10.5
30
14.4
5
77
320
1435
15
09.9
75
14.8
5
77
320
1435
30
10.8
-------�
Table 4 (Continued)
B. Watershed 110
WATERSHED 110
STATION TIME DEPTH TEMPERATURE
CM
CENT
5
77
320
1435
75
12.1
6
77
320
1410
5
11.5
6
77
320
1-4 10
15
11.1
6
77
320
1410
30
11.7
6
77
320
1410
75
13.2
7
77
320
1420
5
11.7
7
77
320
1420
15
11.1
7
77
320
1420
30
11.4
7
77
320
1 <120
75
12.4
8
77
320
1425
5
10.6
8
77
320
1425
15
10.6
8
77
320
1425
30
11.2
8
77
320
1425
75
12.8
9
77
320
1400
5
11.0
9
77
320
1400
15
10.9
9
77
320
1400
30
11.7
9
77
320
1400
75
13.3
10
77
320
1355
5
12.8
10
77
320
1355
15
11.9
10
77
320
1355
30
12.2
10
77
320
1355
75
13.6
6
77
329
1020
5
08.7
6
77
329
1020
15
09.5
6
77
329
1020
30
10.7
6
77
329
1020
75
12.8
7
77
329
1025
5
07.8
7
77
329
1025
15
09.6
7
77
329
1025
30
10.4
7
77
329
1025
75
11.4
8
77
329
1030
5
08. 1
8
77
329
1030
15
09.3
8
77
329
1030
30
10.4
8
77
329
1030
75
1 1.9
9
77
329
1010
5
10.0
9
77
329
1010
15
09.8
9
77
329
1010
30
11.0
9
77
329
1010
75
12.3
10
77
329
1005
5
08.8
10
77
329
1005
15
10.7
10
77
329
1005
30
11.4
10
77
329
1005
75
12.8
1
77
336
1445
5
09.0
1
77
336
1445
15
08.4
1
77
336
1445
30
08.7
1
77
336
1445
75
09.6
2
77
336
1455
5
08.7
2
77
336
1455
15
08.4
2
77
336
1455
30
08.8
2
77
336
1455
75
09.5
3
77
336
1440
5
09.1
3
77
336
1440
15
08.7
3
77
336
1440
30
09.1
3
77
336
1440
75
10.1
4
77
336
1430
5
08.6
4
77
336
1430
15
06.3
WATERSHED 110
STATION TIME
4
77
336
1430
4
77
336
1430
5
77
336
1425
5
77
336
1425
5
77
336
1425
5
77
336
1425
6
77
33G
1400
6
77
33G
1400
6
77
336
1400
6
77
336
1400
7
77
336
1 405
7
77
336
1405
7
77
336
1405
7
77
336
1405
8
77
336
1415
8
77
336
1415
8
77
336
1415
8
77
336
1415
9
77
336
1350
9
77
336
1350
9
77
336
1350
9
77
336
1350
10
77
336
1345
10
77
336
1345
10
77
336
1345
10
77
336
1345
1
77
342
1605
1
77
342
1605
1
77
342
1605
1
77
342
1605
2
77
342
1610
2
77
342
1610
2
77
342
1610
2
77
342
161 0
3
77
342
1600
3
77
342
1600
3
77
342
1600
3
77
342
1600
4
77
342
1555
4
77
342
1555
4
77
342
1555
4
77
342
1555
5
77
342
1515
5
77
342
1515
5
77
342
151 5
5
77
342
1515
6
77
342
1545
6
77
342
1545
6
77
342
1545
6
77
342
1545
7
77
342
1550
7
77
342
1550
7
77
342
1550
7
77
342
1550
8
77
342
1525
WATERSHED HO
DEPTH
TEMPERATURE
STATION
TIME
DEPTH
TEMPERATURE
CM
CENT
CM
CENT
30
08.5
8
77
342
1525
15
05.4
75
10.3
8
77
342
1525
30
07.2
5
08.6
8
77
342
1525
75
10.0
15
08.3
9
77
312
1540
5
06. 3
30
08.7
9
77
342
1540
15
06. 0
75
09.4
9
77
342
1540
30
07.7
5
09.0
9
77
342
1540
75
10.2
15
08.9
10
77
342
1530
5
06.0
30
09.3
10
77
342
1530
15
07.7
75
10.5
10
77
342
1530
30
08.6
5
09.0
10
77
342
1530
75
11.1
15
08.9
1
77
350
940
5
03.7
30
09.1
1
77
350
940
15
05. 2
75
09.8
1
77
350
940
30
06.3
5
08.7
1
77
350
940
75
07.2
15
08.8
2
77
350
1 1 30
5
04.6
30
09.3
2
77
350
1 1 30
15
05. 1
75
10.5
2
77
350
1 1 30
30
06.4
5
09.5
2
77
350
1 130
75
07.2
15
09.4
3
77
350
1605
5
06.2
30
09.9
3
77
350
1605
15
06. 1
75
10.9
3
77
350
1605
30
06.5
5
10.0
3
77
350
1605
75
07.9
15
10.1
4
77
350
1520
5
05.7
30
10.4
4
77
350
1520
15
05.6
75
1 1 .6
4
77
350
1 520
30
06.0
5
02.7
4
77
350
1 520
75
08.2
15
04.3
5
77
350
1455
5
05.2
30
06.4
5
77
350
1455
15
05.3
75
08.8
5
77
350
1455
30
06.2
5
03.3
5
77
350
1455
75
07. 1
15
04 .1
6
77
350
1 600
5
06.6
30
06.8
6
77
350
1600
15
06.6
75
08.9
6
77
350
1600
30
07.2
5
03.9
6
77
350
1600
75
08.6
15
05.5
7
77
350
1610
5
06.0
30
06.8
7
77
350
1610
15
06.3
75
09.4
7
77
350
1610
30
06. 7
5
02.7
7
77
350
1610
75
07.5
15
04.4
8
77
350
1545
5
06.0
30
05.6
8
77
350
1545
15
06.3
75
09.8
8
77
350
1545
30
07. 1
5
02.0
8
77
350
1545
75
08.6
15
04.3
9
77
350
1555
5
07. 1
30
06.3
9
77
350
1555
1 5
07. 1
75
08.6
9
77
350
1555
30
07.7
5
04.9
9
77
350
1555
75
08.9
15
05.7
10
77
350
1550
5
08.0
30
07.3
10
77
350
1550
1 5
08. 1
75
10.0
10
77
350
1550
30
08.4
5
03.7
10
77
350
1550
75
09.9
15
05.7
1
77
361
1530
5
00.5
30
06.9
1
77
361
1530
15
02.5
75
08.7
1
77
361
1530
30
04. 5
5
03.9
1
77
361
1530
75
06.6
-------�
Table d (Continued)
B. Watershed 110
ro
ro
CM
CENT
2
77
361
1540
5
01 .5
2
77
361
1540
15
02.3
2
77
361
1540
30
04.9
2
77
361
1540
75
06.6
3
77
361
1525
5
01 .4
3
77
361
152b
15
03.7
3
77
361
1525
30
05.0
3
77
361
1525
75
07.3
4
77
361
1440
5
01 .5
4
77
3G t
1440
15
03.0
4
77
361
1 440
30
04. 1
4
77
361
1440
75
07.6
5
77
361
1430
5
00.7
5
77
361
1430
15
02.8
5
77
361
t 430
30
04.5
5
77
361
1430
75
06.4
6
77
361
1515
5
02.6
6
77
361
1515
15
03.7
6
77
361
1515
30
05.4
6
77
361
1515
75
07.8
7
77
361
1445
5
01 .5
7
77
3G1
1445
15
03.9
7
77
361
1445
30
05.1
7
77
361
1445
75
06.7
e
77
361
1455
5
02.2
8
77
361
1455
15
03.9
8
77
361
1455
30
05.5
8
77
361
1455
75
08.0
9
77
361
1510
5
04.8
9
77
361
1510
15
04.6
9
77
361
1510
30
06.4
9
77
361
1510
75
08.5
10
77
361
1500
5
04.4
10
77
361
1500
15
06.2
10
77
361
1500
30
07.4
10
77
361
1500
75
09.9
3
77
362
1350
5
01 .0
3
77
362
1350
15
03.1
3
77
362
1350
30
04.4
3
77
362
1350
75
06.9
8
77
362
1430
5
01 .7
8
77
362
1430
15
03.3
8
77
362
1430
30
04.9
8
77
362
1430
75
07.7
1
78
4
1500
5
00.2
1
78
4
1500
15
01 .6
1
78
4
1500
30
03.1
1
78
4
1500
75
05.0
2
78
4
1505
5
01 .1
2
78
4
1505
15
01 .6
2
78
4
1505
30
03.4
2
78
4
1505
75
05.0
3
78
4
1455
5
00.9
3
78
4
1455
15
02.5
3
78
4
1455
30
03.5
WATERSHED 110
STATION TIME
3
78
4
1455
4
78
4
1450
4
78
4
1450
4
78
4
1450
4
78
4
1450
5
78
4
1410
5
78
4
1410
5
78
4
1410
5
78
4
1410
6
70
4
1435
6
78
4
1435
6
78
4
1435
6
78
4
1435
7
78
4
1440
7
78
4
1440
7
78
4
1440
7
78
4
1440
8
78
4
1415
8
78
4
1415
8
78
4
1415
8
78
4
1415
9
78
4
1425
9
78
4
1425
9
78
4
1425
9
78
4
1425
10
78
4
1420
10
78
4
1420
10
78
4
1420
10
78
4
1420
7
78
10
1420
7
78
10
1420
7
78
10
1420
7
78
10
1420
1
78
11
1545
1
78
11
1545
1
78
11
1545
1
78
11
1545
2
78
11
1540
2
78
11
1540
2
78
11
1540
2
78
11
1540
3
78
11
1550
3
78
11
1550
3
78
11
1550
3
78
11
1550
4
78
11
1555
4
78
11
1555
4
78
11
1555
4
78
11
1555
5
78
11
1625
5
J8
11
1625
5
78
11
1625
5
78
11
1625
6
78
11
1605
6
78
11
1605
WATERSHED 110
DEPTH
TEMPERATURE
STATION
TIME
DEPTH
TEMPERAT
CM
CENT
CM
CENT
75
05.7
6
78
1 1
605
30
04.0
5
01.0
6
78
1 1
605
75
06.4
15
02.0
7
78
1 1
600
5
00.7
30
02.7
7
78
1 1
600
15
02.7
75
06.2
7
78
1 1
600
30
03.7
5
00.4
7
78
11
600
75
05.2
15
01.8
8
78
1 1
620
5
01.2
30
03. 1
0
78
1 1
G20
15
02. 7
75
04.0
8
78
1 1
G20
30
04.2
5
01.7
8
78
1 1
620
75
0G.5
15
02.4
9
70
1 1
610
5
03.3
30
04.0
9
78
1 1
610
15
03.2
75
06.5
9
79
1 1
610
30
04.8
5
01 .0
9
78
1 1
610
75
06.9
15
02.8
10
78
1 1
615
5
02.3
30
03.7
10
78
1 1
615
15
04.5
75
05.2
10
78
11
615
30
05.7
5
01 .5
10
78
1 1
615
75
08.3
15
02.8
1
78
18
530
5
00.9
30
04.2
1
78
18
530
15
01 .3
75
06.7
1
78
18
530
30
02.2
5
03.7
1
78
18
530
75
03.7
15
03.6
2
78
18
545
5
00. 7
30
05.0
2
78
18
545
15
01 .0
75
07.0
2
78
18
545
30
02.2
5
03.8
2
78
18
545
75
03. 7
15
05.0
6
78
18
340
5
01.4
30
06.0
6
78
18
340
15
01 .8
75
08.6
6
78
18
340
30
02.7
5
01 .3
6
78
18
340
75
04.8
15
03.5
7
78
18
355
5
01 .3
30
04.5
7
78
18
355
15
02. 1
75
05.6
.7
78
18
355
30
02.7
5
00.0
7
78
18
355
75
03.9
15
01.4
9
78
1 8
320
5
03.7
30
03. 1
9
78
18
320
15
03.7
75
04.9
9
78
18
320
30
04.7
5
00.8
9
78
18
320
75
05.8
15
01 .5
1
78
24
550
5
05.3
30
03.5
1
78
24
550
5
00.3
75
05.0
1
78
24
550
15
05.5
5
00.6
1
78
24
550
15
01 .3
15
02.3
1
78
24
550
30
02.3
30
03.4
1
78
24
550
30
05.7
75
05.6
1
78
24
550
75
03.7
5
00.7
1
78
24
550
75
07.6
15
01 .9
1
78
27
130
5
00.2
30
02.8
1
78
27
1 30
15
01 .2
75
06.0
1
78
27
1 30
30
02.2
5
00.2
1
78
27
1 30
75
03.6
15
01 .8
5
78
27
605
5
00. 1
30
03.2
5
78
27
605
15
00.9
75
04.9
5
78
27
605
30
01 .7
5
01.5
5
78
27
605
75
02.9
15
02.6
7
78
27
610
5
00.8
-------�
Table 4. (Continued)
B. 'Watershed 110
ro
PO
ro
CM
CENT
7
78
27
1610
15
01 .8
7
78
27
1610
30
02.4
7
78
27
1610
75
03.4
9
78
27
1615
5
03.5
9
78
27
1615
15
03.4
9
78
27
1615
30
04.5
9
78
27
1615
75
05.7
10
78
27
925
5
01.3
10
78
27
925
15
04.8
10
78
27
925
30
05.8
10
78
27
925
75
07.7
1
78
32
1 130
5
-0. 1
1
78
32
1 130
15
00.3
1
78
32
1 130
30
01.6
1
78
32
1 130
75
02.9
2
78
32
1 145
5
-0.6
2
78
32
1 145
15
00.4
2
78
32
1 145
30
01 .6
2
78
32
1 145
75
03.1
3
78
32
1 155
5
-0.1
3
78
32
1 155
15
01 .0
3
78
32
1 155
30
01.7
3
78
32
1 155
75
03.5
4
78
32
1 140
5
-0.3
4
78
32
1 140
15
00.6
4
78
32
1 140
30
01 . 1
4
78
32
1 140
75
03.9
5
78
32
1050
5
-1.3
5
78
32
1050
15
00.2
5
78
32
1050
30
01.3
5
78
32
1050
75
02.7
6
78
32
1200
5
00.5
6
78
32
1200
15
01 .1
6
78
32
1200
30
01 .9
6
78
32
1200
75
03.9
7
78
32
1 120
5
00. 1
7
78
32
1 120
15
01.4
7
78
32
1 120
30
02.0
7
78
32
1 120
75
03.1
8
78
32
1 105
5
00.1
8
78
32
1 105
15
01 .1
8
78
32
1 105
30
02.2
8
78
32
1 105
75
04.3
9
78
32
1115
5
02.5
9
78
32
1115
15
02.4
9
78
32
1115
30
03.8
9
78
32
1115
75
05.4
10
78
32
1110
5
00.5
10
78
32
1110
15
03.4
10
78
32
1110
30
04.5
10
78
32
1110
75
07.1
1
78
39
1 135
5
-0.3
4
78
39
1 150
15
00.3
4
78
39
1 150
30
00.8
4
78
39
1150
75
03.5
WATERSHED HO
STATION TIME
5
78
39
1 1 20
5
78
39
1 120
5
78
39
1 1 20
5
78
39
1120
6
78
39
1340
6
78
39
1340
6
78
39
1340
6
78
39
1340
7
78
39
1350
7
78
39
1350
7
78
39
1350
7
78
39
1350
8
78
39
1355
8
78
39
1 355
8
78
39
1355
8
78
39
1355
9
78
39
1335
9
78
39
1335
9
78
39
1335
9
78
39
1335
10
78
39
1330
10
78
39
1330
10
78
39
1330
10
78
39
1330
1
78
48
1430
1
78
48
1430
1
78
48
1430
1
78
48
1430
2
78
48
1420
2
78
48
1420
2
78
48
1420
2
78
48
1420
3
78
48
1435
3
78
48
1435
3
78
48
1435
3
78
48
1435
4
78
48
1440
4
78
48
1440
4
78
48
1440
4
78
48
1440
5
78
48
1415
5
78
48
1415
5
78
48
1415
5
78
48
1415
6
78
48
1455
6
78
48
1455
6
78
48
1455
6
78
48
1455
7
78
48
1450
7
78
48
1450
7
78
48
1450
7
78
48
1450
8
78
48
1515
8
78
48
1515
8
78
48
1515
WATERSHED
110
DEPTH
TEMPERATURE
STATION
TIME
DEPTH
TEMPER*
CM
CENT
CM
CENT
5
-0.4
8
78
48 1515
75
03.8
15
00.0
9
78
48 1500
5
02.2
30
01 .0
9
78
48 1500
15
02. 1
75
02.3
9
78
48 1500
30
03.0
5
00.5
9
78
48 1500
75
04.5
15
01.0
10
78
48 1510
5
03.7
30
01.8
10
78
48 1510
15
03.4
75
03.7
10
78
48 1510
30
03.8
5
00. 1
10
78
48 1510
75
05.8
15
01 .2
1
78
54 1350
5
-0.3
30
01.8
1
78
54 1350
1 5
00.4
75
02.8
1
78
54 1350
30
01 .2
5
00. 1
1
78
54 1350
75
02.4
15
01 .0
2
78
54 1355
5
-0.1
30
02.0
2
78
54 1355
15
00. 1
75
04.0
2
78
54 1355
30
01 .2
5
02.4
2
78
54 1355
75
02.2
15
02.3
3
78
54 1340
5
00.0
30
03.3
3
78
54 1340
15
00.9
75
04.9
3
78
54 1340
30
01.4
5
02. 1
3
78
54 1340
75
02.8
15
03.5
4
78
54 1405
5
-0.3
30
04. 1
4
78
54 1405
15
00.3
75
06.3
4
78
54 1405
30
00.7
5
-0.2
4
78
54 1405
75
03.0
15
00.4
5
78
54 1410
5
-0.5
30
01 .2
5
78
54 1410
15
00.3
75
02.5
5
78
54 1410
30
01.1
5
00.0
5
78
54 1410
75
02.2
1 5
00.2
6
78
54 1335
5
00. 6
30
01 .2
6
78
54 1335
15
01 .0
75
02.3
6
78
54 1335
30
01.8
5
00.0
6
78
54 1335
75
03.4
15
00.8
7
78
54 1330
5
00. 1
30
01 .4
7
78
54 1330
15
01.1
75
02.9
7
78
54 1330
30
01 .6
5
-0.1
7
78
54 1330
75
02.5
15
00.4
8
78
54 1440
5
00.3
30
00.8
8
78
54 1440
15
01 . 1
75
03. 1
8
78
54 1440
30
02.0
5
-0.2
8
78
54 1440
75
03.8
15
00.3
9
78
54 1510
5
02.2
30
01 . 1
9
78
54 1510
15
02. 1
75
02.3
9
78
54 1510
30
03.0
5
00.7
9
78
54 1510
75
04.4
15
01 . 1
10
78
54 950
5
00.7
30
01 .8
10
78
54 950
15
03.0
75
03.5
10
78
54 950
30
03.8
5
00.2
10
78
54 950
75
05.7
15
01 .2
1
78
60 1550
5
-0.8
30
01 .7
1
78
60 1550
15
00.5
75
02.6
1
78
60 1550
30
01 .3
5
00.4
1
78
60 1550
75
02.4
15
01.2
2
78
60 1600
5
00.0
30
02.0
2
78
60 1600
15
00.2
-------�
Table* 4 (Continued)
B. Watershed
1
10
WATERSHED HO WATERSHED 110
STATION
T IME
DEPTH
TEMPERATURE
STATION
TIME
CM
CENT
2
78
60
1600
30
01 .2
6
78
66
2
78
60
1600
75
02.1
6
78
66
3
78
60
1540
5
00.1
6
78
66
3
78
60
1540
15
00.8
7
78
66
3
78
0
1 540
30
01.3
7
78
66
3
78
60
1540
75
02.7
7
78
66
4
78
60
1535
5
-0. 1
7
78
66
4
70
60
1535
15
00.4
8
78
66
4
70
(-.0
i r,35
no
00.0
n
70
c.r,
4
7H
l.O
f..J5
75
02.9
ti
7 H
r><>
b
70
GO
1 'j30
5
-0.2
8
78
G6
5
78
GO
1530
15
00.3
9
78
G6
5
78
60
1530
30
01 . 1
9
78
66
5
78
60
1530
75
02.1
9
78
G6
6
78
60
1510
5
00.7
9
78
66
6
78
60
1510
15
01 .0
10
78
66
6
78
60
1510
30
01 .7
10
78
66
6
78
60
1510
75
03.3
10
78
66
7
78
60
1520
5
00.3
10
78
66
7
78
60
1520
15
01 . 1
1
78
76
7
78
60
1520
30
01 .6
1
78
76
7
78
60
1520
75
02.4
1
78
76
B
78
60
1525
5
00.5
1
78
76
8
78
60
1525
15
01 .2
2
78
76
B
78
60
1525
30
02.0
2
78
76
8
78
60
1525
75
03.7
2
78
76
9
78
60
1 505
5
02.5
2
78
76
9
78
60
1 505
15
02.5
3
78
76
9
78
60
1505
30
03.2
3
78
76
9
78
60
1505
75
04.4
3
78
76
10
78
60
1500
5
02.8
3
78
76
10
78
60
1 500
15
03.5
4
78
76
10
78
60
1500
30
04.0
4
78
76
10
78
60
1500
75
05.7
4
78
76
1
78
66
1420
5
-0. 1
4
78
76
1
78
66
1420
15
00.5
5
78
76
1
78
66
1420
30
11.3
5
78
76
1
78
66
1420
75
02.3
5
78
76
2
78
66
1440
5
00.0
5
78
76
2
78
66
1440
15
00.2
6
78
76
2
78
66
1440
30
01 .2
6
78
76
2
78
66
1440
75
02.1
6
78
76
3
78
66
1425
5
00.2
6
78
76
3
78
66
1425
15
00.9
7
78
76
3
78
66
1425
30
01 .4
7
78
76
3
78
66
1425
75
02.7
7
78
76
4
78
66
1435
5
-0.1
7
78
76
4
78
66
1435
15
00.4
8
78
76
4
78
66
1435
30
00.8
8
78
76
4
78
66
1435
75
02.8
8
78
76
5
78
66
1325
5
-0.2
8
78
76
5
78
66
1325
15
00.4
9
78
76
5
78
66
1325
30
01 .1
9
78
76
5
78
66
1325
75
02. 1
9
78
76
6
78
66
1350
5
00.7
9
78
76
WATERSHED 110
DEPTH
TEMPERA
CM
CENT
1350
15
01 . 1
1350
30
01 .7
1350
75
03.2
1355
5
00.4
1355
15
01.2
1355
30
01 .6
1355
75
02.4
1330
5
00.6
13 30
15
01.3
IJ30
30
0? . 0
1330
75
03.6
1345
5
01.9
1345
15
01.8
1345
30
02.6
1345
75
04. 1
1340
5
02.2
1340
15
03.0
1340
30
03.5
1340
75
05.4
1115
5
03.7
1115
15
03.0
1115
30
03.5
1115
75
03.8
1 125
5
02.2
1 125
15
01 .8
1 1 25
30
02 . 1
1 1 25
75
02.5
1110
5
04.0
1110
15
03.8
1110
30
04.2
1110
75
04.5
1110
5
02.2
1110
15
02.0
1110
30
02. 1
1110
75
03.2
1025
5
01 .8
1025
15
01 .8
1025
30
02.3
1025
75
02.6
1045
5
03.7
1045
15
03.6
1045
30
04. 1
1045
75
04.4
1055
5
04. 1
1055
15
03.5
1055
30
03.8
1055
75
04.0
1030
5
03.3
1030
15
03.7
1030
30
04. 1
1030
75
04.6
1040
5
04.3
1040
15
04.3
1040
30
04.9
1040
75
05.2
TION
TIME
DEPTH
TEMPERAT1
CM
CENT
10
78
76
1035
5
04.9
10
78
76
1035
15
05.2
10
78
76
1035
30
07.2
10
78
76
1035
75
06.2
1
78
83
1030
5
08.8
1
78
83
1030
15
07.4
1
78
83
1 030
30
06.6
1
78
83
1 030
75
05.5
2
7Ģ
an
103S
13
07 . ?
2
711
tin
1 i) 3
10
Of".. 5
2
70
03
1 035
30
Ob.2
2
78
83
1035
75
04.3
3
78
83
1020
5
08.8
3
78
83
1 020
15
07.0
3
78
83
1 020
30
07 .4
3
78
83
1020
75
06. 1
4
78
83
1015
5
07.6
4
78
83
1015
15
06.7
4
78
83
1015
30
06.5
4
78
83
1015
75
04.8
5
78
83
940
5
07.8
5
78
83
940
15
06.7
5
78
83
940
30
06. 1
5
78
83
940
75
05.0
6
78
83
1005
5
08.0
6
78
83
1005
15
07.5
6
78
83
1005
30
06.9
6
78
83
1005
75
05.8
7
78
83
1010
5
08.4
7
78
83
1010
15
07.2
7
78
83
1010
30
06.8
7
78
83
1010
75
05.9
8
78
83
950
5
07.8
8
78
83
950
15
07.4
8
78
83
950
30
06.8
8
78
83
950
75
05.8
9
78
83
1 000
5
07.8
9
78
83
1000
15
07.7
9
78
83
1000
30
07.4
9
78
83
1 000
75
06.4
10
78
83
955
5
08.9
10
78
83
955
15
08. 1
10
78
83
955
30
07.7
10
78
83
955
75
07. 1
4
78
93
1030
5
07.8
4
78
93
1030
15
08.0
4
78
93
1 030
30
08.2
4
78
93
1030
75
06.7
5
78
93
945
5
08.0
5
78
93
945
1 5
08.4
5
78
93
945
30
08.3
5
78
93
945
75
07.4
6
78
93
1015
5
08.9
6
78
93
1020
5
08.8
6
78
93
1015
15
08.8
-------�
Table 4 (Continued)
B. Watershed 110
WATERSHED 110
station time
6
78
93
1020
6
78
93
1020
6
78
93
1015
6
78
93
1020
6
78
93
1015
8
78
93
955
8
78
93
955
8
78
93
955
8
70
93
955
9
70
93
1010
9
78
93
1010
9
78
93
1010
9
7B
93
1010
10
78
93
1005
10
78
93
1005
10
78
93
1005
10
78
93
1005
1
78
1 03
1020
1
78
103
1020
\
78
103
1020
1
78
103
1020
2
78
103
930
2
78
103
930
2
78
1 03
930
2
78
103
930
3
78
1 03
1115
3
78
103
1115
3
78
103
1115
3
78
103
1115
6
78
103
1400
6
78
1 03
MOO
6
78
1 03
1400
6
78
103
MOO
9
78
103
1450
9
78
103
1450
9
78
1 03
1450
9
78
103
1450
10
78
1 03
1545
10
78
1 03
1545
10
78
1 03
1545
10
78
103
1545
4
78
1 04
1540
4
78
104
1540
4
78
1 04
1540
4
78
1 04
1540
5
78
1 04
1430
5
78
1 04
1 430
5
78
1 04
1430
5
78
1 04
1430
7
78
1 04
915
7
78
1 04
915
7
78
104
915
7
78
104
915
8
78
1 04
1 100
8
78
104
1 100
WATERSHED HO
DEPTH
TEMPERATURE
STATION
T IME
CM
CENT
15
08.7
S
78
104
100
30
08.6
8
78
1 04
1 00
30
08.6
1
78
1 1 0
340
75
07.8
1
78
1 10
340
75
07.5
1
78
1 1 0
340
5
08.1
1
78
1 10
340
15
08.6
2
78
1 10
355
30
08.4
2
78
1 1 0
355
75
07.3
2
78
1 10
355
5
08.9
2
78
1 10
355
15
08.8
3
78
1 10
325
30
08.7
3
78
1 10
325
75
07.8
3
78
1 10
325
5
08. 1
3
78
1 10
325
15
08.7
4
78
1 10
315
30
08.6
4
78
1 10
315
75
07.9
4
78
1 10
315
5
13.0
4
78
1 10
315
15
10.6
5
78
1 10
300
30
10. 1
5
78
1 10
300
75
08.8
5
78
1 10
300
5
10.3
5
78
1 10
300
15
09.9
6
78
1 10
440
30
09.0
6
78
1 10
440
75
07.8
6
78
1 10
440
5
13.2
6
78
1 10
440
15
11.0
7
78
1 10
425
30
10.6
7
78
1 1 0
425
75
09.4
7
78
1 10
425
5
12.1
7
78
1 1 0
425
15
10.8
8
78
1 1 0
410
30
09.9
8
78
1 10
410
75
08.7
8
78
1 10
410
5
10.6
8
78
1 10
410
15
10.7
9
78
1 1 0
450
30
09.9
9
78
1 10
450
75
08.9
9
78
1 10
450
5
14.1
9
78
1 10
450
15
11.0
10
78
1 10
510
30
10.0
10
78
1 10
510
75
08.9
10
78
1 10
510
5
12.3
10
78
1 10
510
15
10.2
1
78
1 24
905
30
10.0
1
78
1 24
905
75
08.4
1
78
1 24
905
5
12.1
1
78
1 24
905
15
10.4
2
78
1 24
915
30
10.0
2
78
1 24
915
75
09. 1
2
78
1 24
915
5
10.6
2
78
1 24
915
15
10.3
3
78
124
900
30
10.2
3
78
124
900
75
09.3
3
78
124
900
5
10.1
3
78
1 24
900
15
10.2
4
78
1 24
845
WATERSHED HO
DEPTH
TEMPERATURE
STATION
TIME
DEPTH
TEMPER)
CM
CENT
CM
CENT
30
09.9
4
78
1 24
845
15
10.3
75
08.6
4
78
124
845
30
10.4
5
12.2
4
78
124
845
75
09.4
15
10.5
5
78
1 24
800
5
10.1
30
10.0
5
78
1 24
800
15
10.4
75
09.3
5
78
1 24
800
30
10.3
5
11.4
5
78
124
800
75
09.7
15
10.3
6
78
1 24
825
5
10.6
30
09. 1
6
78
1 24
825
15
10.6
75
08.3
6
78
1 24
825
30
10.4
5
13. 1
6
78
1 24
825
75
09.7
15
11.1
7
78
1 24
040
5
10.6
30
10.7
7
78
1 24
340
15
10.7
75
09.9
7
78
1 24
840
30
10.6
5
12.0
7
78
124
840
75
10.1
15
10.3
8
78
1 24
805
5
10.1
30
09.9
8
78
1 24
805
15
10.3
75
08.8
8
78
1 24
805
30
10.1
5
12.2
8
78
1 24
805
75
09.4
15
10.3
9
78
1 24
820
5
10.5
30
09.8
9
78
124
820
15
10.5
75
09.2
9
78
1 24
820
30
10.4
5
11.5
9
78
1 24
820
75
09.8
15
10.5
10
78
1 24
010
5
10.1
30
09.9
10
78
1 24
810
15
10.5
75
09. 1
10
78
1 24
810
30
10.4
5
12.5
10
78
1 24
810
75
09.8
15
10.4
4
78
132
1500
5
15.2
30
09.9
4
78
1 32
ICiOO
15
12.8
75
09.4
4
78
1 32
1500
30
12.2
5
10.9
4
78
1 32
1500
75
10.4
15
10.1
5
78
1 32
1435
5
15.2
30
09.6
5
78
1 32
1435
15
12.5
75
08.8
5
78
1 32
1435
30
11.7
5
10.3
5
78
1 32
1435
75
10.7
15
10.3
6
78
132
930
5
12.6
30
09.8
6
78
132
930
15
12.2
75
09.2
6
78
132
930
30
11.8
5
11.9
6
78
1 32
930
75
10.5
15
10.6
7
78
132
900
5
12.9
30
09.9
7
78
132
900
15
12.1
75
09. 2
7
78
1 32
900
30
11.8
5
11.2
7
78
1 32
900
75
11.0
15
11.3
8
78
1 32
825
5
12.1
30
11.2
8
78
1 32
825
15
11.9
75
10.2
8
78
132
825
30
11.5
5
10.1
8
78
1 32
025
75
10.3
15
10.2
9
78
132
1 220
5
11.8
30
10.0
9
78
1 32
1 220
15
11.8
75
09.2
9
78
132
1 220
30
11.3
5
11.3
9
78
1 32
1 220
75
10.4
15
11.7
10
78
132
1325
5
14.1
30
11.7
10
78
132
1325
15
11.5
75
10.7
10
78
132
1325
30
10.8
5
10.0
10
78
132
1325
75
10.0
-------�
Table 4. (Continued)
B. Watershed 110
WATERSHED 110
TION
TPME
7
78
137
7
78
137
7
78
137
7
78
137
8
78
137
8
78
137
8
78
137
8
78
137
1
78
138
1
78
138
1
78
138
1
78
138
2
78
138
2
78
138
2
78
1 38
2
78
138
3
78
138
3
78
138
3
78
138
3
78
1 38
4
78
138
4
78
138
4
78
138
4
78
138
5
78
138
5
78
138
5
78
138
5
78
1 38
6
78
138
6
78
138
6
78
138
6
78
138
7
7fl
138
7
78
138
7
78
138
7
78
138
8
78
138
8
78
138
8
78
138
9
78
138
9
78
138
9
78
138
9
78
138
10
78
138
10
78
138
10
78
138
10
78
138
1
76
160
1
76
160
1
76
1 60
2
76
1 60
2
76
160
2
76
160
3
76
160
3
76
160
DEPTH
TEMPER^
CM
CENT
5
13.4
15
12. 1
30
12.0
75
1 1 .6
5
1 1 .9
15
11.9
30
1 1 .8
75
11.0
5
16.3
15
12.7
30
1 2V7
75
11.7
5
15.9
15
14.6
30
12.2
75
11.1
5
17.0
15
14.2
30
13.6
75
12.3
5
15.5
15
13.2
30
12.7
75
11.3
5
15.4
15
13.1
30
12.4
75
11.6
5
14.6
15
13.3
30
12.5
75
1 1 .4
5
15.9
15
13.1
30
12.5
75
11.7
5
14.0
30
12.1
75
11.0
5
12.4
15
12.5
30
11.6
75
10.9
5
14.4
15
11.8
30
11.1
75
10.3
5
26.8
15
21 .7
30
20.0
5
28.5
15
23.9
30
22.4
5
31 .7
15
24.8
1000
tooo
1000
1000
000
BOO
800
800
1230
1230
1230
1230
1510
1510
1510
1510
1250
1250
1250
1250
1300
1300
1300
1300
1320
1320
1320
1320
1425
1425
1425
1425
1440
1440
1440
1440
1335
1335
1335
1410
1410
1410
1410
1350
1350
1350
1350
1225
1225
1225
1110
1110
1110
1250
1250
-------�
Table 4. (Continued)
C. Watershed 111
WATERSHED ill
STATION TTME DEPTH TEMPERATURE
CM CENT
9
77
173
1025
5
23.5
9
77
173
1025
15
22.0
9
77
173
1025
30
22.0
9
77
173
1025
75
20.9
10
77
173
1020
5
18.5
10
77
173
1020
15
18.3
10
77
173
1020
30
18.1
10
77
173
1020
75
17.1
1
77
162
1315
15
27.5
1
77
182
1315
30
25.7
1
77
182
1315
75
22.8
2
77
1 82
1325
5
29.2
2
77
1 02
t 325
15
27.4
2
77
182
1325
30
24.8
2
77
182
1325
75
22.4
3
77
182
1335
5
29.4
3
77
182
1335
15
27.1
3
77
182
1335
30
24.6
3
77
1 82
1335
75
22.3
4
77
182
1450
5
28.4
4
77
182
1450
15
2S.3
4
77
182
1450
30
24.2
4
77
182
1450
75
20.7
5
77
1 82
1440
5
29.9
5
77
102
1440
15
27.4
5
77
1 82
1 440
30
25.5
5
77
102
1-140
75
22.5
6
77
182
1 345
5
31 .4
6
77
1 82
1345
15
28.3
WATERSHED HI
UION
TIME
6
77
182
1345
7
77
182
1430
7
77
182
1430
7
77
182
1430
7
77
182
1430
8
77
182
1435
8
77
182
1435
8
77
182
1435
8
77
182
1435
9
77
1 02
1355
9
77
182
1355
9
77
182
1355
9
77
102
1355
10
77
102
1405
10
77
182
1405
10
77
182
1405
10
77
182
1405
1
77
188
1310
1
77
188
1310
1
77
188
1310
2
77
188
1445
2
77
188
1445
2
77
188
1445
2
77
188
1445
3
77
188
1435
3
77
188
1435
3
77
180
1435
3
77
188
1435
4
77
108
1320
4
77
188
1320
4
77
180
1320
4
77
188
1320
5
77
188
1440
5
77
188
1440
5
77
188
1440
5
77
188
1440
6
77
188
1425
6
77
188
1425
6
77
188
1425
7
77
188
1500
7
77
180
1500
7
77
180
1500
7
77
188
1500
8
77
180
1455
8
77
108
1455
8
77
188
1455
0
77
180
1455
9
77
108
1420
9
77
188
1420
9
77
180
1420
9
77
188
1420
10
77
188
1510
10
77
18(3
1510
10
77
188
1510
10
77
188
1510
WATERSHED 111
STATION
TIME
DEPTH
TEMPERAT
depth
TEMPERATURE
CM
CENT
CM
CENT
1
77
194
1520
15
29.5
75
22.6
1
77
194
1520
30
27. 1
5
28.5
1
77
1 94
1520
75
24.5
15
26.4
2
77
194
1405
5
32.3
30
24.5
2
77
194
1405
15
29.2
75
21 .9
2
77
194
1405
30
26.0
5
31 .7
2
77
194
1405
75
23.9
15
27.9
3
77
194
1415
5
32.4
30
25.5
3
77
194
1415
15
28.6
75
22. 1
3
77
1 94
1415
30
25.7
5
30.5
3
77
194
1415
75
23.8
15
27.0
4
77
194
1515
5
31 .6
30
24.8
4
77
194
1515
15
28.0
75
22. 1
4
77
194
1515
30
25.3
5
22.2
4
77
194
1515
75
21.7
15
20.9
5
77
194
1510
5
33.2
30
19.2
5
77
194
1510
15
28.7
75
18.1
5
77
194
1510
30
26.4
15
29.4
5
77
194
1510
75
23.9
30
27.5
6
77
194
1420
5
33.9
75
24.0
6
77
194
1420
15
29.5
5
32.0
6
77
194
1420
75
23.9
15
30.1
7
77
1 94
1455
5
30.6
30
26.5
7
77
194
1455
15
27.7
75
23.4
7
77
194
1455
30
25.5
5
31.9
7
77
194
1455
75
23.1
15
29.5
8
77
194
1500
5
36.3
30
26.2
8
77
1 94
1500
15
29.0
75
23.3
8
77
194
1500
30
26.2
5
31 .0
8
77
194
1500
75
23.3
15
26.9
9
77
194
1430
5
33.7
30
24.7
9
77
194
1430
15
28.6
75
21.2
9
77
194
1430
30
25.8
5
32.3
9
77
1 94
1430
75
23.2
15
29.3
10
77
194
1445
5
24.9
30
26.7
10
77
194
1445
15
23. 1
75
23.3
10
77
194
1445
30
20.9
5
34.0
10
77
194
1445
75
20.0
15
30.5
1
77
200
800
1 5
27.5
75
23.6
1
77
200
800
30
27.9
5
29.4
1
77
200
000
75
25.7
15
27.4
2.
77
200
820
5
2C.8
30
25.3
2
77
200
820
15
26.0
75
22.6
2
77
200
820
30
27.2
5
33.7
2
77
200
820
75
24.9
15
29.9
3
77
200
835
5
26.7
30
26.9
3
77
200
835
15
26.9
75
23.0
3
77
200
835
30
27.2
5
32.2
3
77
200
835
75
24.9
15
28.5
4
77
200
930
5
26.7
30
25.7
4
77
200
930
15
25.4
75
22.7
4
77
200
930
30
25.3
5
23.3
4
77
200
930
75
22.4
15
22.0
5
77
200
915
5
27.1
30
20.0
5
77
200
915
15
27.0
75 IB.7
-------�
Tatue 4. lUMiiinueu;
C. Watershed 111
WATERSHED 111
station time
5 77 200 915
5 77 200 915
6 77 200 855
6 77 200 855
6 77 200 855
7 77 200 950
7 77 200 950
7 77 200 950
7 77 200 950
8 77 200 1010
8 77 200 1010
8 77 200 1010
8 77 200 1010
9 77 200 1035
9 77 200 1035
9 77 200 1035
9 77 200 1035
10 77 200 1045
10 77 200 1045
10 77 200 1045
10 77 200 1045-
1 77 207 1340
1 77 207 1340
1 77 207 1340
2 77 207 1345
2 77 207 1345
2 77 207 1345
2 77 207 1345
3 77 207 1355
3 77 207 1355
3 77 207 1355
3 77 207 1355
.4 77 207 1110
4 77 207 1410
4 77 207 1410
4 77 207 1410
5 77 207 1400
5 77 207 1400
5 77 207 1400
5 77 207 1400
G 77 207 1135
6 77 207 1435
6 77 207 1435
7 77 207 1445
7 77 207 1445
7 77 207 1445
7 77 207 1445
8 77 207 1500
8 77 207 1500
0 77 207 1500
0 77 207 1500
9 77 207 1445
9 77 207 1445
9 77 207 1445
9 77 207 1445
WATERSHED HI
30
27.4
10
77
207
1450
75
24.8
10
77
207
1450
5
27.4
10
77
207
1450
15
27.2
10
77
207
1450
75
25.0
1
77
215
1320
5
27.2
1
77
215
1320
15
25.9
1
77
215
1320
30
25.7
1
77
215
1320
75
23.8
2
77
215
1325
5
31 .0
2
77
215
1325
15
26.4
2
77
215
1325
30
26.5
2
77
215
1325
75
24.3
3
77
215
1330
5
30.2
3
77
215
1330
15
26.6
3
77
215
1330
30
26.1
3
77
215
1330
75
24.1
4
77
215
1310
5
24.1
4
77
215
1310
15
23.3
4
77
215
1310
30
21 .6
4
77
215
1310
75
20.7
5
77
215
1300
15
25.7
5
77
215
1300
30
25.3
5
77
215
1300
75
25.4
5
77
215
1300
5
30.7
6
77
215
1340
15
26.9
6
77
215
1340
30
25.1
6
77
215
1340
75
24.7
7
77
215
1245
5
29.5
7
77
215
1245
15
25.9
7
77
215
1245
30
24.9
7
77
215
1245
75
24.7
8
77
215
1255
5
27.8
8
77
215
1255
15
24.5
8
77
215
1255
30
23.1
8
77
215
1255
75
22.0
9
77
215
1345
5
28.3
9
77
215
1345
15
25.1
9
77
215
1345
30
24.6
9
77
215
1345
75
24.3
10
77
215
1350
5
32.4
10
77
215
1350
15
27.5
10
77
215
1350
75
24.8
10
77
215
1350
5
28.9
6
77
217
1320
15
25.9
6
77
217
1320
30
24.3
6
77
217
1320
75
23.5
1
77
222
955
5
34.5
1
77
222
955
15
26.9
1
77
222
955
30
25.1
1
77
222
955
75
24.0
2
77
222
815
5
32.3
2
77
222
815
15
26.8
2
77
222
815
30
24.6
2
77
222
815
75
23.8
3
77
222
825
WATERSHED 111
DEPTH
TEMPER^
CM
CENT
5
22.2
15
21 .4
30
20.4
75
20.3
5
29.8
15
26.6
30
25.9
75
24.9
5
29.4
15
26.4
30
25.5
75
24.4
5
28.7
15
26.3
30
25.4
75
24.4
5
28.8
15
25.3
30
24.1
75
21 .9
5
28.5
15
25.9
30
25.2
75
23.7
5
29.6
15
26.5
75
24.1
5
27.0
15
25.0
30
24.2
75
23.0
5
30.7
15
25.7
30
24.9
75
23.5
5
29.9
15
25.9
30
24.7
75
23.4
5
23.2
15
22.1
30
20.5
75
20. 1
5
33.5
15
28.5
75
24.2
5
29.0
15
27.7
30
27.6
75
25.7
5
27.3
15
27.4
30
27.4
75
25.4
5
27.2
CM
CENT
3
77 222
825
15
27.2
3
77 222
825
30
27.1
3
77 222
825
75
25.2
4
77 222
950
5
28.4
4
77 222
950
15
26.3
4
77 222
950
30
25.8
4
77 222
950
75
23.0
5
77 222
940
5
28.5
5
77 222
940
15
27.2
5
77 222
940
30
26.9
5
77 222
940
75
24.5
6
77 222
835
5
27.6
6
77 222
835
15
27.6
6
77 222
835
75
25.1
7
77 222
900
5
27.0
7
77 222
900
15
26.1
7
77 222
900
30
25.8
7
77 222
900
75
23.9
8
77 222
935
5
29.2
8
77 222
935
15
26.9
8
77 222
935
30
26.7
8
77 222
935
75
24.5
9
77 222
840
5
27.3
9
77 222
840
15
26.5
9
77 222
840
30
26.3
9
77 222
840
75
24.3
10
77 222
850
5
24.5
10
77 222
050
15
23.8
10
77 222
850
30
22.3
10
77 222
850
75
21.0
1
77 224
1320
5
30.6
1
77 224
1320
15
28.8
1
77 224
1320
30
27.9
1
77 224
1320
75
25.9
4
77 224
1345
5
29.5
4
77 224
1345
15
27.7
4
77 224
1345
30
26.3
4
77 224
1345
75
23.2
5
77 224
1410
5
29.9
5
77 224
1410
15
28.4
5
77 224
1410
30
27.2
5
77 224
1410
75
24.9
1
77 231
015
5
23.0
1
77 231
815
15
24.4
1
77 231
815
30
25.9
1
77 231
815
75
25.6
2
77 231
935
5
25.4
2
77 231
935
15
24.3
2
77 231
935
30
25.4
2
77 231
935
75
25.3
3
77 231
930
5
23.7
3
77 231
930
15
23.8
3
77 231
930
30
25.4
3
77 231
930
75
25.1
4
77 231
825
5
21.5
-------�
Table \ (Continued)
C. Watershed 111
WATERSHED HI
WATERSHED 111
ro
ro
00
TI ON
TIME
DEPTH
TEMPERATURE
STATION
TIME
CM
CENT
4
77
231
825
15
22.2
5
77
238
1415
A
77
231
825
30
23.3
5
77
238
1415
A
77
231
825
75
22.9
5
77
238
1415
5
77
231
835
5
21.6
6
77
238
1515
5
77
231
835
15
23.0
6
77
238
1515
5
77
231
835
30
24.8
6
77
238
1515
5
77
231
835
75
24.5
7
77
238
1505
6
77
231
920
5
24.0
7
77
238
1505
6
77
231
920
15
24.0
7
77
238
1505
6
77
231
920
75
25.0
7
77
238
1505
7
77
231
850
5
21 .9
8
77
238
1420
7
77
231
850
15
22.5
8
77
238
1420
7
77
231
850
30
23.7
8
77
238
1420
7
77
231
850
75
23.9
8
77
238
1420
8
77
231
845
5
23.0
9
77
238
1510
8
77
231
845
15
23.3
9
77
238
1510
8
77
231
845
30
24.7
9
77
238
1510
8
77
231
845
75
24.5
10
77
238
1425
9
77
231
915
5
23.6
10
77
238
1425
9
77
231
915
15
23.0
10
77
238
1425
9
77
231
915
30
24.2
10
77
238
1425
9
77
231
915
75
24.3
1
77
245
1520
10
77
231
900
5
20. 1
1
77
245
1520
10
77
231
900
15
20.7
1
77
245
1520
10
77
231
900
30
21.2
1
77
245
1520
10
77
231
900
75
21 .2
2
77
245
1525
2
77
234
930
5
25.2
2
77
245
1525
2
77
234
930
15
25. 1
2
77
245
1525
2
77
234
930
30
25.4
2
77
245
1525
2
77
234
930
75
24.8
3
77
245
1440
3
77
234
1020
5
25.4
3
77
245
1440
3
77
234
1020
15
24.8
3
77
245
1440
3
77
234
1020
30
25.0
3
77
245
1440
3
77
234
1020
75
24.5
4
77
245
1515
10
77
234
1320
5
22.5
A
77
245
1515
10
77
234
1 320
15
21.6
A
77
245
1515
10
77
234
1 320
30
20.5
A
77
245
1515
10
77
234
1320
75
20.5
5
77
245
1510
1
77
238
1450
5
30.0
5
77
245
1510
1
77
230
1 450
1 5
21 .3
5
77
245
1510
1
77
238
1450
30
23.5
5
77
245
1510
1
77
238
1450
75
24.4
6
77
245
1445
2
77
238
1405
5
29.8
6
77
245
1445
2
77
238
1405
15
25.7
6
77
245
1445
2
77
238
1405
30
23.8
7
77
245
1500
2
77
238
1405
75
24.4
7
77
245
1500
3
77
238
1520
5
28.9
7
77
245
1000
3
77
238
1520
15
25.3
7
77
245
1500
3
77
238
1520
30
23.2
8
77
245
1505
3
77
238
1520
75
24.0
8
77
245
1505
A
77
238
1455
5
29.0
8
77
245
1505
A
77
238
1455
15
24.5
8
77
245
1505
A
77
238
1455
30
22.2
9
77
245
1450
A
77
238
1455
75
21.8
9
77
245
1450
5
77
238
1415
5
27.6
9
77
245
1450
WATERSHED 111
DEPTH
TEMPERATURE
STATION TIME
DEPTH
TEMPERATURE
CM*
CENT
CM
CENT
15
23.5
9
77 245
1450
75
24 . 1
30
22.6
10
77 245
1455
5
25.5
75
23.3
10
77 245
1455
15
23. 7
5
30.0
10
77 245
1455
30
21.9
15
25.5
10
77 245
1455
75
20.9
75
23.8
1
77 251
1 340
5
26.5
5
27. 1
1
77 251
1340
15
24.9
15
24.0
1
77 251
1340
30
24.9
30
22.4
1
77 251
1340
75
25.3
75
22.8
2
77 251
1345
5
27.4
5
32.7
2
77 251"
1345
15
25.7
15
24.7
2
77 251
1345
30
25.4
30
22.8
2
77 251
1345
75
25.6
75
23.3
3
77 251
1310
5
26.5
5
29. 1
3
77 251
1310
15
24.8
15
24.7
3
77 251
1310
30
24.8
75
23.3
3
77 251
1310
75
24.8
5
20.7
4
77 251
1330
5
26.0
15
19.6
4
77 251
1330
15
24.0
30
19.6
4
77 251
1330
30
23.5
75
20.2
4
77 251
1 330
75
22 . 8
5
34.4
5
77 251
1 300
5
25.9
15
30.4
5
77 251
1300
15
24.3
30
28.0
5
77 251
1300
30
24.5
75
25.7
5
77 251
1300
75
24.2
5
34.5
6
77 251
1 245
5
27.3
15
31 .8
6
77 251
1245
15
25.0
30
28. 1
6
77 251
1245
75
25.0
75
25.7
7
77 251
1320
5
26.0
5
33.8
7
77 251
1320
15
24.2
15
29.2
7
77 251
1320
30
23.9
30
26.6
7
77 251
1320
75
23.6
75
24.9
8
77 251
1235
5
27.7
5
32.5
8
77 251
1235
15
24.6
15
28.7
8
77 251
1235
30
24 .5
30
26. 1
8
77 251
1 235
75
24 .4
75
23.0
9
77 251
1 240
5
26.9
5
32.3
9
77 251
1 240
15
24.4
15
28.7
9
77 251
1 240
30
24.2
30
26.5
9
77 251
1 240
75
24. 1
75
24.4
10
77 251
1 230
5
22.7
5
35.4
10
77 251
1230
15
22.2
15
30.6
10
77 251
1230
30
21 .6
75
25.0
10
77 251
1 230
75
21 .3
5
31.5
1
77 257
1450
5
26.4
15
27.8
1
77 257
1450
15
24.6
30
25.5
1
77 257
1450
30
23.8
75
23.6
1
77 257
1450
75
23.4
5
36.2
2
77 257
1245
5
26. 1
15
30.2
2
77 257
1245
1 5
25.2
33
27.4
2
77 257
1245
30
24.3
75
24.7
2
77 257
1245
75
24.0
5
34.0
3
77 257
1255
5
25.0
15
28.9
3
77 257
1255
15
24.0
30
26.2
3
77 257
1255
30
23.3
-------�
Table A. (Continued)
C. Watershed 111
WATERSHED 111
STATION TIME
3
77
257
1255
4
77
257
1440
A
77
257
1440
A
77
257
1440
A
77
257
1440
5
77
257
1430
5
77
257
1430
5
77
257
1430
5
77
257
1430
6
77
257
1305
6
77
257
1305
6
77
257
1305
7
77
257
1315
7
77
257
1315
7
77
257
1315
7
77
257
1315
8
77
257
1325
8
77
257
1325
8
77
257
1325
8
77
257
1325
9
77
257
1310
9
77
257
1310
9
77
257
1310
9
77
257
1310
10
77
257
1405
10
77
257
1405
10
77
257
1405
10
77
257
1405
1
77
264
1040
1
77
264
1040
1
77
264
1040
1
77
264
1040
2
77
264
930
2
77
264
930
2
77
264
930
2
77
264
930
3
77
264
940
3
77
264
940
3
77
264
940
3
77
?G4
5J4 0
A
77
264
1035
77
264
1035
4
77
26'V
1035
A
77
264
1035
5
77
264
1025
5
77
264
1025
5
77
264
1025
5
77
264
1025
6
77
264
950
6
77
264
950
6
77
264
950
7
77
264
1010
7
77
264
1010
7
77
264
1010
7
77
264
1010
WATERSHED HI
DEPTH
TEMPERATURE
STATION
TIME
CM
CENT
75
23.2
8
77
264
1020
5
24.9
8
77
264
1020
15
23.0
8
77
264
1020
30
22. 1
8
77
264
1020
75
21 .3
9
77
264
955
5
24.9
9
77
264
955
.15
23.3
9
77
264
955
30
22.7
9
77
264
955
75
22.4
10
77
264
1005
5
25.8
10
77
264
1005
15
24.4
10
77
264
1005
75
23. 1
10
77
264
1005
5
24.9
1
77
270
1240
15
23.3
1
77
270
1240
30
22.5
1
77
270
1 240
75
22.3
1
77
270
1240
5
26.3
3
77
270
930
15
24.3
3
77
270
930
30
23.5
3
77
270
930
75
22.8
3
77
270
930
5
25.7
4
77
270
1000
15
23.9
4
77
270
tooo
30
23.0
4
77
270
1000
75
22.7
4
77
270
1000
5
21.8
5
77
270
1315
15
20.7
5
77
270
1315
30
19.8
5
77
270
1315
75
19.9
5
77
270
1315
5
23.8
7
77
270
855
15
23.5
7
77
270
855
30
24.2
7
77
270
055
75
23.5
7
77
270
855
5
23.8
9
77
270
820
15
24.0
9
77
270
820
30
24.8
9
77
270
820
75
24 . 1
9
77
270
820
5
22.7
8
77
272
0
15
23.2
8
77
272
0
30
24. 1
8
77
272
0
75
23.3
0
77
27?
0
5
22.4
10
77
27?
0
15
21.8
10
77
272
0
30
22.2
10
77
272
0
75
21.5
10
77
272
0
5
23. 1
1
77
270
1045
15
22.9
1
77
270
1045
30
23.7
1
77
27U
1045
75
22.8
1
77
278
1045
5
23.3
2
77
278
935
15
23.5
2
77
278
935
75
23.2
2
77
278
935
5
22.5
2
77
278
935
15
22.4
3
77
278
945
30
22.9
3
77
278
945
75
22.4
3
77
278
945
WATERSHED 111
DEPTH
TEMPERATURE
STATION
TIME
DEPTH
TEMPERATURE
CM
CENT
CM
CENT
5
23.8
3
77
278
945
75
20.9
15
23.2
4
77
278
1 030
5
15.6
30
23.8
4
77
278
1030
15
14.5
75
23. 1
4
77
278
1030
75
18.8
5
22.8
5
77
278
1025
5
15.5
15
22.8
5
77
278
1025
1 5
15.1
30
23.4
5
77
278
1025
30
17.5
75
22.8
5
77
278
1025
75
20.2
5
20.7
6
77
278
955
5
16.2
15
20.8
6
77
278
955
15
16.1
30
20.8
6
77
278
955
75
20.8
75
20.2
7
77
278
1010
5
15.9
5
25.0
7
77
278
1010
15
15.9
15
22.3
7
77
278
1010
30
17.7
30
22.3
7
77
278
1010
75
20. 1
75
22.8
8
77
278
1 020
5
18.4
5
20.4
8
77
278
1020
15
16.1
15
20.9
8
77
278
1020
30
17.9
30
22.5
8
77
278
1020
75
20.5
75
22.6
9
77
278
1 000
5
17.4
5
21 .2
9
77
278
1 000
15
16.1
15
20. 1
9
77
278
1000
30
18.3
30
20.9
9
77
278
1000
75
20.7
75
20.8
10
77
278
1005
5
15.4
5
24.3
10
77
270
1 005
15
15.7
15
21 .8
10
77
270
1005
30
17.1
30
21.6
10
77
270
1005
75
18.4
75
22.0
1
77
285
1330
5
16.8
5
19.7
1
77
285
1330
15
15.1
15
20.6
1
77
205
1330
30
15.5
30
21.6
1
77
205
1 330
75
18.0
75
21.7
2
77
285
1215
5
17.9
5
19.3
2
77
285
1215
15
16.3
15
20.6
2
77
285
1215
30
17.6
30
22.0
2
77
285
1215
75
19.6
75
22.2
3
77
285
1 220
5
16.4
5
28.7
3
77
205
1 220
15
15.7
15
22.2
3
77
285
1220
30
16.6
30
20.7
3
77
205
1 220
75
18.6
75
21 .8
A
77
200
1.125
0
13.4
5
19.5
A
77
2U'j
1:125
15
13.9
15
18.7
A
77
205
1325
30
14.3
30
19.1
A
77
205
1325
75
16.9
75
19.8
5
77
205
1315
5
17.9
5
16.6
5
77
205
1315
15
15.6
15
16.0
5
77
285
1315
30
16.1
30
17.8
5
77
205
1315
75
18.0
75
20.7
6
77
285
1230
5
17.2
5
18.6
6
77
285
1230
15
15.4
15
17.7
6
*77
285
1230
75
18.4
30
19.9
7
77
285
1300
5
17.3
75
21.9
7
77
285
1300
15
15.9
5
15.4
7
77
285
1300
30
16.3
15
16.2
7
77
285
1 300
75
18.2
30
18.8
8
77
285
1305
5
19.8
-------�
Tabletfk (Continued)
C. Watershed 111
WATERSHED 111
STATION TIME DEPTH TEMPERATURE
CM CENT
8
77
285
305
15
16.1
8
77
285
305
30
16.3
8
77
285
305
75
18.4
9
77
285
235
5
18.9
9
77
285
235
15
16.2
9
77
285
235
30
16.7
9
77
285
235
75
18.7
10
77
285
245
5
16.2
10
77
285
245
15
15.5
10
77
285
245
30
16.0
10
77
285
245
75
17.0
1
77
290
400
5
11 .2
1
77
290
400
15
10.6
1
77
290
400
30
11 .5
1
77
290
400
75
15.4
2
77
.290
005
5
09.4
2
77
290
005
15
10.4
2
77
290
005
30
13.7
2
77
290
005
75
17.4
3
77
290
210
5
10.9
3
77
290
210
15
11 .0
3
77
290
210
30
13.2
3
77
290
210
75
16.5
4
77
290
020
5
08.4
4
77
290
020
15
09.1
4
77
290
020
30
10.9
4
77
290
020
75
14.8
5
77
290
040
5
08.7
5
77
290
040
15
09.7
5
77
290
040
30
12.2
5
77
290
040
75
15.9
6
77
290
230
5
12.5
G
77
290
230
15
10.9
6
77
290
230
75
16.3
7
77
290
335
5
14.3
7
77
200
335
15
13.0
7
77
290
335
30
13.4
7
77
290
335
75
16.3
8
77
290
345
5
15.2
0
77
290
345
15
12.4
8
77
290
345
30
12.C
0
77
290
345
75
IS.3
9
77
290
250
5
15.3
9
77
290
250
15
12.8
9
77
290
250
30
13.5
9
77
290
250
75
17.0
10
77
290
305
5
13.3
10
77
290
305
15
12.2
10
77
290
305
30
13.3
10
77
290
305
75
15.5
1
77
298
435
5
15.5
1
77
298
435
15
13.4
1
77
298
435
30
12.5
1
77
298
435
75
14.2
?
77
290
340
5
19.4
WATERSHED 111
STATION TIME
2
77
298
1340
2
77
298
1340
2
77
298
1340
3
77
298
1350
3
77
298
1350
3
77
298
1350
3
77
298
1350
4
77
298
1430
4
77
298
1430
4
77
298
1430
4
77
298
1430
5
77
298
1425
5
77
298
1425
5
77
298
1425
5
77
298
1425
6
77
298
1355
6
77
298
1355
6
77
298
1355
7
77
298
1415
7
77
298
1415
7
77
298
1415
7
77
298
1415
8
77
298
1420
8
77
298
1420
8
77
208
1420
8
77
290
1420
9
77
298
1400
9
77
298
1400
9
77
290
1400
9
77
298
1400
10
77
298
1410
10
77
298
1410
10
77 298
1410
10
77
298
1410
1
77
305
1 145
1
77
305
1145
1
77
305
1 145
1
77
305
1 145
2
77
305
1050
2
77
305
1050
2
77
305
1050
2
77
305
1050
3
77
305
1055
3
77
305
1055
3
77
305
1055
3
77
305
1055
4
77
305
1 140
4
77
305
1 140
4
77
305
1 140
4
77
305
1140
5
77
305
1335
5
77
305
1335
5
77
305
1335
5
77
305
1335
6
77
305
1100
WATERSHED 111
DEPTH
TEMPER
CM
CENT
15
16.3
30
15.4
75
16.8
5
16.5
15
14.1
30
13.7
75
15.5
5
12.5
15
11.0
30
10.B
75
13.3
5
17.5
15
14.3
30
13.5
75
15.2
5
17.5
15
14.6
75
15.5
5
15.6
15
13.8
30
13.4
75
15.3
5
18.8
15
15.1
30
14.0
75
15.7
5
17.6
15
14.9
30
14.3
75
16.1
5
14.5
15
13.5
30
13.7
75
15.0
5
13.1
15
11.8
30
12.4
75
14.4
5
13.9
15
13.3
30
14.6
75
16.6
5
12.5
15
12.2
30
13.3
75
15,4
5
12,1
15
11.0
30
11 .3
75
13.7
5
13.7
15
12.5
30
13.4
75
15.5
5
13.0
iTION
T 1ME
DEPTH
TEMPER
CM
CENT
6
77
305
100
15
12.4
6
77
305
100
75
15.5
7
77
305
120
5
13.1
7
77
305
120
15
12.6
7
77
305
120
30
13.3
7
77
305
120
75
15.2
8
77
305
125
5
14.7
8
77
305
125
15
12.8
8
77
305
125
30
13.4
8
77
305
125
75
15.7
9
77
305
110
5
14.2
9
77
305
110
15
13.3
9
77
305
110
30
14.1
9
77
305
110
75
16.2
10
77
305
115
5
13.4
10
77
305
115
1 5
13.5
10
77
305
115
30
14.3
10
77
305
115
75
15.3
1
77
312
445
5
17.3
1
77
312
445
15
16.9
1
77
312
445
30
16.5
1
77
312
445
75
16.2
2
77
312
330
5
18.3
2
77
312
330
15
17.5
2
77
312
330
30
17.3
2
77
312
330
70
17.5
3
77
312
340
5
17.9
3
77
312
340
15
17.0
3
77
312
340
30
16.7
3
77
312
340
75
16.6
4
77
312
140
5
16.8
4
77
312
440
15
16.5
.4
77
312
440
30
16.2
4
77
312
440
75
15.7
5
77
312
430
5
17.8
5
77
312
430
1 5
17.2
5
77
312
430
30
1G.9
5
77
312
430
75
16.0
C
77
312
3'jO
5
17.9
C
77
312
350
15
17.1
6
77
312
350
75
16.8
7
77
312
4 1 S
5
17.7
7
77
312
415
15
17.0
7
77
312
415
30
16.7
7
77
312
415
75
16.5
8
77
312
420
5
18. 1
8
77
312
420
15
17.4
8
77
312
420
30
17.0
8
77
312
420
75
16.9
9
77
312
355
5
18.4
9
77
312
355
15
17.5
9
77
312
355
30
17.2
9
77
312 .
355
75
17.2
10
77
312
405
5
17.1
10
77
312
405
15
16.7
-------�
Table 4. -"Continued)
C. Watershed 111
WATERSHED
111
WATERSHED
111
STATION
TIME
DEPTH
TEMPERATURE
STATION
TIME
CM
CENT
10
77
312
1405
30
16.4
4
77
332
10
77
312
1405
75
16.4
4
77
332
1
77
320
1310
5
10.3
5
77
332
1
77
320
1310
15
07.9
5
77
332
1
77
320
1310
30
08. 1
5
77
332
1
77
320
1310
75
11.5
5
77
332
2
77
320
940
5
09. 1
6
77
332
2
77
320
940
15
08.7
6
77
332
2
77
320
940
30
10.6
6
77
332
2
77
320
940
75
13.8
7
77
332
3
77
320
1010
5
07.3
7
77
332
3
77
320
1010
15
07.8
7
77
332
3
77
320
1010
30
09.6
7
77
332
3
77
320
1010
75
12.8
8
77
332
4
77
320
1210
5
06.5
8
77
332
4
77
320
1210
15
06.8
8
77
332
4
77
320
1210
30
08.0
8
77
332
4
77
320
1210
75
11.9
9
77
332
5
77
320
1 150
5
09.6
9
77
332
5
77
320
1 150
15
07.7
9
77
332
5
77
320
1 150
30
09. 1
9
77
332
5
77
320
1150
75
12.9
10
77
332
6
77
320
1035
5
08.4
10
77
332
6
77
320
1035
15
07.5
10
77
332
6
77
320
1035
75
12.6
10
77
332
7
77
320
1 125
5
09.7
3
77
340
7
77
320
1 1 25
1 5
08.8
3
77
340
7
77
320
1 125
30
09.9
3
77
340
7
77
320
1 1 25
75
13.3
3
77
340
8
77
320
1320
5
15.2
4
77
340
8
77
320
1320
15
09.8
4
77
340
8
77
320
1320
30
09.4
4
77
340
8
77
320
1320
75
13.0
4
77
340
9
77
320
1055
5
10.7
5
77
340
9
77
320
1055
15
09.0
5
77
340
9
77
320
1055
30
10.4
5
77
340
9
77
320
1055
75
13.9
5
77
340
10
77
320
1 1 00
2
10.8
6
77
340
10
77
320
1 1 00
15
10.7
6
77
340
10
77
320
1 1 00
30
11.8
6
77
340
10
77
320
1 100
75
13.9
7
77
340
1
77
332
1525
5
04.3
7
77
340
1
77
332
1525
15
03.5
7
77
340
1
77
332
1525
30
04 . 1
7
77
340
1
77
332
1525
75
08.2
8
77
340
2
77
332
1410
5
06.8
8
77
340
2
77
332
1410
15
05.7
8
77
340
2
77
332
1410
30
06.5
8
77
340
2
77
332
1410
75
10.7
9
77
340
3
77
332
1415
5
05.5
9
77
340
3
77
332
1415
15
04.8
9
77
340 '
3
77
332
1415
30
05.7
9
77
340 '
3
77
332
1415
75
09.8
10
77
340 i
4
77
332
1520
5
05.2
10
77
340 1
4
77
332
1520
15
04.4
10
77
340 1
WATERSHED 111
1520
1520
1510
1510
1510
1510
I 430
1430
1430
1455
1455
1455
1455
1500
1500
1500
1500
1440
1440
1440
1440
1450
1450
1450
1450
1435
1435
1435
1435
1455
1455
1455
1455
1445
1445
1445
1445
1430
1430
1430
1350
1350
1350
1350
1450
1450
1450
1450
1420
1420
1420
1420
400
400
400
DEPTH
CM
30
75
5
15
30
75
5
15
75
5
15
30
75
5
15
30
75
5
15
30
75
5
15
30
75
5
15
30
75
5
15
30
75
5
15
30
75
5
15
75
5
15
30
75
5
15
30
75
5
15
30
75
5
15
30
TEMPERATURE
CENT
04.8
09.2
06.1
04.8
05.5
10.0
05.8
04.5
09.7
06.6
05.9
06.4
10.2
07.2
05.6
05.8
10.2
07.6
06.2
06.8
10.9
07.3
07.3
08.7
11.5
06.2
06.2
07.0
09.0
05.2
05.9
06.5
08.9
06.7
06.3
07.0
09.3
06.9
06.1
08.9
07.0
06.6
07.1
09.4
07.6
07.0
07.1
09.6
08.6
07.2
07.6
09.9
08.1
08.1
09.0
TI ON
TIME
DEPTH
TEMPER
CM
CENT
10
77
340
400
75
10.8
1
77
346
340
5
-1 .2
1
77
346
340
15
-0.8
1
77
346
340
30
00.8
1
77
346
340
75
04.8
2
77
346
330
5
-0.1
2
77
346
330
15
00.7
2
77
346
330
30
02.8
2
77
346
330
75
07.2
10
77
346
440
5
02.8
10
77
346
440
15
03. 1
10
77
346
440
30
05. 1
10
77
346
440
75
08.6
1
77
349
510
5
04.4
1
77
349
510
15
02.5
1
77
349
510
30
01 .5
1
77
349
510
75
04.0
2
77
349
610
5
10.4
2
77
349
610
15
08.9
2
77
349
610
30
06.9
2
77
349
610
75
07. 1
3
77
349
600
5
07.7
3
77
349
600
15
06.6
3
77
349
600
30
04.6
3
77
349
600
75
05.6
4
77
349
515
5
04. 1
4
77
349
515
15
02.7
4
77
349
515
30
02.3
4
77
349
515
75
05.5
5
77
349
525
5
08.8
5
77
3-1 'J
525
15
06.2
5
77
349
525
30
04.6
5
77
349
525
75
06.0
6
77
349
555
5
09.0
6
77
349
555
15
06.8
6
77
349
055
75
05.7
7
77
349
535
5
06.2
7
77
349
535
15
05.2
7
77
349
535
30
04.5
7
77
349
535
75
06.2
8
77
349
j30
5
09.5
8
77
349
530
15
07 .4
8
77
349
530
30
05.7
8
77
349
530
75
06.8
9
77
349
550
5
10.1
9
77
349
550
15
08.1
9
77
349
550
30
06.5
9
77
349
550
75
07. 1
10
77
349
545
5
08.7
10
77
349
545
15
07.6
10
77
349
545
30
07.2
10
77
349
545
75
08.4
1
77
355
525
5
05.8
1
77
355
525
15
05.3
1
77
355
525
30
04.7
-------�
Table 4. ^Continued)
C. Watershed 111
WATERSHED 111
WATERSHED
111
STATION
TIME
DEPTH
TEMPERATURE
STATION
TIME
CM
CENT
1
77
355
1525
75
04.8
6
77
364
045
2
77
355
1425
5
07. 1
6
77
364
045
2
77
355
1425
15
06.4
6
77
364
045
2
77
355
1425
30
06.1
7
77
364
100
2
77
355
1425
75
07.3
7
77
364
100
3
77
355
1430
5
06.7
7
77
364
100
3
77
355
1430
15
05.8
7
77
364
100
3
77
355
1430
30
05.2
8
77
364
340
3
77
355
1430
75
06.0
8
77
364
340
A
77
355
1520
5
06.3
8
77
364
340
A
77
355
1520
15
05.8
8
77
364
340
A
77
355
1 520
30
05.2
9
77
364
310
A
77
355
1520
75
05.9
9
77
364
310
5
77
355
1515
5
06.7
9
77
364
310
5
77
355
1515
15
05.9
9
77
364
310
5
77
3b5
1515
30
05.4
10
77
364
055
5
77
355
1515
75
06.4
10
77
364
055
6
77
355
1435
5
06.9
10
77
364
055
6
77
355
1435
15
05.7
10
77
364
055
6
77
355
1435
75
06.2
1
78
6
045
7
77
355
1505
15
06.1
1
78
6
045
7
77
355
1505
30
05.6
1
78
6
045
7
77
355
1 505
75
06.5
2
78
6
150
8
77
355
1510
5
07.1
2
78
6
150
8
77
355
1510
15
06.5
2
78
6
150
8
77
355
1510
30
06.0
2
78
6
150
8
77
355
1510
75
07.3
3
78
6
130
9
77
355
1440
5
07.9
3
78
6
130
9
77
355
1440
15
06.6
3
78
6
130
9
77
355
1440
30
06.3
3
78
6
130
9
77
355
1 440
75
07 .4
4
78
6
145
10
77
355
1450
5
07.0
4
78
6
145
10
77
355
1450
15
06.7
4
78
6
145
10
77
355
1450
30
07.0
4
78
6
145
10
77
355
1450
75
08.2
5
78
6
140
1
77
364
1405
5
-0.7
5
78
6
140
1
77
304
1405
1 5
-0.6
5
78
G
140
1
77
3G-1
1405
30
00.3
5
78
6
140
1
77
364
1405
75
03.2
6
78
6
125
2
77
364
1030
5
-0.9
6
78
6
125
2
77
364
1030
15
00.4
6
78
6
125
2
77
364
1030
30
02.0
7
78
6
115
2
77
364
1030
75
05.5
7
78
6
115
3
77
364
1035
5
-1.1
7
78
6
1 15
3
77
36'1
1035
15
-0.2
7
78
6
115
3
77
364
1035
30
01 .3
8
78
6
055
3
77
364
1035
75
04.5
8
78
6
055
A
77
364
1115
5
-0.8
8
78
6
055
A
77
364
1115
15
-0.6
8
78
6
055
A
77
364
1115
30
00.7
9
78
6
1 00
A
77
364
1115
75
04.5
9
78
6
1 00
5
77
364
1110
5
-0.6
9
78
6
100
5
77
364
1110
15
-0.1
9
78
6
100
5
77
364
1110
30
01 .4
10
78
6
110
5
77
364
1110
75
05.0
10
78
6
1 10
WATERSHED
111
DEPTH
TEMPERATURE
STATION
TIME
DEPTH
TEMPER/
CM
CENT
CM
CENT
5
-0.9
10 78
6 1110
30
03.5
15
-0.1
10 78
6 1110
75
05.5
75
04.8
1 78
16 1055
5
-0. 1
5
-0. 1
1 78
16 1055
15
-1.5
15
00.6
1 78
16 1055
30
00.0
30
01.8
1 78
16 1055
75
01 .7
75
05. 1
2 78
16 1015
5
-1.1
5
-0.3
2 78
16 1015
15
00.2
15
00.5
2 78
16 1015
30
01 .2
30
01.9
2 78
16 1015
75
03. 7
75
05.7
3 78
16 1340
5
-1 .7
5
-0. 1
3 78
16 1340
15
-0.6
15
00.8
3 78
16 1340
30
00.5
30
02.0
3 78
16 1340
75
02.6
75
05.6
4 78
16 1520
5
-1.7
5
01 .6
4 78
16 1520
15
-0.9
15
02.2
4 78
16 1520
30
00.3
30
03.8
4 78
16 1520
75
02.9
75
06.5
5 78
16 1450
5
-0.8
5
-0.4
5 76
16 1450
15
-0.3
1 5
-0.4
5 78
16 1450
30
00.8
75
02.3
5 78
16 1450
75
03.3
5
01 .6
6 78
16 1420
5
-0.8
15
00.6
6 78
16 1420
15
20.2
30
01.7
6 78
16 1-120
75
03.0
75
04.5
7 78
16 1540
5
-0.1
15
00. 1
7 78
16 1540
1 5
00.4
30
00.9
7 78
16 1540
30
01.1
30
00.0
7 78
16 1040
75
03.3
75
03.4
8 78
16 1530
5
-0.3
5
-0.3
0 78
16 1530
15
00.3
15
-0.2
8 78
16 1530
30
01.1
30
00.5
8 78
16 1530
75
03.6
75
03.7
9 78
16 1550
5
-0. 1
5
-0. 1
9 78
16 1050
1 5
00.5
15
00.0
9 78
16 1550
30
01.3
30
01 .0
9 70
10 1050
75
03. 7
75
04.0
10 70
1u 1545
5
00.8
5
-0.2
10 78
16 1545
1 5
01.6
15
00.0
10 78
16 1545
30
02.7
75
03.7
10 78
16 1545
75
04.6
5
00.0
7 78
17 950
5
00.0
15
00.4
7 78
17 950
1 5
00.4
30
01.3
7 78
17 950
30
01.1
75
04.0
7 78
17 950
75
03. 3
5
-0.1
8 78
17 920
5
-0.3
15
00.5
8 78
17 920
15
00.4
30
01 .5
8 78
17 920
30
01.2
75
04.6
8 78
17 920
75
03. 7
5
00.0
9 78
17 1030
5
-0. 1
15
00.7
9 78
17 1030
15
00.5
30
01 .6
9 78
17 1030
30
01 .3
75
04.5
9 78
17 1030
75
03.7
5
01 .7
4 78
18 1025
5
-0.2
15
04.2
4 78
18 1025
15
-0.2
-------�
Table 4. ^Continued)
u. Watershed 111
WATERSHED 111
WATERSHED HI
ro
LO
oj
STATION
TIME
DEPTH
TEMPERATURE
STATION
TIME
CM
CENT
4
78
18
1025
30
00.3
8
78
32
505
4
78
18
1025
75
02.9
8
78
32
505
10
78
18
945
5
-1 .0
9
78
32
525
10
78
18
945
15
00.2
9
78
32
525
10
78
1 8
945
30
02.7
9
78
32
525
10
78
18
945
75
04 .6
9
78
32
525
2
78
26
1030
5
00.0
10
78
32
520
2
78
26
1030
15
00.4
10
78
32
520
2
78
26
1030
30
01 .2
1C
78
32
520
2
78
26
1030
75
03.2
10
78
32
520
1
78
27
1410
5
-0.8
3
78
39
450
1
78
27
1410
15
-0.9
3
78
39
450
1
78
27
1410
30
-0.3
3
78
39
450
1
78
27
1410
75
01 .4
3
78
39
450
5
78
27
1520
5
-0.3
6
78
39
500
5
78
27
1520
15
-0.2
6
78
39
500
5
78
27
1520
30
00.6
6
78
39
500
5
78
27
1520
75
02.8
10
78
39
510
7
78
27
1515
5
-0. 1
10
78
39
510
7
78
27
1515
15
00. 2
10
78
39
510
7
78
27
1515
30
00.8
10
78
39
510
7
78
27
1515
75
02.8
1
78
48
410
10
78
27
1500
5
02.7
1
78
48
410
10
78
27
1500
15
02.8
1
78
48
410
10
78
27
1500
30
03.2
1
78
48
410
10
78
27
1500
75
04.5
2
78
48
415
1
78
32
1 555
5
-1 .4
2
78
48
415
1
78
32
1 555
15
-2.3
2
78
48
415
1
78
32
1 555
30
-2. 1
2
78
40
415
1
78
32
1555
75
00.9
3
78
48
420
2
7B
32
1545
5
-0.4
3
78
48
420
2
78
32
1545
15
-0.6
3
78
48
420
2
78
32
1545
30
00.4
3
78
48
420
2
78
32
1545
75
02.7
5
78
48
440
3
78
32
1540
5
-1 . 1
5
78
48
440
3
78
32
1540
15
-1 .6
5
78
48
440
3
78
32
1540
30
-0.6
5
78
48
440
3
78
32
1540
75
01 .7
6
78
48
425
78
32
1445
5
-2.5
6
78
40
425
A
70
3?
1 -1 >1'/)
1 5
. 4
G
711
11)
4 20
.1
70
:i2
1 <14'j
30
-1.1
10
7U
411
430
.1
70
'J'J
1 445
75
02.5
10
70
40
130
5
70
32
1455
5
-0.8
10
78
48
4 30
5
78
32
1455
15
-1.3
10
78
48
430
5
78
32
1455
30
00.0
1
78
55
440
5
78
32
1455
75
02.5
1
78
55
440
6
78
32
1530
5
-0.9
1
78
55
440
e
78
32
1530
15
-1 .3
1
78
55
440
6
78
32
1530
75
02.3
2
78
55
325
7
78
32
1510
5
-0.4
2
78
55
325
7
78
32
1510
15
-0.2
2
78
55
325
7
78
32
1510
30
00.5
2
78
55
325
7
70
32
1510
75
02.5
3
78
55
335
8
78
32
1505
5
-0.2
3
78
55
335
0
78
32
1505
15
-0.3
3
78
55
335
WATERSHED HI
DEPTH
TEMPERATURE
STATION
T 11/,E
DEPTH
TEMPER
CM
CENT
CM
CENT
30
00.8
3
78
55
335
75
01 .0
75
02.8
5
78
55
430
5
-0.3
5
-0.3
5
78
55
4 30
15
-0.6
15
-0. 1
5
78
55
430
30
-0.1
30
00.6
5
78
55
430
75
01 .9
75
02.8
5
78
55
345
5
-0.8
5
00. 1
6
78
55
345
15
-0.9
15
00.9
6
78
55
345
75
01.6
30
01.6
8
78
55
425
5
-0.2
75
03.6
8
78
55
425
15
00.. 1
5
-1.1
8
78
55
425
30
00.7
15
-1 .4
8
78
55
425
75
02.3
30
-0.7
9
78
55
355
5
-0.2
75
01 .3
9
78
55
355
15
00.0
5
-0.9
9
78
55
355
30
00.6
15
-0.8
9
78
55
355
75
02.3
75
01 .9
10
78
55
410
5
00.2
5
00.0
10
78
55
410
15
00.2
15
00.2
10
78
55
410
30
01 .0
30
01.1
10
78
55
4 1 0
75
02.8
75
03.1
1
78
61
1 35
5
-1 .3
5
-0.9
1
78
61
1 35
1 5
-1 .2
15
-1.1
1
78
61
135
30
-0.7
30
-1 .0
1
78
61
135
75
00.2
75
00.2
2
78
61
040
5
-0.1
5
-0.2
2
78
61
040
15
00.3
15
-0. 1
2
78
61
040
30
00.7
30
00.4
2
78
61
040
75
02.0
75
02.0
3
78
61
045
5
-1.2
5
-0.7
3
78
61
045
15
-0.5
15
-0.7
3
78
61
045
30
-0.2
30
-0.4
3
78
61
045
75
01 .0
75
01 . 1
5
78
61
125
5
-0.4
5
-0.4
5
78
61
125
15
-0.2
15
-0.5
5
78
61
125
30
00.0
30
-0.1
5
78
61
125
75
01 .9
75
02.0
6
78
61
050
5
-0.5
5
-0.7
6
78
G1
050
15
-0.3
15
-0.7
C
78
61
050
75
01.5
75
01 .0
7
7ģģ
0!
I 10
0
-0.3
5
00.2
7
70
t>1
1 10
15
-0. 1
1 5
00.0
7
78
61
1 1 0
30
00.3
30
00.9
7
78
61
1 10
75
01 .9
75
02.8
8
78
61
1 20
5
-0.3
5
-0.7
8
78
61
1 20
15
00. 1
15
-1.5
8
78
61
1 20
30
00.6
30
-1 .5
8
78
61
1 20
75
02.3
75
00. 1
9
78
61
1 00
5
-0.2
5
-0.2
9
78
61
100
15
00. 1
15
00.0
9
78
61
1 00
30
00.6
30
00.5
9
78
61
100
75
02.2
75
02.0
10
78
61
1 05
5
00.3
5
-0.7
10
78
61
105
15
00.4
15
-0.8
10
78
61
105
30
01 . 1
30
-0.5
10
78
61
105
75
02.7
-------�
Table 0 (Continued)
C. Watershed 111
WATERSHED 111
station time depth temperature
CM CENT
2
78
66
1500
5
00.0
2
78
66
1500
15
00.4
2
70
66
1500
30
00.8
2
78
66
1500
75
02. 1
3
78
66
1505
5
-0.7
3
78
66
1505
15
-0.7
3
78
66
1505
30
-0.3
3
78
66
1505
75
01.0
6
78
66
1515
5
-0.5
G
78
66
1515
15
-0.5
G
70
66
1515
75
01.5
9
78
66
1520
5
-0.1
9
78
66
1520
15
00.2
9
78
66
1520
30
00.7
9
78
66
1520
75
02.2
10
78
66
1525
5
00.1
10
78
66
1525
15
00.4
10
78
66
1525
30
01 .1
10
78
66
1525
75
02.6
1
78
74
1535
5
10.0
1
78
7 A
1535
15
04.1
1
78
7 A
1535
30
-0.1
1
78
7 A
1535
75
00.2
2
78
74
1 <130
5
15.0
2
78
74
1430
15
09.6
2
78
74
1430
30
05.9
2
78
74
1430
75
03.9
3
78
74
1440
5
10.2
3
78
74
1440
15
04.4
3
78
74
1440
30
00.0
3
78
74
1440
75
01 .1
4
78
74
1530
5
05.2
A
78
74
1530
15
00.0
A
78
74
1530
30
00. 1
A
78
74
1530
75
01.8
5
78
74
1445
5
11.3
5
78
74
1445
15
03.7
5
78
74
1445
30
00.2
5
78
74
1445
75
01 .9
6
78
74
1505
5
11.0
6
70
74
1505
15
04.6
6
78
74
1505
75
01.6
7
78
74
1510
5
02.7
7
78
74
1510
15
00.2
7
78
74
1510
30
00.6
7
78
74
1510
75
01 .8
8
78
74
1455
5
16.2
a
78
74
1455
15
07.0
8
78
74
1455
30
03.4
8
78
74
1455
75
02.4
9
78
74
1520
5
14.8
9
78
74
1520
15
08.7
9
78
74
1520
30
05.2
9
78
74
1520
75
03.3
10
70
74
1505
5
12.7
watershed 111
station time
10
78
74
1505
10
78
74
1505
10
78
74
1505
1
78
83
1355
1
78
83
1355
1
78
83
1355
1
78
83
1355
2
78
83
1400
2
70
83
1400
2
70
03
MOO
2
78
83
1 400
3
70
83
1405
3
78
83
1405
3
78
83
1405
3
78
83
1405
4
78
83
1335
4
78
83
1335
4
78
83
1335
4
78
83
1335
5
78
83
1345
5
78
83
1345
5
78
83
1345
5
78
83
1345
6
78
83
1410
6
78
83
1410
6
78
83
1410
7
78
83
1425
7
78
83
1425
7
78
83
1425
7
78
83
1425
8
78
83
1435
8
78
83
1435
8
78
83
1435
8
78
83
1435
9
78
83
1415
9
78
83
1415
9
78
83
1415
9
78
83
1415
10
78
83
1420
10
78
83
1420
10
78
83
1420
10
78
83
1420
7
78
89
1 130
7
78
B9
1 130
7
78
89
1 130
7
78
89
1 130
8
78
89
1405
8
78
89
1405
8
78
89
1405
8
78
89
1405
9
78
89
1440
9
78
89
1440
9
78
89
1440
9
78
89
1440
10
78
89
1530
depth temperature
CM
CENT
15
08.2
30
04.6
75
04.0
5
11.0
15
08.1
30
06.2
75
02.8
5
13.2
15
10.7
30
09.0
75
06.7
5
11.4
15
09.1
30
07.2
75
04.9
5
10.3
15
07.0
30
04.8
75
02.4
5
12.6
15
10.3
30
08.8
75
05.9
5
12.2
15
10.2
75
06.6
5
11.3
15
09.1
30
07.5
75
04.9
5
14.5
15
10.9
30
09. 1
75
06.4
5
14.0
15
10.7
33
09. 1
75
06.7
5
12.2
15
09.8
30
08.0
75
06.6
5
10.2
15
07.7
30
07.6
75
06.7
5
18.6
15
10.4
30
08.3
75
07.6
5
17.5
15
11.3
30
09.0
75
08.0
5
13.0
WATERSHED 111
STATION TIME
10
78
89
1530
10
78
89
1530
10
78
89
1530
1
78
90
-9
1
78
90
-9
1
78
90
-9
1
78
90
-9
2
78
90
-9
2
78
90
-9
2
70
90
-9
2
70
90
-9
3
78
90
1 100
3
78
90
1100
3
78
90
11 00
3
78
90
1 100
5
78
90
-9
5
78
90
-9
5
78
90
-9
5
78
90
-9
6
78
90
1000
6
78
90
1000
6
78
90
1000
1
78
95
1350
1
78
95
1350
1
78
95
1350
1
78
95
1350
2
78
95
1525
2
78
95
1525
2
78
95
1525
2
78
95
1525
3
78
95
1520
3
78
95
1520
3
78
95
1520
3
78
95
1520
4
78
95
1410
4
78
95
1410
4
78
95
1410
4
78
95
1410
5
78
95
1420
5
78
95
1420
5
70
95
1420
5
78
95
1420
6
78
95
1515
6
78
95
1515
6
78
95
1515
7
78
95
1435
7
70
95
1435
7
70
95
1435
7
78
95
1435
8
78
95
1425
8
78
95
1425
8
78
95
1425
8
78
95
1425
9
78
95
1445
9
78
95
1445
DEPTH temperature
CM
CENT
15
10.4
30
07.9
75
07.6
5
14.7
15
09.1
30
06.8
75
OS. 8
5
14.6
15
09.2
30
00.2
75
07.8
5
09. 1
15
06.9
30
07.0
75
06.6
5
16.7
15
11.3
30
08.5
75
07.5
5
09.2
15
07.0
75
07.5
5
17.2
15
12.2
30
09.7
75
07.4
5
20.7
15
15.5
30
11.3
75
09.0
5
17.2
15
13. 1
30
09.8
75
07.9
5
17.9
15
13.2
30
10.4
75
07.6
5
18.5
15
13.2
30
10.7
75
08.7
5
19.0
15
14.7
75
08.7
5
18.0
15
13.5
30
10.3
75
08. 1
5
21 .6
15
14.1
30
10.9
75
08.8
5
20.8
15
14.6
-------�
Takle 4. (Continued)
C. Watershed 111
ro
CO
<-n
T ION
TIME
DEPTH
TEMPERA
CM
CENT
9
78
95
445
30
11.3
9
78
95
445
75
09.1
10
78
95
455
5
16.9
10
78
95
455
15
13.2
10
78
95
455
30
09.6
10
78
95
455
75
08.5
1
78
102
535
5
21 .6
1
78
102
535
15
15.4
1
78
102
535
30
11 .9
1
78
102
535
75
09.5
2
78
102
525
5
22.9
2
78
102
525
15
16.8
2
78
102
525
30
12.7
2
78
102
525
75
10.6
3
78
102
605
5
18.3
3
78
102
605
15
14.3
3
78
102
605
30
11.2
3
78
102
605
75
09.5
4
78
102
615
5
21 .3
4
78
102
615
15
16.1
4
78
102
615
30
12.4
4
78
102
615
75
09.2
5
78
102
610
5
21.5
5
78
102
610
15
15.6
5
78
102
610
30
12.2
5
78
102
610
75
10.2
6
70
102
600
5
20.3
6
78
102
600
15
16.4
G
78
102
600
75
10.4
7
70
1 02
545
5
19.7
7
70
1 02
545
15
15.4
7
78
1 02
545
30
12.0
7
70
1 02
545
75
09.6
8
78
102
540
5
23.6
8
78
1 02
540
15
16.5
8
78
102
040
30
12.6
0
70
102
540
75
10.2
9
78
1 02
555
5
22.0
9
70
1 02
505
15
16,6
9
70
102
555
30
12.9
9
78
102
555
75
10.5
10
78
102
550
5
17..3
10
78
102
550
15
14.4
10
78
102
550
30
10.6
10
78
102
550
75
09.3
1
78
1 00
345
5
17.9
1
70
108
345
15
13.7
1
78
100
345
30
11.5
1
78
108
345
75
10.6
2
78
108
400
5
20.2
2
78
108
400
15
15.4
2
70
108
400
30
12.5
2
78
108
400
75
11.5
3
78
108
415
5
16.4
3
78
108
415
15
12.9
WATERSHED 111
STATION TIME
3
78
108
1415
3
78
108
1415
4
78
108
1500
4
78
108
1500
4
78
108
1500
4
78
108
1500
5
78
108
1445
5
78
108
1445
5
78
108
1445
5
78
108
1445
6
78
108
1430
6
78
108
1430
6
78
108
1430
7
78
108
1545
7
78
108
1545
7
78
108
1545
7
78
108
1545
8
78
108
1515
8
78
108
1515
8
78
108
1515
8
78
108
1515
9
78
108
1530
9
78
108
1530
9
78
108
1530
9
78
108
1530
10
78
100
1600
10
78
108
1600
10
78
108
1600
10
78
108
1 GOO
1
78
122
1400
1
78
122
1400
1
78
122
1400
1
78
122
1400
2
78
122
1500
2
78
122
1500
2
78
122
1500
2
70
1 ?2
1500
4
78
122
900
4
78
122
000
4
78
122
900
4
78
122
900
5
78
122'
'1300
5
78
122
1300
5
78
122
1300
5
78
122
1300
6
78
122
1 100
6
78
122
1 too
6
78
122
1 100
3
78
123
900
3
78
123
900
3
78
123
900
3
78
123
900
7
78
123
1400
7
70
123
1400
7
78
123
1400
WATERSHED 111
DEPTH
TEMPERATURE
STATION TIME
DEPTH
TEMPERATURE
CM
CENT
CM
CENT
30
10.8
7
78 123
1400
75
11.8
75
10.3
8
78 123
1330
5
25.5
5
17.4
8
78 123
1330
15
16.2
15
13.9
8
78 123
1330
30
13.2
30
11.5
8
78 123
1330
75
11.9
75
10.0
9
78 123
1000
5
16.8
5
18.5
9
78 123
1000
15
13.0
15
13.9
9
78 123
1000
30
13.2
30
11.8
9
78 123
1000
75
12.5
75
11.0
10
78 123
1440
5
17.2
5
17.9
10
78 123
1440
15
13.4
15
14.7
10
78 123
1440
30
10.7
75
11.3
10
78 123
1440
75
10.4
5
16.4
1
78 129
1345
5
25.5
15
13.7
1
78 129
1345
15
18.0
30
11.5
1
78 129
1345
30
13.8
75
10.4
1
78 129
1345
75
11.6
5
19.6
2
78 .129
1510
5
25.2
15
15.0
2
78 129
1510
15
19.5
30
12.2
2
78 129
1510
30
14.2
75
10.9
2
78 129
1510
75
12.1
5
17.7
3
78 129
1505
5
23.2
15
14.6
3
78 129
1505
15
17.8
30
12.2
3
78 129
1505
30
13.4
75
11.2
3
78 129
1i>05
75
11.7
5
14.7
4
78 129
1355
5
26.3
15
12.2
4
78 129
1355
15
18.7
30
09.9
4
78 129
1355
30
14.2
75
09.7
4
78 129
1355
75
11.3
5
20.1
5
70 129
1400
0
2C.2
15
14.4
5
70 1 ?9
1400
15
18. 1
30
12.1
5
78 129
1400
30
13.0
75
11.3
.5
78 129
1400
75
12.0
5
22.4
6
78 129
1440
5
24.0
15
15.8
6
78 129
1440
15
18.8
30
12.5
6
78 129
1440
75
12.1
75
11.9
7
70 129
1415
5
24.4
5
10.1
7
70 129
1415
15
10.1
15
10.2
7
78 129
1415
30
13.9
30
1 1.4
7
70 129
1415
75
11.9
75
10.9
8
78 129
1410
5
28.8
5
18.5
8
78 129
1410
15
19.2
15
12.9
8
78 129
1410
30
14.3
30
12.1
8
78 129
1410
75
1 1.9
75
11.6
9
78 129
1435
5
25.7
5
19.3
9
78 129
1435
15
18.7
15
14.1
9
78 129
1435
30
14.6
75
12,0
9
78 129
1435
75
12.5
5
11.0
10
78 129
1425
5
21.4
15
11.3
10
78 129
1425
15
15.9
30
12.2
10
78 129
1425
30
11.8
75
1 1.3
10
78 129
1425
75
10.7
5
20,6
1
78 139
1420
5
29.9
15
15.7
1
78 139
1420
15
19.9
30
13.0
1
78 139
1420
30
17.1
-------�
Table 4. (Continued)
C. Watershed 111
WATERSHED HI
STATION TIME OEPTH TEMPERATURE
CM CENT
1
78
139
1420
75
14.6
2
78
1 39
1305
5
25.2
2
78
1 39
1305
15
19.7
2
78
139
1305
30
16.8
2
78
139
1305
75
14.4
3
78
1 39
1410
5
23.3
3
78
139
1410
15
19.4
3
78
139
1410
30
16.3
3
78
139
1410
75
14.3
4
78
1 39
1320
5
27.1
4
78
1 39
1320
15
20.1
A
78
1 39
1320
30
17.4
4
78
139
1320
75
14.3
6
78
139
1405
5
24.5
6
78
139
1405
15
20.3
6
78
1 39
1405
75
14.5
7
78
139
1340
5
24.3
7
78
139
1340
15
19.8
7
78
1 39
1340
30
17.1
7
78
139
1340
75
14.6
8
78
139
1335
5
27.1
8
78
139
1335
15
19.9
8
78
139
1335
30
16.9
8
78
139
1335
75
14.1
9
78
1 39
1355
5
26.2
9
78
1 39
1355
15
20.7
9
78
139
1355
30
17.6
-------�
Table 5. Height and leaf area index of corn plants on watershed 109 in 1977.
Station May 26 June 10 June 16 June 30 July 22
1
Corn height (cm) 14 36 59 124 284
Leaf area index - 0.38 1.04 2.70 3.80
3
Corn height (cm) 14 43 65 181 303
Leaf area index - 0.47 1.09 3.72 4.01
5
Corn height (cm) 17 45 64 195 302
Leaf area index - 0.48 1.00 3.00 3.70
6
Corn height (cm) 14 37 64 147 252
Leaf area index - 0.38 0.87 2.52 3.33
8
Corn height (cm) 17 48 72 211 339
Leaf area index - 0.58 1.25 3.47 3.74
237
-------�
Table 5A. Average corn plant heights on watershed 109 in 1977.
(means ą a, N = 5, units - cm)
Days since Station 1 Station 2 Station 3 Station 6 Station 7 Station 10
planting*
12
9ą1.1 9 ą1.8
8.'1.3
10t2.5
10ą2.8
9ą0.84
15
15ą2.4 13+1.5
13ą1.3
14ą3.4
15+2.4
15ą1.5
22
22+3.0 19ą2.9
22ą2.8
22ą2.3
21ą4.2
26ą1.7
30
37ą8.2 31ą8.4
44ą1.0
40ą6.1
41ą5.7
42ą7.8
36
57ą4.7 39+11
61ą6.8
59+4.71
61ą5.8
62ą5.0
49
133ą13.0 86ą27
145+10.3
150ą22.4
156ą20.0
50
145+18.0 79ą19
182ą12.0
143ą7.19
57
200ą19.3 149ą56.2
235ą10.9
180ą20.7
210ą35.1
231ą12.3
65
268+29.3 109+74.7
294ą12.5
239ą12.5
297ą25.6
312ą16.2
72
276ą13.8 201ą49.3
297ą16.4
249ą22.2
311ą23.5
308ą29.0
78
290ą14.5
252ą12.2
301ą31.0
79
231ą46.2
292ą4.27
300ą8.17
86
287ą22.5 248ą30.5
294ą17.9
241ą19.6
290ą36.6
307ą20.9
93
271ą12.4 212ą75.4
282ą13.7
245ą21.8
318ą27.0
301ą27.0
111
282ą12.0 240ą57.8
295ą10.6
239ą24.7
302ą35.9
322ą11.5
118
267ą20.5
287ą9.86
248ą31.1
138
267ą11.2 208ą78.6
263ą45.4
220ą20.8
309ą25.6
262ą20.9
159
180+60.5**
269ą55.7**
174
183ą37.0** 161ą65.3**
289ą52.1**
Station 4
Station 5
Station 8
Station !
13
11 ą2.3
1H1.7
11 ą2.2
12ą2.7
16
19+2.3
18ą1.5
17ą0.84
14ą2.3
23
29ą 3.6
27ą4.1
26ą2.6
27ą2.3
31
48ą4.9
44ą7.9
49ą2.3
42ą7.4
37
66ą5.4
67ą5.1
68ą4.5
64ą8.2
50
184ą11.4
190ą 24.0
188ą16.0
14 3ą11.0
51
195ą16.2
208ą10.2
58
232ą15.8
233ą 28". 6
279ą6.80
201ą12.3
73
297ą16.4
291ą 27.7
315ą 21.5
295ą17.7
80
255ą44.4
293ą30.1
303ą 33.1
284ą 28.5
87
263ą26.9
291ą 33.7
321ą10.3
322ą 22.5
94
283ą35.9
273+23.6
318ą29.1
294ą15.5
112
286ą11.9
27 9ą 31.9
314+36.2
292ą14.9
119
280ą 35.7
321ą17.1
139
250ą35.5
262ą52.8
321ą13.2
263+22.9
165
232ą33.1 **
247ą 31.1**
* Planting date was May 10 for stations 4, 5, 8 and 9.
Planting date was May 11 for stations 1, 2, 3, 6, 7 and 10.
** N = 9
238
-------�
Table 6. Corn plant populations and nutrient mass (grams/m2) withdrawal by
corn plants of watershed 109 in 1977.
A. Total phosphorus
Station Mean #
pi ants/m2
15
(5/26)
Days after planting
30
(6/10)
36
(6/16)
50
(6/30)
72
(7/22)
1 4.3
Above ground
Below ground
Total
0.0043
0.0019
0.0062
0.12
0.0077
0.13
0.26
0.014
0.27
0.73
0.05
0.78
2.0
0.14
2.1
Above ground
Below ground
Total
4.7
0.0075
0.0024
0.0099
0.089
0.015
0.10
0.22
0.016
0.24
1.0
0.056
1.1
7.3
0.44
7.7
6 4.1
Above ground
Below ground
Total
2 4.2
7 4.0
10 4.3
Mean total
0.0049
0.0015
0.0064
0.0075
0.0021
0.094
0.0040
0.098
0.11
0.018
0.22
0.012
0.23
0.25
0.021
0.62
0.066
0.69
0.86
0.22
1.1
0.13
1.2
3.7
3.5
16 31 37 51 73
(5/26) (6/10) (6/16) (6/30) (7/22)
5 3.9
Above ground 0.010 0.13 0.22 1.9 2.8
Below ground 0.0020 0.055 0.018 0.082 0.22
Total 0.012 0.19 0.24 2.0 3.0
8 4.1
Above ground 0.0062 0.16 0.23 1.3 3.6
Below ground 0.0013 0.010 0.023 0.055 0.19
Total 0.0075 0.17 0.25 1.4 3.8
4 4.1
9 3.6
Mean total 0.0098 0.18 0.25 1.7 3.4
239
-------�
Table 6. (con't)
B. Total Kjeldahl nitrogen
Days after planting
Station
Mean #
pi ants/m2
15
(5/26)
30
(6/10)
36
(6/16)
50
(6/30)
r-*
ro ro
1
Above ground
Below ground
4.3
0.060
0.0073
0.86
0.056
2.2
0.086
4.2
0.017
n
0.52
Total
0.067
0.92
2.3
4.2
12
3
Above ground
Below ground
4.7
0.080
0.012
0.99
0.085
1.8
0.089
5.5
0.072
15
1.6
Total
0.092
1.1
1.9
5.6
17
6
Above ground
Below ground
4.1
0.062
0.016
0.66
0.11
1.7
0.086
2.8
0.014
5.2
0.74
Total
0.078
0.77
1.8
2.8
5.9
2
4.2
7
4.0
10
4.3
Mean total
0.079
0.93
2.0
4.2
12
a
0.013
0.17
0.26
1.4
5.6
16 31 37 51 73
(5/26) (6/10) (6/16) (6/30) (7/22)
5 3.9
Above ground
0.082
0.94
2.1
5.2
11
Below ground
0.011
0.055
0.14
0.011
1.0
Total
0.093
1.0
2.2
5.2
12
8
4.1
Above ground
0.078
1.3
2.2
4.8
15
Below ground
0.016
0.066
0.16
0.13
1.1
Total
0.094
1.4
2.4
4.9
16
4
4.1
9
3.6
Mean total
0.094
1.2
2.3
5.1
14
240
-------�
Table 7. Total phosphorus concentrations in corn plant parts (mg/g dry wt)
on watershed 109.
A. May 26, 1977
Total phosphorus (mg/g dry wt)
Roots Stalks Leaves
Station 1
2.92 3.12
Station 3
2.48 4.00
Station 5
2.87 6.55
Station 6
1.72 3.31
Station 8
1.58 3.03
241
-------�
Table 7. (Continued)
B. June 10, 1977
Total phosphorus (mg/g dry wt)
Roots Stalks Leaves
Station 1
1.82 5.45
Station 3
2.65 3.17
Station 5
1.81 4.02
Station 6
1.29 4.75
Station 8
2.21 3.97
242
-------�
Table 7. (Continued)
C. June 16, 1977
Total phosphorus (mg/g dry wt)
Roots Stalks Leaves Tassels
Station 1
1.85 5.02 4.08
Station 3
2.40 4.91 3.82
Station 5
1.96 4.64 3.95
Station 6
1.53 3.76 3.94
Station 8
1.91 2.91 3.36
243
-------�
Table 7. (Continued)
D. June 30, 1977
Total phosphorus (mg/g dry wt)
Roots Stal ks Leaves Tassels
Station 1
1.20 3.47 2.99
Station 3
0.995 2.23 3.26 6.10*
Station 5
1.39 5.41 3.86 6.10*
Station 6
1.98 2.66 3.29 6.10*
Station 8
1.11 2.66 4.84 6.10*
* Combined tassels from stations 3, 5, 6, and 8.
244
-------�
Table 7. (Continued)
E. July 22, 1977
Total phosphorus (mg/g dry wt)
Roots Stalks Leaves Tassels Ears Husks
Station 1
1.55 1.42 3.64 1.98 3.51 2.85
Station 3
2.00 2.92 3.79 2.86 4.29 3.34
Station 5
1.47 2.69 3.63 1.92 3.27 2.35
Station 6
1.12 1.63 2.80 2.76 4.19 3.59
Station 8
1.12 2.18 4.17 2.49 3.39 2.04
245
-------�
Table 8. Total Kjeldahl nitrogen concentrations in corn plant parts
(mg/g dry wt) on watershed 109.
A. May 26, 1977
Kjeldahl nitrogen (mg/g dry wt)
Roots Stalks Leaves
Station 1
11.6 41.5
Station 3
12.3 43.0
Station 5
16.1 52.6
Station 6
17.9 41.6
Station 8
19.5 37.3
246
-------�
Table 8. (Continued)
B. June 10, 1977
Kjeldahl nitrogen (mg/g dry wt)
Roots Stalks Leaves
Station 1
13.4 40.5
Station 3
14.8 34.4
Station 5
10.1 28.0
Station 6
36.8 32.8
Station 8
14.5 32.6
247
-------�
Table 8. (Continued)
C. June 16, 1977
Kjeldahl nitrogen (mg/g dry wt)
Roots Stalks Leaves Tassels
Station 1
11.0 35.5 37.8
Station 3
13.5 26.2 38.9
Station 5
16.2 30.0 44.0
Station 6
10.9 29.0 32.0
Station 8
12.9 23.7 33.5
243
-------�
Table 8. (Continued)
D. June 30, 1977
Kjeldahl nitrogen (mg/g dry wt)
Roots Stalks Leaves Tassels
Station 1
0.431 12.8 22.7
Station 3
1.27 6.44 23.5 22.8*
Station 5
0.183 5.11 26.1 22.8*
Station 6
0.412 6.41 18.9 22.8*
Station 8
2.63 1.49 25.3 22.8*
* Analysis performed on tassels from stations 3, 5, 6, and 8 combined.
249
-------�
Table 8. (Continued)
E. July 22, 1977
Kjeldahl nitrogen (mg/g dry wt)
Roots Stalks Leaves Tassels Ears Husks
Station 1
5.72 5.53 23.2 11.6 20.2 16.1
Station 3
7.28 8.37 24.8 12.4 21.2 7.87
Station 5
6.78 7.27 22.6 9.77 16.4 8.20
Station 6
6.41 4.28 19.1 13.9 22.4 13.7
Station 8
6.18 6.69 26.3 12.9 14.4 6.14
250
-------�
Table 9. Corn dry weight (g/plant) and total nutrient content (g/plant) for the various plant parts on
watershed 109.
A. May 26, 1977 - (day 12 for stations 1, 3, and 6; day 13 for stations 5 and 8).
1
Station
5
8
Mean
sd
N: P
Stalks and Leaves
dry mass 0.33 0.40 0.40 0.37 0.50 0.40 0.063
total P 0.0010 0.0016 0.0026 0.0012 0.0015 0.0013 0.00085 29:1
Kjeldahl N 0.014 0.017 0.021 0.015 0.019 0.017 0.0029
Roots
dry mass
total P
Kjeldahl N
0.15 0.20 0.18 0.21 0.20 0.19 0.024
0.00044 0.00050 0.00052 0.00036 0.00032 0.00043 0.000087
0.0017 0.0025 0.0029 0.0038 0.0039 0.0030 0.00092
15:1
Total
dry mass
total P
Kjeldahl N
0.48
0.001
0.016
0.60
0.003
0.020
0.58
0.004
0.024
0.58
0.001
0.019
0.70
0.002
0.023
0.59
0.002
0.020
0.078
0.001
0.0032
23:1
-------�
Table 9. (Continued)
B. June 10, 1977 - (day 30 for stations 1, 3, and 6; day 31 for stations 5 and 8)
Station
] 3 5 6 8 Mean sd N:P
Stalks and Leaves
dry mass 4.9 6.1 8.5 4.9 9.8 6.8 2.2
total P 0.027 0.019 0.034 0.023 0.039 0.028 0.0081 18:1
Kjeldahl N 0.20 0.21 0.24 0.16 0.32 0.23 0.060
Roots
dry mass 0.97 1.2 1.4 0.75 1.1 1.1 0.24
total P 0.0018 0.0032 0.0025 0.00097 0.0024 0.0021 0.00084 19:1
Kjeldahl N 0.013 0.018 0.014 0.028 0.016 0.018 0.0060
Total
dry mass 5.9 7.3 9.9 5.7 10.9 7.9 2.4
total P 0.029 0.022 0.037 0.024 0.041 0.031 0.0082 17:1
Kjeldahl N 0.21 0.23 0.25 0.19 0.34 0.24 0.058
-------�
Table 9. (Continued)
C. June 16, 1977 - (day 36 for stations 1, 3, and 6; day 37 for stations 5 and 8)
Station
1 3 5 6 8 Mean sd N:P
Leaves
dry mass 9.5 7.8 9.6 9.3 12.3 9.7 1.6
total P 0.039 0.030 0.038 0.037 0.041 0.037 0.0042 22:1
Kjeldahl N 0.36 0.30 0.42 0.30 0.412 0.36 0.058
Stalks
dry mass 4.4 3.4 3.9 4.2 5.1 4.2 0.63
ro
W total P 0.022 0.017 0.018 0.016 0.015 0.018 0.0027 15:1
Kjeldahl N 0.16 0.089 0.12 0.12 0.12 0.12 0.025
Roots
dry mass 1.8 1.4 2.3 1.9 3.0 2.1 0.61
total P 0.0033 0.0034 0.0045 0.0029 0.0057 0.0040 0.0011 15:1
Kjeldahl N 0.020 0.019 0.037 0.021 0.039 0.027 0.0099
Total
dry mass 15.7 12.6 15.8 15.4 20.4 16.0 2.80
total P 0.064 0.050 0.061 0.056 0.062 0.059 0.0056 19:1
Kjeldahl N 0.54 0.41 0.58 0.44 0.57 0.51 0.078
-------�
Table 9. (Continued)
D. June 30, 1977 - (day 50 for stations 1, 3, and 6; day 51 for stations 5 and 8)
Station
1 3 5 6 8 Mean sd
N: P
Tassels
dry mass
total P*
Kjeldahl N*
Leaves
dry mass
total P
Kjeldahl N
Stalks
dry mass
total P
Kjeldahl N
Roots
dry mass
total P
Kjeldahl N
Total
dry mass
total P
Kjeldahl N
30.3
0.0906
0.688
23.0
0.0798
0.294
9.3
0.011
0.0040
62.6
0.181
0.986
0.45
0.0027
0.010
38.7
0.126
0.908
39.4
0.0879
0.254
12.1
0.0120
0.0154
2.0
0.012
0.046
37.8
0.146
0.985
60.0
0.325
0.307
15.0
0.0209
0.00275
90.7 114.8
0.229 0.504
1.187 1.341
0.15
0.00092
0.0034
28.3
0.0931
0.536
21.8
0.0580
0.140
8.1
0.016
0.0033
58.4
0.168
0.682
1.5
0.0092
0.034
42.7
0.207
1.08
42.5
0.113
0.0633
12.2
0.0135
0.0321
98.9
0.343
1.21
1.0
0.0062
0.023
35.6
0.133
0.839
37.3
0.133
0.212
11.0
8;81i
85.1
0.285
1.08
0.87
6.05
0.0477
0.223
15.7
0.109
0.106
y?§°
24.1
0.141
0.257
8.2:1
14.0:1
3.53:1
1.8:1
8.39:1
* Analysis performed on tassels from stations 3, 5, 6, and 8 combined.
-------�
Table 9. (Continued)
E. July 22, 1977 - (day 72 for stations
Husks
dry mass
total P
Kjeldahl N
Ears
dry mass
total P
Kjeldahl N
Tassels
dry mass
total P
Kjeldahl N
Leaves
dry mass
total P
Kjeldahl N
Stalks
dry mass
total P
Kjeldahl N
Roots
dry mass
total P
Kjeldahl N
Total
dry mass
total P
Kjeldahl N
23.8
0.0678
0.383
21.0
0.074
0.43
3.0
0.0059
0.035
50.0
0.18
1.16
96.5
0.137
0.534
21.0
0.033
0.12
215.0
0.50
2.66
37.7
0.126
0.297
29.5
0.127
0.625
3.4
0.010
0.042
44.0
0.17
1.1
134.0
0.391
1.12
47.0
0.094
0.34
296.0
0.92
3.5
30.1
0.0707
0.247
20.8
0.0680
0.341
4.3
0.0083
0.042
54.0
0.20
1.2
136.0
0.366
0.989
38.0
0.056
0.26
283.0
0.77
3.1
1, 3, and 6; day 73 for stations 5 and 8)
6 8 Mean sd
N: P
4.8 40.8
0.017 0.0832
0.066 0.251
27 4 14 3
o!o729 o!o390
0.249 0.116
1.5 56.2
0.0063 0.191
0.034 0.809
25.8 19.9
0.093 0.069
0.45 0.29
3.5 3.8
0.010 0.0095
0.049 0.049
3.6 0.48
0.0087 0.0017
0.043 0.0059
41.0 52.0
0.12 0.22
0.78 1.4
48.0 5.5
0.18 0.038
1.1 0.22
77.5 167.0
0.126 0.364
0.332 1.12
122.0 35.3
0.277 0.133
0.819 0.363
28.0
0.031
0.18
42.0
0.047
0.26
35.0
0.052
0.23
11.0
0.026
0.085
156.0 362.0
0.31 0.92
1.44 3.9
262.0 79.1
0.68 0.27
2.9 0.94
7.56:1
11:1
11:1
14:1
6.55:1
9.9:1
-------�
Table 10. Dry weight to fresh plant weight ratios for corn
plant parts for watershed 109.
A. May 26, 1977
Roots Stalks and leaves
Station 1
0.12 0.14
Station 3
0.13 0.13
Station 5
0.14 0.13
Station 6
0.13 0.16
Station 8
0.19 0.16
256
-------�
Table 10. (Continued)
B. June 10, 1977
Roots Stalks and leaves
Station 1
0.14 0.12
Station 3
0.14 0.12
Station 5
0.19 0.14
Station 6
0.13 0.12
Station 8
0.14 0.13
257
-------�
Table 10. (Continued)
C. June 16, 1977
Roots Stalks Leaves Tassels
Station 1
0.17 0.07 0.13
Station 3
0.13 0.07 0.12
Station 5
0.17 0.08 0.14
Station 6
0.18 0.07 0.15
Station 8
0.16 0.08 0.14
258
-------�
Table 10. (Continued)
D. June 30, 1977
Roots Stalks Leaves Tassels
Station 1
0.16 0.09 0.15
Station 3
0.20 0.10 0.17 0.15
Station 5
0.17 0.12 0.21 0.15
Station 6
0.17 0.10 0.17 0.15
Station 8
0.21 0.09 0.18 0.15
259
-------�
Table 10. (Continued)
E. July 22, 1977
Roots Stalks Leaves Tassels Ears Husks
Station 1 ,
0.18 0.17 0.27 0.37 0.12 0.16
Station 3
0.15 0.18 0.22 0.43 0.11 0.17
Station 5
0.16 0.19 0.28 0.45 0.15 0.23
Station 6
0.17 0.17 0.27 0.47 0.17 0.16
Station 8
0.16 0.19 0.22 0.36 0.22 0.21
260
-------�
Table 11. Mean soil bulk densities (g dry wt/cm3) for watersheds 109, 110, and 111.
A. Watershed 109
Stations
Depth ] 2 3 4 5 6 7 8 9 10 Mean ą a
75
cm 1.453
1.446
1.339
1.296
1.503
1.278
1.404
1.495
1.537
1.479
1.423ą0.095
Mean ą a
= 1.286ą0.115
B.
Watershed
110
5
cm 1.120
1.394
1.183
0.876
1.159
0.889
0.928
0.818
1.269
1.014
1.108ą0.252
15
cm 1.377
1.381
1.449
1.300
1.308
1.097
1.207
1.323
1.239
1.351
1.303ą0.101
30
cm 1.517
1.437
1.548
1.431
1.518
1.378
1.451
1.419
1.306
1.447
1.445ą0.072
75
cm 1.716
1.687
1.531
1.636
1.548
1.576
1.626
1.512
1.523
1.472
1.583ą0.080
Mean ą a
= 1.349ą0.226
C. Watershed
111
5
cm 1.492
1.344
1.418
1.297
1.209
1.459
1.365
1.431
1.276
1.235
1.353ą0.097
15
cm 1.446
1.431
1.295
1.406
1.322
1.295
1.349
1.374
1.431
1.272
1.362ą0.065
30
cm 1.369
1.479
1.429
1.256
1.267
1.330
1.443
1.394
1.436
1.417
1.382ą0.076
75
cm 1.328
1.518
1.289
1.424
1.252
0.973
1.556
1.503
1.548
1.680
1.402ą0.196
Mean ą a
= 1.375ą0.117
-------�
Table 12. Mass of soil (Kg dry wt/ m2) in depth
110, and 111 in 1977.
A. Watershed 109
-------�
WATERSHED 109
STATION CORE
DEPTH
ro
01
CO
2
2
2
2
2
2
2
2
3
3
3
3
3
3
3
3
4
4
4
4
4
4
4
4
5
5
5
5
5
5
5
5
6
6
6
6
6
6
6
6
0. -
1
2
5
8
12
18
24
0. Ļ
1.0-
2.5-
5.0-
8.0-
12.0-
18.0-
24.0-
0. Ļ
1 .0-
2.5-
5.0-
8.0-
12
18
24
0
1
2
5.0-
8.0-
12.0-
18.0-
24.0-
0.
1.0-
2.5-
5.0-
8.0-
12.0-
18.0-
24.0-
0. Ļ
1 .0-
2.5-
5.0-
8.0-
12.0-
18.0-
24.0-
0. Ļ
1.0-
2.5-
5.0-
8.0-
12.0-
1 .0
2.5
5.0
8.0
12.0
18.0
24.0
30.0
1 .0
2.5
5.0
8.0
12.0
18.0
24.0
30.0
1 .0
2.5
5.0
8.0
12.0
18.0
24.0
30.0
1 .0
2.5
5.0
8.0
12.0
18.0
24.0
30.0
1 .0
2.5
5.0
8.0
12.0
18.0
24.0
30.0
1 .0
2.5
5.0
8.0
12.0
18.0
24.0
30.0
1 .0
2.5
5.0
8.0
12.0
18.0
SAND
46.00
43.00
43.00
45.00
35.00
58.00
44.00
40.00
75.00
71 .00
82.00
73.00
73.00
75.00
77.00
76.00
65.00
65.00
63.00
65.00
64.00
63.00
64.00
65.00
52.00
50.00
50.00
52.00
54.00
59.00
53.00
57.00
32.00
31 .00
30.00
30.00
30.00
32.00
26.00
26.00
57.00
60.00
58.00
59.00
57.00
57.00
59.00
73.00
54.00
52.00
52.00
52.00
52.00
53.00
SILT CLAY
28.00
50.00
50.00
46.00
61 .00
35.00
52.00
49.00
18.00
21 .00
13.00
22.00
20.00
25.00
23.00
19.00
29.00
28.00
32.00
30.00
30.00
32.00
28.00
29.00
34.00
33.00
36.00
34.00
34.00
28.00
38.00
34.00
55.00
57.00
52.00
52.00
53.00
60.00
58.00
58.00
31 .00
27.00
29.00
27.00
29.00
30.00
31 .00
20.00
36.00
37.00
37.00
38.00
39.00
37.00
26.00
06.00
07.00
09.00
05.00
07 .00
04.00
11 .00
07.00
07.00
06.00
06.00
07 .00
00 .00
00 .00
05.00
06.00
07.00
05.00
05.00
06.00
05.00
08.00
06.00
14.00
17.00
14.00
14.00
12.00
13.00
09.00
09.00
13.00
13.00
18.00
18.00
17.00
08.00
16.00
16.00
12.00
13.00
13.00
14.00
14.00
13.00
10.00
07.00
10.00
11 .00
11 .00
10.00
09.00
10.00
ORGANIC
03.00
08.00
11 .00
13.00
14.00
15.00
14.00
06. 00
01 .00
03.00
06.00
09.00
11 . 00
12.00
10.00
11 .00
04.00
69.00
07.00
10.00
10.00
13.00
12.00
03.00
12.00
18. 00
20.00
16.00
19. 00
16. 00
04.00
11 .00
11 .00
17.00
12.00
23. 00
18.00
19.00
04.00
10.00
12.00
15.00
13.00
16.00
20.00
17.00
05.00
12.00
14.00
25.00
17.00
17.00
-------�
WATERSHED 109
STATION
CORE DEPTH
SAND
SILT
CLAY
ORGANIC
7
1 18.0-24.0
55.00
35.00
10.00
14. 00
7
1 24.0-30.0
56.00
33.00
11 .00
14.00
8
1 0.-1.0
50.00
37.00
13.00
04.00
8
1 1.0-2.5
48. 00
37.00
15.00
07. 00
8
1 2.5- 5.0
49. 00
39.00
12 .00
13.00
8
1 5.0- 8.0
50.00
37.00
13.00
15.00
8
1 8.0-12.0
50.00
39.00
11 .00
16.00
8
1 12.0-18.0
52.00
34.00
14 .00
14.00
8
1 18.0-24.0
48.00
36.00
16.00
14. 00
8
1 24.0-30.0
50.00
40.00
10 .00
13.00
9
1 0.-1.0
49.00
50.00
01 .00
04. 00
9
1 1.0-2.5
47.00
38.00
18.00
06.00
9
1 2.5- 5.0
41 .00
45.00
14.00
12.00
9
1 5.0- 8.0
47.00
36.00
17 .00
68. 00
9
1 8.0-12.0
49.00
38.00
13.00
14. 00
9
1 12.0-18.0
47.00
38.00
15.00
1 1 .00
9
1 18.0-24.0
45.00
41 .00
14.00
15.00
9
1 24.0-30.0
43.00
43.00
14 .00
17.00
10
1 0.-1.0
85.00
04.00
11 .00
05.00
10
1 1.0-2.5
51 . 00
38.00
11 .00
11.00
10
1 2.5- 5.0
52.00
37.00
11 .00
13.00
10
1 5.0- 8.0
53.00
36.00
11 .00
17.00
10
1 8.0-12.0
53.00
35.00
12.00
18.00
10
1 12.0-18.0
55.00
34.00
11 .00
14. 00
10
1 18.0-24.0
54.00
34.00
12.00
17.00
10
1 24.0-30.0
52.00
37.00
11 .00
17.00
-------�
WATERSHED 111
STATION CORE
DEPTH
f
ro
o->
cn
5
5
5
5
5
5
5
5
5
6
6
6
6
6
6
6
6
6
0. Ļ
1 .0-
2.5-
5.0-
8.0-
12.0-
18.0-
24.0-
30.0-
0
1
2
5
8
12
18
24
30.0
0.
1 .0
2.5
1 .0
2.5
5.0
8.0
12.0
18.0
24.0
30.0
60.0
1 .0
2.5
5.0
8.0
12.0
18.0
5.
8.
12.
18.
24.
30.
0.
1 .
2.
5.
8.
12.
18.
24.
30.
0.
1 .
2.
5.
8.
12.
18.
24.
30.
0.
1 .
2.
0-
0-
0-
0-
0-
0-
0'
5-
0-
0-
0-
0-
0-
0-
0-
5-
0-
0-
0-
0-
0-
0-
0-
5-
5.0-
8.0-
12.0-
18.0-
24.0-
30.0-
Ļ24
30
'60
1
' 2
5.0
8.0
12.0
Ļ18.0
24.0
30.0
60.0
1 .0
2.5
5.0
8.0
12.0
18.0
24.0
30.0
60.0
1 .0
2.5
5.0
8.0
12.0
18.0
24.0
30.0
60.0
1 .0
2.5
5.0
8.0
12.0
18.0
24.0
30.0
60.0
SAND
33.86
35.90
35.54
34.62
33.26
33.83
32.65
28.65
36.75
50.00
51 .25
50.26
52.15
52. 16
48.06
37.55
40.69
43.44
31 .96
31 .01
32.00
32.07
31 .56
31 .96
29.73
25.55
30.02
42.20
43.62
44.74
44.64
45.46
44.79
39.40
35.43
33.70
53.80
57.30
67.75
68.85
66.61
53.44
61 .92
66.39
69.20
28.51
26.63
27.23
26.08
27.71
28.07
28.62
29.04
25.30
SILT
51 .68
48.36
47.61
48.88
51 .09
47.49
47.78
50.66
47.15
36.65
36.14
36.79
35.28
35.14
36.74
38.34
35.75
36.83
55.95
54.23
52.59
51 .20
51 .84
50.20
47.62
43.27
37.85
40.99
40.49
39.41
37.04
37.78
38.03
31 .80
30.99
27.47
31 .09
28.44
19.45
18.97
19.21
25.06
20.49
18.08
17.42
62.27
63.61
63.27
64.01
62.34
61 .94
60.93
60.70
59.70
CLAY
14.47
15.74
16.85
16.50
15.65
18.68
19.57
20.69
16.10
13.35
12.61
12.94
12.56
12.70
15.21
24. 12
23.65
19. 73
12.10
14.77
15.41
16.72
16.60
17.83
22.65
31 . 18
32. 13
16.82
15.88
15.85
18.33
16.76
17.18
28. 79
33.58
38.83
15.11
14.26
12.79
12.18
14.18
21 .50
17.59
15.53
13.38
09.23
09.76
09.50
09.91
09.94
09.99
10.45
10.25
15.00
ORGANIC
-------�
6
8
8
8
8
8
8
8
8
8
9
9
9
9
9
9
9
9
10
10
10
10
10
10
10
10
111
CORE DEPTH SAND SILT CLAY ORGANIC
DEPTH
SAND
SILT
CLAY
30.0-60.0
25.30
59.70
15.00
0. - 1.0
45.74
42 .60
11 .67
1.0- 2.5
45.58
45.41
09.01
2.5- 5.0
46.09
44.06
09.86
5.0- 8.0
45.49
44.62
09.89
8.0-12.0
47.56
40.24
12.19
12.0-18.0
45.46
40.88
13.66
18.0-24.0
33.95
39.86
26. 19
24.0-30.0
41 .49
38.89
19.61
30.0-60.0
38.91
38.52
22.57
0. - 1.0
35.62
48.93
15.44
1.0- 2.5
34.73
51 .44
13.83
2.5- 5.0
34.07
53.41
12.52
5.0- 8.0
35.50
50.44
14.06
8.0-12.0
35.68
42.08
22.25
12.0-18.0
33.05
46.07
20.88
18.0-24.0
31 .51
46.89
21 .59
24.0-30.0
32.34
46.27
21 . 39
24.0-30.0
38.08
44.84
17.09
0. - 1.0
68.46
20.77
10 . 77
1.0- 2.5
61 .21
29.54
09.26
5.0- 8.0
59.62
30.02
10.36
8.0-12.0
62.10
29.93
07.98
12.0-18.0
66.61
23.09
10.30
18.0-24.0
68.08
23.64
08.28
24.0-30.0
67.47
21 .88
10.66
30.0-60.0
79.02
12.33
08.65
0. - 1.0
65.13
24.47
10.40
1.0- 2.5
61 .50
30.54
07.96
5.0- 8.0
71 .78
20.64
07.58
8.0-12.0
68.78
21 .93
09.29
12.0-18.0
69.26
25.62
05. 12
18.0-24.0
78.71
17.41
03.88
24.0-30.0
79.15
15.53
05.32
30.0-60.0
77.93
14.14
07.93
-------�
WATERSHED 109
YR DATE
COMPOSITED CORE DEPTH
TOTAL WATER-SOLU KCL-EXTR ACID-SOL TOTAL ORGANIC ORGANIC PH
ORGANIC
STATIONS
CODE RANGE
P
P04
P04
P04
MATTER
C
MATTER
H
CM
UG/G
UG/G
UG/G
UG/G
G-CAL/G
X
%
77
112
1
1 000-001
3.50E00
0.80E00
1.74E02
9.40E01
04.22
05.4
77
112
1
1 001-7.5
2.60E00
1 .90E00
1 .43E02
1.03E02
04.10
05.8
77
112
t
1 015-030
0.90E00
0.60E00
1 .45E02
3.30E01
04.18
05.0
77
112
1
1 030-060
1.10E00
0.20EOO
1 .39E02
1 .70E01
04.18
05.8
77
112
1
1 7.5-015
4.2OE0O
2.90E00
1 .59E02
1 .64E02
04.78
05.3
77
112
2
3
4
5
1 000-001
1.22E01
2.60E00
3.35E02
5. 10E01
05.12
05.8
77
112
2
3
4
5
1 001-7.5
2.60E00
1.OOEOO
2.95E02
6.80E01
05.09
06. 1
77
112
2
3
4
5
1 015-030
1.90E00
1.70E00
4.36E02
8.OOEOO
03.76
06.4
77
112
2
3
4
5
1 030-060
3.90E00
9.OOEOO
5.60E02
0.OOEOO
03.66
05.3
77
11 2
2
3
4
5
1 7.5-015
8. 10E0O
0.60E00
3.54E02
4.90E01
06.58
06.3
77
112
6
7
e
9
1 000-001
4.70E00
0.30E00
1 .95E02
6.90E01
05.04
06. 1
77
112
6
7
8
9
1 001-7.5
4.70E00
0.20E00
1.91E02
7.80E01
05.33
04.8
77
112
6
7
8
9
1 015-030
4.20E00
0.10E00
2.10E02
1.70E01
04.03
04.3
77
112
6
7
8
9
1 030-060
1.20E0O
4.20EOO
1.89E02
3.00E01
06.72
04. 3
77
112
6
7
8
9
1 7.5-015
2.30E00
0.3OE0O
1.90E02
8.60E01
05.54
04. 7
77
112
10
1 000-001
4.20E00
O.8OE0O
2.42E02
1.08E02
05.24
04.5
77
112
10
1 001-7.5
2.50E00
0.40E00
2.31E02
1.50E02
05.05
05. 1
77
112
10
1 015-030
1.70E00
0.70E00
2.87E02
4.30E01
04.85
04. 3
77
112
10
1 030-060
2.50E00
0.90E00
3.43E02
4.60E01
04.89
04. 3
77
112
10
1 7.5-015
1.70E0O
0.70E00
1 .85E02
7.90E01
05.19
05.0
77
134
1
1 000-00)
1 .00E03
2.60EOO
0.80E00
2.98E02
9.10E01
05.5
77
134
2
3
4
5
1 .38E03
2.50E00
1.30E00
6.29E02
6.50E01
77
134
6
7
8
9
1 000-001
1 .O0EO3
1.14E01
0.80E00
2.57E02
7.60E01
05.4
77
134
10
1 000-001
1.11E03
3.90E00
0.50E00
2.85E02
1.09E02
05.6
77
180
10
1 015-030
6.15E02
O.80E00
0.90E0O
1 .78E02
2.80E01
77
180
10
1 015-030
5.83E02
2.30E00
0.50E00
3.20E01
6.00E01
77
209
1
1 000-001
8.09E02
5.60E00
0.OOEOO
2.51E02
9.10E01
03.74
06. 1
77
209
1
1 001-7.5
6.88E02
3.60E00
0.OOEOO
2.61E02
7.90E01
04.06
06.0
77
209
1
1 015-030
8.00E02 -
0.40E00
0.OOEOO
1.74E02
4.60E01
03.21
05.5
77
209
1
1 030-060
9.00E02
0.50E00
0.OOEOO
2.26E02
1.20E01
04.77
04.8
77
209
1
1 7.5-015
6.61E02
1.90E00
0.OOEOO
2.47E02
9.00E01
04.21
06.5
77
209
2
3
4
5
1 000-001
8.40E02
4.80E00
2.40EOO
5.31E02
5.40E01
04.64
06. 1
77
209
2
3
4
5
1 001-7.5
8.65E02
3.90E00
1.60EOO
6.62E02
6.40E01
05.19
06. 1
77
209
2
3
4
5
1 015-030
9.76E02
4.30E00
0.G0E00
8.00E02
3.10E01
04.60
05.5
77
209
2
3
4
5
1 030-060
8.07E02
3.70E00
1.30E0O
8.01E02
1.10E01
02.98
05.4
77
209
2
3
4
5
1 7.5-015
9.11E02
4.50E00
1.20E0O
6.78E02
6.B0E01
05.43
06.0
77
209
6
7
8
9
1 000-001
8.31E02
2.30E00
0.30E00
2.24E02
8.70E01
05.03
05.5
_Z7
209
6
7
8
9
1 001-7.5
6.58E02
0.20E00
0.OOEOO
2.82E02
8.30E01
05.25
05.3
77
209
6
7
8
9
1 015-030
6.88E02
1.OOEOO
1.30E00
6.38E02
5.50E01
04.53
05. 1
t4
7^ -H
3C
O
O r+
01
J Q)
sz
3
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QJ
cl a>
c+
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c+ =r
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i.
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rr
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3"
a> Ŗ
c+ aģ
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r+ 3"
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cr
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3
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r+
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-------�
WATERSHED 109
YR DATE
COMPOSITED
STATIONS
0
CORE
CODE
DEPTH
RANGE
CM
TOTAL WATER-SOLU KCL-EXTR
P
UG/G
P04
UG/G
P04
UG/G
ACID-SOL TOTAL
ORGANIC
P04 MATTER
UG/G G-CAL/G
ORGANIC ORGANIC PH
C
X
MATTER
%
CD
CT
8
8
8
8
8
8
8
8
8
8
8
8
209
6
7
8
9 1
030-060
3.36E02
0.70E00
0.00E00
3.29E02
2.30E01
04.20
04. 9
209
6
7
8
9 1
7.5-015
7.93E02
0.60E00
0.OOEO0
2.99E02
8.90E01
05.1 1
05.6
209
10
1
000-001
6.81E02
6.40E00
0.O0EO0
3.09E02
8.70E01
05.63
05.5
209
10
1
001-7.5
7.16E02
0.70E00
O.5OEO0
4.91E02
9.00E01
06.06
05. 3
209
10
1
015-030
7.98E02
0.50E00
1.00E00
3.08E02
6.50E01
05.13
05.2
209
10
1
030-060
4.86E02
0.40E0O
O.OOEOO
3.95E02
3.70E01
06.59
05. 1
209
10
1
7.5-015
8.84E02
0.90E00
0.10E00
4.62E02
8.70E01
05.99
05.8
298
1
1
000-001
4.90E00
2.00E00
4.86E02
7.70E01
06. 2
298
1
1
001-7.5
4.30E00
6.40E00
4.42E02
9.90E01
06. 3
298
1
1
015-030
2.90E00
3.30E00
3.70E02
6.30E01
05. 7
298
1
1
030-060
1.80E00
0.90E00
4.54E02
A.OOEOO
05. 3
298
1
1
7.5-015
2.60E00
1.20E00
3.75E02
0.20E01
06.5
298
2
3
4
5 1
000-001
8.60E00
1.70E00
8.20E02
6.20E01
06.0
298
2
3
4
5 1
001-7.5
1.27E01
5.30E00
7.94E02
7.50E01
06.6
298
2
3
4
5 1
015-030
3.20E00
4.3OEO0
8.69E02
2.80E01
05.6
298
2
3
4
5 1
030-060
2.10E00
5.70EOO
9.45E02
1.40E01
05. 4
298
2
3
4
5 1
7.5-015
6.60E00
2.O0E00
7.52E02
5.90E01
06.5
298
6
7
8
9 1
000-001
3.10E00
4.70E00
4.11E02
5.60E01
05.4
298
6
7
8
9 1
001-7.5
2.20E00
2 71OEOO
4.12E02
6.40E01
05. 7
298
6
7
8
9 1
015-030
2.30E00
3.00E00
4.35E02
4.00E01
05.3
298
6
7
8
9 1
030-060
0.70E00
3.OOEO0
5.40E02
4.40E01
05.2
298
6
7
8
9 1
7.5-015
3.30E00
3.5OEO0
4.35E02
5.80E01
05.8
298
10
1
000-001
2.50E00
2.80E00
4.80E02
4.20E01
11 .85
06.5
298
10
1
001-7.5
3.70E00
6.1OEOO
5.33E02
6.50E01
06.66
05.7
298
10
1
015-030
1.40E00
0.90E00
3.55E02
8.50E01
05.73
05.3
298
10
1
030-060
1.70E00
2.5OE00
8.03E02
2.20E01
05.55
04.9
298
10
1
7.5-015
6.0OEOO
3.80E00
7.27E02
6.60E01
05.49
05.6
023
1
1
000-001
6.20E00
1.1OEOO
5.51E02
9.20E01
023
1
1
001-7.5
2.50E00
0.40EOO
3.69E02
7.40E01
023
1
1
015-030
1.20E00
0.40E00
3.71E02
4.90E01
023
1
1
030-060
2.90EOO
0.40E00
3.53E02
3.00E01
023
1
1
7.5-015
2.70E00
0.40EOO
5.11E02
8.10E01
023
2
3
4
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000-001
1.11E01
1.70E00
7.40E02
1.10E02
023
2
3
4
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001-7.5
6.50E00
1.70E00
8.74E02
5.90E01
023
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3
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4.10E00
O.7OEO0
8.63E02
2.80E01
023
2
3
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3.40E00
1.10E00
8.18E02
1.00E01
023
2
3
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7.5-015
7.20E00
1.60E00
7.53E02
6.30E01
023
6
7
8
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1.80E00
0.60E00
2.78E02
6.70E01
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6
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WATERSHED 109
YR DATE
COMPOSITED CORE
STATIONS CODE
K
DEPTH TOTAL WATER-SOLU KCL-EXTR ACID-SOL TOTAL ORGANIC ORGANIC PH
ORGANIC
RANGE P P04 P04 P04 MATTER C MATTER
CM UG/G UG/G UG/G UG/G G-CAL/G X %
cu
cr
ro
78
023
6
7
8
9 1
015-030
3.OOEO0
0.30E00
4.65E02
5.60E01
78
023
6
7
8
9 1
030-060
1.3OEO0
0.20E00
3.97E02
1.O0E01
78
023
6
7
8
9 1
7.5-015
3.10EO0
0.60E00
4.97E02
7.80E01
78
023
10
1
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5.00EOO
0.80E00
4.50E02
9.80E01
78
023
10
1
001-7.5
4.00EOO
0.60EOO
6.07E02
7.80E01
78
023
10
1
015-030
1.60E00
O.4OE0O
4.09E02
6.20E01
78
023
10
1
030-060
1.4OE00
0.50E00
7.39E02
3.00E01
78
023
10
1
7.5-015
2.00EOO
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4.35E02
8.20E01
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w (D
-5
Ol
3 ft)
O. X
c+
c+ -S
o O*
c+ O
CU c+
o>
cr
o
ro
rt-
rr o
o -j
-O rf
3" 3"
O O
c/> ~a
-a zr
3" o
&> (/)
d* "O
a> 3-
w 0ģ
rD
-------�
WATERSHED HO
DATE
COMPOSITED
CORE
DEPTH
TOTAL
WATER-S
STATIONS
CODE
RANGE
P
P04
u
CM
UG/G
UG/G
11 1
1
2
1
000-001
5.27EO0
11 1
1
2
1
001-7.5
1.30E00
1 1 1
1
2
1
015-030
O.52E00
1 1 1
1
2
1
030-060
1.43EO0
1 1 1
1
2
1
7.5-015
0.56E00
11 1
3
4
5
1
000-001
4.49E00
11 1
3
4
5
1
001-7.5
1.59E00
1 1 1
3
4
5
1
015-030
O.43E00
1 1 1
3
4
5
1
030-060
0.16E00
1 1 1
3
4
5
1
7.5-015
0.76E00
1 1 1
6
7
8
1
000-001
1.72E00
1 1 1
6
7
8
1
001-7.5
O.89E00
11 1
6
7
8
1
015-030
O.63EO0
1 1 1
6
7
8
1
030-060
0.13E-00
11 1
6
7
8
1
7.5-015
0.36EOO
1 1 1
9
10
1
000-001
7.89E00
1 1 1
9
10
1
001-7.5
1.79E00
1 1 1
9
10
015-030
0.87E00
1 1 1
9
10
1
030-060
1.03E00
1 1 1
9
10
1
7.5-015
O.95EO0
202
1
2
1
000-001
9.38E02
9.3OEO0
202
1
2
1
001-7.5
7.84E02
4.50E00
202
1
2
1
015-030
3.70E02
0.90E00
202
1
2
1
030-060
4.37E02
O.60EO0
202
1
2
1
7.5-015
5.55E02
1.20E00
202
3
4
5
1
000-001
8.55E02
5.50EOO
202
3
4
5
1
001-7.5
6.05E02
2.3OE00
202
3
4
5
1
015-030
202
3
4
5
1
030-060
5.52E02
0.4OEO0
202
3
4
5
1
7.5-015
6.89E02
2.1OEOO
202
6
7
8
1
000-001
6.96E02
2.60E00
202
6
7
8
1
001-7.5
5.98E02
1.60E00
202
6
7
8
1
015-030
4.83E02
0.7OEO0
202
6
7
8
1
030-060
202
6
7
8
1
7.5-015
4.41E02
1.30E00
202
9
10
1
000-001
7.80E02
5.1OEOO
202
9
10
1
001-7.5
3.27E02
3.10EOO
202
9
10
1
015-030
2.58E02
1.80E00
202
9
10
1
030-060
3.50E02
1.3OEO0
KCL-EXTR ACID-SOL TOTAL ORGANIC ORGANIC PH
ORGANIC
P04 P04 MATTER C MATTER
UG/G UG/G G-CAL/Q % %
0.21E00
0.19E00
O.OOEOO
0.OOEOO
0.43E00
0.28E00
OOEOO
22E00
OOEOO
OOEOO
13E00
OOEOO
18E00
OOEOO
OOEOO
1.14E00
O.OOEOO
0.OOEOO
0.09EOO
O.OOEOO
2.90E00
1.OOEOO
30E00
20E00
50E00
30E00
60EOO
0.40E00
0.60E00
1.80E00
0.30E00
0.40E00
0.30E00
1.OOEOO
1.OOEOO
O.8OE0O
O.50E00
1.61E02
8.70E01
2.30E01
9.70E01
3.50E01
1.t 7E02
5.OOEOI
6.20E01
1.37E02
4.70E01
5.70E01
4.70E01
1.30E02
1.23E02
5.50E01
9.1OEOO
7.30E01
1.22E02
2.1SE02
7.40E01
1.44E02
1.06E02
5.70E01
8.90E01
2.70E01
1.35E02
8.30E01
5.20E01
6.50E01
1.19E02
1.35E02
9.10E01
7.60E01
1.39E02
1.15E02
1.35E02
1.8SE02
3.75E02
1 .48E02
3.30E01
1.60E01
7.20E01
3.97E02
1.06E02
4.40E01
2.10E01
6.60E01
3.68E02
2.16E02
4.50E01
2.10E01
1.20E02
1.17E03
4. 14E02
1 .1 1E02
4.00E01
2.56E02
2.71E02
2.08E02
5.60E01
1.OOEOI
8.10E01
3.53E02
1.78E02
2.80E01
9.OOEOI
3.97E02
2.61E02
6.50E01
1 .77E02
3.97E02
3.05E02
7.20E01
2.70E01
11.19
06.39
05.53
05.88
05.85
14.96
06.91
04.75
04.72
04.89
10.44
06.32
03.64
03.92
04.55
17.95
08.65
03.14
02.91
05.94
13.31
09.08
07.62
06.60
06.75
14.12
07.92
04.97
05.89
05.73
13.47
09.45
04.28
05. 16
05.22
13.51
09.68
02.67
02.85
05.8
05. 1
04.9
05.8
05.0
05.8
05. 3
04. 3
04.6
04.8
04.9
04.5
04. 4
04.0
04.6
04. 9
04. 9
04.6
04.0
04. 7
06.5
06.4
05.9
06.6
05.6
06. 1
05.5
05.3
05. 1
05.2
05.4
04.9
04.6
04.7
04.9
05.4
05.4
04.9
t*
"O
1
ii
31
O
O c+
&>
a>
3
i
Ol CD
d>
x -o
C+
O
c+ 3"
CD
n
-s O
to
OJ
(/>
a>
o -a
=3"
3
c+ 3-
fD
j.
QJ O
O.
O
cr -s
Ļ c
4
3
(X> to
Q>
o
C+
o
c+
-S Q-
a>
C+
zr c/>
Ģ
O r+
O -ģ
3T
O ģ
co ro
ID Q-
ZT
ftt
C+- 0)
a> <-+
* fD
QJ
3 CO
Q. X
r+
-S
O 0J
r+ O
Qi n-
Ģ Q)
cr
o
a>
r+
3" O
o -s
*o n-
o o
(/) *u
*a 3~
3" o
o> in
r+ "O
(T> 3-
<+ ft)
r+
f0
-------�
WATERSHED 110
YR
DATE
COMPOSITED
CORE
DEPTH
TOTAL
WATER-S
STATIONS
CODE
RANGE
P
P04
CM
UG/G
UG/G
77
202
9
10
1
075-015
4.03E02
1.60E00
77
292
1
2
1
000-001
9.30EO0
77
292
1
2
1
001-7.5
1.90EOO
77
292
1
2
1
015-030
1.20EOO
77
292
1
2
1
030-060
0.60E00
77
292
1
2
1
7.5-015
1.9OEO0
77
292
3
4 5
1
000-001
6.OOEOO
77
292
3
4 5
1
001-7.5
1.60E00
77
292
3
4 5
1
015-030
2.lOEOO
77
292
3
4 5
1
030-060
2.40EOO
77
292
3
4 5
1
7.5-015
2.80E00
77
292
6
7 8
1
000-001
2.5OEO0
77
292
6
7 8
1
001-7.5
3.40EOO
77
292
6
7 8
1
015-030
3.30EOO
77
292
6
7 8
1
030-060
1.20E00
77
292
6
7 8
1
7.5-015
1.4OEO0
77
292
9
10
1
000-001
4.50E00
77
292
9
10
1
001-7.5
1 .10E00
77
292
9
1 0
1
015-030
1.90E00
77
292
9
10
1
030-060
O.9OEO0
77
292
9
10
1
7.5-015
1.4OEO0
78
018
1
2
1
000-001
3.50E00
78
018
1
2
1
001-7.5
1.70E00
78
018
1
2
1
015-030
0.50E00
78
018
1
2
1
030-060
0.10E00
78
018
1
2
1
7.5-015
0.60EOO
78
018
3
4 5
1
000-001
5.70EOO
78
018
3
4 5
1
001-7.5
1.60E00
78
018
3
4 5
1
015-030
0.70E00
78
018
3
4 5
1
030-060
0.20EOO
78
018
3
4 5
1
7.5-015
1.60E00
78
018
9
10
1
000-001
5.70E00
78
018
9
10
1
001-7.5
0.60E00
78
018
9
10
1
015-030
1.40E00
78
018
9
10
1
030-060
O.SOEOO
78
018
9
10
1
7.5-015
1.OOEOO
KCl-EXTR ACID-SOL TOTAL ORGANIC ORGANIC PH
ORGANIC
P04 P04 MATTER C MATTER
UG/G UG/G G-CAL/G X %
1.OOEOO
2.2OE0O
1.OOEOO
O.SOEOO
0.7OE0O
1.7OE0O
4.8OE0O
O.9OE0O
1.OOEOO
0.60E0O
1.OOEOO
1.OOEOO
1.30E00
1.50EOO
2.10EOO
1.OOEOO
2.30EOO
1.90E0O
1.40E00
1.80E00
1.20E00
1.10E00
0.60E00
0.40EOO
O.20E0O
0.70E0O
3.30E00
1.40E00
0.30E00
O.30E00
O.50E0O
2.lOEOO
1.90E00
1.10E00
1.lOEOO
1.10E00
1.13E02
9.40E01
4.80E01
4.80E01
5.70E01
7.10E01
8.40E01
6.50E01
4.50E01
4.80E01
5.20E01
1.00E02
5.80E01
1.04E02
1.75E02
7.00E01
7.80E01
6.40E01
1.48E02
2.65E02
5.20E01
1.75E02
5.20E01
4.80E01
7.60E01
3.90E01
1.63E02
5.80E01
5.70E01
1.22E02
4.00E01
1.09E02
1.22E02
1.49E02
1.87E02
1.15E02
9.
4.
1 ,
5.
2.
9.
1.76E02
4.28E02
1.82E02
5.80E01
2.50E01
.60E01
,70E02
.86E02
.90E01
.90E01
.40E01
5.67E02
2.80E02
8.50E01
4.10E01
1.43E02
6.48E02
2.55E02
5.50E01
3.70E01
1.62E02
5.01E02
2.51E02
3.80E01
2.90E01
7.20E01
5.10E02
1.22E02
4.00E01
2.20E01
6.10E01
6.26E02
2.30E02
9.50E01
2.BOE01
1.08E02
06.88
11 .85
06.66
05.73
05.55
05.49
12.58
06.45
04.91
04 .56
04.57
15.67
08.65
20. 18
03.64
05.77
10.96
06.93
02. 18
03.25
00.72
05. 3
05.8
05. 1
04.9
04.6
04. 7
05.4
04.5
04. 2
04. 2
04.4
04. 9
04. 7
04.0
04. 0
04. 3
05.0
04. 7
04.4
04.0
04. 7
06.8
06.2
05.9
05.6
05.7
06.5
05. 7
05.3
05.7
05.4
05.6
05.6
05.4
04.9
05.7
i tl A I
ii :r o
O c+
QJ I Q J
s: Q- fD
O) X T3
r+ O r+ 3"
(D 1 -I O
-5 IQ Co to
to bj n "o
=T 3 r+ 3"
ft> -I. 01 o
Q. o cr -j
Ļ tz
' 3 fD to
JO) V
o <-+ o
rt T a
(D r+ -j-
-J TW
O r+
T3
3" '
0 Ļ
to ft)
Ļa a.
' 3"
ED X
c+ 0ģ
fD {-ģĻ
Ģ fD
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01
3
Q. X
r+
r+ -I
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r+ O
01 c-h
_j oj
cr
o >
~s a>
ci-
3" O
O ~S
T3 c+
3" 3"
o o
to "a
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3- O
ai to
r+T3
fD 3"
w* QJ
r+
fD
-------�
WATERSHED 110
YR DATE
COMPOSITED CORE DEPTH
TOTAL WATER-SOLU KCL-EXTR ACID-SOL TOTAL ORGANIC ORGANIC ph
ORGANIC
STATIONS
CODE RANGE
P
P04
P04
P04
MATTER
C
MATTER
B
CM
UG/G
UG/G
UG/G
UG/G
G-CAL/G
X
X
78
018
6
7 8
1 000-001
3.70E00
1.70E00
1.65E02
4.95E02
05.9
78
018
6
7 8
1 001-7.5
0.90E00
2.10E00
8.50E01
1.71E02
05.3
78
018
6
7 8
1 015-030
1 .40E00
1.70E00
9.10E01
6.80E01
05.0
78
018
6
7 8
1 030-060
0.50E00
1.30E00
7.60E01
6.30E01
05.0 _
78
018
6
7 8
1 7.5-015
100E00
2.10E00
8.10E01
1 .19E02
05.0 "
ro
ro
"O 7^ I
rc o
o f+
Ŗ> Oi
e:
Ol CD
0)
X TD
c+
O
ci- =r
fD
-s
i o
-s
IQ
CD CO
(/>
a>
O "O
3"
3
n- 3-
fD
oi -s
a.
O
cr c
i c/>
j
3
(D *
Ol
o
Cl-
O Q.
c+
-s -Ģ
CD
p+ to
-1
3" r+
O -ģ
TJ '
O)
cr
(D
cn
o
o
a>
Ol
O 05
cn Q.
*u
3- s:
QJ CD
r+- r+
fD (T>
ģ 1
a> cd
3 X
a. r+
-5
c+ O)
O O
<-t* r+
OJ CD.
Ģ cr
o a>
-s
c+ O
3" -S
O c-t-
Ļa 3-
3- O
o -o
t/> 3-
Ļa o
3~ in
OJ "O
rt- 3"
ro aģ
ģ c+
fD
-------�
WATERSHED HI
YR
DATE
COMPOSITED
CORE
DEPTH
TOTAL
WATER-S
STATIONS
CODE
RANGE
P
P04
CM
UG/G
UG/G
77
1 18
1
2
3
1
000-001
3.00E00
77
118
1
2
3
1
001-7.5
2.30E00
77
118
1
2
3
1
015-030
2.60E00
77
118
1
2
3
1
030-060
1.70E00
77
1 18
1
2
3
1
7.5-015
2.0OE00
77
118
4
5
6
1
000-001
4.40E00
77
118
4
5
6
1
001-7.5
O.90E0O
77
1 18
4
5
6
1
015-030
O.90E00
77
1 18
4
5
6
1
030-060
O.40E00
77
118
4
5
6
1
7.5-015
O.8OE0O
77
118
7
8
9
1
000-001
1.10E00
77
118
7
8
9
1
001-7.5
0.80EOO
77
1 18
7
8
9
1
015-030
O.80E0O
77
1 18
7
8
9
1
030-060
0.70EOO
77
118
7
8
9
1
7.5-015
0.30E00
77
118
10
1
000-001
2.60E01
77
118
10
1
001-7.5
3.40E00
77
118
10
1
015-030
2.50E00
77
118
10
1
030-060
O.6OE0O
77
118
10
1
7.5-015
2.10E00
77
200
1
2
3
1
000-001
1 .03E03
1.66E01
77
200
1
2
3
1
001-7.5
1 .10E03
3.80E00
77
200
1
2
3
1
015-030
1.37E03
3.20E00
77
200
1
2
3
1
030-060
9.58E02
2.20E00
77
200
1
2
3
1
7.5-015
1.07E03
4.50E00
77
200
4
5
6
1
000-001
3.77E02
3.OOE00
77
200
4
5
6
1
001-7.5
8.36E02
O.7OE0O
77
200
4
5
6
1
015-030
7.49E02
2.20E00
77
200
4
5
6
1
030-060
9.18E02
2.50E00
77
200
4
5
6
1
7.5-015
7.32E02
1.90E00
77
200
7
8
9
1
000-001
6.67E02
2.00E00
77
200
7
8
9
1
001-7.5
3.10E02
2.30E00
77
200
7
8
9
1
015-030
3.09E02
O.80E00
77
200
7
8
9
1
030-060
2.48E02
O.60E00
77
200
7
8
9
1
7.5-015
3.98E02
1.20E00
77
200
10
1
000-001
8.73E02
9.50E00
77
200
10
1
001-7.5
5.53E02
1.00E00
JJ
200
10
1
015-030
5.80E02
0.90E00
77
200
10
1
030-060
3.74E02
4.70E00
U KCL-EXTR ACID-SOL TOTAL ORGANIC ORGANIC PH
ORGANIC
P04
P04
MATTER
C
MATTER
UG/G
UG/G
g-cal/g
%
%
1 .20E00
3. 72E02
3.51E02
14.02
05.8
0.70E00
3.56E02
2. 14E02
08.44
05.0
0.90E00
3.97E02
3.80E01
06.22
04.8
1.90E00
5.20E02
1.60E01
04.89
04.6
0.40E00
4.02E02
7.50E01
06.07
05. 0
1.30E00
2.96E02
4.20E02
1 1 .72
06.0
0.50E00
1 .97E02
1.13E02
06.56
04.9
0.30E00
3.01E02
5.20E01
04.72
05.0
1.00E00
4.97E02
3.90E01
04.28
05. 0
0.60EOO
1.92E02
7.60E01
04.76
05.2
O.OOEOO
9.60E01
2.23E02
10.76
05.8
0.00E00
7.80E01
1.54E02
00.35
04 . 9
0 .50E00
6.70E01
2.40E01
03.78
05. 1
0.2OE00
8.00E01
1.30E01
04. 15
05. 1
O.OOEOO
9.00E01
7.70E01
04.87
04. 9
1.2OE00
6.44E02
6.37E02
21 .45
06.0
O.7OE00
4.95E02
1.79E02
00.52
04. 7
0.50E00
2.14E02
5.30E01
06.03
04. 4
0.00E00
9.60E01
3.00E01
08.55
04.6
0.90E00
3.74E02
1.53E02
00.52
04. 3
1.39E01
4.06E02
3.69E02
13.39
06.5
1.3OE00
4.50E02
1.81E02
07.58
05.4
1.60E00
5.08EO2
3.90E01
04.90
05.5
2.60E00
5.41E02
6.00E00
03.94
05.5
2.00E00
3.70E02
7.20E01
05.38
05.6
1.40EOO
2.66E02
2.02E02
07. 11
05.8
O.50E00
1.41E02
1.36E02
05.99
05.5
0.90EOO
3.70E02
5.00E01
03.79
05.5
1.60E00
5.58E02
3.90E01
03.75
05.8
1.7OE00
3.02E02
5.90E01
04.13
05.5
1.4OE00
7.00E01
2. 16E02
08.07
05.7
0.20E00
2.60E01
1.66E02
06.28
05.5
0.60E00
7.40E01
5.30E01
03.69
05.6
0.20E0O
4.40E01
2.10E01
02.99
05.7
O.7OE00
4.80E01
6.90E01
04.46
05.5
6.10E00
1.69E02
6.63E02
19.75
05.8
O.9OEO0
1.40E02
1.92E02
07.65
05.0
1 .40EOO
1.96E02
7.20E01
05.68
05. 1
1.10E00
8.90E01
3.B0E01
03.94
05.0
I1
TD
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WATERSHED 111
YR DATE COMPOSITED CORE DEPTH TOTAL WATER-SOLU KCL-EXTR ACID-SOL TOTAL
ORGANIC
STATIONS CODE RANGE P P04 P04 P04 MATTER
B CM UG/G UG/G UG/G UG/G G-CAL/G
ORGANIC ORGANIC PH
C
X
MATTER
X
o>
O"
rt>
77
200
10
1 7.5-015 3.33E02
1.40EOO
0.80E00
1.21E02
1.06E02
05.92
04.9
77
290
1
2
3
1 000-001
8.05E00
0.71E00
4.54E02
3.37E02
12.15
05.5
77
290
1
2
3
1 001-7.5
4.83E00
0.23E00
4.O7E02
2.41E02
08.33
05. 2
77
290
1
2
3
1 015-030
3.57E00
0.07E00
4.11E02
7.40E01
05.29
05. 1
77
290
1
2
3
1 030-060
3.58E00
0.43E00
4.43E02
2.00E01
04.35
05.0
77
290
1
2
3
1 7.5-015
2.93E00
0.10E00
4.69E02
7.50E01
05.91
04.9
77
290
4
5
6
1 000-001
3.81E00
2.30E00
3.16E02
3.26E02
10.62
05.7
77
290
4
5
6
1 001-7.5
1.03EO0
0.23E00
2.57E02
2.49E02
06.87
04. 9
77
290
4
5
6
1 015-030
0.23E00
0.00E00
2.74E02
5.70E01
04.01
05. 2
77
290
4
5
6
1 030-060
0.74E00
0.00E00
3.47E02
4.70E01
03.80
04. 9
77
290
4
5
6
1 7.5-015
1.99EO0
0.17EO0
2.15E02
9.90E01
04.94
04.6
77
290
7
8
9
1 000-001
0.39E00
0.08E00
1.39E02
3.20E02
10.60
05.5
77
290
7
8
9
1 001-7.5
0.50E00
0.29E00
8.50E01
2.33E02
06.10
05.3
77
290
7
8
9
1 015-030
0.74E00
0.06E00
8.80E01
7.20E01
03.71
04. 6
77
290
7
8
9
1 030-060
0.91E00
0.15E00
8.40E01
3.40E01
03.35
05.0
77
290
7
8
9
1 7.5-015
0.42E00
0.36E00
8.40E01
7.90E01
04.41
04. 9
77
290
10
1 000-001
9.04EO0
2.04E00
5.85E02
5.57E02
21 .50
05.3
77
290
10
1 001-7.5
1.07E00
0.27E00
3.92E02
2.34E02
08.54
05.4
77
290
10
1 015-030
0.38E00
0.26E00
3.32E02
6.40E01
05.33
04.6
77
290
10
1 030-060
1.20E00
O.OOEOO
1.27E02
4.50E01
04.07
04. 4
77
290
10
1 7.5-015
0.76E00
0.26E00
4.26E02
1.45E02
06.02
04.4
78
016
1
2
3
1 000-001
2.05E01
3.23E01
6.65E02
8.71E02
07. 1
78
016
1
2
3
1 001-7.5
4.41E00
3.98E00
6.11E02
2.12E02
05. 7
78
016
1
2
3
1 015-030
3.64E00
1.33E00
6.84E02
5.10E01
05.0
78
016
1
2
3
1 030-060
1.83E00
O.OOEOO
9.46E02
5.00EO0
05.5
78
016
1
2
3
1 7.5-015
2.55E00
1.03E00
6.57E02
4.20E01
06.9
78
016
4
5
6
1 000-001
1.29E01
1.19E01
4.89E02
3.78E02
07. 1
78
016
4
5
6
1 001-7.5
2.36E00
O.OOEOO
3.49E02
1.91E02
06.4
78
016
4
5
6
1 015-030
0.45E00
0.00E00
4.10E02
4.40E01
04.9
78
016
4
5
6
1 030-060
0.63E00
O.OOEOO
6.05E02
2.60E01
05.4
78
016
4
5
6
1 7.5-015
0.52EO0
O.OOEOO
3.70E02
8.80E01
06.9
78
016
7
8
9
1 000-001
2.97E00
2.63E00
1.95E02
3.65E02
07. 1
78
016
7
8
9
1 001-7.5
0.87E00
O.OOEOO
1.30E02
1.61E02
06.2
78
016
7
8
9
1 015-030
0.28E00
O.OOEOO
1.33E02
4.40E01
06.2
78
01-6
7
8
9
1 030-060
0.12E00
O.OOEOO
1.26E02
2.60E01
05.7
78
016
7
8
9
1 7.5-015
0.65EOO
0.50E00
1.54E02
8.20E01
05.9
78
016
10
1 000-001
1.90E01
4.49E00
9.20E02
6.25E02
06. 1
78
016
I'O
1 001-7.5
2.62E00
O.OOEOO
4.64E02
1.59E02
OS.6
78
016
10
1 015-030
1.35E00
O.OOEOO
3.27E02
6.30E01
05. 1
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WATERSHED 111
YR DATE
COMPOSITED CORE DEPTH
STATIONS
CODE
RANGE
CM
TOTAL WATER-SOLU KCL-EXTR ACID-SOL TOTAL
ORGANIC
ORGANIC ORGANIC PH
P
UG/G
P04
UG/Q
P04
UG/G
P04
UG/G
MATTER
G-CAL/G
C
%
MATTER
X
01
cr
n>
76 016 10
76 016 10
030-060
7.5-015
143E00
3.05E00
O.OOEOO
0.00E00
1.59EQ2
3.49E02
2.0OEOI
8.60E01
05.5
OS. 4
Ol
r+
ID
-J
v>
3"
3 '
cl n>
X T3
Q !+ T
1 -S O
tO DJ t/>
a> r> -o
3 c+ =r
it Qj O
o cr -s
> c
3 ro w
QJ Ģ
ct o
o
o
=ģ
C
(TO
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C+ ~iCL
(0
ft
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3" V)
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3" 'ģ
O i
X
n- &
3 rD
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c+ -S
O
c+ O
Oi r+
i
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c+
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r+TJ
ft =r
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-------�
WATERSHED 109
YR DATE
COMPOSITED
STATIONS
H
CORE
CODE
DEPTH
RANGE
CM
TOTAL WATER-SOL
TKN
UG/G
N03
UG/G
77
067
1
1
000-001
1 .27E03
1.47E01
77
067
1
1
001-7.5
1.04E03
3.80E00
77
067
2
3
4
5 1
000-001
8.65E02
5.20E00
77
067
2
3
4
5 1
001-7.5
8.85E02
2.40E00
77
067
6
7
8
9 1
000-001
1.19E03
3.80E00
77
067
6
7
8
9 1
001-7.5
1 .20E03
1.24E01
77
067
10
1
000-001
1.23E03
6.50E00
77
067
10
1
001-7.5
1 .09E03
1.60E0O
77
112
1
1
000-001
1 .15E03
1.20E01
77
1 1 2
1
1
001-7.5
1 .10E03
1.90E01
77
1 1 2
1
015-030
4 .G2E02
2.20E01
77
1 1 2
1
1
030-060
3 .33E02
8.00E00
77
1 12
1
1
7.5-015
1 .23E03
1.80E01
77
112
2
3
4
5 1
000-001
8.43E02
1.00E01
77
1 1 2
2
3
4
5 1
001-7.5
9.18E02
1.40E01
77
1 1 2
2
3
4
5 1
015-030
4.29E02
1.30E01
77
1 1 2
2
3
4
5 1
030-060
1 .87E02
5.00E00
77
112
2
3
4
5 1
7.5-015
7 .15E02
2.50E01
77
1 1 2
6
7
8
9 1
000-001
8.12E02
5.90E01
77
112
6
7
8
9 1
001-7.5
1 .06E03
1.80E01
77
1 1 2
6
7
8
9 1
015-030
5 .74E02
3.30E01
77
1 1 2
6
7
8
9 1
030-060
3 .07E02
2.00E01
77
1 1 2
6
7
B
9 1
7.5-015
1.0 1E03
1.80E01
77
112
10
1
000-001
1.07E03
7.20E01
77
1 1 2
10
1
001-7.5
1 . 13E03
2.80E01
77
1 1 2
1 0
1
015-030
6.92E02
3.60E01
77
1 1 2
1 0
1
030-060
4.83E02
1.40E01
77
1 1 2
1 0
1
7.5-015
1.02E03
3.50E01
77
134
1
1
000-001
1.36E03
6.80E01
77
134
2
3
4
5
-
1.54E03
1.75E02
77
134
6
7
8
9 1
000-001
1.53E03
1.22E02
77
1 34
1 0
1
000-001
1 .4 1E03
9.90E01
77
143
1
1
000-001
1 .25E03
1.20E02
77
143
1
1
001-7.5
9.89E02
3.90E01
77
143
2
3
4
5 1
000-001
1.25E03
1.36E02
77
143
2
3
4
5 1
001-7.5
9.32E02
3.50E01
77
143
6
7
8
9 1
000-001
1 .58E03
1.24E02
77
143
6
7
8
9 1
001-7.5
1.13E03
2.80E01
77
143
10
1
000-001
1.42E03
2.31E02
I KCL-EXTR TOTAL
WATER-SOL
KCL-EXTR
TOTAL
N03
N03
NH4
NH4
NH4
UG/G
UG/G
0.86E00
3.60E01
2.57E00
3.OOEOO
9.80E01
4.79EOO
2.70E01
0.OOEOO
2.24E00
1 .37 E02
0 .57E00
2.00E01
0.OOEOO
2.86EOO
1.11E02
1.35E00
0.OOEOO
1 .01E00
3.04E0O
1.19E02
0.77EOO
3.40E01
1 . 15E00
4.23E00
1.65E02
2.95E00
1 .40E01
0.80EOO
3.10E00
1.49E02
1.63E00
3.20E01
0.OOEOO
6.11EOO
1 .87 E02
1.2OE0O
5.20E01
0.OOEOO
3.97EOO
1.78E02
5.OOEOO
3.60E01
0.OOEOO
5.OOEOO
1 .67 E02
8.OOEOO
1 .80E01
0.OOEOO
4.OOEOO
1.90E02
7 .OOEOO
1 .20E01
0.OOEOO
4.OOEOO
7.30E01
6.OOEOO
0 .OOEOO
0.OOEOO
4.OOEOO
4.20E01
6.OOEOO
3.1OEO1
0.OOEOO
4.OOEOO
1 .80 E02
1 ."20E01
1.20E01
0.OOEOO
6.OOEOO
1.12E02
1.20E01
1.70E01
0.OOEOO
7.OOEOO
1.49E02
7.OOEOO
0.OOEOO
0.OOEOO
2.OOEOO
4.80E01
7.OOEOO
0.OOEOO
0.OOEOO
0.OOEOO
4.OOEOO
2.00E01
1 .20E01
0.OOEOO
5.OOEOO
8.70E01
8.40E01
1.20E01
0.OOEOO
1.40E01
1.53E02
5.60E01
1.50E01
0.OOEOO
9.OOEOO
5.70E02
1.10E01
1 .40 EO1
0.OOEOO
5.OOEOO
9.20E01
3.20E01
0.OOEOO
0.OOEOO
0.OOEOO
2.80E01
1.80E01
9.OOEOO
0.OOEOO
4.OOEOO
1 .57 E02
3.40E01
1.50E01
0.OOEOO
1.40E01
1.60E02
1.80E01
1.70E01
0.OOEOO
1.80E01
1 .94 E02
2.60E01
1.1OEO1
0.OOEOO
5.OOEOO
9.80E01
1..00E01
0.OOEOO
0.OOEOO
4.OOEOO
7.20E01
1.10E01
0.OOEOO
0.OOEOO
7.OOEOO
1.78E02
1.13E01
9.1OEO1
8.70E01
6.60E01
2.87E02
6.13E00
1.22E02
9.80E01
1.35E02
3. 34E02
6.09E01
1.32E02
1.34E02
2.01E02
3.59E02
9.32E00
9.1OEO1
8. 70E01
1.21E02
3.06E02
2.10E01
1.32E02
5.70E01
5.60E01
2.65E02
1.20E01
5.90E01
1.20E01
1.70E01
1.90E02
3.90E01
1.20E02
8.40E01
1.39E02
3.66E02
8.OOEOO
4.20E01
1.20E01
2.00E01
1.45E02
1.26E02
1.69E02
6.50E01
1.37E02
4.06E02
2.80E01
4.20E01
9.OOEOO
2.70E01
2.09E02
2.50E01
2.39E02
8.20E01
1.05E02
3.82E02
CO
HH
3
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3
3"
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a.
3
3"
c+
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r+
o
r+
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WATERSHED 109
YR DATE
COMPOSITED CORE
DEPTH
TOTAL WATER-SOL
STATIONS
it
CODE
RANGE
CM
TKN
UG/G
N03
UG/G
77
143
10
1
001-7.5
1.13E03
5.20E01
77
180
1
1
000-001
8.47E02
3.70E01
77
180
1
1
001-7.5
1.07E03
2.80E01
77
180
1
1
015-030
4.76E02
6.60E0C
77
180
1
1
7.5-015
1.05E03
3.90E00
77
180
2
3
4
5 1
000-001
1.04E03
9.40E01
77
180
2
3
4
5 1
001-7.5
9.44E02
2.50E01
77
180
2
3
4
5 1
015-030
3.12E02
1.10E01
77
100
2
3
4
5 1
7.5-015
7 .42E02
1.60E01
77
180
6
7
8
9 1
000-001
1 .34E03
1.63E02
77
180
6
7
8
9 1
001-7.5
9.85E02
3.80E01
77
180
6
7
8
9 1
015-030
5.44E02
1.00E01
77
180
6
7
8
9 1
7.5-015
9.65E02
2.10E01
77
180
1 0
1
000-001
1.20E03
1.81E02
77
180
1 0
1
001-7.5
9.8 1E02
3.20E01
77
180
10
1
015-030
7 .53E02
1.50E01
77
180
10
1
015-030
7.53E02
1.50E01
77
180
10
1
7.5-015
1.07E03
2.20E01
77
209
1
1
000-001
1 .08E03
2.00E00
77
209
1
1
001-7.5
9.89E02
0.00E00
77
209
1
1
015-030
5.21E02
O.OOEOO
77
209
1
1
030-050
4.27E02
: 4.00EO0
77
209
1
1
7.5-015
1.17E03
1.7&EOO
77
209
2
3
4
5 1
000-001
7.37E02
2.90E01
77
209
2
3
4
5 1
001-7.5
7 .49E02
2.20E01
77
209
2
3
4
5 1
015-030
4.17E02
3.40E00
77
209
2
3
4
5 1
030-060
2 .28E02
3.10EOO
77
209
2
3
4
5 1
7.5-015
8.47E02
7.30E00
77
209
6
7
8
9 1
000-001
1 .2 Oh 03
3.60E01
77
209
6
7
8
9 1
001-7.5
8.49E02
2.00E01
77
209
6
7
8
9 1
015-030
6.45E02
6.30E00
77
209
6
7
8
9 1
030-060
1 .23E02
6.30E00
77
209
6
7
8
9 1
7.5-015
9.B1E02
8.20E00
77
209
10
1
000-001
8.7 4 fc 02
1.70E01
77
209
1 0
1
001-7.5
1.01E03
1.40E01
77
209
10
1
015-030
8.04E02
7.20E00
77
209
10
1
030-060
3.88E02
9.20E00
77
209
10
1
7.5-015
8.52E02
8.90E00
77
238
1
1
000-001
9.62E02
1.20E01
I KCL-EXTR
! TOTAL
WATER-SOL
KCL-EXTR
TOTAL
N03
N03
NH4
NH4
NH4
UG/G
UG/G
1.80E01
7.20E01
8.30E00
1.50E01
1 .94 E02
1.90E00
1.26E02
3.60E01
2.OOEOO
7.40E01
3.8OEO0
6.40E00
1.40E02
2.60E00
O.OOEOO
1.90E00
3.OOEOO
5.20E01
1 .50 EOO
O.OOEOO
2.70E00
5.60E00
1.21E02
2.73E02
1.40E02
3.80E01
7.80E01
2.54E02
7.80E00
5.50E01
0.80E00
4.OOEOO
1.21E02
4.OOEOO
O.OOEOO
0.40E00
0.40E00
3.00E01
4.70E00
1.40E01
0.40E00
2.70E00
1.15E02
2.30E01
1.86E02
6.50E01
1.21E02
3.17E02
6.60 EOO
4.70E01
7.30E00
1.40E01
1.83 E02
4.9OEO0
1.00E01
1.1OEOO
4.60E00
6.50E01
2.5OE00
7.OOEOO
3.50E00
4 .OOEOO
1.51E02
2.93E02
2.13E02
2.20E01
2.20E01
3.44E02
3.40E01
2.30E01
7.30E00
1.60E01
1 .52 E02
1.50E00
O.OOEOO
4.OOEOO
1.90E00
1 .24 E02
1.50E00
O.OOEOO
4.OOEOO
1.90E00
1 .24 E02
3.OOEOI
2.60E01
5.90E00
4.10E01
1 .68 E02
4.20E00
4.50E01
4.20E00
2.OOEOO
1.42 E02
3.OOEOO
6.60E01
0.OOEOO
O.OOEOO
1 .70 E02
4.30E00
O.OOEOO
0.OOEOO
1.35E02
2.OOEOO
O.OOEOO
0.OOEOO
3.60E01
3.60 EOO
1.60E01
O.OOEOO
0.OOEOO
1.65E02
4.30E00
1.30E01
4.30E01
1 .54 Ŗ02
3.70E00
3.40E00
4.50E00
1.05E02
0.60E00
O.OOEOO
0.OOEOO
4.30E01
1.70E00
O.OOEOO
0.OOEOO
1.30E01
0.60E00
O.OOEOO
0.OOEOO
1.08E02
6.OOEOO
1.50E01
5.90E01
2.59E02
6.70E00
2.40E00
3.90E00
1.50 E02
5.50E00
O.OOEOO
2.50E00
7.80 E01
5.2OE00
O.OOEOO
0.OOEOO
2.60E01
5.5OE00
3.30E00
3.30E00
1.32 EG2
6.7OE00
0.OOEOO
4.40E00
1 .62 E02
3.30E00
O.OOEOO
3.80E00
1.52E02
7.60E00
O.OOEOO
3.70E00
1.12E02
8.1OEOO
O.OOEOO
0 .OOEOO
5.OOEOI
3.50E00
O.OOEOO
4.90E00
1.82E02
4.OOEOO
6.OOEOO
2.00E01
1.39E02
CO
M
3
Qi 1
3 O
rf
3 c+-
-s
o oi
s:
0J
3
e+
ct*
fD
(D
**
o) Ŗ
-s
a) CD
Oi
3 1
rr
3
Q_ Q-
o
Q.
Q_
3 3"
d-
Jģ J
j
O
c+
O
e+
3
10
&
0> _i.
C+ C+
CD -S
Q>
* o
3
CO
3
7^ fD
o
3
3
O-
-j*
Di
Q.
fD
X CO
r+ c+
-s
0/
r> 1
ĢĻ+
CU o.
CT
Ļ S
fD CU
<-+
01 fD
3 -J
O fD
3 X
-J- c+
aģ -j
o<
o> r>
=5 c+
Q- Ot
CT
fD
-------�
WATERSHED 109
ro
oo
YR
DATE
COMPOSITED
CORE
DEPTH
TOTAL
WATER-SOLU KCL-EXTR TOTAL
WATER-SOL
KCL-EXTR
TOTAL
STATIONS
CODE
RANGE
TKN
N03
N03
N03
NH4
NH4
NH4
H
CM
UG/G
UG/G
UG/G
UG/G
77
238
1
1
001-7.5
1 . 14E03
4.00E00
2.00E00
3.OOEOO
2.OOEOO
1 .36E02
77
238
2
3
4
5
1
000-001
7 .72 E02
1.11E01
1.00E00
5.OOEOO
2.20E01
1.33E02
77
238
2
3
4
5
1
001-7.5
7.97 E02
3.30E01
1.00E00
3. OOEOO
4.OOEOO
1 . 18E02
77
23*3
6
7
8
9
1
000-001
1.14E03
1.10E01
1.20E01
6.OOEOO
1.10E01
2. 19E02
77
238
6
7
8
9
1
001-7.5
1.03E03
1 .20E01
3.00E00
3.OOEOO
4.OOEOO
1 .26E02
77
238
10
1
000-001
9.28E02
2.OOEO0
1.00E00
2.OOEOO
5.OOEOO
1.21E02
77
238
10
1
001-7.5
1.13E03
2.0OEOO
2.00EC0
3.OOEOO
4.OOEOO
1.26E02
77
265
1
1
000-001
1.15E03
1 .20E01
2.80E00
4. 10E01
3.80E00
7.OOEOO
1 . 74 E 02
77
265
1
1
001-7.5
1.1 4E03
1.8OE00
1.40E00
5.00E01
1 .80E00
1.40E00
1 .94E02
77
265
2
3
4
5
1
000-00 1
8.85E02
2.40E01
2.90E0O
4.90E01
4.90E01
1.90E01
1.91E02
77
265
2
3
4
5
1
001-7.5
8.83E02
1.80E01
0.30E00
4.70 EO1
2.OOEOO
0.OOEOO
1.44EC2
77
265
6
7
8
9
1
00C-001
1.12E03
1.20E01
1.10 ECO
4.80E01
7. 10E01
3.80E01
2.36E02
77
265
6
7
8
9
1
001-7.5
1.24E03
7.60E00
4.40E00
7.10E01
1 . 10EOO
4.OOEOO
1 . 90 E 02
77
265
10
1
000-001
1 .4 7 E03
4.70E00
3.20EC0
7.00E01
2. OOEOO
3.70E00
1 .92E02
77
265
10
1
001-7.5
1.20E03
3.20E0C
1.80E00
5.80E01
1 -80E00
5.90E00
1 .82 E 02
77
298
1
1
000-00 1
8.18E02
9.5OE0C
2.00E00
4.90E01
1 .20E00
0.OOEOO
1.19E02
77
298
1
1
001-7.5
8.85E02
5.6OE00
2.00E00
4.00E01
0. OOEOO
2.OOEOO
2.87 E02
77
29U
1
1
015-030
7.13E02
5.7OEO0
0.00E00
3.00E01
0.OOEOO
1.90E00
9.20E01
77
298
1
1
030-060
2.64E02
1.8OE00
1.80E00
2.10E01
0.OOEOO
1.10E00
3.40E01
77
298
1
1
7.5-015
8.95E02
1.50EO1
2.00E00
6.10E01
0.OOEOO
4.OOEOO
1.29E02
77
298
2
3
4
5
1
000-00 1
7.96E02
1.30E02
1.40E01
4.60E01
1 . 10E01
2.20E01
1.80E02
77
298
2
3
4
5
1
001-7 . 5
7 .C8E02
2.00E01
0.00E00
2.30E01
1 . 20E00
4.10E00
1.17E02
77
293
2
3
4
5
1
015-030
4.02E02
1.3OE0 1
0.00E00
0.OOEOO
1 . 20E00
2.OOEOO
4 . 30 E 01
77
293
2
3
4
5
1
030-060
1.91E02
2.80E01
0.00E00
0.OOEOO
2.OOEOO
0.OOEOO
1 . 30 EO1
77
298
2
3
4
5
1
7.5-015
7.35E02
3.90E01
0.00E00
1 .60 EO1
0.OOEOO
1.20E00
9 .40E01
77
298
6
7
8
9
1
000-001
1.02E03
3.10E01
1.90E00
4.10E01
5.40E00
2 . 10E01
1 .70E02
77
298
6
7
8
9
1
001-7 . 5
9.9bE02
5.60E01
2.30E00
8.40 EO1
1 . OOEOO
3 . 10E00
1.41E02
77
298
6
7
8
9
1
015-030
6.63E02
1.20E 01
2.00E00
5.50E01
0.OOEOO
2 . OOEOO
9.3OE01
77
298
6
7
8
9
1
030-060
2 .37E02
0.0OE00
2.20E00
3.80E01
0.OOEOO
1.70E00
3.50E01
77
298
6
7
8
9
1
7.5-015
9.45E02
1.50EO1
4.OOEOO
7.10E01
2.20E00
1.OOEOO
1.75E02
77
298
1 0
1
000-00 1
9.78E02
8.30E00
2.40EO0
4.60E01
2.85E00
0.OOEOO
1.86E02
77
298
1 0
1
001-7. 5
9.36E02
6.3OE00
1 .80 E 00
1.40 EO1
0.OOEOO
2.30E00
1 .89E 02
77
298
1 0
1
015-030
7 .95E02
3.80E00
0.OOEOO
1.OOEOO
0.OOEOO
5.90E00
1 .29E 02
77
298
10
1
030-060
5.0GE02
0.0OE00
0.OOEOO
0.OOEOO
0.OOEOO
2.10E00
9.30 E01
77
298
10
1
7.5-015
1 .0 9E03
6.5OE00
5.20E00
7.10E01
0.40E00
0.40E00
1.41E02
77
327
1
1
000-001
9.27E02
3.00E00
2.10E00
0.OOEOO
0.40E00
2 . 10E00
1.27E02
77
327
1
1
001-7.5
8.69E02
0.40EOO
2.20E00
0.OOEOO
0.40E00
0.40E00
6.40E01
77
327
2
3
4
5
1
000-001
9.15E02
7.70E00
2.70E00
0.OOEOO
3.20EOO
4.80E00
6.70E01
77
327
2
3
4
5
1
001-7.5
6.40E02
4.40E02
2.10E00
2.OOEOO
2.50EO0
1.50E00
3.80E01
09
CD
r+
fD
"5
(/>
zr
o>
o.
o
3 0*
c+ 3
-S O
Q> =3
rt -Ģ
CD o>
Ģ#
o>
3
a.
o>
3
Q.
O
r+
Di
s
a>
a.
o>
Dl
O"
a>
o
o
c*
fD
Q_
O r+
r+
,Oi O)
' &+
fD
7"S
0
. __j
fD
X
c+
-5
01
o
r+
0>
CT
fD
a>
3
3
o
3
a>
a>
=3
a.
-s
o
tr>
CD
<~>
r+
CD
Q.
s:
Oi
c+
fD
-s
fD
X
c+
-S
CD
O
<Ļ+
&
cr
fD
-------�
WATERSHED 109
YR
DATE
COMPOSITED
CORE
depth
TOTAL
WATER-SOLU KCL-E
STATIONS
CODE
RANGE
TKN
N03
N03
CM
UG/G
UG/G
UG/G
77
327
6
7
8
9
1
000-001
8.86E02
2.50E00
2.30E00
77
327
6
7
8
9
1
001-7.5
1.2 3E03
4.OOEOO
2.OOEOO
77
327
10
1
000-001
9.07E02
2.OOEOO
4.1OEOO
77
327
1 0
1
001-7.5
1 .20E03
8.20EO0
9.90E00
77
357
1
1
000-001
9.62E02
3.20EOO
0.OOEOO
77
357
1
1
001-7.5
9.22E02
3.60E00
0.OOEOO
77
357
2
3
4
5
1
000-001
7 .0 5 E 0 2
3.1OEOO
0.OOEOO
77
357
2
3
4
5
1
001-7.5
9.79E02
4.80E00
1 . 80E00
77
357
6
7
8
9
1
000-001
8.69E02
2.30EOO
1.2OEO0
77
357
6
7
8
9
1
001-7.5
9.01E02
4.70EOO
1.60E00
77
357
10
1
000-001
8.51E02
2.4OEO0
O.OOEOO
77
357
10
1
001-7.5
9.38E02
3.80E00
0.OOEOO
78
023
1
1
000-001
1 .07E03
O.OOEOO
O.OOEOO
78
023
1
1
001-7.5
8.65E02
2.50E00
0.OOEOO
78
023
1
1
015-030
5.52E02
0.OOEOO
0.OOEOO
78
023
1
030-060
4.69E02
O.OOEOO
0.OOEOO
78
023
1
1
7.5-015
8.57E02
4.40E0C
0.OOEOO
78
023
2
3
4
5
1
000-001
1 .07E03
O.OOEOO
6.80 E CO
78
023
2
3
4
5 .
1
001-7.5
7 .G3E02
2.OOEOO
0.OOEOO
78
023
2
3
4
5
1
015-030
3.S4E02
O.OOEOO
0.OOEOO
78
023
2
3
4
5
1
030-060
2.07E02
4.OOEOO
0.OOEOO
78
023
2
3
4
5
1
7.5-015
7.86E02
4.50E00
0.OOEOO
78
023
6
7
8
9
1
000-001
1.11E03
O.OOEOO
0.OOEOO
78
023
6
7
8
9
1
001-7.5
1 .08E03
O.OOEOO
4.50E00
78
023
6
7
8
9
1
015-030
6.59E02
4.1OEOO
0.OOEOO
78
023
6
7
8
9
1
030-060
1.50E02
3.70E00
3.7OEO0
78
023
6
7
8
9
1
7.5-015
9.53E02
O.OOEOO
0.OOEOO
78
023
10
1
000-001
1.21E03
2.30E00
1.OOEOO
78
023
10
1
001-7.5
9.5UE02
2.90E00
3.70EC0
78
023
1 0
1
015-030
8.39E02
O.OOEOO
2.70E00
78
023
10
1
030-060
5.49E02
0.OOEOO
2.20E00
78
023
1 0
1
7.5-015
1.12E03
2.50E00
3.60E00
78
053
1
1
000-001
9.00E02
6.70E00
9.OOEOO
78
053
1
1
001-7.5
8.56E02
O.OOEOO
1.40E00
78
053
2
3
4
5
1
000-001
7.59E02
2.30E00
0.OOEOO
78
053
2
3
4
5
1
001-7.5
6.89E02
O.OOEOO
1.7OEO0
78
053
6
7
8
9
1
000-001
9.35E02
1.70E00
4.7OEO0
78
053
6
7
8
9
1
001-7.5
9.63E02
2.70E00
6.20E00
78
053
10
1
000-001
9.01E02
2.1OEOO
7.OOEOO
KTR TOTAL
N03
UG/G
WATER-SOL
NH4
KCL-EXTR TOTAL
NH4 NH4
oj
CT
a>
O.OOEOO
O.OOEOO
1 . 20E01
0.OOEOO
1 .70E01
1.90E01
1 .30E01
1.90E01
1 .90E01
5.OOEOO
2.20E01
1 .90E01
6.OOEOO
2.50E01
5.OOEOO
O.OOEOO
1 . 40E01
1.70E01
5.60E01
1 .50E01
O.OOEOO
1.70E01
4.40E01
5.1OEO1
9.OOEOO
5.70E01
5.20E01
3.60E01
4.30E01
3.20E01
3.40E01
4.70E01
O.OOEOO
7.OOEOO
1.1OEO1
5.OOEOO
3.30E01
2.50E01
1.30E01
3.4OEO0
3.20E00
30EO0
1 OEOO
60E00
80E00
20E00
20E00
50E00
1.60E00
0. 70E00
1.80EO0
50E00
OOEOO
OOEOO
OOEOO
OOEOO
30EO0
OOEOO
OOEOO
OOEOO
OOEOO
OOEOO
OOEOO
OOEOO
OOEOO
OOEOO
OOEOO
OOEOO
OOEOO
OOEOO
OOEOO
OOEOO
OOEOO
OOEOO
OOEOO
OOEOO
OOEOO
3OEO0
40E00
OOEOO
40E00
OOEOO
1.80E00
3.1OEOO
3 . 70E00
1.80E00
3.30E00
60E0C
80E00
OOEOO
50E00
1 OEOO
1 OEOO
90E00
1 OE01
20E00
OOEOO
OOEOO
4.50E00
O.OOEOO
1 OE01
20E00
90E00
70E00
60E00
BOEOO
1.50E00
4.BOEOO
3.40E00
2.40E00
5.60E00
3.40EOO
7.40E00
1.70E00
1.10E01
3.1OEOO
1.00E01
1.32 E02
5.70E01
1.50 E02
.00E02
.43 E02
.51E02
.25 E02
.60 E02
.39E02
.32E02
1.41E02
1.40E02
6.60E01
CO
84E02
90E01
90E01
25E02
1 1 E02
20 EG 1
30E01
50 E01
09E02
34 E02
40E02
15E02
20E01
28E02
1.58 E02
1.86E02
20 EO 1
10E01
43E02
35E02
39E02
16E02
02E02
1.62 E02
1.35E02
1.41E02
3 Oi H
cn
o
o
3
r+
O
0>
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r+ ->Ļ
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OJ 3 '
3 a. a.
o_ OJ
3 3"
r+ ' J
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3 ia
3 AfD
O 3
3 O ģ
fl>
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oj 1
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rt fD
OJ Q.
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3 X
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OJ
oj o
3 r+
CL OJ
cr
ft)
-------�
WATERSHED ]Q9
YR
DATE
COMPOSITED
CORE
DEPTH
TOTAL
WATER-SOLU KCL-EXTR
TOTAL
STATIONS
CODE
RANGE
TKN
N03
N03
N03
h
CM
UG/G
UG/G
UG/G
UG/G
78
053
10
1
001-7.5
8.13E02
0. OOECO
1.40E01
3.00E01
78
080
1
1
000-001
7.99E02
2.20E00
1 .90 E 00
0.OOEOO
78
080
1
1
001-7.5
78
080
2
3 4
5
1
000-001
6.38E02
9. OOEOO
0.OOEOO
8.OOEOO
78
030
2
3 4
5
1
C01-7.5
6.G0E02
5.70E00
0.60E00
0.OOEOO
78
080
6
7 B
9
1
000-001
7.44E02
8.80EO0
3.60EG0
0.OOEOO
78
080
6
7 8
9
1
001-7.5
8.72E02
5.20E00
5.30E00
1.80E01
78
080
1 0
1
000-001
9.29E02
9.50E00
2.COEOO
9.OOEOO
78
080
10
1
001-7.5
7.95E02
8.40E00
0.OOEOO
0.OOEOO
IN3
00
O
WATER-SOL KCL-EXTR
NH4 NH4
TOTAL
NH4
0.00E00
0.OOEOO
, OCEOO
OOEOO
OOECO
OOEOO
. OOEOO
OOEOO
.OOEOO
. OOEOO
. 90E00
.70 EOO
.60E0O
.OOEOO
.OOEOO
0.OOEOO
0.OOEOO
1.33C02
1.39E02
1.25E02
1.10E02
1 .00 E02
1.29E02
1 .53 E02
1.89E02
1 .52 E02
CD
3 cu I
-i. g o
rt 3 ft
-s O OJ
Ol 3 '
s
0J
<-*Ļ (D ft)
a>
-s O) (V
to ft> 3
ZT 3 Q. Q.
(T> Q. ft>
CX 3 3"
c+ '
1 O c+
O ft "J 3
a> O) Ģ
1 c+ r+
n> -s
ft> * o
=3 co
3 7; ft)
O 3
3 O *
ft) Q.
(D ģ
X CO
c+ r+
-S -ģ
ft> ģ
O '
<-+ n>
ft) Q_
O"
-J Ŗ
ro &
c+
ft) <"D
3 -S
o ro
3 X
-1' ri-
ft* -s
ftģ
ft) o
3 c+
O- fti
O"
CO
-------�
WATERSHED 110
YR
DATE
COMPOSITED
CORE
depth
TOTAL
WATER-SOLU KCL-E
STATIONS
CODE
RANGE
TKN
N03
N03
H
CM
UG/G
UG/G
UG/G
77
1 1 1
1
2
1
000-001
3.64E03
2.40E01
1.30E01
77
1 1 1
1
2
1
001-7.5
1 .B0E03
3.20E01
1 . 10E01
77
1 1 1
1
2
1
015-030
5.58E02
3.OOEOO
5.OOEOO
77
1 1 1
1
2
1
030-060
4.93E02
3.1OEO1
6.OOEOO
77
1 1 1
1
2
1
7.5-015
1 .23E03
2.40E01
1.20E01
77
1 1 1
3
4
5
1
000-001
3.59E03
3.90E01
1 .40 E01
77
1 1 1
3
4
5
1
001-7.5
1 .G0E03
1 .40E01
1 .80E01
77
1 1 1
3
4
5
1
015-030
5.55E02
6.OOEOO
4.OOEOO
77
1 1 1
3
4
5
1
030-060
4.04E02
2.30E01
6.OOEOO
77
1 1 1
3
4
5
1
7.5-015
9.01E02
6.OOEOO
1.00E01
77
1 1 1
6
7
8
1
000-001
2.G2E03
9.OOEOO
1.30E01
77
1 1 1
6
7
8
1
001-7.5
1.68E03
5.20E01
8.OOEOO
77
1 1 1
6
7
8
1
015-030
6.68E02
2.80E01
1.40E01
77
1 1 1
6
7
8
1
030-060
3.65E02
1.20E01
1.20E01
77
1 1 1
6
7
8
1
7.5-015
9.45E02
2.50E01
2.60E01
77
1 1 1
9
10
1
000-001
4.51E03
2.50E01
2.40E01
77
1 1 1
9
10
1
001-7.5
2.34E03
2.40E01
2.10E01
77
1 1 1
9
10
1
015-030
8.24E02
2.90E01
1.00E01
77
1 1 1
9
10
1
030-060
4.59E02
1.30E01
8.OOEOO
77
1 1 1
9
10
1
7.5-015
1 . G1E03
1.30E01
1.70E01
77
202
1
2
1
000-001
2 .40E03
O.OOEOO
0.OOEOO
77
202
1
2
1
001-7.5
1.95E03
1.OOEOO
0.OOEOO
77
202
1
2
1
015-030
2.92E02
3.OOEOO
O.OOEOO
77
202
1
2
1
030-060
5.67E02
O.OOEOO
0.OOEOO
77
202
1
2
7.5-015
1.07E03
1.OOEOO
0.OOEOO
77
202
3
4
5
1
000-001
3.16E03
O.OOEOO
0.OOEOO
77
202
3
4
5
1
001-7.5
1.66E03
O.OOEOO
O.OOEOO
77
202
3
4
5
1
015-030
6.84E02
O.OOEOO
0.OOEOO
77
202
3
4
5
1
030-060
4.08E02
O.OOEOO
0.OOEOO
77
202
3
4
5
1
7.5-015
1.11E03
O.OOEOO
0.OOEOO
77
202
6
7
8
1
000-001
2.78E03
O.OOEOO
0.OOEOO
77
202
6
7
8
1
001-7.5
2.18E03
O.OOEOO
0.OOEOO
77
202
6
7
8
1
015-030
5.09E02
2.OOEOO
0.OOEOO
77
202
6
7
8
1
030-060
3.53E02
0.OOEOO
0 . OOEOO
77
202
6
7
8
1
7.5-015
9.G4E02
O.OOEOO
0.OOEOO
77
202
9
10
1
000-001
2.88E03
O.OOEOO
1.OOEOI
77
202
9
10
1
001-7.5
2.10E03
O.OOEOO
O.OOEOO
77
202
9
10
1
015-030
4.62E02
O.OOEOO
O.OOEOO
77
202
9
10
1
030-060
2.91E02
O.OOEOO
0.OOEOO
TOTAL
N03
UG/G
WATER-SOL
NH4
KCL-EXTR TOTAL
NH4 NH4
5.10E01
3.10E01
8.20E01
7.10E01
2.60E01
1.22E02
1 .70E01
9.0OE00
0.00EOO
2.30E01
6.50E01
6.20E01
3.1OEO1
1 .1OE01
2.50E01
2.60E02
7.40E01
3.60E01
1. 40E01
4.20E01
2.30E01
3.00E01
O.OOEOO
O.OOEOO
O.OOEOO
5.60E01
O.OOEOO
2.00E00
O.OOEOO
t . 50E01
3.50E01
3.1OEO1
O.OOEOO
O.OOEOO
1.OOEOO
9.50E01
7.30E01
O.OOEOO
1.30E01
7.OOEOO
5.OOEOO
1.OOEOO
1.OOEOO
1.OOEOO
8.OOEOO
OOEOO
OOEOO
50E00
OOEOO
OOEOO
OOEOO
OOEOO
OOEOO
OOEOO
20E0 t
30E01
OOEOO
OOEOO
OOEOO
8.OOEOO
3.OOEOO
O.OOEOO
0.OOEOO
1.OOEOO
OOEOO
OOEOO
OOEOO
OOEOO
OOEOO
OOEOO
5.OOEOO
1.30E00
1.OOEOO
4.OOEOO
1.1OEO1
6.OOEOO
O.OOEOO
2.OOEOO
4.
1 .
2.
1 .
9.
3.
1 .
4.
1 .
9.
1 OE01
90E01
OOEOO
OOEOO
OOEOO
80E01
90E01
OOEOO
OOEOO
OOEOO
2.
9.
4.
2.
4.
2.
3.
3.
6.
5.
1
6.
2.20E01
6.OOEOO
4.OOEOO
1.1OEO1
5.20E01
1.80E01
1.00E01
6.OOEOO
1 .00EO1
1 -90E01
1 .90E01
2.OOEOO
1.OOEOO
9.OOEOO
3.60E01
1.50E01
6.OOEOO
2.OOEOO
1.10E01
3.10E01
1.70E01
4.OOEOO
.OOEOO
.OOEOO
. 20E01
.70E01
.OOEOO
.OOEOO
. 99E02
74E02
10 EO t
. 70E01
. 47E02
. 92 E02
2 .96E02
8.90E01
4.20E01
1.41E02
4 .23E02
8.40E01
3.50 E01
1.37E02
7.18E02
4.26E02
1 .36E02
5.30E01
. 52E02
. 15E02
. 55E02
. 70E01
.80 E01
. 39E02
1 1 E02
.50E02
9.70E01
4.60E01
1 .95E02
5.08E02
3.46E02
8.90E01
4.70E01
1 .27E02
9.21E02
3.32E02
6.50E01
8.10E01
3
Q>
-i
_j.
3
o
<Ļ+
3
c+
O
Q>
Qi
3
s:
c+
Qi
r+
CD
0>
S
Qi
a>
-5
Qi
3
(~)
3
CL
a.
3"
CL
OJ
a>
3
3"
Q.
c+
j.
j
O
<Ļ+
c+
-5
3
Qi
01
O
c+
c+
ft)
o>
*
O
3
CO
3
a>
o
3
3
O
Ģ
-J.
Qi
a_
n>
X
rh
c+
Q)
O
c+
n>
Qi
a_
O"
S
Qi
C+
Qi
a>
s
o
fD
3
X
_j.
c+
Qi
-5
Q)
Qi
O
3
r+
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cr
n>
-------�
WATERSHED HQ
YR
DATE
COMPOSITED
CORE
DEPTH
TOTAL
WATER-SI
STATIONS
CODE
RANGE
TKN
N03
CM
UG/G
UG/G
77
202
9
10
1
075-015
1 .59E03
0 .OOEOO
77
292
1
2
1
000-001
3.01E03
5.50E00
77
292
1
2
1
001-7.5
1.47E03
1.1OEO1
77
292
1
2
1
015-030
5.62E02
4 .80E00
77
292
1
2
1
030-060
3.83E02
6.60E00
77
292
1
2
1
7.5-015
1 .07E03
2.OOEOO
77
292
3
4
5
1
000-001
2.69E03
2.30E00
77
292
3
4
5
1
001-7.5
1 .44E03
2.10E00
77
292
3
4
5
1
015-030
5.77E02
1 .20E00
77
292
3
4
5
1
030-060
2.82E02
0.OOEOO
77
292
3
4
5
1
7.5-015
8.73E02
0.OOEOO
77
292
6
7
8
1
000-001
4.39E03
2.30E00
77
292
6
7
8
1
001-7.5
2.40E03
0 .OOEOO
77
292
6
7
8
1
015-030
6.C1E02
2.OOEOO
77
292
6
7
8
1
030-060
2.66E02
7.80E00
77
292
6
7
8
1
7.5-015
1 .03E03
2.30E00
77
292
9
10
1
000-001
2.98E03
6.40EOO
77
292
9
10
1
001-7.5
1 .71E03
3.20E00
77
292
9
10
1
015-030
3.50E02
1.20E00
77
292
9
10
1
030-060
5.52E02
2.OOEOO
77
292
9
1 0
1
7.5-015
1 . 10E03
2.20E00
78
018
1
2
1
000-001
3.35E03
6.20E00
78
018
1
2
1
001-7.5
1 .G0E03
1.30E01
78
018
1
2
1
015-030
4 .44 E02
0.OOEOO
78
018
1
2
1
030-060
1 .94E02
0.OOEOO
78
018
1
2
1
7.5-015
9.36E02
2.1OEOO
78
018
3
4
5
1
000-001
3.0 1E03
3.60E00
78
013
3
4
5
1
001-7.5
1 .46E03
2.60E00
78
018
3
4
5
1
015-030
6.70E02
0.OOEOO
78
018
3
4
5
1
030-060
2.81E02
6.30E00
78
018
3
4
5
1
7.5-015
7.89E02
0.OOEOO
78
018
9
1 0
1
000-001
3.44E03
0.OOEOO
78
018
9
10
1
001-7.5
1.86E03
0.OOEOO
78
018
9
10
1
015-030
6.05E02
0.OOEOO
78
018
9
10
1
030-060
3.70E02
0.OOEOO
78
018
9
10
1
7.5-015
8.85E02
0.OOEOO
78
018
6
7
8
1
000-001
2.98E03
0.OOEOO
78
018
6
7
8
1
001-7.5
1 .48E03
0.OOEOO
78
018
6
7
8
1
015-030
5.30E02
0.OOEOO
78
018
6
7
8
1
030-060
3.90E02
0.OOEOO
78
018
6
7
8
1
7.5-015
6.26E02
0.OOEOO
KCL-EXTR TOTAL WATER-SOL KCL-EXTR TOTAL
N03
UG/G
N03
UG/G
NH4
NH4
NH4
0.OOEOO
3.90E01
5.OOEOO
1 . 10E01
2.30E02
3.1OEOO -
3.OOEO1
2.30E00
2.30E01
7.01E02
1.90E00
0.OOEOO
1.90E00
1.70E01
5.82E02
5.70E00
0.OOEOO
2.OOEOO
1.90E0O
2.73E02
1.90E00
0.OOEOO
1.90E00
1.90E00
1.53E02
2.OOEOO
0.OOEOO
2.OOEOO
4.20E00
3.06E02
2.30E00
4.90E01
4.80E00
4.OOEO1
7.38E02
8.20E00
1.OOEOO
4.60E00
1 . 1 OEO1
3.76E02
2.20EC0
0.OOEOO
2.OOEOO
2.20E00
2.06E02
2.OOEOO
0.OOEOO
2.OOEOO
2.OOEOO
1.96E02
3.OOEOO
0.OOEOO
3.80E00
1.1OEO1
3. 76E02
1.20E01
1.90E01
8.70E00
1.20E01
7.89E02
2.7 0 EOO
0.OOEOO
2.90E00
1.OOEO1
6.96E02
2.OOEOO
0.OOEOO
2.OOEOO
3.30E00
2.59E02
4.1OEOO
0.OOEOO
2.20E00
2.OOEOO
2.02E02
2.20E00
0.OOEOO
1.80E00
3.70E00
3.13E02
1.30EOO
2.90E01
0.OOEOO
1.30E01
7.59E02
1.70E00
0.OOEOO
0.1OEOO
7.50E0O
6.55E02
0.ootoo
0.OOEOO
2.40E00
0.OOEOO
2 .48E02
1.30E00
0.OOEOO
0.OOEOO
0.OOEOO
9.90E01
2.20E00
7.OOEOO
3.50E00
2.20E00
4 . 10E02
0.OOEOO
7.50E01
8.90E00
2.20E01
4.04E02
0.OOEOO
0.OOEOO
3.OOEOO
1.20E01
3 . 39 E 02
0.OOEOO
4.OOEOO
2.OOEOO
2.OOEOO
6.90E01
0.OOEOO
1.1OEO1
2. 1OEOO
0 . OOEOO
2.20E01
0.OOEOO
0.OOEOO
2. 1 OEOO
2. 1OEOO
2 .09E02
0.OOEOO
7.60E01
2.20E00
3.20E01
6.33E02
0.OOEOO
1.60E01
3.30E00
2.OOEO1
2 .06E02
0.OOEOO
0.OOEOO
3.OOEOO
2.80E00
6.50E01
0.OOEOO
0.OOEOO
0.OOEOO
2.1OEOO
5.40E01
0.OOEOO
0.OOEOO
2.70E00
4.70E00
1 . 12E02
0.OOEOO
8.50E01
5.60E00
2.00E01
6.21E02
0.OOEOO
8.90E01
2.90E00
1.50E01
2.81E02
0.OOEOO
1.90E01
0.OOEOO
4.OOEOO
1.24E02
0.OOEOO
0.OOEOO
0.OOEOO
3.70E00
1.08E02
0.OOEOO
2.60E01
0.OOEOO
6.20E00
1.39E02
o>
r+
ft)
S
l/>
3"
a>
a.
0.00E00
0.OOEOO
0.OOEOO
0.OOEOO
0.OOEOO
6.1OEO1
2.40E01
0.OOEOO
0.OOEOO
1.20E01
6.40E00
2.10E00
0.OOEOO
2.60E00
2.10E00
2.10E01
8. 10E00
1.80E00
2.60E00
3.30E00
5.51E02
1.67E02
7.OOEO1
5.80E01
1.38602
3
Qi
1
J*
3
O
r+
3
c+
-5
O
Qi
Qi
3
ct-
ri)
Qi
Ŗ
Qi
CD
Qi
3
i
3
Q.
Q.
O.
Qi
3
zr
r+
O
r+
r+
-5
3
Qi
Of
c+
c+
CO
-s
Qi
Ģ#
o
3
3
7*
O
3
3
O
*
i *
Qi
Q.
CO
X
in
o+
r+
-s
Qi
o
r+
-------�
WATERSHED 111
YR
DATE
COMPOSITED
CORE
DEPTH
TOTAL
WATER-S
STATIONS
CODE
RANGE
TKN
N03
n
CM
UG/G
UG/G
77
1 18
1
2
3
1
000-001
4.40E03
6.50E01
77
118
1
2
3
1
001-7.5
2.38E03
1.80E01
77
118
1
2
3
1
015-030
6.35E02
1 . 00EC1
77
1 1 8
1
2
3
1
030-060
3.25E02
4.00E00
77
1 18
1
2
3
1
7.5-015
1.02Ŗ03
1.00E01
77
1 18
4
5
6
1
000-001
4.72E03
1.10E01
77
1 1 8
4
5
6
1
001-7.5
1 .93E03
8.00E00
77
1 18
4
5
6
1
015-030
7.14E02
1.10E01
77
1 18
4
5
6
1
030-060
5.26E02
3.30E01
77
1 18
4
5
6
1
7.5-015
9.G1E02
4.00E00
77
1 18
7
8
9
1
000-001
3.60E03
8.00E00
77
1 18
7
8
9
1
001-7.5
1.64 E03
8.00E00
77
1 18
7
8
9
1
015-030
9.08E02
2.00E00
77
1 1 8
7
8
9
1
030-060
7.55E02
3.00E00
77
1 18
7
8
9
1
7.5-015
1.08C03
2.00E01
77
1 18
10
1
000-001
6.98E03
3.30E01
77
1 1 8
10
1
001-7.5
3.06E03
1.90E01
77
1 18
10
1
015-030
9.96E02
1.00E01
77
1 18
10
1
030-060
7.83E02
1.50E01
77
1 1 8
10
1
7.5-015
1.57E03
8.00E00
77
200
1
2
3
1
000-001
5.43E03
4.60E01
77
200
1
2
3
1
001-7.5
2.40E03
2.30E01
77
200
1
2
3
1
015-030
5.07E02
1.90EC0
77
20C
1
2
3
1
030-060
2.47E02
1.90E0C
77
200
1
2
3
1
7.5-015
1.04Ŗ03
3.50E00
77
200
4
5
6
1
000-001
2.4 1E03
2.00E01
77
200
4
5
6
1
001-7.5
1.47E03
2.60E01
77
20C
4
5
6
1
015-030
6.27E02
1.90E01
77
200
4
5
6
1
030-060
3.97E02
5.20EO0
77
200
4
5
6
1
7.5-015
6.15E02
1.60E01
77
200
7
8
9
1
000-001
2.69E03
8.10E00
77
200
7
8
9
1
001-7.5
1 .54E03
O.OOEOO
77
200
7
8
9
1
015-030
6.48E02
1.90E00
77
200
7
8
9
1
030-060
7.97E02
5.30E00
77
200
7
8
9
1
7.5-015
9.33E02
0.00E00
77
200
10
1
000-00 1
77
200
10
1
001-7.5
1 .84E03
6.90EOO
77
200
10
1
015-030
9.10E02
5.00E00
77
200
1 0
1
030-060
5.93E02
O.OOEOO
1 KCL-EXTfi
! TOTAL
WATER-SOL
KCL-EXTR
TOTAL
N03
N03
NH4
NH4
NH4
UG/G
UG/G
3.90E01
1 .88E02
1.OOEOO
O.OOEOO
6.65E02
1 . 10E01
7.80E01
O.OOEOO
0.OOEOO
3.28E02
8.OOEOO
4.20E01
O.OOEOO
2.OOEOO
9.00E01
1.60E01
5.40E01
O.OOEOO
4.OOEOO
5.70E01
1.00E01
3.30E01
O.OOEOO
O.OOEOO
1.27E02
2.10C01
1.80E02
1.OOEO1
4.50E01
7 .40E02
1.10EC1
1 .94 E02
6.OOEOO
9.OOEOO
2 .52E02
1.20E01
2 .50E01
O.OOEOO
4.OOEOO
8.20E01
1.30E01
1.00E01
2.OOEOO
2.OOEOO
3.60E01
2.40E01
3.50E01
2.OOEOO
2 . OOEOO
1 .20E02
1.40E01
1 .22E02
8.OOEOO
2 . 80E01
4 .97E02
1.60E01
7.00E01
5.OOEOO
9.OOEOO
2.81E02
3.OOEOO
2.50E01
3.OOEOO
4.OOEOO
4.00 E01
9.OOEOO
4.60E01
3.OOEOO
6.OOEOO
9.30E01
1.20E01
4.50E01
4.OOEOO
7.OOEOO
1 .57 E02
1.90E01
3.18E02
6.1OEO1
2.70E02
1.31E03
6.OOEOO
1.36E02
1.90E01
3.20E01
3.98E02
1.20E01
6.60E01
4.OOEOO
6.OOEOO
1.33E02
7.OOEOO
7.60E01
4.OOEOO
4.OOEOO
7.60 EO1
1.20E01
9.00E01
6.OOEOO
1.0OEO1
2.43 E 02
2.OOEOO
1 .4 7E02
2.OOEOO
2.OOEOO
5.70E02
1.90E00
2.20E01
1.90E00
1.90E00
3.55 E 02
1.70E01
0.OOEOO
1.90E00
1.90E00
7.90 E01
1.50E01
O.OOEOO
1.90E00
1.90E00
3.90ECI
1.70E00
'2. 1 0E01
1.70E00
3.50EO0
1 .83 E02
2.30E00
5.00E01
2.30E00
1.20E01
2.88E02
3.OOEOO
8.OOEOO
1.90EOO
6.OOEOO
2.43E02
7.50E00
5.80E01
1.90EOO
3.80E00
1 .39 E 02
5.90E00
O.OOEOO
2.OOEOO
2.OOEOO
t.10E02
3.10E00
4.70E01
1.70E00
1.70E00
1 .02 E02
7.50E00
3.30E01
3.20E00
1 .70E01
2.76E02
4.20E00
1.50E01
O.OOEOO
9.90E00
2.40E02
0 . OOEOO
O.OOEOO
4. 10E0O
1.2OE00
1.24E02
1.10E00
O.OOEOO
2.20E00
1.10E00
5.80E01
3.OOEOO
9.OOEOO
2.OOEOO
2.50E00
1 .28E02
6.70E01
9.26E02
4.40E00
8.10E01
2.OOEOO
9.70E00
4.09E02
0.OOEOO
2.60E01
1.90E00
1.20EOO
3.02E02
0.OOEOO
3.OOEOO
2.40E00
1.10E00
1.29E02
oo
t1 3 HI I
hH -J* 3 O
i' r+ 3 r+
-j o at
a 3 i
c+
E (D m t:
O) > d-i.
r+ Oi fD
a> n> 3 <
-j 3 a. a.
in a. ai
ro
a.
o <-+
r+ -* 3
a> o>
J r+ r+
a> -s
a> Ļ# o
3 to
3 fD
O 3
3 O -
_j. i
o.
n> Ģ
X CO
<-+Ļ r+
-S -ģ
Q, I
O ģ
c+ CD
a> o.
O"
'
fD o>
c+
aģ co
H
o ro
3 X
c+
a> -j
Of
Q> O
3 c+
Q, 0)
O"
fD
-------�
WATERSHED l]]
YR
DATE
COMPOSITED
CORE
depth
TOTAL
WATER-SC
STATIONS
CCDE
RANGE
TKN
NO 3
V
CM
UG/G
UG/G
77
200
10
1
7.5-015
1.19E03
5.90E0C
77
290
1
2
3
1
000-001
4.51E03
2.70E01
77
290
1
2
3
1
001-7.5
2.12E03
1 . 20E00
77
290
1
2
3
1
015-030
5.32E02
3 . 10E00
77
290
1
2
3
1
030-060
2.23E02
3.30E00
77
290
1
2
3
1
7.5-015
9.35E02
4.50E00
77
290
4
5
6
1
000-001
3.40E03
2.20E01
77
290
A
5
6
1
C01-7.5
2 .0 9 E 0 3
8.80EO0
77
290
4
b
6
1
015-030
4.94E02
2.30E00
77
290
4
5
6
1
030-060
2.55E02
0.00E0C
77
290
4
5
6
1
7.5-015
1.0 1E03
4 . OOEOO
77
290
7
8
9 '
1
000-001
2 .39E 03
1 .30E 01
77
290
7
8
9
1
001-7.5
1 .61E03
4.80E00
77
290
7
8
9
1
015-030
5.57E02
3.70E0C
77
290
7
8
9
1
030-060
2 .64E02
3.70E00
77
290
7
8
9
1
7.5-015
8.7 7E02
4.00EOC
77
290
10
1
000-001
6.2BE03
5.80E01
77
290
10
1
001-7.5
2.45E03
3.30E01
77
290
10
1
015-030
6.92E02
9.OOEOO
77
290
'10
1
030-C60
4.4 1E02
5.10E00
77
290
10
1
7.5-015
1.4 1E03
2.50E01
78
01 6
1
2
3
1
000-001
5.73E03
7.70E00
78
016
1
2
3
1
001-7.5
2.55E03
1.00E01
78
016
1
2
3
1
015-030
9.12E02
2.OOEOO
78
016
1
2
3
1
030-060
3.02E02
2.00E0C
78
015
1
2
3
1
7.5-015
1.35E 03
2.1OE 00
78
016
4
5
6
1
000-001
4.R7E03
0.OOEOO
76
016
4
5
6
1
001-7.5
2.52E03
0.OOEOO
78
016
4
5
6
1
015-030
1.04E03
0.OOEOO
78
016
4
5
6
1
030-060
4.43E02
0.OOEOO
78
016
4
5
6
1
7.5-015
1.17E03
2.2OEO0
78
016
7
8
9
1
000-001
3.22E03
4.8OEO0
78
016
7
8
9
001-7.5
2.15E03
3.2OE00
78
016
7
8
9
1
015-030
6.74E02
2.20EOO
78
016
7
8
9
1
030-060
4.51E02
1.9OEO0
78
016
7
8
9
1
7.5-015
1.17E03
2.1OEO0
78
016
10
1
000-001
7.26E03
0.OOEOO
78
016
10
1
001-7.5
1.80E03
4.70EOO
78
016
10
1
015-030
8.74E02
2.90E00
78
016
10
1
030-060
5.47E02
2 . 10E00
78
016
10
1
7.5-015
9.45E02
4.60E00
I KCL-EXTR
! TOTAL
WATER-SOL
KCL-EXTR
TOTAL
N03
N03
NH4
NH4
NH4
UG/G
UG/G
1.20E00
7.90E01
1.20EOO
3.20E0O
1.86E02
0 . OOEOO
8.30E01
1 .40EOO
4.30E0O
3.94E02
0.OOEOO
4.50E01
1.20EOO
2 .70E00
2.33E02
0 . OOEOO
2.20E01
0.OOEOO
3 .60E00
5.00 E01
0.00C00
0.OOEOO
0.OOEOO
2.30E00
1.70EG1
0.OOEOO
3.80E01
0.OOEOO
1 .90 EOO
1.07E02
4.20E00
4.30E01
4.80EOO
1 .40 E01
4.00E02
3.30E00
3.30E01
0.70E00
9.20 EOO
2.60E02
1.90EC0
0.OOEOO
1.90E00
1 .90E00
7.90E01
0.OOEOO
0.OOEOO
2. 1 OEOO
1 .1OEOO
3.80E01
0.OOEOO
4.OOEOO
2.30E00
4.90 EOO
1.42E02
3.4GE00
3.60E01
8.70EOO
1 . 50 EO1
3.71E02
3.90E00
1.30E01
1.80EOO
1.30E01
2.35E02
3.30E00
0.OOEOO
0.OOEOO
0.80 EOO
9.eor.oi
2.B0E00
0.OOEOO
0.80E00
1.60E00
3.90E01
1.90E00
0.OOEOO
1.60EOO
4.OOEOO
1.07E02
5.OOEOO
1.07E02
3.3CE00
2.10E01
1 .06E03
3.70 Ŗ00
5.20E01
1.60EOO
9 . 20 EOO
2.58E02
6.50E00
0.OOEOO
0.OOEOO
2.90 EOO
9.90E01
1.50EC0
0.OOEOO
0.OOEOO
1 .50 EOO
3.00E01
5.40ECO
9.OOEOO
0.OOEOO
5.40E00
3.49E02
0.OOEOO
7.40E01
6.00E01
1.90E01
9.11E02
0.OOEOO
6.70E01
2.20E00
4.60E0O
4.42E02
2.OOEOO
5.50E01
2.OOEOO
0.OOEOO
8.80E01
0.OOEOO
0.OOEOO
3.20E00
0.OOEOO
O.OOCOO
2.1OEOO
1.10E01
2. 1 OEOO
2.1OEOO
1 .62E02
0.OOEOO
1.25E02
3. 10E01
3.80E01
8.21E02
0.OOEOO
8.30E01
2.50E01
5.1OEOO
4.92E02
2.OOEOO
1.30E01
2.OOEOO
0.OOEOO
7 . 00E01
2.1OEOO
0.OOEOO
2.1OEOO
0.OOEOO
4.30 E01
5.70E0Q
3.80E01
2.20E00
0.OOEOO
1.33E02
0.OOEOO
1.41E02
0.OOEOO
1 .60 EO1
5.39E02
0.OOEOO
6.30E01
0.OOEOO
1 .20E01
3.19E02
2.20ECO
4.40E01
0.OOEOO
2.20E0O
1.11Ŗ02
0.OOEOO
2.10E01
0.OOEOO
0.OOEOO
3.90E01
2.1OEOO
1.60E01
0.OOEOO
3.40E00
2.44 E 02
3.60E01
2.01E02
0.OOEOO
9.60E0O
7.66E02
0.OOEOO
3.90E01
0.OOEOO
3.10 EOO
2.90E02
0.OOEOO
1.10E01
0.OOEOO
0.OOEOO
1.21E02
0.OOEOO
4.20E01
0.OOEOO
0.OOEOO
6.10E01
0.OOEOO
1.15E02
0.OOEOO
2.20E00
1.93E02
CD
0>
cr
fD
o
o
3
ģi
3
CD
1
<-*
ii
1.
3
o
~H
C+
3
r+
3
-s
o
CD
C
0>
3
a>
c+
CL
E
O)
(D
M
CD
Ŗ
'
r+
CD
fD
fD
CD
3
j
-s
3
CL
Q.
I/)
Q.
CD
3"
3
3"
a>
rt*
CL
O
c+
rf
-5
3
i
Oi
CD
j.
i
r+
c+
t
m
-5
o>
O
3
CO
3
ID
O
3
3
O
j.
0>
Q-
fD
t.
X
(/)
r+
jĢ
o>
o
fD
CD Q_
cr
z
ro qj
c+
CD fD
3
0 (D
3 X
r+
CD 1
o>
01 O
3 r+
O. CD
cr
-------�
Table 16. Soil nutrient pool sizes.
A. Watershed 109 - March 8, 1977
Elevation
Depth
(cm)
Total
Kjeldahl
nitrogen
(q N/m2)
Arrenonia
Water
Total extractable
(g N/m2) (g N/m2)
30'
0-1
1-7.5
15.5
87.8
2.0
12.7
0
0
50'
ro
OO
cn
75'
0-1
1-7.5
0-1
1-7.5
13.8
97.2
10.1
72.5
1.8
13.8
1.4
9.4
0.01
0.06
0
0.08
100'
0-1
1-7.5
14.6
92.0
1.8
14.5
0.03
0
Nitrate =
K CI Water iTcT
extractable Total extractable extractable
(g N/m2) (g N/m2) (g N/nr) (g N/m2)
0.08 0.4 0.08 0.02
0.32 4.2 0.13 0.10
0.05
0.25
0.03
0.25
0.4
1.1
0.2
0
0.04
1.01
0.06
0.19
0.01
0.24
0.01
0.11
0.03
0.20
0.4
2.4
0.17
0.34
0.01
0.42
-------�
Table 16. (Continued)
A. Watershed 109 - April 22, 1977
Orthophosphate
Total Water K CI Organic
Depth phosphorus Total extractable extractable matter
Elevation (cm) (q P/rr) (g P/m?) PO4, (q P/nr) PO4 (g P/m?) (Kg cal x 10^)
30' 0-1 - 3.0 0.05 0.01 1.4
1-7.5 - 18.6 0.22 0.04 12.1
7.5-15 - 14.8 0.15 0.06 6.3
15-30 - 52.7 0.35 0.14 7.9
30-60 - 149.2 1.12 0.43 20.0
50' 0-1 - 2.3 0.06 0.01 0.8
1-7.5 - 15.5 0.45 0.02 6.3
7.5-15 - 16.7 0.22 0.03 7.5
15-30 - 40.4 0.89 0.02 3.3
30-60 - 76.4 0.53 1.86 12.1
75' 0-1 - 3.9 0.16 0.03 0.6
1-7.5 - 24.2 0.24 0.09 5.6
7.5-15 - 31.8 0.76 0.06 4.4
15-30 - 83.1 0.37 0.33 1.5
30-60 - 225.5 1.46 3.38 0
100' 0-1 - 2.0 0.05 0.01 1.1
1-7.5 - 12.6 0.26 0.19 9.1
7.5-15 - 14.3 0.41 0.28 14.7
15-30 - 30.3 0.19 0.13 6.9
30-60 - 56.3 0.46 0.08 6.9
286
-------�
Table 16.
(Continued)
A. Watershed 109 - April 22, 1977
Elevation
Depth
(cm)
Total
Kjeldahl
nitrogen
(g N/m2)
Ammonia
Water
Total extractable
(q N/m2) (g N/m2)
30'
0-1
1-7.5
7.5-15
15-30
30-60
13.4
91.0
81.2
127.1
210.1
2.0
12.9
14.2
18.0
31.3
0
0
0
0
0
50'
ro
00
0-i
1-7.5
7.5-15
15-30
30-60
9.5
85.9
88.9
110.3
124.2
I.8
12.7
13.8
17.7
II.3
0
0
0
0
0
75'
0-1
1-7.5
7.5-15
15-30
30-60
9.9
75.2
64.2
81.8
75.3
1.3
12.2
7.8
9.1
1.6
0
0
0
0
0
100'
0-1
1-7.5
7.5-15
15-30
30-60
13.2
96.9
110.0
96.6
134.8
1.9
16.8
16.1
15.3
17.0
0
0
0
0
0
Ni trate
K CI
extractable
(q N/m2)
Total
(g N/m2)
Water
extractable
(g N/m2)
K CI
extractable
(g N/m2)
0.18
0.19
0.91
0.43
1.45
1.37
2.26
1.45
0.56
0
1.23
0.39
0.92
2.02
6.61
4.78
1.74
0
6.09
4.35
0.16
0.14
0.68
0.97
0.73
1.22
1.46
4.55
0.35
0.79
1.58
1.58
0.96
2.69
6.34
6.15
0
0
8.09
12.94
0.07
0.14
0.12
0.14
0.57
1.39
1.15
0.98
0.45
1.08
2.25
1.80
0.38
0
2.48
1.33
0
0
2.01
2.82
0.56
0.41
1.34
0.56
0.35
1.59
1.68
0.71
0.36
2.78
1.61
0.54
0.84
2.51
4.60
1.46
1.62
0
3.24
2.43
-------�
Table 16. (Continued)
A. Watershed 109 - May 14, 1977
Orthophosphate
Total WaterK CI Organic
Depth phosphorus Total extractable extractable matter
Elevation (cm) (g p/m2) (q P/m2) PO4 (g P/m') PO4 (g P/m?) (Kg cal x 103)
30' 0-1 13.78 3.53 0.05 0.01 1.4
50' 0-1 13.64 3.50 0.16 0.01 1.0
75' 0-1 18.23 8.30 0.03 0.02 0.9
100' 0-1 14.20 4.23 0.04 0.01 1.3
288
-------�
Table 16. (Continued)
A. Watershed 109 - May 14, 1977
Elevation
Depth
(cm)
Total
Kjeldahl
nitrogen
(q N/m2)
Ammonia
Water K CI
Total extractable extractable
(g N/m2) (q N/m2) (q N/m2)
Nitrate
Water
Total
(g N/m2)
K CI
extractable
extractable extractabl
(q N/m2) (q N/m2)
30'
0-1
17.4
3.8
1.10
1.50
1.1
1.23
0.12
50'
0-1
20.7
4.9
1.82
2.73
1.8
1.66
0.83
75'
0-1
20.4
4.4
1.29
1.78
1.6
2.31
0.08
100'
0-1
19.2
4.1
1.23
0.93
1.3
0.97
0.16
A. Watershed 109 - May 23, 1977
30'
0-1
17.8
4.8
1.03
1.32
3.0
2.91
0.32
1-7.5
90.9
15.6
0.67
1.21
5.8
4.19
1.45
50'
0-1
18.3
4.7
0.75
1.59
2.0
1.44
1.46
1-7.5
91.4
17.0
0.73
2.19
3.4
2.27
2.27
75'
0-1
14.6
4.3
0.98
1.63
1.4
1.59
0.46
1-7.5
76.3
11.9
0.98
1.64
3.4
2.87
0.66
100'
0-1
14.3
3.0
0.66
0.64
1.5
1.38
0.24
1-7.5
87.3
16.8
1.06
1.50
5.2
3.44
1.06
-------�
Table 16. (Continued)
A. Watershed 109 - June 29, 1977
Total
Ammonia
Ni trate
Kjeldahl
Water
K CI
Water
K CI
Depth
nitrogen
Total
extractable
extractable
Total
extractable
extractable
Elevation (cm)
(g N/m2)
(g N/m2)
(g N/m2)
(g N/m2)
(g N/m2)
(g N/m2)
(g N/m2)
30' 0-1
15.1
4.3
0.28
0.28
2.7
2.28
3.69
1-7.5
79.1
12.3
0.59
1.29
1.9
2.58
2.74
7.5-15
85.9
13.4
0.47
0.33
2.1
1.76
2.40
15-30
138.3
22.8
0.73
0.35
0
2.76
0.28
50' 0-1 15.5
1-7.5 80.0
7.5-15 84.6
15-30 104.6
3.7 0.75
14.9 0.59
13.2 0.31
12.5 0.21
1.40 2.2
1.14 3.8
0.35 0.6
0.88 . 1.9
1.89 0.27
3.09 0.54
1.84 0.22
1.92 0.94
75'
0-1
1-7.5
7.5-15
15-30
12.2
77.3
66.6
59.5
3.0
9.9
10.3
5.7
0.44
0.07
0.04
0.08
0.91
0.33
0.24
0.08
1.6
4.5
1.3
0
1.10
2.05
1.44
2.10
3.19
0.64
0.42
0.76
100' 0-1 9.7
1-7.5 94.6
7.5-15 93.9
15-30 99.5
2.2 0.41
12.4 0.34
10.9 0.24
10.9 0.40
0.67 1.4
0.57 6.5
0.50 0
0.63 0
0.43 0.02
2.47 0.18
0.35 0.13
1.38 0.54
-------�
Table 16. (Continued)
A. Watershed 109 - July 27-28, 1977
Orthophosphate
Total Water K~Cl Organic
Depth phosphorus Total extractable extractable matter
Elevation (cm) (q p/m2) (g p/m2) POa (q P/m2) POa (q P/m2) (Kg cal x 103)
30'
0-1.
8.6
3.9
0.08
0
1.1
1-7.5
57.7
39.6
0.06
0.04
7.3
7.5-15
70.7
37.0
0.07
0.01
7.0
15-30
146.8
56.7
0.09
0.18
12.0
30-60
211.4
171.8
0.17
0
16.1
50'
0-1
9.6
2.6
0.03
0
1.0
1-7
53.4
22.9
0.02
0
6.7
7-15
69.5
26.2
0.05
0
7.8
15-30
132.2
122.6
0.19
0.25
10.6
30-60
135.9
133.0
0.28
0
9.3
75'
0-1
9.8
6.2
0.06
0.03
0.6
1-7
70.8
54.2
0.32
0.13
5.2
7-15
81.8
60.9
0.40
0.11
6.1
15-30
186.0
152.5
0.82
0.15
5.9
30-60
325.0
322.6
1.49
0.52
4.4
100'
0-1
9.3
2.9
0.06
0
1.0
1-7
60.8
23.0
0.32
0
7.0
7-15
59.3
22.2
0.17
0
8.1
15-30
167.2
36.4
0.08
0
9.6
30-60
364.2
91.5
0.20
0
4.9
291
-------�
Table 16.
(Continued)
A. Watershed 109 - July 27-28, 1977
Elevation
Depth
(cm)
Total
Kjel dahl
nitrogen
(g N/m2)
Ammonia
Nitrate
Total
(q N/m2)
Water
extractable
(g N/m2)
K CI
extractable
(g N/m2)
Total
(g N/m2)
Water
extractable
(g N/m2)
iTcl
extractable
(q N/m2)
30'
0-1
1-7.5
7.5-15
15-30
30-60
11.0
81.2
68.2
147.9
168.8
2.0
12.3
14.6
20.6
21.8
0
0
0
0
0
0.06
0.31
0.39
0.68
0
0.20
0
0
0
0
0.21
1.13
0.71
1.32
4.00
0.08
0.27
0.28
1.40
3.52
50'
0-1
1-7.5
7.5-15
15-30
20-60
13.9
68.9
86.0
124.0
49.7
3.0
12.2
11.6
15.0
10.5
0.17
0.19
0.29
0
0
0.68
0.32
0.29
0.48
0
0.32
5.77
4.47
7.30
10.92
0.42
1.62
0.72
1.21
2.55
0.07
0.54
0.48
1.06
2.10
75'
0-1
1-7.5
7.5-15
15-30
30-60
8.6
61.3
76.1
79.5
91.8
1 .8
8.6
9.7
8.2
5.2
0.15
0.28
0
0
0
0.50
0.37
0
0
0
0.66
3.36
7.00
8.77
6.44
0.34
1.80
0.66
0.65
1.25
0.05
0.30
0.05
0.11
0.68
100'
0-1
1-7.5
7.5-15
15-30
30-60
12.4
87.3
105.2
108.9
172.8
1.6
15.0
14.8
28.2
14.6
0.05
0
0
0
0
0
0
0
0
0
0.52
5.83
1.44
9.41
22.66
0.02
0
0.15
0
1.62
0.05
0.26
0.32
0.90
0.81
-------�
Table 16. (Continued)
A. Watershed 109 - August 26, 1977
Elevation
Depth
(cm)
Total
Kjeldahl
nitrogen
(g N/m2)
Ammonia
Water
Total extractable
(g N/m2) (g N/m2)
30'
0-1
1-7.5
11.7
90.8
1.5
10.2
0.03
0.24
no
vo
u>
50'
0-1
1-7.5
13.3
83.6
2.5
10.2
0.07
0.24
75'
0-1
1.7-5
9.0
65.3
1.6
9.7
0.06
0.25
100'
0-1 11.1
1-7.5 100.8
1.6
12.0
0.07
0.26
Nitrate
K CI Water K CI
extractable Total extractable extractable
(g N/m2) (g N/m2) (g N/m2) (g N/m2)
0.06 0.1 0.03 0.01
0.32 0 0.16 0.16
0.13 0.2 0.13 0.14
0.32 0.2 0.97 0.24
0.26 0.1 0.13 0.01
0.33 1.7 2.70 0.08
0.23
0.18
0.1
0
0.14
0.35
0.05
0.18
-------�
Table 16. (Continued)
A. Watershed 109 - September 22, 1977
Elevation
Depth
(cm)
Total
Kjeldahl
ni trogen
(q N/m2)
Ammonia
Water
Total extractable
(g N/m2) (g N/m2)
TTCl
extractable
. (g N/m2)
30'
0-1
1-7.5
18.6
96.6
2.4
14.7
0.03
0.15
0.05
0.48
Nitrate
Water
K CI
Total extractable extractabli
(g N/m2) (g N/m2) (g N/m2)
0.9
4.7
0.06
0.26
0.04
0.15
50'
0-1 13.0
1-7.5 100.9
2.7
15.4
0.82
0.09
0.44
0.32
0.6
5.8
0.14
0.62
0.01
0.36
75'
0-1 10.4
1-7.5 72.3
2.2
11.8
0.57
0.16
0.22
0
0.6
3.8
0.28
1.47
0.03
0.02
100'
0-1 13.2
1-7.5 101.0
2.0
17.1
0.04
0.16
0.08
0.12
0.5
4.4
0.14
0.16
0.03
0.12
-------�
Table 16. (Continued)
A. Watershed 109 - October 25, 1977
Elevation
Depth
(cm)
Total
phosphorus
(q P/m2)
Total
(q P/m2)
Orthophosphate
Water K CI
extractable extractable
PO/i (q P/m2) POa (q P/nr)
Organic
matter
(Kq cal x 10J)
30"
0-1
-
6.0
0.03
0.04
0.5
1-7.5
-
43.0
0.30
0.49
5.2
7.5-15
-
58.2
0.48
0.30
5.3
15-30
-
65.2
0.26
0.17
15.6
30-60
-
349.3
0.74
1.09
9.6
50
0-1
-
4.8
0.04
0.05
0.6
1-7.5
-
33.5
0.18
0.17
5.2
7.5-15
-
38.1
0.29
0.31
5.1
15-30
-
83.6
0.44
0.58
7.7
30-60
-
218.4
0.28
1.21
17.8
75'
0-1
-
9.6
0.10
0.02
0.7
1-7.5
-
65.0
1.04
0.43
6.1
7.5-15
-
67.5
0.59
0.18
5.3
15-30
-
165.6
0.61
0.82
5.3
30-60
-
380.6
0.85
2.30
5.6
100'
0-1
-
5.6
0.06
0.02
0.9
1-7.5
-
39.0
0.38
0.57
8.7
7.5-15
-
33.6
0.23
0.11
7.4
15-30
-
77.3
0.61
0.69
13.2
30-60
183.7
0.73
0.36
1.6
295
-------�
Table 16. (Continued)
A. Watershed 109 - October 25, 1977
Total
Ammonia
Nitrate
Kj el da hi
Water
K CI
Water
K CI
Depth
nitrogen
Total
extractable
extractabl e
Total
extractable
extractabl e
Elevation
(cm)
(q N/m2)
(q N/m2)
(q N/m2)
(q N/m2)
(q N/m2)
(q N/m2)
(q N/m2)
30'
0-1
12.3
2.3
0.04
0
0.58
0.01
0.03
1-7.5
75.4
15.2
0
0.19
1.13
0.51
0.15
7.5-15
87.0
11.3
0.03
0.03
5.68
0.52
0.42
15-30
146.0
23.7
0
1.08
0.18
0.70
0
30-60
220.1
40.5
0
0.91
0
0
0
50'
0-1
11.8
2.0
0.06
0.24
0.48
0.36
0.02
1-7.5
80.8
11.4
0.08
0.25
6.82
4.55
0.19
7.5-15
82.9
15.3
0.19
0.09
6.23
1.32
0.35
15-30
127.4
17.9
0
0.38
10.57
2.31
0.38
30-60
95.8
14.2
0
0.69
15.37
0
0.89
75'
0-1
9.3
2.1
0.13
0.26
0.54
1.52
0.16
1-7.5
62.9
9.6
0.10
0.34
1.88
1.64
0
7.5-15
66.0
8.4
0
0.11
1.44
3.50
0
15-30
76.6
8.2
0.23
0.38
0
2.48
0
30-60
76.9
5.2
0.81
0
0
11.28
0
100'
0-1
9.4
1.4
0.01
0
0.56
0.11
0.02
1-7.5
78.1
25.3
0
0.18
3.53
0.49
0.18
7.5-15
80.3
11.6
0
0.36
5.47
1.35
0.18
15-30
149.0
19.2
0
0.40
6.27
1.19
0
30-60
106.8
13.8
0
0.45
8.50
0.73
0.73
-------�
Table 16. (Continued)
A. Watershed 109 - November 23, 1977
Total
Ammonia
Nitrate
Elevation
Depth
(cm)
Kjeldahl
nitrogen
(q N/m2)
Total
(q N/m2)
Water
extractable
(q N/m2)
K CI
extractable
(q N/m2)
Total
(q N/m2)
Water
extractable
(g N/m2)
K CI
extractable
(g N/m2)
O
CO
0-1
1-7.5
11.4
96.3
1.9
8.1
0.04
0.17
0.03
0.03
0.15
0
0.03
0.66
0.05
0.80
50'
0-1
1-7.5
10.3
99.9
1.5
4.6
0.04
0.26
0.03
0.03
0
0
0.03
0.32
0.03
0.16
75'
0-1
1.7.5
10.7
52.4
0.8
3.1
0.04
0. 0.20
0.06
0.12
0
0
0.09
0.36
0.03
0.17
100'
0-1
1.7.5
10.7
76.7
1.5
5.7
0.01
0.04
0.02
0.04
0
0
0.03
0.04
0.02
0.19
A. Watershed 109 -
December 23,
1977
30'
0-1
1-7.5
10.7
75.6
1.8
11.3
0.01
0.15
0.02
0.31
0.28
1.53
0.03
0.31
0
0
50'
0-1
1-7.5
10.1
73.2
1.6
10.7
0.01
0.13
0.02
0.27
0.22
0.41
0.03
0.38
0.01
0.13
75'
0-1
1-7.5
8.2
80.2
1.5
13.1
0.01
0.18
0.04
0.30
0.21
1.56
0.04
0.39
0
0.15
100'
0-1
1-7.5
11.1
81.4
1.6
13.3
0.02
0.16
0.05
0.16
0.20
1.68
0.04
0.32
0
0
-------�
Table 16. (Continued)
A. Watershed 109 - January 23, 1978
Orthophosphate
Total Water K CI Organic
Depth phosphorus Total extractable extractable matter
Elevation (cm) (g P/m2) (g P/m2) PO4 (g P/m2) PO4 (g P/m2) (Kg cal x 103)
30' 0-1 - 5.7 0.06 0.01 1.2
1-7.5 - 48.9 0.32 0.05 6.3
7.5-15 - 34.8 0.16 0.03 6.6
15-30 - 75.1 0.29 0.07 11.4
30-60 - 321.5 0.61 0.22 13.1
50' 0-1 - 3.3 0.02 0.01 0.8
1-7.5 - 27.4 0.24 0.03 7.2
7.5-15 - 43.6 0.27 0.05 6.8
15-30 - 89.4 0.58 0.06 10.8
30-60 - 160.5 0.53 0.08 4.0
75' 0-1 - 8.7 0.13 0.02 1.3
1-7.5 - 71.6 0.53 0.14 4.8
7.5-15 - 67.6 0.65 0.14 5.7
15-30 - 164.5 0.78 0.13 5.3
30-60 - 329.4 1.37 0.44 4.0
100' 0-1 - 6.3 0.07 0.01 1.1
1-7.5 - 32.6 0.22 0.04 6.5
7.5-15 - 45.8 0.24 0.04 7.3
15-30 - 77.5 0.25 0.08 10.2
30-60 - 142.9 1.17 0.16 12.1
298
-------�
Table 16. (Continued)
A. Watershed 109 - January 23, 1978
Total
Ammonia
Nitrate
Elevation
Depth
(cm)
Kjeldahl
nitrogen
(q N/m2)
Total
(q N/m2)
Water
extractable
(q N/m2)
K CI
extractable
(q N/m2)
Total
(q N/m2)
Water
extractable
(q N/m2)
K CI
extractable
(q N/m2)
30'
0-1
1-7.5
7.5-15
15-30
30-60
15.2
77.2
89.7
154.1
238.8
2.0
15.0
11.4
16.9
26.5
0
0
0
0
0
0.09
0.12
0.19
0.88
1.48
0.45
3.47
3.76
5.88
14.79
0.03
0.23
0.20
0
0
0.01
0.30
0.29
0.50
0.96
50'
0-1
1-7.5
7.5-15
15-30
30-60
13.0
88.6
83.6
126.7
60.7
1.6
11.4
11.2
22.1
4.9
0
0
0
0
0
0.13
0.58
0.67
1.13
1.50
0.51
4.14
4.56
1.73
23.05
0
0
0
0.79
1.50
0
0.37
0
0
1.50
75'
0-1
1-7.5
7.5-15
15-30
30-60
12.6
62.5
70.6
75.1
83.4
1.3
7.5
9.8
2.5
18.1
0.07
0
0
0
0
0.13
0.34
0.40
0.76
0
0.20
4.59
1.53
2.86
0
0
0.16
0.40
0
1.61
0.08
0
0
0
0
100'
0-1
1-7.5
7.5-15
15-30
30-60
12.3
76.4
76.9
115.4
189.8
0.8
16.2
11.2
18.6
32.0
0.04
0
0
0
0
0.08
0.40
0.44
1.07
1.66
0.07
2.21
1.26
1.05
0
0
0.22
0.39
0
0
0
0
0
0
0
-------�
Table 16.
(Continued)
A. Watershed 109 - February 22, 1978
Total Ammonia Nitrate
Kjeldahl Watir iTcT Water iTcT
Depth nitrogen Total extractable extractable Total extractable extractable
Elevation (cm) (g N/m2) (g N/m2) (g N/m2) (g N/m2) -
-------�
Table 14. (Continued)
A. Watershed 109 - April 24, 1978
Orthophosphate
Total Water K CI Organic
Depth phosphorus Total extractable extractable matter
Elevation (cm) (q P/m2) (q P/m2) PO4 (q P/m2) PO4 (g P/m2) (Kg cal x 103)
30' 0-1 8.7 - 2.8
1-7.5 - 30.5 - - 9.3
7.5-15 - 61.8 - - 8.0
15-30 - 64.9 - - 13.8
30-60 - 174.9 - - 22.2
50' 0-1 - 3.7 - - 1.3
1-7.5 - 32.8 - - 7.1
7.5-15 - 29.0 - - 8.6
15-30 - 94.4 - - 10.2
30-60 - 130.6 - - 11.3
75' 0-1 7.8 - 1.1
1-7.5 - 52.9 - - 7.1
7.5-15 - 61.4 - - 7.3
15-30 - 141.0 - - 9.0
30-60 - 326.2 - - 6.8
100' 0-1 - 3.2 - 1.2
1-7.5 - 30.9 - - 9.0
7.5-15 - 30.8 - - 11.7
15-30 - 67.9 - - 15.7
30-60 - 157.0 - - 10.1
301
-------�
Table 16. (Continued)
A. Watershed 109 - April 24, 1978
Elevation
Depth
(cm)
Total
Kjel dahl
nitrogen
(q N/m2)
Ammonia
Nitrate
Water
Total extractable
(g N/m2) (q N/m2)
K CI
extractable
(g N/m2)
Total
(q N/m2)
Water
extractable
(g N/m2)
K CI
extractable
(g N/m2)
30'
0-1
1-7.5
7.5-15
15-30
30-60
30.2
86.4
92.6
159.6
302.3
3.0
12.5
13.5
32.9
119.6
0
0
0
0
0
0
0
0
0
0
0.42
0
0
0
0
0
0
0.18
0.42
0.57
0
0
0
0
0
50'
0-1
1-7.5
7.5-15
15-30
30-60
12.7
94.6
87.3
181.6
131.0
1.7
13.5
14.9
18.5
8.5
0
0
0
0
0
0
0
0
0
0
0
0.97
0
2.88
0
0.03
0.06
0
0
0
0
0
0
0
0
75'
0-1
1-7.5
7.5-15
15-30
30-60
8.5
75.5
91.8
102.7
93.0
1.3
10.0
14.5
20.2
14.9
0
0
0
0
0
0
0
0
0
0
0.27
0.98
7.18
0
0
0.02
0.33
0.60
0
0
0
0
0
0.
0
100'
0-1
1-7.5
7.5-15
15-30
30-60
12.0
90.8
94.9
140.4
180.5
1.7
12.7
12.2
20.3
19.0
0
0
0
0
0
0
0
0
0
0
0.10
0
0
0
0
0.06
0.34
0.42
0
0
0.04
0
0
0
0
-------�
Table 16. (Continued)
B. Watershed 110 - July 21, 1977
Orthophosphate
Total Water K CI Organic
Depth phosphorus Total extractable extractable matter _
Elevation (cm) (g P/m2) (g P/m2) PO4 (g P/m?) PO4 (g P/irr) (Kg cal x 10 )
0-1
8.9
1.6
0.06
0.01
4.5
1-7.5
26.1
9.2
0.25
0.08
24.4
7.5-15
36.6
10.2
0.15
0.09
16.0
15-30
52.7
27.6
0.37
0.16
14.7
30-60
150.9
79.8
0.56
0.22
11.6
0-1
6.1
1.0
0.02
0.02
3.5
1-7.5
36.9
8.3
0.10
0.02
16.1
7.5-15
37.3
6.4
0.11
0.03
15.0
15-30
99.6
18.8
0.14
0.08
13.4
30-60
275.5
79.7
0.36
0.40
12.5
0-1
9.2
1.5
0.06
0.02
3.8
1-7.5
45.7
6.2
0.17
0.05
13.4
7.5-15
65.2
6.2
0.20
0.06
8.5
15-30
128.5
7.1
0.51
0.11
13.2
30-60
254.3
24.0
0.18
0.18
12.9
0-1
11.8
1.8
0.12
0.04
3.4
1-7.5
69.0
9.3
0.40
0.09
18.3
7.5-15
53.6
2.6
0.12
0.05
7.8
15-30
80.9
12.5
0.20
0.07
12.2
30-60
208.4
42.4
0.29
0.10
4.8
303
-------�
Table 16. (Continued)
B. Watershed 110 - July 21, 1977
Total
Ammonia
Nitrate
Elevation
Depth
(cm)
Kjeldahl
nitrogen
(g N/m )
Total
(q N/m2)
Water
extractable
(g N/m2)
K CI
extractable
(q N/m2)
Total
(q N/m2)
Water
extractable
(g N/m2)
K CI
extractable
(g N/m2)
10'
0-1
1-7.5
7.5-15
15-30
30-60
32.8
167.4
144.6
94.3
125.5
10.5
26.5
20.9
13.3
34.9
0.13
0.48
0.45
0
0.86
0.48
2.16
1.00
0.82
0.86
1.08
5.83
3.54
0
5.61
0
0
0
0
0
0.11
0
0
0
0
25'
0-1
1-7.5
7.5-15
15-30
30-60
24.4
134.7
81.6
105.0
158.2
4.5
21 .3
10.7
18.4
21.1
0.08
0.31
0.34
0.62
0.45
0.27
1.05
0.76
0.82
0.90
0.31
1.91
0.08
0
0
0
0
0
0.41
0
0
0
0
0
0
45'
0-1
1-7.5
7.5-15
15-30
30-60
34.1
124.4
105.3
150.8
187.9
4.4
18.8
18.5
21.4
21.2
0.08
0.30
0.19
0
0
0.39
1.13
1.04
1.32
0.92
0.60
0
1.42
0.44
0
0
0
0
0
0
0
0
0
0
0
60'
0-1
1-7.5
7.5-15
15-30
30-60
30.2
171.2
103.6
63.9
270.3
4.0
31.2
13.4
16.8
13.4
0.10
0.26
0.10
0
0
0.24
1.67
0.87
0.44
0.48
0.29
2.64
0
0
0
0
0.09
0.10
0.66
0
0
0
0
0
0
-------�
Table 16. (Continued)
B. Watershed 110 - October 19, 1977
Orthophosphate
Total Water K CI Organic
Depth phosphorus Total extractable extractable matter
Elevation (cm) (q P/m^) (q P/m^) PO4 (g P/m^) POyj (g P/m?) (Kg cal x 10^)
10' 0-1 - 0.9 0.05 0.03 7.4
1-7.5 - 5.1 0.09 0.15 20.4
7.5-15 - 4.7 0.13 0.11 14.9
15-30 - 30.2 0.38 0.28 11.2
30-60 - 114.3 0.38 0.79 16.0
25' 0-1 - 0.9 0.02 0.01 5.0
1-7.5 - 3.6 0.21 0.08 17.3
7.5-15 - 5.9 0.12 0.08 12.1
15-30 - 21.4 0.69 0.30 17.5
30-60 - 78.4 0.52 0.92 18.4
45' 0-1 - 0.9 0.06 0.05 5.1
1-7.5 - 4.9 0.12 0.07 14.0
7.5-15 - 4.9 0.27 0.10 8.9
15-30 - 9.9 0.46 0.23 13.0
30-60 - 22.1 1.09 0.29 13.4
60' 0-1 - 1.2 0.12 0.03 5.4
1-7.5 - 4.2 0.17 0.09 16.0
7.5-15 - 6.9 0.19 0.17 9.3
15-30 - 10.5 0.27 0.17 12.7
30-60 - 27.2 0.28 0.33 11.9
305
-------�
Table 16. (Continued)
B. Watershed 110 - October 19, 1977
Total
Ammonia
Nitrate
Kjeldahl
Water
K CI
Water
K CI
Elevation
Depth
(cm)
nitrogen
(g N/m2)
Total
(q N/m2)
extractable
(g N/m2)
extractable
(q N/m2)
Total
(g N/m2)
extractable
(g N/m2)
extractable
(g N/m2)
10'
0-1
33.9
8.7
0
0.15
0.33
0.07
0.01
1-7.5
136.3
52.3
0.01
0.60
0
0.26
0.14
7.5-15
99.5
37.2
0.32
0.20
0.63
0.20
0.20
15-30
71.4
50.6
0.49
0
0
0.24
0
30-60
238.0
42.7
0
0
0
0.86
0.56
25'
0-1
38.6
6.9
0.08
0.11
0.17
0.02
0.11
1-7.5
148.3
42.9
0.18
0.62
0
0
0.17
7.5-15
87.3
26.5
0.15
0.31
0
0.19
0.19
15-30
136.3
53.4
0.41
0.68
0
0.41
0.41
30-60
119.2
90.5
0.99
"0.90
0
3.50
1.84
45'
0-1
29.1
8.0
0.05
0.43
0.53
0.02
0.02
1-7.5
108.4
28.2
0.35
0.83
0.08
0.16
0.62
7.5-15
82.7
25.0
0.36
0.52
0
0
0.28
15-30
127.2
45.4
0.44
0.48
0
0.26
0.48
30-60
129.9
90.3
0.92
0.92
0
0
0.92
60'
0-1
38.0
8.8
0.03
0.29
0.38
0.07
0.04
1-7.5
129.4
51.2
0.17
1.50
0
0.97
0.17
7.5-15
103.0
29.6
0.19
0.41
0
0.19
0.19
15-30
122.9
59.7
0.44
0.42
0
1.05
1.25
30-60
182.6
73.0
0.91
0.91
0
3.15
0.91
-------�
Table 16. (Continued)
B. Watershed 110 - January 18, 1978
Orthophosphate
Total Water K CI Organic
Depth phosphorus Total extractable extractable matter
Elevation (cm) (q P/m^) (g P/m2) PO4 (g P/m*) P0& (g P/m?) (Kg cal x 103)
10' 0-1 - 1.2 0.04 0.02 7.1
1-7.5 - 9.7 0.04 0.15 18.4
7.5-15 - 10.4 0.11 0.10 9.8
15-30 - 30.4 0.32 0.22 19.4
30-60 - 80.6 0.42 0.47 12.1
25' 0-1 - 1.5 0.02 0.01 4.4
1-7.5 - 5.2 0.05 0.13 10.6
7.5-15 - 6.9 0.08 0.18 10.1
15-30 - 18.8 0.22 0.35 14.0
30-60 - 35.4 0.18 0.58 28.2
45' 0-1 - 1.8 0.04 0.04 5.5
1-7.5 - 4.4 0.10 0.11 9.2
7.5-15 - 3.8 0.15 0.05 5.8
15-30 - 12.6 0.18 0.07 8.8
30-60 - 56.2 0.08 0.14 10.1
60' 0-1 - 2.2 0.04 0.01 6.3
1-7.5 - 4.6 0.14 0.05 22.1
7.5-15 - 3.8 0.04 0.07 7.0
15-30 - 10.5 0.14 0.09 8.3
30-60 - 36.2 0.09 0.10 13.8
307
-------�
Table 16.
(Continued)
B. Watershed 110 - January 18, 1978
Elevation
10'
Depth
(cm)
Total
Kjeldahl
nitrogen
(q N/m2)
Ammonia
Nitrate
Total
(q N/m2)
Water
extractable
(q N/m2)
0-1
1-7.5
7.5-15
15-30
30-60
39.2
148.4
80.3
123.5
159.9
7.1
22.5
12.6
25.3
46.6
0.06
0.23
0
0
0
K CI
extractable
(q N/m2)
0.23
1.20
0.56
0.82
1.60
Total
(q N/m2)
0.97
7.11
2.36
3.88
0
Water
extractable
(q N/m2)
0
0
0
0
0
K CI
extractable
(q N/m2)
0
0
0
0
0
25'
0-1
1-7.5
7.5-15
15-30
30-60
26.2
91.3
53.0
109.3
174.8
4.8
10.3
11.7
14.4
26.0
0.06
0.13
0.18
0
1.16
0.18
0.50
0.28
0.37
1.16
0.54
1.48
1.02
0
0
0
0
0
0
0
0
0
0
0
0
45'
0-1
1-7.5
7.5-15
15-30
30-60
32.5
109.6
74.7
147.7
129.4
6.8
15.5
10.6
14.3
24.9
0.02
0.25
0.26
0.66
0
0.35
1.50
0.45
0.62
0.97
0.82
1.20
0
0
0
0.04
0.20
0
0
2.90
0
0
0
0
0
60'
0-1
1-7.5
7.5-15
15-30
30-60
42.2
141.0
90.4
97.1
92.5
5.1
29.8
20.2
15.1
10.5
0.11
0.26
0.20
0.44
1.00
0.28
1.06
0.20
0.44
0
0.95
0
0
0.87
5.24
0.08
1.14
0.20
0
0
0
0
0
0
0
-------�
Table 16. (Continued)
B. Watershed 110 - April 21, 1978
Orthophosphate
Total Water K CI Organic
Depth phosphorus Total extractable extractable matter
Elevation (cm) (q p/m2) (g P/m2) P04. (g P/m2) PO4 (g P/m2) (Kg cal x 103)
10' 0-1 - 1.0 0.09 0.01 13.3
1-7.5 - 5.8 0.14 0 33.1
7.5-15 - 6.7 0.09 0 23.2
15-30 - 24.9 0.18 0 22.7
30-60 - 92.7 0.44 0.04 17.2
25' 0-1 - 0.5 0.02 0.01 3.2
1-7.5 - 2.9 0.05 0 13.3
7.5-15 - 4.7 0.03 0 10.2
15-30 - 26.8 0.13 0.04 9.3
30-60 - 55.1 0.06 0 9.4
45' 0-1 - 1.3 0.05 0.01 4.3
1-7.5 - 3.8 0.12 0 8.0
7.5-15 - 4.5 0.07 0 6.3
15-30 - 13.7 0.09 0.05 9.7
30-60 - 63.1 0.07 0 9.7
60' 0-1 - 2.0 0.07 0.01 4.7
1-7.5 - 7.7 0.11 0.02 13.0
7.5-15 - 3.4 0.05 0.04 7.0
15-30 - 5.0 0.11 0 7.2
30-60 - 46.2 0.68 0 7.6
309
-------�
Table 16. (Continued)
B. Watershed 110 - April 21, 1978
Elevation
Depth
(cm)
Total
Kjeldahl
nitrogen
(q N/m?)
Ammoni a
Water
Total extractable
(q N/m2) (q N/itT)
10'
0-1
1-7.5
7.5-15
15-30
30-60
51.4
187.3
146.1
168.2
197.9
8.2
34.0
22.9
27.8
22.9
0.25
1.04
0.45
1.02
1.29
25'
GO
o
0-1
1-7.5
7.5-15
15-30
30-60
23.1
103.5
79.9
137.7
163.5
3.7
22.7
11.6
17.3
15.7
0.06
0.31
0.51
0.82
1.34
45' 0-1 38.7
1-7.5 119.9
7.5-15 85.3
15-30 122.3
30-60 186.1
7.5 0.09
22.2 0.38
13.4 0.09
19.6 0.22
19.3 0.23
60' 0-1 45.8
1-7.5 158.3
7.5-15 119.0
15-30 122.0
30-60 235.1
5.0 0.09
32.9 0.44
14.2 0.10
13.3 0.22
27.2 0.48
Nitrate
K CI
extractable
(g N/m2)
Total
(q N/m2)
Water
extractable
(q N/m2)
K CI
extractable
(q N/m2)
0.59
2.96
0.29
0.27
1.44
5.91
1.92
1.68
0.91
3.81
1.18
1.54
2.04
7.35
5.92
2.04
2.59
6.04
5.61
3.45
0.19
1.91
0.93
1.24
1.79
0.57
3.83
2.12
6.39
4.93
0.08
3.21
2.12
5.77
5.38
0.11
0.49
2.20
2.89
5.38
0.41
1.43
0.85
0.88
0.46
1.32
1.28
2.18
1.98
0
0.42
1.05
0.57
1.32
10.59
0.15
1.35
0.95
0.88
2.76
0.52
1.67
0.87
0.44
0.48
0.64
2.73
2.51
17.93
33.85
0.30
2.82
2.32
0.66
14.78
0.16
0.97
1.16
1.09
2.86
-------�
Table 16. (Continued)
C. Watershed 111 - April 28, 1977
Orthophosphate
Total Water K CI Organic
Depth phosphorus Total extractable extractable matter
Elevation (cm) (g P/nr) (g P/m2) PO/l (g P/nr) PQ^ (g P/m2) (Kg cal x 103)
40' 0-1 - 8.0 0.32 0.01 7.9
1-7.5 - 42.8 0.29 0.06 15.5
7.5-15 - 33.3 0.19 0.08 13.6
15-30 - 44.6 0.52 0.10 11.0
30-60 - 43.9 0.27 0 13.7
50' 0-1 - 1.3 0.01 0 3.0
1-7.5 - 7.4 0.08 0 14.6
7.5-15 - 8.7 0.03 0 7.5
15-30 - 14.2 0.17 0.11 5.1
30-60 - 35.5 0.31 0.09 5.8
75' 0-1 - 3.9 0.06 0.02 5.5
1-7.5 - 18.2 0.08 0.05 10.5
7.5-15 - 18.0 0.08 0.06 7.1
15-30 - 58.5 0.17 0.06 10.1
30-60 - 18.6 0.15 0.38 14.6
100' 0-1 - 5.3 0.04 0.02 5.0
1-7.5 - 35.3 0.23 0.07 21.2
7.5-15 - 39.2 0.19 0.04 7.3
15-30 - 84.5 0.55 0.19 8.1
30-60 - 218.7 0.72 0.80 6.7
311
-------�
Table 16. (Continued)
C. Watershed 111 - April 28, 1977
Total Ammonia Nitrate
Elevation
Depth
(cm)
Kjeldahl
nitrogen
(q N/m2)
Total
(q N/m2)
Water
extractable
(g N/m2)
K CI
extractable
(q N/m2)
Total
(q N/m2)
Water
extractable
(g N/m2)
K CI
extractabl
(q N/m )
40'
0-1
86.6
16.2
0.76
3.30
3.9
0.41
0.24
1-7.5
264.7
34.4
1.64
2.77
11.8
1.64
0.52
7.5-15
139.4
21.6
0.53
0.89
8.0
0.71
1.07
15-30
207.4
27.7
0.83
1.25
13.7
2.08
2.50
30-60
357.9
34.7
1.83
1.83
34.7
6.86
3.20
50'
0-1
49.0
6.8
0.11
0.38
1.7
0.11
0.19
1-7.5
155.3
26.7
0.48
0.86
6.7
0.76
1.52
7.5-15
104.7
15.2
0.39
0.68
4.4
1.94
1.16
15-30
193.0
8.5
0.64
0.85
5.3
0.43
0.64
30-60
335.2
41.3
1.33
2.66
20.4
1.33
4.00
75'
0-1
62.3
9.8
0.13
0.59
2.4
0.15
0.28
1-7.5
178.8
23.3
0.56
0.83
17.9
0.74
1.02
7.5-15
90.2
11.3
0.19
0.19
3.3
0.38
2.25
15-30
138.8
15.9
0
0.78
4.9
2.14
2.33
30-60
197.3
13.5
0.75
0.75
3.8
12.38
4.88
O
o
0-1
62.5
9.4
0.01
0
2.7
0.92
0.55
1-7.5
235.9
32.5
0
0
7.7
1.79
1.09
7.5-15
99.6
12.4
0
0
3.2
0.97
0.97
15-30
135.1
19.2
0
0.43
8.9
2.13
1.70
30-60
136.6
24.0
0
1.68
22.7
1.68
6.73
-------�
Table 16. (Continued)
C. Watershed 111 - July 19, 1977
Elevation
Total
Depth phosphorus
(cm) (g P/m2)
Orthophosphate
WaterK CI
Total extractable extractable
(g P/m2) POa (g P/m2) POa (g.P/m2)
Organic
matter
(Kg cal x 103)
40'
0-1
10.8
2.1
0.12
0.08
8.2
1-7.5
47.8
12.1
0.09
0.08
16.6
7.5-15
29.6
10.8
0.12
0.07
9.4
15-30
120.8
40.8
0.18
0.29
15.0
30-60
171.0
40.7
2.15
0.50
17.4
50'
0-1
9.1
1.0
0.03
0.02
2.9
1-7.5 .
29.5
2.5
0.22
0.02
15.8
7.5-15
38.6
4.7
0.12
0.07
6.7
15-30
65.7
15.7
0.17
0.13
11.3
30-60
110.1
19.5
0.26
0.09
9.3
75'
0-1
5.0
3.5
0.04
0.02
2.7
1-7.5
77.3
13.0
0.06
0.05
12.6
7.5-15
68.7
28.4
0.18
0.16
5.5
15-30
145.6
71.9
0.43
0.17
9.7
30-60
344.3
209.3
0.94
0.60
14.6
100"
0-1
14.6
5.8
0.24
0.20
5.2
1-7.5
109.3
44.6
0.38
0.13
18.0
7.5-15
103.8
36.0
0.44
0.19
7.0
15-30
292.2
125.1
0.68
0.34
8.3
30-60
402.9
227.5
0.93
1.09
2.5
313
-------�
Table 16. (Continued)
C. Watershed 111 - July 19, 1977
Elevation
Depth
(cm)
Total
Kjeldahl
nitrogen
(q N/m2)
Total,
Ammonia
Water
K CI
extractable extractable
(q N/n/) (q N/nT) (q N/m2)
Total
(q N/m2)
Nitrate
Water
extractable extractable
(q N/m2) (q N/m2)
K CI
40'
0-1
1-7.5
7.5-15
15-30
30-60
90.3
158.7
106.0
189.5
271.1
11.5
35.4
16.5
62.9
59.0
0.31
0.17
0.11
0.40
1.10
0.83
0.84
0.28
0.25
0.50
2.0
7.0
6.8
5.4
1 .4
0.31
0.60
0.53
0.10
0
0.07
0.38
0.11
0
0
50'
0-1
1-7.5
7.5-15
15-30
30-60
36.5
146.4
90.4
137.7
353.9
3.8
22.8
12.4
26.4
25.8
0.04
0
0.19
0.87
0.98
0.23
0.94
0.24
0.26
0.49
0.4
1.4
0.9
0
0
0.11
0
0
0.40
2.35
0.10
0.40
0.29
0
0.49
75'
0-1
1-7.5
7.5-15
15-30
30-60
31.9
136.3
57.7
121.9
148.9
3.8
22.5
9.6
27.0
41.3
0.03
0.18
0.16
0.37
0.75
0.16
0.56
0.16
0.74
0.75
0.7
0.7
4.4
11.3
0
0.26
2.41
1.50
3.69
1.95
0.03
0.28
0.29
1 .46
2.21
100'
0-1
1-7.5
7.5-15
15-30
30-60
77.2
238.0
100.8
107.9
103.9
8.1
35.2
17.8
16.8
16.4
0.03
0.19
0.17
0.40
0.80
0.03
0.19
0.34
0.40
0.80
2.1
2.2
2.0
0
0
0.65
2.28
0.34
0.40
0.80
0.03
0.19
0.17
3.62
6.31
-------�
Table 16. (Continued)
C. Watershed 111 - October 17, 1977
Orthophosphate
Total Water K CI Organic
Depth phosphorus Total extractable extractable matter
Elevation (cm) (g P/m2) (g P/m?) PO4 (g P/m^) POa (g P/nr) (Kg cal x 103)
40' 0-1 - 7.3 0.11 0.03 6.9
1-7.5 - 33.9 0.09 0.02 20.2
7.5-15 - 37.9 0.07 0.02 12.9
15-30 - 69.1 0.08 0.05 13.3
30-60 - 58.1 0.55 0 20.6
50' 0-1 - 1.9 0.01 0 4.4
1-7.5 - 8.1 0.05 0.03 22.1
7.5-15 - 8.1 0.04 0.03 7.7
15-30 - 18.7 0.16 0.01 15.3
30-60 - 37.3 0.40 0.07 15.1
75' 0-1 - 4.2 0.05 0.03 4.3
1-7.5 - 23.8 0.10 0.02 23.0
7.5-15 - 20.2 0.19 0.02 9.3
15-30 - 53.3 0.04 0 11.1
30-60 - 130.1 0.28 0 17.6
100' 0-1 - 6.4 0.11 0.01 4.8
1-7.5 - 40.4 0.48 0.02 23.9
7.5-15 - 45.7 0.29 0.01 7.3
15-30 - 87.5 0.76 0.01 15.7
30-60 - 186.3 1.51 0.18 8.4
315
-------�
Table 16. (Continued)
C. Watershed 111 - October 17, 1977
Total Ammonia Ni trate
Elevation
Depth
(cm)
Kjeldahl
nitrogen
(g N/m2)
Total
(g N/m2)
Water
extractable
(g N/m2)
K CI
extractable
(q N/m2)
Total
(g N/m2)
Water
extractable
(g N/m2)
K CI.,
extractabl
(g N/m )
40'
0-1
77.9
13.1
0.04
0.26
1.3
0.72
0.06
1-7.5
212.1
22.3
0.14
0.80
4.5
2.85
0.32
7.5-15
125.8
31.1
0
0.48
0.8
2.23
0.48
15-30
144.1
20.6
0
0.60
0
1.87
0.31
30-60
201.6
13.7
0
0.69
0
2.33
0.69
50'
0-1
32.5
5.0
0.12
0.20
0.5
0.18
0.05
1-7.5
153.1
22.3
0.17
1.23
1.7
0.46
0.37
7.5-15
85.0
10.4
0.16
0.39
0
0.39
0.18
15-30
118.4
20.8
0
0.17
0
0.79
0.70
30-60
117.2
17.3
0.36
0.71
0
1.64
1.24
75'
0-1
44.9
5.3
0.06
0.18
0.6
0.29
0.06
1-7.5
193.0
24.1
0.06
0.85
3.1
.0.81
0.31
7.5-15
95.2
13.3
0.22
0.46
0.4
0.38
0
15-30
96.0
15.4
0.37
0.37
0
0.45
0.37
30-60
95.6
14.3
0.79
0.41
0
0
0
100'
0-1
64.0
5.6
0.02
0.06
1.2
0.38
0
1-7.5
210.5
23.1
0.12
0.27
4.5
0.12
0
7.5-15
91.1
10.4
0
0.19
3.7
0.44
0
15-30
113.2
10.6
0
0.77
4.7
0.66
0
30-60
93.8
7.2
0
0.97
0
1.39
0
-------�
Table 16. (Continued)
C. Watershed 111 - January 18, 1978
Qrthophosphate
Total Water K CI Organic
Depth phosphorus Total extractable extractable matter
Elevation (cm) (g P/m2) (q P/m2) PQg (q P/m2) PO4 (q P/m2) (Kg cal x 103)
40' 0-1 - 11.4 0.24 0.06 7.8
1-7.5 - 40.1 0.23 0 13.8
7.5-15 - 31.1 0.27 0 7.7
15-30 - 68.1 0.28 0 13.1
30-60 - . 72.7 0.65 0 12.8
50' 0-1 - 2.7 0.04 0.04 5.0
1-7.5 - 12.4 0.08 0 15.3
7.5-15 - 14.9 0.06 0.05 7.9
15-30 - 28.3 0.06 0 9.4
30-60 - 55.9 0.05 0 11.5
75' 0-1 - 6.5 0.17 0.16 5.0
1-7.5 - 32.3 0.22 0 17.7
7.5-15 - 34.7 0.05 0 8.3
15-30 - 79.7 0.09 0 8.6
30-60 - 226.9 0.24 0 9.8
100' 0-1 - 9.4 0.29 0.46 12.4
1-7.5 - 60.6 0.44 0.39 21.0
7.5-15 - 64.0 0.25 0.10 4.1
15-30 - 145.6 0.77 0.28 10.9
30-60 - 398.7 0.77 0 2.1
317
-------�
Table 16. (Continued)
C. Watershed 111 - January 18, 1978
Total
Ammonia
Nitrate
Kjeldahl
Water
K CI
Water
K CI
Depth
nitrogen
Total
extractable
extractable
Total
extractable
extractable
Elevation (cm)
(q N/m2)
(q N/m2)
(q N/m2)
(g N/m2)
(g N/m2)
(g N/m2)
(g N/m2)
o
0
1
90.1
9.5
0
0.12
2.5
0
0.04
1-7.5
155.7
25.1
0
0.27
3.4
0.41
0
7.5-15
84.1
17.2
0
0.20
10.2
0.41
0
15-30
182.0
25.2
0
0
2.3
0.60
0
30-60
250.0
27.9
0
0
19.2
0.96
0
50' 0-1 43.8
1-7.5 204.6
7.5-15 113.3
15-30 143.2
30-60 200.2
7.3 0
30.3 0
10.8 0
23.6 0
17.3 0
0.22 1.9
1.14 6.0
0.33 1.6
0.47 9.4
0 9.3
0.07 0
0.30 0
0.20 0.20
0.47 0.47
0.84 0
75' 0-1 64.3
1-7.5 233.2
7.5-15 109.7
15-30 202.0
30-60 166.1
10.8 0.41
45.5 0.23
12.5 0.21
13.6 0.39
16.1 0.79
0.50 1.7
0.47 7.7
0 3.6
0 2.5
0 0
0 0
0 0
0.21 0.54
0 0.39
0 0.79
100' 0-1 81.4
1-7.5 253.0
7.5-15 131.4
15-30 194.1
30-60 127.0
12.9 0.85
43.8 0.22
15.8 0.20
18.7 0.43
0 1.35
0.27 1.1
0.46 6.6
0.20 1.1
0 11.7
0 0
0.11 0
0.99 0
0.20 0.20
0.43 0.43
0.84 0
-------�
Table 16. (Continued)
C. Watershed 111 - April 18, 1978
Elevation
Total
Depth phosphorus
(cm) (g P/m2)
Orthophosphate
TCT
extractabli
Water
Total extractable
(q P/m2) P04 (q P/nr) PO4 (q P/m2)
Organic
matter
(Kg cal x 10^)
40'
0-1
1-7.5
7.5-15
15-30
30-60
7.1
35.1
28.2
45.4
90.5
1.5
17.9
10.9
16.4
16.0
50'
0-1
1-7.5
7.5-15
15-30
30-60
0.8
10.1
7.7
17.6
33.3
3.1
15.6
9.3
11.9
13.3
75'
0-1
1-7.5
7.5-15
15-30
30-60
4.1
24.5
35.4
70.2
164.3
2.3
17.4
7.5
9.1
17.3
100'
0-1
1-7.5
7.5-15
15-30
30-60
6.0
45.0
47.3
112.4
274.7
4.4
20.7
6.2
12.1
10.9
319
-------�
Table 16. (Continued)
C. Watershed 111 - April 18, 1978
Total
Ammonia
Nitrate
Elevation
Depth
(cm)
Kjeldahl
nitrogen
(q N/m2)
Total
(q N/m2)
Water
extractable
(q N/m2)
K CI
extractable
(q N/m2)
Total
(q N/m )
Water
extractable
(q N/m2)
K CI
extractable
(q N/m2)
40'
0-1
1-7.5
7.5-15
15-30
30-60
52.0
152.8
118.4
158.2
173.7
7.6
25.9
18.8
20.4
23.8
0.04
0
0.24
0
0
0.11
0.21
0
0
0
1.09
0.22
0
2.08
0.87
0.19
0.47
0
0
0.04
0
0
0
0
50'
0-1
1-7.5
7.5-15
15-30
30-60
37.3
85.1
34.5
131.8
181.6
4.6
25.2
14.6
18.9
24.9
0.03
0
0
0
0
0.13
0.35
0.16
0
0
0.03
1.62
0
0
0
0.08
0.35
0.16
0.43
1.55
0.05
0.35
0.16
0
0
75'
0-1
1-7.5
7.5-15
15-30
30-60
30.4
184.4
91.8
114.7
198.0
3.9
26.7
12.8
17.1
17.3
0
0
0
0
0
0.05
0.23
0.17
0
0
0.38
1.20
4.51
15.75
0
0.06
0.26
0.17
0.35
0
0.02
0.17
0.17
0.56
0
100'
0-1
1-7.5
7.5-15
15-30
30-60
52.6
197.4
85.7
173.2
234.7 '
12.4
28.0
22.3
21.3
17.2
0.04
0
0
0
0
0.10
0
0
0
0
-
0.07
0.37
0.23
0.57
0
0.04
0.19
0
0
0
-------�
Table 17. Herbicide concentration (yg/g) in the soil of watershed 109 in 1976.
A. Atrazine
I. Station 1 - 30 m Elevation (ug/g)*
Depth (cm)
Day 0-1 1-2.5 2.5-5 5-8 8-12 12-18 18-24 24-30
0
1
4.74
3.26
.72
2
1.44
1.92
.55
3
1.32
3.74
1.32
4
5.55
3.50
.53
5
1.94
.36
.89
6
2.13
.40
.58
7
1.21
2.00
2.13
.47
.27
10
2.53
.67
.67
1.91
15
1.34
1.04
.41
37
.05
.15
1.03
64
.16
1.13
109
0
.28
.43
.78
148
0
0
0
0
0
~Samples that showed concentrations below detection limit are left blank in
this table.
321
-------�
Table 17. (Continued)
A. Atrazine
II. Stations 2, 3, 4, and 5 - 22.5 m Elevation (yg/g)
Depth (cm)
Day 0-1 1-2.5 2.5-30
0
1
1.96
2.69
0.49
2
1.45
3.68
0.38
3
0.87
1.36
0.10
4
1.11
0.66
0.10
5
2.13
0.59
0.19
6
4.39
0.00
0.21
7
1.99
1.98
0.36
10
8.02
1.40
0.00
15
1.53
2.01
0.00
17
0.37
0.15
22
7.27
0.41
0.55
37
0.90
0.94
0.14
64
1.92
0.83
109
0.57
0.00
0.40
148
0.67
0.41
*Indicates no data
322
-------�
Table 17. (Continued)
A. Atrazine
III. Stations 6, 7, 8, and 9 - 15 m Elevation (yg/g)
Day
0-1
Depth (cm)
1-2.5
2.5-30
0
3.78
*
1
0.64
14.43
0.16
2
2.36
0.96
0.53
3
12.21
2.90
0.21
4
11.98
0.31
0.00
5
6.82
1.29
0.25
6
1.61
1.83
0.24
7
0.51
0.26
10
2.86
1.56
0.16
15
1.08
0.96
0.54
17
2.75
22
5.75
1.69
0.55
37
37.40
0.35
64
1.72
0.83
109
1.10
0.48
0.48
148
0.83
0.98
0.31
* Indicates no data
323
-------�
Table 17. (Continued)
A. Atrazine
IV. Station 10 - 9 m Elevation (yg/g)
Depth
(cm)
Day
0-1
1-2.5
2.5-5
5-8
8-12
12-18
18-24
24-30
0
3.73
*
1
3.54
0.00
0.07
0.64
0.36
0.29
2
1.10
0.51
0.98
0.12
0.50
0.10
0.37
0.10
3
1.13
0.00
0.16
0.00
0.09
0.07
0.00
0.23
4
0.87
1.31
0.32
0.50
0.07
0.44
0.07
0.10
5
0.31
1.28
1.07
0.45
0.25
0.21
6
9.07
0.58
0.29
0.17
0.03
0.09
0.17
0.06
7
1.49
0.52
0.00
0.13
0.09
0.06
0.00
0.00
10
2.11
1.59
0.46
0.19
0.00
0.00
0.00
0.29
15
6.73
1.28
0.00
0.37
0.08
0.41
0.03
0.25
17
22
8.15
2.43
1.04
0.00
0.61
0.22
37
2.87
0.39
0.24
0.00
0.35
0.57
0.17
0.26
64
3.31
0.00
0.19
0.47
0.61
1.20
109
0.79
0.39
0.47
0.09
0.27
0.25
148
0.71
0.24
0.46
0.16
0.34
0.21
0.23
0.31
Indicates no data
-------�
Table 17. (Continued)
B. Alachlor
I. Station 1 - 30 m Elevation (yg/g)*
Day
0-1
1-2.5
2.5-5
Depth (cm)
5-8 8-12
12-18
18-24 24-30
0
4.36
1
2.63
1.52
.26
.04
2
.80
.95
.20
3
5.02
1.47
.36
.03
4
1.31
.40
.15
If>
O
o
5
.78
.41
.18
.03 .03
6
3.53
.55
.17
.05
.04
7
3.47
.84
.49
.14 .07
.05
10
1.64
.81
.04
.11
.05
15
.50
.35
.11
.05
37
.18
.04
.01
.03
64
.05
109
.05
.02
148
0
0
0
0 0
0
0 0
Samples that showed concentrations below detection limit are left blank in
in this table.
325
-------�
Table 17. (Continued)
B. Alachlor
II. Stations 2, 3, 4, and 5 - 22.5 m Elevation (yg/g)
Day
0-1
Depth (cm)
1-2.5
2.5-30
0
1
2.85
3.30
0.16
2
2.80
1.36
0.15
3
2.74
1.30
0.005
4
2.63
1.00
0.09
5
0.95
0.57
0.09
6
2.91
1.11
0.06
7
2.04
1.50
0.69
10
2.86
0.90
0.00
15
0.27
0.21
0.01
17
0.01
0.01
22
0.25
0.47
0.32
37
0.13
0.20
0.05
64
0.11
0.04
109
0.04
0.03
0.03
148
0.06
0.06
Indicates no data
326
-------�
Table 17. (Continued)
B. Alachlor
III. Stations 6, 7, 8, and 9 - 15 m Elevation (yg/g)
Day
0-1
Depth (cm)
1-2.5
2.5-30
0
3.32
*
1
3.79
1.53
0.09
2
4.51
1.30
0.10
3
6.08
2.80
0.11
4
6.51
0.49
0.12
5
3.24
1.10
0.06
6
2.58
1.00
0.05
7
0.82
0.08
10
0.32
1.04
0.46
15
0.10
0.40
0.00
17
0.54
22
1.67
0.23
0.04
37
0.18
0.04
64
0.15
0.04
109
0.06
0.05
0.04
148
0.04
0.02
0.03
'Indicates no data
327
-------�
Table 17. (Continued)
B. Alachlor
IV. Station 10 - 9 m Elevation (yg/g)
Day
0-1
1-2.5
2.5-5
Depth (cm)
5-8 8-12
12-18
18-24
24-30
0
2.54
*
__
1
2.44
0.00
0.02
0.03
0.02
0.04
2
5.32
1.88
0.68
0.10
0.32
0.02
0.03
0.02
3
0.43
0.70
0.12
0.02
0.01
0.01
0.00
0.02
4
3.18
0.50
0.00
0.07
0.01
0.03
0.01
0.01
5
2.76
0.70
0.00
0.07
0.04
0.00
6
5.61
0.77
0.11
0.03
0.00
0.01
0.02
0.01
7
0.32
1.17
0.00
0.05
0.02
0.01
0.00
0.00
10
1.62
0.47
0.10
0.02
0.00
0.02
0.00
0.03
15
0.89
0.40
0.07
0.00
0.01
0.03
0.00
0.02
17
22
1.65
0.41
0.39
0.00
0.05
0.02
37
0.61
0.03
0.02
0.00
0.02
0.02
0.01
0.02
64
0.13
0.02
0.02
0.05
0.06
0.12
109
0.03
0.04
0.03
0.00
0.02
0.02
148
0.09
0.04
0.03
0.02
0.03
0.01
0.01
0.03
~Indicates no data
328
-------�
Table 17. (Continued)
C. Data summary by depth
I. Herbicide concentration at 30 m Elevation (pg/g)
Depth (cm)
Atrazine
Alachlor
Day
0-1
0-2.5
0-30
0-1
0-2.5
0-30
O1
~
4.36
4.36
4.36
1
4.74
8.00
8.72
2.63
4.15
4.45
2
1.44
3.36
3.91
0.80
1.75
1.95
3
1.32
5.06
6.38
5.02
6.49
6.88
4
5.55
9.05
9.58
1.31
1.71
1.98
5
1.94
2.30
3.19
0.78
1.19
1.43
6
2.13
2.53
3.11
3.53
4.08
4.34
7
1.21
3.21
6.08
3.47
4.31
5.06
10
2.53
2.53
6.31
1.64
2.45
2.65
15
1.34
2.38
2.79
0.50
0.85
1.01
37
0.05
0.05
1.95
0.18
0.72
0.26
64
0.16
1.29
1.29
0.05
0.05
0.05
109
0.00
0.28
2.52
0.05
0.05
0.07
148
0.00
0.00
0.83
0.00
0.00
0.00
Spraying day. May 18, 1976
'Indicates no data
329
-------�
Table 17. (Continued)
C. Data summary by depth
II. Herbicide concentration at 22.5 m Elevation (ug/g)
Depth (cm)
Atrazine
Alachlor
Day
(M
0-2.5
0-30
0-1
0-2.5
0-30
0
*
1
1.96
4.65
5.14
2.85
6.15
6.31
2
1.45
5.13
5.51
2.80
4.16
4.31
3
0.87
2.23
2.33
2.74
4.04
4.09
4
1.11
1.77
1.87
2.63
3.63
3.72
5
2.13
2.72
2.91
0.95
1.52
1.61
6
4.39
4.39
4.60
2.91
4.02
4.08
7
1.99
3.97
4.33
2.04
3.54
4.23
10
8.02
9.42
0.42
2.86
3.76
3.76
15
1.53
3.54
3.54
0.27
0.48
0.49
17
0.37
0.52
0.01
0.02
22
7.27
7.68
8.23
0.25
0.72
1.04
37
0.90
1.84
1.98
0.13
0.33
0.38
64
1.92
2.75
0.11
0.15
109
0.57
0.57
0.97
0.04
0.07
0.10
148
0.67
1.08
Ļ Ļ Ļ .
0.06
0.12
-
* Indicates no data
330
-------�
Table 17. (Continued)
C. Data summary by depth
III. Herbicide concentration at 15 m Elevation (ng/g)
Day
0-1
Atrazine
0-2.5
0-30
Depth (cm)
0-1
Alachlor
0-2.5
0-30
0
3.78
*
3.32
Ļ
1
0.64
15.07
15.23
3.79
5.32
5.41
2
2.36
3.32
3.85
4.51
5.81
5.91
3
12.21
15.11
15.32
6.08
8.88
8.99
4
11.98
12.29
12.29
6.51
7.00
7.12
5
6.82
8.11
8.36
3.24
4.34
4.40
6
1.61
3.44
3.68
2.58
3.58
3.63
7
10
2.86
4.42
4.58
0.32
1.36
1.82
15
1.08
2.04
2.58
0.10
0.50
0.50
17
2.75
0.54
22
5.75
7.44
7.99
1.67
1.90
1.94
37
64
1.72
2.55
0.15
0.19
109
1.10
1.58
2.06
0.06
0.11
0.15
148
0.83
1.81
2.12
0.04
0.06
0.09
* Indicates no data
331
-------�
Table 17. (Continued)
C. Data summary by depth
IV. Herbicide concentration at 9 m Elevation (yg/g)
Depth (em)
Atrazine Alachlor
Day 0-1 0-2.5 0-30 0-1 0-2.5 0-30
0
1
3.73
*
2.54
1
2
1.10
1.61
3.78
5.32
7.20
8.37
3
1.13
1.13
1.68
0.43
1.13
1.31
4
0.87
2.18
3.68
3.18
3.68
3.81
5
0.31
1.59
2.76
3.46
6
9.07
9.65
10.46
5.61
6.38
6.56
7
1.49
2.01
2.29
0.32
1.49
1.57
10
2.11
3.70
4.64
1.62
2.09
2.26
15
6.73
8.01
9.16
0.89
1.29
1.42
17
22
8.15
10.58
1.65
2.06
37
2.87
3.26
4.85
0.61
0.64
0.73
64
3.31
3.31
__
0.13
0.15
109
148
0.71
0.95
2.66
0.09
0.13
0.26
* Indicates no data
332
-------�
Table 18. Farm practices and application rates for agricultural chemicals
on watershed 109 in 1977.
A. Agricultural herbicides (Kg/ha) applied to fields on
May 14, 1977.
Alachlor
Atrazine
1. Information from farmer
2. Measured by area coverage, rate
of spraying, and spray analysis
3. Measured by filter paper disc
method
3.30
2.36
1.58
1.41
0.976
1.00
333
-------�
Table 18. (Continued).
B. Fertilizers (Kg/ha). Granular 10-20-20 was broadcast with a
cyclone spreader on April 28. Liquid fertilizer was included
in the spray formulation and applied on May 14 and granular
urea was spread on June 10 for fields 2, 3, and 4; June 17
for field 1.
Granular
Liquid N
Urea
1. Information from farmer
nitrogen
phosphorus
2. Measured by area coverage, rate
of spraying and spray analysis
total N
N03 + N02
ammonia N
organic N
total P
42.6
33.7
41.1
11.1
28.3
1.7
32.2
96.6
0
76.0
19.2
23.4
33.6
0.01
49.7
0
51.5
2.1
3.4
45.9
0
3. Measured by filter paper
method
total N
NO3 + N02
total Kjeldahl N
4. Measured by soil analysis
(5/14 minus 4/22)
total N
N03 + NO2
ammonia N
organic N
NA
NA
NA
NA
NA
NA
NA
58.6
15.5
43.1
68.1
10.6
20.4
37.1
NA
NA
NA
NA
NA
NA
NA
C. Other miscellaneous data. The fields were plowed on March 31
and April 2, 1977. Fields 2, 3, and 4 were limed April 14, 1977
with a total of 40 tons of powdered dolomite. Field 1 was not
limed at all. Fields 3 and 4 were disced immediately after
1iming.
334
-------�
Table 19. Cattle population and feeding data for watershed 111 in 1977-78.
A. Livestock populations
Total
Date
number
animals
Bulls
Cows
Feeder
calves
Young
calves
Pasture*
Notes
7/28/77
0
0
0
0
0
South
No cattle on watershed 111.
7/29/77
42
1
16
25
0
North
and south
Cattle moved to watershed.
11/28/77
42
1
16
25
0
South
only
Gate closed. Cattle restricted
to south pasture.
12/13/77
43
1
16
25
1
South
only
1 newborn calf.
12/30/77
45
1
16
25
3
South
only
2 newborn calves.
1/15/78
30
16
10
3
South
only
15 feeder calves moved.
2/16/78
28
1
14
10
3
South
only
2 cows died.
2/23/78
24
1
13
10
0
South
only
1 cow and 3 young calves moved.
3/8/78
23
1
12
10
0
South
only
1 cow died.
3/10/78
24
1
12
10
1
South
only
1 newborn calf.
3/24/78
25
1
12
10
2
South
only
1 newborn calf.
5/10/78
25
1
12
10
2
South
only
5/11/78
0
0
0
0
0
South
Herd moved to north pasture.
* See section D for explanation.
-------�
Table 19. (Continued)
B. Material inputs within watershed 111 due to farm practices,
Date
12/1/77 - 2/6/78
2/7/78 - 4/9/78
4/10/78 - 4/22/78
4/23/78 - 5/10/78
5/12/78
Materials
applied
hay*
hay
shelled corn
hay
hay
10.10.10
granular
fertilizer
Rate of
application**
7 bales/day
12 bales/day
200-250 lbs/day
10 bales/day
1 bale/day
300-400 lbs/acre
* Hay samples were taken on 1/17/78 and 3/31/78 for chemical analysis.
Date
1/17/78
3/31/78
% dry weight
ry weigr
(60 C)
95.3
93.1
Total phosphorus
(g Kg/dry wt)
1.3
1.8
Total Kjeldahl nitrogen
(g Kg/dry wt)
7.1
9.9
** Average number of bales per day. Actual number varied w'th the quality
of the hay.
336
-------�
Table 19. (Continued)
C. Materials harvested from watershed 111.
Portion*
of
watershed
Date Date
mowed baled
Bale
Total dry wt (60° C) Percent Total
number (Kg) dry wt (60° C) phosphorus
bales mean t sd mean ą sd (g/Kg dry wt)
Total
Kjeldahl
nitrogen
(g/Kg dry wt)
upper 25%
(approx)
7/15/77 7/19/77
55
15 ą 1.4 89 3.2
2.1
12
lower 70%
(approx)
7/22/77 7/26/77
97
2.1 ą 0.86 10 ą 4.4
1.1
13
Southeast
corner 5%
(approx)
Not baled
* Does not include forested area of watershed.
-------�
Table 19. (Continued)
D. Miscellaneous notes
1. Watershed 111 is within the 'South Pasture'. The farmer sometimes allowed
his cattle to freely move between the South and another 'North Pasture1.
The 'South Pasture' has an area of 18.9 ha. Of this area, watershed 111
occupies 5.4 ha. The 'North Pasture' has an area of 13.2 ha.
2. Soil moisture and temperature readings available beginning on June 22, 1977.
3. Pasture began to turn green on March 27, 1978.
4. Pasture surface treated with a drag and chain to breakup and spread
manure already present on field.
338
-------�
Table 20.
Corn harvest data for watershed 109 (1977)
A. Number of harvestable ears
Station
number
Plot # (25 m^
1 2
each)
3
Mean
Average
number
kernels
per ear
Average*
number
kernels
per bu.
Bushels
per
acre
1
105
107
105
106
673
160,000
72.2
2
40
101
97
79
397
168,000
30.2
3
109
109
107
108
715
160,000
78.1
4
84
89
108
94
550
153,000
54.7
5
74
98
108
93
573
160,000
53.9
6
94
25
100
73
401
185,000
25.6
7
104
89
103
99
584
122,000
76.7
8
101
90
104
98
762
147,000
82.2
9
89
83
97
90
535
97,900
79.6
10
102
104
103
103
555
131,000
70.6
Mean
-
_
_
94
575
143,000
61.2
* Determined by displacement. Nutrients in corn kernels at harvest time
were 7.05 Kg P/ha and 48.6 Kg N/ha. This calculat'cn was based upon
a 1976 estimate of 33.3 Kg of kernels per bushel and 1977 estimates
of 1.40 g P/Kg and 9.65 g N/Kg of kernels.
339
-------�
Table 20. (Continued)
B. Ears remaining in field after harvest
Station
number
Plot # (25 m2
1 2
each)
3
Mean
Average
number
kernels
per ear
Average*
number
kernels
per bu.
Bushel
per
acre
1
11
7
16
11
673
160,000
7.49
2
16
26
-
19
397
168,000
7.27
3
16
14
13
15
715
160,000
10.9
4
41
33
23
32
550
153,000
18.6
5
21
6
20
16
573
160,000
9.28
6
14
8
23
15
401
185,000
5.26
7
17
15
16
16
584
122,000
12.4
8
14
14
16
15
762
147,000
12.6
9
8
9
13
10
535
97,900
8.85
10
7
8
8
8
555
131,000
5.49
Mean
16
575
143,000
10.4
* Determined by displacement. Nutrients in corn kernels at havest time
were 7.05 Kg P/ha and 48.6 Kg N/ha. This calculation was based upon
a 1976 estimate of 33.3 Kg of kernels per bushel and 1977 estimates
of 1.40 g P/Kg and 9.65 g N/Kg of kernels.
340
-------�
Table 21. Summary of farm survey data by watershed basin for 1977.
Basin Total pesticides
applied (Kg)
Total synthetic
fertilizer applied (Kg)
Total livestock
population
101
106
109
121
atrazine - 17.5
atrazine - 6.9
atrazine - 14.7
alachlor - 34.3
alachlor - 13.6
N - 1,180
P - 286
N
P
N
P
N
P
205
81
1,960
350
7,350
1,570
cattle
horses
hogs
poultry
cattle
134
15
8
46
none
cattle -
horses -
hogs -
poultry -
88
30
15
41
341
-------�
BACTERIA DISCHARGE FORFIELD-SIZED WATERSHED
109
DATE
FC
FS
FC/FS
1977
CELLS/100ML
CELLS/100 ML
RATIO
121
1 .00E
00
1 . 10E
01
9.09E-02
1 28
3.40E
01
4.20E
02
8.10E-02
135
1 . OOE
03
4.60E
03
2.17E-01
142
7.00E
01
8.80E
01
7.95E-01
156
5.40E
01
1 .40E
02
3.86E-01
163
1 . 10E
01
2.70E
02
4.07E-02
171
8.OOE
01
8.30E
02
9.64E-02
31 1
1 .90 E
03
1 . 30E
03
1 .4faE 00
325
1 .60E
01
1 . 30E
02
1.23E-01
332
1 .OOE
01
8.60E
01
1.16E-01
339
1 .OOE
01
3.OOE
02
3.33E-02
346
1 .OOE
01
1 .OOE
01
1.OOE 00
353
4.20E
01
9.70E
02
4.33E-02
361
2.OOE
00
1 .OOE
01
2.00E-01
107
1 .OOE
00
2.OOE
00
5.00E-01
1 14
2.OOE
00
1 .OOE
01
2.00E-01
Co
-Pģ
ro
TVC CELLS /ML
INCUBATION
48 HR.
7 CAYS
3.30E02
6.70E0
4.00E03
1 .10E0
8.00E03
1.80E0
8.80E05
8.90E0
2.70E04
1 . 10EO
2.60E05
3.30E0
1.30E05
1.70E0
6.70E04
1 . 10EO
3.30E03
1 . OOEO
3.30E02
3.30E0
3.30E02
1.OOEO
3.30E02
3.30E0
6.70E03
3.30E0
3.30E02
6.70E0
6.70E02
2.OOEO
1.30E03
4.70E0
-------�
BACTERIA DISCHARGE FORFIELD-SIZED WATERSHED 110
DATE
FC
FS
FC/FS
1977
CELLS/100ML
CELLS/100 ML
RATIO
121
1 .00E
00
1 .50E
02
6.67E-03
1 28
4.00E
00
7 .40E
01
5.4 1E-02
135
7.70E
02
1 .30E
03
5.92E-01
142
4.00E
00
1 .50E
02
2.67E-02
156
1 .40E
02
2. 10E
02
6.67E-01
163
1 .80E
02
2.90E
02
6.21E-01
31 1
1 .90E
03
8.40E
02
2.2GE 00
339
1 .90E
02
3.50E
02
5.43E-01
353
3.60E
02
2.80E
02
1 .29E 00
361
8.00E
00
4.00E
00
2.00E 00
107
1 .00E
00
1 .10E
01
9.09E-02
114
1 .00E
00
3.20E
01
3.13E-02
oo
-p*
CO
TVC CELLS /ML
INCUBATION
48 HR. 7 DAYS
1.O0E03
1.00E04
3.30E04
2.30E06
3.30E03
1.00E04
3.60E06
5.70E04
2.60E05
1.70E04
t.30E03
1.30E03
2.30E0
1.70E0
7.30E0
2.30E0
2.00EO
5.00EO
3.80EO
7.00E0
2.80E0
2.70E0
2.30E0
3.00E0
oo
o>
<Ļ+
a>
-j
(/>
3"
(D
a.
at
cr
fB
ro
po
o
o
3
n>
Q.
-------�
BACTERIA DISCHARGE FORFIELD-SIZED WATERSHED
DATE
FC
FS
FC/FS
1977
CELLS/100ML
CELLS/100 ML
RAT IQ
121
1 . OOE
00
1 .OOE
00
1 .OOE 00
1 28
8.00E
01
1 . 1 OE
02
7.27E-01
135
3.40E
02
1 .60E
02
2.13E 00
1 36
4.80E
02
3.50E
02
1.37E 00
143
2.70E
02
2.30E
02
1.17E 00
157
1 .OOE
03
2.50E
03
4.00E-01
1 64
4.00E
01
7.20E
02
5.56E-02
171
5.OOE
01
6.60E
02
7.58E-02
1 78
4. 10E
02
2 .40E
02
1 .71E 00
186
7.80E
02
2.OOE
02
3.90E 00
192
0.
2.60E
02
0.
199
3.70E
03
4.OOE
03
9.25E-01
206
2.60E
02
5.30E
02
4.91E-Ol
213
7.40E
02
8.20E
02
9.02E-01
220
5.OOE
04
5.OOE
04
1.OOE 00
234
9.70E
02
1 .90E
03
5.11E-01
241
4.50E
03
1 .50E
03
3.OOE 00
262
1 .40E
03
4.70E
03
2.98E-01
269
1 .40 E
03
6.OOE
03
2.33E-01
284
5.30E
03
5.50E
03
9.64E-01
290
2.80E
02
1 .20E
03
2.33E-01
298
1 .40E
02
5.80E
02
2.41E-01
304
9.OOE
01
3.50E
02
2.57E-01
311
7.60E
02
4 .40E
02
1.73E 00
318
9.60E
01
8.60E
01
1.12E 00
325
8.30E
02
1 .50E
02
5.53E 00
332
3.20E
01
1 .60E
01
2.OOE 00
339
1 .20E
01
1 .80E
02
6.67E-02
346
4.OOE
00
1 .40E
02
2.86E-02
353
1 . 1 OE
02
2.50E
02
4.40E-01
361
1 . 20E
01
1 .20E
01
1.OOE 00
107
1 .OOE
00
1 .OOE
00
1 .OOE 00
1 14
6.OOE
00
2.OOE
00
3.OOE 00
TVC CELLS /ML
INCUBATION
48 HR.
7 CAYS
2.10E04
3.40E0
4.00E03
5.00E0
4.30E03
3.10E0
5.00E05
5.70E0
3.00E04
6.70E0
2.20E05
2.90E0
3.00E04
6.00EO
4.50E05
3.90E0
2.20E05
3. 10E0
2.70E04
3 . 00 EO
3.30E04
7.70E0
6.00E05
8.50E0
1.30E04
2.30E0
2.00E04
3.00 EO
4.30E05
7 .30 EO
1.O0E05
1 .20E0
3.70E05
5.40 EO
3.60E05
3 60 EO
4.00E04
8.00E0
7.70E04
1 . 10E0
2. 10E02
3.20E0
1.30E04
5.70E0
1.30E04
4.70E0
2.40E05
5.80E0
3.30E03
1 .30E0
3.30E03
6.70E0
2.70E04
2.70E0
3.30E03
1 . OOEO
3.30E02
3.30E0
6.70E04
1 .30E0
3.30E02
2.30E0
1.70E03
1 .70E0
3.30E02
1 .OOEO
-------�
Particulate discharge? date far field-size watersheds.
Aģ Watershed' 109 (cornfield)
Vlr> +
ate ripsri
co
-pģ
cn
Sample Flow Total
Type Rate Flow
(I/sec) <15
Tot<31 Discharge Mint:ra}. D i :;ch3-"ic
Suspended Susrefndsd
Solids- Solids
(md/I) - -KkS/weefO (m.d/1) t kd/weeM.)
77
3
.1530
77
3
1530
77
10
1A 3 0
77
10
1A30
77
17
1700
77
17
1700
77
24
Ļ1640
77
24
1640
77
31
1627-
77
45
-9
77
52
Ļ1220
77
58
1210
77
53
:L 21 0
77
66
1345
77
- A A
1.345
t /
73
1105
77
Ļ73
1105
77
80
1400
-i ~j
/ j
GO
1400
77
U7
1325
77
87
1325
77
94
1420
77
94
1420
77
J. 01
1335
77
1 01
1335
77
103
1435
77
103
1 4 3 5
77
1. J. 5
.! 3? 5
77
115
1325
77
Ļi Ļ:) Ļ:)
1.91E-02
1.07E 00
8,9911-01
7*47E-01
0.
0.
6.56E 05
A~08E 05
4.50E 05
1 .50E 05
7.73E 05
Ļ1+ 05E 06-
6-.4 6E OS
6.99E 05
1.57E 06'
1.03E- 06
1.25E' 06
5.43E 05-
2 . 96lr 05
5.54E 05'
4.87E OS
1.29E 05
0*
3 . 3
6 .0
4.1
22.4
18/4
154,4
171 *9
9.3
6ģh
10.0
30.2
16.5
14.3
5.2
18.7
24.6
16.2
10.3-
12.4
1 '~ 33E 02
9\ 76E 00
4.20E 00
6.99E 00
4 * 7 4 E 01
1.70E 01
1.79E 01
2.82E 00
5.S4E 00
1.36E 01
7.89E- 00
1.33E 00
O.
2.4
4.5
2.6
17.1
14. 1
132.9
13 9.9
7.5
4.4
7.1
21.2
12.5
9.3
2. B
11.2
16.1
.10 . 4
5.6
5.7
Ol
f+
J . 9 ill ft
5.06E
7.22E-
0.
02
00
00
00
0:L
01
o :L
00
00
00
00
Ļ01
-------�
Particulate discharge date? for f ield-sise watersheds.
A . Watershed 109 /.
05
6.74,1
i-, 83E_02
56.0-._9
1-...53E -02
77
Ļi 70
.u / *../
1445
77 186
1450
FLX
0.
77
'! O /.
w u)
1450
77 192
1315
FLX
\/ ģ
1715.0
0.
1432.3
y.
77
i 92
:l. 3 1 5
77 199
1600
FLX
1.18E
05
935.5
1.10E 02
784 ~ 1
9.25E 01
7 7
IVv
1600
77 204
1355
FI...X
0 ^
77
2v6
13 Li 5
77 213
1310
F L. X
0*
77
2 J. .3
1 3 L 0
7 7 '21- 0
. 1220
FLX
0ģ
y /
L a-.! J. 0
77 ,'l; /
15 :
TLX
0 >
/ /
V! /
V ' * f 'X A
/ * \
! -*'Ļ) j
FLX
0
/ /
,/ .,4
i. ,-45
'.> /> 1
/ f At .
L .'25
FLX
y .osiz
03
' " /
'> / t
A. ' V .1.
L325
77 249
1350
FLX
0.
77
24?
!:350
77 255
:!. <}Ļ.1. 5
FLX
0.
7 /'
\.f \ ĻĻ
5
77 262
1215
FLX
0.
/ /
0 A
1.2.1.5
77 26?
1340
c | v
1 I.-/V
0 ~
/ /
2. 6 9
34s
7 7 2 7 4
1200
FLX
0~
7 >'
776
! ' / Ļ
.b A . \t w
7 - V ' ! <Ļ> /Ļ>
t t *. .\u *
1230
FLX-
0.
Ļ >
{)Ļ"
1.730
r, ;>?o
1 K)0
FLX
0.
7 7
290
j. 'i j 0
Ļ 77 29ij
: l-i0
FLX
0.-
> V
/ /
'Ļ/
11^0
7-7 .304
1435
FLX
0.
' /
/Ļ 0 Ļ' !
: '>35
77 ."ill
1630
FLX
1,33E
05
53.4
7'. 10E 00
27.6
*5 * 6 / t-." \'K/'
77
.'J. X
1630
GRB
6.12c- 01
/' 7
3:!. .L
1630
77 3L8
1340
FLX
4.05E
05'
3.3
1.34E 00
2.1
S .50E-01
77
7. :i. i:;
1340
GRB
6 . 94E--03
'7 *7
.0:!. 3
1340
77 325
1350
FLX
-4-1 ,.Ļ) 2. E
05
5.1
2.20E 00
3.5
1,51E 00
V '7
325
Ļ::.350
GRB
5 ~ 6 :L Ŗ'-01
/ /
325
1350
77- 332
1520
FLX
8Ģ44E
05
7.0
5.91E 00
4.0
3.39E 00
77
Z 3 2
1520
GRB
6.12E-01
77
33
1520
77 339
1510
FLX
1.2'lE
06
5.0
6.20E 00
3.2
3.97E 00
.......
"k O
\J \J /
'L 5.!. 0
GRB
2.78E 00
OJ
r+
CD
-S
(/)
=T
n>
Q.
o
ro
CO
o
o
3
C
(D
CL
-------�
Wt e r s h e ci :L 0 9 (corn f i e 1 d)
CO
-Pģ
I
;psn
8 -3 m p !L e
Flow
Total
T o t ?} I D .i r> c h s r rJ g? M i n Ģ r a 1
T v>r'e
Rote
Flow
Su
r> v e n ded 8 u s r e n d & d
Solids Solids
w
3
1650
78
9
1550
FLX
1.74E
06
78
?
1550
GRB
5.55E!
00
5.8 3.5
78
o
/
1550
78
16
151-0
FLX-
3 . 07E
06
70
16
1510
GRB-
1.7 1.0
78
:!. c>
1510
78
23
:L 430
FLX
7ģ71E
06-
/'{"J
j"/
A, V.'
.1.430
GRB
5.55 E
00
2.4 1.0
70
1 'l 30
78
30
1510
FI..X
1 ~ 20E
07
236.8 2.84E 03 201.6
7;)
.Ļ5 0
j J M
i j R ŖĢĻ
3 . 8 3 E
00
"7 1 >
30
1510
78
38
1345
FLX
1.61 E
06
78
38
1345
GRB
2.19E
00
2.6 1.8
78
38
1345
70
4 4
1600
FLX
7.54E
05
7;:!
44
.1.6 0 0
GRB
8.99E-
Ļ01
2 .'2 1 . 6
V o
/ KJ
44
1600
79
i=- 9
1500
FLX
5.09E
05
-f
~
52
1500
GRB
8,99E--
01
3.2 1.6
o
13 ^
;] c: a ()
78
58
1400
FLX
2.95E
05
78
53
1400
r; p r.'.
w ( * *.
8.99E-
Ļ01
10.2 7.8
78
58
1400
79
65
1615
VT\ Y
i j... A
2.41E
04
o
/ O
65
.16 :i. 5
GRB
3.88E-
Ļ01
6 j
16 ,L 5
78
72
1530
FLX
2.46E-
06
78
72
.L 5 3 0
GRB
8.89E
00
79
72
1530
78
79
1640
FLX
3.57E
06'
78
79
16 4 0
GRB
2.78E
00
78
"7 O
t V
1640
78
86
1500
FLX
5.87E
06
'"j Ļ'%
/ i't
Q
v.J \.:
j. 500
GRB
1'. 09E
01
"V o
S \.J
36
1500
78
93
1425
FLX
2. 0SE
06
78
93
1425
GRB
3. mr
00
78
93
1425
72
100
1600
FLX
1.28E
06
78
1.00
1600
GRB
1.26E
00
78
100
1600
78
107
1530
FLX
S.70E
05
.78,
J. 07.
'jJ .
.. GRB. _
-2*jL2J:\_
0.0._
. - . ___
.. . ^ |, J
(kcf/week)
5.18E 02
6, AO!?: 00
2, 421: 03
o>
cr
a>
ro
CO
o
o
Cl>
C+ ZJ
rc> c
-J.
(/) O.
3- ģ'
rD
o.
o
ID
-------�
Particulate? di sen <3 data for fiel d~r>isc? watersheds.
B . W a t <? i1 is h -e d :l. 1 0 < fa r e? Ģ> t)
GJ
00
Dsts
sfmpi
S> & t"l p I c?
'f
!Ļ 1 ow
Rate
Total
Flaw
Total
Susr--er,dt:c1
Solids
(.'I. / Ļ
(insa/l j
76
362
903
77
3
925
FLX
1~ 73 E
03
77
1 0
936
G ft B
1.07E 00
-
29 .5
77
10
936
77
.1.7
945
FLX
0>
7 7
'! /
.t. J
Ļ945
->
/ /
24
910
F L. X
0,
'77
2 <1
910
77
31
f)40
FLX
0,
77
31
840
77
33
945
FLX
Ov
t f
108
950
GRB
17,1
7 7
ios
950
Ļ 7 7
115
340
FL.X
9 ~ 14 E
04
7 7
i 15
Ļ 840
GRB
2. 22E--01 Ļ
27,4
77
1 1 3
B40
77
12 2
910
FLX
1 . 4 6 E
05
........
j
y 10'
GRB
1 .59E--01
17.5
77
J. 2 2
Ļ 910
77
129
920
F LX
1.2 Ac.
05
7 7
J. 2 9
920
GRB
6.S6E-02
21.9
77
i ncy
.L. /
920
77
136
915
FLX
9*0 7 E
03.
7 7
.1.36
9'! 5
OR 33
0*
.... ,..,
/ t
136
913
7 7
14 3
933
FLX
0~
77
143
9 3 3
KRIS
0 *
77
14 3
933
77
.1 50
1120
FL..X
0.
7/
150
1120
GRB
0.
77
1 5 0
1.120
77
157
900
FLX
0*
?
157
900
GRB
0,
/ /
157
900
77
164
1000
FLX
A\ 01E
02
77
X 6 4
1000
GRB
0.
77
164
1000
77
171
905
FLX
2 04 E1
05
268,4
77
:i. 7.!.
70S
77
17 a
1035
Fl X
Sv26C
03
77
17;^
3.03:;
77
186
1010
FLX
0,
7/
0 6
1010
77
192
950
FLX
0,
lvM
95 0
77
19 9
1 045
FLX
0,
77
<99
ĻHOT*
77
206
1005
FLX
0ģ
" 1 "7
/ /
206
1005
77
213
930
FLX
0ģ
77
2 J. 3
930
77
220
940
FLX-
oģ
77
220
940
77
?;;{'
Ax
1220
FLX-
<> ~
77
2
1220
77
234
910
FLX
0'-.
77
234
910
77
241
1005
FLX
0*
77
24. L
1005
77
24 9
915
FLX
0,-
/ /'
2 '/
9.15
77
2 5 5
645
FLX
0 ,
77
255
645
77
262
315
FLX
0,
/ /
15
77
269
j' 1 35
FLX
0 i
fiischsr&z K'i
< kc5/i;ec?k)
r: x n e? r
8 o '1 i
" IT: <-< /
C.UŖQ
~t rf-
, t
20.6
6 - 9
13.8
11 .7
1 :L.:!.
D izchx r.ve
(V
o
3
s: c+
a> -j.
r+ 3
ro c
-s 0)
i/> O-
3" *
O-
4*2S!iu 0.i.
-------�
Port id.
.irate disch
sr<3e data
for field
-size watersheds*
B. Water
shed 1
10
< forest)
D <3t e
Ļ3 p 3 n
Sample
Flow
Total
Total
Discharge Mineral
Type
Rate
Flow
Suspended
Suspended
Sol .i.ds
Sol ids
(1/sec)
(1 )
(ma/1>
( k si / w e e k > { / J. )
77
269
1135
77
276
830
FLX
0 .
77
276
830
77
284
900
CI V
1 i*M / \
0,
77
*284
9 00
77
290
850
FLX
0.
77
290
850
77
298
850
FLX
0.
77
298
1850
77
304
725
FLX
0,
77
30/;
725
77
3 :L 1
1030
FLX
1*74Ŗ
05
.7.7
13 JJ. .
..1.020
-QRE.
-6-4.9 4 Ŗ-03
9.0
j; . 4
77
311
1000
77
318
1025
FLX
1 .18E
01
77
318
1025
77
325
750
FLX
5.39E
03
77
325
750
77
332
1000
FLX
2.10E
05
77
332
900
77
339
720
FLX
2 . 00E
05
77
339
1600
GRE:
4.92E-02
6.6
3.6
77
339
720
77
346
1050
FLX
1.50E
04
/ /
346
1050
77
353
1040
FLX
1 *74E
06
77
>?Ļ L: 3
10-;0
GRB
3.33E 00
'*) ^ \>
5,8
/ /
353
10 Ģ v
77
361
820
FLX
3,90E
05
77
Ļ361
820
GRB
1.91E-02
3.8
:i.ģ6
77
361
820
78
3
750
. FLX
5.29E
04
78
3
750
GRB
3.92E-02
3Ģ6
2.6
78
3
750
78
9
950
FLX
3.4-2S
05
78
9
950
GRB
4.23E 00
7"
9
950
78
:!.Ŗ
820
FLX
1.13E
06
70
16
820
GRB
2.78E 00
4*5-
3 >0
78
16
820
78
23
800
FLX
2.35E
06
7 0
23
800
GRB
~
CO
m
0
0
27.9
2.0
73
23
800
78
30
910
FLX
2 . 52E
06
101.4
2.56E 02 81.6
">Q
/ I.*
30
91.0
GRB
6.12E-01
78
30
910
78
38
930
FLX
4 . 73E
05
70
-*<:>
vJ W
930
GRB
7. 47E-01
1.9
0.4
78
^ b
930
78
44
1010
FLX
5ģ46E
05
7S
A A
1010
GRB
8 . 99-c-Ol
6.1
1.3
73
A A
1010
78
52
925
FLX
4,09E
05
78
52
925'
GRB
A.12E-01
3.1
2.2
70
52
925
78
58
920
FLX
3. 87E
05
79
53
920
GRB
7.47E-01
1.7
0.6
/
S3
920
78
65
1035
FLX
1 .82E
05
78
65
1035
GRB
2.98E-01
DischsrsSe
CO
DJ
c+
ro
-s
c/>
3"
fD
Q.
.S.OAE 02
-------�
Particulate; discharge' data for field-si^e watersheds.
C. W a t e v h o d 1 :L i ( p 3 s trc?>
Dote1
Sample Flow Total Total Discharge? Mineral Iiis charde
Type? Rate Flow S u s r< ::> n d to d Suspended
Solids Solids
(l/so~c) (1) (it:Ŗr/l) "(ks/week) <;ri?.?/l) (k
cr
77
213
1315
FLX
2 . 4 8 E
03
77
2 i 1
1313
GRB
L ~ 23E--03
52 ~ 9
3 6 ģ9
77
213
13 lb
/ /
220
1300
FLX
3.27E
03
77
lOA
a' V/
1300
GRS
6.94E-03
4235~4
2636 .2
77
n p /)
1300
"7 "7
* /
227
1430
FLX
2 ~ 57E
03
77
007
A.. /
1430
GRB
:L .23E-03
156 *6
117.3
77
? 1:> 7
1430
77
234
1220
FLX
7 .67E
02
77
234
1220
GRB
:L . 23E--03
201 ~ 1
153.2
77
n v
1220
77
241
1220
FLX
4.31E
03
7 7
241
1220
GRB
1.23E-03
803 ~ 4
651 .5
77.
1"-41
1220
77-
24 9
1300
FLX
0 ~ 50E
02
.... /
2 b b
1300
GRB
1Ģ23E--03
909.2
7 6.1. > 4
/
::4y
1300
77
\l 5
.1.200
Fl. X
1 .02E'
03
/ /
24V
1300
1:5 R B
:L . 23E-03
/ /
255
1200
77
262
935
FLX
2 ~ 8 5 E
02
77
262
93b
'GRB
1 .23E--03
243.2
1B2.4
7 7
262
935
77
269
B10
FLX
3 ~ 7 3 E
02
' 7
269
010
GRB
1.23E-03-
239 ~ 3
134.8
77
269
810
77
276
1140
FLX
1 . 47E
00
77
2 76
I ! A rs
4. *U / \/
GRB
0.
77
276
::. i'io
77
284
1200-
FLX
4*15E-
03-
2i;4
1200
GRB
1 * 23E-03
245.0
192.2
77
204
1200
77
290
1315
FLX
6 . 37E
03
7 7
2 7 0
131
ORI;
1.23E-03
57.5
42.9
7/
290
1 ~i 1 :-i
.1ģf> J
77
Ļ> Ļ::>
/ i.i
1 n'l a
4* * wA/
FLX
8. 44E
02
77
293
1230
GRB
1.23E-03
54 .1
36.1
77
293
1230
77
30 4
1435
FLX
2. 4SE
04>
77
304
1435
GRB
3.92E-02
46 ~ 2
30.3
Ļ v * 7
.()Ļ!
143 b
77
m: i !
%./ .L
1455
FLX
6*94E
OA
77
311
14 5 5
GRB
4~ 92E--01
7,7
6.1
7 7
/ /
3 i 1
1-4 5 3
77
318
1500
FLX
1 . 49E-
05
/ /
318
1500
GRB
2.22E-01
15.9
15.7
77
318
325
1500
1400
7.7.
325
1400
FLX
GRB
:L . 59E--01
:L0E
05
4 .6
3.7
O
O
c+
_J,
=3
DJ -ģ-
CD
-5
-------�
Particulate! discharde data for field-siiie watersheds.
C. Watershed ill (pasture)
Date
TPar
Sample
Flow
Total
Total
Discharge
Miners
Type
Rate
(l/sec)
Flow
< 1 >
Suspended
Solids
(mk/1)
"(kŖ/week)
Suspend
Sol id
( :ti a /1
77
325
1400
77
332
1440
FLX
2-.54E-
05
77
332
1440
GRB
6 ~ 12E-01
3 ~ 6
2.5
77
332
1440
7-7-
339
1440
FLX
4-.05E-
05
77
33?
1440
GRB
6 ~ 12E-01
6.1
4.1
77
339
1440
77
346
1150
FLX
2-. 98E
05-
77
346
1150
GRB
3 ~ 88E-01
3.4
3.1
77
346
II50
77
353
14.1.0
FLX
1 .HE-
06
77
3 S3
1410
GRB
1.69F. 00-
7.6
6ģ1
77
353
1410
77
361
1230
FLX
7 * 64E
05
77
361
1330
GRB
7. 47E-01
7.8
4.8
77
361
1230
78
3
1145
FLX
4 ~ 74E
05
78
3
1145
GRB
7~47E-01
4.7
4.1
78
3
.1.145
78
9
1325
FLX
4 ģ57E
05
78
9'
1325
GRB
1.26E 00
21.7
13.7
73
9
1325
78
16
1235
FLX
1'. 50E
06
78
16
1235
GRB
8 ~ 9 9 E - 01
32.4
29.0
78
16
1235
78
23
1200
FLX
:!: . 4 4 E
06
78
23
1200
GRB
8.99E-01
5.0
4.5
78
23
1200
78
30
1100
FLX
A*04E
06
137.0
5.53E 02
116.7
78
30
1100
GRB
7~47E-01
78
30
1100
78
38
1555
FLX'
4.77E
05
78
38
15 5 b
GRB
6~12E-01
1.3
.i. . 0
78
38
1555
73
44
1030
FLX-
2 ~ 45E-
05
78
44
1030
GRB
2ģyse-oi
21.7
19.4
f..
/ S.J
44
1030
78
52
1055
FLX
2.07E
05
"7 O
/ U
52
1055
GRB
2.98E-01
2.7
2.0
7Ŗ-
1055
78
58
1040
FLX
2 ~ 04E
05
79
58
1040
GRB
3.88ET-01-
nm r>
A. ~
1.8
78
58
.L 040
73
/. er
U u)
1130
FLX
1,74E
06
78
65
1130
GRB
2.22E-01
78
w
1130
78
72
1235
FLX.
1 ~ 41E
06
v c>
^ JL.'
_J2..
.1235.
GRB .
3ģ-Ŗ3E- .00.
78
72
1235
78
79
1015
FLX
1.16E
06
78
7f>
/ /
.1015
GRB
1.07E 00
78
"V C"Ģ
/ /
1015
78
86
945
FLX
8.48E
05
78
86
745
GRB
3.11E 00
<. kg/week )
s
C/)
3"
n>
CL
4.71E 02
-------�
NUTRIENT DISCHARGE DATA FOR FIELD WATERSHED
INTEGRATED SAMPLES
NITRATE
+
NITRITE
1977
FLOW
CONCENTRATION
DISCHARGE
DAY
T IME
DAY
TIME
(L/INT)
(UG N/L)
(up)
157
1300
164
1 250
9-58E04
3.46E02
3.315E
07
164
1250
171
1450
2.05E06
1 .49E03
3.C55E
09
171
1450
1 78
1445
2.72E05
2.27E03
6.174E
08
192
1315
199
1600
1.18E05
3.00E02
3.540E
07
304
1435
31 1
1630
1.33E05
5.88E02
7.820E
07
31 1
1630
318
1 340
4.05E05
6.36E02
2.576E
08
318
1340
325
1350
4.32E05
1 .68E02
7.258E
07
325
1350
332
1520
8.44E05
5.68E02
4.794E
08
332
1520
339
1510
1.24E06
6.34E02
7.862E
08
346
1 635
353
1 700
3.89E06
1 .21E03
4.707E
09
353
1 700
361
1510
2.75E06
1.69E03
4.648E
09
23
1430
30
1510
1.20E07
1.07E03
1.284E
1 0
72
1530
79
1640
3.57E06
1.57E03
5.605E
09
79
1640
86
1500
5.87E06
9.71E02
5.700E
09
121
1430
128
1335
1.46E06
1.43E03
2.088E
09
128
1335
135
840
3.27E06
9.36E02
3.061E
09
135
840
142
1335
4.09E06
1.45E03
5.931E
09
150
1400
156
1255
6.68E02
156
1255
163
1400
2.46E02
109
KJEDAHL NITROGEN TOTAL NITROGEN
CONCENTRATION DISCHARGE CONCENTRATION DISCHARGE
N/L)
(ug)
(UG N/L)
(yg)
1.59E03
1 .523E
08
1 .936E
03
1.855E
08
1.46E04
2.993E
1 0
1.609E
04
3.298E
10
5.00E03
1.360E
09
7.270E
03
1.977E
09
4.17E03
4.921E
08
4.470E
03
5.275E
08
1.38E03
1 .835E
08
1.968E
03
2.617E
08
5.65E02
2.288E
08
1.201E
03
4.864E
08
2.37E02
1.024E
08
4.050E
02
1.750E
08
3.26E02
2.751E
08
8.940E
02
7.545E
08
8.30E01
1.029E
08
7.170E
02
8.891E
08
1.15E03
4.474E
09
2.360E
03
9.180E
C9
2.22E02
6.105E
08
1.912E
03
5.258E
09
1.16E03
1.392E
10
2.230E
03
2.676E
10
5.71E03
2.038E
10
7.280E
03
2.599E
10
5.60E03
3.287E
10
6.571E
03
3.857E
10
3.28E02
A.789E
08
1.758E
03
2.567E
09
2.21E03
7.227E
09
3.146E
03
1.029E
10
1.84E03
7.526E
09
3.290E
03
1346E
10
6.68E02
1.336E
03
1.10E03
1.346E
03
cr
(D
ro
Q>
r+
a>
Ģ Q- Z
Q> Q) C
c+ rt- c+
(D -5
-5 -i.
to -h
3" O 3
rD -s
CD
Q.
<
-5
Q-
3
O
(/>
to
-h Q-
cn c+
mmJ
3"
o a>
c
0>
fD CO
"O 3
3"CQ
3
Q-
' o
OJ
Oi -J
fD
Q. 3"
-5 c+
-5 Q>
I
i
1 DJ
Q> "S
ko ct-
O
CO
3 O
ri) a>
ID
ro co
CL
N fD
c-h rt>
CL
fD
CD 3
Q>
O.
-s
c+
CO
QJ
-------�
NUTRIENT DISCHARGE DATA FOR FIELD WATERSHEDS
109
INTEGRATED SAMPLES
TOTAL PHOSPHORUS
1977
FLOW
CONCENTRATION
TOTAL DISCHARGE
ORGANIC MATTER
CONCENTRATION TOTA
DAY
TIME
DAY
TIME
(L/INT)
(UG P/L)
(yg)
(G CAL/L)
(kg cal
x 10
3)
157
1 300
164
1250
9.58E04
6.14E02
5.882E
01
9.60E01
9.197E 00
164
1 250
171
1450
2.05E06
5.80E03
1.189E
04
7.91E02
1.622E 03
171
1 450
1 78
1445
2.72E05
2.94E03
7.997E
02
1.70E02
4.624 E 01
192
1315
199
1600
1.18E05
2.04E03
2.407E
02
1.78E02
2.100E 01
304
1435
31 1
1630
1.33E05
4.00E02
5.320E
01
1.20E02
1 .596E 01
311
1630
318
1340
4.05E05
8.10E01
3.280E
01
3.60E01
1 .458E 01
318
1340
325
1350
4.32E05
6.80E01
2.938E
01
3.00E01
1 .296E 01
HH
325
1 350
332
1520
8.44E05
4.80E01
4.051E
01
4.70E01
3.967E 01
332
1520
339
1510
1.24E06
3.80E01
4.712E
01
2.60E01
3.224E 01
346
1635
353
1 700
3.89E06
8.75E02
3.404E
03
1.14E02
4.435E 02
a-
<
o
353
1700
361
1510
2.75E06
3.80E01
1.045E
02
3.30E01
9.075E 01
23
1430
30
1510
1.20E07
5.68E02
6.816E
03
9.90E01
1 .188E 03
C
g
72
1530
79
1640
3.57E06
1.52E03
5.426E
03
5.16E02
1.842E 03
3*
CD
79
1 640
86
1500
5.87E06
5.46E03
3.205E
04
4.46EXJ2
2 .61 BE 03
O
128
1335
135
840
3.27E06
4.40E02
1.439E
03
1.11E02
3.630E 02
-i
135
840
142
1 335
4.09E06
9.50E02
3.886E
03
5.00E01
2.045E 02
c
(/>
-5
a>
r+
150
1400
156
1255
2.03E02
0.
5.00E01
0.
156
1255
163
1400
7.04E03
0.
2.65E02
0.
aģ
3
(X>
Q.
O
-5
CO
Q)
3
j*
O
3
Q>
c+
ft
CD
-5
LO
O
zr
oģ
-j
tQ
n>
Q.
CU
r+
o*
-------�
1977
DAY TIME
122
1030
332
1520
346
1635
361
1510
3
1650
9
1550
16
1510
23
1430
38
1345
44
1600
52
T 500
58
1400
65
1615
72
1530
79
1640
93
1425
100
1600
107
1530
1 14
1520
121
1430
135
840
150
1400
163
1400
170
1355
NUTRIENT DISCHARGE DATA FOR FIELD WATERSHEDS
FLOW
(L/SEC)
8.99E-1
6. 12E-1
1.26EOO
1.93E00
1.69E00
5.55E00
5.55E00
2.19E00
8.99E-1
8.99E-1
8.99E-1
3.88E-1
8.89E00
2.78E00
3.11EOO
1.26E00
2.19E00
1.69E00
8.99E-1
1 . 40E01
7.47E-1
GRAB SAMPLES
NITRITE
(UG N/L)
2.10E01
NITRATE
+
NITRITE
(UG N/L)
5.94E02
3.38E02
4.72E02
1.96E03
1.51E03
1.15E03
1.82E03
2.64E03
2.00E03
1.75E03
1.78E03
1.86E03
1.13E03
1.39E03
2.07E03
1.86E03
1.54E03
1.39E03
1.02E03
9.60E02
1.31E03
2.93E02
7.60E02
DISSOLVED
AMMONIA
(UG N/L)
1.72E02
1.90E01
1.40E01
6.00E01
3.60E01
4.10E01
5.90E01
5.60E01
9.40E01
6.40E01
7.70E01
1.23E02
1.70E01
1.56E02
8.60E01
5.00E01
4.1OEOI
1.70E01
1.80E01
1.40E01
1.18E02
1.14E02
1.01E02
109
TOTAL
KJELDAHL
NITROGEN
(UG N/L)
TOTAL
NITROGEN
(UG N/L)
ORGANIC
MATTER
(G CAL/L)
8.51E02
1.445E
03
4.60E01
2.01E02
5.390E
02
2.90E01
1 . 12E02
5.840E
02
5Ļ00 EOO
1.69E02
2.129E
03
2.50E01
4.44E02
1.954E
03
1.60E01
7.23E02
1.873E
03
2.90E01
1 . 1 4E02
1.934E
03
1 .80E01
1.60E02
2.800E
03
5.30E01
4.92E02
2.492E
03
1 .20E01
2.67E02
2.017E
03
6.00E00
2.29E02
2.009E
03
1 .60E01
5.51E02
2.41 IE
03
4 .00E01
1.80E02
1.310E
03
1 .10E01
5.93E02
1.983E
03
A.10E01
2 .67E02
2.337E
03
1 .40E01
2.63E02
2.123E
03
2.20E01
1.96E02
1.736E
03
1 .70E01
2.82E02
1.672E
03
2.20E01
1.84E02
1.204E
03
3.30E02
1.290E
03
2.10E01
0.
7 .30E01
3.30E02
1.640E
03
3.40E01
4.30E02
7.230E
02
1 .60E01
4.25E02
1.185E
03
2.30E01
BJ
c+
1
O
rt)
Ļo
BJ
-J
Oi
3
c+
n>
-5
l/i
BJ
3
CL
IQ
QJ
O
O)
r+
ns
-5
-------�
1977
DAY TIME
122
1030
332
1520
346
1635
361
1510
3
1650
9
1550
16
1510
23
1430
38
1345
44
1600
52
1500
58
1400
65
1615
72
1530
79
1640
93
1425
100
1600
107
1530
121
1430
135
840
150
1400
163
1400
170
1355
NUTRIENT DISCHARGE DATA FOR WATERSHED 109
FLOW
(L/SEC)
8.99E-1
6.12E-1
1.26E00
1-93E00
1.69E00
5.55E00
GRAB SAMPLES
DISSOLVED
ORTHOPHOSPHATE
(UG P/L)
2.50E01
7.00E00
-009E00
O.OOEOO
1.00E01
DISSOLVED
TOTAL
PHOSPHORUS
(UG P/L)
4.70E01
5.00E00
3.20E01
1 .20E01
2.50E01
5.5SE00
2.19E00
8.99E-1
8.99E-1
8.99E-1
3.88E-1
8.89E00
2.78E00
3.11E00
1.26E00
2.19E00
8.99E-1
1.40E01
7.47E-1
4.OOEOO
3.00E00
O.OOEOO
6.OOEOO
5.00E01
5.OOEOO
7.OOEOO
1.40E01
1.OOEOO
1.20E01
1.30E01
1.00E01
1.90E01
5.OOEOO
2.60E01
3.70E01
4.20E01
3.50E01
3.50E01
3.30E01
2.60E01
2.50E01
ORTHOPHOSPHATE
(UG P/L)
1 .33E02
1.00E01
4.OOEOO
5.OOEOO
3.20E01
2.10E01
1 .00E01
2.OOEOO
1.0OEO1
2.70E01
3.30E01
3.10E01
3.40E01
1.06E02
6.60E01
6.30E01
TOTAL
PHOSPHORUS
(UG P/L)
2.03E02
1.09E02
2.40E01
2.70E01
1.90E01
5.60E01
3.20E01
1.90E01
2.60E01
1.20E01
1 .10E01
8.70E01
2.80E01
1.75E02
1 .15E02
4.00E01
5.30E01
6.40E01
5.10E01
2.33E02
8.70E01
1.01E02
1.32E02
-------�
NUTRIENT DISCHARGE DATA FOR FIELD WATERSHED
INTEGRATED SAMPLES
NITRATE
+
NITRITE
1977
FLOW
CONCENTRATION
DISCHARGE
D4Y
TIME
DAY
TIME
(L/INT)
(UG N/L)
(pg)
164
1000
171
905
2.04E05
2.82E02
5.753E 07
23
800
30
910
2.52E06
9.20E01
2.318E 08
72
925
79
725
1.65E06
4.48E02
7.392E 08
79
725
86
800
3.57E06
1.71E02
6.105E 08
86
800
93
900
1.44E06
1.51E02
2.174E 08
121
700
128
655
6.84E05
1 .66E02
1.135E 08
1 28
655
135
700
1.86E06
2.22E02
4.129E 08
135
700
142
645
2.41E06
2.40E01
5.784E 07
110
KJEDAHL NITROGEN TOTAL NITROGEN
CONCENTRATION DISCHARGE CONCENTRATION DISCHARGE
N/L)
(yg)
(UG N/L)
(uj)
1.81E03
3.692E 08
2.092E 03
4.268E 08
5.33E02
1.343E 09
6.250E 02
1.575E 09
5.00E02
8.250E 08
9.480E 02
1.564E 09
1.01E03
3.606E 09
1.181E 03
4.216E 09
3.73E02
5.371E 08
5.240E 02
7.546E 08
5.88E02
4.022E 08
7.540E 02
5.157E 08
1.43E03
2.660E 09
1.652E 03
3.073E 09
9.00E02
2.169E 09
9.240E 02
2.227E 09
cr
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ro
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o
o
3
C
CO
Q.
f+
n>
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Oi
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n>
Q- <
"5
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CO
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3"
o c
ro
3
3" 3
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oi n>
c+
"S 1
Ļ
-5
-ģ
O
CO 3
o
UD
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a. ro
3
Qj lO
rt- -S
"O
O) o>
01
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-------�
NUTRIENT DISCHARGE DATA FOR FIELD WATERSHEDS
110 INTEGRATED SAMPLES
TOTAL phosphorus
1977
FLOW
CONCENTRATION
TOTAL DISCHARGE
DAY
TIME
DAY
TIME
(L/INT )
(UG P/L).
(yq)
164
1000
171
905
2.04E05
7.30E02
1.489E
02
23
800
30
910
2.52E06
2.15E02
5.418E
02
72
925
79
725
1.65E06
1.56E02
2.574E
02
79
725
86
800
3.57E06
3.61E02
1..289E
03
86
800
93
900
1.44E06
8.70E01
1.253E
02
107
705
1 14
750
4.08E05
3.80E01
1.550E
01
121
700
128
655
6.84E05
1.46E02
9.986E
01
128
655
135
700
1.86E06
2.79E02
5.189E
02
135
700
142
645
2.41E06
2.26E02
5.447E
02
CO
C71
ORGANIC MATTER
CONCENTRATION TOTAL DISCHARGE
(G CAL/L) (KG CAL x JQ3)
o>
cr
2.60E02
5.304E
01
CD
1 .01E02
2.545E
02
ro
8.40E01
1.386E
02
1.43E02
5.105E
02
6.70E01
9.648E
01
CO
4.50E01
1.836E
01
o
Q
1.21E02
8.276E
01
3
1 .77E02
3.292E
02
HH
a>
rt-
mU,
5.70E01
1 .374E
02
c+
3
O
cA
Ļa
3"
O
-s
a>
3
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fD
<0
-s
aģ
rD
-5
CO
rr
a>
CL
c
ro
CL
CD
3
OL
a.
o
-5
CO
0>
3
3
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-------�
nutrient discharge data for field WATERSHEDS
GRAB SAMPLES
NITRATE
+
DISSOLVED
1977
FLOW
NITRITE
NITRITE
AMMONIA
DAY
TIME
(L/SEC)
(UG N/L)
(UG N/L)
(UG N/L
122
910
1.59E-1
6.00EOO
3.20E01
7.40E01
31 1
1030
6.94E-3
5.O0E00
3.40E01
2.90E01
339
1600
4.92E-2
6.80E01
4.00E01
353
1040
3.83E00
4.20E01
5.80E01
361
820
1.91E-2
5.00E01
2.20E01
3
7 50
3.92E-2
3.30E01
3.30E01
9
950
4.23E00
7.40E01
2.70E01
16
820
2.78E00
9.20E01
5.30E01
23
800
2.78E00
1.O0E02
2.60E01
38
930
7.47E-1
6.00E01
2.50E01
44
1010
8.99E-1
6.60E01
1.40E01
52
925
6.12E-1
5.20E01
2.10E01
58
920
7.47E-1
2.80E01
2.60E01
65
1035
2.98E-1
1.00E01
1.20E01
72
925
1.93E00
2.13E02
4.40E01
79
725
1.O7E0O
8.30E01
1.O0E01
93
900
126E00
1.78E02
2.30E01
100
905
4.92E-1
2.60E01
2.90E01
107
705
3.88E-1
1.00E01
2.00E01
1 14
750
6.12E-1
1.80E01
4.10E01
121
700
3.88E-1
1.30E01
1.30E01
135
700
2.51E01
3.00E01
4.90E01
150
610
2.98E-1
1.20E01
4.20E01
156
800
8.OOE0O
7.40E01
163
755
2.00E01
8.30E01
170
805
1.50E01
1.19E02
10
TOTAL
KJELDAHL
NITROGEN
(UG N/L)
TOTAL
NITROGEN
(UG N/L)
ORGANIC
MATTER
(G CAL/L)
6.75E02
7.070E
02
8.20E01
7.60E02
7.940E
02
1 .52E02
2.90E02
3.580E
02
6.60E01
2.67E02
3.090E
02
7.00E01
1 . 10E02
1.600E
02
3.30E01
1 .77E02
2.1OOE
02
3.50E01
2.60E02
3.340E
02
6.80E01
2.29E02
3.210E
02
3.30E01
1.60E02
2.600E
02
7.30E01
3.42E02
4.020E
02
1.90E01
6.70E01
1.330E
02
3.80E01
1 . 71E02
2.230E
02
2.60E01
5.80E01
8.600E
01
2.80E01
9.80E01
1.080E
02
1.90E01
1.48E02
3.610E
02
2.50E01
2.86E02
3.690E
02
2.80E01
2.48E02
4.260E
02
3.20E01
1.81E02
2.070E
02
2.70E01
1.40E02
1.500E
02
3.60E01
1.96E02
2.140E
02
2.80E02
2.930E
02
4.10E01
9.50E02
9.800E
02
1.31E02
3.27E02
3.390E
02
6.90E01
4.55E02
4.630E
02
7.00E01
5.14E02
5.340E
02
6.20E01
5.55E02
5.700E
02
5.10E01
D>
c+
~S
o
ua
n>
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a>
a>
3
a>
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a>
3
Q.
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-5
IQ
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Z3
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3
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rf
r+
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-------�
NUTRIENT DISCHARGE DATA FOR WATERSHED 110
GRAB SAMPLES
1977
DAY TIME
FLOW
(L/SEC)
DISSOLVED
ORTHOPHOSPHATE
(UG P/L)
DISSOLVED
TOTAL
PHOSPHORUS
(UG P/L)
122
910
1.59E-1
2.70E01
S.60E01
311
1030
6.94E-3
339
1600
4.92E-2
353
1040
3.83E00
361
820
1.91E-2
O.OOEOO
1 .90 E 01
3
750
3.92E-2
9
950
4.23E00
1.80E01
3.70E01
16
820
2.78E00
23
800
2.78E00
4.00E00
1.OOEO1
38
930
7.47E-1
6.00E00
2.60E01
52
925
6.12E-1
O.OOEOO
5.00EOO
58
920
7.47E-1
65
1035
2.98E-1
O.OOEOO
9.00E00
72
925
1.93E00
79
725
1.07E00
2.00E00
7.00E00
93
900
1.26E00
9-OOEOO
5.80E01
100
905
4.92E-1
107
705
3.88E-1
5.00E00
2.50E01
121
700
3.88E-1
6.00E00
1.60E01
135
700
2.51E01
1.80E01
7.60E01
150
610
2.98E-1
1.50E01
3.90E01
156
800
163
755
-009E00
-009E00
170
805
O)
cr
CD
r-o
-pa
TOTAL
ORTHOPHOSPHATE PHOSPHORUS
UG P/L)
(UG P/L)
CO
<->
o
6.70E01
1.11E02
.
3
1.58E02
M
M
ST
c+
5.30E01
ft
rt>
-s
3
t
6.70E01
O.OOEOO
2.70E01
cr
CO
CL
2.80E01
3
o>
fD
4.10E01
7.10E01
O"
a.
5.90E01
3"
CO
i
1 .30E01
1 .90E01
O
TD
Oi
o
1 .20E01
3.90E01
s
T3
O.OOEOO
1 .10E01
2.30E01
rr
o
ru
4.00E00
1.30E01
c
w
a.
a>
c+
1.10E01
1 .OOEOI
2.15E02
Oi
7.00E0O
8.00E00
2. 10E01
1 .40E01
3.90E01
1.50E01
3.80E01
2.OOEOI
1 .44E02
3.30E01
7.10E01
8.60E01
8.30E01
1 .07E02
1.36E02
-------�
NUTRIENT DISCHARGE DATA FOR FIELD WATERSHED
INTEGRATED SAMPLES
NITRATE
NITRITE
1977
FLOW
CONCENTRATION
DISCHARGE
DAY
TIME
DAY
TIME
(L/INT)
(UG N/L)
(vgl
276
1 140
2B4
1200
4.15E03
3.10E01
1.287E 05
23
1 200
30
1 100
4.04E06
3.38E02
1.366E 09
65
1 130
72
1235
1.41E06
5.60E02
7.896E 08
121
955
128
1045
3.51E05
1.74E02
6.107E 07
1
KJEDAHL NITROGEN TOTAL NITROGEN
CONCENTRATION DISCHARGE CONCENTRATION DISCHARGE
Ŗug] (ygJ
2.28E03 9.462E 06 2.311E 03 9.591E 06
9.78E02 3.951E 09 1.316E 03 5.317E 09
3.85E03 5.429E 09 4.410E 03 6.218E 09
4.68E02 1.643E 08 6.420E 02 2;2S3E 08
-------�
NUTRIENT DISCHARGE DATA FOR FIELD WATERSHEDS
1 1 1
INTEGRATED SAMPLES
TOTAL PHOSBHORUS
1977
DAY TIME
DAY TIME
FLOW
(L/INT)
CONCENTRATION
(UG P/L)
TOTAL DISCHARGE
(yg)
276
1 140
284
1200
4.15E03
1.74E02
7.221E-01
23
1200
30
1 100
4.04E06
3.55E02
1.434E 03
65
1 130
72
1235
1.41E06
1.01E03
1.424E 03
107
1 130
114
1045
3.18E05
2.30E01
7.314E 00
ORGANIC MATTER
CONCENTRATION TOTAL DISCHARGE
(G CAL/L) (KG CAL x iq3)
2.61E02 1.083E 00
5.40E01 2.182E 02
3.16E02 4.456E 02
2.70E01 8.586E 00
T3 3
rr o>
o I
i/> ģ
T3 =3
3" c+
O (D
C -s
(/ģ a*
f+
Of
3 O.
O -ģ
-S l/>
CO o
Q> 3-
3 0>
-j. -5
r> .q
to
3
O) Q.
CD
CD
-s
-------�
NUTRIENT DISCHARGE DATA FOR FIELD WATERSHEDS
GRAB SAMPLES
NITRATE
+
DISSOLVED
1977
FLOW
NITRITE
NITRITE
AMMONIA
DAY
TIME
(L/SEC)
(UG N/L)
(UG N/L)
(UG N/L
136
1700
2.00E00
7.40E01
1 .84E02
171
1400
3.00E00
1.87E02
178
1345
8.00E00
3.20E01
2.04E02
192
815
7.00E00
3.50E01
3.22E02
206
820
5.O0EOO
1.10E01
5.59E02
213
1315
1 .23E-3
6.O0EOO
3.20E01
3.56E02
220
1300
6.94E-3
6.00E00
3.00E01
3.35E03
227
1430
1.23E-3
2.20E01
5.40E01
9.25E02
234
1220
1.23E-3
5.O0EOO
1.70E01
9.65E02
241
1220
1.23E-3
1.20E01
4.60E01
9.10E02
255
1300
1.23E-3
1.70E01
4.80E01
1.25E03
262
935
1.23E-3
9.00EO0
2.90E01
9.50E02
269
810
1.23E-3
3.90E01
9.30E01
1.08E03
290
1315
1 .23E-3
1.60E01
1.12E02
1.18E02
298
1230
1 .23E-3
5.00E00
2.50E01
4.40E01
304
1435
3.92E-2
Ļ9.60E01
1.70E02
1.60E02
31 1
1455
4.92E-1
1.70E01
5.50E02
4.20E01
318
1500
2.22E-1
3.00E00
2.84E02
2.00Ŗ01
325
1400
1 .59E-1
0.00E00
2.47E02
5.70E01
332
1440
6.12E-1
4.15E02
1.6OE01
339
1440
6.12E-1
8.40E02
3.20E01
346
1150
3.88E-1
7.64E02
2.00E01
353
1410
1.69E00
1.73E03
6. 1.0 E 01
361
1330
7.47E-1
1.86E03
2.20E01
3
11 45
7.47E-1
6.81E02
3.60E01
9
1325
1.26E00
1.12E03
1.70E01
16
1235
8.99E-1
1.44E03
5.60E01
23
1200
8.99E-1
1.25E03
4.10E01
38
1555
6.12E-1
1.39E03
.2 . 60EC1
44
1030
2.98E-1
1.52E03
4.10E01
52
1055
2.98E-1
1.16E03
3.60E01
58
1040
3.88E-1
9.92E02
3.60E01
65
11 30
2.22E-1
5.95E02
1.60E01
79
1015
1.07 E00
1.27E03
5.20E01
86
945
3.11E00
1.10E03
7.50E01
93
1015
1.07E00
1.32E03
1.30E01
100
1010
6.12E-1
9.66E02
2.40E01
107
1130
4.92E-1
1.15E03
1.60E01
114
1045
4.92E-1
8.64E02
1.20E01
121
955
3.88E-1
6.68E02
1.00E01
128
1045
6.12E-1
1.09E03
7.00EOO
135
1220
1.93E00
6.04E02
3.00E01
TOTAL
KJELDAHL
NITROGEN
(UG N/L)
TOTAL
NITROGEN
(UG N/L)
ORGANIC
MATTER
(G CAL/L)
5.75E02
6.490E
02
8.50E01
4.70E02
6.570E
02
4.44E01
1.05E03
1.082E
03
1.04E02
1.03E03
1.065E
03
8.40E01
1.34E03
1.351E
03
1.05E02
1.35E03
1.382E
03
1 . 10E02
8.94E03
8.970E
03
1.98E03
2.22E03
2.274E
03
3.09E03
3.107E
03
1 .12E02
6.40E03
6.446E
03
4. 12E02
3.56E03
3.608E
03
1 .36E02
3.60E03
3.629E
03
4.72E03
4.813E
03
9.71E02
1.083E
03
1 .34E02
9.59E02
9.840E
02
1.11E02
7. 10E02
8.800E
02
1 .37E02
2.75E02
8.250E
02
1 .44E02
1 .82E03
2.104E
03
1 . 10E02
2.67E02
5.140E
02
2.40E01
2.01E02
6.160E
02
1.80E01
2.34E02
1.074E
03
2.60E01
1 .21E02
8.850E
02
5.00E00
2.67E02
1.997E
03
3.10E01
1.48E02
2.008E
03
2.10E01
1.48E02
8.290E
02
8.00E00
1.30E02
1.250E
03
2.30E01
1.67E02
1.607E
03
1 .20E01
8.00E02
2.050E
03
6.30E01
3.38E02
1.728E
03
4.00E00
3.00E02
1.820E
03
2.90E01
1.42E02
1.302E
03
1.20E01
1.60E02
1.152E
03
1.60E01
3.27E02
9.220E
02
1.40E01
1.71E02
1.441E
03
1.70E01
5.76E02
1.676E
03
4.5OE01
1.93E02
1.513E
03
2.00E01
1.51E02
1.117E
03
8.00E00
1 . 10E02
1.260E
03
1 .10E01
8.00E01
9.440E
02
2.30E02
8.980E
02
1.20E01
2.84E02
1.374E
03
5.00E01
4.35E02
1.039E
03
2.70E01
oi
o
CD
"O
Qi
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Q)
3
e+
CO
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cu
3
Q.
O
-5
UO
3
r>
0ģ
c+
-------�
NUTRIENT DISCHARGE DATA FOR WATERSHED
111
1977
DAY TIME
136
1700
171
1400
178
1345
192
815
206
820
213
1315
220
1300
227
1430
234
1220
241
1220
255
1300
262
935
269
810
290
1315
298
1230
304
1435
311
1455
318
1500
325
1400
332
1440
339
1440
346
1150
353
1410
361
1330
3
1145
9
1325
16
1235
23
1200
38
1555
44
1030
52
1055
58
1040
65
1130
79
1015
86
945
93
1015
100
1010
107
1130
121
955
128
1045
135
1220
GRAB SAMPLES
FLOW
(L/SEC)
DISSOLVED
ORTHOPHOSPHATE
(UG P/L)
DISSOLVED
TOTAL
PHOSPHORUS
(UG P/L)
2.50E01
1.01E02
1 .23E-3
6.94E-3
1 .23E-3
1 .23E-3
1 .23E-3
1 .23E-3
1 .23E-3
1 .23E-3
1 .23E-3
1 .23E-3
3.92E-2
4.92E-1
2.22E-1
1 .59E-1
6.12E-1
6.12E-1
3.88E-1
1.69E00
7.47E-1
7.47E-1
1.26E00
8.99E-1
8.99E-1
6.12E-1
2.98E-1
2.98E-1
3.88E-1
2.22E-1
1.07EOO
3.11E00
1.07E00
6.12E-1
4.92E-1
3.88E-1
6.12E-1
1.93EOO
5.30E01
2.30E01
4.50E01
6.00E00
1.50E01
6.00E01
5.10E01
2.70E01
6.80E01
1.50E01
5.00EOO
4.00E00
O.OOEOO
1.40E01
1.OOEO1
1.OOEO1
O.OOEOO
O.OOEOO
1.20E01
7.O0EOO
1.20E01
7.00E00
O.OOEOO
1.19E02
9.40E01
4.20E01
7.80E01
3.50E01
1.08E02
-009EOO
5.70E01
4.70E01
5.20E01
2.40E01
2.40E01
8.00E00
3.OOEO1
1.00E01
1.90E01
O.OOEOO
4.30E01
1.50E01
1.20E01
2.80E01
1.30E01
3.70E01
ORTHOPHOSPHATE
(UG P/L)
1 . 27E02
4.21E02
8.00E01
1 .10E02
1.42E02
1 .84E02
3.58E02
2.56E02
4.42E02
1.74E02
1 .09E03
1.58E03
9.00E02
4.88E02
1.18E03
3.12E03
2.41E02
1.54E03
1 .76E02
1.51E03
1.58E03
9.10E01
7.50E02
5.50E02
2.27E02
2.80E02
1 . 19E02
3.82E02
7.50E02
5.70E01
1.70E01
3.60E01
4.50E01
1.S0E01
6.40E01
8.40E01
2.90E01
5.40E01
8.50E01
1 .80E01
5.70E01
2.70E01
1.70E01
1.90E01
1.40E01
1.40E01
1.49E02
7.0OEO0
1 .10E01
3.40E01
4.0OEO0
5.40E01
1.90E01
7.40E01
1 .20E02
1 .80E01
4.00E01
2.10E01
1.20E01
2.90E01
8.00EO0
2.10E01
1.30E01
1 .40E01
6.40E01
-------�
Table 25. Compositional data from storm events.
I. Watershed 109
A. December 23, 1977
Sample
pH
Turbidity
(Jackson
units)
Nitrate
(ug n/ji)
Di ssolved
ammo n i a
(ug N/fc)
Total
Kjeldahl
nitrogen
(ug N/O
Dissolved
total
Kjeldahl
nitrogen
(yq N/Ŗ)
A
7.0
1755
78
705
355
B
-
3.1
1807
121
355
320
C
-
9.6
1896
61
420
296
D
-
4.8
1896
58
474
355
E
1.4
1955
55
355
207
B.
January 25
, 1978
A
5.8
77
1860
89
1425
320
B
5.8
59
2680
71
989
291
C
5.8
91
1446
80
1876
233
D
6.1
80
1360
67
1542
291
E
6.1
59
930
67
989
291
F
6.2
38
1120
80
800
349
G
6.2
27
1370
62
669
291
C.
March 14,
1978
A
_
19
1472
126
385
296
B
-
1256
1088
239
12500
652
C
-
2375
653
358
22500
790
D
800
773
295
8900
830
D.
March 26 -
27, 1978
A
6.0
_
1071
234
6668
533
B
6.0
-
1086
317
6001
440
364
-------�
Table 25. (Continued)
I. Watershed 109
E. May 8-9, 1978
Sample
pH
Turbidity
(Jackson
units)
Nitrate
(vQ N/Ŗ)
Dissolved
ammonia
(yq N/Ŗ)
Total
Kjeldahl
nitrogen
(yq N/O
Dissolved
total
Kjeldahl
nitrogen
(yq n/a)
A
5.8
64
970
84
1310
520
B
5.9
330
1060
141
4400
640
C
6.2
54
1500
91
980
480
F.
May 15, 1978
A
_
_
1312
98
1190
480
B
-
-
1368
76
1220
780
C
-
-
1120
246
7850
1945
D
-
-
1200
144
2070
1240
E
-
-
1440
122
2460
975
F
-
-
1568
78
1130
661
G
~
1624
62
770
880
G.
Hay 16, 1978
C
-
-
1176
228
7500
860
D
-
-
1464
136
2500
1380
E
-
-
1304
42
900
1015
365
-------�
Table 25. (Continued)
I. Watershed 109
A. December 23, 1977
Dissolved
Ortho-
ortho-
Dissolved
phosphate
phosphate
Total P
total P
Sample
(wg P/l)
(nq P/l)
(yg P/l)
(ug PA)
A
52
14
104
32
B
32
19
85
20
C
44
10
104
20
D
36
5
104
16
E
24
10
48
12
B. January 25, 1978
A 102
B 126
C 212
D 290
E 212
F 180
G 148
12 1807 26
8 644 32
27 1290 39
35 1355 52
43 516 52
47 387 58
47 258 52
C. March 14, 1978
A 73 3 820 0
B 1330 57 6000 62
C 3200 53 10900 52
D 2470 47 6060 62
D. March 26 - 27, 1978
A 1096 35 4652 58
B 963 35 4652 58
366
-------�
Table 25. (Continued)
I. Watershed 109
E. May 8 - 9, 1978
Dissolved
Ortho- ortho- Dissolved
phosphate phosphate Total P total P
Sample (yg P/a) (yg P/O (yg P/O (yg P/&)
A 155 16 580 28
B 570 32 2970 65
C 165 13 520 26
F. May 15, 1978
A 198 22 870 28
B 210 20 630 29
C 1950 74 4300 86
D 660 47 1850 69
E 530 47 1400 87
F 118 28 330 40
G 78 58 950 68
G. May 16, 1978
C 1380 55 4920 64
D 272 30 1280 40
E 100 16 260 15
367
-------�
Table 25.
(Continued)
I. Watershed 109
A. December 23, 1977
Sample
Total
suspended
particulates
(mg/a)
Mineral
suspended
particulates
(mg/Ŗ)
Total
organic matter
(g-cal/&)
Dissolved
organic matter
(g-cal/a)
A
B
C
D
E
16.7
6.37
13.1
15.5
4.57
12.5
3.30
8.71
12.7
2.35
28
25
46
38
28
37
29
29
33
17
B. January 25, 1978
A
B
C
D
E
F
G
228
186
502
336
184
109
81.8
189
156
431
287
157
92.9
69.8
115
103
186
135
111
87
79
40
35
41
44
36
41
41
A
B
C
D
C. March 14, 1978
21.6
4413
7622
3022
17.0
3888
6749
2663
950
2317
790
24
56
79
85
A
B
D. March 26 - 27, 1978
2417
2779
2142
2470
668
1168
3
63
368
-------�
Table 25. (Continued)
I. Watershed 109
E. May 8 - 9, 1978
Total Mineral
suspended suspended Total Dissolved
particulates particulates organic matter organic matter
Sample (mg/&) (mg/&) (g-cal/a) (g-cal/a)
A 145 114 234 45
B 916 462 466 67
C 104 83.3 202 71
F. May 15, 1978
A 188 153 101 51
B 162 133 87 51
C 2050 1716 475 84
D 1167 985 158 90
E 390 323 166 74
F 97.9 81.4 85 63
G 39.3 33.4 44 34
G. May 16, 1978
C 2111 1799 710 79
D 249 203 142 67
E 52.9 43.6 51 35
369
-------�
Table 25. (Continued)
I. Watershed 109
B. January 25, 1978
Total viable cells Fecal Fecal
48 hr. 7 days Coliforms Streptococci
Sample (#/ml) (#/ml) (cells/100 ml) (cells/100 ml)
A 4.5E06 4.8E06 130 4500
B 1.6E06 2.1E06 75 2300
C 3.6E05 5.3E05 160 2950
D 6.3E05 8.0E05 310 4600
E 5.7E05 7.3E06 250 3400
F 8.6E06 8.9E06 570 5700
G 5.7E06 6.2E06 630 4400
C. March 14, 1978
A 1.6E06 1.7E06 < 5 410
B 1.3E06 2.0E06 200 5000
C 2.0E06 2.3E06 830 9800
D 1.4E06 1.9E06 630 7000
D. March 26 - 27, 1978
A 4.4E05 6.1E05 950 2100
B 1.2E06 1.2E06 1100 2000
E. May 8 - 9, 1978
A - 2.3E05 910 1200
B - 6.3E05 2600 2100
C - 7.3E04 610 1600
370
-------�
Table 25. (Continued)
I. Watershed 109
F. May 15,
1978
Total viable
cells
Fecal
Fecal
48 hr.
7 days
Coliforms
Streptococci
Sample
(#/ml)
(#/ml)
(cells/100 ml)
(cells/100 ml)
A
8.1E05
2.2E06
300
1800
B
2.3E05
5.6E05
500
1800
C
2.2E05
3.7E05
5800
4500
D
2.8E05
5.3E05
2600
4500
E
1.2E05
4.1E05
130
1400
F
2.4E05
3.9E05
490
2000
G
1.2E05
1.7E05
70
1700
G. May 16,
1978
C
1.7E05
4.6E05
730
3100
D
1.2E05
3.9E05
500
2700
E
5.8E05
8.3E05
4500
4000
-------�
Table 25. (Continued)
II. Watershed 110
A. January 25 - 26, 1978
Dissolved
Total total
Turbidity
Dissolved
Kjeldahl
Kjeldahl
(Jackson
Nitrate
ammonia
nitrogen
nitrogen
Sample
pH
units)
(ug N/O
(ug N/Ŗ)
(jig N/O
(yg N/O
A
5.8
29
216
142
708
354
B
5.8
17
180
47
585
308
C
5.7
17
138
47
492
338
D
6.1
88
104
53
1785
431
E
5.6
87
126
74
1645
554
F
5.7
50
100
68
1354
369
G
5.8
24
124
79
585
492
H
5.8
15
100
63
431
292
D.
March 26,
1978
A
5.6
_
490
56
613
387
B
5.8
-
279
54
587
400
C
5.7
-
188
58
533
347
D
5.4
-
158
117
933
440
E
5.7
-
135
79
1600
453
F
5.6
-
181
75
1120
453
G
5.2
-
150
125
853
480
H
5.6
143
113
680
400
E.
May 8-9,
1978
A
5.6
100
64
59
1780
640
B
5.7
42
50
61
1000
540
G.
May 16, 1978
A
-
-
40
46
1050
600
B
-
-
37
62
1170
636
C
-
-
30
80
2050
1030
D
-
-
28
50
840
598
E
-
-
25
50
655
598
F
-
-
19
49
680
690
G
-
19
31
670
480
372
-------�
Table 25. (Continued)
II. Watershed 110
A. January 25 - 26, 1978
Dissolved
Ortho- ortho-
Dissolved
phosphate phosphate
Total P
total P
Sample
(yg ?/i) (vig P/Ŗ)
(yg P/O
(yq P/*)
A
38 22
600
167
B
22 22
375
92
C
30 19
350
83
D
96 26
300
217
E
104 41
333
142
F
66 44
183
100
G
44 33
100
100
H
22 19
92
50
D.
March 26, 1978
A
16 13
291
47
B
16 13
218
86
C
16 15
218
51
D
30 19
349
73
E
58 17
552
65
F
46 19
494
65
G
38 25
378
76
H
30 19
247
76
E.
May 8-9, 1978
A
74 20
70
63
B
38 22
77
29
G.
May 16, 1978
A
74 24
270
45
B
68 31
325
67
C
74 33
250
58
D
40 25
211
247
E
50 27
190
73
F
44 27
145
60
G
48 29
120
57
373
-------�
Table 25.
(Continued)
II. Watershed 110
A. January 25 - 26, 1978
Sample
Total
suspended
particulates
(mq/ft)
Mineral
suspended
particulates
(mg/Q
Total
organic matter
(g-cal/A)
Dissolved
organic matter
(g-cal/ft)
A
B
C
D
E
F
G
H
78.7
23.0
24.9
349
284
98.3
81.7
37.3
64.4
17.9
19.0
288
236
79.4
67.1
31.1
86
64
68
192
182
90
80
58
64
54
55
76
67
69
66
59
D. March 26, 1978
A
B
C
D
E
F
G
H
87.4
40.0
40.9
177
328
190
110
77.1
71.0
30.4
31.6
149
277
156
90.7
62.4
136
94
105
166
404
146
124
90
76
84
89
95
101
117
107
A
B
E. May 8 - 9, 1978
263
77.5
209
58.6
436
296
112
114
G. May 16, 1978
A
B
C
D
E
F
G
91.0
132
86.4
59.0
53.8
38.8
29.7
70.4
108
65.6
44.0
39.5
27.6
23.6
253
237
158
150
126
114
95
104
112
114
110
93
91
79
374
-------�
Table 25. (Continued)
II. Watershed 110
A. January 25 - 26, 1978
Total viable cells Fecal Fecal
48 hr. 7 days Coliform Streptococci
Sample (#/ml) (#/m1) (cells/100 ml) (cells/100 ml)
A 2.7E05 3.3E05 80 130
B 6.7E03 3.0E04 60 130
C 5.0E04 6.7E05 25 140
D 3.3E02 2.3E05 130 290
E 3.0E04 1.3E05 75 350
F 1.7E04 3.0E04 80 150
G 3.3E03 4.3E04 70 180
H 2.0E04 6.3E04 10 160
D. March 26, 1978
A 9.0E04 1.2E05 130 680
B 6.7E04 8.7E04 110 930
C 3.0E04 7.0E04 45 330
D 2.3E04 1.0E05 50 350
E 7.0E04 1.4E05 110 700
F 5.3E04 1.6E05 95 610
G 4.3E04 9.7E04 90 570
H 6.0E04 1.1E05 95 380
E. May 8 - 9, 1978
A - 1.7E05 820 510
B - 6.2E04 750 520
G. May 16, 1978
A 5.7E04 1.0E05 1300 1600
B 8.7E04 1.8E05 1300 1500
C 8.7E04 1.7E05 1300 2000
D 3.0E04 2.1E05 970 1200
E 2.3E04 1.3E05 640 1000
F 3.2E05 4.2E05 46Q 680
G 2.1E05 3,2E05 230 530
375
-------�
Table 25. (Continued)
III. Watershed 111
A. January 25 - 26, 1978
Dissolved
Total total
Sample
PH
Turbidity
(Jackson
units)
Nitrate
(ug N/O
Dissolved
ammonia
(ug N/O
Kjeldahl
nitrogen
(pg N/O
Kjeldahl
nitrogen
(yg N/O
A
6.3
12
280
89
422
262
B
6.2
19
360
84
727
262
C
5.3
23
340
80
640
252
D
6.6
45
280
71
1804
145
376
-------�
Table 25. (Continued)
III. Watershed 111
A. January 25 - 26, 1978
Dissolved
Ortho-
ortho-
Dissolved
phosphate
phosphate
Total P
total P
Sample
(m<3 P/Jl)
(pg PA)
(yg p/a)
(ug PA)
A
98
71
170
57
B
114
86
580
71
C
122
71
417
84
D
156
51
1290
77
377
-------�
Table 25. (Continued)
III. Watershed 111
A. January 25-26, 1978
Total Mineral
suspended suspended Total Dissolved
particulates particulates organic matter organic matter
Sample (mg/&) (mg/tt) (g-cal/iQ (q-cal/ft)
A 99.5 99.5 44 19
B 110 94.2 22 25
C 138 117 79 15
D 298 257 142 62
378
-------�
Table 25. (Continued)
III. Watershed 111
A. January 25 - 26, 1978
Total viable cells Fecal Fecal
48 hr. 7 days Coliforms Streptococci
Sample (#/ml) (#/ml) (cells/100 ml) (cells/100 ml)
A 1.0E05 1.0E05 40 780
B 6.7E04 4.7E05 230 890
C 6.7E03 1.4E05 150 380
379
-------�
Table 26. Discharge data for watershed weeks
A. Watershed 109
NOq
Time Flow U) (pgN/Ŗ) (Kg/interval)
(1977)
346-353 3.89E6 1,210 4.71
353-361 2.75E6 1,690 4.65
346-361 6.64E6 1,409 9.36
(1978)
23-30 1.20E7 1,070 12.8
72-79 3.57E6 1,570 5.60
79-86 5.87E6 971 5.70
121-128 1.46E6 1,430 2.09
128-135 3.27E6 936 3.06
121-135 4.73E6 1,089 5.15
135-142 4.09E6 1,450 5.93
B. Watershed 110
(1978)
23-30 2.52E6 92 0.23
79-86 3.57E6 171 0.61
121-128 6.84E5 1,660 1.14
128-135 1.86E6 222 0.41
121-135 2.54E6 610 1.55
135-142 2.41E6 24 0.058
C. Watershed 111
(1978)
23-30 4.04E6
338
1.37
which fraction collector data were collected.
Dissolved ammonia Total Kjeldahl Nitrogen
(ygN/Ji.) (Kg/interval) (ygN/&) (Kg/intervalT
85
0.33
1 ,150
4.47
52
0.14
222
0.61
71
0.47
765
5.08
74
0.89
1,160
13.9
190
0.68
5,710
20.4
150
0.88
5,600
32.9
27
0.039
328
0.48
81
0.26
2,210
7.23
63
0.30
1,630
7.71
107
0.44
1,840
7.53
50
0.13
533
1.34
33
0.12
1 ,008
3.60
63
0.043
588
0.40
42
0.078
1,430
2.66
48
0.121
1 ,205
3.06
43
0.104
900
2.17
191
0.77
978
3.95
-------�
Table 26. (con't)
A. Watershed 109
Orthophosphate
Time
Flow (l)
(ygP/fc)
(Kg/interval)
(1977)
346-353
353-361
346-361
3.89E6
2.75E6
6.64E6
200
14
123
0.778
0.038
0.816
(1978)
23-30
72-79
79-86
1.20E7
3.57E6
5.87E6
293
1,021
1,300
3.52
3.64
1.69
121-128
128-135
121-135
1.46E6
3.27E6
4.73E6
32
274
201
0.05
0.90
0.95
135-142
4.09E6
250
1.02
B.
Watershed
110
(1978)
23-30
79-86
2.52E6
3.57E6
57
53
0.14
0.19
121-128
128-135
121-135
6.84E5
1.86E6
2.54E6
47
76
68
0.032
0.141
0.173
135-142
2.41E6
54
0.130
C.
Watershed
111
(1978)
23-30
4.04E6
200
0.81
Total phosphate
(uqP/ii.) (Kg/interval)
875 3.40
38 0.10
527 3.50
568
1,520
5,460
68
440
326
950
6.82
5.43
7.10
0.10
1 .44
1.54
3.89
215
361
146
279
244
226
0.54
1.29
0.10
0.52
0.62
0.54
355
1.43
-------�
Table 26. (con't)
A. Watershed 109
Total
Suspended Parti culates
Time Flow U) (mg/Ŗ) (Kg/interval)
(1977)
346-353 3.89E6 164.5 640
353-361 2.75E6 5.5 15.1
346-361 6.64E6 98.6 655
(1978)
23-30 1.20E7
72-79 3.57E6
79-86 5.87E6
237 2,844
1,258 4,491
2,160 2,808
121-128
128-135
121-135
135-142
1.46E6
3.27E6
4.73E6
4.09E6
7.25
318
222
297
10.6
1,040
1,051
1,215
B. Watershed 110
(1978)
23-30 2.52E6
79-86 3.57E6
121-128 6.84E5
128-135 1.86E6
121-135 2.54E6
135-142 2.41E6
101 255
152 543
85.8 58.7
155 288
137 347
71.9 173
C. Watershed 111
(1978)
23-30
4.04E6
137
553
Mi neral
Suspended Particulates
(mg/&) (Kg/interval)
133.1 518
2.4 6.6
79.1 525
Total Organic Matter
(g-cal/&) (Kg-cal/interval)
114 443
33 90.8
80 534
202 2,424
1 ,115 3,981
1,936 2,517
4.50 6.6
263 860
183 867
250 1,022
99 1,188
516 1,842
446 580
36 52.6
111 363
88 416
50 204
82
127
207
453
63.8
122
107
43.6
227
271
55.1
133
101
143
255
511
121
177
162
82.8
329
412
57
137
117
473
54
218
-------�
Table 27. Herbicide concentrations (pg/5.) data for watersheds 121 and 122.
Watershed 121
Date Type Trifluralin , Atrazine Alachlor
(1976) of flow* Dissolved Particulate Dissolved Particulate Dissolved Particulate
11/22 - 11/29 grab 0.000 0.008 1.064 0.000 0.067 0.000
(326 - 333)
11/29 - 12/6 grab 0.002 0.000 0.000 0.000 0.029 0.030
(333 - 340)
12/6 - 12/13 + 0.004 0.000 0.000 0.000 0.037 0.016
(340 - 347)
12/13 - 12/20 + 0.130 0.005 0.000 0.000 0.000 0.000
(347 - 354)
12/20 - 12/27 + 0.000 0.012 2.202 0.999 0.287 0.060
(354 - 362)
12/27 - 1/3 + 0.000 0.000 3.504 0.716 0.436 0.063
(362 - 003)
1/3 - 1/10 ND** -
(003 - 010)
1/10 - 1/17 grab 0.000 0.000 0.000 0.000 0.086 0.163
(010 - 017)
1/17 - 1/24 grab 0.000 0.002 0.000 0.197 0.203 0.045
(017 - 024)
1/24 - 1/31 - - ND** -
(024 - 031)
1/31 - 2/7 grab o.OOO 0.000 0.000 0.438 0.027 0.000
(031 - 038)
-------�
Table 27. (Continued)
Watershed 121
Date Type Trifluralin Atrazine Alachlor
(1976) of flow* Dissolved Particulate Dissolved Particulate Dissolved Particulate
2/7 - 2/14 + 0.000 0.000 0.000 7.564 0.971 0.925
(038 - 045)
2/14 - 2/21 grab 0.002 0.000 0.000 1.545 0.066 0.210
(045 - 052)
2/21 - 2/27 + 0.000 ND** 4.558 ND** 0.072 ND**
(052 - 058)
2/27 - 3/7 + 0.000 ND** 1.932 ND** 0.012 ND**
(058 - 066)
3/7 - 3/14 + 0.003 0.002 0.000 0.000 0.000 0.000
(066 - 073)
3/14 - 3/21 + 0.003 ND** 3.544 ND** 0.000 ND**
(073 - 080)
-------�
Table 27. (Continued)
Watershed 122
Date Type Trifluralin Atrazine Alachlor
(1976) of flow* Dissolved Particulate Dissolved Particulate Dissolved Particulate
11/22 - 11/29 + 0.000 0.000 0.000 0.000 0.000 0.000
11/22 - 11/29 - 0.000 0.000 5.388 0.000 0.182 0.000
11/29 - 12/6 - 0.303 0.000 0.000 6.405 0.000 1.657
11/29 - 12/6 + 0.000 0.000 3.064 5.689 0.477 4.137
12/6 - 12/13 + ND** 0.038 ND** 1.337 ND** 0.176
12/6 - 12/13 - 0.000 0.525 0.000 0.000 0.000 0.000
-------�
Table 27. (Continued)
* + = downstream volume-integrated sample
- = upstream volume-integrated sample
** Detection limit of 121 and 122 weir water samples (Ni 63 ECD)
Dissolved in discharged water (yg/Ŗ)
CO
00
Trifluralin
0.002
Atrazine
0.020
Alachlor
0.004
Suspended particulate in discharged water (ug/Ji)
Trifluralin 0.002
Atrazine
0.020
Alachlor
0.004
-------�
Table
28. Cation discharge data for Rhode River
and 109. All data for metals are concentrations in yg/liter
total flow is in liters.
watersheds 101, 102, 103, 105, 106, 107, 108,
Flow rates are in Ŗ/sec. and
WATERSHED 101
STA.
BEG.
DATE
END
DATE
TYPE
FLOW RATE
TOT FLOW
NICKEL
COPPER
ZINC
LEAD
CHROMIUM
CADMIUM
1.01
76
17
900
GRB
3.01E
01
1 .97E
01
3. 76E
00
2.25E
01
4.79E
00
9.52E
00
0.
101
76
17
900
76
54
1020
FLX
1 .96E
07
2.48E
01
2.82E
00
2 .96E
01
5.06E
00
1 . 19E
01
0.
101
76
54
1 020
76
61
1000
FLX
1 .54E
07
2.1 OE
01
2.27E
00
1 .87E
01
2.64e
00
1 . 20E
01
0.
101
76
61
1 000
76
68
1040
FLX
1 .34E
07
2.01 E
01
2.37E
00
2 . 70E
01
5.25E
00
7.02E
00
0.
101
76
68
1040
76
75
1058
FLX
2.66E
07
2.55E
00
3. 13E
00
3.04E
01
4.66E
00
7.55E
00
0.
101
76
75
1058
76
82
1050
FLX
1 .92E
07
3.26E
00
3.10E
00
2.40E
01
8.48E
00
9.39E
00
0.
101
76
82
1 050
76
89
1050
FLX
1 .44E
07
4.35E
00
2.91E
00
3.06E
01
6.39E
00
6.45E
00
0.
101
76
89
1 050
76
96
1045
FLX
2.79E
07
3.26E
00
3.89E
00
2.56E
01
1 .18E
01
2.71E
01
0.
101
76
96
1045
76
103
1033
FLX
1 .44E
07
4.36E
00
1 . 97E
00
2.93E
01
4.95E
00
6.83E
00
1 . 19E-01
101
76
103
1033
76
1 1 0
1040
FLX
1 .07E
07
2.81 E
00
2.34E
00
1 .55E
01
5.88E
00
9.20E
00
0.
101
76
117
950
GRB
1 .24E
01
3.41 E
00
2.42E
00
1 . 38E
01
7.1 IE
00
8. 50E
00
0.
101
76-
117
950
76
124
101 7
FLX
1 . 26E
07
3.01E
00
3.23E
00
1 . 39E
01
7.83E
00
2.97E
01
1.51E-01
101
76
124
1017
76
131
945
FLX
6.31 E
06
5.81E
00
1 .87 E
00
1 .03E
01
6.60E
00
7.52E
01
1.59E 01
101
76
131
945
76
138
945
FLX
4.82E
06
4.75E-
Ļ01
2. 1 IE
00
8.08E
00
9.23E
00
2.80E
00
1.49E-01
101
76
138
945
76
145
945
FLX
4.54E
06
8.11E-
Ļ01
3.60E
00
9.93E
00
5.37E
00
1 . 26E
01
0.
101
76
145
945
76
153
955
FLX
8.00E
06
3. 15E
00
4.52E
00
1 . 52E
01
1 .13E
01
2.41E
01
0 .
101
76
153
955
76
159
1015
FLX
2.51E
06
3.83E
00
1 .80E
00
1 . 18E
01
9.95E
00
1 .25E
01
1.92E-01
101
76
159
1015
76
166
94 7
FLX
9. 74E
05
1.99E00
5.57E
00
1 . 46E
01
2.70E-01
7.39E
00
0.
101
76
166
947
76
173
1020
FLX
3.75E
06
1 .95E
01
3.86E
00
1 .47E
01
3.05E
00
0.
101
76
1 73
1020
76
180
1045
FLX
7.90E
05
1 .66E
01
1 .04E
01
2 . 18E
01
5.85E
00
0.
101
76
180
1045
76
188
950
FLX
8. 14E
05
2.13E
01
7.OOE
00
2 . 18E
01
4.62E
00
0.
101
76
188
950
76
194
950
FLX
1 . 13E
06
2.09E
01
7.45E
00
0 .
3.26E
00
6.94E-01
101
76
194
950
76
201
950
FLX
4.65E
06
2.67E
01
1 . 16E
01
2.40E
01
3.66E
00
0.
101
76
201
950
76
208
1000
FLX
4 .40E
05
1 .39E
01
1 .55E
01
1 .80E
00
6.68E-01
101
76
208
1 000
76
215
1 100
FLX
7.20E
05
1 .22E
01
4.46E
00
9.62E
00
2.94E
00
1.56E-01
101
76
215
1 100
76
222
1012
FLX
8.27E
06
6.58E
00
4.41E
01
4.73E
00
101
76
222
1012
76
229
1040
FLX
1 . 16E
07
6.84E
00
3.27E
01
4.92E
00
101
76
229
1 040
76
236
1010
FLX
3.03E
06
4.30E
00
9.91E
00
4.27E
00
101
76
236
1010
76
24 3
101 5
FLX
1 .44E
06
3.65E
00
2.46E
01
2.89E
00
101
76
243
1015
76
251
1027
FLX
2 . 15E
05
2.34E
00
1 .42E
01
3. 10E
00
0.
101
76
251
1 027
76
257
950
FLX
1 . 23E
05
7.36E-
Ļ01
1 .47E
01
1 .98E
00
0.
101
76
257
950
76
264
1000
FLX
2.26E
06
4.09E
00
1 . 58 E
01
4.64E
00
0.
101
76
264
1000
76
271
1020
FLX
4.53E
05
8.07E
00
1 .01 E
01
3. 03E
00
101
76
271
1020
76
278
1040
FLX
7.69E
06
8.66E-
01
1 . 33E
01
2.33E
00
101
76
278
1040
76
286
1110
FLX
^ . 92E
07
3.74E
00
1 .93E
01
2.96E
00
101
76
286
1110
76
292
1040
FLX
4 . 16E
06
7.08E
00
2.34E
01
2. 42E
00
101
76
292
1 040
76
300
1 105
FLX
3 .04E
07
8.40E-
01
1 .87E
01
2.26E
00
101
76
300
1 105
76
306
1 120
FLX
2.27E
07
8.90E-
01
1 .93E
01
2.40E
00
0.
101,
76
306
1 120
76
313
1 125
FLX
1 .36E
07
3.41 E
00
1 . 33E
01
3.01E
00
0.
101
76
313
1 125
76
320
1 105
FLX
8.62E
06
2.63E
00
1 .01E
01
2.98E
00
0 .
101
76
320
1 105
76
327
1 130
FLX
7. 13E
06
1 .27E
00
1 . 18E
01
2.03E
00
1.08E-01
101
76
327
1 130
76
334
1300
FLX
6.76E
06
2.40E
00
1 .60E
01
2.73E
00
3.62E-01
101
76
334
1300
76
341
1 150
FLX
7.44E
06
2.65E
00
2.80E
01
3.01E
00
1 .12E 00
101
76
341
1 150
76
348
1200
FLX
2.28E
07
3.78E
00
2.54E
01
7.81E
00
101
76
348
1 200
76
355
1150
FLX
1 .OOE
07
2.06E
00
1 .98E
01
1 . 14E
01
0.
101
76
355
1150
76
362
1145
FLX
1 .09E
07
1 .97E
00
1 .80E
01
5.32E
00
0.
-------�
Table 28. (Continued)
WATERSHED 101
STA.
BEG.
DATE
101-
76
47
900
101
76
47
900
101
76
54
1 020
101
76
61
1 000
101
76
68
1040
101
76
75
1058
101
76
82
1 050
101
76
89
1 050
101
76
96
1045
101
76
103
1 033
101
76
1 17
950
101
76
1 17
950
101
76
1 24
1017
101
76
131
945
101
76
1 38
945
101
76
145
945
101
76
153
955
101
76
159
1015
101
76
166
947
101
76
1 73
1 020
101
76
180
1045
101
76
188
950
101
76
194
950
101
76
201
950
iai
76
208
1000
101
76
215
1 1 00
101
76
222
1012
101
76
229
1040
101
76
236
1010
101
76
243
1015
101
76
251
1 027
101
76
257
950
101
76
264
1 000
101
76
27)
1020
101
76
278
1040
101
76
286
1110
101
76
292
1040
101
76
300
1 1 05
101
76
306
1 1 20
101
76
313
1 1 25
101
76
320
1 105
101
76
327
1 1 30
101
76
334
1 300
101
76
341
1 1 50
101
76
348
1200
101
76
355
1 150
END
DATE
TYPE
FLOW RATE
TOT FLOW
GRB
3.01E
01
76
54
1020
FLX
1 .96E
07
76
61
1 000
FLX
1 .54E
07
76
68
1 040
FLX
1 . 34E
07
76
75
1058
FLX
2.66E
07
76
82
1050
FLX
1 .92E
07
76
89
1050
FLX
1 .44E
07
76
96
1045
FLX
2.79E
07
76
103
1033
FLX
1 .44E
07
76
110
1040
FLX
GRB
1 .24E
01
1 .07E
07
76
124
1017
FLX
1 .26E
07
76
131
945
FLX
6.31 E
06
76
138
945
FLX
4.82E
06
76
145
945
FLX
4 .54 E
06
76
153
955
FLX
8 . OOE
06
76
159
1015
FLX
2 .51 E
06
76
166
94 7
FLX
9.74E
05
76
173
1020
FLX
3.75E
06
76
180
1045
FLX
7 .90E
05
76
188
950
FLX
8. 14E
05
76
194
950
FLX
1 . 13E
06
76
201
950
FLX
4.65E
06
76
208
1000
FLX
4.40E
05
76
215
1100
FLX
7.20E
05
76
222
1012
FLX
8.27E
06
76
229
1040
FLX
1 . 16E
07
76
236
1010
FLX
3.03E
06
76
24 3
1015
FLX
1 .44E"
06
76
251
1027
FLX
2. 15E
05
76
257
950
FLX
1 .23E
05
76
264
1000
FLX
2.26E
06
76
271
1020
FLX
4 .53E
05
76
278
1040
FLX
7.69E
06
76
286
1110
FLX
1 .92E
07
76
292
1040
FLX
4. 16E
06
76
300
1 105
FLX
3.04E
07
76
306
1 120
FLX
2.27E
07
76
31 3
1 1 25
FLX
1 .36E
07
76
320
1 105
FLX
8.62E
06
76
327
1 130
FLX
7.13E
06
76
334
1300
FLX
6.76E
06
76
341
1 150
FLX
7.44E
06
76
348
1200
FLX
2.28E
07
76
3.55
1 150
FLX
1 .OOE
07
76
362
1 145
FLX
1 .09E
07
MANGANESE IRON POTASSIUM CALCIUM MAGNESIUM SODIUM
2.41E 02 8.77E 02 2.22E 03 1.71E 03 1.93E 03 5.76E 03
2.89E 02 1.08E 03 2.44E 03 1 .58E 03 2.12E 03 6.58E 03
2.23E 02 1.09E 03 2.47E 03 1.60E 03 1.97E 03 5.43E 03
3.47E 02 1.12E 03 2.26E 03 2.57E 03 2.84E 03 5.16E 03
3.62E 02 1.38E 03 2.53E 03 1 .76E 03 2.50E 03 9.30E 03
3.15E 02 1.13E 03 2.21E 03 1 .42E 03 2.14E 03 5.66E 03
2.96E 02 1.03E 03 2.01E 03 1.51E 03 2.06E 03 4.93E 03
2.92E 02 1.02E 03 2.08E 03 3.86E 03 3.00E 03 5.73E 03
2.30E 02 7.71E 02 3.08E 03 6.53E 03 4.24E 03 4.62E 03
4.88E 01 1.13E 03 1.91E 03 6.10E 03 3.04E 03 5.54E 03
2.56E 02 1.41E 02 2.24E 03 6.87E 03 5.37E 03 5.92E 03
1.83E 02 2.91E 03 2.92E 03 6.31E 03 2.99E 03 5.23E 03
3.51E 02 1.51E 03 7.05E 02 5.79E 03 2.52E 03 5.89E 03
2.99E 01 1.22E 03 6.60E 02 8.88E 03 2.99E 03 6.46E 03
1.24E 02 2.19E 03 2.81E 03 7.63E 03 2.70E 03 2.31E 03
9.39E 01 2.82E 03 3.24E 03 5.43E 03 2.60E 03 2.02E 03
9.39E 01 2.03E 03 2.52E 03 7.40E 03 2.85E 03 3.19E 03
3.62E 02 2.46E 03 3.69E 03 5.03E 03 2.65E 03 2.58E 03
3.37E 02 6.15E 03 6.88E 03 5.47E 03 1.55E 03 5.96E 03
1.97E 02 4.22E 03 6.77E 03 5.41E 03 2.97E 03 6.47E 03
3.32E 02 8.77E 03 6.86E 03 6.02E 03 3.47E 03 6.75E 03
1.85E 02 6.11E 03 7.57E 03 4.06E 03 2.94E 03 6.22E 03
2.35E 02 8.90E 03 6.56E 03 3.25E 03 3.44E 03 6.25E 03
1.98E 02 3.83E 03 9.36E 02 6.02E 03 2.96E 03 7.06E 03
2.34E 02 5.33E 03 6.23E 03 7.02E 03 2.87E 03 6.06E 03
2.68E 02 1.56E 04 5.17E 03 2.99E 03 3.73E 03 4.81E 03
2.41E 02 7.75E 03 4.72E 03 4.55E 03 2.87E 03 5.00E 03
1.11E 02 2.20E 03 3.63E 03 7.39E 03 2.65E 03 5.19E 03
5.29E 01 3.96E 03 5.06E 03 8.15E 03 2.88E 03 5.64E 03
9.43E 00 2.64E 03 3.52E 03 8.02E 03 2.62E 03 4.53E 03
6.03E 00 2.26E 03 2.68E 03 4.52E 03 1.60E 03 2.99E 03
4.9GE 01 3.36E 03 5.17E 03 9.11E 03 7.09E 03
7.87E 01 2.19E 03 3.84E 03 8.47E 03 2.96E 03 5.51E 03
2.49E 01 3.81E 03 5.10E 03 4.72E 03 2.54E 03 6.I6E 03
3.17E 01 3.20E 03 3.56E 03 5.23E 03 2.22E 03 4.53E 03
2.59E 01 1.09E 03 3.28E 03 2.55E 03 5.00E 03
3.33E 03 4.55E 03 S.82E 03 2.50E 03 4.06E 03
1.36E 02 1.43E 03 3.46E 03 6.58E 03 2.30E 03 5.53E 03
5.53E 01 5.82E 02 2.43E 03 6.97E 03 2.03E 03 4.87E 03
1.00E 02 4.76E 02 2.28E 03 6.95E 03 2.30E 03 4.89E 03
9.92E 01 6.27E 02 2.70E 03 7.65E 03 2.78E 03 2.I5E 03
3.63E 02 8.12E 02 3.46E 03 9.02E 03 3.12E 03 6.23E 03
1.07E 03 2.98E 03 3.22E 03 6.27E 03 2.82E 03 5.27E 03
2.41E 03 3.84E 03 6.38E 03 2.98E 03 6.84E 03
2.11E 02 7.50E 02 2.94E 03 7.94E 03 2.78E 03 5.98E 03
4.63E 02 1.82E 03 3.12E 03 6.67E 03 3.10E 03 6.71E 03
-------�
Table 28. (Continued)
WATERSHED 102
STA .
BEG.
DATE
END
1 02
76
47
915
1 02
76
54
1055
102
76
61
1040
102
76
61
1040
76
102
76
68
1 1 00
76
102
76
75
1115
76
102
76
82
1110
76
102
76
89
1110
76
102
76
96
1 105
76
1 02
76
103
1052
76
102
76
1 10
1110
76
102
76
1 1 7
1010
76
1 02
76
124
1040
76
1 02
76
131
1008
76
102
76
1 38
1010
76
1 02
76
145
1005
76
102
76
153
1020
76
102
76
159
1035
76
102
76
166
1010
76
102
76
173
1035
76
1 02
76
194
1022
1 02
76
194
1 022
76
102
76
201
1010
76
102
76
208
1020
76
1 02
76
215
1 120
76
1 02
76
222
1030
76
102
76
229
1 1 00
76
1 02
76
236
1032
76
102
76
?43
1 035
76
102
76
251
1045
76
1 02
76
257
1010
76
102
76
264
1025
76
1 02
76
271
1 040
76
1 02
76
278
1 105
76
1 02
76
286
1 140
76
1 02
76
292
1 100
76
1 02
76
300
1 145
76
1 02
76
313
1 153
76
1 02
76
320
1 125
76
1 02
76
327
1 145
76
1 02
76
334
1320
76
102
76
341
1210
76
102
76
348
1220
76
1 02
76
355
1210
76
TYPE FLOW RATE TOT FLOW
GRB 2.39E 01
GRB 2.63E 01
GRB 1.76E 01
1100
FLX
1 .06E
07
1115
FLX
2.34E
07
1110
FLX
1 . 72E
07
1110
FLX
1 . 27E
07
1 105
FLX
2.65E
07
1052
FLX
1 .28E
07
1110
FLX
0 . 88E
06
1010
FLX
6.66E
06
1040
FLX
1 . 04E
07
1008
FLX
4 . 70E
06
1010
FLX
3.54E
06
1005
FLX
3. 14E
06
1020
FLX
6.85E
06
1035
FLX
1 .91E
07
1010
FLX
4.50E
05
1035
FLX
2.57E
06
1112
FLX
1 . 65E
05
GRB 7.47E-01
1010
FLX
3.53E
06
1020
FLX
1 . 39E
04
1 120
FLX
5.80E
04
1030
FLX
3.37E
06
1 100
FLX
6.32E
06
1032
FLX
6.64E
05
1035
FLX
2 . 71 E
05
1045
FLX
0 .
1010
FLX
0 .
1 025
FLX
2. 11E
06
1 040
FLX
1 . 33E
04
1 105
FLX
7.04E
06
1 140
FLX
1 .95E
07
1 100
FLX
3.09E
06
1 145
FLX
3.30E
07
1 150
FLX
1 .99E
07
1 1 25
FLX
6.09E
06
1 145
FLX
5.07E
06
1320
FLX
5.02E
06
1210
FLX
5.25E
06
1220
FLX
2. 13E
07
1210
FLX
8.45E
06
1205
FLX
8.72E
06
DATE
68
75
82
89
96
103
11 0
11 7
124
131
138
145
153
159
166
173
180
201
208
215
222
229
236
243
251
257
264
271
278
286
292
300
306
320
327
334
341
348
355
362
NICKEL
COPPER
ZINC
LEAD
CHROMIUM
CADMIUM
1 .86E
01
3.76E
00
1 .84 E
01
2.89E
00
1 . 11 E
01
0.
1 .81 E
01
3.98E
00
1 .48E
01
2.33E-
-01
1 . 16E
01
0.
2.02E
01
3.04E
00
2.44E
01
5.45E
00
8.83E
00
0.
1 .82E
01
2.69E
00
1 .49E
01
5.09E
00
6.81E
00
4.06E-01
3.96E
00
2.32E
00
2. 24E
01
5.82E
00
4.80E
00
0.
1 .58E
00
3.24E
00
4. 10E
01
7.06E
00
9.93E
00
0 .
3.33E
00
2.37E
eo
2.60E
01
3.54E
00
8.31E
00
0.
2.38E
00
2.92E
00
2.04E
01
1 .07E
01
2.45E
01
0.
3.06E
00
2.91E
00
1 . 37E
01
7.96E
00
8.82E
00
0.
3.68E
00
2. 14E
00
2.56E
01
7.25E
00
1 . 74E
01
2.51E-01
4.42E
00
2.59E
00
1 . 36E
01
6.49E
00
7.76E
00
0.
5.1OE-
Ļ01
2.65E
00
1 . 04 E
01
5.01 E
00
1 . 78E
01
6.39E-01
7.42E
00
1 .55E
00
5.68E
00
3.48E
00
1 . 02E
02
0 .
6.58E
00
2.55E
00
8.O8E0O
1 .30E
01
2.28E
01
0.
8.98E
00
2.35E
00
1 . 19E
01
1 .24E
01
1 .45E
01
2 .00E-01
5.20E
00
5.30E
00
1 . 17E
02
4.91E
00
3.62E
01
0.
5.78E
00
3.41 E
00
1 .69E
01
6.13E
00
1 .89E
01
2.90E-01
5.96E
00
4.84E
00
3.58E
01
2.67E
01
9.70E
00
0.
3.1 6E
01
9.34E
00
2.33E
01
4.34E
00
0 .
2.56E
01
8.42E
00
2.03E
01
5.55E
00
0.
2.31 E
01
3.04E
00
1 . 82E
0 1
2.68E
00
7.83E-01
2.62E
01
2. 1 1 E
01
2.83E
01
4.76E
00
0 .
2.07E
01
1 .94 E
01
1 .71E
0 1
3.24E
00
0 .
1 .99E
01
1 .25E
01
2.91E
01
2. 73E
00
1.45E-01
1 . 15E
01
2 . 97 E
01
2.66E
00
6.56E
00
4.38E
01
3.99E
00
9.68E
00
1 .67 E
01
4.24E
00
6.60E
00
2. 1 1E
01
2.89E
00
1 .33E
01
2. 1 1E
01
6. 18E
00
0.
3.71E
00
1 .49E
01
2.94E
00
0.
6.24E
00
2.27E
01
3.08E
00
0.
5.45E
00
2 . 77E
01
3.08E
00
2.59E
00
2.56E
00
4.28E
00
1 . 59E
01
3.08E
00
7.80E
00
1 .85E
01
3.85E
00
6.28E
00
2 .44E
01
2.91E
00
1 . 12E
00
1 . 33E
01
3.01E
00
0.
2. 13E
00
1 . 57E
01
2.02E
00
0.
4.56E
00
1 . 52 E
01
2.77E
00
0.
1 .72E
00
1 .49E
01
2.75E
00
3.65E-01
3.20E
00
9.73E
00
2.82E
00
1 . 50E-01.
5.21E
00
4.07E
01
5.82E
00
2.30E
00
9.78E
00
3.05E
00
0.
1 .43E
00
1 .88E
01
2.87E
00
0.
-------�
Table 28. (Continued)
WATERSHED 102
STA.
BEG.
DATE
END
DATE
TYPE
FLOW RATE
TOT FLOW
MANGANESE
IRON
POTASSIUM CALCIUM
MAGNESIUM SODIUM
1 02
76
47
915
GRB
2.39E
01
1 .52E
01
2.76E
02
1 . 18E
03
1 . 19E
03
1C2
76
54
1 055
GRB
2.63E
01
5.04E
02
1 . 16E
03
2.62E
03
2.47E
03
3.35E
03
6.05E
03
102
76
61
1040
GRB
1 .76E
01
4.22E
02
1 .61 E
03
2 .42E
03
2.18E
03
2.46E
03
5.58E
03
1 0-2
76
61
1010
76
68
1 100
FLX
1 . 06E
07
4.31E
02
1 . 33E
03
2.33E
03
2.34E
03
2.64E
03
5.28E
03
1 02
76
68
1 1 00
76
75
1115
FLX
2 . 34E
07
5.33E
02
1 . 33E
03
2 .886
03
5.75E
03
4. 15E
03
6.27E
02
1 02
76
75
1115
76
B2
1110
FLX
1 . 72E
07
4 . OOE
02
1 . 59E
03
2 . 46E
03
2.1 2E
03
2.89E
03
4 .95 E
03
1 02
76
82
1110
76
89
1110
FLX
1 . 27E
07
2.02E
02
1 .41 E
03
1 .99E
03
2. 1 4E
03
2.48E
03
4 .67E
03
1 02
75
89
1110
76
96
1 105
FLX
2.65E
07
2.78E
02
1 . 46E
03
2.36E
03
5.57E
03
3.27E
03
5.83E
03
1 02
76
96
1 1 05
76
103
1052
FLX
1 . 28E
07
7.50E
01
1 . 13E
03
2 . 14E
03
7.87E
03
3.36E
03
4 .81 E
03
1 02
7 6
1 03
1 052
76
11 0
1110
FLX
8 . 88E
06
2.95E
02
1 .37E
03
3 . 22E
03
7.38E
03
4. 18E
03
3.43E
03
1 02
76
1 10
1110
76
1 1 7
1010
FLX
6 . 66E
06
2.34E
02
1 . 29E
02
6.94E
02
8.75E
03
3.64E
03
5.67E
03
1 02
76
1 1 7
1010
76
124
1 040
FLX
1 . 04E
07
1 .7 0E
02
2.21E
03
2.95E
03
9.95E
03
3.33E
03
4.80E
03
102
76
124
1040
76
131
1008
FLX
4.70E
06
4.35E
02
1 .53E
03
1 . 89E
03
1 .23E
04
1 .87E
03
5.64E
03
1 02
76
131
1 oca
76
138
1010
FLX
3. 54E
06
2.43E
02
2.84E
03
7.98E
02
1 .29E
04
3.36E
03
5 .84 E
03
1 02
76
1 38
10 10
76
145
1005
FLX
3. 14E
06
5.OOE
02
5.90E
03
2 . 78E
03
1 .1 OE
04
3. 38E
03
3 .07E
03
102
76
1 45
1 005
76
153
1020
FLX
6.85E
06
3.49E
02
9.55E
03
4.60E
03
6.90E
03
3.35E
03
2.01E
03
1 02
7 6
153
1 020
76
159
1035
FLX
1 .91 E
07
5.58E
02
6.27E
03
2 .84E
03
1 .04E
04
3.69E
03
3. 12E
03
1 02
76
1 59
1 035
76
165
1010
FLX
4 . 50E
05
2 .03E
03
9. 14E
03
4 . 20E
03
7.08E
03
3.29E
03
2.74E
03
1 02
76
1 66
1010
76
173
1 035
FLX
2.57E
06
1 .37E
03
8.41 E
03
6.73E
03
7.61 E
03
3.01E
03
5.95E
03
1 02
76
1 73
1 035
76
1 BO
1112
FLX
1 .65E
05
8.24E
02
8.90E
03
6.79E
03
7.51 E
03
3.86E
03
6.38E
03
1 02
76
1 S4
1 022
GRB
7.47E-
-01
4. 1 8E
02
1 .88E
03
5.93E
03
9.OOE
03
3.52E
03
5 . 1 1 E
03
1 02
76
1 94
1 022
76
201
1010
FLX
3.53E
06
3.05E
02
9. 59E
03
5 . 50E
03
4.92E
03
3.84E
03
6.21 E
03
102
76
201
1010
76
208
1020
FLX
1 . 39E
04
5.54E
02
2.87E
03
6.59E
03
1 .1 4E
04
3.71E
03
6.25E
03
1 02
76
208
1 020
76
21 5
1 120
FLX
5.80E
04
2.80E
02
5.58E
03
4.95E
03
6.56E
03
2.97E
03
4.66E
03
1 02
76
215
1 1 20
76
222
1030
FLX
3.37E
06
1 .50E
02
6. 31 E
03
4.01E
03
5.41 E
03
2.59E
03
3.71E
03
1 02
76
222
1 030
76
229
1 100
FLX
6.32E
06
1 .95E
02
5. 13E
03
5. 14E
03
9.73E
03
3.29E
03
4.85E
03
1 0?
76
229
1 1 00
76
236
1032
FLX
6.64E
05
6.64E
02
1 .85E
03
3 . 89E
03
1 .08E
04
3.35E
03
5.83E
03
102
76
236
1 032
76
24 3'
1 035
FLX
2 . 71 E
05
5.29E
01
3.62E
03
4.68E
03
1 .07E
04
2.98E
03
4.74E
03
1 02
76
243
1 035
76
251
1045
FLX
0.
1 .80E
01
2.76E
03
4.31E
03
1 .23E
04
3.25E
03
5.46E
03
1 02
76
251
1 045
76
257
1010
FLX
0.
8.94E
00
4.06E
03
3.27E
03
2. 76E
03
4 .43E
03
1 02
76
257
1010
76
264
1025
FLX
2 . 1 1 E
06
5.66E
01
2 . 1 6E
03
3.43E
03
7.32E
03
4.29E
03
1 02
76
264
1 025
76
27 1
1040
FLX
1 . 33E
04
3.29E
01
7.38E
02
3.43E
03
1 .23E
04
3. 18E
03
6 .07E
03
1 02
76
271
1 040
76
278
1 105
FLX
7. 04E
06
6.68E
01
2.95E
03
5. 27E
03
9.73E
03
3.42E
03
6.37E
03
1 02
76
278
1 105
76
286
1 140
FLX
1 . 95E
07
3.29E
01
3.90E
03
5.86E
03
8.1 1 E
03
2.02E
03
4.29E
03
1 02
76
206
1 140
76
292
1 100
FLX
3.09E
06
7 .05E
01
7.46E
02
3.86E
03
1 .54E
04
3.75E
03
7 .42E
03
1 02
76
292
1 100
76
300
1 145
FLX
3.30E
07
2 .99E
02
2.58E
03
4 . 78E
03
9.1 4E
03
2.95E
03
4.39E
03
1 02
76
300
1 1 45
76
306
1 150
FLX
1 . 99E
07
1 .70E
02
1 . 2 1 E
03
3.22E
03
7.26E
03
2.26E
03
4 .87 E
03
1 02
76
313
1 153
76
320
1 1 25
FLX
6. 09E
06
9.51E
01
4.47E
02
2 . 34E
03
7.16E
03
2.44E
03
5.OOE
03
1 02
76
320
1 125
76
327
1 145
FLX
5.07E
06
1 .78E
02
1 . 30E
03
2 . 30E
03
9.01 E
03
1 .88E
03
4.86E
03
1 02
76
327
1 145
76
334
1320
FLX
5. 02E
06
3.24E
02
1 . 23E
03
2 . 76E
03
9.64E
03
3.51E
03
5.49E
03
1 02
76
334
1 320
76
34 1
1210
FLX
5.25E
06
1 .81 E
02
1 .03E
03
1 . 02E
04
5.95E
03
7.99E
02
8.08E
03
1 02
76
341
1210
76
348
1220
FLX
2. 13E
07
3.60E
02
1 . 75E
03
3. 15E
03
1.04E
04
3.33E
03
8.14E
03
1 02
76
348
1 220
76
355
1210
FLX
8.45E
06
2.43E
02
1 .09E
03
7.55E
03
1 .38E
03
6.37E
03
1 02
76
355
1210
76
362
1205
FLX
8.72E
06
5.25E
01
7.87E
02
6.02E
03
5.14E
03
1 .35E
03
5.98E
03
-------�
Table 28. (Continued)
WATERSHED 103
TA.
BEG.
DATE
EMD
1 03
76
40
1605
76
1 03
76
47
1 150
76
1 03
76
54
1510
76
1 03
76
61
1400
76
1 03
76
68
1420
76
1 03
76
75
1 545
76
1 03
76
82
1510
76
1 03
76
. 89
1 400
76
1 03
76
96
1505
76
1 03
76
1 03
1 435
76
1 03
76
1 10
1 440
76
1 03
76
1 17
1515
76
1 03
76
124
1 525
76
1 03
76
131
1 450
76
1 03
76
1 38
1 500
76
1 03
76
145
1430
76
1 03
76
1 53
1 500
76
1 03
76
159
1455
76
1 03
76
166
1 530
76
1 03
76
1 73
1 537
76
1 03
76
1 94
1 430
1 03
76
1 94
1430
76
1 03
76
215
1435
76
103
76
222
1 445
76
103
76
229
1500
76
1 03
76
236
1410
76
103
76
257
1 440
76
1 03
76
264
1 425
76
1 03
76
271
1 445
76
1 03
76
278
1 520
76
1 03
76
286
1 506
76
1 03
76
292
1 445
76
103
76
300
1 450
76
103
76
306
1630
76
1 03
76
313
1620
76
103
76
320
1455
76
103
76
327
1530
76
103
76
334
1 700
76
103
76
341
1635
76
103
76
348
1612
76
103
76
355
1535
76
TYPE FLOW RATE TOT FLOW
1150
FLX
2 .27E
07
1510
FLX
2.41E
07
1400
FLX
1 .91E
07
1420
FLX
1 .78E
07
1545
FLX
3.35E
07
1510
FLX
2.51E
07
1400
FLX
1 .97E
07
1505
FLX
3.43E
07
1435
FLX
1 .92E
07
1440
FLX
1 .50E
07
1515
FLX
1 .24E
07
1525
FLX
1 .80E
07
1450
FLX
8. 14E
06
1500
FLX
6.03E
06
1430
FLX
5 .93E
06
1500
FLX
1 .28E
07
1455
FLX
3 . 1 7E
06
1530
FLX
9.57E
05
1537
FLX
2.20E
06
1522
FLX
4.77E
05
GRB 0.
1500
FLX
2 . 44E
06
1445
FLX
9.32E
05
1500
FLX
8.02E
06
1410
FLX
6.57E
05
1415
FLX
2 .85E
02
1425
FLX
3 .07E
06
1445
FLX
7.73E
00
1520
FLX
6.74E
06
1506
FLX
1 .62E
07
1445
FLX
3.45E
06
1450
FLX
3.51E
07
1630
FLX
2 .08E
07
1620
FLX
1 .31E
07
1455
FLX
9. 1 2E
06
1530
FLX
6.66E
06
1700
FLX
7 .89E
06
1635
FLX
8.22E
06
1612
FLX
2 .42E
07
1535
FLX
1 . 1 1E
07
1600
FLX
1 .22E
07
DATE
47
54
61
68
75
82
89
96
103
1 1 0
1 1 7
124
131
138
145
153
159
166
173
180
201
222
229
236
24 3
264
271
278
286
292
300
306
31 3
320
327
334
341
348
355
362
NICKEI
L
COPPER
ZINC
LEAD
CHROMIUM
CADMIUM
6.07E
00
5.05E
00
2 .22E
01
3.33E
00
1 . 51 E
01
0 .
2.45E
01
3.65E
00
2 .03E
01
8.08E
00
1 . 28E
01
0 .
1 .34 E
01
3.59E
00
5.08E
01
4.58E
00
7.43E
00
1 . 19E 00
1 .66E
01
1 .52E
00
1 .39E
01
8.00Ŗ
00
7.40E
00
9.02E-01
4.94E
00
2.48E
00
2 .56E
01
3.69E
00
1 . 27E
01
0.
2.22E
00
3.64E
00
1 .93E
01
6.02E
00
1 . 10E
01
0.
3.50E
00
2.07E
00
2 .94E
01
3.72E
00
8. 74E
00
0.
4.70E
00
2.75E
00
1 .74E
01
6.91E
00
9.53E
00
1.66E-01
2.51 E
00
2.55E
00
2 .35E
01
2.37E
00
9. 10E
00
0.
4.02E
00
2.86E
00
3 .OOE
01
1 .05E
01
3.50E
01
0.
3.33E
00
3. 17E
00
1 .22E
01
6.96E
00
1 . 73E
01
0.
8.64E
00
7.02E
00
0.
1 .73E
01
5.88E
01
1.61E 00
9.66E
00
2. 1 3E
00
1 .21E
01
1 .1 2E
01
3.69E
01
2.08E 00
7.43E
00
3.09E
00
5 .40E
00
2.87E
00
3.94E
01
0 .
1 .29E
01
2. 17E
00
8.80E
00
7.68E
00
7. 75E
00
0.
1 . 14E
00
4.20E
00
1 . 75E
01
7.54E
00
2.32E
01
0.
0.
3.44E
00
1 . 12E
01
3.19E
00
1 .OOE
01
0.
0.
5.60E
00
3.72E
01
1 .24E
01
7.44E
00
0 .
1 .69E
01
3. 98E
00
8 . 76E
00
4.52E
00
0 .
1 .86E
01
1 . 85E
00
3.OOE
01
4.99E
00
0.
1 .85E
01
3. 28E
00
6.51E
00
2.89E
00
1.08E 00
1 .94E
01
1 . 04E
01
1 .87E
01
3.03E
00
1.61E-01
1 . OOE
01
6 . 37E
01
4. 16E
00
1 . 50E
01
3.28E
01
9. 14E
00
6.09E
00
1 .77E
01
8.09E
00
6.80E
00
5.78E
01
5. 38E
00
9. 59E
00
4.46E
01
4. 73E
00
6.29E-01
1 .52E
01
1 .08E
01
2.77E
00
4.42E
00
1 .97E
01
2.91E
00
5. 08E
00
2 . 20E
01
2.87E
00
3.57E
00
3.36E
01
4.73E
00
1 . 13E
00
2 .28E
01
3.05E
00
1 .05E
00
1 .49E
01
2.82E
00
1.50E-01
4. 18E
00
2.75E
01
3.01E
00
0.
2.61E
00
1 . 10E
01
2.96E
00
0.
8.71E
00
1 .69E
01
2.98E
00
1.59E-01
2.75E
00
1 .56E
01
2.73E
00
0.
2.38E
00
1 .85E
01
2.70E
00
0.
4. 19E
00
4.62E
01
6.69E
00
2.70E
00
1 .44E
01
7.08E
00
0.
1 .49E
00
1 .87E
01
2.98E
00
0.
-------�
Table 28. (Continued)
WATERSHED 103
S T A .
BEG.
DATE
END
DATE
TYPE
FLOW RATE
TOT FLOW
103
76
40
1605
76
47
1 150
FLX
2 .27E
07
103
76
47
1 1 50
76
54
151 0
FLX
2.41E
07
1 03
76
54
1510
76
61
1400
FLX
1 .91 E
07
1 03
76
61
1 400
76
fin
1420
FLX
1 . 78E
07
103
76
68
1 420
76-
75
1545
FLX
3.35E
07
1 03
76
75
1 545
76
82
151 0
FLX
2.51E
07
1 03
76
82
1510
76
89
1400
FLX
1 .97E
07
103
76
89
1 400
76
96
1505
FLX
3.43E
07
103
76
96
1505
76
103
1435
FLX
1 .92E
07
'.03
76
1 03
1 4 35
76
1 1 0
1440
FLX
1 .50E
07
103
76
1 1 0
1 4^0
76
1 1 7
151 5
FLX
1 .24E
07
103
76
1 1 7
1515
76
124
1525
FLX
1 .80E
07
103
76
1 24
1 525
76
131
1450
FLX
8. 14E
06
1 03
76
131
1 .-150
76
1 38
1500
FLX
6.03E
06
103
76
1 38
1 000
76
145
1430
FLX
5.93E
06
103
76
145
1 Ŗ'J0
76
153
1500
FLX
1 . 28E
07
103
76
153
1 500
76
159
1455
FLX
3. 17E
06
103
76
159
1 455
76
166
1530
FLX
9.57E
05
103
76
1 66
1 530
76
173
1537
FLX
2 . 20E
06
103
76
173
1 537
76
1 BO
1522
FLX
4 . 77E
05
103
76
1 94
1430
GRB
0.
1 03
76
1 94
1 4'JO
76
20 1
1 500
FLX
2.44E
06
W :03
1Ŗ> 1 03
76
215
1435
76
222
1445
FLX
9.32E
05
76
222
1 445
76
229
1500
FLX
8 . 02E
06
fO 103
76
229
1 5C0
76
236
1410
FLX
6.57E
05
103
76
236
1410
76
24 3
1415
FLX
2.85E
02
103
76
257
1 440
76
264
1425
FLX
3.07E
06
1 03
76
264
1 42 b
76
27 1
1445
FLX
7.73E
00
1 C3
76
271
1 445
76
270
1 520
FLX
6.74E
06
1 03
76
278
1 520
76
286
1 506
FLX
1 .62E
07
103
76
286
1 50G
76
292
1 445
FLX
3.45E
06
103
75
292
1 4 4 5
76
3C0
1450
FLX
3.51E
07
103
75
300
1450
76
306
1630
FLX
2.08E
07
103
76
306
1630
76
31 3
162 0
FLX
1 . 3 1 E
07
1 03
76
313
1620
76
320
1455
FLX
9. 12E
06
1 03
76
320
1 455
76
327
1530
FLX
6.66E
06
1 03
76
327
1 530
76
334
1 700
FLX
7 .89E
06
103
76
334
1 700
76
34 1
1 635
FLX
8.22E
06
1 03
76
341
1 635
76
348
161 2
FLX
2 .42E
07
1 03
76
348
1612
76
355
1535
FLX
1 . 1 1E
07
1 03
76
355
1535
76
362
1600
FLX
1 .22E
07
MANGANESE IRON POTASSIUM CALCIUM
8.53E
02
6.48E
03
4. 12E
03
4.04E
03
2.00E
02
1 . 05E
03
2.00E
03
2.47E
03
1 .69E
02
9.80E
02
2.04E
03
2.23E
03
2.67E
02
1 . 42E
03
1 . 69E
03
4.55E
03
2 .87E
02
1 . 78E
03
2 . 15E
03
2.00E
.03
2.05E
02
1 .45E
03
1 . 73E
03
2.06E
03
1 .37E
02
1 .21E
03
1 . 58E
03
2.25E
03
3.44E
02
1 .94E
03
1 . 90 E
03
8.27E
03
1 .06E
02
1 . 07E
03
1 . 77E
03
8.86E
03
9.88E
01
2. 10E
03
2.06E
03
1 .0 1 E
04
8.20E
01
1 . 38E
02
1 .85E
03
9.22E
03
6.72E
02
1 . 16E
02
6.22E
02
7.97E
03
8.94E
02
2. 62E
03
2.67E
03
1 .24E
04
8.86E
02
1 . 75E
03
1 . 17E
03
1 .24E
04
2.23E
02
2.96E
03
3 . 94 E
03
1 .43E
04
2 .26E
02
2.07E
03
3.65E
03
4.82E
03
1 .01 E
02
1 . 70E
03
2 . 39E
03
5.16E
03
3.64E
02
3. 24E
03
2 . 90E
03
7.15E
03
2 .91 E
02
3.90E
03
5.33E
03
9.1 6E
03
2 .06E
02
2.98E
03
6. 10E
03
1 . OOE
04
3.09E
01
1 . 89E
03
4 . 93E
03
9.98E
03
1 .95E
02
5. 90E
03
5. 04E
03
5.03E
03
3.94E
02
4.51E
03
4 . 72E
03
1 .31 E
04
2.38E
02
5. 78E
03
5. 37E
03
9.24E
03
1 .48E
02
1 . 75E
03
4.39E
03
7.09E
03
9.88E
01
5.90E
03
1 . 05E
04
1 .02E
04
8.69E
01
7.75E
03
4.65E
03
7.44E
03
5.08E
01
6.03E
02
3.45E
03
8.29E
03
7.58E
01
5.29E
03
4 . 46E
03
7.54E
03
7.46E
01
3.50E
03
3 . 1 3E
03
6.79E
03
5.04E
01
1 .46E
03
2 . 99E
03
1 .31 E
04
1 .96E
02
4.47E
03
3.94E
03
7.OOE
03
1 .38E
02
1 . 13E
03
2.89E
03
6.50E
03
5.53E
01
5. 13E
02
1 . 83E
03
8.84E
03
5.41 E
01
3.69E
02
2 . 1 9E
03
6.46E
03
1 .92E
02
1 . 20E
03
2 . 14E
03
1 .02E
04
7.09E
01
7. 18E
02
2 . 32E
03
9.75E
03
3.80E
02
8.36E
02
2.36E
03
7.06E
03
2.48E
03
4. 14E
03
5.25E
03
1 .16E
04
2.95E
02
7.99E
02
3 . 34E
03
8.83E
03
3.29E
02
1 .27E
03
2.54E
03
1 .10E
04
MAGNESIUM SODIUM
4.20E
03
1 . 09E
04
2.37E
03
4 .93E
03
1 . 77E
03
4.42E
03
2.09E
03
4. 14E
03
1 .92E
03
4.81 E
03
1 . 90E
03
-1 . 42E
03
1 . 62E
03
4.40E
03
2. 70E
03
4.98E
03
2.45E
03
5.51 E
03
3.07E
03
5.98E
03
2.66E
03
5.02E
03
4.40E
03
5.43E
03
3. 13E
03
5.66E
03
1 .95E
03
5.25E
03
3.59E
03
2.99C
03
2. 15E
03
1 .60 E
03
2.07E
03
2. 17 E
.0 3
1 . 69E
03
2. 10 E
03
2. 13E
03
5.50E
03
2.44E
03
5.41 E
03
2. 17E
03
4 . 23E
03
2. 28E
03
4.90E
03
6. 24E
03
7 . 1 0 E
03
3. 44E
03
6.65E
03
2. 14E
03
5.89E
03
2.83E
03
7.39E
03
4. 39E
03
1 .51 E
03
3.50E
03
2.46E
03
3.94E
03
1 . 89E
03
3.04E
03
2.49E
03
5.02E
03
2 . 07E
03
3.04E
03
1 . 70E
03
4.56E
03
1 .64 E
03
4.20E
03
1 .61E
03
4.92E
03
2.07E
03
5.03E
03
2.76E
03
4.7BE
03
1 . 98E
03
4.07E
03
3.90E
03
9.78E
03
2.62E
03
5. 11 E
03
2.75E
03
5.09E
03
-------�
Table 28. (Continued)
WATERSHED 105
STA.
BEG.
DATE
END
DATE
TYPE
FLOW RATE
TOT FLOW
NICKEL _
COPPER
ZINC
LEAD
CHROMII
JM
CADMIUM
105
76
47
757
GRB
4.65E 00
1 .1 IE
01
4.09E
00
2 . 84 E
01
5.21E
00
1 .23E
01
. 0 .
105
76
54
920
GRB
4.65E 00
1 .58E
01
2. 38E
00
1 . 50 E
01
6.34E
00
8. 48E
00
0.
105
76
54
920
76
61
91 0
FLX
2.43E
06
1 .26E
01
3.35E
00
2.83E
00
5.OOE
00
6.28E
00
0.
105
76
61
910
76
68
940
FIX
1 .91 E
06
1 .7 1 E
01
1 .94 E
00
2.01E
01
6.85E
00
5.64E
00
1.65E-01
1 05
76
68
940
76
75
94 8
FLX
4.45E
06
5.78E-
Ļ01
3. OOE
00
1 .66E
01
3.82E
00
7.59E
00
0.
1'05
76
75
948
76
82
940
FLX
3.64E
06
4.87E-
01
2.53E
00
1 .59E
01
3.22E
00
6.40E
00
0 .
105
76
82
940
76
89
955
FLX
2.30E
06
1 .68E
00
3. 10E
00
2.01E
01
4.55E
00
7. 20E
00
0.
105
76
89
955
76
96
945
FLX
4.91E
06
3.57E
00
2.09E
00
1 .33E
01
7.84E
00
1 ,41E
01
0.
105
76
96
945
76
103
940
FLX
2 . 1 8E
06
1 ,85E
00
2.65E
00
1 . 68E
01
6.65E
00
5.47E
00
0.
105
76
1 03
940
76
1 1 0
940
FLX
1 . 55E
06
2.44E
00
2.33E
00
1 . 49E
01
7.61E
00
6.09E
00
1.23E-01
1 05
76
1 10
940
76
1 1 7
850
FLX
1 . 1 OE
06
2.02E
00
4.57E
00
1 . 39E
01
7.27E
00
1 . 27E
01
1.75E-01
1 05
76
1 17
850
76
124
91 5
FLX
1 . 87E
06
0.
3. 11 E
00
9. 77E
00
9.81 E
00
2.06E
01
0.
105
76
1 24
915
76
131
84 5
FLX
5.75E
05
8.64E
00
3. 18E
00
6. 1 1 E
00
7.99E
00
1 . 99E
01
0.
105
76
131
845
76
138
845
FLX
5.44E
05
7.67E
00
2.38E
00
8. 28E
00
7.45E
00
2. 16E
01
0.
105
76
1 38
845
76
145
845
FLX
4. 13E
05
6.45E-
Ļ01
2.38E
00
8. 29E
00
8.40E
00
5. 36E
00
0.
105
76
145
845
76
153
855
FLX
8.03E
05
0.
2.57E
00
1 . 22E
01
8.59E
00
1 . 78E
01
0.
1 05
76
153
855
76
159
934
FLX
1 .53E
05
7.64E-
Ļ01
3.96E
00
1 .08E
01
1 .48E
01
1 . 56E
01
0.
105
76
159
934
76
166
834
FLX
2.20E
04
0.
3.95E
00
1 . 73E
01
8.91E
00
7.93E
00
0 .
105
76
1 66
834
76
173
936
FLX
3.57E
05
1 .24E
01
3.33E
00
1 . 05E
01
3.78E
00
0.
105
76
1 73
930
76
180
935
FLX
2.81E
04
1 .59E
01
1 .35E
01
1 .47E
01
4. 27E
00
0.
105
76
188
830
GRB
6.94E-03
1 .54E
01
5.32E
00
1 . 02E
01
4. 69E
00
0.
105
76
188
830
76
194
855
FLX
5. 16E
04
9.03E
00
3.06E
00
6. 66E
00
2.42E
00
1.29E-01
105
76
194
855
76
201
845
FLX
4.08E
05
1 .42E
01
2.77E
01
2.91E
01
3.40E
00
1.81E-01
105
76
201
845
76
208
840
FLX
1 . 20E
04
1 .29E
01
4.36E
00
1 . 03E
01
3.45E
00
0.
1 05
76
208
840
76
215
932
FLX
5.79E
04
1 .25E
01
8.24E
00
1 . 14E
01
2.70E
00
1 .44E-01
105
76
229
930
76
236
905
FLX
1 .41 E
05
1 .43E
01
1 . 76E
01
5.36E
00
105
76
236
905
76
24 3
918
FLX
2. 12E
04
4.32E
00
1 .01E
01
2.84E
00
105
76
243
918
76
251
900
FLX
1 . 18E
04
6.60E
00
1 . 18E
01
2.89E
00
0.
105
76
257
904
76
264
900
FLX
7. 22E
04
6.63E
00
8.80E
00
4.03E
00
0.
105
76
264
900
76
271
920
FLX
9. 13E
03
3. 10E
00
2.61E
01
2. 73E
00
105
76
271
920
76
278
924
FLX
6.04E
05
3.94E
00
3.69E
01
3. 12E
00
105
76
278
924
76
286
940
FLX
2. 19E
06
5.29E
00
1 . 48E
01
2.98E
00
105
76
286
940
76
292
930
FLX
4.30E
05
4.68E
00
4 . 38E
01
3. 71 E
00
105
76
292
930
76
300
930
FLX
6. 12E
06
8. 13E
00
1 . 90E
01
2.91E
00
105
76
300
930
76
306
1000
FLX
4.51E
06
2.65E
00
1 . 19E
01
3.01E
00
105
76
306
1000
76
31 3
101 5
FLX
2. 27E
06
1 .81 E
00
3.43E
01
2.89E
00
0.
105
76
320
950
76
327
1005
FLX
9.06E
05
3.31 E
00
0.
2.91E
00
0.
105
76
327
1005
76
334
1 130
FLX
9. 14E
05
1 .82E
00
1 .99E
01
2.91E
00
0.
105
76
334
1 1 30
76
341
1035
FLX
7.72E
05
2.71E
00
2. 17E
01
3.08E
00
0.
105
76
341
1035
76
348
1055
FLX
4. 13E
06
8.92E-
Ļ01
2.87E
01
4.37E
00
105
76
355
1022
GRB
2.78E 00
3.65E
00
1 .48E
01
4.54E
00
105
76
362
1020
GRB
2.19E 00
8.05E-
Ļ01
1 . 34 E
01
2. 17E
00
-------�
Table 28. (Continued)
WATERSHED 105
STA .
BEG.
DATE
END
DATE
TYPE
FLOW RATE
TOT FLOW
MANGANESE
IRON
POTASSIUM CALCIUM
MAGNESIUM SODIUM
1 05
76
47
757
GRB
4.65E
00
2.98E
02
1 . 11 E
03
2.01E
03
7.21 E
02
1 .05E
03
4.20E
03
105
76
5-5
920
GRB
4.65E
00
3.31 E
02
8. 24E
02
1 .81E
03
8.23E
02
1 . 36E
03
3.61 E
03
t 05
76
54
920
76
61
91 0
FLX
2.43E
06
1 .84E
02
7.59E
02
2 .42E
03
8.01 E
02
1 .51 E
03
3.93E
03
1 05
76
61
910
76
68
940
FLX
1 .91E
06
1 .75E
02
7.42E
02
1 .75E
03
7.09E
02
1 . 1 IE
03
3.71E
03
1 05
76
68
940
76
75
948
FLX
4 . 45E
06
1 .66E
02
4.63E
02
1 . 77E
03
7.37E
02
1 .22E
03
3.23E
03
1 05
76
75
94b
76
82
940
FLX
3.64E
06
1 .40E
02
4.88E
02
1 .49E
03
7.26E
02
1 . 24E
03
3.36E
03
105
76
82
940
76
89
955
FLX
2.30E
06
1 . 1 3E
02
5. 29E
02
1 .60E
03
8.90E
02
1 .49E
03
3. 14E
03
1 05
76
89
955
76
96
945
FLX
4 .91 E
06
2.07E
02
1 . 37E
03
1 . 71 E
03
2.66E
03
1 .96E
03
3 .37E
03
105
76
96
945
76
103
940
FLX
2. 18E
06
1 .01 E
02
7.22E
02
1 . 83E
03
3.33E
03
2. 15E
03
3.73E
03
105
76
1 03
940
76
1 1 0
940
FLX
1 . 55E
06
1 .31 E
02
1 . 06E
03
2. 1 1E
03
3.77E
03
2.47E
03
4.04E
03
105
76
1 10
940
76
1 1 7
850
FLX
1 . 10E
06
1 .61 E
02
1 . 39E
03
7.76E
02
4.13E
03
1 .55E
03
4.00E
03
105
76
1 1 7
850
76
124
915
FLX
1 .87E
06
1 . 2 7 E
02
1 .44 E
03
2. 15E
03
4 . 1 2 E
03
2. 18E
03
2.87E
03
1 05
76
1 24
9V5
76
131
84 5
FLX
5.75E
05
3.87E
01
1 . 37E
03
1 . 96E
03
5.02E
03
1 .84E
03
4 . 00 E
03
105
76
131
645
76
138
845
FLX
5.44E
05
9. 1 OE
01
1 . 49E
03
6.38E
02
4.68E
03
1 . 37E
03
3.47E
03
1 05
76
1 38
845
7 6
145
845
FLX
4. 13E
05
1 .28E
02
2.04E
03
2.31E
03
4.91 E
03
2.07E
03
1 . 33E
03
105
76
145
845
76
153
855
FLX
8.03E
05
1 .73E
02
3.73E
03
2.57E
03
2.31E
03
1 .75E
03
1 . 46E
03
105
76
153
855
76
159
934
FLX
1 . 53E
05
1 . 1 7E
02
3. 31 E
03
2 . 25E
03
2.51 E
03
2. 29E
03
1 . 57 E
03
105
76
159
934
76
166
834
FLX
2.20E
04
9.35E
02
7.30E
03
3.26E
03
5.0 1 E
03
2.39E
03
1 .89E
03
1 05
76
1 66
834
76
173
936
FLX
3.57E
05
4.47E
02
7 . 22E
03
6.28E
03
1 .74 E
03
3.90E
03
6.61E
03
105
76
1 73
930
76
180
935
FLX
2.81E
04
8.28E
02
1 . 54 E
04
3.91 E
03
1 .0 1 E
04
4. 40E
03
3.29E
03
1 05
76
1 88
830
GRB
6.94E-
-03
7.30E
02
9.27E
03
3.88E
03
8.97E
03
4.57E
03
3.83E
03
105
76
1 88
830
76
194
855
FLX
5. 16E
04
5.82E
02
8.90E
03
2.75E
03
9.32E
03
3.87E
03
2 . 14E
03
1 05
"6
1 94
850
76
201
845
FLX
4.08E
05
2. 7 1 E
02
6. 15E
03
3.57E
03
3.86E
03
2.62E
03
3 . 54 E
03
105
76
201
845
76
208
840
FLX
1 . 20E
04
6. 1 9E
02
8. 16E
03
3.61E
03
7.49E
03
3. 24E
03
3.05E
03
105
76
208
840
76
215
932
FLX
5. 79E
04
7.95E
02
9.31E
03
3.25E
03
9.74E
03
3.91E
03
3. 1 1 E
03
1 05
76
229
930
76
236
905
FLX
1 .41E
05
5.74E
01
1 .59E
03
3. 15E
03
3.52E
03
1 .92E
03
4.86E
03
105
76
236
905
76
243
918
FLX
2. 12E
04
8.65E
00
5. 1 3E
03
2.98E
03
8.89E
03
2.83E
03
3 . 02E
03
105
76
243
918
76
251
900
FLX
1 . 18E
04
3.09E
01
5.58E
03
2 .97E
03
1 .08E
04
3.53E
03
2 .23E
03
105
76
257
904
76
264
900
FLX
7.22E"
04
4.30E
01
2. 78E
03
3.43E
03
1 .07E
04
3.83E
03
105
76
264
900
76
271
920
FLX
9. 13E
03
2.92E
01
3.86E
03
3. 16E
03
1 .1 OE
04
3.63E
03
2.71E
03
105
76
271
920
76
278
924
FLX
6.04E
05
5.74E
01
2. 12E
03
4. 10E
03
7.66E
03
2. 76E
03
4 ,50E
03
105
76
273
924
76
286
940
FLX
2. 19E
06
1 . 47E
03
3.06E
03
4.62E
03
1 . 74E
03
3.03E
03
105
76
286
940
76
292
930
FLX
4.30E
05
1 . 1 3E
01
1 . 02E
03
2.91E
03
6.87E
03
2. 16E
03
5.09E
03
105
76
292
930
76
300
930
FLX
6. 12E
06
1 .65E
02
1 . 41 E
03
3. 37E
03
4.55E
03
1 .64 E
03
2 . 64 E
03
105
76
300
930
76
306
1000
FLX
4 . 51 E
06
1 . 4 7 E
02
5.49E
02
1 .83E
03
3.30E
03
1 . 25E
03
2.92E
03
-.05
76
3C6
1000
76
313
1015
FLX
2.27E
06
9.72E
01
5.25E
02
1 .82E
03
1 .30E
03
1 . 4 1 E
03
3.39E
03
105
76
320
950
76
327
1005
FLX
9.06E
05
2.54E
02
4.96E
02
1 .84 E
03
4.08E
03
1 .59E
03
3.55E
03
105
76
327
1005
76
334
1 1 30
FLX
9. 14E
05
3.88E
02
7 . 99E
02
2 . 16E
03
4.37E
03
1 .86E
03
3.94E
03
105
76
334
1 1 30
76
341
1035
FLX
7.72E
05
2.92E
02
1 . 06E
03
1 . S1 E
03
4.39E
03
1 .91 E
03
3.95E
03
105
76
341
1035
76
348
1055
FLX
4. 13E
06
1 .36E
02
5.54E
03
4. 10E
03
4.30E
03
3.42E
03
1 . 36E
04
105
76
355
1022
GRB
2.78E
00
3.79E
02
6.60E
02
2 . 24E
03
3.64E
03
1 .81E
03
3.70E
03
105
76
362
1020
GRB
2. 19E
00
3.0SE
02
5.21 E
02
1 . 75E
03
4.44E
03
1 .91E
03
3.46E
03
-------�
Table 28. (Continued)
WATERSHED 106
STA .
BEG.
DATE
END
DATE
TYPE
FLOW RATE
TOT FLOW
106
76
47
810
GRB
1 . 17E
01
106
76
54
935
GRB
1 . 09E
01
106
76
61
925
GRB
8. 27E
00
106
76
68
1 000
GRB
7.67E
00
106
76
68
1 000
76
75
101 5
FLX
0.
1 . 04E
07
106
76
82
950
GRB
8.27E
00
106
76
89
1015
GRB
8.27E
00
106
76
96
1 000
GRB
1 . 1 7E
01
106
76
1 03
957
GRB
6.56E
00
106
76
1 10
955
GRB
6.05E
00
106
76
1 17
905
GRB
4.65E
00
106
76
1 1 7
905
76
124
937
FLX
4.90E
06
106
76
1 24
937
76
131
910
FLX
1 . 83E
06
106
76
131
910
76
138
905
FLX
1 . 45E
06
106
76
138
905
76
145
905
FLX
1 . 50E
06
106
76
145
905
76
153
920
FLX
3 . OOE
06
106
76
153
920
76
159
852
FLX
9.82E
05
106
76
159
852
76
166
850
FLX
1 . 49E
05
106
76
1 66
850
76
173
950
FLX
1 . 33E
06
106
76
1 73
950
76
180
1000
FLX
1 . 39E
05
106
76
180
1 000
76
188
900
FLX
1 . 19E
05
106
76
1 94
906
GRB
6.12E-
01
106
76
1 94
900
76
201
91 5
FLX
1 .59E
06
00 106
76
208
950
GRB
1.23E-
03
Ŗ 106
76
215
950
GRB
3.92E-
Ļ02
106
76
215
950
76
222
930
FLX
9. 15E
06
106
76
229
1000
76
236
933
FLX
5.50E
05
106
76
236
933
76
24 3
940
FLX
1 . 64E
05
106
76
243
940
76
251
945
FLX
2 .58E"
04
106
76
271
940
76
27B
945
FLX
1 .54E
06
106
76
278
945
76
286
1000
FLX
6.77E
06
106
76
286
1 000
76
292
955
FLX
1 .43E
06
106
76
300
950
GRB
3.28E
01
106
76
300
950
76
306
1020
FLX
7.84E
06
106
76
306
1 020
76
313
1 040
FLX
3.62E
06
106
76
313
1 040
76
320
1017
FLX
2. 12E
06
106
76
320
1017
76
327
1030
FLX
1 . 73E
06
106
76
327
1030
76
334
1205
FLX
1 .86E
06
106
76
341
1 100
GRB
1 .69E
00
106
76
341
1 100
76
348
1 120
FLX
9.11E
06
106
76
348
1 120
76
355
1050
FLX
3. OOE
06
106
76
362
1 050
GRB
4.65E
00
NICKEL
COPPER
ZINC
LEAD
CHROMIUM
CADMIUM
3.28E
00
3.34E
00
4.36E
01
3.10E
00
7.53E
00
0.
2.45E
01
3.35E
00
1 . 76E
01
5.OOE
00
6.28E
00
0 .
2.26E
01
2. 30E
00
1 . 77E
01
8.40E
00
5. 36E
00
5.05E-01
2.03E
01
1 .98E
00
1 . 87E
01
5.29E
00
1 .88E
01
1.69E-01
6.69E-
Ļ01
2.97E
00
2.87E
01
4.43E
00
8. 79E
00
0 .
1 .85E
00
1 .88E
00
2 . 56E
01
3.38E
00
5. 47E
00
0.
3.57E
00
1 .49E
00
1 .85E
01
5.26E
00
6.28E
00
0 .
2.29E
00
2.33E
00
1 . 72E
01
1 .36E-
-01
9.85E
00
0.
4.66E
00
1 . 94E
00
1 . 67E
01
1 .80E
00
9.46E
00
0.
4.24E
00
1 .56E
00
3 . 25E
0 1
6.81 E
00
1 .49E
01
0 .
5.82E
00
2.92E
00
1 . 16E
01
4.35E
00
1 .50E
01
0.
2.20E
00
2.36E
00
1 . 56E
01
6.84E
00
2.93E
01
4.41E-01
7.81 E
00
4. 04E
00
7 . 48E
00
8.86E
00
8.94E
00
0 .
7.76E
00
3.51E
00
1 . 15E
01
4.48E
00
4.98E
01
0.
5.01 E
00
2.96E
00
1 . 77 E
01
2.75E
00
1 .06E
01
2.52E-01
6.61E-
Ļ01
2.44E
00
1 .49E
01
1 .50E
01
1 .03E
01
0.
6.83E
00
2.85E
00
1 . 18E
01
1 .50E
01
1 . 20E
01
0 .
2.54E
01
9.34E
00
9. 72E
00
1 .06E
01
0 .
3.66E
01
4. 77E
00
1 . 58E
01
4.73E
00
0 .
3.40E
01
4. 74E
00
2 . 77 E
01
3.75E
00
0 .
3.OOE
01
8.77E
00
1 . 76E
01
2.66E
00
1.41E 00
2.21 E
01
3.44E
00
1 .06E
01
3.03E
00
1 . 61 E-01
1 .63E
01
6.09E
00
7 . 56E
00
4 . 38E
00
0 .
3.99E
01
7.01E
00
3. 15E
01
2.40E
00
7.02E-01
2.76E
01
3.60E
00
1 .41 E
01
2. 19E
00
8.15E-01
1 .21E
ot
4 . 46E
01
4.78E
00
6.91E
00
1 . 23E
01
2.87E
00
2. 16E
00
7.37E
00
2.87E
00
1 .63E
00
9 . 42 E
00
3.26E
00
9.31E
00
2.46E
01
2.82E
00
5.71E
00
2. 10E
01
3.01E
00
3.61E
00
2.38E
00
4.32E
00
2.34E
01
4.29E
00
2.25E
00
1 . 98E
01
2.98E
00
0.
1 . 12E
00
1 . 42E
01
3.01E
00
0.
9.95E-
-01
1 . 33E
01
2.68E
00
0 .
3.52E
00
1 . 77 E
01
3. 10E
00
0.
4.25E
00
1 . 90E
01
3.05E
00
1.62E 00
1 .77E
00
3.40E
01
4.76E
00
1.39E 00
4.52E
00
3.60E
01
1 . 37E
01
1 .11E
00
3.67E
01
7.88E
00
2.64E
00
1 .83E
01
5.29E
00
1.55E 01
-------�
Table 28. (Continued)
WATERSHED 106
STA .
BEG.
DATE
END
106
76
47
810
106
76
54
935
106
76
61
925
106
76
68
1000
106
76
68
1000
76
1 06
76
82
950
1 06
76
89
1015
106
76
96
1000
106
76
103
957
106
76
1 10
955
106
76
1 1 7
905
106
76
1 17
905
76
106
76
1 24
937
76
106
76
131
910
76
106
76
1 38
905
76
106
76
145
905
76
1 06
76
153
920
76
106
76
159
852
76
106
76
166
850
76
106
76
1 73
950
76
106
76
180
1 000
76
106
76
194
906
106
76
1 94
900
76
106
76
208
950
106
76
215
950
106
76
215
950
76
106
76
229
1 000
76
106
76
236
933
76
106
76
243
940
76
106
76
271
940
76
106
76
278
945
76
106
76
286
1 000
76
106
76
300
950
106
76
300
950
76
106
76
306
1 020
76
106
76
313
1 040
76
106
76
320
1017
76
106
76
327
1 030
76
106
76
341
1 1 00
106
76
341
1 100
76
106
76
348
1 120
76
106
76
362
1050
DATE
TYPE
FLOW RATE
TOT FLOW
MANGANESE
GRB
1 . 1 7E
01
3.43E
02
GRB
1 .09E
01
4.22E
02
GRB
8 . 27E
00
3.31E
02
GRB
7.67E
00
3.25E
02
75
1015
FLX
0.
1 .04E
07
1 .03E
02
GRB
8.27E
00
3.31E
02
GRB
8.27E
00
3.71E
02
GRB
1 . 17E
01
2.97E
02
GRB
6.56E
00
3. 18E
02
GRB
6.05E
00
3.04E
02
GRB
4.65E
00
3.67E
02
124
937
FLX
4.90E
06
2.44E
02
131
910
FLX
1 .83E
06
1 .35E
02
138
905
FLX
1 .45E
06
2 .26E
02
145
905
FLX
1 . 50E
06
3.40E
02
153
920
FLX
3 . OOE
06
3. 1 OE
02
159
852
FLX
9.82E
05
6.07E
02
166
850
FLX
1 .49E
05
2.76E
02
173
950
FLX
1 . 33E
06
5.58E
02
180
1000
FLX
1 . 39E
05
2.31E
03
188
900
FLX
1 . 19E
05
1 .57E
03
GRB
6. 12E-
-01
6.60E
02
201
915
FLX
1 . 59E
06
8.20E
02
GRB
1 .23E-
-03
1 .7 2E
03
GRB
3.92E-
-02
2.92E
03
222
930
FLX
9. 15E
06
2.34E
02
236
933
FLX
5.50E
05
3.07E
01
24 3
940
FLX
1 . 64E
05
3.07E
01
251
945
FLX
2.58E
04
5.99E
01
278
945
FLX
1 . 54 E
06
5. 1 7E
01
286
1000
FLX
6.77E
06
7.83E
01
292
955
FLX
1 . 43E
06
2.54E
01
GRB
3.28E
01
3.08E
02
306
1020
FLX
7 .84E
06
3.06E
02
31 3
1040
FLX
3.62E
06
1 .47E
02
320
1017
FLX
2. 12E
06
2.95E
02
327
1030
FLX
1 . 73E
06
4.14E
02
334
1205
FLX
1 . 86E
06
5.25E
02
GRB
1 .69E
00
5.99E
02
348
1120
FLX
9.11E
06
3.23E
02
355
1050
FLX
3.OOE
06
5.33E
02
GRB
4.65E
00
3.40E
02
IRON POTASSIUM CALCIUM MAGNESIUM SODIUM
1 .34E
03
2 . 78E
03
1 .22E
03
1 .91E
03
5.79E
03
1 . 12E
03
3.30E
03
1 .62E
03
3.85E
03
2 . 12E
04
1 . 17E
03
2. 15E
03
1 .61E
03
2.64E
03
4 .96 E
03
1 . 53E
03
2.21E
03
1 .65E
03
2.50E
03
4 . 7-1 E
03
5.37E
02
2.23E
03
1 .62E
03
2.37E
03
4.27E
03
8.24E
02
1 . 70E
03
1 .13E
03
1 .81E
03
4.73E
03
1 . 12E
03
1 . 71 E
03
1 .44E
03
2.41E
03
3.95E
03"
1 .07E
03
1 .94E
03
4.50E
03
2.52E
03
4.96E
03
1 .57E
03
2 .02E
03
5.67E
03
3.08E
03
5.02E
03
1 . 77E
03
9.62E
02
4.65E
03
2. 73E
03
4 . 48E
03
1 . 87E
03
2 .27E
03
6.61E
03
2.04E
03
4 .62 E
03
3.87E
03
3.31E
03
-4.94E
03
4.05E
03
3.63E
03
2.07E
03
2.53E
03
6.80E
03
2.94E
03
7.91E
03
3.03E
03
9.41E
02
5.59E
03
2.92E
03
1 . 13E
04
4.59E
03
3.09E
03
5.82E
03
3.02E
03
2.50E
03
4.26E
03
3 .57E
03
4.98E
03
2.63E
03
2.31E
03
4. 18E
03
2.57E
03
3.21E
03
3.08E
03
2.40E
03
8.65E
03
7 .62E
03
2.43E
03
3.20E
03
7.01E
03
6.48E
03
6.31E
03
3.92E
03
9.32E
03
6.08E
03
1 .64E
02
7.39E
03
9.07E
03
7.46E
03
6.91E
03
1 . I6E
02
7 .04E
03
6. 16E
03
6.84E
03
5. 25E
03
1 .03E
04
6.54E
03
3.92E
03
8 .61 E
03
7.05E
03
5.36E
03
6.14E
03
3.05E
03
5.82E
03
1 . 05E
02
7.26E
03
3.72E
03
7. 14E
03
9. 59E
01
6.91E
03
7.06E
03
1 . 26E
04
5.64E
03
5.09E
02
2.43E
03
3 . 05E
03
1 . 91 E
03
3.63E
03
6.54E
03
2.58E
03
4 .64E
03
1 . 18E
03
6 . 77E
02
6.82E
02
9. 51 E
03
3.99E
03
7.28E
03
7 . 17 E
03
5.33E
03
5.43E
03
6.57E
03
3.23E
03
5.44E
03
4.72E
03
4.54E
03
3.92E
03
2.37E
03
3.73E
03
3.01E
03
3 .48E
03
9.14E
03
1 .21E
03
9.51 E
03
1 .82E
03
3.74E
03
6.27E
03
2.66E
03
3 . 88 E
03
2.37E
03
4 .04E
03
3.34E
03
1 .79E
03
4.89E
03
9.64E
02
2 . 16E
03
2.86E
03
1 .53E
03
3.93E
03
1 . 14E
03
2 . 34E
03
7.03E
03
2. 17E
03
4 . 75E
03
1 . 32E
03
2 .09E
03
5.82E
03
2. 10E
03
4.46E
03
1 .89E
03
3.20E
03
1 .08E
04
2.70E
03
5.08E
03
3.83E
03
4 .04E
03
5.BSE
03
2.59E
03
2 .58E
04
4. 14E
03
4.50E
03
4.86E
03
2.78E
03
4.56E
03
1 .75E
03
3.58E
03
7.79E
03
3.30E
03
1 .28E
04
1 .33E
03
2.53E
03
4.38E
03
2.89E
03
5.73E
03
-------�
Table 28. (Continued)
WATERSHED 107
STA .
BEG.
DATE
END
DATE
TYPE
107
76
159
810
GRB
107
76
166
750
GRB
107
76
166
750
76
173
850
FLX
107
76
180
840
GRB
107
76
188
750
GRB
1 07
76
188
750
76
194
800
FLX
107
76
194
800
76
201
806
FLX
107
76
208
805
76
21 5
845
FLX
107
76
222
820
76
229
850
FLX
107
76
229
850
76
236
81 2
FLX
107
76
236
812
76
24 3
840
FLX
107
76
243
840
76
251
815
FLX
107
76
257
825
76
264
830
FLX
107
76
264
830
76
271
840
FLX
107
76
271
840
76
278
840
FLX
107
76
278
840
76
286
900
FLX
107
76
286
900
76
292
840
FLX
107
76
292
B'?0
76
300
900
FLX
107
76
300
9C0
76
306
930
FLX
107
76
306
930
76
313
940
FLX
107
76
313
9'10
76
320
910
FLX
107
76
320
910
76
327
930
FLX
107
76
327
930
76
334
1040
FLX
107
76
334
1040
76
341
940
FLX
107
76
341
940
76
348
1000
FLX
107
76
348
1000
76
355
940
FLX
107
76
355
940
76
362
940
FLX
FLOW RATE TOT FLOW
8.99E-01
4.92E-01
8.08E 05
3.88E-01
2.22E-01
2.11E 05
6.72E 05
9.69E 04
9.24E 05
1.90E 05
6.83E 04
2. 20E 03
6. 19E 04
0.
5. 19E 05
1 . 70E 06
4.63E 05
2.40E 06
1.88E 06
9.90E 05
6.96E 05
5.82E 05
3.91E 05
2.55E 05
6.04E 05
7.51E 05
9.39E 05
NICKEL
COPPER
ZINC
LEAD CHROMIUM
CADMIUM
2.03E
00
2.49E
00
1 . 27E
01
1 .09E 01 1.55E
01
0 .
1 .28E
01
4.33E
00
2.67E
01
3. 43E
00
0 .
6.07E
01
6.44E
00
2.41E
01
6.39E
00
0 .
1 .29E
01
4. 76E
00
8.38E
00
5.41E
00
0 .
1 .80E
01
3.33E
00
7 .60E
00
2.63E
00
5.60E-01
2.40E
01
4.83E
00
1 . 32E
0.1
2.94E
00
0.
3.95E
01
1 .59E
01
2 .61 E
01
3.80E
00
0.
1 .60E
01
2.76E
00
1 .82E
01
1 . 68E
00
8.92E-02
5. 18E
00
1 . 33E
01
6. 88E
00
7.55E
00
1 . 42E
01
3.31E
00
4.78E
00
9.04E
00
2.52E
00
6. 81 E
00
2 .43E
01
2. 98E
00
6.34E-01
5.37E
00
1 . 50E
01
4. 73E
00
6.74E
00
1 . 68E
01
2.80E
00
8.51 E
00
2.06E
01
3. 73E
00
4.21E
00
1 .05E
01
3. 03E
00
2.57E
00
2.24E
01
2.91E
00
3.74E
00
0 .
2.96E
00
3.07E
00
2 . OOE
01
3. 04E
00
0.
4.45E
00
1 .68E
01
3.52E
00
0.
2.48E
00
8.44E
00
2.82E
00
0.
3. 18E
00
1 .02E
01
2. 80E
00
0 .
2.61E
00
1 . 39E
01
2.96E
00
0 .
2.42E
00
1 .43E
01
2.75E
00
0.
3.06E
00
1 .48E
01
4.27E
00
1 .87 E
00
2.39E
01
5.43E
00
1 .81 E
00
1 .24E
01
2.89E
00
3.38E 00
-------�
Table 28. (Continued)
WATERSHED 107
STA.
BEG.
DATE
END
date
TYPE
FLOW RATE
TOT FLOW
MANGANESE
IRON
1 07
76
159
810
GRB
8.99E-01
8.61 E
01
5.25E
02
1 07
76
1 66
750
GRB
4.92E-01
6.27E
01
1 . 57E
03
1 07
76
166
750
76
173
850
FLX
0.
8.08E
05
1 .66E
02
7.87E
03
1 07
76
180
840
GRB
3.88E-01
9.92E
01
1 . 42E
03
107
76
1 88
750
GRB
2.22E-01
8.04E
00
1 . 54 E
03
107
7G
1 88
750
76
194
800
FLX
2 . 1 1 E
05
7.63E
01
3.92E
03
107
76
1 94
800
76
201
806
FLX
6.72E
05
1 .57E
02
8.61 E
03
1 07
76
208
805
76
21 5
845
FLX
9.69E
04
1 .2 1 E
02
2.82E
03
1 07
76
222
820
76
229
850
FLX
9.24E
05
1 .79E
02
3.95E
03
1 07
76
229
350
76
236
81 2
FLX
1 . 90E
05
3.54E
01
1 . 06E
03
1 07
76
236
812
76
24 3
840
FLX
6.83E
04
4.63E
01
1 .88E
03
1 07
76
243
s-;o
76
251
815
FLX
2 . 20E
03
5.49E
01
1 . 14E
04
1 07
76
257
825
76
264
830
FLX
6. 19E
04
5.04E
01
2.99E
03
1 07
76
264
830
76
27 1
840
. FLX
0.
2.99E
01
3.22E
03
107
76
271
840
76
278
840
FLX
5. 19E
05
3.99E
01
6.60E
03
1 07
76
278
840
76
236
900
FLX
1 . 70E
06
3.24E
01
1 .88E
03
l 07
76
286
900
76
292
840
FLX
4.63E
05
3. 1 2E
01
5.99E
02
1 07
76
292
840
76
300
900
FLX
2.40E
06
2.58E
02
1 .63E
03
1 07
76
300
900
76
306
930
FLX
1 . 88E
06
1 .49E
02
1 .01 E
03
1 07
76
306
930
76
31 3
940
FLX
9.90E
05
9.1 4E
01
6.03E
02
1 07
76
313
940
76
320
91 0
FLX
6.96E
05
1 .59E
02
8. 73E
02
1 07
76
320
910
76
32 7
930
FLX
5.82E
05
1 .58E
02
7.34E
02
107
76
327
930
76
334
1040
FLX
3.91E
05
1 .90E
02
7.79E
02
1 07
76
334
1 040
76
34 1
940
FLX
2.55E
05
6.60E
02
l 07
76
341
940
76
348
1 000
FLX
6.04E
05
1 . 78E
03
1 07
76
348
1 000
76
355
940
FLX
7.51E
05
2.37E
02
8.53E
02
107
76
355
940
76
362
940
FLX
9.39E
05
1 .1 9E
02
1 .36E
03
POTASSIUM CALCIUM MAGNESIUM SODIUM
2.67E
-03
6.22E
03
3. 79E
03
3 .88E
03
2 . 39E
03
8.91 E
03
5. 01 E
03
1 .55E
04
6.55E
03
4.04E
03
4.56E
03
6.35E
03
6.02E
03
1 .13E
04
3.96E
03
5 .50E
03
5.24E
03
8. 1 OE
03
3. 51 E
03
4 .91 E
03
5 . 20E
03
1 .15E
04
4. 13E
03
4 .56E
03
6.07E
03
5.98E
03
4.42E
03
5.47E
03
3.82E
03
2.90E
03
3.91E
03
5.70E
03
1 .20E
04
4.52E
03
7 .45E
03
4 . 34 E
03
4.29E
03
5.65E
03
4 . 52E
03
4 . 06E
03
4 .69E
03
4 . 24E
03
7.97E
03
4.87E
03
3 .70E
03
6. 10E
03
1 .74E
04
4 .92E
03
4 . 96E
03
3.94E
03
5.21E
03
6.85E
03
7.48E
03
6. 12E
03
3.84E
03
1 .22E
04
3. 70E
03
4 .63E
03
4.01E
03
4.32E
03
5.75E
03
3 . 69E
03
1 .21 E
04
3.89E
03
4 . OOE
03
2 . 99E
03
3.20E
03
5 .46E
03
3 . 30E
03
1 .2BE
04
4.23E
03
5.85E
03
2. 77E
03
8.26E
03
3. 55E
03
5. 19E
03
2 . 62E
03
7.89E
03
3.25E
03
5.09E
03
3. 10E
03
1 .1 9E
04
4.44E
03
5.71E
03
2 . 04E
03
8.43E
03
3. 10E
03
4 .08E
03
2.91E
03
6.80E
03
3.58E
03
4 .43E
03
2.73E
03
8.99E
03
3.47E
03
5.29E
03
2.58E
03
9.70E
03
3.74E
03
4.68E
03
-------�
Table 28. (Continued)
WATERSHED 108
STA.
BEG.
DATE
END
1 08
76
40
1515
76
1 08
76
47
1 1 25
76
1 08
76
54
1430
76
1 08
76
61
1 325
76
1 08
76
68
1340
76
1 08
76
75
1 305
76
i 08
76
82
1 445
76
108
76
89
1315
76
1 08
76
103
1318
1 08
76
1 10
1 340
76
1 08
76
1 1 7
1 307
76
1 08
76
1 24
1 330
76
1 08
76
131
1235
76
1 08
76
1 38
1 340
76
1 08
76
145
1310
76
1 08
76
153
1 320
76
1 08
76
159
1 345
76
1 08
76
166
1 345
76
108
76
1 73
1 425
76
1 08
76
188
1 330
76
1 08
76
1 94
1 308
76
1 08
76
201
1 300
76
1 08
76
208
1 325
76
1 08
76
215
1315
76
1 08
76
222
1 305
76
1 C8
76
229
1 325
76
1 08
76
236
1 235
76
1 08
76
243.
1255
76
1 08
76
251
1 330
76
1 08
76
257
1340
76
1 08
76
264
1 305
76
1 08
76
271
1 330
76
1 08
76
278
1 340
76
1 08
76
292
1 320
76
1 08
76
300
1 330
76
1 08
76
306
1505
76
1 08
76
320
1335
76
1 08
76
327
1 400
76
1 08
76
334
1 555
76
108
76
341
1515
76
1 08
76
348
1450
76
1 08
76
355
1420
76
TYPE FLOW RATE TOT FLOW
1 1 25
FLX
1 . 43E
07
1 430
FLX
1 .44 E
07
1325
FLX
1 . 1 1E
07
1340
FLX
1 .01 E
07
1305
FLX
1 . 76E
07
1 445
FLX
1 . 25E
07
131 5
FLX
1 .04E
07
1415
FLX
1 .81E
07
GRB
1.40E 01
1307
FLX
6.78E
06
1 330
FLX
9.58E
06
1 235
FLX
4 . 33E
06
1 340
FLX
4. 1 1 E
06
1310
FLX
4.61E
06
1 320
FLX
7 . 07E
06
1345
FLX
1 . 71 E
06
1345
FLX
3.47E
05
1425
FLX
1 . 28E
07
1400
FLX
6.33E
05
1 308
FLX
5.86E
05
1 300
FLX
5.80E
06
1325
FLX
4.28E
03
1315
FLX
8 . 47E
04
1305
FLX
6.63E
06
1325
FLX
6.59E
06
1 235
FLX
4.80E
05
1255
FLX
4.94E
05
1330
FLX
3.30E
02
1340
FLX
0 .
1 305
FLX
4.84E
05
1 330
FLX
0.
1 340
FLX
3.91E
06
1350
FLX
1 . 69E
07
1 330
FLX
2 . 43E
07
1505
FLX
1 . 51 E
07
1455
FLX
6.31E
06
1400
FLX
3.81E
06
1555
FLX
4.20E
06
151 5
FLX
3.65E
06
1450
FLX
2. 13E
07
1420
FLX
5.84E
06
1435
FLX
7.34E
06
DATE
47
54
61
68
75
82
89
96
1 1 7
124
131
138
145
153
159
166
173
180
194
201
208
21 5
222
229
236
24 3
251
257 .
264
271
278
286
30 0
306
31 3
327
334
341
348
355
362
NICKEL
2.69E 01
2.45E 01
3.80E 01
3.21E 01
7.76E 00
4.59E 00
6.47E 00
4.52E 00
3.60E 00
5.82E 00
2.62E 00
1.37E 01
1.43E 01
1.49E 01
8.47E 00
2.05E 00
1.97E 01
1.46E 01
1.97E 01
5.47E 01
5.34E 01
2.75E 01
1.90E 01
COPPER
3.69E
00
3.92E
00
4.60E
00
4.75E
00
4.02E
00
2.30E
00
3.76E
00
4.30E
00
2.56E
00
3.90E
00
7. 84E
00
9.02E
00
5.00E
00
4.04E
00
7.04E
00
2.94E
oo
8.99E
00
3.81 E
00
2.22E
01
1 .90E
01
1 . 73E-
01
1 . 26E
01
6.39E
00
1 .64 E
01
7.77E
00
5.44E
00
5.30E
00
2.57E
00
5.67E
00
5. 1 3E
00
6.05E
00
8.31E-
-01
5.21E
00
1 . 74E
00
3.49E
00
4.49E
00
1 . 05E
00
4.96E
00
8.03E
00
3.77E
00
2.96E
00
3.80E
00
ZINC
2.21E 01
2.30E 01
4.35E 01
3.93E 01
4.33E 01
2.70E 01
2.95E 01
3.71E 01
2.85E 01
1.01E 01
2.23E 01
1.28E 01
2.07E 01
4.98E 01
1.28E 01
3.16E 01
0 .
0.
7 .84E 01
1.73E 01
3.44E 01
2.89E 01
5.97E 01
1.26E 01
1.10E 01
3.61E 01
1.86E 01
2.56E 01
3.47E 01
2.79E 01
1 . 74E 01
2.66E 01
1.74E 01
2.29E 01
4.39E 01
1.72E 01
1.89E 01
LEAD
5.50E 00
9.84E 00
5.87E 00
1 .19E 01
1 .31E 01
6.75E 00
7.45E 00
1 .64E 01
7.52E 00
8.56E 00
9.49E 00
9.76E 00
9.30E 00
1 .1OE 01
2.64E 01
1 .82E 01
CHROMIUM
1.09E 01
1.54E 01
1.81E 01
2.75E 01
2.85E 01
1.31E 01
1.60E 01
3.40E 01
1.04E 01
2.29E 01
3.19E 01
1 .87E 01
2.60E 01
1.88E 01
4.41E 01
8.80E 00
4.73E 00
6.08E 00
1.98E 00
7.51E 00
3.50E 00
3.19E 00
2.10E 00
3.68E 00
6.15E 00
3.92E 00
4.67E 00
2.91E 00
2.98E 00
4.52E 00
2.98E 00
2.24E 00
2.94E 00
3.50E 00
3.08E 00
2.96E 00
2.82E 00
2.80E 00
3.02E 00
5.43E 00
7.76E 00
3.01E 00
CADMIUM
6.50E-01
5.92E-01
1 . 1 1 E 00
2.01E 00
2. 12E 01
0.
7.90E-01
2.27E-01
0.
0.
9. 19E-01
3.93E-01
8.24E-01
1 .49E 00
1.70E 00
4.43E-01
0 .
0 .
8.95E-01
9.97E-01
2.42E 00
1.70E-01
9.48E-01
0 .
0 .
4 .09E-01
6.29E-01
0.
0 .
0.
8.79E 00
-------�
T3ble 28. (Continued)
WATERSHED 108
STA.
BEG.
DATE
END
DATE
TYPE
FLOW RATE
TOT FLOW
MANGANESE
IRON
1 08
76
40
1515
76
47
1 125
FLX
1 .43E
07
8.41 E
02
5.08E
03
l 06
76
47
1 1 25
76
54
1430
FLX
1 .44E
07
2. 18E
02
2.71E
03
1 08
76
54
1 430
76
61
1325
FLX
1 . 1 1 E
07
2.55E
02
3. 78E
03
108
76
61
1 325
76
68
1 340
FLX
1 . 01 E
07
3.46E
02
1 . OOE
04
108
76
68
1 3'"-0
76
75
1305
FLX
1 . 76E
07
3.48E
02
3.58E
02
1 08
76
75
1 305
76
82
1445
FLX
1 . 25E
07
2.90E
02
4. 14E
03
1 0 8
76
82
1 445
76
89
131 5
FLX
1 .04E
07
2.77E
02
2.43E
02
108
7 6
89
1315
76
96
1415
FLX
1 . 81 E
07
3.07E
02
3.84E
02
108
76
1 03
1 31 8
GRB
1.40E 01
2.71 E
02
2. 19E
03
1 08
76
1 10
1 3/:0
75
1 1 7
1307
FLX
6.78E
06
7.09E
01
2.49E
03
1 08
76
1 1 7
1 307
76 "
124
1 330
FLX
9.58E
06
2. 1 6E
02
1 . 08E
02
1 08
70
1 24
1 30
76
131
1 235
FLX
4 . 33E
06
1 .45E
02
2.62E
03
1 C8
76
131
1 235
76
130
1340
FLX
4 . 1 1 E
06
2.24E
02
1 . 23E
02
108
76
1 38
1 J'50
76
145
1310
FLX
4 . 61 E
06
3. 1 9E
02
9. 96E
03
1 C8
76
145
1310
76
153
1 320
FLX
7.07E
06
5.74E
02
2.42E
04
1 08
76
1 53
1 320
76
159
1 345
FLX
1 .71E
06
1 .63E
02
3.68E
03
1 09
76
159
1 345
76
166
1 345
FLX
3.47E
05
4.84E
02
1 . 14E
04
1 08
76
106
1
76
173
1425
FLX
1 . 28E
07
6.52E
01
3. 37E
02
1 08
76
173
1 425
76
180
1400
FLX
6.33E
05
6.44E
02
3.47E
03
1 C 8
76
1 88
1 330
76
194
1306
FLX
5.86E
05
8.2BE
02
3. 29E
02
: 03
76
1 94
1 3CB
76
20 1
130 0
FLX
5 .80E
06
7.34E
02
1 .53E
02
; 08
76
201
1 300
76
208
1 325
FLX
4 . 28E
03
5.45E
02
2.57E
03
1 08
76
208
1 325
76
21 5
1315
FLX
8 . 47E
04
2.63E
02
4.55E
03
108
76
215
1315
76
222
1305
FLX
6.63E
06
5. 1 7E
02
1 . 62E
02
1 08
76
222
1 305
76
229
1325
FLX
6.59E
06
3.01 E
02
5.66E
03
1 08
76
229
1 325
76
236
1235
FLX
4.80E
05
4. 1 8E
01
1 . 16E
03
1 08
76
236
1 235
76
243
1 255
FLX
4 . 94 E
05
8.57E
01
2.05E
02
1 08
76
243
1 2 = 5
76
25 1
1330
FLX
3.30E
02
5.33E
01
9. 02E
02
108
76
251
1 3':0
76
237
1340
FLX
0.
5.49E
01
1 . 78E
03
1 03
76
257
1 3--0
76
254
1305
FLX
4.84E
05
8.28E
01
1 .24E
03
1 08
76
264
1 30 5
76
271
1330
FLX
0.
5.49E
01
1 . 85E
03
1 08
76
271
1 33 "J
76
278
1340
FLX
3.91 E
06
4. 1 OE
01
2.68E
03
1 08
76
278
1 34 0
76
286
1350
FLX
1 . 69E
07
9.88E
01
4.96E
03
1 08
76
292
1 320
76
300
1330
FLX
2.43E
07
3.58E
02
3.05E
03
1 OS
76
300
1 330
76
306
1505
FLX
1 . 51 E
07
1 .7 4E
02
1 . 1 3E
03
108
76
306
1 5CS
76
3". 3
1455
FLX
6.31E
06
7.71 E
01
5.04E
02
1 08
76
320
1 335
76
327
1400
FLX
3.81E
06
1 .59E
02
3.84E
02
108
76
327
1 400
76
334
1555
FLX
4.20E
06
1 .37E
02
5.08E
02
108
76
334
1555
76
34 1
1515
FLX
3.65E
06
1 .01 E
02
1 . 25E
03
108
76
341
1515
76
343
1450
FLX
2. 13E
07
3.06E
02
2.95E
03
1 08
76
348
1 450
76
355
1420
FLX
5.84E
06
1 .89E
02
6.36E
02
1 08
76
355
1420
76
362
1435
FLX
7.34E
06
3.21E
01
1 . 17E
03
POTASSIUM CALCIUM MAGNESIUM SODIUM
5.99E
03
3.99E
03
5.70E
03
1 . 55 E
04
2.03E
03
1 .78E
03
2. 18E
03
5.72E
03
2 . 49E
03
1 .83E
03
2.46E
03
5 -54E
03
2 .81 E
03
4.66E
03
2.74E
03
6.09E
03
2 . 60E
03
1 .54E
03
3.29E
03
8 . 49E
03
1 .86E
03
2.1 5E
03
4. 13E
03
5 . 14 E
03
2 . 12E
03
3.20E
03
3. 15E
03
4 .86E
03
2.04E
03
5.25E
03
3.92E
03
5 .86E
03
1 . 70E
03
7.06E
03
3. 13E
03
5 . 51 E
03
2 .53E
03
9.96E
03
2.40E
03
5.05E
03
2 . 21 E
03
9.38E
03
3.25E
03
5.92E
03
6.99E
02
1 .05E
04
2.83E
03
4.99E
03
6. 66E
02
8.30E
03
3. 23E
03
5 . 13E
03
2 . 53E
03
7.68E
03
3.24E
03
2 . 83 E
03
3 . 99E
03
3.1 OE
03
3.31E
03
1 . 90 E
03
2. 10E
03
4.59E
03
3.07E
03
3.98E
03
8 . 49E
03
7. 1 5E
03
2.94E
03
7 . 23E
03
5. 97E
03
2.43E
03
6. 97E
03
5 . 38E
03
6.51E
03
6.38E
03
2.31E
03
6.03E
03
8.52E
03
3.09E
03
5.36E
03
7.97E
03
9.26E
03
1 .57E
03
5.31E
03
8 .54E
03
7 . 69E
03
1 .2 2E
04
3.24E
03
7 . 51 E
03
7 . 67E
03
2. 76E
03
7 . 46 E
03
1 . 03E
04
2.01 E
03
5.32E
03
6. 29E
03
9.96E
03
9.98E
03
4. 16E
03
5.71 E
03
5.99E
03
1 .26E
04
2. 94E
03
5.64E
03
7.66E
03
1 .31E
04
2.63E
03
7 . 87 E
03
6 . 70E
03
2.63E
03
'5 . 30 E
03
1 . 14E
04
2.58E
03
1 . 05E
04
5.33E
03
1 .41E
04
6 . 01 E
03
6.60E
03
3. 19E
03
6 . 29E
03
4 . 90E
03
2. 73E
03
5 . 26E
03
4.75E
03
6.20E
03
2.76E
03
4. 10E
03
4.51E
03
6.65E
03
2.50E
03
3 .87 E
03
2.89E
03
5.85E
03
1 .68E
03
4.50E
03
2.65E
03
9.07E
03
2.22E
03
5. 12E
03
1 .90E
03
7.09E
03
1 .91 E
03
4 .38 E
03
2.69E
03
0.23E
03
2.57E
03
5. 15E
03
3. 16E
03
7.47E
03
2.27E
03
4 .54 E
03
4 .57 E
03
5.79E
03
2.52E
03
4.30E
03
2.43E
03
7.85E
03
2.32E
03
5.01 E
03
2.36E
03
6.86E
03
2.48E
03
5.OOE
03
-------�
Table 28. (Continued)
WATERSHED 109
S TA .
BEG.
DATE
END
DAT
1 09
76
138
1420
76
145
1 09
76
153
1410
1 09
76
159
1420
1 09
76
159
1420
76
166
1 09
76
1 66
1430
76
173
1 09
76
1 73
1508
76
180
109
76
188
1404
76
194
1 09
76
194
1345
76
201
1 09
76
215
1 345
76
222
1 09
76
222
1 350
76
229
1 09
76
229
1418
76
236
109
76
278
1440
76
286
1 09
76
286
1435
76
292
1 09
76
313
1540
76
320
1 09
76
320'
1415
76
327
1 09
76
327
1440
76
334
1 09
76
334
1620
76 .
341
1 09
76
341
1600
76
348
109
76
348
1535
76
355
1 09
76
355
1500
76
362
TYPE FLOW RATE TOT FLOW
350
FLX
2.74E
05
GRB
2.22E-01
GRB
3.92E-02
430
FLX
1 .57E
04
508
FLX
7 .83E
05
500
FLX
5 .35E
04
345
FLX
5.40E
04
430
FLX
1 .65E
06
350
FLX
8.93E
05
418
FLX
4.46E
05
335
FLX
1 . 21 E
04
435
FLX
1 .05E
06
410
FLX
1 .51 E
05
415
FLX
4 .95E
05
440
FLX
4 .09E
05
620
FLX
5.06E
05
600
FLX
3.09E
05
535
FLX
1 .36E
06
500
FLX
6.91E
05
515
FLX
4.58E
06
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
NICKEL
COPPER
ZINC
LEAD
CHROMIl
JM
CADMIUM
6.08E
00
5.99E
00
1 . 67 E
01
5.91 E
00
7.42E
00
6.27E-01
1 .7 3E
00
2.84E
00
1 . 62 E
01
6.24E
00
5. 14E
00
1.05E 00
3. 1 6E
00
3.23E
00
1 . 32E
01
1 .98E
01
5. 15E
00
0.
1 .72E
01
7.78E
00
1 . 37E
01
8.84E
00
0.
2.70E
01
1 . -1OE
01
3.55E
01
7. 25E
00
0 .
i .31 E
01
4.45E
00
1 . 26E
01
3.52E
00
1.87E-01
1 . 14E
01
2.88E
01
3. 75E
00
0 .
1 .48E
01
1 .54 E
01
3.59E
01
4.50E
00
0 .
8.43E
00
2.51E
01
1 . 70E
00
9.97E
00
7.34E
01
6.06E
00
1 . OOE
01
1 . 44 E
01
4. 66E
00
3.13E
00
2.60E
01
3. 10E
00
6.22E
00
4.55E
01
5.48E
00
1 .49E
00
1 . 62 E
01
2.98E
00
1.59E-01
2.92E
00
1 .83E
01
3.31E
00
0 .
2.91 E
00
2.62E
01
2.89E
00
0 .
1 .55E
00
1 .06E
01
3. 10E
00
0.
3.28E
00
2.32E
01
7.63E
00
3.08E
00
1 .44E
01
6.81E
00
3.97E
00
2.08E
01
3. 15E
00
0.
-------�
Table 28. (Continued)
WATERSHED 109
STA .
BEG.
DATE
END
DATE
TYPE
FLOW RATE
TOT FLOW
MANGANESE
IRON
POTASSIUM CALCIUM
MAGNESIUM S0DI
1 09
76
1 38
1420
76
145
1350
FLX
2.74E
05
1 .05E
02
2.49E
03
2. 15E
03
6.26E
03
2.37E
03
2.32E
03
1 09
76
1 53
1 4 i 0
GRB
2.22E-01
9.51E
01
1 . 72E
03
2.09E
03
4.73E
02
2.33E
03
2 . 18E
03
1 09
76
159
1420
GR8
3.92E-02
1 .34E
02
2.25E
03
2.35E
03
3.19E
03
2. 62E
03
1 . 57 E
03
103
76
1 59
1420
76
166
1430
FLX
1 .57E
04
2.69E
01
2.22E
03
7.51E
03
1 .70E
03
1 . 84E
03
5.05E
03
1 C9
76
1 66
1430
76
173
1508
FLX
7.83E
05
2.44E
02
1 . 25E
04
7.44E
03
1 .22E
03
4. 50E
03
7.05E
03
1 09
76
1 73
1500
76
180
1500
FLX
5.35E
04
1 .46E
02
2.75E
03
5 . 23E
03
8.25E
03
2. 18Ŗ
03
4 . 60 E
03
109
76
188
1 404
76
1 94
1345
FLX
5.40E
04
1 .55E
02
1 . 09E
04
3 . 1 1 E
03
2 .4 2 E
03
3. 24E
03
2. 73E
03
109
75
1 94
1 3^5
76
201
1430
FLX
1 .65E
06
1 .86E
02
9.06E
03
4 . 52E
03
1 .19E
03
2.79E-
03
4.58E
03
l C9
76
215
1 345
76
222
1350
FLX
8.93E
05
1 .35E
02
8.20E
02
1 .93E
03
3.68E
02
1 . 60E
03
1 . 77 E
03
1 09
76
222
1 350
76
229
1418
FLX
4 .46E
05
1 . 1 1 E
02
5.37E
03
3 . 96E
03
8.94E
03
2.40E
03
4 . 14 E
03
1 09
75
229
1/118
76
236
1335
FLX
1 .21E
04
1 .4 2E
01
1 . 55E
03
3 . 56E
03
6.88E
03
2. 1 1 E
03
5.68E
03
109
76
278
1 4 4 0
76
286
1435
FLX
1 .05E
06
9.43E
00
2.67E
03
3. 18E
03
5.82E
03
2.62E
03
3.91 E
03
109
76
286
1 435
76
292
1410
FLX
1 . 51 E
05
1 .67E
01
1 . 06E
03
3.22E
03
7.95E
03
2.58E
03
5.08E
03
109
76
313
1540
76
320
1415
FLX
4 .95E
05
2.14E
02
1 . 06E
03
2 . 21 E
03
6.81 E
03
2.52E
03
4.56E
03
109
76
320
1 4 ' 5
75
327
1 440
FLX
4.09E
05
2. 1 3E
02
1 . 02E
03
2 . 38E
03
6.70E
03
2.49E
03
4 . 69 E
03
1 09
76
327
1 440
75
334
1620
FLX
5.06E
05
7.63E
02
2.79E
03
2 . 84E
03
5.0 1 E
03
2.71E
03
4. 16E
03
109
76
334
1620
76
341
1600
FLX
3.09E
05
5.29E
02
1 .41 E
03
4.38E
03
1 . 81 E
03
3. 15E
03
1 09
76
341
1 600
76
34 3
1535
FLX
1 .36E
06
2.03E
03
2.78E
03
6.56E
03
2.82E
03
3. 78E
03
1 09
76
34e
1 535
76
355
1500
FLX
6.91E
05
1 .26E
02
1 . 33E
03
2 . 1 9E
03
7.04E
03
2.52E
03
4.67E
03
109
76
355
1500
76
362
1515
FLX
4.58E
06
2.02E
02
1 .30E
03
2 . 12E
03
6.22E
03
2.60E
03
4.04E
03
-r*
o
ro
-------�
TIME
STATION DEPTH AREA POTAMOGETON POTAMOGETON MYRIOPHYLLUM RUPP1A 2ANICHELIIA
ELODEA ZOSTERA
RAKED PERFOLIATUS PECTINATUS SPICATUM
DRY WT 0 DRY WT
DRY WT
MAR IT IMA
0 DRY WT
PALUSTRIS
0 DRY WT
CANADENSIS MARATIMA
0 DRY WT 0 DRY WT
M
M* *2
MG
MG
MG
MG
MG
MG
MG
7
146
1150
RHO
031 .5
00.25
1 .6
0
0
0
0
0
0
1 2
78
140
4792
0
0
0
0
7
153
1 1 00
RH0
031 .5
00.25
2.4
0
0
0
0
0
0
149
1156
514
4770
0
0
0
0
7
161
1350
RH0
031 .5
00. 10
000
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
173
0940
RHO
00028
01 .00
040
0
0
0
0
0
0
30
84. 1
0
0
0
0
0
0
7
173
11 25
RHO
028.4
01 .00
004
0
0
0
0
0
0
0
0
578
6051.9
0
0
0
0
7
173
1050
RHO
00029
01 .00
040
0
0
0
0
0
0
1
136
1 1
1398
0
0
0
0
7
173
11 30
RHO
030 . 2
01 .00
040
0
0
0
0
0
0
127
1676
0
0
0
0
a
0
7
173
1315
RHO
031 .5
01 .00
004
0
0
0
0
0
0
78
1218
37
316
0
0
0
0
7
179
RHO
031 .5
00.58
004
0
0
0
0
0
0
29
748
1
3
0
0
0
0
7
180
1740
CHP
00071
01 .00
040
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
180
1635
CHP
00072
01 .00
040
1
142
.8
0
0
0
0
74
1790
0
0
0
0
0
0
7
180
1530
CHP
00073
01 .00
080
0
0
0
0
0
0
3
14.8
0
0
0
0
0
0
7
180
1415
CHP
00074
01 .00
040
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
180
1310
CHP
00075
01 .00
040
0
0
0
0
0
0
0
0
O
0
0
0
0
0
7
181
CHP
00076
01 .00
040
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
180
1010
CHP
00077
01 .00
040
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
180
0845
CHP
00078
01 .00
040
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
181
1050
POP
00081
01 .00
080
0
0
0
0
0
0
1
5.5
10
43.2
0
0
0
0
7
181
1115
POP
00082
01 .00
080
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
181
1 145
POP
00083
01 .00
080
0
0
0
0
0
0
0
0
14
93.6
0
0
0
0
7
181
1230
POP
00084
01 .00
080
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
188
RHO
031 .5
00.25
004
0
0
0
0
0
0
95
2001
1
6
0
0
0
0
7
194
1300
RHO
031 .5
00.40
004
0
0
0
0
0
0
3
46
0
0
0
0
0
0
7
202
0945
RHO
00028
01 .00
040
0
0
0
0
0
0
30
142
0
0
0
0
0
0
7
202
1030
RHO
028.4
01 .00
080
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
202
1 140
RHO
030.2
01 .00
080
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
202
1400
RHO
031 .5
01 .00
004
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
209
RHO
031 .5
00.50
004
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
217
RHO
031 .5
00.60
004
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
222
RHO
031 .5
00.50
004
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
238
RHO
031 .5
00.50
004
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
237
1 352
CHP
00071
01 .00
040
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
237
1242
CHP
00072
01 .00
040
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
237
1 125
CHP
00073
01 .00
040
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
237
1457
CHP
00074
01 .00
040
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
237
1358
CHP
00075
01 .00
040
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
237
1235
CHP
00076
01 .00
040
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
237
1040
CHP
00077
01 .00
040
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
237
0940
CHP
00078
01 .00
040
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
238
1623
POP
00081
01 .00
040
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
238
1604
POP
00082
01 .00
040
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
238
1542
POP
00083
01 .00
040
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
238
1518
POP
00084
01 .00
040
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
243
0935
RHO
00028
01 .00
040
0
0
0
0
0
0
11
118
0
0
0
0
0
0
7
243
1000
RHO
028.4
01 .00
080
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
243
1035
RHO
00029
01 .00
080
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
243
1210
RHO
030.2
01 .00
080
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
243
1 120
RHO
031 .5
01 .00
004
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
252
0800
RHO
031 .5
00.50
004
0
0
0
0
0
0
0
0
0
0
0
0
0
0
7
258
1230
RHO
031 .5
00.20
004
0
0
0
0
0
0
0
0
0
0
0
0
0
0
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-------�
TIME
STATION
DEPTH
AREA
POTAMOGETON
POTAMOGETON
MYRIOPHYLLUM
RAKED
PERFOLIATUS
PECTINATUS
SPICATUM
H
DRY WT
tt
DRY WT
DRY
WT
M
M**2
MG
MG
MG
77
264
0920
RHO
00028
00.75
040
0
0
0
0
0
0
77
264
0950
RHO
028.4
01 .00
080
0
0
0
0
0
0
77
264
1025
RHO
00029
01 .00
080
0
0
0
0
0
0
77
264
1 100
RHO
030.2
01 .00
080
0
0
0
0
0
0
77
264
1115
RHO
031 .5
01 .00
080
0
0
0
0
0
0
77
292
1110
RHO
00028
01 .00
040
0
0
0
0
0
0
77
292
1 135
RHO
028.4
01 .00
040
0
0
0
0
0
0
77
292
1205
RHO
00029
01 . 00
040
0
0
0
0
0
0
77
292
1235
RHO
030 . 2
01 . 00
040
0
0
0
0
0
0
77
292
1400
RHO
031 .5
01 . 00
040
0
0
0
0
0
0
77
301
RHO
031 .5
00.50
004
0
0
0
0
0
0
77
299
1700
CHP
00071
01 .00
040
0
0
0
0
0
0
77
299
1555
CHP
00072
01 . 00
040
0
0
0
0
0
0
77
299
1450
CHP
00073
01 . 00
040
0
0
0
0
0
0
77
299
1335
CHP
00074
01 .00
040
0
0
0
0
0
0
77
299
1245
CHP
00075
01 .00
040
0
0
0
0
0
0
77
299
1200
CHP
00076
01 .00
040
0
0
0
0
0
0
77
299
1022
CHP
00077
01 .00
040
0
0
0
0
0
0
77
299
0850
CHP
00078
01 .00
040
0
0
0
0
0
0
77
300
1050
POP
00081
01 .00
040
0
0
0
0
0
0
77
300
1115
POP
00082
01 .00
040
0
0
0
0
0
0
77
300
1 140
POP
00083
01 .00
040
0
0
0
0
0
0
77
300
1205
POP
00084
01 .00
040
0
0
0
0
0
0
78
1 10
1 1 00
RHO
00028
00. 75
040
0
0
0
0
0
0
78
110
1 1 40
RHO
028.4
00. 75
040
0
0
0
0
0
0
78
110
1200
RHO
00029
00. 75
040
0
0
0
0
0
0
78
1 10
1230
RHO
030.2
00.50
040
0
0
0
0
0
0
78
1 10
1000
RHO
031 .5
00. 50
6.4
0
0
0
0
0
0
78
1 17
1500
RHO
031 . 5
00.50
004
0
0
0
0
0
0
78
122
0930
RHO
031 .5
00.25
004
0
0
0
0
0
0
78
131
0900
RHO
031 .5
00.50
004
0
0
0
0
0
0
78
1 38
1400
RHO
031 .5
00.60
004
0
0
0
0
0
0
78
143
1040
RHO
00028
00. 75
040
0
0
0
0
0
0
78
143
1115
RHO
028.4
00. 75
040
0
0
0
0
0
0
78
143
1 1 40
RHO
00029
00. 75
040
0
0
0
0
0
0
78
143
1220
RHO
030.2
00.50
040
0
0
0
0
0
0
78
143
0900
RHO
031 .5
00. 50
004
0
0
0
0
0
0
78
152
1400
RHO
031 .5
00.50
004
0
0
0
0
0
0
78
158
1200
RHO
031 .5
00.50
004
0
0
0
0
0
0
78
166
1230
RHO
031 .5
00.50
1 .6
0
0
7
1173.6
0
0
78
172
1000
RHO
00028
00. 50
040
0
0
7
1994.5
0
0
78
172
1040
RHO
028.4
00. 50
010
3
121 .4
0
0
0
0
78
172
1105
RHO
00029
00.50
040
0
0
0
0
0
0
78
172
1205
RHO
030.2
00. 50
040
0
0
0
0
0
0
78
1 72
1345
RHO
031 .5
00. 50
2.4
0
0
48
5646.8
0
0
78
186
1200
RHO
031 .5
00.50
004
0
0
34
B470
0
0
78
193
1315
RHO
031 .5
00.50
004
0
0
74
12016
0
0
78
207
0945
RHO
00028
00.75
040
0
0
1
13
0
0
78
207
1045
RHO
028.4
00.75
040
18
1546
0
0
0
0
78
207
1105
RHO
00029
00.75
040
0
0
0
0
0
0
RUPPIA ZANICHELLIA
MAR ITIMA PALUSTRIS
ģ DRY WT H DRY WT
MG MQ
43
599
0
0
43
0
0
0
43
0
0
0
43
0
0
0
43
0
0
0
10
131 .3
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
19
250
0
0
6
90
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
19
35
0
0
0
0
2
2
6
14
13
13
31
40
0
0
2
19.2
0
0
0
0
8
22. 7
0
0
0
0
0
0
21
12
0
0
0
0
2
6
97
334
2
23
79
193
3
0
0
0
0
0
71
989.7
10
161 .1
1 1
89.3
310
24200
3
23.0
17
233.0
46
337.6
325
2365.2
14
132.3
338
2293.1
0
0
82
1362
43
518
67
1682
3
13
ELODEA
ZOSTERA
CANADENSIS MARAT IMA
ģ DRY WT # DRY WT
MQ MQ
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
Q>
cr
fD
ro
o
o
n>
CL
o
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
-------�
TIME
STATION DEPTH AREA POTAMOGETON POTAMOGETON MYRIOPHYLLUM RUPPIA ZANICHELLIA ELODEA
ZOSTERA
RAKED PERFOLIATUS
# DRY WT
M**2 MG
PECTINATUS
II DRY WT
MG
SPICATUM
0 DRY WT
MG
MARITIMA
It DRY WT
MO
PALUSTRIS
# DRY WT
MG
CANADENSIS MARATIMA
ģ DRY WT ģ DRY WT
MG
MG
78 207 1155 RHO 030.2 00.75 040
78 207 1230 RHO 031.5 0032 003
0
4 00
0
0
0
0
0 101
1153
o
cn
-------�
TIME STATION DEPTH SAND SILT CLAY ORGANIC
FROM TO MATTER
CM % % % %
76
296
1615
CHP
00071
0
-
3
76
296
1415
CHP
00072
0
-
3
12. 24
79.56
08 . 20
02.85
76
296
1415
CHP
0C072
3
-
6
14.12
78.56
07 . 33
03. 15
76
296
1230
CHP
00073
0
-
3
96. 17
02 .39
01 .44
01.18
76
296
1 230
CHP
00073
3
-
6
79. 26
09 .96
1 0 . 78
24. 13
76
295
10 15
POP
00081
0
-
3
51.51
43.75
04 . 73
02.47
76
295
1015
POP
00081
3
-
6
78. 75
18 .43
02.82
02.05
76
295
14 15
POP
00082
0
-
3
89.58
08.32
02.10
01 . 42
76
295
14 15
POP
0C082
3
-
' 6
70. 73
25 . 1 4
0 4.13
02.22
76
295
1500
POP
00083
0
-
3
96.64
02 .51
00 .35
OC . 67
76
295
1500
POP
00083
3
-
6
96.62
02 .02
01 .36
OC. 63
76
295
1530
POP
00084
0
-
3
28.69
59.22
12.08
03. 87
76
295
1 530
POP
00084
3
-
6
14.62
76. 1 f.
09.20
1 1 . 29
76
302
1030
RHO
00028
0
-
3
95. 47
02. n
02.53
02.87
76
302
1 030
RHO
00028
3
-
6
94 . 91
03.04
02 . 05
02. 97)
76
302
1115
RHO
028 . 4
0
-
3
90.84
05 .97
03.19
05.40
7 6
302
1115
RHO
028.4
3
-
6
05.07
76
302
1 1 55
RHO
00029
0
-
3
92 . 76
04 .73
02.52
02.55
76
302
1 1 55
RHO
00029
3
-
6
94 . 66
03.91
01 .43
02. 52
76
302
1330
RHO
030 . 2
0
-
3
92.46
04 .e4
02.71
02.93
7 6
302
1 330
RHO
030.2
3
-
6
95. 17
02 .99
0' .84
01 . 54
76
302
1415
RHO
031 .5
0
-
3
11 .34
68 .09
20.58
1 3. 1.4
76
302
1415
RHO
031 .5
3
-
6
28.25
53. dl
1 7 .85
14.26
7 6
336
RHO
00028
0
-
3
95.24
01 .69
02 .87
04. 69
76
336
RHO
00028
3
-
6
96.99
01 .32
01 .69
03.84
7b
336
RHO
0^8.4
0
-
3
70.65
20 .52
03.83
05. 75
76
336
RHO
028.4
3
-
6
76. 72
17 .87
05 . 41
06. 15
76
336
RHO
00029
0
-
3
97.63
01 .01
01 .36
00.98
76
336
RHO
00029
3
-
6
98.05
00.92
01 . 04
01 . 41
76
336
RHO
030.2
0
-
3
92.83
04 .87
02.30
02. 98
76
336
RHO
030 .2
3
-
6
93.04
04 .60
02.42
02. 31
77
027
RHO
030 .2
3
-
6
03.25
87 .65
09.00
17.49
77
027
RHO
031 . 5
0
-
3
1 3. 27
77
027
RHO
031.5
3
-
6
02.84
o
00
00
08.76
14.52
77
066
RHO
00028
0
-
3
02. 78
77
063
RHO
028 .4
0
-
3
05. 28
77
068
RHO
00029
0
-
3
04. 09
77
0G8
RHO
030 .2
0
-
3
13.72
77
068
RHO
031 .5
0
-
3
1 3. 92
77
068
RHO
031 . 5
3
-
6
16.05
67.21
16.75
14.27
77
1 03
1 100
RHO
00028
0
-
3
95. 16
01 .46
02.37
04. 18
77
1 03
1 100
RHO
00028
3
-
6
95.06
02 . 14
02.81
03.53
77
1 03
1 140
RHO
028.4
3
-
6
81 .98
1 1 . 22
06.80
06. 11
77
1 03
1 209
RHO
00029
0
-
3
92.34
05 .50
02 .60
04.49
77
1 03
1209
RHO
00029
3
-
6
90 . 78
05.44
03.78
04.49
77
1 03
1252
RHO
030.2
0
-
3
83.84
1 1 .43
04 . 73
03.82
77
1 03
1 252
RHO
030.2
3
-
6
85.22
12 .05
02.73
03.21
77
1 1 7
1201
CHP
00071
0
-
3
97. 34
00 .98
01 .68
01.18
TIME
STATION
DEPTH
SAND
SILT CLAY ORGANIC
FROM
CM
TO
77
1 17
1620
CHP
00072
0
-
3
77
117
1620
CHP
00072
3
-
6
77
1 17
1520
CHP
00073
0
-
3
77
1 1 7
1 520
CHP
00073
3
-
6
77
1 17
1 400
CHP
00074
0
-
3
77
1 17
1400
CHP
00074
3
-
6
77
1 1 7
1305
CHP
00075
0
-
3
77
1 1 7
1 305
CHP
00075
3
-
6
77
1 1 7
1 200
CHP
00076
0
-
3
77
1 1 7
1 200
CHP
00076
3
-
6
77
1 1 7
1 030
CHP
00077
0
-
3
77 ;
1 1 7
1 030
CHP
00077
3
-
6
ft
1 1 7
0754
CHP
00078
0
-
3
77
1 1 7
0754
CHP
00078
3
-
6
77
1 1 8
091 2
POP
00081
0
-
3
77
1 1 8
091 2
POP
00081
3
-
6
77
1 1 8
0942
POP
00082
0
-
3
77
1 1 8
0942
POP
00082
3
-
6
.7 7
1 1 8
1 007
POP
0 0 0 8 3
0
-
3
77
1 18
1 007
POP
00083
3
-
6
77
1 1 B
1 034
POP
0C084
0
-
3
77
1 l 8
1 034
PCP
0C084
3
-
6
77
1 38
1 1 35
RHO
00028
0
-
3
77
138
1 1 35
RHO
00028
3
-
6
77
1 38
1 220
RHO
028 .4
0
-
3
77
1 38
1 220
RHO
028 .4
3
-
6
77
1 38
1 257
RHO
00029
0
-
3
77
138
1 257
RHO
00029
3
-
6
77
138
1 335
RHO
030 . 2
0
-
3
77
1 38
1 335
RHO
030 . 2
3
-
6
77
138
1 520
RHO
031 .5
0
-
3
77
138
1520
RHO
031 .5
3
-
6
77
173
0940
RHO
00028
0
-
3
77
173
0940
RHO
00028
3
-
6
77
173
1 1 25
RHO
028.4
0
-
3
77
1 73
1 1 25
RHO
028 .4
3
-
6
77
1 73
1 050
RHO
00029
0
-
3
77
1 73
1 050
RHO
00029.
3
-
6
77
173
1 1 30
RHO
030 . 2
0
-
3
77
173
1 1 30
RHO
030 . 2
3
-
6
77
1 73
1315
RHO
031 . 5
0
-
3
77
173
1315
RHO
0^1.5
3
-
6
77
180
1 740
CHP
00071
0
-
3
77
180
1 740
CHP
00071
3
-
6
77
180
1635
CHP
00072
3
-
6
77
180
1 530
CHP
00073
0
-
3
77
180
1 530
CHP
00073
3
-
6
77
180
1415
CHP
00074
0
-
3
77
180
1415
CHP
00074
3
-
6
77
180
1310
CHP
00075
0
-
3
%
19. 36
12.11
94. 32
97.65
94 . 83
88. 02
97. 62
99. 04
86.85
80. 86
16. 76
03.20
03.61
02. 30
80.65
71 . 94
37. 51
25. 1 7
93. 22
94.69
14. 25
01 .46
93. 93
85. 35
80 . 84
92. 13
87. 56
82.09
86. 74
06. 32
05.33
93.85
91 . 44
87.79
75.57
90.97
87.42
88.93
86.96
02.78
95. 52
96.60
38. 50
96.89
98. 12
74 ,
83,
03 ,
01 .
04 ,
1 1
00,
00,
74
1 3
59
49
05
00
86
26
07 .35
13.82
64
70
66
65
.15
, 1 1
.32
.59
15.82
24 .54
28.36
15 .55
00 .78
04 .20
49 .72
60 .98
01 .73
09 .51
12 .68
04 .58
08 .49
10 .54
07 .99
71 .03
76.92
02 .41
04 .88
07 .59
13.83
06.22
07.21
07 .23
10 .56
67 . 32
01 .45
01.10
57 . 1 1
01 .29
00.66
%
05.89
04 .75
02.09
00 .86
01.12
00 .98
01.51
00.70
05.81
05 . 32
1 9 . 09
26 . 70
30 . 07
32.12
03 . 53
03.52
34 . 13
59.28
0 1 . 00
01.11
36 . 03
37 . 56
04 . 34
05. 14
06.48
03.29
03.95
07. 36
05. 27
22.65
1 7 . 75
03 . 74
03 . 68
04 . 62
1 0.60
02.81
05. 37
03.84
02.48
29.90
02 . 04
02.30
04.39
01 .82
01 .22
MATTER H
% 60
98.82 00.45 00.74
05.92
08.76
01 .25
01 .05
01.16
00 . 67
0C.49
0C.26
01 . 65
OC. 73
24. 96
38. 39
21 . 02
22. 25
01 . 70
02.05
4 1 . 73
65. 06
00.41
OC . 73
38. 08
45. 38
03.05
03.38
04.56
06. 1 1
04.70
03 . 08
05.52
03. 88
15.16
1 4 . 34
03.87
04 . 00
04.79
05.52
04 . 23
07. 03
01 .89
02.60
15.85
1 5.80
01 .20
01 . 09
02.00
00.53
00.38
00 . 35
00.22
00.27
cr
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CO
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c
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r+
O
3
in
CO
Q.
O)
3
c+
n
3"
QJ
-5
QJ
O
p+
ro
-5
n
co
-------�
TIME STATION
77
180
1310
CHP
00075
77
181
CHP
00076
77
181
CHP
00076
77
1 80
1010
CHP
00077
77
180
1010
CHP
00077
77
1 80
0845
CHP
00078
77
180
0845
CHP
00078
77
161
1050
POP
00081
77
181
1115
POP
00082
77
181
1115
POP
00082
77
181
1 145
POP
00083
77
181
1 145
POP
00083
77
181
1 230
POP
00084
77
181
1230
POP
00084
77
202
0945
RHO
00028
77
202
0945
RHO
00028
77
202
1030
RHO
028.4
77
202
1030
RHO
028 .4
77
202
1 1 00
RHO
00029
77
202
1 1 00
RHO
C0029
77
202
1 140
RHO
030 .2
77
202
1 140
RHO
030 . 2
77
202
1400
RHO
031 . 5
77
202
1 400
RHO
031 . 5
77
237
1352
CHP
00071
77
237
1 352
CHP
00071
77
237
1 242
CHF
00072
77
237
1 242
CHP
00072
77
237
1 1 25
CHP
00073
77
237
1 125
CHP
00073
77
237
1457
CHP
00074
77
237
1 457
CHP
00074
77
237
1 358
CHP
00075
77
237
1358
CHP
00075
77
237
1235
CHP
00076
77
237
1235
CHP
00076
77
237
1 040
CHP
00077
77
237
1 040
CHP
00077
77
237
0940
CHP
00078
77
237
0940
CHP
00078
77
238
1 623
POP
00081
77
238
1 623
POP
00081
77
233
1604
POP
00082
77
238
1 604
POP
00082
77
238
1542
POP
00083
77
238
1542
POP
00083
77
238
1518
POP
00084
77
238
1518
POP
00084
77
243
0935
RHO
00028
77
243
1000
RHO
028.4
DEPTH
FROM TO
CM
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
0
-
3
3
-
6
SAND SILT
% %
97.33 01.52
97.05 01.69
56.70 34.14
23.20 51.92
02.35 71.36
01 .54 73.70
87.14 10.13
93.72 03.52
95.66 02.31
97.93 00.75
97.86 00.90
27.60 43.39
13.16 35.33
95.59 02.29
94.93 02.49
e5.68 09.57
84.63 09.80
89.99 07.10
84 . 1 5 11 .22
93.53 04.10
93.89 03.86
15.87 59.94
23.25 58.54
96.83 00.96
96.07 01.64
36.40 02.06
89.38 08.88
16.01 52.71
93.95 00.01
97.72 00.76
98.68 00.55
98.63 00.15
99.23 00.11
12.82 61.26
04.60 54.27
03.14 67.76
01.07 67.83
81.07 16.11
81.74 15.18
96.62 01.70
92.94 04.96
94.50 02.84
79.02 12.43
21.08 29.97
03.67 38.68
96.08 00.94
84.44 09.79
CLAY ORGANIC
MATTER
% %
00.23
01.15 00.38
01.26 00.15
09.16 32.81
24.88 21.08
26.29 20.12
24.77 19.54
02.73 01.56
02.76 01.42
02.03 01.29
01.31 00.61
01.24 00.54
29.01 22.61
51.51 69.04
02.12 02.69
02.59 02.81
04.75 03.65
05.57 03.70
02.91 05.20
04.62 03.73
02.38 01.71
02.25 01.30
24.19 12.48
18.21 11.85
02.12 01.27
02.29 01.14
01 . 06
01.49 00.54
01.74 02.52
31.28 14.29
00.51
01.04 0C.12
01.53 00.22
00.77 00.21
01.23 00.26
00.65 00.23
25.93 31.81
41.13 30.77
29.10 18.37
31.10 18.00
02.81 01.75
03.08 01.37
01.68 00.81
02.10 00.79
02.66 00.53
08.54 01.78
48.95 54.90
57.66 62.70
02.98 03.78
05.77 05.28
TIME
STATION
DEPTH
FROM
CM
77 243 1035 RHO 00029 3
77 243 1210 RHO 030.2 3
77 243 1120 RHO 031.5 3
TO
SAND
%
6 94.54
6 91.46
6 02.42
SI LT
%
03.71
05.24
73.92
CLAY ORGANIC
%
MATTER
%
01.75 03.82
03.30 01.74
23.67 16.72
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TIME
STATION DEPTH TOT SUSP MIN SUSP MONTM ILLIT KAOLI GIBBS CHLOR QUART KSPAR PLAQI TALC AMPHI CL1NO
7 103
1209
RHO
00029
01 .00
7 103
1252
RHO
030.2
01.00
7 103
1430
RHO
031 .5
01 .00
7 117
1201
CHP
00071
7 117
1 201
CUP
00071
7 117
1620
CHP
00072
01.00
7 117
1620
CHP
00072
7 117
1520
CHP
00073
00. 75
7 117
1520
CHP
00073
7 117
1400
CHP
00074
00. 75
7 117
1400
CHP
00074
7 117
1305
CHP
00075
00. 75
7 117
1 305
CHP
00075
7 117
1200
CHP
00076
00.75
7 117
1200
CHP
00076
7 117
1030
CHP
00077
00. 75
7 117
1 030
CHP
00077
7 117
0754
CHP
00078
00. 75
7 117
0754
CHP
00078
7 118
091 2
POP
00081
01 . 00
7 1 18
0942
POP
00082
01 . 00
7 1 18
1007
POP
00083
01 .00
7 118
1034
POP
00084
01 .00
7 1 38
1 135
RHO
00028
00. 75
7 138
1220
RHO
028 .4
00. 50
7 138
1257
RHO
00029
00. 75
7 138
1335
RHO
030.2
00. 75
7 138
1520
RHO
031 .5
00.50
7 173
0940
RHO
00028
01 . 00
7 173
1 125
RHO
028.4
01 . 00
7 173
1050
RHO
00029
01 .00
7 173
1 130
RHO
030.2
01 . 00
7 173
1315
RHO
031 .5
01 . 00
7 180
1 740
CHP
00071
01 .00
7 180
1 740
CHP
00071
7 180
1635
CHP
00072
01 .00
7 180
1635
CHP
00072
7 180
1530
CHP
00073
01.00
7 180
1530
CHP
00073
7 180
1415
CHP
00074
01 .00
7 180
1415
CHP
00074
7 180
1310
CHP
00075
01 .00
7 180
1310
CHP
00075
7 181
CHP
00076
01.00
7 181
CHP
00076
7 180
1010
CHP
00077
01.00
7 180
1010
CHP
00077
7 180
0845
CHP
00078
01 .00
7 180
0845
CHP
00078
7 181
1050
POP
00081
01.00
SOLIDS
MG/L
0004.9
0008.6
0018.3
0015.9
0053.6
0007.
0007.
0005.
0003.
0007.
0008.5
0016.4
0022.3
0020.
0027.
0044 .
0078.
0025.
0027.
0038.
0050 .
0019.
001 3.
001 1
001 0 .
0015.7
0012.9
0105.8
0011.1
001 1 .0
0011 .2
0010.0
0053.6
0007 .
0008.
001 2 .
0016.
0009.
001 1
0012.
0023.
0021
0023.6
0062.5
0068.7
0078.8
0060.3
0054.3
0076.9
0021 .5
.5
.9
1
. 1
.6
.7
.4
.8
.7
SOLIDS
MG/L
0002Ļ8
0004.5
0016.6
0010.9
0044.9
0004.7
0004.4
0002.8
0003.6
0003.8
0003.
0012.
0017.
0014.
0022.
0035.0
0062.8
0018.0
0021.8
0033.3
0044.3
0015.1
0010.5
0006.7
0006.3
0007.0
0007.4
0042.8
0006.3
0010-0
0006.1
0010.0
0032.0
0006.2
0007.1
0011 . 1
0014.0
0007.9
0009.5
0008.3
0019.6
0016.1
0017.5
0046.2
0054.5
0060.2
0046.9
0039.7
0058.2
0015.9
00.00
00.00
09.00
46.00
03.00
03.00
00.00
00.00
55.00
00.00
43.00
16.00
1 1 .00
08.00
18.00
42.00
36.00
32.00
15.00
21 .00
10.00
10.00
07.00
07.00
09.00
13.00
13.00
16.00
06.00
05.00
00.00
00.00
00.00
00.00
00.00
00.00
00.00
00.00
00.00
10.00
07. 00
04. 00
06.00
08.00
1 1 .00
12.00
12.00
01.00
05.00
15.00
34.00
39.00
12.00
45.00
13.00
17.00
28.00
10.00
48.00
05.00
05.00
04.00
02.00
05.00
04.00
04.00
05.00
02.00
12.00
03.00
05.00
02.00
01 .00
02.00
00.00
06.00
06.00
01 .00
08.00
00.00
00.00
00.00
00.00
00.00
00.00
00.00
00.00
00.00
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TIME
STATION
DEPTH
TOT SUSP
MIN SUSP
M0NTM
ILLI1
SOLIDS
SOLIDS
M
MG/L
MG/L
X
X
7
181
1115
POP
00082
01 .00
0006.3
0003.9
7
181
1 145
POP
00083
01 .00
0008.6
0006.4
7
181
1230
POP
00084
01.00
0003.5
0002.5
7
202
0945
RHO
00028
01 .00
0012.2
0006.8
15.00
33.00
7
202
1030
RHO
028.4
01 .00
0018.2
0011.6
06.00
38.00
7
202
1 1 00
RHO
00029
0013.5
0009.4
23.00
24.00
7
202
1 140
RHO
030.2
01.00
0019.1
0010.2
16.00
32.00
7
202
1 400
RHO
031 .5
01 .00
0065.9
0047.7
20.00
13.00
7
237
1352
CHP
00071
01 . 00
0008.9
0005.8
7
237
1352
CHP
00071
0008.9
0006.7
7
237
1242
CHP
00072
o
o
o
0013.4
0011.5
7
237
1242
CHP
00072
0013.5
0010.9
7
237
1 125
CHP
00073
o
o
O
0017.8
0015.6
7
237
1 125
CHP
00073
0020.3
0017.2
7
237
1457
CHP
00074
O
O
O
0011.8
0010.0
7
237
1457
CHP
00074
0019.9
0016.4
7
237
1358
CHP
00075
O
o
o
0022.0
0017.2
7
237
1358
CHP
00075
0028.9
0023.3
7
237
1235
CHP
00076
o
o
o
0036.9
0029.1
7
237
1235
CHP
00076
0038.3
0029.2
7
237
1040
CHP
00077
o
o
o
0075.9
0059.1
7
237
1040
CHP
00077
0099.8
0077.0
7
237
0940
CHP
00078
o
o
o
0041 .6
0026.2
7
237
0940
CHP
00078
0048.4
0031.1
7
238
1623
POP
00081
01 .00
0021 .4
0016-6
7
238
1604
POP
00082
01 .00
0021 .7
0018.2
7
238
1 542
POP
00083
01 . 00
0023.0
0019.2
7
238
1518
POP
00084
01 . 00
0015.7
0011-9
7
243
0935
RHO
00028
01 .00
0015.7
0008.6
04.00
38.00
7
243
1000
RHO
028.4
01 .00
0018.2
0011.1
00.00
51 .00
7
243
1035
RHO
00029
01 . 00
0020.7
0010.3
00.00
46.00
7
243
1210
RHO
030.2
01 .00
0018.7
0014.5
7
243
1 120
RHO
031 .5
01 .00
0066.6
0053.3
24.00
29.00
7
264
0920
RHO
00028
00. 75
0019.4
0012.7
00.00
26.00
7
264
0950
RHO
028.4
01 .00
0016.6
0011.1
7
264
1025
RHO
00029
01 .00
0011.5
0006.2
00.00
33.00
7
264
1 100
RHO
030.2
01 .00
0018.5
0011.1
7
264
1115
RHO
031 .5
01 . 00
0025.6
0018.8
7
292
1110
RHO
00028
01 . 00
0008.9
0007.1
7
292
1 135
RHO
028.4
01 .00
0009.7
0007.4
1 1 .00
15.00
7
292
1205
RHO
00029
01 .00
0009.1
0005.0
00.00
24.00
7
292
1 235
RHO
030.2
01 . 00
0006.1
0005-2
20.00
17.00
7
292
1400
RHO
031 .5
01 .00
0013.4
001 1 .5
7
299
1700
CHP
00071
01 .00
0012.0
0010.5
7
299
1700
CHP
00071
0016.2
0012.3
7
299
1555
CHP
00072
o
o
o
0001 .8
0001.8
7
299
1555
CHP
00072
0001.8
0001.4
7
299
1450
CHP
00073
o
o
o
0004.6
0001.1
7
299
1450
CHP
00073
0003.9
0001.9
7
299
1335
CHP
00074
o
o
o
0003.3
0002.5
KAOLI GIBBS CHLOR QUART KSPAR PLAQI TALC AMPHI CLINO
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08.00 00.00 11.00 12.00 01.00 00.00 00.00
06.00 00.00 06.00 17.00 12.00 04.00 00.00
10.00 00.00 02.00 31.00 05.00 05.00 00.00 c~>
07.00 00.00 08.00 18.00 04.00 03.00 03.00 §
04.00 00.00 04.00 50.00 08.00 00.00 00.00 r+
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06.00
07.00
07.00
08.00
06.00
08.00
01 .00
00.00
00.00
00.00
08.00
06.00
08.00
05.00
06.00
04.00
15.00
18.00
17.00
47.00
23.00
06.00
05.00
04.00
08.00
00.00
03.00
04.00
03.00
06.00
01 .00
00.00
00.00
00.00
05.00 33.00 15.00 06.00
04.00
08.00
14.00
04.00 52.00 '07.00 06.00
06.00 47.00 05.00 10.00
08.00 32.00 06.00 03.00
-------�
TIME
STATION DEPTH TOT SUSP MIN SUSP MONTM ILLIT
SOLIDS
M MG/L
77
299
1335
CHP
00074
0005.1
77
299
1245
CHP
00075
o
o
o
0007.0
77
299
1245
CHP
00075
0023.6
77
299
1200
CHP
00076
o
o
o
0036.7
77
299
1200
CHP
00076
0064.4
77
299
1022
CHP
00077
o
o
o
0037.8
77
299
1022
CHP
00077
0045.2
77
299
0850
CHP
00078
o
o
o
0055 . 2
77
299
0850
CHP
00078
0084.6
77
300
1050
POP
00081
01 .00
0004 . 1
77
300
1115
POP
00082
01 .00
0003.9
77
300
1 140
POP
00083
01 .00
0004 . 3
77
300
1205
POP
00084
01 .00
0004.3
77
325
RHO
00028
0012.6
77
325
RHO
028.4
0012.8
77
325
RHO
00029
0012.4
77
325
RHO
030.2
0012.0
77
325
RHO
031 .5
0016.5
77
349
RHO
00028
0003.1
77
349
RHO
028.4
0004.1
77
349
RHO
00029
0010.5
77
349
RHO
030.2
0003.8
77
349
RHO
031 .5
0054.9
-p.
SOLIDS
MG/L X X
0003.3
0004.6
0009.9
0029.7
0053.2
0030.3
0035-4
0041.5
0063.5
0004.1
0003.3
0004.1
0003.1
0003.5
0003.7
0002.8
0003.1
0006-3
0002.4
0002.6
0004.5
0001.7
0044.4
KAOLI GIBBS CHLOR QUART KSPAR PLAGI TALC AMPHI CLINO
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TIME
STATION
DEPTH
SALINITY
CONDUCTIVITY
TEMPERATURE
TURBIDITY
PHOTOMETERS
WAT/DK
TRANSMISSION
UNDER
DECK
WATER
PENETRATION
M
PPT
MMHOS
C-
dU
UE/M2-SEC
UE/M2-SEC
%
X
7
146
1 150
RHO
031 .5
00. 10
06. 16
10.99
24.06
43.30
7
146
1 150
RHO
031 .5
00. 25
2032
0617
22.70
7
153
1 100
RHO
031 .5
00. 10
08. 16
13.92
26.01
7
153
1 100
RHO
031 .5
00.25
2601
0472
18.00
7
161
1350
RHO
031 .5
00. 10
07. 16
11 .34
23.34
2062
1361
66.00
7
167
RHO
031 .5
00. 10
09. 09
15.98
28.43
7
167
RHO
031 .5
00. 25
1422
0681
48.00
7
173
0940
RHO
00028
00. 10
10.83
17.24
23.85
4.8
08.30
7
173
0940
RHO
00028
00.25
2375
1543
65.00
7
173
0940
RHO
00028
00.50
10.56
17.25
23.40
5.5
2100
0980
47.00
07.50
7
173
0940
RHO
00028
00. 75
2050
0508
25.00
7
173
0940
RHO
00028
01 .00
10.88
17.31
23. 1 2
7.0
2100
0326
16.00
06.10
7
173
0940
RHO
00028
01 . 25
10.83
17.21
22.68
8.2
2100
0172
08.00
04.70
7
173
1 1 25
RHO
028.4
00. 10
10.23
16.82
24.23
6.1
04.30
7
173
1 125
RHO
028.4
00. 25
2450
1325
54 .00
7
173
1 125
RHO
028.4
00. 50
10.25
16.86
24.08
6.5
2450
0890
36.00
03.50
7
173
1 125
RHO
028.4
00. 75
2450
0472
19.00
7
173
1 125
RHO
028.4
01 .00
10.40
16.86
24.07
6.8
2450
0281
11 .00
03.10
7
173
1 1 25
RHO
028.4
01 .25
10.33
16.83
23.98
2450
0178
07.00
7
173
1050
RHO
00029
00. 10
10.17
16.64
24.31
5.0
04.70
7
173
1050
RHO
00029
00. 25
2250
1180
52.00
7
173
1050
RHO
00029
00.50
10.13
16.70
24.38
5.2
2150
0726
34.00
04.30
7
173
1050
RHO
00029
00. 75
2150
0390
18.00
7
173
1050
RHO
00029
01 . 00
10. 27
16.70
24.39
6.0
2100
0227
11 .00
04.10
7
173
1050
RHO
00029
01 . 25
10. 28
16.68
24.30
2050
0145
07 .00
7
173
1 1 30
RHO
030.2
00. 10
10.19
16.89
24.60
5.5
02.90
7
173
1 130
RHO
030.2
00.25
1850
0908
49.00
7
173
1 1 30
RHO
030.2
00. 50
10. 36
16.82
24.38
6.1
1850
0545
29.00
02.20
7
173
1 130
RHO
030.2
00. 75
1825
0327
18.00
7
173
1 130
RHO
030.2
01 .00
10.26
16.84
24.30
5.6
1800
0181
10.00
01 .40
7
173
11 30
RHO
030.2
01 .25
10.36
16.89
23.94
8.5
1800
0073
04.00
00.25
7
173
1 130
RHO
030.2
01 .50
1775
0036
02.00
7
173
1315
RHO
031 .5
00. 10
10.04
16.98
26.32
028
7
173
1315
RHO
031 .5
00. 25
1800
0653
36.00
7
179
RHO
031 .5
00. 10
10.00
028
7
179
RHO
031 .5
00.25
1829
0662
36.00
7
180
1 740
CHP
00071
00. 10
1 1 .95
20.12
26.70
4.4
17.00
7
180
1 740
CHP
00071
00.25
0700
0272
21 .00
7
180
1 740
CHP
00071
00.50
1 1 .95
20.12
26.25
4.4
0725
0136
19.00
17.00
7
180
1740
CHP
00071
00. 75
0725
0091
13.00
7
180
1 740
CHP
00071
01 . 00
1 1 .86
20.20
26.36
0.6
0725
0045
06.00
17.00
7
180
1635
CHP
00072
00. 10
1 1 .80
20.80
28.65
6.0
14.00
7
180
1635
CHP
00072
00.25
0800
0726
91 .00
7
180
1635
CHP
00072
00.50
12.12
20.80
28.30
6.1
1200
0544
45.00
13.00
7
180
1635
CHP
00072
00. 75
1315
0363
28.00
7
180
1635
CHP
00072
01 .00
1 1 .90
20.80
28.05
6.2
1350
0181
13.00
12.00
7
180
1530
CHP
00073
00. 10
11.10
18.45
26.46
5.2
12.00
7
180
1530
CHP
00073
00.25
1900
0318
17.00
7
180
1530
CHP
00073
00.50
11.10
18.45
25.90
6.0
1900
0163
08.00
07.40
7
160
1530
CHP
00073
00.75
1875
0136
07.00
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time
STATION
0EPTH
SALINITY
CONDUCTIVITY
TEMPERATURE
M
PPT
MMHOS
C
180
1530
CHP
00073
01 . 00
1 1 . 30
18.50
25. 70
180
1415
CHP
00074
00. 10
09.66
16.75
27.04
180
1415
CHP
00074
00.25
180
1415
CHP
00074
00.50
09.70
16.83
26.95
180
1415
CHP
00074
00. 75
180
1415
CHP
00074
01 .00
09.80
16.83
26.87
180
1415
CHP
00074
01 .25
09.83
16.80
26.30
180
1310
CHP
00075
00. 10
07.86
13.82
27. 15
180
1310
CHP
00075
00. 25
180
1310
CHP
00075
00.50
07.92
13.96
27. 10
180
1310
CHP
00075
00. 75
180
1310
CHP
00075
01 . 00
07. 92
13.96
27. 16
181
CHP
00076
00. 10
05. 70
10.26
27. 18
181
CHP
00076
00.25
181
CHP
00076
00. 50
05.76
10.40
27. 24
181
CHP
00076
00. 75
181
CHP
00076
01 .00
05-85
10.52
27. 13
181
CHP
00076
01 .25
181
CHP
00076
01 . 50
06. 30
11.15
27.07
181
CHP
00076
01 . 75
06. 30
1 1 .23
27. 02
180
1010
CHP
00077
00. 10
02.70
05.04
26. 70
180
1010
CHP
00077
00. 25
180
1010
CHP
00077
00. 50
02.84
05.04
26.44
180
1010
CHP
00077
00. 75
180
1010
CHP
00077
01 .00
02.76
05.05
26.44
180
1010
CHP
00077
01 . 50
02. 70
05.00
26.34
180
1010
CHP
00077
02.00
02.66
05.00
26. 32
180
1010
CHP
00077
02.50
02.75
05.00
26.30
180
0845
CHP
00078
00. 10
00.54
01 . 10
26.74
180
0845
CHP
00078
00. 25
180
0845
CHP
00078
00. 50
00.54
01 . 14
26.82
180
0845
CHP
00078
00. 75
180
0845
CHP
00078
01 . 00
00.54
01.14
26.94
180
0845
CHP
00078
01 . 25
180
0845
CHP
00078
01 .50
00.62
01 .14
26.68
180
0845
CHP
00078
02. 00
00.50
01 . 14
26. 72
180
0845
CHP
00078
02. 50
00.54
26. 78
181
1050
POP
00081
00. 10
1 1 .74
19.80
25.96
181
1050
POP
00081
00. 25
181
1050
POP
00081
00. 50
12.00
20.04
25.50
181
1050
POP
00081
00. 75
181
1050
POP
00081
01 .00
1 1 .68
19.80
25.48
181
1115
POP
00082
00. 10
1 1 .92
20.04
26. 72
181
1115
POP
00082
00.25
181
1115
POP
00082
00.50
1 1 .83
20. 14
26.32
181
1115
POP
00082
00. 75
181
1115
POP
00082
01 . 00
1 1 .92
20.20
26.68
181
1115
POP
00082
01 .25
181
1115
POP
00082
01 .50
1 1 .88
20.04
26.05
181
1145
POP
00083
00. 10
12.00
20.20
26.30
TURBIDITY
PHOTOMETERS
UNDER
WAT/DK TRANSMISSION
DECK
WATER
PENETRATION
JU
UE/M2-SEC
UE/M2-SEC
%
X
6.8
1850
0145
08.00
07.20
7.0
09.40
2450
0272
11 .00
010
2500
0182
07.00
06.00
1 400
0091
07.00
010
1 000
0073
07.00
06.00
013
1 100
0082
07.00
03.00
012
03.80
2900
1997
69.00
014
2900
0726
25.00
03.00
2850
0182
06.00
012
2800
0182
06.00
00.00
028
01 .00
2750
0182
07.00
025
2900
0091
03.00
00.00
2800
0009
00.00
027
2900
0002
00 .00
00.00
2800
0002
00.00
019
2900
0000
00.00
00.00
024
00.00
033
00.20
1950
0182
09.00
029
2000
0009
00.00
00.00
1900
0000
030
1900
0000
00.00
030
00.00
031
00.00
030
00.00
022
01 .20
1 200
0182
15.00
023
1 100
0363
03.00
00.00
1 100
0002
00.00
027
1050
0000
00.00
00.00
1050
0000
00.00
034
00.00
032
00.00
030
00.00
7.8
08.00
2825
1180
42.00
8.6
2750
0817
29.00
08.00
2750
0499
18.00
9.6
2750
0091
03.00
07.50
3.0
34.00
2750
1820
66.00
3l3
2750
1543
56.00
32.50
2800
0908
32.00
3.6
2800
0635
23.00
32.50
2800
0635
23.00
3.4
2750
0590
21 .00
21.00
4.6
24.00
CD
O"
0>
OJ
ro
c~>
o
3
C
fD
O.
-------�
-p*
OJ
TIME
STATION
DEPTH
SALINITY
CONDUCTIVITY
TEMPERATURE
TURBIDITY
PHOTOMETERS
WAT/DK
TRANSf
UNDER
DECK
WATER
PENETRATION
M
PPT
MMHOS
C
JU
UE/M2-SEC
UE/M2-SEC
X
X
77
181
1 145
POP
00083
00.25
2900
2088
72.00
77
181
1 145
POP
00083
00.50
1 1 .80
20.08
25.94
4.8
2875
1543
54.00
24.00
77
181
1 145
POP
00083
00.75
2900
0908
31 .00
77
181
1 1 45
POP
00083
01 . 00
1 1 .96
20.00
26. 13
6.3
2900
081 7
28.00
23.00
77
181
1 145
POP
00003
01 .25
2900
0635
22.00
77
181
1 145
POP
00083
01 .50
1 1 .83
19.95
25.60
7.0
2925
0318
11 .00
23.00
77
181
1145
POP
00003
01 .75
2925
0318
11 .00
18.00
77
181
1 230
POP
00084
00. 10
11 .90
20.20
26.63
2.8
42.00
77
181
1230
POP
00004
00. 25
2800
2360
84.00
77
181
1230
POP
00004
00. 50
12.12
20.25
26.56
2.8
2800
1361
49.00
42.00
77
181
1230
POP
00004
00.75
2800
0999
36.00
77
181
1230
POP
00004
01 .00
1 1 .90
20.25
26. 56
2.8
2800
0772
28.00
42.00
77
181
1230
POP
00004
01 . 25
2800
0545
19.00
77
181
1230
POP
00004
01 . 50
12.12
20.28
26.56
2.3
2750
0545
20.00
30.00
77
188
RH0
031 .5
00. 10
11 .30
20.65
31 .48
2642
1725
65.00
77
188
RH0
031 .5
00. 25
2642
0599
34.00
77
194
1300
RH0
031 .5
00. 10
1 1 .02
19.92
31 .60
1897
0650
62.00
77
194
1300
RHO
031 .5
00. 25
1897
1180
32.00
77
202
0945
RHO
00028
00. 10
11 .66
20.80
30.26
4.5
1000
06.90
77
202
0945
RHO
00028
00. 25
2032
1489
73.00
77
202
0945
RHO
00028
00.50
1 1 .68
20.86
30. 10
4.5
2032
0763
38.00
05.50
77
202
0945
RHO
00028
00. 75
1 1 .52
20.70
30. 16
4.8
2032
0309
15.00
05.50
77
202
1030
RHO
028.4
00. 10
11 . 50
20.95
30.50
7.5
2235
0381
.17.00
03.70
77
202
1030
RHO
028.4
00. 25
2235
0200
77
202
1030
RHO
028.4
00.50
11 .68
21 .10
30.60
7.5
2235
0118
05.00
02.70
77
202
1030
RHO
028.4
00. 75
2235
0091
04.00
77
202
1030
RHO
028.4
01 . 00
1 1 . 70
20.80
30.40
7.5
1650
0050
03.00
02.60
77
202
1 1 00
RHO
00029
00. 10
1 1 .70
21 .12
31 .50
5.7
04.90
77
202
1 100
RHO
00029
00. 25
1220
0726
60.00
77
202
1 100
RHO
00029
00.50
1 1 .60
21 .15
31 .50
6.0
1220
0399
33.00
04.60
77
202
1 100
RHO
00029
00. 75
1220
0202
17.00
77
202
1 100
RHO
00029
01 . 00
1 1 .45
21 .10
31.16
6.0
1220
0054
04.00
04.30
77
202
1 140
RHO
030.2
00. 10
1 1 .55
21 .55
32. 70
9.2
01 .70
77
202
1 140
RHO
030.2
00.25
1490
0363
24.00
77
202
1 140
RHO
030.2
00.50
1 1 .53
21 .55
32.40
9.4
1490
0345
23.00
00.40
77
202
1 140
RHO
030.2
00. 75
1 490
0181
12.00
77
202
1 140
RHO
030.2
01 .00
11 .43
21 .05
31 .30
012
1490
0054
04.00
00.30
77
202
1400
RHO
031 .5
00. 10
10.90
20.32
32.51
1287
1270
99.00
77
202
1400
RHO
031 .5
00. 25
1287
0454
35.00
77
202
1400
RHO
031 .5
00. 50
1287
0272
21 .00
77
209
RHO
031 .5
00. 10
19.92
26.26
2032
1180
58.00
77
217
RHO
031 .5
00. 10
1 1 .94
20.56
28.03
1050
0472
45.00
7Z
217
RHO
031 .5
00.25
1050
0263
25.00
77
217
RHO
031 .5
00.50
1050
0136
13.00
77
222
RHO
031 .5
00. 10
32.30
1491
0999
67.00
77
222
RHO
031 .5
00.25
1491
0545
37.00
77
222
RHO
031 .5
00.50
1491
0182
12.00
77
238
RHO
031 .5
00. 10
12.65
21 .33
26.47
1626
0763
47.00
77
238
RHO
031 .5
00.25
1626
0463
28.00
77
238
RHO
031 .5
00.50
1626
0109
07.00
Q)
O"
fl>
00
f\3
o
o
n>
o.
-------�
TIME
STATION
DEPTH
SALINITY
CONDUCTIVITY
TEMP El
M
PPT
MMH0S
C
77
237
1352
CHP
00071
00. 10
14.40
23.45
25. 15
77
237
1352
CHP
00071
00.25
77
237
1352
CHP
00071
00.50
14. 76
23.54
24.55
77
237
1352
CHP
00071
00.75
77
237
1352
CHP
00071
01 .00
14.55
23.45
24.88
77
237
1242
CHP
00072
00. 10
13.90
22.65
25.30
77
237
1242
CHP
00072
00. 25
77
237
1242
CHP
00072
00.50
13.88
22.70
24.78
77
237
1 242
CHP
00072
00.75
77
237
1242
CHP
00072
01 .00
14.04
22.70
24.92
77
237
1242
CHP
00072
01 .25
77
237
1242
CHP
00072
01 .50
13.98
22.70
25.38
77
237
1 1 25
CHP
00073
00. 1 0
12.90
24.70
77
237
1 125
CHP
00073
00. 25
77
237
1 1 25
CHP
00073
00.50
12.95
21 .10
24.90
77
237
1 1 25
CHP
00073
00.75
77
237
1 1 25
CHP
00073
01 .00
12.80
21 .05
24.80
77
237
1 1 25
CHP
00073
01 .25
77
237
1 125
CHP
00073
01 .50
12.90
21 .08
24.76
77
237
1457
CHP
00074
00. 10
1 1 .80
19.95
26.20
77
237
1457
CHP
00074
00.50
1 1 .85
20. 10
26. 15
77
237
1457
CHP
00074
01 .00
12.20
20. 10
26.05
77
237
1358
CHP
00075
00. 1 0
10. 75
17.75
26.50
77
237
1358
CHP
00075
00.25
77
237
1358
CHP
00075
00. 50
10.45
17.90
26.00
77
237
1 358
CHP
00075
00. 75
77
237
1358
CHP
00075
01 .00
10.50
17.90
26. 00
77
237
1358
CHP
00075
01 .50
10.95
18.35
25.95
77
237
1 235
CHP
00076
00. 10
09. 30
15.50
26. 30
77
237
1235
CHP
00076
00. 25
77
237
1235
CHP
00076
00.50
09.50
15.50
26.30
77
237
1235
CHP
00076
00.75
77
237
1 235
CHP
00076
01 .00
09. 30
15.80
25. 80
77
237
1235
CHP
00076
01 .50
15.60
26.30
77
237
1040
CHP
00077
00. 10
05. 10
08.75
26.30
77
237
1 040
CHP
00077
00. 25
77
237
1040
CHP
00077
00.50
0.5 . 1 0
08.90
26.50
77
237
1040
CHP
00077
00.75
77
237
1040
CHP
00077
01 . 00
05.00
08.90
26. 40
77
237
1 040
CHP
00077
01 .50
05. 10
08.80
26.40
77
237
1040
CHP
00077
02.00
05. 10
08.80
26.40
77
237
1 040
CHP
00077
02.50
05.00
08.85
26-50
77
237
0940
CHP
00078
01 .00
01 .00
02.00
25.30
77
237
0940
CHP
00078
00.25
77
237
0940
CHP
00078
00.50
01 .10
02.20
25.30
77
237
0940
CHP
00078
00.75
77
237
0940
CHP
00078
01 .00
01 .20
02.20
25.20
77
237
0940
CHP
00078
01 .25
77
237
0940
CHP
00078
01 .50
01 .20
02.25
25.20
77
238
1623
POP
00081
00. 10
14.25
23.20
24.85
TURBIDITY
PHOTOMETERS
WAT/DK
TRANSJ
UNDER
DECK
WATER
PENETRATION
JU
UE/M2-SEC
UE/M2-SEC
%
X
3.5
19.00
2460
1725
70.00
3.7
2400
0999
42.00
18.50
2400
0763
32.00
3.4
2400
061 7
26.00
09.00
6.2
08.50
2600
1761
68.00
6.3
2600
1144
44 .00
08.40
2600
0763
29.00
5.7
2600
0508
20.00
09.00
2600
0327
13.00
6.2
2600
0218
08.00
08.40
8.4
07.80
2600
1543
59.00
8.5
2600
0872
34.00
06.10
2600
0399
15.00
9.0
2600
0218
08.00
05.10
2600
0109
04.00
8.7
2600
0058
02.00
04.30
5.5
12.75
7.0
07.50
6.5
05.00
010
22.00
0160
0045
28.00
010
0150
0018
12.00
24.50
01 40
0002
01 .11
01 1
0140
0000
00.00
19.00
015
08.00
015
03.00
0150
004 2
28.00
016
0150
0015
10.00
04.20
0150
0004
03.00
016
0150
0000
01 .30
03.20
014
00.00
024
00.50
1700
0200
12.00
033
1700
0029
02.00
00.20
1600
0000
00.00
028
1600
0000
00.00
00.10
027
00.50
032
00.20
032
00.10
014
01 .00
1 100
0363
33.00
014
1100
0091
08.00
00.75
1050
0036
03.00
1100
oooa
01 .00
01 .20
1100
0002
00.00
017
1100
0000
00.00
01 .00
010
03.50
o>
cr
a>
co
ro
o
o
3
3
C
rt>
CL
-------�
TIME
STATION DEPTH SALINITY
CONDUCTIVITY
TEMPERATURE
M
77
238
1623
POP
00081
00.50
77
238
1623
POP
00081
01 .00
77
238
1604
POP
00082
00. 1 0
77
238
1604
POP
00082
00.25
77
238
1604
POP
00082
00-50
77
238
1604
POP
00082
00.75
77
238
1604
POP
00082
01 .00
77
238
1542
POP
00083
00. 10
77
238
1542
POP
00083
00.50
77
238
1 542
POP
00083
01 -00
77
238
1518
POP
00084
00. 10
77
238
1518
POP
000B4
00.25
77
238
1518
POP
00084
00.50
77
238
1518
POP
00084
00.75
77
238
1518
POP
00084
01 .00
77
243
0935
RHO
00028
00. 1 0
77
243
0935
RHO
00028
00.50
77
243
0935
RHO
00028
01 .00
77
243
0935
RHO
00028
01 .50
77
243
1000
RHO
028 .4
00. 10
77
243
1000
RHO
028.4'
00.50
77
243
1000
RHO
028.4
01 .00
77
243
1035
RHO
00029
00. 1 0
77
243
1035
RHO
00029
00.50
77
243
1035
RHO
00029
01 .00
77
243
1210
RHO
030.2
00. 1 0
77
243
1210
RHO
030 . 2
00.50
77
243
1210
RHO
030.2
01 .00
77
243
1210
RHO
030 . 2
01 .25
77
243
1 120
RHO
031 .5
00. 1 0
77
243
1 120
RHO
031 .5
00.50
77
252
0800
RHO
031 .5
00. 10
77
258
1230
RHO
031 .5
00. 1 0
77
264
0920
.RHO
00028
00. 10
77
264
0920
RHO
00028
00.50
77
264
0920
RHO
00028
01 .00
77
264
0920
RHO
00028
01 .50
77
264
0950
RHO
028.4
00. 10
77
264
0950
RHO
028.4
00.50
77
264
0950
RHO
028.4
01 .00
77
264
0950
RHO
028.4
01 .25
77
264
1025
RHO
00029
00. 10
7 7.
264
1025
RHO
00029
00.50
77
264
1025
RHO
00029
01 .00
77
264
1025
RHO
00029
01 .50
77
264
1 100
RHO
030.2
00. 1 0
77
264
1 100
RHO
030.2
00.50
77
264
1 100
RHO
030.2
01 .00
77
264
1 100
RHO
030.2
01 .50
77
264
1 100
RHO
030.2
02.00
PPT
MMHOS
C
14.35
23.35
25. 15
14. 30
23.30
24.80
14. 20
23.30
25.30
14.35
23.50
25.65
14.30
23.40
25.00
14.40
23.00
24.58
14.50
23. 10
24. 50
14.50
23. 10
24.25
14.10
23.00
24.80
14.20
23.02
24. 74
14. 25
23.04
24.85
13.05
22.32
28.30
12.96
22.22
28.28
13.00
22.30
27.55
12.40
21 .30
27. 70
12. 70
22.20
28. 74
13.00
22.65
28.40
12.60
22.04
28. 24
12.55
22.30
29.45
12.68
22.65
29.35
12.45
21 .75
28.05
12.54
22.02
29. 02
12.44
22 .00
28.90
12.42
22.04
28.85
12.47
21 .00
28.55
12.80
23.00
30.90
12.60
22.05
30.60
13.34
20.76
23.35
20.00
21 . 26
13.72
21 .70
23.80
13.62
21 .85
23.45
13.61
21 .82
23.85
13.64
21 .80
23.92
13.40
21 .70
24.00
13.98
22.50
24. 10
13.50
21 . 75
23. 70
13.60
21 .75
23.90
13.75
21 . 74
23.40
13. 36
21 .85
23.85
13.25
21 .55
24.45
13.39
21 .61
24.45
13.36
21 .40
24.25
13.34
21 .40
24.30
13.42
21 .50
23.82
13.24
21 .35
23.70
12.80
20.68
24. 10
TURBIDITY PHOTOMETERS WAT/DK TRANSMISSION
UNDER
DECK WATER PENETRATION
JU UE/M2-SEC UE/M2-SEC % X
9.9
010
9.7
9.9
010
010
9.7
010
6.8
7.2
7.1
013
013
012
013
7.0
6.8
7.5
8.0
8.0
6.5
8.0
8.2
7.2
1400
1400
1400
1400
1800
1800
1800
1800
0763
0400
0236
0136
1035
0726
0472
0291
55.00
29.00
17.00
10.00
58.00
40.00
26.00
16.00
02.00
00.60
02 .80
02.65
02.60
02.50
03.30
03.40
08.20
08.00
07.95
07.50
08.50
09.50
10.00
05.25
04.50
03.25
04.75
04.25
03.75
03.25
02.75
02.00
00.00
at
cr
CO
ro
c->
O
3
a>
a.
7.7
6.5
6.5
6.8
7.3
6.6
7.0
5.5
5.6
5.6
6.2
8.0
7.5
8.0
7.9
012
09.10
08.90
08.80
08.70
08.90
08.80
08.50
08.30
1 1 .50
1 1 .50
1 1 .25
10.25
06.00
05.90
05.70
05.50
00.00
-------�
time
STATION
DEPTH
SALINITY
CONDUCTIVITY
TEMPEf
M
PPT
MMHOS
C
77
264
115
RHO
031 .5
00. 10
13.60
21 .63
24.04
77
292
1 10
RH0
00028
00. 10
12.30
15.50
12. 75
77
292
110
RHO
00028
00.50
12.47
16.10
12.50
77
292
110
RHO
00028
01 . 00
12.47
16.80
12.02
77
292
1 1 0
RHO
00028
01 . 25
1 1 .80
15.22
12.40
77
292
135
RHO
028.4
00. 1 0
1 1 .00
14.00
11.10
77
292
135
RHO
028.4
00.50
11.18
14.00
1 1 .20
77
292
135
RHO
028.4
01 . 00
1 1 . 30
14.10
1 1 .48
77
292
135
RHO
028 . 4
01 . 50
1 1 . 20
14.10
1 1 .48
77
292
135
RHO
028 . 4
02. 00
10.68
14.50
11.10
77
292
205
RHO
00029
00. 1 0
1 1 .00
13.80
13.40
77
292
205
RHO
00029
00. 50
1 1 . 40
14.30
1 1 .20
77
292
205
RHO
00029
01 . 00
1 1 . 00
13.70
1 1 .00
77
292
205
RHO
00029
01 . 25
11.10
13.90
1 1 . 30
77
292
235
RHO
030.2
00. 10
10.85
13.82
1 1 .90
77
292
235
RHO
030.2
00.50
10.90
13.90
1 1 .70
77
292 .
235
RHO
030 . 2
01 . 00
10.90
14.20
07. 55
77
292
400
RHO
031 . 5
00. 1 0
10.90
14.54
13.48
77
299
700
CHP
00071
00. 10
12.83
17.20
13.45
77
299
700
CHP
00071
00. 50
12.87
17.30
14.18
77
299
700
CHP
00071
01 . 00
12.82
17.22
13. 74
77
299
700
CHP
00071
01 . 50
12.92
17.30
14.10
77
299
555
CHP
00072
00. 10
13.60
17.77
13.55
77
299
555
CHP
00072
00.50
13. 70
17.90
13.65
77
299
555
CHP
00072
01 . 00
13.73
17.90
13.80
77
299
555
CHP
00072
01 . 50
13.60
17.83
13.92
77
299
450
CHP
00073
00. 10
12.80
16-57
12.90
77
299
450
CHP
00073
00. 50
13.00
16.73
12.87
77
299
450
CHP
00073
01 . 00
13.00
16.76
12.77
77
299
450
CHP
00073
01 . 50
13.00
16.62
12.84
77
299
450
CHP
00073
02. 00
12.94
16. 77
12.66
77
299
335
CHP
00074
00. 10
12.10
15.89
13.29
77
299
335
CHP
00074
00. 50
12.07
15.93
13.10
77
299
335
CHP
00074
01 . 00
12. 18
15.88
13.03
77
299
335
CHP
00074
01 . 50
12.14
15.80
13.02
77
299
335
CHP
00074
02. 00
12.16
15.83
12-98
77
299
245
CHP
00075
00. 10
1 0. 50
14.30
13.62
77
299
245
CHP
00075
00.50
10.65
14.32
13.56
77
299
245
CHP
00075
01 .00
10.48
14.44
13.12
77
299
245
CHP
00075
01 . 50
10.87
14.41
13.20
77
299
245
CHP
00075
02. 00
1 1 .02
14.63
12.74
77
299
200
CHP
00076
00. 10
08.27
11.31
13.39
77
299
200
CHP
00076
00. 50
08. 10
11.16
13.37
77
299
200
CHP
00076
01 . 00
07.60
10.45
14.01
77
299
200
CHP
00076
01 . 50
07.44
10.21
14.08
77
299
022
CHP
00077
00. 10
04.68
06. 17
13.20
77
299
022
CHP
00077
00. 25
77
299
022
CHP
00077
00.50
04.27
05.90
13.30
77
299
022
CHP
00077
00.75
77
299
022
CHP
00077
01 .00
04.42
06.20
13.11
TURBIDITY PHOTOMETERS WAT/OK TRANSMISSION
UNDER
DECK WATER PENETRATION
JU UE/M2-SEC UE/M2-SEC X X
6.6 11.50
4.5 23.80
5.4 23.20
3.3 22.50
5.2 22.50
3.4 33.00
3.6 33.00
4.3 32.00
5.3 30.00
4.7 29.50
4.3 29.00
3.5 29.00
020
4.0 37.00
4.5
3.7
5.2
2.5 75.00
1.7 74.00
1.7 74.00
1.5 75.00
2.6 70.00
3.7 70.00
4.8 69.00
4.0 71.00
4.3 0030 0000 75.00
2.8 73.00
2.8 72.00
3.7 72.00
2.5 76.00
2.9 0000 0000 76.00
4.5 23.00
4.2 23.00
4.5 26.00
6.2 24.50
6.5 22.00
015 02.50
015 00.50
017 00.25
018 00.00
016 01.50
0170 0094 55.00
019 0170 0031 00.50
0170 0005 03.00
017 0170 0000 00.00 00.50
Cu
cr
fD
CO
ro
6.2 14.00
6.2 13.50
6.9 12.80 o
O
n>
Q.
-------�
TIME
STATION DEPTH SALINITY
CONDUCTIVITY
TEMPERATURE
77
299
0850
CHP
00078
77
299
0850
CHP
00078
77
299
0850
CHP
00078
77
300
1050
POP
0008 t
77
300
1050
POP
00081
77
300
1050
POP
00081
77
300
1050
POP
00081
77
300
1050
POP
00081
77
300
1050
POP
00081
77
300
1050
POP
00081
77
300
1115
POP
00082
77
300
1115
POP
00082
77
300
1115
POP
00082
77
300
1115
POP
00082
77
300
1115
POP
00082
77
300
1 140
POP
00083
77
300
1 140
POP
00083
77
300
1 140
POP
00083
77
300
1 140
POP
00083
77
300
1 140
POP
00083
77
300
1 140
POP
00083
77
300
1 140
POP
00083
77
300
1205
POP
00084
77
300
1205
POP
00084
77
300
1 205
POP
00084
77
300
1 205
POP
00084
77
300
1 205
POP
00084
77
300
1205
POP
00084
77
300
1205
POP
00084
77
300
1 205
POP
00084
78
1 10
1 100
RHO
00028
78
1 10
1 100
RHO
00028
78
1 10
1 100
RHO
00028
78
110
1 100
RHO
00028
78
1 10
1 100
RHO
00028
78
1 10
1 100
RHO
00028
78
1 10
1 140
RHO
028.4
78
110
1 140
RHO
028.4
78
1 10
1 140
RHO
028.4
78
1 10
1 140
RHO
028.4
78
110
1 200
RHO
00029
78
110
1200
RHO
00029
78
1 10
1200
RHO
00029
78
1 10
1230
RHO
030.2
78
1 10
1230
RHO
030.2
78
110
1230
RHO
030.2
78
110
1230
RHO
030.2
78
110
1000
RHO
031 .5
78
1 17
1500
RHO
031 .5
78
117
1500
RHO
031 .5
PPT MMHOS C
01.30 01.80 13.00
01.20 01.80 13.70
01.30 01.80 13.30
11.51 15.94 14.61
11.60 16.05 15.30
11.78 16.15 14.82
11.72 16.00 14.51
12.00 16.20 14.48
11.97 16.26 14.34
12.02 16.33 14.57
11.93 16.16 14.32
11.88 16.22 14.29
11.87 16.18 14.36
11.82 16.20 14.25
12.02 16.47 14.64
11.88 16.32 14.47
12.04 16.40
11.93 16.30 14.42
04.84 06.70 12.54
05.13 06.78 12.80
05.74 07.32 10.85
05.50 07.31 10.85
05.43 07.30 11.24
05.57 07.34 11.38
04.08 05.96 13.05
04.48 06.02 13.15
04.35 06.08 13.00
04.40 06.18 12.80
03.94 05.68 13.37
04.03 05.74 13.68
04.06 05.75 13.65
03.90 05.66 14.29
04.00 05.70 14.17
04.00 05.83 14.35
04.10 05.73 13.96
03.62 05.00 13.70
03.62 04.72 10.42
M
00. 10
00.50
01 . 00
00. 1 0
00.25
00.50
00. 75
01 . 00
01 . 25
01 .50
00. 10
00. 25
00.50
00.75
01 .00
00. 10
00.25
00. 50
00. 75
01 .00
01 .25
01 . 50
00. 10
00.25
00.50
00. 75
01 . 00
01 .25
01 .50
00. 03
00. 10
00.50
01 .00
01 .50
02.00
02. 25
00. 1 0
00.50
01 .00
01 . 50
00. 10
00.50
01 .00
00. 1 0
00.50
01 .00
01 .50
00.10
00. 10
00.50
TURBIDITY
PHOTOMETERS
WAT/DK
TRANSII
UNDER
DECK
WATER
PENETRATION
JU
UE/M2-SEC
UE/M2-SEC
X
X
018
01 .50
023
00.50
028
00.00
3.5
50.00
0340
0154
45.00
3.8
0340
0100
29.00
49.00
0360
0069
19.00
3.0
0380
0033
09.00
49.00
0390
3.5
30.00
2.5
60.00
0440
0200
45.00
2.3
0440
0154
35.00
60.00
0440
0109
25.00
2.8
0410
0000
59.00
2.3
57.00
0270
0100
20.00
2.3
0290
0073
25.00
57.00
0280
0045
16.00
2.0
0270
0018
07.00
57.00
0220
0000
00.00
1 .8
57.00
2.3
56.00
0240
0087
36.00
2.3
0240
0076
32.00
56.00
0240
0033
14.00
2.4
0245
0025
10.00
56.00
0245
0004
02.00
2.6
0245
0000
00.00
57.00
1626
1412
86.80
26.00
27.00
26.00
20.00
18.00
16.00
16.00
005
1 1 .50
005
1 1 .00
1 1 .00
07.50
O)
cr
(D
CO
ro
o
O
-------�
time
STATION DEPTH SALINITY
CONDUCTIVITY
TEMPERATURE
78
122
0930
RHO
031 .5
78
122
0930
RHO
031 .5
78
131
0900
RHO
031 .5
78
131
0900
RHO
031 .5
78
1 38
1 400
RHO
031 .5
78
1 38
1400
RHO
031 .5
78
143
1040
RHO
00028
78
143
1040
RHO
00028
78
143
1040
RHO
00028
78
143
1115
RHO
028.4
78
143
.1115
RHO
028 .4
78
143
1115
RHO
028.4
78
143
1115
RHO
028.4
78
143
1115
RHO
028.4
78
143
1 140
RHO
00029
78
143
1 1 40
RHO
00029
78
143
1 1 40
RHO
00029
78
143
1 1 40
RHO
00029
78
143
1 1 40
RHO
00029
78
143
1 140
RHO
00029
78
143
1 220
RHO
030.2
7B
143
1220
RHO
030.2
78
143
1 220
RHO
030.2
78
143
1 220
RHO
030.2
78
143
0900
RHO
031 .5
78
152
1400
RHO
031 .5
78
152
1400
RHO
031 .5
78
158
1 200
RHO
031 .5
78
158
1200
RHO
031 .5
78
166
1230
RHO
031 .5
78
166
1 230
RHO
031 .5
78
1 72
1000
RHO
00028
78
172
1000
RHO
00028
78
172
1000
RHO
00028
78
172
1000
RHO
00028
78
172
1000
RHO
00028
78
172
1000
RHO
00028
78
1 72
1040
RHO
028.4
78
172
1040
RHO
028.4
78
172
1040
RHO
028.4
78
172
1040
RHO
028.4
78
172
1040
RHO
028.4
78
172
1040
RHO
028.4
78
172
1 105
RHO
00029
78
1 72
1 105
RHO
00029
78
172
1 105
RHO
00029
78
172
1 105
RHO
00029
78
172
1 105
RHO
00029
78
172
1205
RHO
030.2
78
172
1205
RHO
030.2
PPT
MMHOS
C
03. 92
06.18
16.80
04.76
06.82
15. 72
03. 35
05.48
20. 16
03. 35
05.48
20. 16
03. 90
06.40
19.90
04. 10
06-90
20. 10
03. 92
06.45
20. 25
04. 30
07.20
20. 90
04.55
11.10
20. 80
04. 35
07.10
20. 20
.04.40
07 . 10
19.90
04. 30
07.00
20.30
04. 70
07.90
22. 40
04. 70
07.95
21.10
04.65
07.85
21 . 75
04.82
07.85
22.00
04.90
07.80
20. 90
04.85
08.05
20. 70
04. 70
07.90
23.60
04.80
08.18
23.36
04. 70
07.95
23. 30
04.80
08.05
23.40
03.91
06.22
21 .62
03.42
06.09
28.20
03.50
05.90
24.30
05.50
09.10
23.66
06.60
11 .40
25. 40
07.20
12.50
25. 60
06.60
11 .30
25. 70
06.70
11 .40
25.00
06.90
11 .50
24.50
06.90
11 .40
25.00
06.50
1 1 .40
26.50
06.70
1 1 .40
26. 20
06.90
1 1 .80
25.80
06. 70
11 .40
25.80
06.80
11 .65
25.00
06.70
1 1 .50
25. 10
06.20
11.10
26.90
06.30
11 .20
27. 20
06.30
1 1 .20
26. 80
06.20
11 .20
26.90
06.40
11 .00
27.20
06.10
11.10
27.70
06.00
11.10
27.50
M
00. 10
00.25
00. 10
00. 50
00. 10
00.50
01 .00
00. 1 0
00. 50
01 . 00
01 .50
02. 00
00. 10
00. 50
01 .00
01 . 50
02. 00
02.50
00. 1 0
00. 50
01 . 00
01 . 50
00. 10
00. 10
00. 50
00. 1 0
00.50
00. 10
00. 50
00. 10
00. 50
01 . 00
01 .50
02. 00
02.50
00. 10
00. 50
01 .00
01 . 50
02.00
02. 50
00. 10
00. 50
01 . 00
01 .50
02.00
00. 10
00.50
TURBIDITY PHOTOMETERS WAT/DK TRANSMISSION
UNDER
DECK WATER PENETRATION
JU UE/M2-SEC UE/M2-SEC % X
009
8.8
017
017
2.5
3.5
4.0
4.0
3.8
5.5
4.0
5.7
6.2
8.2
1530
1392
0627
1148
0B82
1066
0308
0474
0120
75.00
57.60
76.60
22.10
75.60
19.10
08.20
07.60
07.00
08.20
07.60
07.00
09.00
1 2.00
1 1 .00
03.40
02.70
02.50
014
014
031
1463
0530
1897
1016
1016
1016
1248
0535
0356
0125
1448
0290
0579
0416
0290
85.30
36.50
67. 10
23.60
76.30
15.30
57.00
41 .00
28.50
24.00
23.00
22.25
21 .50
24.00
18.00
1626
1626
1491
1491
1491
0678
0678
0579
0136
1303
0471
0163
0610
0452
35.60
08.30
87.40
31 .60
10.90
90.00
66.70
25.00
22.50
24.00
24.00
14.50
14.50
14.00
1 4.00
12.50
10.00
16.00
08.00
-------�
TIME
STATION DEPTH SALINITY CONDUCTIVITY
TEMPERATURE
78
172
1 205
RHO
030.2
78
172
1205
RHO
030 . 2
78
172
1345
RHO
031 .5
78
172
1345
RHO
031 .5
78
186
1 200
RHO
031 .5
78
186
1200
RHO
031 .5
78
186
1 200
RHO
031 .5
78
193
1315
RHO
031 .5
78
193
1315
RHO
031 .5
78
199
1400
RHO
031 .5
78
199
1400
RHO
031 .5
78
207
0945
RHO
00028
78
207
0945
RHO
00028
78
207
0945
RHO
00028
78
207
0945
RHO
00028
78
207
1045
RHO
028.4
78
207
1045
RHO
028.4
78
207
1045
RHO
028.4
78
207
1045
RHO
028.4
78
207
1 1 05
RHO
00029
78
207
1 105
RHO
00029
78
207
1 105
RHO
00029
78
207
1 155
RHO
030.2
78
207
1 155
RHO
030.2
78
207
1155
RHO
030.2
PPT MMHOS C
06.20 11.20 27.10
06.60 11.60 27.10
05.80 10.40 29.80
03.60 06.00 22.40
03.80 06.30 22.10
05.20 09.10 24.10
05.60 09.80 24.30
29.60
28.80
09. 20
09. 00
09. 00
08. 70
08.60
08.50
08.50
08.50
M
01 . 00
01 .50
00. 10
00. 50
00. 10
00. 50
01 . 00
00. 10
00.50
00. 10
00. 50
00. 1 0
00. 50
01 . 00
01 . 50
00. 10
00. 50
01 .00
01 . 50
00. 10
00.50
01 .00
00. 10
00.50
01 .00
TURBIDITY
JU
PHOTOMETERS
UNDER
WAT/DK TRANSMISSION
DECK
WATER
PENETRATION
UE/M2-SEC
UE/M2-SEC
%
X
0678
0091
13.30
03.00
1 355
1131
83.50
1355
0172
12.70
1965
1630
83.00
1965
0543
28.00
2032
1493
73.00
2032
0172
08.00
Si
cr
0>
CO
PO
o
o
c+
3
CD
CL
012
012
012
013
9.2
9.2
9.1
8.6
011
7.8
7.4
013
013
015
02.60
02.50
02.40
01 .40
03.10
03.50
04.50
04.00
06.60
07.20
04.40
01 .60
01 .00
00.40
-------�
TIME
STATION
DEPTH
CHLOROPHYLL
Til
M
A
UG/1
L
77
103
RHO
0028T
00.40
3.68E
00
78
143
77
103
RHO
28.4T
00.40
4.99E
00
78
143
77
103
RHO
0029T
00. 40
6. 39E
00
78
143
77
118
POP
0081 T
00. 40
1 . 19E
01
78
143
77
118
POP
0082T
00.40
8.67E
00
78
143
77
118
POP
0083T
00. 40
7.23E
00
78
143
77
138
RHO
0028T
00. 40
2 . 54E
01
78
143
77
138
RHO
28.4T
00. 40
3. 1 2E
01
78
143
77
138
RHO
0029T
00.40
3.74E
01
78
143
77
173
RHO
0028T
00.40
3.06E
01
78
143
77
173
RHO
28.4T
00. 40
3.96E
01
78
143
77
173
RHO
0029T
00.40
3.68E
01
78
143
77
180
CHP
007 1 T
00.40
1 . 63E
01
78
143
77
180
CHP
0072T
00.40
1 . 60E
01
78
143
77
180
CHP
0073T
00. 40
1 . 79E
01
78
143
77
180
CHP
0074T
00.40
1 . 65E
01
78
143
77
180
CHP
0075T
00. 40
2.67E
01
78
143
77
180
CHP
0076T
00.40
2.29E
01
78
143
77
180
CHP
0077T
00.40
4.02E
01
78
143
77
181
POP
00081
00.40
3.88E
00
77
152
77
181
POP
0082T
00.40
3.40E
00
78
172
77
181
POP
00831
00.40
3.31E
00
78
172
77
202
RHO
0028T
00.40
5.35E
01
78
1 72
77
202
RHO
28. 4T
00. 40
5. 14E
01
78
1 72
77
202
RHO
0029T
00.40
6.35E
01
78
172
77
202
1400
RHO
031 .5
00.03
3.20E
00
78
1 72
77
237
CHP
0071 T
00.40
1 .61E
01
78
172
77
237
CHP
0072 T
00.40
1 .53E
01
78
172
77
237
CHP
0073T
00.40
2 . 30E
01
78
1 72
77
237
CHP
0074T
00- 40
2.05E
01
78
172
77
237
CHP
0075T
00.40
2.22E
01
78
172
77
237
CHP
0076T
00.40
9.51E
00
78
1 72
77
237
CHP
0077T
00.40
1 . 25E
01
78
172
77
238
POP
00082
00.40
2.01E
01
78
1 72
77
238
POP
00832
00.40
1 .94E
01
78
172
77
243
RHO
0028T
00.40
4.98E
01
78
1 72
77
243
RHO
20. 4T
00.40
4.56E
01
78
1 72
77
243
RHO
0029T
00.40
4 .43E
01
78
1 72
77
264
RHO
031 .5
00.40
3.40E
00
78
1 72
78
1 10
RHO
0028T
00.40
1 .78E
01
78
172
78
110
RHO
28.4T
00.40
3.64E
01
78
172
78
1 10
RHO
0029T
00.40
3.37E
01
78
1 72
78
110
RHO
031 .5
00. 40
1 .63E
01
78
172
78
1 17
RHO
031 .5
00.40
2.59E
01
78
1 72
78
131
RHO
031 .5
00.40
1 .66E
01
78
179
78
1 38
RHO
0029T
00. 40
2.80E
01
78
1 79
78
138
RHO
031 .5
00. 40
2.09E
01
78
188
78
143
1040
RHO
00028
00.10
2.28E
01
78
188
78
143
1040
RHO
00028
00.50
2.51E
01
78
193
78
143
1 040
RHO
00028
01 .00
2.66E
01
78
193
STATION
DEPTH
CHLOROPHYLL
A a>
M UG/L
cr
(B
RHO 0028T 00.40 2.37E 01
1115 RHO 028.4 00.10 2.66E 01 co
1115 RHO 028.4 00.50 3.42E 01
1115 RHO 028.4 01.00 3.87E 01
1115 RHO 028.4 01.50 4.18E 01 5
1115 RHO 028.4 02.00 4.02E 01 Ģ<
1140 RHO 00029 00.10 5.16E 01 q
1140 RHO 00029 00.50 6.68E 01 "O
1140 RHO 00029 01.00 6.91E 01 ^
1140 RHO 00029 01.50 8.73E 01 3
1140 RHO 00029 02.00 5.92E 01 Ŗ
1140 RHO 00029 02.50 5.92E 01 O
RHO 28.4T 00.40 4.33E 01 3
1220 RHO 030.2 00.10 5.16E 01 <">
1220 RHO 030.2 00.50 5.69E 01 Hi
1220 RHO 030.2 01.00 8.43E 01 O
1220 RHO 030.2 01.50 9.49E 01 3
RHO 0029T 00.40 3.49E 01 "O
RHO 031.5 00.40 2.07E 01 <<"
RHO 031.5 00.40 2.08E 01 ^
1000 RHO 00028 00.10 2.13E 01 '
1000 RHO 00028 00.50 1.82E 01 °<
1000 RHO 00028 01.00 1.82E 01 o
1000 RHO 00028 01.50 2.66E 01 g
1000 RHO 00028 02.00 2.89E 01 n
1000 RHO 00028 02.50 2.43E 01 (§
RHO 0028T 00.40 1.43E 01 S-
1040 RHO 028.4 00.10 1.60E 01 2
1040 RHO 020.4 00.50 1.44E 01 J-J-
1040 RHO 028.4 01.00 1.82E 01 Ŗ
1040 RHO 028.4 01.50 2.35E 01 3
1040 RHO 028.4 02.00 2.51E 01 w
1040 RHO 028.4 02.50 2.43E 01
1105 RHO 00029 00.10 3.57E 01
1105 RHO 00029 00.50 3.04E 01
1105 RHO 00029 01.00 3.04E 01
1105 RHO 00029 01.50 3.27E 01
1105 RHO 00029 02.00 2.81E 01
RHO 28.4T 00.40 3.31E 01
1205 RHO 030.2 00.10 3.87E 01
1205 RHO 030.2 00.50 3.87E 01
1205 RHO 030.2 01.00 4.56E 01
RHO 0029T 00.40 5.28E 01
RHO 031.5 00.40 5.01E 01
RHO 0029T 00.40 5.76E 01
RHO 031.5 00.40 4.99E 01
RHO 0029T 00.40 6.05E 01
RHO 031.5 00.40 2.94E 01
RHO 0029T 00.40 2.90E 01
RHO 031.5 00.40 7.05E 01
-------�
time station depth
M
78
199
RHO
0029T
00.40
78
199
RHO
031 .5
00.40
78
207
0945
RHO
00028
00. 10
78
207
0945
RHO
00028
00. 50
78
207
0945
RHO
00028
01 .00
78
207
0945
RHO
00028
01 .50
78
207
RHO
002ST
00.40
78
207
1045
RHO
028.4
00. 10
78
207
1 045
RHO
028.4
00.50
78
207
1045
RHO
028.4
01 . 00
78
207
1045
RHO
028.4
01 . 50
78
207
1 105
RHO
00029
00. 10
78
207
1 105
RHO
00029
00.50
78
207
1 105
RHO
00029
01 .00
78
207
RHO
28.4T
00.40
78
207
1 155
RHO
030.2
00. 10
78
207
1 155
RHO
030.2
00.50
78
207
1155
RHO
030.2
01 .00
78
207
RHO
0029T
00.40
78
207
RHO
031 .5
00.40
CHLOROPHYLL
A
UG/L
1.70E 01
4.74E 01
2.96E 01
2.73E 01
2.89E 01
2.58E 01
4.53E 01
4.40E 01
4.94E 01
4.40E 01
2.35E 01
3. 11E 01
2.66E 01
1 .90E 01
5. 1 IE 01
8.20E 01
1.02E 02
4.54E 02
6.12E 01
6.92E 01
O)
zr
n>
GJ
CO
o
o
3
f+
CO
Q-
-------�
Table 34.
Herbicide concentrations at
estuarine stations.
A. Atrazine 1976.
Sampling
date
Concentration
Concentration
in suspended
in filtrate
particulates
Station
(yq/O
(vq/A)
28
0.000
0.000
28.4
1.143
0.487
29
0.464
1.202
30.2
0.588
0.057
31.5
0.116
0.045
28
0.038
0.000
28.4
0.000
1.289
29
0.000
0.095
30.2
0.119
0.577
31.5
0.651
0.000
28
0.000
0.016
28.4
0.111
1.223
29
0.715
0.586
30.2
0.000
0.698
31.5
0.504
0.593
28
0.128
0.034
28.4
0.876
0.661
29
2.020
0.505
30.2
0.697
0.303
31.5
0.704
0.166
28
1.346
0.087
28.4
0.284
0.064
29
0.171
0.169
30.2
0.336
0.160
31.5
0.225
0.105
AdHI 13
May 25
ro
ro
June 22
July 20
Sept. 1
Concentration
Concentration
in total
Concentration
in bottom
suspended +
in suspended
sediment from
filtrate
particulates
0-3 cm deep
(uq/O
(ug/q)
(yq/q)
0.000
0.000
0.000
1.630
ND
0.424
1.666
ND
0.066
0.645
ND
0.056
0.161
ND
0.388
0.038
0.000
0.109
1.289
148.161
4.039
0.095
12.838
0.270
0.696
46.911
1.432
0.651
0.000
0.384
0.016
0.699
0.775
1.334
59.659
0.142
1.301
35.515
0.881
0.698
47.808
0.000
0.097
25.342
0.797
0.162
1.333
0.426
1.537
25.326
0.504
2.525
21.218
0.000
0.303
10.978
2.351
0.870
3.080
0.000
1.433
3.799
ND
0.348
2.870
0.011
0.340
9.286
0.000
0.496
6.531
0.080
0.330
1.208
0.102
-------�
Table 34.
(Continued)
A. Atrazine 1976.
Concentration
Concentration in suspended
Sampling in filtrate particulates
date Station (yg/ii.) (yg/a)
22
28
0.233
0.318
28.4
0.241
0.129
29
0.069
0.253
30.2
0.261
0.156
31.5
0.281
0.240
28
28
0.099
0.053
28.4
0.921
0.144
29
0.000
0.068
30.2
0.370
0.296
31.5
ND
0.173
1
28
0.113
0.230
28.4
0.207
0.276
29
0.471
0.134
30.2
3.125
0.038
31.5
ND
ND
Concentration
Concentration
in total
Concentration
in bottom
suspended +
in suspended
sediment from
filtrate
particulates
0-3 cm deep
(yq/a)
(yg/q)
(uq/q)
0.551
19.630
0.000
0.370
4.760
0.123
0.322
9.547
0.000
0.417
6.753
0.092
0.521
3.256
ND
0.152
9.636
0.088
1.065
13.333
0.344
0.068
7.391
0.177
0.666
31.828
0.393
ND
9.301
0.128
0.343
32.857
0.131
0.483
36.316
0.133
0.605
19.706
ND
3.163
3.454
0.118
ND
ND
ND
-------�
Table 34. (Continued)
A. Atrazine 1977.
Concentration
Concentration
in suspended
Sampling
in filtrate
particulates
date
Station
(pq/ft)
(yg/O
April 13
28
0.232
0.000
28.4
0.360
0.000
29
0.313
0.000
30.2
0.172
0.000
31.5
0.000
0.070
May 18
28
0.532
0.000
28.4
0.000
0.175
29
0.000
0.000
30.2
0.172
0.000
31.5
0.000
0.000
June 22
28
0.134
0.139
28.4
0.055
0.000
29
0.153
0.000
30.2
0.182
0.037
31.5
ND
ND
July 21
28
0.000
0.046
28.4
0.815
0.138
29
0.000
0.162
30.2
0.401
0.000
31.5
0.000
0.534
Aug. 31
28
0.118
0.194
28.4
0.028
0.075
29
0.065
0.000
30.2
0.152
0.136
31.5
0.164
0.000
Concentration
in total
suspended +
filtrate
(yq/g.)
0.232
0.360
0.313
0.172
0.070
Concentration
in suspended
particulates
(ug/q)
0.000
0.000
0.000
0.000
3.825
Concentration
in bottom
sediment from
0-3 cm deep
(uq/g)
0.243
0.220
0.186
0.062
0.641
0.532
0.175
0.000
0.172
0.000
0.000
16.204
0.000
0.000
0.000
0.080
0.259
0.225
0.259
0.281
0.273
0.055
0.153
0.219
ND
0.046
0.953
0.162
0.401
0.534
12.523
0.000
0.000
3.700
ND
3.770
7.582
12.000
0.000
8.103
0.188
0.318
0.082
0.211
0.617
0.196
0.141
0.118
0.253
0.582
0.312
0.103
0.065
0.288
0.164
12.357
4.121
0.000
7.273
0.000
0.169
0.191
0.290
0.138
0.376
-------�
Table 34. (Continued)
A. Atrazine 1977.
Concentration
Concentration
in suspended
Sampling
in filtrate
particulates
date
Station
(pg/A)
(yq/O
Sept. 21
28
0.000
0.000
28.4
0.277
0.031
29
0.055
0.145
30.2
0.412
0.146
31.5
0.000
0.086
Oct. 19
28
1.402
0.093
28.4
0.252
0.000
29
0.000
0.700
30.2
0.124
0.880
31.5
0.203
0.000
Nov. 21
28
0.114
0.103
28.4
0.427
0.206
29
0.122
0.211
30.2
1.196
0.065
31.5
0.673
0.331
Concentration
in total
suspended +
filtrate
(ugA)
0.000
0.308
0.200
0.558
0.086
1.495
0.252
0.700
1.004
0.203
0.217
0.633
0.333
1.261
1.004
Concentration
in suspended
particulates
(yq/q)
0.000
1.867
12.609
7.892
3.359
10.449
0.000
76.923
144.262
0.000
8.175
16.094
17.154
5.417
20.061
Concentration
in bottom
sediment from
0-3 cm deep
(wg/g)
0.336
0.250
0.080
0.143
0.523
0.038
0.000
0.201
0.000
0.055
0.057
0.000
0.065
0.069
0.000
-------�
Table 34. (Continued)
B. Alachlor 1976.
Concentration
Concentration
in suspended
Sampling
in filtrate
particulates
date
Station
(yq/Ji)
(ug/fi.)
April 13
28
0.000
0.000
28.4
0.055
0.000
29
0.082
0.232
30.2
0.000
0.000
31.5
0.000
0.000
May 25
28
0.012
0.000
28.4
0.029
0.315
29
0.000
0.000
30.2
0.032
0.063
31.5
0.543
0.014
June 22
28
0.000
0.006
28.4
0.000
0.035
29
0.041
0.000
30.2
0.000
0.000
31.5
0.000
0.524
July 20
28
0.004
0.001
28.4
0.013
0.018
29
0.018
0.000
30.2
0.000
0.007
31.5
0.013
0.013
Sept. 1
28
0.000
0.000
28.4
0.000
0.001
29
0.004
0.008
30.2
0.012
0.000
31.5
0.000
0.042
Concentration
Concentration
in total
Concentration
in bottom
suspended +
in suspended
sediment from
filtrate
particulates
0-3 cm deep
(ug/a)
(yg/g)
(yg/g)
0.000
0.000
0.000
0.055
0.000
0.052
0.314
ND
0.000
0.000
0.000
0.000
0.00Q
ND
0.000
0.012
0.000
0.000
0.344
36.207
0.093
0.000
0.000
0.000
0.095
5.122
0.031
0.557
0.622
0.010
0.006
0.262
0.000
0.035
1.707
0.000
0.041
0.000
0.031
0.000
0.000
0.000
0.524
22.393
0.015
0.005
0.039
0.000
0.031
0.690
0.007
0.018
0.000
0.000
0.007
0.254
0.061
0.026
0.241
0.000
0.000
0.000
ND
0.001
0.045
0.004
0.012
0.440
0.008
0.012
0.000
0.012
0.042
0.483
0.000
-------�
Table 34.
(Continued)
B. Alachlor
1976.
Concentration
Concentration in suspended
Sampling in filtrate particulates
date Station (yg/l.) (yq/&)
22
28
0.003
0.003
28.4
0.003
0.011
29
0.034
0.014
30.2
0.007
0.014
31.5
0.010
0.000
28.
28
0.009
0.006
28.4
0.114
0.016
29
0.001
0.059
30.2
0.008
0.052
31.5
ND
0.014
1
28
0.000
0.018
28.4
0.016
0.030
29
0.037
0.007
30.2
0.000
0.000
31.5
ND
ND
Concentration
in total
suspended +
filtrate
(yq/a)
0.006
0.014
0.048
0.021
0.010
0.015
0.130
0.060
0.060
ND
0.018
0.046
0.044
0.000
ND
Concentration
in suspended
particulates
(yq/g)
0.185
0.405
0.528
0.606
0.000
1.091
1.481
6.413
5.591
0.753
2.571
3.947
1.029
0.000
ND
Concentration
in bottom
sediment from
0-3 cm deep
(ng/g)
0.013
0.000
0.007
0.010
ND
0.010
0.000
0.010
0.031
0.000
0.007
0.000
ND
0.000
ND
-------�
Table 34. (Continued)
B. Alachlor 1977.
Concentration
Concentration
in suspended
Sampling
in filtrate
particulates
date
Station
(ng/ft)
(ng/Ŗ.)
April 13
28
0.024
0.000
28.4
0.045
0.000
29
0.026
0.000
30.2
0.008
0.000
31.5
0.000
0.000
May 18
28
0.092
0.010
28.4
0.000
0.026
29
0.000
0.000
30.2
0.000
0.000
31.5
0.000
0.000
June 22
28
0.019
0.015
28.4
0.000
0.000
29
0.013
0.008
30.2
0.018
0.022
31.5
ND
ND
July 21
28
0.000
0.000
28.4
0.000
0.000
29
0.000
0.012
30.2
0.000
0.000
31.5
0.000
0.065
Aug. 31
28
0.000
0.006
28.4
0.007
0.000
29
0.000
0.000
30.2
0.008
0.000
31.5
0.000
0.000
Concentration
in total
suspended +
filtrate
(yq/O
0.024
0.045
0.026
0.008
0.000
0.102
0.026
0.000
0.000
0.000
0.034
0.000
0.021
0.040
ND
0.000
0.000
0.012
0.000
0.065
0.006
0.007
0.000
0.008
0.000
Concentration
in suspended
particulates
(ug/9)
0.000
0.000
0.000
0.000
0.000
0.877
2.407
0.000
0.000
0.000
1.350
0.000
0.714
2.200
ND
0.000
0.000
0.888
0.000
0.986
0.382
0.000
0.000
0.000
0.000
Concentration
in bottom
sediment from
0-3 cm deep
(pg/g)
0.018
0.015
0.008
0.006
0.053
0.018
0.025
0.016
0.000
0.027
0.022
0.016
0.008
0.038
0.095
0.015
0.019
0.016
0.000
0.051
0.014
0.028
0.017
0.023
0.082
-------�
Table 34. (Continued)
B. Alachlor 1977.
Sampling
date
Concentration
Concentration
in suspended
in filtrate
particulates
Station
(pq/S.)
(uq/O
28
0.000
0.000
28.4
0.000
0.000
29
0.000
0.000
30.2
0.018
0.007
31.5
0.000
0.013
28
0.000
0.000
28.4
0.012
0.049
29
0.000
0.048
30.2
0.000
0.081
31.5
0.009
0.000
28
0.000
0.054
28.4
0.000
0.000
29
0.028
0.000
30.2
0.000
0.000
31.5
0.103
0.012
Sept. 21
Oct. 19
Nov. 21
Concentration
in total
suspended +
filtrate
(u9/ft)
0.000
0.000
0.000
0.025
0.013
0.000
0.061
0.048
0.081
0.009
0.054
0.000
0.028
0.000
0.115
Concentration
in suspended
particulates
(ug/9)
0.000
0.000
0.000
0.378
0.508
0.000
5.052
5.275
13.279
0.000
4.286
0.000
0.000
0.000
0.727
Concentration
in bottom
sediment from
0-3 cm deep
(ug/g)
0.062
0.041
0.009
0.018
0.085
0.000
0.032
0.029
0.013
0.010
0.013
0.008
0.000
0.016
0.000
-------�
Table 34. (Continued)
C. Trifluralin 1976.
Concentration
Concentration
in suspended
Sampling
in filtrate
particulates
date
Station
(vg/fc)
(yg/*)
Sept. 1
28
0.029
0.000
28.4
0.000
0.003
29
0.000
0.000
30.2
0.008
0.000
31.5
0.005
0.000
Sept. 22
28
0.001
0.000
28.4
0.000
0.000
29
ND
ND
30.2
ND
ND
31.5
0.003
0.000
Oct. 28
28
0.000
0.000
28.4
0.000
0.000
29
0.000
0.000
30.2
0.000
0.000
31.5
ND
0.000
Dec. 1
28
0.000
0.000
28.4
0.000
0.004
29
0.000
0.000
30.2
0.000
0.029
Concentration
Concentration
in total
Concentration
in bottom
suspended +
in suspended
sediment from
filtrate
particulates
0-3 cm deep
(yq/O
(yg/9)
(yg/q)
0.029
0.000
ND
0.003
0.134
0.000
0.000
0.000
0.000
0.008
0.000
0.000
0.005
0.000
0.000
0.001
0.000
0.000
0.000
0.000
0.000
ND
ND
0.000
ND
ND
0.000
0.003
0.000
ND
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
0.000
ND
0.000
0.000
0.000
0.000
0.000
0.004
0.526
0.000
0.000
0.000
0.000
0.029
2.636
0.000
-------�
Table 34. (Continued)
C. Trifluralin 1977.
Sampling
date
May 18
June 22
July 21
Auq. 31
Sept. 21
;ation
Concentration
in filtrate
(yg/Ŗ)
Concentration
in suspended
particulates
(pq/JL)
28.4
0.001
0.000
29
0.000
0.028
30.2
0.002
0.000
31.5
0.003
0.047
28
0.000
0.000
28.4
0.001
0.002
29
0.003
0.011
30.2
0.000
0.003
28
0.000
0.007
28.4
0.000
0.000
29
0.001
0.003
30.2
ND
0.002
31.5
0.012
0.000
28
0.001
0.013
28.4
0.001
0.006
29
0.002
0.024
30.2
0.001
0.006
31.5
0.000
0.000
28
0.000
0.000
28.4
0.001
0.000
29
0.001
0.000
30.2
0.000
0.001
31.5
0.000
0.010
Concentration
Concentration
in total
Concentration
in bottom
suspended +
in suspended
sediment from
filtrate
particulates
0-3 cm deep
(yq/Ŗ)
(pg/g)
(yg/g)
0.001
0.000
ND
0.028
1.780
ND
0.002
0.000
ND
0.050
0.440
ND
0.000
0.000
ND
0.003
0.180
ND
0.014
0.980
ND
0.003
0.300
ND
0.007
0.574
ND
0.000
0.000
ND
0.004
0.220
ND
ND
0.110
ND
0.012
0.000
ND
0.014
0.828
ND
0.007
0.330
ND
0.026
1.160
ND
0.007
0.320
ND
0.000
0.000
ND
0.000
0.000
ND
0.001
0.000
ND
0.001
0.000
ND
0.001
0.054
ND
0.010
0.390
ND
-------�
Table 34. (Continued)
C. Trifluralin 1977.
Sampli ng
date
Station
Concentration
in filtrate
(uq/*)
Concentration
in suspended
particulates
(yq/O
Concentration
in total
suspended +
filtrate
(vg/0
Concentration
in suspended
particulates
(yq/g)
Concentration
in bottom
sediment from
0-3 cm deep
(yg/q)
Oct. 19
28
0.000
0.000
0.000
0.000
ND
28.4
0.000
0.002
0.002
0.210
ND
29
0.000
0.002
0.002
0.220
ND
30.2
0.000
0.006
0.006
0.980
ND
31.5
0.000
ND
ND
ND
ND
Nov. 21
28
0.001
0.010
0.011
0.794
ND
28.4
0.006
0.017
0.023
1.330
ND
29
0.000
0.003
0.003
0.240
ND
30.2
0.000
0.000
0.000
0.000
ND
31.5
0.015
0.012
0.027
0.730
ND
-------�
Table 35. Bioassay data on Potamogeton pectinatus (Sago pondweed) collected
at Station 30.2 in Rhode River.
A. 6/27/77
PAR
(uE/m2/sec)
11:30 am
(clear)
1:00 pm
(hazy)
2:15 pm
(clear)
Air
1856
1423
1897
1 cm depth
1744
1267
1810
20 cm depth
1394
1014
1358
40 cm "
1050
724
959
60 cm "
742
498
689
80 cm "
543
326
516
1 meter depth
398
244
362
120 cm "
295
159
264
Bottle Depth Average PAR Net 0*release or use
(uE/mVsec) (mg 0?/hr/g dry wt.)
1 20 cm 1255 9.6
2 40 cm 911 8.7
3 60 cm 643 20.0
4 80 cm 461 7.2
5 1 meter 335 11.0
6 120 cm 239 5.9
7 dark -.8
8 dark -1.4
B. 7/5/77
PAR 3:15 pm 4:30 pm 6:30 pm
(uE/m2/sec)
Air 1490 948 461
1 cm depth 1357 923 453
20 cm depth 706 561 244
40 cm " 343 326 134
60 cm " 190 172 67
80 cm " 54 73 36
Bottle Depth Average PAR Net 02release or use
(uE/m*/sec) (mg 0?/hr/g dry wt.)
1
20 cm
504
6.9
2
40 cm
268
17.3
3
50 cm
206
10.8
4
60 cm
143
5.2
5
70 cm
99
6.2
6
80 cm
54
.34
7
dark
-2.4
8
dark
-1.3
433
-------�
Table 35. (con't)
C. 7/13/77
PAR 11:30 am 1:30 pm 3:30 pm
(uE/m2/sec)
Air 1152 1751 1423
1 cm 880 1701 1339
50 cm 343 470 389
1 meter 69 81 63
Bottle Depth Average PAR Net O2 release or use
(uE/fnvsec) (mg 02/hr/g dry wt.)
1 1 cm 1306 5.1
2 50 cm 401 10.6
3 1 meter 71 1.0
4 dark -1.2
D. Bioassay data on Rupia maritima (Widgeon grass) plants collected at Station
30.2 in Rhode River (RR) and also on plants grown in lab (5 ppt salinity,
23°C, 85-115 uE/m2/sec) (L).
PAR
1:45 pm
3:00 pm
3:30 pm
4:00 pm
(uE/m2/sec)
(hazy)
(cloudy)
(cloudy)
(hazy)
Air
1626
623
908
1355
1 cm depth
1539
524
832
1177
30 cm depth
498
172
299
498
40 cm "
335
119
181
389
80 cm "
42
15
27
56
Bottle Depth Average PAR in situ assay PAR Assay in laboratory
(uE/m2sec) Net 02 release or use (ugE/m2sec) under light banks
Net 02 release or use
(mg 09/hr/g dry wt.)
1 (L)
1 cm
1018
5.4
100
1.2
2 (RR)
1 cm
1018
11.3
100
1.2
3 (L)
40 cm
256
8.3
100
3.2
4 (RR)
50 cm
171
7.1
100
1.5
5 (L)
85 cm
35
.51
100
3.0
6 (RR)
1 meter
20
2.7
100
2.1
7 (L)
dark
0
-2.0
0
-1.2
8 (RR)
dark
0
-4.5
0
- .55
434
-------�
Table 36. Bioassay data on Vallisneria americana (Wild celery): Rates of oxygen release or use
(mg Op/hr/g dry wt) under controlled microcosm conditions (23° C, 5 ppt salinity, pH 7-9,
16 hr photoperiod of 85 - 105 uE/mVsec at actual bottle locations during assays.
Part I
A. Controls
Exposure System 1 System 2 System 3 System 4
time
(days)**
Light
Dark
Light
Dark
Light
Dark
Liqht
Dark
4 (5)
2.0
-1.0
2.0
-1.0
1.6
-0.7
1.6
-0.8
6 (7)
1.5
-0.7
2.1
-0.9
1.7
-0.8
2.2
-1.1
11 (12)
1.9
-0.7
1.9
-0.8
2.6
-1.1
1.0
-0.7
13 (15)
1.9
-1.0
1.7
-0.9
3.1
-1.3
2.7
-1.8
18 (19)
1.7
-0.8
1.5
-0.9
1.4
-1.0
1.4
-1.0
20 (21)
2.2
-1.0
1.7
-0.8
1.9
-1.1
1.2
-0.7
25 (26)
2.9
-1.1
0.9
-0.7
2.9
-1.0
1.5
-1.0
28 (29)
2.9
-0.7
2.8
-0.8
2.5
-1.6
1.8
-1.5
33 (34)
3.9
-1.1
1.0
-0.6
3.6
-1.2
1.6
-0.8
34 (35)
3.3
-0.9
3.0
-0.9
5.1
-1.2
4.9
-1.4
40
2.8
-1.0
2.6
-1.3
2.2
-0.9
2.4
-0.8
42
2.7
-1.5
4.4
-1.2
2.2
-0.7
2.8
-1.5
** Exposure times in parenthesis are for atrazine microcosms.
-------�
Table 36 (Continued)
Part I
B. Treatment with atrazine (~ ppm in bottom sediments)*
(1.0) (1.0) (10) (10) (100) (100)
Exposure System 5 System 6 System 7 System 8 System 9 System 10
time
lays)
Light
Dark
Light
Dark
Light
Dark
Light
Dark
Light
Dark
Light
Dark
5
1.4
-0.8
2.4
-1.0
2.7
-1.0
1.7
-1.2
0.8
-0.7
-1.1
-3.0
7
2.1
-1.0
1.3
-0.8
2.0
-1.3
2.2
-0.9
0.3
-1.1
0.1
-0.9
12
1.9
-1.2
2.1
-1.1
-0.5
-2.4
0.9
-1.0
-1.9
-1.8
-1.2
-1.1
15
1.9
-1.0
2.9
-1.8
-0.3
-1.1
2.6
-1.5
-
-
-
-
19
2.2
-1.2
1.4
-0.7
-2.0
-1.8
3.5
-0.9
-
-
-
-
21
1.0
-1.0
1.5
-0.9
-
-
0.6
-1.2
-
-
-
-
26
3.2
-1.6
1.7
-0.7
-
-
1.0
-1.7
-
-
-
-
29
2.2
-1.1
1.7
-0.9
-
-
2.1
-2.9
-
-
-
-
34
1.6
-0.9
2.1
-0.9
-
-
-
-
-
-
-
-
35
3.3
-0.9
2.7
-1.1
-
-
-
-
-
-
-
-
40
1.0
-0.8
1.5
-1.4
-
-
-
-
-
-
-
-
42
2.4
-1.1
1.0
-0.7
_
_
-
-
-
-
*Actual concentrations are still being determined.
-------�
Table 36 (Continued)
Part I
C. Treatment with linuron (~ ppm in bottom sediments)*
(1.0) (1.0) (10) (10) (100) (100)
Exposure System 11 System 12 System 13 System 14 System 15 System 16
time
lays)
Light
Dark
Light
Dark
Light
Dark
Light
Dark
Light
Dark
Light
Dark
4
2.1
-1.0
2.5
-1.0
1.6
-0.8
1.5
-0.8
-0.4
-2.3
0.4
-1.2
6
1.5
-0.9
2.4
-0.9
1.0
-0.7
2.6
-0.7
-0.7
-1.3
0.0
-0.7
11
3.7
-0.8
2.8
-0.7
-5.6
-4.7
1.6
-0.6
-1.0
-1.0
-0.6
-0.9
13
2.6
-0.8
3.0
-0.9
-3.7
-4.8
-1.3
-2.3
-
-
-
-
18
1.9
-0.8
2.8
-1.1
-1.8
-1.4
-2.3
-2.7
-
-
-
-
20
1.4
-0.8
2.2
-0.8
-2.7
-2.1
-
-
-
-
-
-
25
2.5
-1.0
2.8
-1.1
-
-
-
-
-
-
-
-
28
2.6
-0.8
4.5
-0.8
-
-
-
-
-
-
-
-
33
1.0
-0.3
2.4
-1.3
-
-
-
-
-
-
-
-
34
3.8
-0.9
2.4
-0.6
-
-
-
-
-
-
-
-
40
3.5
-0.9
2.1
-1.0
-
-
-
-
-
-
-
-
42
2.8
-1.0
2.8
-1.0
_
_
_
_
_
* Actual concentrations are still being determined.
-------�
Table 36. Bioassay data on Potamogeton pectinatus (Sago pondweed): Rates of oxygen release or use
(mg 02/hr/g dry wt) under controlled microcosm conditions (23° C, 5 ppt salinity, pH 7-9,
16 hr photoperiod of 80 - 105 uE/m2/sec at actual bottle locations during assays).
Part II
A. Controls
Exposure
time
(days)
System
1
System 2
Exposure
time
(days)
System 3
System 4
Light
Dark
Light
Dark
Light
Dark
Light
Dark
2
1.8
-1.9
1.1
-1.8
3
2.6
-2.3
1.8
-1.9
6
1.2
-0.9
1.3
-1.3
5
3.0
-2.4
2.4
-2.9
8
2.7
-1.2
1.6
-1.5
10
3.2
-1.3
1.9
-0.9
13
1.7
-1.3
2.1
-2.0
12
2.1
-1.2
1.5
-1.5
15
1.7
-0.9
1.2
-0.8
17
1.7
-1.3
1.3
-0.8
20
1.5
-0.6
1.1
-0.6
19
2.3
-1.0
2.0
-1.6
22
1.5
-0.7
1.7
-1.0
25
1 .5
-0.9
1.3
-0.8
28
1.5
-0.7
1.5
-1.3
27
1.9
-1.5
1.2
-0.9
33
1.9
-0.9
1.2
-0.8
34
2.3
-1.1
1.3
-0.6
37
4.6
-1.0
2.7
-1.3
38
1 .8
-0.8
0.3
-0.5
41
3.2
-1.5
2.4
-1.3
40
1 .8
-0.4
0.9
-0.8
43
5.1
-1.3
2.6
-0.9
-------�
Table 36. (Continued)
Part II
B. Treatment with atrazine (~ ppm in bottom sediments)*
(1.0) (1.0) (10) (10) (100) (100)
Exposure System 5 System 6 System 7 System 8 System 9 System 10
time
lays)
Light
Dark
Light
Dark
Light
Dark
Light
Dark
Light
Dark
Light
Dark
3
2.8
-2.3
1.6
-1.8
3.5
-1.0
3.8
-1.1
-1.0
-1.3
3.8
-1.3
5
1.6
-1.1
1.8
-1.3
0.7
-1.4
4.7
-1.5
9.5
-5.4
4.6
-1.8
10
1.5
-1.2
0.8
-1.0
1.9
-0.6
3.7
-2.3
0.3
-1.4
0.2
-1.8
12
2.2
-1.7
2.7
-0.7
2.1
-1.5
2.5
-1.1
3.1
-2.7
-0.4
-1.7
17
1.4
-0.7
1.1
-0.6
0.4
-0.9
-0.8
-1.7
0.0
-1.5
-1.3
-1.7
19
1.3
-0.7
1.4
-1.1
0.7
-2.8
0.2
-2.7
-
-
-
-
25
1.9
-0.8
1.6
-0.7
1.3
-3.4
-0.5
-3.2
-1.2
-2.7
-1.5
-2.4
27
2.4
-0.7
4.1
-1.1
2.0
-1.6
-0.1
-2.6
-1.2
-0.8
-1.4
-2.9
34
4.5
-1.3
1.2
-0.7
0.5
-3.1
1.6
-1.7
-1.3
-2.2
-0.5
-1.2
38
2.7
-0.8
1.8
-0.9
2.5
-3.9
0.4
-1.5
-1.5
-2.3
-1.5
-1.5
40
2.0
-0.9
1.6
-1.2
-1.3
-1.1
-1.1
-1 .2
_
_
* Actual concentrations are still being determined.
-------�
Table 36. (Continued)
Part II
C. Treatment with linuron (~ ppm in bottom sediment)*
Exposure
time
(1.0)
System 11
(1.0)
System 12
(10)
System 13
(10)
System 14
(100)
System 15
(100)
System 16
lays)
Liqht
Dark
Liqht
Dark
Liqht
Dark
Liqht
Dark
Liqht
Dark
Liqht
Dark
2
2.1
-1.9
2.4
-3.1
1.1
-2.2
0.9
-3.3
-1.2
-3.1
1.2
-2.4
6
1.7
-1.1
2.1
-1.0
0.7
-1.2
0.5
-1.7
0.1
-1.0
1.2
-1.1
8
3.5
-1.2
2.0
-0.9
0.8
-1.7
0.3
-1.0
-1.5
-2.3
1.1
-0.9
13
2.2
-1.1
1.3
-1.4
0.2
-0.8
0.3
-0.8
-0.5
-1.3
-1.9
-1.9
15
1.5
-1.6
2.2
-1.2
0.2
-1.5
0.3
-1.3
-0.6
-1.1
-3.2
-5.4
20
1.2
-0.7
1.3
-1.1
0.3
-0.8
0.6
-2.5
-
-
-
-
22
2.0
-0.9
1.4
-0.8
0.4
-1.7
0.3
-1.1
-
-
-
-
28
3.6
-1.1
2.2
-0.7
0.8
-1.6
1.7
-1.9
-0.4
-0.9
-1.7
-2.0
33
2.3
-0.9
2.0
-0.6
2.2
-2.1
0.3
-1.5
-0.9
-1.1
-0.5
-0.7
37
2.6
-0.8
1.8
-0.7
-1.4
-1.6
0.3
-1.1
-0.5
-0.9
-0.4
-1.0
41
2.8
-1.1
3.5
-1.0
0.6
-0.6
2.7
-2.6
-1.4
-1.8
-1.8
-1.6
43
3.8
-1.0
2.6
-0.8
0.0
-0.4
4.1
-2.6
-0.4
-0.9
_
_
* Actual concentrations are still being determined.
-------�
Table 36. Bioassay data on Zostera marina (Eel-grass): Rates of oxygen release or use (mg CL/hr/g dry wt)
under controlled microcosm conditions (15° C, 20 ppt salinity, pH 7-9, 16 hr photoperiod of
85 - 105 uE/m^/sec at actual bottle locations during assays).
Part III
A. Controls
Exposure System 1 System 2 System 3 System 4
time
(days)**
Light
Dark
Light
Dark
Liqht
Dark
Light
Dark
4 (5)
3.1
-0.2
1.6
-0.2
1.8
-0.4
2.0
-0.5
7 (10)
2.1
-0.4
2.8
-0.4
2.2
-0.5
2.7
-0.5
11 (12)
2.6
-0.4
3.3
-0.4
2.6
-0.7
2.4
-0.8
13 (18)
2.3
-0.4
2.5
-0.6
3.3
-0.7
2.3
-0.6
19 (20)
2.1
-0.4
2.5
-0.6
2.2
-0.7
2.1
-0.6
23 (25)
3.1
-0.6
2.4
-0.8
1.5
-0.5
1.4
-0.6
26 (27)
2.8
-0.6
2.1
-0.9
2.6
-0.7
2.2
-0.8
31 (32)
1.9
-0.8
1.8
-0.7
2.5
-1.1
1.3
-0.8
33 (34)
2.0
-0.5
1.2
-0.6
2.2
-1.1
2.1
-0.6
38 (41)
1.7
-0.4
1.4
-0.4
2.1
-0.6
2.1
-0.7
45
2.3
-0.5
1.8
-0.4
3.2
-0.5
3.0
-0.2
** Exposure times in parenthesis are for atrazine microcosms.
-------�
Table 36 (Continued)
Part III
B. Treatment with atrazine (~ ppm in bottom sediment)*
(1.0) (1.0) (10) (10) (100) (100)
Exposure System 5 System 6 System 7 System 8 System 9 System 10
time ; :
(days)
Light
Dark
Light
Dark
Light
Dark
Light
Dark
Light
Dark
Light
Dark
5
3.0
-0.3
1.6
-0.4
1.8
-0.3
2.6
-0.2
0.7
-0.4
1.1
-0.4
10
2.6
-0.5
3.5
-0.5
2.3
-0.2
3.0
-0.3
0.3
-0.4
0.3
-0.4
12
2.4
-0.5
2.9
-0.4
2.0
-0.1
2.1
-0.3
0.5
-0.4
0.7
-0.5
18
2.7
-0.5
2.8
-0.4
1.9
-0.2
2.4
-0.1
-0.2
-0.7
0.7
-0.3
20
2.6
-0.5
3.8
-0.4
2.6
-0.4
2.4
-0.2
0.4
-0.4
0.8
-0.8
25
2.1
-0.4
2.3
-0.5 .
1.2
-0.4
0.8
-0.6
-0.5
-1.0
-0.6
-0.6
27
3.7
-0.7
2.6
-0.6
1.2
-0.7
1.3
-0.4
-0.1
-1.0
-0.9
-1.3
32
2.6
-0.6
2.8
-0.7
0.7
-0.5
-0.1.
-0.4
-0.7
-0.9
-1.2
-0.9
34
2.4
-0.4
2.8
-0.5
0.9
-0.5
0.0
-0.2
-
-
-
-
41
3.0
-0.5
2.4
-0.5
0.5
-0.5
0.7
-0.3
-
-
-
-
* Actual
concentrations
are still
being determined.
-------�
Table 36 (Continued)
Part III
C. Treatment with linuron (~ ppm in bottom sediments)*
(1.0) (1.0) (10) (10) (100) (100)
Exposure
time
(days)
System 11
Systeir
I 12
System 13
System 14
System 15
Sys teiT
l 16
Light
Dark
Light
Dark
Light
Dark
Light
Dark
Light
Dark
Light
Dark
4
2.6
-0.2
1.9
-0.4
1.5
0.0
1.3
0.0
0.0
-0.3
0.0
-0.4
7
3.3
-0.5
3.0
-0.5
2.6
-0.2
1.6
-0.1
-0.2
-0.4
0.4
-0.5
11
1.9
-0.3
3.0
-0.3
2.8
-0.1
1.3
-0.1
-0.2
-0.3
-0.6
-0.5
13
4.3
-0.4
3.4
-0.4
2.2
-0.1
1.7
-0.3
-0.3
-0.3
-0.3
-0.4
19
3.0
-0.3
2.9
-0.3
1.0
0.0
0.7
0.0
-0.4
-0.3
-0.5
-0.2
23
3.4
-0.6
4.7
-0.8
1.0
-0.3
0.4
-0.3
-0.8
-0.3
-1.0
-0.8
26
3.1
-0.4
3.7
-0.5
0.9
-0.3
0.5
-0.2
-0.7
-0.4
-1.3
-0.5
31
2.2
-0.6
1.8
-0.8
0.7
-0.7
0.8
-0.4
0.5
-0.5
-0.5
-0.6
33
2.7
-0.5
2.4
-0.2
0.9
-0.6
0.4
-0.3
-0.4
-0.6
-0.5
-0.4
38
1.9
-0.3
1.8
-0.5
0.5
-0.5
0.2
-0.2
-
-
-
-
45
2.0
-0.3
2.0
-0.3
_
_
_
_
-
_
-
* Actual concentrations are still being determined.
-------�
Table 36. Laboratory microcosm bioassay data.
IV. Linear regressions obtained from bioassay data as a function
Species
Concentrati on/Compound
Data type
Potamogeton
pectinatus
Zostera marina
Vallisneria
americana
0
lppm
lOppm
lOOppm
lppm
lOppm
lOOppm
0
lppm
lOppm
lOOppm
lppm
lOppm
lOOppm
0
lppm
lOppm
lOOppm
lppm
lOppm
lOOppm
0
lppm
lOppm
lOOppm
lppm
lOppm
lOOppm
0
lppm
lOppm
lOOppm
lppm
lOppm
lOOppm
controls
Linuron
Atrazine
controls
Linuron
Atrazine
controls
Linuron
Atrazine
controls
Linuron
Atrazine
controls
Linuron
Atrazine
Gross photosynthesis/hr
Net 02 production/day
Gross photosynthesis/hr
Net 02 production/day
% leaf area change
ime.
intercept Slope
3.4
-.0101
0.01
3.3
.0009
0.0002
2.0
.0143
0.016
1.6
-.0435
0.26
3.0
.0014
0.0002
4.3
-.0557
0.15
5.6
-.1608
0.29
13.5
.3710
0.14
15.99
.5049
0.32
-8.9
.3649
0.16
-19.8
-.3739
0.02
15.1
.4076
0.13
37.7
-1.5654
0.48
32.7
-2.2394
0.40
3.0
-.0098
0.05
3.7
-.0214
0.10
2.2
-.0345
0.37
.3
-.0161
0.20
3.1
.0046
0.01
3.2
-.0636
0.62
1.4
-.0384
0.49
44.6
-.4778
0.17
49.4
-.3752
0.14
36.1
-.8998
0.64
-.9
-.5627
0.53
41.9
-.0736
0.01
46.9
-1.1332
0.69
18.9
-1.2352
0.72
-15.0
3.652
0.39
-32.5
6.16
0.56
25.1
-6.134
0.75
43.7
-10.94
0.92
-17.6
1 .09
0.07
7.2
-3.61
0.61
75.1
-12.85
0.88
-------�
Table 36. Laboratory microcosm bioassay data.
IV. (con't)
Species Concentrati on/Compound
Data type
Vallisneria
americana
0
lppm
lOppm
lOOppm
lppm
lOppm
lOOppm
0
lppm
lOppm
lOOppm
lppm
lOppm
lOOppm
controls
Linuron
Atrazine
controls
Linuron
II
II
Atrazi ne
Gross photosynthesis/hr
Net 02 production/day
Y intercept Slope
R2
2.3
.0431
0.24
3.3
.0068
0.01
3.2
-.184
0.59
2.15
-.1885
0.73
3.0
-.0024
0.001
2.6
-.0017
0.0001
2.9
-.2519
0.94
16.0
.5438
0.22
31.6
.0977
0.01
36.4
-5.7406
0.38
-9.3
-.95
0.12
22.5
.0188
0.0006
20.9
-.8319
0.06
7.8
-3.40
0.26
-------�
Table 37. Average Vallisneria americana (Wild celery) response to various concentrations of
atrazine or linuron.
Part I
A. Net oxygen release per day (mg C^/day/g dry wt)
Exposure Atrazine in sediments Linuron in sediments
time (~ ppm)* (~ ppm)*
(days)**
Controls
1
10
100
1
10
100
4 (5)
21.8
23.5
24.5
-17.4
28.9
19.4
-13.8
6 (7)
23.5
19.5
25.2
-4.7
24.0
23.6
-14.1
11 (12)
22.7
23.7
-10.4
-36.3
46.1
-51.5
-20.0
13 (15)
27.5
27.6
8.0
-
38.5
-68.2
-
18 (19)
16.4
20.5
2.4
-
.30.2
-48.6
-
20 (21)
21.1
12.3
-0.6
-
22.4
-60.5
-
25 (26)
24.9
29.6
2.9
-
34.1
-
-
28 (29)
30.7
23.0
10.7
-
50.5
-
-
33 (34)
32.3
22.4
-
-
21.5
-
-
34 (35)
56.1
41.1
-
-
43.8
-
-
40
32.5
12.4
-
-
30.0
-
-
42
38.6
36.8
20.2
_
_
* Actual concentrations are still being determined.
** Exposure times in parenthesis are for atrazine microcosms.
-------�
Table 37 (Continued)
Part I
B. Gross photosynthesis (mg (^/hr/g dry wt)
Exposure Atrazine in sediments Linuron in sediments
time (~ ppm)* (~ ppm)*
(days)**
Controls
1
10
100
1
10
100
4 (5)
2.7
2.8
3.3
1.7
3.3
2.4
1.7
6 (7)
2.8
2.6
3.3
1.2
2.9
2.5
0.6
11 (12)
2.6
3.2
1.9
-0.1
4.1
0.7
0.2
13 (15)
3.6
3.7
2.5
-
3.6
1.1
-
18 (19)
2.4
2.8
2.2
-
3.2
0.0
-
20 (21)
2.7
2.2
1.8
-
2.6
-0.5
-
25 (26)
3.0
3.6
2.7
-
3.7
-
-
28 (29)
3.7
3.0
-
-
4.4
-
-
33 (34)
3.4
2.8
-
-
2.5
-
-
34 (35)
5.1
4.0
-
-
3.9
-
-
40
3.5
2.3
-
-
3.3
-
-
42
4.2
2.6
_
3.9
_
_
* Actual concentrations are still being determined.
** Exposure times in parenthesis are for atrazine microcosms.
-------�
Table 37. Average Potamogeton pectinatus (Sago poridweed) response to various concentrations of
atrazine or linuron.
Part II
A. Net oxygen release per day (mg (^/day/g dry wt)
Exposure Atrazine in sediments Linuron in sediments
time
(days)**
Controls
1
(~ PPm)*
10
100
1
(~ PPm)*
10
100
2 (3)
13.5
18.8
50.7
-12.4
16.3
-5.3
-20.7
6 (5)
16.5
17.9
32.3
83.6
22.0
-2.8
1.9
8 (10)
28.0
9.4
37.9
-7.6
35.7
-0.8
-14.1
13 (12)
16.5
29.5
26.1
3.7
18.5
-2.7
-31.3
15 (17)
15.8
15.2
-13.2
23.6
17.7
-8.3
-91.9
20 (19)
20.1
14.4
-14.0
-
13.8
-6.8
-
22 (25)
17.1
22.6
-20.4
-42.2
21.1
-5.8
-
28 (27)
17.2
44.8
-10.1
-31.6
38.8
5.1
-33.7
33 (34)
20.3
38.4
-3.4
-27.3
29.0
5.2
-20.6
37 (38)
30.0
29.5
2.6
-40.0
29.1
-1.9
-14.6
41 (40)
25.4
20.3
-28.1
-
41.2
13.2
-38.8
43
52.1
_
_
44.3
19.9
-13.1
* Actual concentrations are still being determined.
** Exposure times in parenthesis are for atrazine microcosms.
-------�
Table 37 (Continued)
Part II
B. Gross photosynthesis (mg (^/hr/g dry wt)
Exposure Atrazine in sediments
time
(days)**
Controls
1
(~ PPm)
10
2 (3)
3.8
4.3
4.7
6 (5)
3.9
2.9
4.2
8 (10)
3.6
2.3
4.3
13 (12)
3.4
3.7
3.6
15 (17)
2.4
1.9
1.1
20 (19)
2.7
2.3
3.2
22 (25)
2.4
2.5
3.7
28 (27)
2.7
4.2
2.6
33 (34)
2.5
3.9
3.5
37 (38)
3.3
3.1
4.2
41 (40)
3.1
2.9
-0.1
43
5.0
_
-
* Actual concentrations are still being determined.
** Exposure times in parenthesis are for atrazine microcosms
Linuron in sediments
(~ PPm)*
100
1
10
100
2.7
4.8
3.8
2.9
10.7
3.0
2.1
1 .7
1.9
3.8
1.9
1.5
3.6
3.0
1.1
0.4
1.0
3.3
1 .7
-0.8
-
2.2
2.1
-
1.2
2.6
1.8
-
0.6
3.8
3.0
0.1
0.8
2.9
3.1
0.0
0.4
3.0
0.8
0.5
-
4.2
3.3
0.1
,
4.1
3.6
0.5
-------�
Table 37. Average Zostera marina (Eel-grass) response to various concentrations of atrazine or linuron.
Part III
A. Net oxygen release per day (mg O^/day/g dry wt)
Exposure Atrazine in sediments Linuron in sediments
time
(days)**
Controls
1
(~ ppm)*
10
100
1
(~ ppm)*
10
100
4 (5)
31.2
34.2
32.7
11.0
33.4
22.7
-2.6
7 (10)
35.8
50.8
40.7
0.8
46.4
32.6
-1 .8
11 (12)
39.1
30.8
31.0
<_n
00
36.4
32.6
-9.8
13 (18)
36.1
40.7
33.2
0.5
59.1
43.1
-8.2
19 (20)
30.9
45.4
38.0
5.0
45.1
24.1
-9.2
23 (25)
28.9
32.4
12.0
-15.8
59.7
8.8
-18.9
26 (27)
32.7
45.6
15.6
-17.5
50.7
9.2
-20.1.
31 (32)
23.2
37.8
1.8
-22.5
26.5
8.1
-12.0
33 (34)
24.3
38.4
4.4
-
37.9
6.6
-10.8
38 (41)
25.3
39.0
6.0
-
26.4
3.3
-
45
28.3
34.6
_
_
29.5
-
-
* Actual concentrations are still being determined.
** Exposure times in parenthesis are for atrazine microcosms.
-------�
Table 37 (Continued)
Part III
B. Gross photosynthesis (mg Q^/hr/q dry wt)
Exposure Atrazine in sediments Linuron in sediments
time
(days)**
Controls
1
(~ ppm)*
10
100
1
(~ PPm)*
10
100
4 (5)
2.4
2.7
2.4
1.3
2.5
1.4
0.3
7 (10)
2.9
3.6
3.1
0.7
3.6
2.2
0.5
11 (12)
3.2
3.1
2.3
1.1
2.8
2.2
0.0
13 (18)
3.2
3.2
2.4
0.8
4.3
2.2
0.0
19 (20)
2.7
3.8
2.8
1.1
3.3
1.5
-0.2
23 (25)
2.7
2.7
1.5
0.3
4.8
1.0
-0.4
26 (27)
3.0
3.8
1.8
0.7
3.8
1.0
-0.6
31 (32)
2.7
3.4
0.8
0.0
3.0
1.1
0.1
38 (34)
2.5
3.1
0.8
-
2.3
0.7
-
45 (41)
2.6
3.2
1.0
-
2.3
-
-
* Actual concentrations are still
being determined.
** Exposure
times in parenthesis are for
atrazine microcosms
-------�
Table 38. Vallisneria americana (wild cherry) bioassay data.
Leaf area (cm2) as a function of whole plant dry wt.(mg) for controls
mg dry wt.
cm2 leaf area
28.3
11.0
48.9
24.4
54.2
58.7
61.0
40.1
66.8
23.4
77.0
38.9
96.4
47.2
100.7
27.2
101.9
37.0
104.8
116.3
125.7
112.9
127.4
116.9
127.9
42.2
135.2
40.0
137.2
48.4
140.4
131.0
141.7
65.1
144.3
48.1
151.8
94.2
162.3
65.6
168.4
58.9
169.6
62.0
176.1
120.8
185.8
75.7
187.6
57.3
200.4
139.2
202.6
64.9
203.4
132.9
211.4
202.9
221.1
111.3
221.6
148.2
240.8
153.1
254.3
80.2
332.4
229.8
347.4
164.4
355.9
169.6
358.3
123.0
377.6
169.5
400.8
171.3
423.7
185.6
436.3
138.2
458.7
197.3
527.8
237.5
452
-------�
ilian
late
976)
092
093
094
095
096
106
112
113
114
117
122
123
132
133
137
138
139
140
147
148
149
150
151
152
168
169
172
173
174
175
182
183
185
188
189
190
191
193
194
197
Rainfall data from Rhode River basin-sized watersheds.
A. Manual gauges (cm)
Station number
11 16 20 22
1.52 2.51 1.93 3.07
0.03
0.05
0.46 0.48 0.51
0.56
0.43
0.23
0.05 0.38 0.18 0.36
0.41
0.20 0.18 0.13
3.30 0.05 2.64 3.51 3.02
3.56 0.66
0.64
0.58 0.56 0.56
0.03 0.41 0.79 0.46
0.56 0.30 0.18 0.89
1.12 0.08 0.79 1.17
0.46 0.81 0.38 1.83
0.05 0.13 0.51 0.41 0.41
0.46 0.15 0.03
0.15
2.01 2.92
3.48 1.93 2.29
3.56
4.90
2.59 4.27 4.37
0.13 0.30
0.23 0.25
0.61
<0
+J
0.30
0.30 2 1.37
o 1.50
z 0.18
0.25 0.41
0.64 0.20 0.64 0.18
0.79 0.30
0.20
3.18 2.54
2.87 0.23 2.95
0.86 1.04 0.89
453
-------�
Table 39 (Continued)
A. Manual gauges (cm)
Julian
date
2
11
Station number
16
20
22
198
3.10
0.13
2.39
3.91
199
3.23
0.91
203
0.03
204
0.03
208
0.53
211
1.78
0.53
212
1.78
1.68
214
0.84
+->
0.48
0.53
221
ra
p
0.86
2.13
0.18
222
5.64
o
5.51
3.66
5.13
223
:z:
0.25
1.09
227
3.96
1.98
228
2.74
1.68
1.68
229
0.84
3.00
240
3.07
1.47
2.51
241
2.29
246
0.20
0.18
247
0.05
0.30
254
0.64
0.76
0.94
0.76
259
6.10
260
4.22
2.79
5.41
2.29
3.05
265
0.08
0.66
270
0.84
0.89
271
0.64
0.13
0.20
273
0.64
0.56
1.68
274
2.34
2.34
2.21
2.67
275
1.07
0.56
1.98
276
5.13
1.45
2.36
2.67
2.67
277
0.33
0.25
278
0.05
282
4.47
283
4.62
4.39
5.16
2.78
284
0.03
291
0.94
0.69
0.86
2.64
0.81
292
0.58
0.03
294
3.89
3.12
2.26
295
4.37
1.37
3.63
298
0.20
0.28
0.81
299
3.43
0.58
3.25
3.00
300
0.30
3.10
301
3.61
304
2.54
2.84
305
2.46
454
-------�
ble
ilian
late
306
307
317
328
332
333
334
342
343
346
347
351
352
355
356
360
364
(Continued)
A. Manual gauges (cm)
Station number
11 16 20 22
2.46
0.51 0.41
2.69
0.61
0.30
0.05 0.33
1.45
3.56
3 3 -IS 4.17
it} fd oo J?
o o 0.23 o
o o 0.25 o
z z 0.05 z
0.33
0.25
0.53
1.09
0.25
455
-------�
Table 39 (Continued)
A. Manual gauges (cm)
Julian Station number
date 5 8 9 10 11 12 13 14 15 16 18 19 20 21 22 23
(1977)
005
0.15
006
0.18
007
0.40
0.94
010
1.30
1.70
015
1.78
1.78
016
0.28
017
0.18
025
0.64
0.10
044
0.05
0.15
0.13
051
055
0.79
0.20
056
1.02
0.10
058
0.05
0.97
059
0.08
063
0.10
0.13
0.15
1.60
0.28
064
0.03
0.08
0.05
072
0.18
0.25
0.91
0.64
0.61
073
0.76
0.84
0.25
077
0.05
0.25
0.53
0.56
078
0.81
0.79
079
0.30
0.30
0.28
0.30
1.04
080
0.05
0.13
081
0.18
3.18
3.38
3.38
082
2.92
2.97
087
0.20
0.23
088
0.15
0.20
-------�
Table 39 (Continued)
A. Manual gauges (cm)
Julian
date
5
8
9
10
11
092
093
1.88
1.88
094
0.05
0.30
095
1.17
1.09
096
0.56
0.58
114
115
0.91
0.97
116
0.91
0.76
119
0.51
0.51
120
122
123
0.41
0.33
124
0.13
0.48
125
1.02
0.74
126
0.18
127
1.68
1.75
128
0.28
129
134
0.10
0.30
135
139
0.48
0.43
140
0.76
145
0.76
0.84
146
0.48
0.30
157
0.36
0.36
158
1.50
1.40
160
2.10
2.00
0.56
1.27
161
0.10
1.57
0.81
Station number
14 15 16 18 19 20 21 22
2.00
1.80
0.05
0.53
1.37
0.89
0.81
0.38
0.28
0.46
2.08
2.44
0.03
0.18
0.89
0.84
1.52
0.03
2.00
1.96
1.73
0.53
1.30
1.07
0.86
3.56
2.08
0.97
1.83
2.10 3.06
0.05
2.34
1.14
0.24
1.32
1.34
1.52
1.55
0.13
0.76
2.79
0.08
-------�
Table 39 (Continued)
A. Manual gauges (cm)
Julian
date
5
8
9
10
11
12
13
Station
14
165
0.02
166
0.10
168
169
5.20
5.10
4.22
3.18
2.76
3.04
3.53
170
0.02
0.10
0.06
0.08
0.05
0.04
0.04
4.30
171
0.72
0.90
0.06
0.05
0.04
1.50
1.02
0.92
172
0.04
0.10
1.44
1.83
1.73
0.12
176
0.03
0.10
0.04
0.04
178
0.08
179
0.11
0.20
0.28
0.13
0.06
0.14
180
0.13
181
0.02
182
0.14
0.06
0.10
0.48
0.24
183
0.03
0.13
0.12
188
0.32
0.02
0.40
0.50
0.40s
0.22
189
0.99
vo
0
190
0.14
0.02
0.26
0.26
0.26
0.20
191
0.33
0.36
192
1.43
1.50
1.70
0.82
1.04
0.96
1.12
193
1.57
1.37
1.56
194
1.30
1.78
2.10
1.70
0.18
CO
195
198
2.35
199
1.50
1.36
1.42
1.26
1.36
CM
2.04
200
201
0.20
0.20
0.14
0.15
0.02
202
0.03
0.10
0.10
203
0.20
0.56
0.40
0.26
0.08
205
number
15 16 18 19 20 21 22
0.04
5.29
0.12
0.82
0.04
0.04
0.02
0.32
0.30
1.48
1.42
2.34
0.20
0.03
5.59
0.03
0.64
0.05
0.13
0.10
0.30
0.15
1.64
1.93
2.74
0.23
0.05
6.38
0.08
0.80
0.03
0.04
0.10
0.33
0.22
0.15
1.90
1.20
2.40
0.20
0.10
5.48
0.02
0.09
0.50
0.08
0.08
0.05
0.17
0.15
0.14
1.78
0.02
1.73
2.49
0.04
0.23
0.06
0.58
5.11
0.18
0.38
0.48
0.28
2.34
1.73
1.46
0.17
4.82
0.30
0.88
0.06
0.60
0.36
0.01
0.20
2.82
1.54
0.20
1.22
0.20
0.31
4:39
0.25
0.94
0.64
0.36
0.13
3.05
1.57
0.05
0.94
0.05
-------�
Table 39 (Continued)
A. Manual gauges (cm)
Julian
date
5
8
9
10
11
12
13
Station
14
206
0.52
0.06
0.34
0.16
207
0.24
0.28
0.28
0.35
0.46
208
0.20
211
0.92
0.84
0.81
0.68
0.86
1.08
0.94
212
0.02
213
1.18
0.62
0.72
0.94
214
0.70
0.76
0.54
0.04
215
216
0.02
217
0.26
0.10
0.32
218
0.08
0.05
0.06
219
220
0.12
0.06
0.03
0.05
0.06
0.12
221
0.86
1.00
0.81
0.97
0.62
0.72
0.70
0.98
222
0.76
. 0.08
0.12
0.26
0.50
0.62
223
0.26
0.18
0.30
0.26
0.26
0.28
224
0.23
0.55
0.06
225
0.18
0.10
0.10
0.10
0.08
0.14
0.49
0.18
226
0.24
0.62
0.56
0.42
0.22
0.30
0.30
227
0.04
0.15
0.14
232
0.20
236
1.93
2.42
0.03
2.24
1.92
1.84
237
0.63
0.18
2.79
0.28
0.02
246
0.05
0.08
247
0.32
248
0.24
0.02
0.36
0.42
0.40
249
0.55
0.01
0.31
0.04
0.02
250
1.18
0.02
0.03
0.08
0.38
1.26
number
15 16 18 19 20 21 22 23
0.58
0.10
0.69
0.46
0.50
0.30
0.94
1.04
0.98
0.93
1.16
1.45
0.92
1.14
0.76
1.18
1.08
1.34
0.03
1.12
0.04
0.02
0.40
0.34
0.36
0.38
0.56
1.94
0.43
0.03
0.13
1.37
0.25
0.18
0.43
1.88
0.14 0.52
0.57
0.22
0.21
0.11
0.40
1.08
0.50
0.12
0.15
0.26
0.02
<0
-------�
Table 39 (Continued)
A. Manual gauges (cm)
Julian
date
5
8
9
10
11
12
13
252
0.48
0.48
253
0.01
0.56
0.56
0.48
255
256
257
0.06
259
0.50
260
0.48
0.48
0.42
0.42
262
265
267
269
0.14
0.12
0.20
270
0.04
0.10
0.18
0.02
271
<0
<0
274
4->
10
4->
to
0.02
275
o
o
0.08
0.08
276
o
z
o
z
0.10
0.12
279
0.06
280
0.06
281
0.06
282
3.93
2.03
1.70
3.58
2.74
283
1.91
2.30
287
2.42
0.25
0.30
5.05
3.96
288
2.50
4.83
4.82
1.30
289
290
0.50
1.20
1.27
1.24
1.26
ro
o
291
0.10
0.03
292
0.40
0.03
294
1.30
298
0.20
Station number
14 15 16 18 19 20 21 22 23
0.40
0.08
0.04
0.36
0.02
0.02
0.20
0.02
0.04
0.08
3.66
3.76
1.26
0.04
1.38
0.04
0.38
0.12
0.04
0.46
0.16
0.06
0.04
0.12
3.70
4.62
0.56
0.36
0.10
0.38
0.15
0.05
0.03
0.03
0.05
3.94
3.73
1.22
rC
O
1.10 0.99
0.35
0.05
0.44
0.03
1.68
0.02
0.14
0.51
0.43
0.05
0.50
0.05
0.01
0.13
0.18
0.01
0.06
0.02
0.04
0.06
0.08
0.06
0.14
4.74
4.16
3.54
3.96
3.28
3.38
4.24
4.67
1.64
1.31
1.04
0.98
1.18
1.42
0.04
0.42
0.13
0.32
0.13
0.52
0.10
0.04
0.10
4.80
3.05
1 .01
0.24
-------�
Table 39 (Continued)
A. Manual gauges (cm)
Julian
Station
date
5
8
9
10
11
12
13
14
299
0.53
1.86
0.13
0.12
2.54
2.50
2.34
300
5.00
3.06
5.33
5.90
2.98
3.20
3.02
301
1.30
0.13
0.20
0.10
0.02
302
0.40
305
0.14
0.04
0.04
306
0.04
0.10
307
1.04
0.02
1.02
0.60
0.96
308
0.26
1.17
1.32
0.22
0.88
0.24
309
0.08
0.10
0.12
0.18
310
0.16
0.33
4.04
1.00
1.02
311
1.10
3.65
3.30
2.54
3.14
2.80
312
fO
+->
(G
O
0.28
0.71
2.24
0.20
0.26
313
0.08
0.02
314
1.43
0.02
315
O
y
1.10
1.32
1.12
1.15
1.22
316
0.02
317
0.50
321
0.53
1.22
1.17
0.98
1.66
3.20
1.62
322
0.08
0.66
0.76
0.78
0.60
323
0.04
0.06
324
0.02
325
0.02
0.06
326
0.02
0.90
0.50
0.56
0.92
2.40
327
0.26
1.46
1.98
1.58
1.32
0.80
0.04
328
0.12
0.16
0.08
0.54
0.18
1.20
0.14
329
2.00
0.74
0.13
0.62
0.86
1.12
1.24
330
2.13
1.52
1.32
1.28
331
1.30
0.04
number
15 16 18 19 20 21 22 23
2.04
2.18
1.94
2.92
1.86
1.84
3.10
3.28
2.94
0.82
3.53
1.00
0.64
0.05
0.08
2.06
0.02
2.08
0.72
0.69
0.52
1.24
0.40
0.28
0.28
0.25
0.69
0.72
0.04
0.64
0.04
0.18
0.42
0.64
0.20
2.14
3.58
3.82
3.18
3.58
1.82
0.50
3.38
0.33
fd
0.30
0.18
0.43
4->
ro
3.32
Q
O
2E
1.13
1.32
1.13
1.42
1 .64
2.82
1.75
1.88
1.54
0.03
0.08
0.42
1.78
0.36
0.02
0.52
1.86
2.28
0.87
0.83
0.94
0.94
1.60
1.58
1.42
1.30
2.34
0.10
0.44
1.04
2.38
0.97
1.68
2.22
0.94
1.24
0.80
2.34
1.20
0.02
-------�
Table 39 (Continued)
A. Manual gauges (cm)
Julian
date
5
8
9
10
11
12
13.
Station
14
number
15
16
18
19
20
21
22
23
332
0.16
0.08
0.04
0.10
0.02
333
0.64
0.40
0.68
1.56
0.70
0.78
0.79
0.68
0.62
0.66
0.63
334
0.46
0.56
0.30
0.52
1 .42
0.48
0.72
0.43
2.30
0.48
0.74
1.27
3.01
335
0.01
1.92
2.29
2.34
1.92
1.12
1.78
1.64
1.88
1.98
0.27
2.12
1.96
336
0.01
0.04
0.01
0.04
0.03
338
0.02
339
0.01
0.60
0.05
0.04
0.56
0.66
0.64
0.68
0.64
0.66
0.66
0.82
2.54
340
0.18
0.66
0.56
0.16
0.18
0.20
0.15
0.16
0.20
0.89
341
0.66
0.10
342
0.34
343
0.30
0.13
0.26
0.26
0.25
0.28
0.30
344
0.18
346
re
ĻM
0.02
-------�
Table 39 (Continued)
A. Manual gauges (cm)
Julian
date
8
9
10
11
12
13
(1978)
001
0.02
0.70
0.08
002
0.10
0.23
0.10
005
0.04
006
0.01
007
0.04
0.20
008
2.00
0.05
0.30
1.90
4.00
009
2.25
1.80
2.60
2.24
010
0.15
Oil
0.06
013
1.16
0.43
0.70
r *3 on
2.92
014
2.83
3.68
2.50
I o. oU
1.64
015
0.01
0.08
016
0.02
017
0.50
1.45
0.20
0.20
3.52
018
2.24
4.19
4.24
{4.18
0.40
019
020
3.18
2.03
1.50
2.44
3.76
021
0.66
024
3.00
025
3.04
1.27
3.16
r K 7Ŗ
3.54
026
2.32
4.95
i D./D
2.60
033
0.50
0.16
0.20
0.12
034
1.00
0.20
035
0.40
036
0.60
037
0.32
0.80
0.30
0.30
0.80
0.20
Station number
14 15 16 18 19 20 21 22
0.10
0.04
0.01
0.10
0.06
2.00
2.30
0.06
2.02
2.18
0.05
1.91
2.08
1.98
1.86
2.24
3.74
3.20
1.12
2.24
1.60
{4.64
1.88
2.69
1.58
{2.20
2.77
6.38
0.18
{6.06
0.24
3.66
2.59
0.18
0.72
0.26
0.61
0.15 0.11 0.24
0.05
1.94 1.98 2.96
2.02 1.90 0.81
1.12 1.81 1.74
0.02 2.78 2.28
2.00 4.30 3.42
1.48 1.96
2.96
1.74 3.84 2.36
2.56
3.30 3.46 3.12
2.84 2.82
0.15
0.26 1.16
2.30
4.01
2.30
3.04 4.22
2.54
4.85
5.06 3.28
1 .27
4.19
-------�
Table 39 (Continued)
A. Manual gauges (cm)
Julian
date
8
9
10
11
12
038
0.14
1.07
042
0.70
043
0.50
044
1.00
045
0.66
0.61
0.60
0.46
047
0.40
048
1.20
0.05
0.20
049
0.30
050
0.10
053
0.40
055
060
0.05
0.14
0.10
0.12
061
0.08
0.10
062
0.03
1.66
0.71
0.44
0.70
063
0.01
0.58
0.42
064
0.02
065
0.01
066
0.02
0.92
067
0.02
0.56
0.56
068
0.04
0.36
0.76
069
0.56
0.18
0.72
1.36
070
0.86
073
1.52
1.96
074
0.05
2.03
0.98
075
0.26
0.05
0.65
076
0.03
0.05
0.61
0.65
080
0.28
081
0.06
0.38
0.22
082
0.04
Station, number
13 14 15 16 18 19 20 21 22
0.13
0.12
1.09
62
to
4->
to
Z*
0.65
0.24
0.61
0.52
0.48
0.38
0.05
0.03
0.12
0.76
0.17
0.18
0.16
to
ftJ
1.38
-ģ->
ro
O
O
O
O
z
sz
0.78
0.68
0.64
0.74
0.24
0.33
1.00
1.18
1.45
1.06
1.34
1.90
1.80
1.75
1.50
1.66
0.57
0.76
0.64
0.50
0.74
0.06
0.34
0.30
0.25
0.09
0.43
CO
+->
CO
o
0.84
1.22
2.59
1.22
-------�
Table 39 (Continued)
A. Manual gauges (cm)
Julian
date
8
9
10
11
12
084
0.08
085
5.60
2.92
2.90
8.14
086
0.01
1.90
5.33
5.40
093
0.50
0.10
0.06
094
1.40
0.08
0.05
096
0.26
097
0.30
0.30
098
0.28
101
102
0.15
0.16
103
1.00
107
0.50
109
0.40
1.42
1.27
1.12
1.12
110
0.80
1.36
1.47
1.14
1.18
111
0.20
0.05
116
0.20
1.00
0.84
0.92
0.98
117
0.40
0.32
0.38
0.40
118
0.15
0.20
124
125
1.86
2.52
4.06
4.08
{ 3.90
126
0.32
0.18
0.20
127
0.10
0.26
128
0.46
1.00
0.90
129
2.98
3.56
2.44
2.56
130
0.88
0.81
0.62
0.80
133
0.51
0.48
0.42
0.04
134
1.32
1.32
2.00
1.22
135
3.14
3.43
4.00
{ 6.38
136
3.00
1.32
1.48
Station number
14 15 16 18 19 20 21 22
0.08
0.22
0.10
/ft 1 A
1.68
7.14
6.48
7.42
\ O 1 O
7.86
5.59
1.60
2.02
1.55
1.50
0.44
4.70
0.06
1.20
0.05
0.06
0.04
0.28
0.28
0.28
0.26
0.14
0.18
0.18
0.18
0.16
1.40
1.37
1.70
1.42
2.50
2.58
1.38
1.19
1.05
2.26
0.72
3.63
0.02
1.65
0.91
0.82
0.67
0.64
0.54
0.62
0.27
0.30
0.23
0.27
0.36
4.40
3.96
2.72
2.50
2.42
3.84
0.02
0.42
1.68
1.88
0.60
4.19
0.46
0.66
0.41
2.08
0.44
0.01
0.60
0.98
0.74
0.82
2.88
0.64
3.40
3.94
4.06
3.22
0.84
3.22
0.80
0.63
0.80
4.42
1 .02
0.66
0.48
0.50
1 .16
0.60
0.30
1.00
1.36
1.65
1.82
1.02
1.38
1.42
2.82
2.54
2.74
3.07
0.15
2.72
3.46
3.82
4.65
3.97
3.66
3.05
-------�
Table 39 (Continued)
A. Manual gauges (cm)
Julian
date 8 9 10 11 12
137
0.04
2.16
2.22
138
139
0.04
0.05
144
0.64
0.66
0.62
145
146
147
148
149
0.04
154
155
1.98
156
0.46
158
03
Ļ %
159
<0
0.42
160
LJ
0.18
161
w
z
164
165
0.50
167
0.14
168
169
171
0.04
172
0.12
173
1.38
178
0.18
Station number
14 15
16 18 19 20 21 22
0.02
1.23
0.04
0.04
0.04
1.06
0.48
0.08
0.54
0.08
0.44
0.02
1.18
(O
ĻM
+J
+->
CO
-------�
Table 39 (Continued)
B. Recording gauges (cm)
Julian
Station
number
date
3
4
5
6
(1977)
179
0.03
182
0.03
0.13
188
0.30
0.28
190
0.03
0.13
192
1.44
193
0.05
1.47
194
0.27
0.07
0.05
198
1.49
1.63
2.11
199
0.05
0.02
201
0.10
0.18
0.10
202
0.43
0.05
206
0.33
0.45
0.48
0.55
211
0.79
1.07
0.89
0.56
213
0.55
0.73
1.16
1.09
214
0.03
217
0.05
0.18
0.23
0.30
219
0.03
0.03
0.10
0.08
220
0.92
0.71
0.83
0.22
221
0.03
222
0.43
0.51
0.91
0.51
223
0.03
224
0.08
0.05
225
0.18
0.15
0.15
0.15
226
0.18
0.33
0.18
0.18
236
2.26
1.91
238
0.03
241
0.03
244
0.03
0.18
245
0.03
0.05
248
0.20
0.38
0.25
249
0.69
0.68
252
0.48
0.41
0.41
253
0.03
257
0.05
0.03
0.03
259
0.20
0.41
0.28
0.38
260
0.05
0.05
0.05
0.03
269
0.08
270
0.02
0.02
274
0.03
0.03
275
0.08
279
0.03
0.05
0.03
467
-------�
Table 39 (Continued)
B. Recording gauges (cm)
Julian
Station
number
date
3
4
5
6
(1977)
280
0.03
281
0.30
0.30
0.33
282
3.58
3.68
3.66
287
5.66
5.31
5.16
3.99
288
0.08
0.05
0.05
0.05
289
1.14
1.04
0.91
0.81
290
0.20
0.22
0.20
0.15
298
0.03
299
5.92
4.98
5.13
300
0.43
0.41
0.43
301
0.03
0.03
0.03
302
0.13
306
0.03
0.03
307
0.08
1.09
1.02
0.69
309
0.18
0.05
310
3.00
3.33
3.25
.3.07
311
0.68
0.73
312
0.03
0.03
314
1.45
1.27
1.16
320
1.76
1.75
1.62
1.17
325
0.02
326
1.62
1.55
1.50
1.40
327
0.76
0.84
0.97
0.89
328
0.10
0.10
0.08
0.10
329
2.34
2.26
2.26
2.08
330
0.08
0.08
0.08
332
0.05
0.02
0.03
333
0.63
0.69
0.69
0.64
334
2.36
2.25
2.29
2.24
335
0.18
0.18
0.15
0.20
339
0.58
0.66
0.64
340
0.18
0.15
0.15
0.13
343
0.25
0.25
0.25
0.23
347
0.03
348
1.75
1.85
2.01
0.03
351
0.05
0.05
0.10
352
5.94
7.70
8.00
3.00
353
1.09
1.11
354
0.69
0.69
0.71
0.64
355
0.86
0.88
0.91
0.89
359
0.33
0.36
0.36
0.33
364
0.74
0.64
0.61
0.66
365
0.18
0.20
0.25
0.20
468
-------�
Table 39 (Continued)
B. Recording gauges (cm)
Julian
Station
number
date
3
4
5
.6
(1978)
002
0.03
0.05
003
0.03
006
0.03
0.02
008
2.24
2.39
2.31
2.31
009
2.23
2.16
2.08
1.79
012
0.05
0.05
0.03
013
2.46
2.51
2.24
0.13
014
0.46
0.89
1.04
0.99
016
0.02
017
1.50
0.08
0.03
0.58
018
0.20
0.20
0.23
020
0.08
0.97
1.45
1.42
021
0.05
0.15
0.05
023
0.08
0.05
0.13
024
0.53
0.36
0.36
0.08
025
5.33
5.38
5.41
4.67
026
1.85
1.93
1.75
2.03
030
0.03
039
0.03
0.18
0.13
040
0.03
041
0.03
043
0.03
046
0.10
0.10
0.10
0.15
047
0.08
0.10
0.15
0.08
048
0.08
0.13
0.08
0.13
060
0.10
0.05
0.10
0.08
065
0.07
0.17
066
0.10
0.10
0.10
068
0.66
0.53
0.66
0.33
069
1.45
1.40
1.45
1.57
073
2.16
2.06
1.85
1.55
075
0.53
0.61
0.64
0.56
076
0.17
0.05
080
0.28
0.28
0.20
0.28
084
0.66
0.61
0.18
0.61
085
6.45
6.55
3.05
7.21
086
1.52
1.32
0.15
1.52
093
0.05
0.05
0.05
094
0.03
096
0.10
0.10
0.05
0.08
097
0.15
0,10
0.03
0.15
101
0.15
0.15
0.03
0.15
102
0.03
469
-------�
Table 39 (Continued)
B. Recording gauges (cm)
Julian
Station
number
date
3
4
5
6
(1978)
108
0.79
0.74
0.79
0.76
109
1.45
1.57
1.57
1.75
110
0.02
0.02
0.02
115
0.05
0.03
116
1.02
0.84
0.69
0.56
117
0.28
0.20
0.15
0.18
124
4.19
3.68
4.11
3.86
125
0.15
0.13
0.18
0.18
126
0.18
0.38
0.30
0.33
128
1.90
1.60
1.65
1.95
129
2.51
2.87
2.46
2.62
133
1.37
1.02
1.07
1.40
134
1.73
1.32
1.14
1.35
135
2.99
2.66
3.58
136
2.74
2.36
2.39
3.20
138
0.03
0.08
0.15
0.18
142
0.05
143
0.61
0.51
0.43
0.66
144
0.08
0.89
0.48
0.56
148
0.03
149
0.08
0.03
150
0.02
0.02
0.03
154
2.67
2.41
1.32
1.02
155
0.03
156
0.76
0.99
0.84
0.10
157
0.03
0.03
158
0.41
0.30
0.48
159
0.25
0.18
0.23
164
0.33
168
0.36
170
0.05
172
0.97
-------�
Table 40. Area yield loading due to dryfall and bulk precipitation at the
Rhode River site.
A. Dryfall
I. Total Kjeldahl nitrogen
Winter 1977
Starting time
Ending time
Exposure
Loading
Loading rate
Yr
Day
Time
Yr
Day
Time
(days)
(Kg N/ha)
(Kg N/ha-day)
76
336
0000
76
337
1200
1.50
1.02E-2
6.81E-3
337
1200
343
1500
6.13
(3.85E-2)
(6.28E-3)
343
1500
345
1030
1.81
1.04E-2
5.75E-3
345
1030
77
011
1050
31.00
(1.02E-1)
(3.30E-3)
77
Oil
1050
013
0906
1.92
1.63E-3
8.49E-4
013
0906
018
0930
5.00
(1.90E-2)
(3.79E-3)
018
0930
021
0945
3.00
(2.02E-2)
(6.74E-3)
021
0945
025
1615
4.27
(1.44E-2)
(3.37E-3)
025
1615
028
1630
3.00
0
0
028
1615
034
1020
5.75
2.61E-2
4.54E-3
034
1020
039
0920
5.04
1.52E-2
3.02E-3
039
1010
042
1500
3.21
3.07E-2
9.56E-3
042
1500
046
0845
3.74
(3.68E-2)
(9.83E-3)
046
0845
049
1020
3.06
3.10E-2
1.01E-2
049
1020
053
1110
4.04
4.08E-2
1.01E-2
053
1110
055
1055
2.00
3.34E-2
1.67E-2
055
1055
058
2400
3.54
(4.43E-2)
(1.25E-2)
Seasonal
total
88
4.75E-1
Mean = 6.74E-3
x.962*
N = 10
4.57E-1**
(Data estimated) = mean of the rates immediately preceding and after the
missing data point.
* Correction factor to exclude rain events.
** Dryfall measurements with rain events excluded.
471
-------�
Table 40. (Continued)
A. Dryfall
I. Total Kjeldahl nitrogen
Spring 1977
Starting time
Ending time
Exposure
Loading
Loading rate
Yr Day
Time
Yr
Day
Time
(days)
(Kg N/ha)
(Kq N/ha-day)
77 059
0000
77
059
0830
0.35
(4.38E-3)
(1.25E-2)
059
0830
062
1635
3.33
2.79E-2
8.38E-3
062
1635
066
1635
4.00
(4.68E-2)
(1.17E-2)
066
1635
070
1800
4.06
6.13E-2
1.51E-2
070
1800
073
1500
2.88
(4.09E-2)
(1.42E-2)
073
1500
076
1630
3.06
4.08E-2
1.33E-2
076
1630
088
0930
11.71
(1.36E-1)
(1.16E-2)
088
0930
091
1615
3.28
3.26E-2
9.94E-3
091
1615
096
0950
4.74
(3.04E-2)
(6.41E-3)
096
0950
108
1430
12.20
3.51E-2
2.88E-3
108
1430
119
0930
10.79
(1.13E-1)
(1.05E-2)
119
0930
122
1445
3.22
5.87E-2
1.82E-2
122
1445
130
1530
8.03
(1.12E-1)
(1.40E-2)
130
1530
133
1500
3.00
2.94E-2
9.80E-3
133
1500
140
1430
7.00
(4.14E-2)
(5.92E-3)
140
1430
144
1500
4.00
8.16E-3
2.04E-3
144
1500
146
0900
1.75
(4.95E-3)
(2.83E-3)
146
0900
150
2400
4.63
1.68E-2
3.62E-3
Seasonal
total
92
8.41E-1
Mean = 9.25E-3
x.943*
N = 9
7.93E-1**
(Data estimated) = mean of the rates immediately preceding and after the
missing data point.
* Correction factor to exclude rain events.
** Dryfall measurements with rain events excluded.
472
-------�
Table 40. (Continued)
A. Dryfal1
I. Total Kjeldahl nitrogen
Summer 1977
Starting time
Ending time
Exposure
Loading
Loading rate
Yr Day
Time
Yr
Day
Time
(days)
(Kq N/ha)
(Kg N/ha-day)
77 151
0000
77
151
1530
0.65
2.35E-3
3.62E-3
151
1530
161
1500
10.00
(6.44E-2)
(6.44E-3)
161
1500
165
0730
3.69
3.42E-2
9.26E-3
165
0730
172
0730
7.00
(7.77E-2)
(1.11E-2)
172
0730
175
1500
3.31
4.30E-2
1.30E-2
175
1500
194
0800
18.71
(1.98E-1)
(1.06E-2)
194
0800
196
1515
2.30
1.89E-2
8.22E-3
196
1515
207
0745
10.69
(9.14E-2)
(8.55E-3)
207
0745
209
1500
2.30
2.04E-2
8.87E-3
209
1500
227
0730
17.69
(1.46E-1)
(8.26E-3)
227
0730
231
1030
4.13
3.16E-2
7.65E-3
231
1030
234
1215
3.13
4.45E-2
1.42E-2
234
1215
241
2400
7.50
(8.18E-2)
(1.09E-2)
Seasonal
total
91
8.54E-1
Mean = 9.26E-3
x.965*
N = 7
8.24E-1**
(Data estimated) = mean of the rates immediately preceding and after the
missing data point.
* Correction factor to exclude rain events.
** Dryfal1 measurements with rain events excluded.
473
-------�
Table 40. (Continued)
A. Dryfall
I. Total Kjeldahl nitrogen
Fall 1977
Starting time
Ending time
Exposure
Loading
Loading rate
Yr Day
Time
Yr
Day
Time
(days)
(Kg N/ha)
(Kg N/ha-day)
77 242
0000
77
242
0800
0.33
(3.60E-3)
(1.09E-2)
242
0800
245
1500
3.29
2.48E-2
7.54E-3
245
1500
262
0900
16.75
(1.64E-1)
(9.77E-3)
262
0900
266
1500
4.25
5.12E-2
1.20E-2
266
1500
271
0800
4.71
(6.69E-2)
(1.42E-2)
271
0800
273
1500
2.29
3.75E-2
1.64E-2
273
1500
291
0800
17.71
(2.04E-1)
(1.15E-2)
291
0800
298
0730
7.00
4.57E-2
6.53E-3
298
0730
315
0900
17.06
(1.17E-1)
(6.86E-3)
315
0900
320
0830
5.00
3.59E-2
7.18E-3
320
0830
332
2400
12.65
(9.07E-2)
(7.17E-3)
Seasonal
total
91
8.41E-1
Mean = 9.93E-3
x.926*
N = 5
7.79E-1**
(Data estimated) = mean of the rates immediately preceding and after the
missing data point.
* Correction factor to exclude rain events.
** Dryfall measurements with rain events excluded.
474
-------�
Table 40. (Continued)
A. Dry fall
I. Total Kjeldahl nitrogen
Winter 1978
Starting time
Ending time
Exposure
Loading
Loading rate
Yr Day
Time
Yr
Day
Time
(days)
(Kg N/ha)
(Kq N/ha-day)
77 333
0000
78
048
1330
79.56
(5.70E-1)'
(7.17E-3)
78 048
1330
052
1600
3.90
2.79E-2
7.15E-3
052
1600
059
2400
7.33
2.84E-2
3.87E-3
Seasonal
total
91
6.26E-1
Mean = 5.51E-3
x.879*
N = 2
5.50E-1**
Spring 1978
060 0000
78
081
0830
21.35
(2.82E-1)
(1.32E-2)
081 0830
083
1600
2.31
5.22E-2
2.26E-2
083 1600
087
0905
3.71
(5.45E-2)
(1.47E-2)
087 0905
090
1600
3.29
2.25E-2
6.84E-3
090 1600
118
1530
28.00
(9.72E-1)
(3.47E-2)
118 1530
122
0720
3.65
2.28E-1
6.25E-2
122 0720
130
0700
8.00
(3.72E-1)
(4.65E-2)
130 0700
132
1500
2.33
7.10E-2
3.05E-2
132 1500
150
2400
18.38
(3.57E-1)
(1.94E-2)
Seasonal
total
91
2.41E00
Mean = 3.06E02
x.886*
N = 4
2.14E00**
(Data estimated) = mean of the rates immediately preceding and after the
missing data point.
* Correction factor to exclude rain events.
** Dryfall measurements with rain events excluded.
475
-------�
Table 40. (Continued)
A. Dryfal1
II. Nitrate
Winter 1977
Starting time
Ending time
Exposure
Loading
Loading rate
Yr Day
Time
Yr
Day
Time
(days)
(Kq N03 N/ha)
(Kg NO, N/ha-da;
76 336
0000
76
337
1200
1.50
6.11E-3
4.08E-3
337
1200
343
1500
6.13
(2.72E-2)
(4.43E-3)
343
1500
345
1030
1.81
8.65E-3
4.78E-3
345
1030
77
011
1050
31.00
(1.81E-1)
(5.83E-3)
77 Oil
1050
013
0906
1.92
1.32E-2
6.88E-3
013
0906
018
0930
5.00
(1.78E-2)
(3.55E-3)
018
0930
021
0945
3.00
6.53E-4
2.18E-4
021
0945
025
1615
4.27
(5.34E-3)
(1.25E-3)
025
1615
028
1630
3.00
6.85E-3
2.28E-3
028
1615
034
1020
5.75
1.17E-2
2.03E-3
034
1020
039
0920
5.04
9.46E-3
1.88E-3
039
1010
042
1500
3.21
1.73E-2
5.39E-3
042
1500
046
0845
3.74
(1.69E-2)
(4.51E-3)
046
0845
049
1020
3.06
1.11E-2
3.63E-3
049
1020
053
1110
4.04
1.92E-2
4.75E-3
053
1110
055
1055
2.00
1.32E-2
6.60E-3
055
1055
058
2400
3.54
(1.98E-2)
(5.58E-3)
Seasonal
total
88
3.85E-1
Mean = 3.87E-3
x.962*
N = 11
3.70E-1**
(Data estimated) = mean of the rates immediately preceding and after the
missinq data point.
* Correction factor to exclude rain events.
** Dryfal1 measurements with rain events excluded
476
-------�
Table 40. (Continued)
A. Dryfall
II. Nitrate
Spring 1977
Starting time
Ending time
Exposure
Loading
Loading rate
Yr Day
Time
Yr
Day
Time
(days)
(Kg N03 N/ha) (Kg N03 N/ha-da;
77 059
0000
77
059
0830
0.35
(1.95E-3)
(5.58E-3)
059
0830
062
1635
3.33
1.52E-2
4.56E-3
062
1635
066
1635
4.00
(1.76E-2)
(4.39E-3)
066
1635
070
1800
4.06
1.71E-2
4.21E-3
070
1800
073
1500
2.88
(1.12E-2)
(3.89E-3)
073
1500
076
1630
3.06
1.09E-2
3.56E-3
076
1630
088
0930
11.71
(4.06E-2)
(3.47E-3)
088
0930
091
1615
3.28 .
1.11E-2
3.38E-3
091
1615
096
0950
4.74
(1.31E-2)
(2.77E-3)
096
0950
108
1430
12.20
2.64E-2
2.16E-3
108
1430
119
0930
10.79
(4.01E-2)
(3.72E-3)
119
0930
122
1445
3.22
1.70E-2
5.28E-3
122
1445
130
1530
8.03
(4.02E-2)
(5.01E-3)
130
1530
133
1500
3.00
1.42E-2
4.73E-3
133
1500
140
1430
7.00
(2.30E-2)
(3.29E-3)
140
1436
144
1500
4.00
7.34E-3
1.84E-3
144
. 1500
146
0900
1.75
(5.83E-3)
(3.33E-3)
146
0900
150
2400
4.63
2.23E-2
4.82E-3
Seasonal
total
92
3.35E-1
Mean = 3.84E-3
x.943*
N = 9
3.16E-1**
(Data estimated) = mean of the rates immediately preceding and after the
missing data point.
* Correction factor to exclude rain events.
** Dryfall measurements with rain events excluded.
477
-------�
Table 40. (Continued)
A. Dry fall
II. Nitrate
Summer T977
Starting time
Yr Day Time
Ending time
Yr . Day Time
Exposure
(days)
Loading Loading rate
(Kg N03 N/ha) (Kg NO3 N/ha-da.y)
151
0000
77 151
1530
0.65
151
1530
161
1500
10.00
161
1500
165
0730
3.69
165
0730
172
0730
7.00
172
0730
175
1500
3.31
175
1500
194
0800
18.71
194
0800
196
1515
2.30
196
1515
207
0745
10.69
207
0745
209
1500
2.30
209
1500
227
0730
17.69
227
0730
231
1030
4.13
231
1030
234
1215
3.13
234
1215
241
2400
7.50
Seasonal total
91
3.13E-3
4.82E-3
(3.61E-2)
(3.61E-3)
8.81E-3
2.39E-3
(2.18E-2)
(3.12E-3)
1.27E-2
3.84E-3
(6.64E-2)
(3.55E-3)
7.50E-3
3.26E-3
(3.98E-2)
(3.72E-3)
9.62E-3
4.18E-3
(5.93E-2)
(3.35E-3)
1.04E-2
2.52E-3
4.0BE-2
1.30E-2
(6.41E-2)
(8.55E-3)
3.80E-1
Mean = 4.86E-3
x.965*
N = 7
3.67E-1**
(Data estimated) = mean of the rates immediately preceding and after the
missing data point.
* Correction factor to exclude rain events.
** Dryfall measurements with rain events excluded
478
-------�
Table 40. (Continued)
A. Dryfall
II. Nitrate
Fall 1977
Starting time Ending time Exposure Loading Loading rate
Yr Day Time Yr Day Time (days) (Kg NO3 N/ha) (Kg N03 N/ha-day)
242
0000
77
242
0800
0.33
(2.82E-3)
(8.55E-3)
242
0800
245
1500
3.29
1.35E-2
4.10E-3
245
1500
262
0900
16.75
(9.75E-2)
(5.82E-3)
262
0900
266
1500
4.25
3.20E-2
7.53E-3
266
1500
271
0800
4.71
(3.08E-2)
(6.53E-3)
271
0800
273
1500
2.29
1.26E-2
5.52E-3
273
1500
291
0800
17.71
(9.97E-2)
(5.63E-3)
291
0800
298
0730
7.00
4.01E-2
5.73E-3
298
0730
315
0900
17.06
(8.91E-2)
(5.22E-3)
315
0900
320
0830
5.00
2.35E-2
4.70E-3
320
0830
332
2400
12.65
(7.21E-2)
(5.70E-3)
Seasonal
total
91
5.14E-1
Mean = 5.52E
x.926* N = 5
4.76E-1**
(Data estimated) = mean of the rates immediately preceding and after the
missing data point.
* Correction factor to exclude rain events.
** Dryfall measurements with rain events excluded.
479
-------�
Table 40. (Continued)
A. Dryfall
II. Nitrate
Winter
1978
Starting time
Ending time 1
Exposure
Loading
Loading rate
Yr Day Time
Yr
Day
Time
(days)
(Kg N0^ N/ha) (Kg NO^ N/ha-day]
77 333 0000
78
048
1330
79.56
(4.53E-1)
(5.70E-3)
78 048 1330
052
1600
3.90
2.61E-2
6.69E-3
052 1600
059
2400
7.33
2.94E-2
4.01E-3
Seasonal
total
91
5.09E-1
Mean = 5.35E-3
x.879*
N = 2
4.47E-1**
Spring
1978
78 060 0000
78
081
0830
21.35
(1.25E-1)
(5.86E-3)
081 0830
083
1600
2.31
1.78E-2
7.71E-3
083 1600
087
0905
3.71
(1.89E-2)
(5.10E-3)
087 0905
090
1600
3.29
8.16E-3
2.48E-3
090 1600
118
1530
28.00
(4.37E-1)
(1.56E-2)
118 1530
122
0720
3.65
1.05E-1
2.88E-2
122 0720
130
0700
8.00
(1.34E-1)
(1.67E-2)
130 0700
132
1500
2.33
1.09E-2
4.68E-3
132 1500
150
2400
18.38
(7.44E-2)
(4.05E-3)
Seasonal
total
91
9.31E-1
Mean = 1.09E-2
x.886*
N = 4
8.25E-1**
(Data estimated) = mean of the rates immediately preceding and after the
missing data point.
* Correction factor to exclude rain events.
** Dryfall measurements with rain events excluded.
480
-------�
Table 40. (Continued)
A. Dryfall
III. Total phosphorus
Winter 1977
Starting time
Yr Day Time
Yr
Ending time
Day Time
Exposure
(days)
Loading
(Kq P/ha)
Loading rate
(Kq P/ha-dayJ
76 336
0000
75
337
1200
1.50
1.44E-3
9.59E-4
337
1200
343
1500
6.13
(2.94E-3)
(4.80E-4)
343
1500
345
1030
1.81
0
0
345
1030
77
011
1050
31.00
(9.21E-3)
(2.97E-4)
77 Oil
1050
013
0906
1.92
1.14E-3
5.94E-4
013
0906
018
0930
5.00
(6.40E-3)
(1.28E-3)
018
0930
021
0945
3.00
5.87E-3
1.96E-3
021
0945
025
1615
4.27
(6.06E-3)
(1.42E-3)
025
1615
028
1630
3.00
2.61E-3
8.70E-4
028
1615
034
1020
5.75
4.24E-3
7.37E-4
034
1020
039
0920
5.04
T.21E-2
2.40E-3
039
1010
042
1500
3.21
6.53E-4
2.03E-4
042
1500
046
0845
3.74
(2.57E-3)
(6.87E-4J
046
0845
049
1020
3.06
3.S9E-3
1.17E-3
049
1020
053
1110
4.04
2.94E-3
7.28E-4
053
1110
055
1055
2.00
4.HE-2
2.07E-2
055
T055
058
2400
3.54
(3.79E-2)
O.07E-2)
Seasonal
total
88
1.41E-1
Mean = 2.76E-3
x.962*
N - 11
1.36E-1**
(Data estimated) = mean of the rates immediately preceding and after the
missing data point.
* Correction factor to exclude rain events.
** Dryfall measurements with rain everts excluded.
481
-------�
Table 40. (Continued)
A. Dryfall
III. Total phosphorus
Spring 1977
Starting time
Ending time
Exposure
Loading
Loading rate
Yr Day
Time
Yr
Day
Time
(days)
(Kg P/ha)
(Kg P/ha-day)
77 059
0000
77
059
0830
0.35
(3.73E-3)
(1.07E-2)
059
0830
062
1635
3.33
2.61E-3
7.84E-4
062
1635
066
1635
4.00
(1.57E-3)
(3.92E-4)
066
1635
070
1800
4.06
0
0
070
1800
073
1500
2.88
(2.30E-3)
(8.00E-4)
073
1500
076
1630
3.06
4.89E-3
1.60E-3
076
1630
088
0930
11.71
(1.76E-2)
(1.50E-3)
088
0930
091
1615
3.28
4.57E-3
1.39E-3
091
1615
096
0950
4.74
(1.22E-2)
(2.58E-3)
096
0950
108
1430
12.20
4.60E-2
3.77E-3
108
1430
119
0930
10.79
(3.63E-2)
(3.36E-3)
119
0930
122
1445
3.22
9.46E-3
2.94E-3
122
1445
130
1530
8.03
(2.60E-2)
(3.24E-3)
130
1530
133
1500
3.00
1.06E-2
3.53E-3
133
1500
140
1430
7.00
(2.01E-2)
(2.87E-3)
140
1430
144
1500
4.00
8.81E-3
2.20E-3
144
1500
146
0900
1.75
(2.99E-3)
(1.71E-3)
146
0900
150
2400
4.63
5.60E-3
1.21E-3
Seasonal
total
92
2.15E-1
Mean = 1.94E-3
x.943*
N = 9
2.03E-1**
(Data estimated) = mean of the rates immediately preceding and after the
missing data point.
* Correction factor to exclude rain events.
** Dryfall measurements with rain events excluded.
482
-------�
Table 40. (Continued)
A. Dryfall
III. Total phosphorus
Summer 1977
ting time
Ending time
Exposure
Loading
Loading rate
Day
Time
Yr
Day
Time
(days)
(Kg P/ha)
(Kg P/ha-day)
151
0000
77
151
1530
0.65
7.87E-4
1.21E-3
151
1530
161
1500
10.00
(6.05E-3)
(6.05E-4)
161
1500
165
0730
3.69
0
0
165
0730
172
0730
7.00
(5.36E-3)
(7.65E-4)
172
0730
175
1500
3.31
5.06E-3
1.53E-3
175
1500
194
0800
18.71
(2.77E-2)
(1.48E-3)
194
0800
196
1515
2.30
3.26E-3
1.42E-3
196
1515
207
0745
10.69
(2.20E-2)
(2.06E-3)
207
0745
209
1500
2.30
6.20E-3
2.07E-3
209
1500
227
0730
17.69
(3.06E-2)
(1.73E-3)
227
0730
231
1030
4.13
3.10E-3
7.51E-4
231
1030
234
1215
3.13
1.11E-2
3.55E-3
234
1215
241
2400
7.50
(2.24E-2)
(2.99E-3)
Seasonal
total
91
1.44E-1
Mean = 1.50E-3
x.965*
N = 7
1.39E-1**
Fall 1977
242
0000
77
242
0800
0.33
(9.87E-4)
(2.99E-3)
242
0800
245
1500
3.29
7.99E-3
2.43E-3
245
1500
262
0900
16.75
(2.48E-2)
(1.48E-3)
262
0900
266
1500
4.25
2.28E-3
5.36E-4
266
1500
271
0800
4.71
(3.28E-3)
(6.96E-4)
271
0800
273
1500
2.29
1.96E-3
8.56E-4
273
1500
291
0800
17.71
(3.36E-2)
(1.90E-3)
291
0800
298
0730
7.00
2.06E-2
2.94E-3
298
0730
315
0900
17.06
(2.93E-2)
(1.72E-3)
315
0900
320
0830
5.00
2.45E-3
4.90E-4
320
0830
332
2400
12.65
(8.93E-3)
(7.06E-4)
Seasonal
total
91
1.36E-1
Mean = 1.45E
x.926* N = 5
1.26E-1**
(Data estimated) = mean of the rates immediately preceding and after the
missing data point.
* Correction factor to exclude rain events.
** Dryfall measurements with rain events excluded.
483
-------�
Table 40. (Continued)
A. Dryfall
III. Total phosphorus
Winter 1978
Starting time
Ending time
Exposure
Loading
Loading rate
Yr Day
Time
Yr
Day
Time
(days)
(Kg P/ha)
(Kg P/ha-day)
77 333
0000
78
048
1330
79.56
(5.62E-2)
(7.06E-4)
78 048
1330
052
1600
3.90
3.59E-3
9.21E-4
052
1600
059
2400
7.33
4.08E-3
5.56E-4
Seasonal
total
91
6.39E-2
Mean = 7.39E-4
x.879*
5.62E-2**
N = 2
Spring 1978
060 0000
78
081
0830
21.35
(1.35E-2)
(6.31E-4)
081 0830
083
1600
2.31
1.63E-3
7.06E-4
083 1600
087
0905
3.71
(3.61E-3)
(9.73E-4)
087 0905
090
1600
3.29
4.08E-3
1.24E-3
090 1600
118
1530
28.00
(1.20E-1)
(4.29E-3)
118 1530
122
0720
3.65
2.68E-2
7.37E-3
122 0720
130
0700
8.00
(4.81E-2)
(6.01E-3)
130 0700
132
1500
2.33
1.09E-2
4.68E-3
132 1500
150
2400
18.38
(5.75E-2)
(3.13E-3)
Seasonal
total
91
2.86E-1
Mean = 3.50E-3
x.886*
N = 4
2.53E-1**
(Data estimated) = mean of the rates immediately preceding and after the
missing data point.
* Correction factor to exclude rain events.
** Dryfall measurements with rain events excluded.
484
-------�
Table 40. (Continued)
A. Dryfal1
IV. Total organic matter
Winter 1977
Starting time
Ending time
Exposure
Loadi ng
Loading rate
Yr Day
Time
Yr
Day
Time
(days)
(Kg cal/ha)
(Kg cal/ha-day)
76 336
0000
76
337
1200
1.50
3.48E03
2.32E03
337
1200
343
1500
6.13
(8.52E03)
(1.39E03)
343
1500
345
1030
1.81
8.16E02
4.51E02
345
1030
77
011
1050
31.00
(2.41E04)
(7.76E02)
77 Oil
1050
013
0906
1.92
2.12E03
1.10E03
013
0906
018
0930
5.00
(5.85E03)
(1.17E03)
018
0930
021
0945
3.00
(3.72E03)
(1.24E03)
021
0945
025
1615
4.27
(3.69E03)
(8.65E02)
025
1615
028
1630
3.00
1.47E03
4.90E02
028
1615
034
1020
5.75
2.77E03
4.82E02
034
1020
039
0920
5.04
3.10E03
6.15E02
039
1010
042
1500
3.21
3.26E03
1.02E03
042
1500
046
0845
3.74
(4.23E03)
(1.13E03)
046
0845
049
1020
3.06
(3.79E03)
(1.24E03)
049
1020
053
1110
4.04
3.26E03
8.07E02
053
1110
055
1055
2.00
6.36E03
3.18E03
055
1055
058
2400
3.54
(6.41E03)
(1.81E03)
Seasonal
total
88
8.69E04
Mean = 1.16E03
x.962*
N = 9
8.36E04**
(Data estimated) = mean of the rates immediately preceding and after the
missing data point.
* Correction factor to exclude rain events.
** Dryfal1 measurements with rain events excluded.
485
-------�
Table 40. (Continued)
A. Dryfall
IV. Total organic matter
Spring 1977
Starting time
Ending time
Exposure
Loading
Loading rate
Yr Day
Time
Yr
Day
Time
(days)
(Kg cal/ha)
(Kg cal/ha-da
77 059
0000
77
059
0830
0.35
(6.34E02)
(1.81E03)
059
0830
062
1635
3.33
1.47E03
4.41E02
062
1635
066
1635
4.00
(3.14E03)
(7.86E02)
066
1635
070
1800
4.06
4.57E03
1.13E03
070
1800
073
1500
2.88
(3.08E03)
(1.07E03)
073
1500
076
1630
3.06
3.10E03
1.01E03
076
1630
088
0930
11.71
(1.15E04)
(9.78E02)
038
0930
091
1615
3.28
3.10E03
9.45E02
091
1615
096
0950
4.74
(7.87E03)
(1.66E03)
096
0950
108
1430
12.20
2.89E04
2.37E03
108
1430
119
0930
10.79
(2.41E04)
(2.23E03)
119
0930
122
1445
3.22
6.69E03
2.08E03
122
1445
130
1530
8.03
(1.84E04)
(2.29E03)
130
1530
133
1500
3.00
7.50E03
2.50E03
133
1500
140
1430
7.00
(1.13E04)
(1.62E03)
140
1430
144
1500
4.00
2.94E03
7.35E02
144
1500
146
0900
1.75
(1.75E03)
(1.00E03)
146
0900
150
2400
4.63
(5.88E03)
(1.27E03)
Seasonal
total
92
1.46E05
Mean = 1.40E0
x.943*
N = 8
1.38E05**
(Data estimated) = mean of the rates immediately preceding and after the
missing data point.
* Correction factor to exclude rain events.
** Dryfall measurements with rain events excluded.
486
-------�
Table 40. (Continued)
A. Dryfal 1
IV. Total organic matter
Summer 1977
Starting time
Ending time
Exposure
Loading
Loading rate
Yr Day
Time
Yr
Day
Time
(days)
(Kg cal/ha)
(Kg cal/ha-day)
77 151
0000
77
151
1530
0.65
(8.26E02)
(1.27E03)
151
1530
161
1500
10.00
(1.48E04)
(1.48E03)
161
1500
165
0730
3.69
6.20E03
1.68E03
165
0730
172
0730
7.00
(8.61E03)
(1.23E03)
172
0730
175
1500
3.31
2.61E03
7.89E02
175
1500
194
0800
18.71
(2.73E04)
(1.46E03)
194
0800
196
1515
2.30
4.89E03
2.13E03
196
1515
207
0745
10.69
(2.01E04)
(1.88E03)
207
0745
209
1500
2.30
3.75E03
1.63E03
209
1500
227
0730
17.69
(2.00E04)
(1.13E03)
227
0730
231
1030
4.13
2.61E03
6.32E02
231
1030
234
1215
3.13
2.45E03
7.82E02
234
1215
241
2400
7.50
(5.36E03)
(7.14E02)
Seasonal
total
91
1.20E05
Mean = 1.27E03
x.965*
N = 6
1.16E05**
(Data estimated) = mean of the rates immediately preceding and after the
missing data point.
* Correction factor to exclude rain events.
** Dryfal1 measurements with rain events excluded.
487
-------�
Table 40. (Continued)
A. Dryfall
IV. Total organic matter
Fall 1977
Starting time
Ending time
Exposure
Loading
Loading rate
Yr Day
Time
Yr
Day
Time
(days)
(Kg cal/ha)
(Kg cal/ha-day)
77 242
0000
77
242
0800
0.33
(2.36E02)
(7.14E02)
242
0800
245
1500
3.29
2.12E03
6.44E02
245
1500
262
0900
16.75
(1.04E04)
(6.20E02)
262
0900
266
1500
4.25
(2.53E03)
(5.95E02)
266
1500
271
0800
4.71
(3.25E03)
(6.89E02)
271
0800
273
1500
2.29
1.79E03
7.82E02
273
1500
291
0800
17.71
(1.25E04)
(7.06E02)
291
0800
298
0730
7.00
4.40E03
6.29E02
298
0730
315
0900
17.06
(8.15E03)
(4.78E02)
315
0900
320
0830
5.00
1.63E03
3.26E02
320
0830
332
2400
12.65
(5.50E03)
(4.35E02)
Seasonal
total
91
5.25E04
Mean = 5.95E02
x.926*
N = 4
4.86E04**
(Data estimated) = mean of the rates irranediately preceding and after the
missing data point.
* Correction factor to exclude rain events.
** Dryfall measurements with rain events excluded.
488
-------�
Table 40. (Continued)
A. Dryfall
IV. Total organic matter
Winter 1978
Starting time Ending time Exposure Loading Loading rate
Yr Day Time Yr Day Time (days) (Kg cal/ha) (Kg cal/ha-day)
333
0000
78
048
1330
79.56
(3.46E04)
(4.35E02)
048
1330
052
1600
3.90
2.12E03
5.44E02
052
1600
059
2400
7.33
3.54E03
4.83E02
Seasonal
total
91
4.03E04
Mean = 5.14E02
x.879*
N = 2
3.54E04**
Spring 1978
060
0000
78
081
0830
21.35
(1.65E04)
(7.72E02)
081
0830
083
1600
2.31
2.45E03
1.06E03
083
1600
087
0905
3.71
(3.44E03)
(9.27E02)
087
0905
090
1600
3.29
2.61E03
7.93E02
090
1600
118
1530
28.00
(7.98E04)
(2.85E03)
118
1530
122
0720
3.65
1.79E04
4.90E03
122
0720
130
0700
8.00
(3.83E04)
(4.79E03)
130
0700
132
1500
2.33
1.09E04
4.68E03
132
1500
150
2400
18.38
(5.28E04)
(2.87E03)
Seasonal
total
91
2.25E05
Mean = 2.86E03
x.886* N = 4
1.99E05**
(Data estimated) = mean of the rates immediately preceding and after the
missing data point.
* Correction factor to exclude rain events.
** Dryfall measurements with rain events excluded.
489
-------�
Table 40. Area yield loadings due to dryfall and bulk precipitation at Rhode River.
Part A. Dryfall
V. Sodium and Potassium
Winter - 1976
Sodium Potassium
Starting time
Ending Time
Exposure
Loading
Loading rate
Loading
Loading rate
Yr Day
Time
Yr
Day
Time
(days)
(g/ha)
(q/ha/day)
(g/ha)
(q/ha/day)
76 043
0900
76
049
1600
6.29
214.4
34.1
049
1600
054
1700
5.04
218.2*
43.3*
054
1700
057
1630
3.0
157.5
52.5
057
1630
060
2400
3.1
Seasonal
1 total
91.0
no
data
Spring
- 1976
76 061
0000
76
082
0900
21.4
(1986)
(92.8)
082
0900
085
0900
3.0
381
127
085
0900
096
0830
11.0
(1029)
(92.8)
096
0830
099
0830
3.0
(278.4)
(92.8)
099
0830
103
0830
4.0
(371.2)
(92.8)
103
0830
106
0845
3.0
(278.4)
(92.8)
106
0845
no
0830
4.0
(371.2)
(92.8)
110
0830
112
0815
2.0
178.5
89.2
112
0815
117
0745
4.98
470 *
94.4 *
117
0745
119
0910
2.04
203
99.5
119
0930
121
0830
1 .96
189.4
96.6
121
0830
124
0945
3.05
288.2*
94.5 *
124
0945
127
0800
2.92
270
92.4
127
1030
131
0800
3.92
173.4
44.2
131
0800
140
0845
9.03
777.5*
86 *
140
0845
142
0815
2.0
256
128
142
0815
145
0715
2.92
201 .5
69
145
0715
152
2400
7.82
(725.7)
(92.8)
Seasonal
1 total
92
8428
0.918**
mean 92.8
7737***
n = 8
-------�
Table 40 (continued)
Part A. Dryfal)
V. SojKut1 and Potassium
Summer - 1976
Sodiuir, Potassium
Startng time
Yr 3a r Time
Yr
Ending time
D&y Tine
Exposure
(days)
Loading
Loading rate
(u/ha/davl
Loadi ng
(fl/ha)
Loading rate
(g/ha/day)
76 153
0000
76
155
0900
2.36
(Ŗ48)
(104)
-
155
0900
159
0930
3.92
241
61 .6
159
0800
)6 7
0745
2.0
234
117
151
0800
163
0745
2.0
430
215
163
080 Q
167
0730
4.0
401
100.3
157
0730
174
0745
7.0
623 *
89.7*
"(74
0745
>77
C?35
3.C
237
79
177
3745
.61
0&00
4.0
357
59.2
---
IS?
CS00
G933
jfr.O
{3540}
us*;
Ŗ15
Ļģ30
213
07 3 o
(Ŗ00}
(10i;
218
0730
223
0745
5.0
(520)
(104)
223
0745
225
0800
2.0
(208)
(104)
225
0800
229
0745
4.0
(476)
(704)
---
229
0745
231
0730
2.0
160
79.9
---
231
0730
233
0745
2.0
C2CS)
(w
233
0745
236
0745
3.0
(312)
(104)
235
0745
240
0745
4.0
(416)
(104)
479.4
120
240
0745
243
0730
3.0
(312)
(104)
282 *
94 *
243
07 3D
244
2400
1.7
(1771
(104)
115.4
68
Seasonal total 92 9344
0.949** mean 104
8867*** rr 11
-------�
Table 40 (continued)
Part A. Dryfall
V. Sodium and Potassium
Starting time
Ending time
Exposure
Yr Day
Time
Yr
Day
Time
(days)
76 245
0000
76
245
0730
0.3
245
0730
257
0900
12.06
257
0900
259
0900
2.0
259
0900
279
0915
20.0
279
0915
281
1000
2.04
281
1000
300
1000
19.0
300
1000
304
0915
3.96
304
0915
307
0915
3.0
307
0915
310
1630
3.33
310
1630
314
0900
3.67
314
0900
321
1654
7.31
321
1654
324
1800
3.04
324
1800
328
0915
3.64
328
0915
331
0900
3.0
331
0900
335
1000
4.04
335
1000
335
2400
0.58
Seasonal total
91
Fall - 1976
Sodium
Potassium
Loadi ng
Loading rate
Loading
Loading rate
(q/ha)
(q/ha/day)
(fl/ha) ,
(q/ha/day)
(27.8)
(79.3)
(14.4)
(48)
(956.4)
(79.3)
(579)
(48)
(158.8)
(79.3)
156.3
78
(1586)
(79.3)
1458 *
73 *
234.7
115
138.2
67.8
1482 *
78 *
905.4*
47.7*
163
41.2
109
27.5
120 *
40 *
103.2*
34.4*
128.6
38.6
137.4
41.3
694.7
189.3
167.2
45.6
939 *
128.5*
303.4*
41.5*
205.4
67.6
113.8
37,4
257.7*
70.8*
144 *
39.6*
221.7
74
125.5
41.8
(320.4)
(79.3)
(194)
(48)
(45)
(79.3)
(27.8)
(48)
7542
4677
0.908**
mean 79.3
0.908**
mean 48
6848
n = 7
4247
n = 7
-------�
Table 40
(continued)
Part A. Dryfall
V. Sodium and Potassium
Starting time
Yr Day Time
Yr
Ending time
Day Time
Exposure
(days)
76
336
0000
76
337
1200
1.50
337
1200
343
1500
6.13
343
1500
345
1030
1.81
345
1030
77
Oil
1050
31.00
77
011
1050
013
0906
1.92
013
0906
018
0930
5.00
018
0930
021
0945
3.00
021
0945
025
1615
4.27
025
1615
028
1630
3.00
028
1615
034
1020
5.75
034
1020
039
0920
5.04
039
1010
042
1500
3.21
042
1500
046
0845
3.74
045
0845
049
1020
3.06
049
1020
053
1110
4.04
053
1110
055
1055
2.00
055
1055
058
2400
3.54
Seasonal
total
88.01
nter 1977
Sodii
Loadi ng
(g/ha)
Loading rate
(g/ha/da.y)
Loading
(q/ha)
Pnta^iiim
Loading rate
(q/ha/day)
91.3
454.5*
158.1
3566.6*
274.
773.3*
500.
443.4*
123.4
287.7
264.7
168.4
214.3*
189.6
188.6
135.
182.3*
8021.
0.962**
7716***
60.9
74.2*
87.4
115.1*
142.7
154.6*
166.6
103.9*
41.1
50.
52.5
52.5
57.3*
62.
46.7
67.5
51.5*
mean 74.3
n = 10
58.7
549.9*
254.
2441.3*
33.1
110.5*
80.8
66.8*
12.9
53.8
28.4
42.4
45.4*
34.
26.
25.3
34. *
3897
0.962**
3749***
39.12
89.7*
140.3
78.8*
17.2
22.1*
27.
15.7*
4.3
9.4
5.6
13.2
12.2*
11.1
6.4
12.6
9.6
mean 26
n = 11
-------�
Table 40 (continued)
Part A. Dryfall
V. Sodium and Potassium
Starting
time
Ending time
Exposure
Yr Day
Time
Yr
Day
Time
(days)
77 059
0000
77
059
0830
0.35
059
0830
062
1635
3.33
062
1635
066
1635
4.00
066
1635
070
1800
4.06
070
1800
073
1500
2.88
073
1500
076
1630
3.06
076
1630
088
0930
11.71
088
0930
091
1615
3.28
091
1615
096
0950
4.74
096
0950
108
1430
12.20
108
1430
119
0930
10.79
119
0930
122
1445
3.22
122
1445
130
1530
8.03
130
1530
133
1500
3.00
133
1500
140
1430
7.00
140
1430
144
1500
4.00
144
1500
146
0900
1.75
146
0900
150
2400
4.63
Seasonal total
92.03
Spring 1977
Sodi urn Potassium
Loadi ng
(q/ha)
Loading rate
(q/ha/day)
Loading
(q/ha)
Loading rate
(q/ha/day)
18.2*
51.5*
3.4*
9.6*
118.3
35.5
21.8
6.6
205. *
51.3*
40. *
10. *
272.2
67.
54.6
13.4
155.2*
54. *
30.4*
10.6*
124.7
40.8
23.6
7.7
521. *
44.5*
123.4*
10.7*
158.
48.2
46.
14.
(443. )
(93.5)
(70. )
(14.8)
(1141. )
(93.5)
(180.7)
(14.8)
(1009. )
(93.5)
(159.7)
(14.8)
274.7
85.3
34^6
10.7
692. *
86.2*
133.7*
16.7*
261.
87.
67.8
22.6
1530. *
218.5*
206. *
29.4*
1400.
350.
145.1
36.3
336. *
192. *
38.5*
22. *
157.6
34
35.7
7.7
8817.
0.943**
8314***
mean 93.5
n = 8
1415.
0.943**
1334***
mean 14.8
n = 8
-------�
Table 40 (continued)
Part A. Dryfall
V. Sodium and Potassium
Summer 1977
Sodium Potassium
Starting time
Ending time
Exposure
Loadi ng
Loading rate
Loading
Loading rate
Yr Day
Time
Yr
Day
Time
(days)
(q/ha)
(q/ha/day)
(q/ha)
(q/ha/day)
77 151
0000
77
151
1530
0.65
22.1
34.
5.
7.7
151
1530
161
1500
10.00
555. *
55.5*
335. *
33.5*
161
1500
165
0730
3.69
283.9
77.
218.7
59.3
165
0730
172
0730
7.00
539.7*
77.1*
244. *
34.9*
172
0730
175
1500
3.31
255.6
77.2
34.4
10.4
175
1500
194
0800
18.71
2359. *
126. *
378. *
20.2*
194
0800
196
1515
2.30
402.8
175.
69.1
30.
196
1515
207
0745
10.69
2050. *
192. *
2.5*
26.5*
207
0745
209
1500
2.30
479.5
208.5
53.
23.
209
1500
227
0730
17.69
2689. *
152. *
445. *
25. *
227
0730
231
1030
4.13
394.5
95.5
112.8
27.3
231
1030
234
1215
3.13
200.
64.
58.7
18.7
234
1215
241
2400
7.50
760.5*
101.4*
140.3*
18.7*
Seasonal
total
91.1
10922
2097
0.965**
mean 104.5
0.965**
mean 25.2
10607***
n = 7
2024***
n = 7
-------�
Table 40 (continued)
Part A. Dryfall
V. Sodium and Potassium
Fall 1977
Sodium Potassium
Starting time
Ending time
Exposure
Loadi ng
Loading rate
Loading
Loading rate
Yr Day
Time
Yr
Day
Time
(days)
(q/ha)
(q/ha/day)
(q/ha)
(q/ha/day)
77 242
0000
77
242
0800
0.33
35.5*
101.4*
6.5*
18.7*
242
0800
245
1500
3.29
456.7
138.8
61.8
18.8
245
1500
262
090
16.75
2730. *
163. *
(311.6)*
(18.6)*
262
0900
266
1500
4.25
795.4
187.2
(79. )
(18.6)
266
1500
271
0800
4.71
907. *
192.5*
(87.6)*
(18.6)*
271
0800
273
1500
2.29
453.3
197.9
58.8
25.7
273
1500
291
0800
17.71
(2777. )
(156.8)
(329.4)*
(18.6)
291
0800
298
0730
7.00
(1098. )
(156.8)
(130.2)*
(18.6)
298
0730
315
0900
17.06
(2675. )
(156.8)
(317.3)*
(18.6)
315
0900
320
0830
5.00
513.8
102.8
57.2
11.4
Seasonal
total
78.4
12442
1439.4
0.960**
mean 156.8
0.960**
mean 18.6
11944***
n = 4
1382***
n = 3
-------�
Table 40 (continued)
Part A. Dry fall
VI. Calcium and Magnesium
Starting time
Yr Day Time
Winter - 1976
Ending time
Yr Day Time
Exposure
(days)
Loading
(g/ha)
Calcium
Loading rate
(g/ha/day)
Loading
(9/ha)
Magnesium
Loading rate
(g/ha/day)
76 043 0900
049 1600
054 1700
057 1630
Seasonal total
76
049
054
057
060
1600
1700
1630
2400
6.29
5.04
3.0
3.31
91
11.4
4.5*
0
1.8
0.9*
0
1.1
1.4*
1.1
0.17
0.28*
0.38
Spring - 1976
76
061
0000
76 082
0900
21.4
(171-2)
(8)
(137)
(6.4)
082
0900
085
0900
3.0
0
0
0.5
0.16
085
0900
096
0830
11.0
(88)
(8)
(70.4)
(6.4)
096
0830
099
0830
3.0
(24)
(8)
(19.2)
(6.4)
099
0830
103
0830
4.0
(32)
(8)
(25.6)
(6.4)
103
0830
106
0845
3.0
(24)
(8)
(19.2)
(6.4)
106
0845
110
0830
4.0
(32)
(8)
(25.6)
(6.4)
110
0130
112
0815
2.0
17.6
8.8
15.3
7.7
112
0815
117
0745
4.98
22 *
4.4*
20.6*
4.13*
117
0745
119
0910
2.04
0
0
1.1
0.56
119
0930
121
0830
1.96
43.8
22.4
13.9
7.1
121
0830
124
0945
3.05
41.3*
13.6*
17.8*
5.6*
124
0945
127
0800
2.92
13.7
4.7
13.5
4.6
127
1030
131
0800
3.92
24
6.0
8.6
2.2
131
0800
140
0845
9.03
57.8*
6.4*
13 *
1.5*
140
0845
142
0815
2.0
13.7
6.8
1.3
0.7
142
0815
145
0715
2.92
11.4
3.9
82.3
28.2
145
0715
152
2400
7.82
(62.6)
(8)
(50)
(6.4)
Seasonal
total
92
679
0.918**
623***
mean 8
n = 8
484
0.918**
4.44***
mean 6.4
n = 8
-------�
Table 40
(continued)
Part A. Dryfall
VI. Calcium and Magnesium
Starting time
Yr Day Time
Yr
Ending time
Day Time
Exposure
(days)
76 153
0000
76
155
0900
2.38
155
0900
159
0930
3.92
159
0800
161
0745
2.0
161
0800
163
0745
2.0
163
0800
167
0730
4.0
167
0730
174
0745
7.0
174
0745
177
0735
3.0
177
0745
181
0800
4.0
181
0800
216
0930
35.0
216
0930
218
0730
1.92
218
0730
223
0745
5.0
223
0745
225
0800
2.0
225
0800
229
0745
4.0
229
0745
231
0730
2.0
231
0730
233
0745
2.0
233
0745
236
0745
3.0
236
0745
240
0745
4.0
240
0745
243
0730
3.0
243
0730
244
2400
1.7
Seasonal total
92
immer - 1976
Calcium
Loading
(g/ha)
Loading rate
(g/ha/day)
Magnesium
Loading Loading rate
(q/ha) (g/ha/day)
(79)
13.7
44
220
80.3
92.8*
19.2
52.6
(1162)
(63.7)
(166)
(66.4)
(132.8)
43
109.2
45.6
84.1
151.4*
135.8
2762
0.949**
2621***
(33.2)
3.5
22
110
20.1
13.3*
6.4
13.2
(33.2)
(33.2)
(33.2)
(33.2)
(33.2)
21.5
54.6
15.2
21
50.5*
79.9
mean 332
n = 11
(25)
1.3
13.2
3.0
2.4
4.4*
2.0
2.0
(367.5)
(20)
(52.5)
(21)
(42)
(21)
146.4
1.3
44.8
32.4*
17.6
820
0.949**
778***
(10.5)
0 .33
6.6
1.5
0.6
0.63*
0.65
0.5
(10.5)
(10.5)
(10.5)
(10.5)
(-10.5)
(10.5)
73.2
0.43
11.2
10.8*
10.4
mean 10.5
n = 11
-------�
Table 40
(continued)
Part A. Dryfall
VI. Calcium and Magnesium
Starting time
Yr Day Time
Yr
Ending time
Day Time
Exposure
(days)
76 245
0000
76
245
0730
0.3
245
0730
257
090
12.06
257
0900
259
0900
2.0
259
0900
279
0915
20.0
279
0915
281
1000
2.04
281
1000
300
1000
19.0
300
1000
304
0915
3.96
304
0915
307
0915
3.0
307
0915
310
1630
3.33
310
1630
314
0900
3.67
314
0900
321
1645
7.31
321
1645
324
1800
3.04
324
1800
328
0915
3.64
328
0915
331
0900
3.0
331
0900
335
1000
4.04
335
1000
335
2400
0.58
Seasonal total
91
Fall - 1976
Calcium
Loading Loading rate
(g/ha)
(q/ha/day)
(4)
(13.2)
(159)
(13.2)
42.7
21.4
301 *
15 *
17.8
8.7
184.3*
9.7*
42.4
10.7
32 *
10.6*
34.9
10.5
0
0
76 *
10.4*
63.2
20.8
74.4*
20.5*
60.3
20.1
(53.3)
(13.2)
(7.7)
(13.2)
1153
.908**
mean 13.2
1047
n = 7
Maanpsiiim
Loading Loading rate
(q/ha)
(q/ha/day)
(1.3)
(4.5)
(54.3)
(4.5)
1.1
0.6
60 *
3.0*
11.1
5.4
78 *
4.2*
11.7
3.0
9.0*
3.0*
9.6
2.9
65.2
17.8
66 *
9.0*
0.8
0.26
9.8*
2.7*
15.3
5.1
(18.2)
(4.5)
(2.6)
(4.5)
414
0.908** mean 4.5
376 n = 7
-------�
Table 40 (continued)
Part A. Dryfall
VI. Calcium and Magnesium
Starting time
Ending time
Exposure
Yr
Day
Time
Yr
Day
Time
(days)
76
336
0000
76
337
1200
1.50
337
1200
343
1500
6.13
343
1500
345
1030
1.81
345
1030
77
Oil
1050
31.0
77
Oil
1050
013
0906
1.92
013
0906
018
0930
5.00
018
0930
021
0945
3.00
021
0945
025
1615
4.27
025
1615
028
1630
3.00
028
1615
034
1020
5.75
034
1020
039
0920
5.04
039
1010
042
1500
3.21
042
1500
046
0845
3.74
046
0845
049
1020
3.06
049
1020
053
1110
4.04
053
1110
055
1055
2.00
055
1055
058
2400
3.54
Seasonal total
88.01
Winter 1977
Calcium
Maanesium
Loading
Loading rate
Loading
Loading rate
(q/ha)
(q/ha/da.y)
(q/ha)
(q/ha/da.y)
44.3
29.6
6.4
4.3
165.2*
27. *
20.5*
3.4*
44.
24.3
6.4
2.4
4867. *
157. *
69.8*
2.3*
556.2
289.7
4.
2.1
818.8*
163.8*
96.8*
19.4*
113.4
37.8
109.7
36.6
90.7*
21.3*
81.8*
19.2*
14.
4.7
5.
1.7
17.1
3.
9.6
1.7
25.3
5.
10.7
2.1
(141. )
(44. )
2.8
0.91
(164.6)
(44. )
16.2*
4.3*
74.8
24.5
23.8
7.8
38.8
9.6
9.
2.2
22.8
11.4
12.7
6.4
43.4*
12.3*
16.6*
4.7*
7241.4
502.
0.962**
mean 44
0.962**
mean 6.2
6966***
n = 10
483***
n = 11
-------�
Table 40 (continued)
Part A. Dryfall
VI. Calcium and Magnesium
Starting time
Yr Day Time
Yr
Ending time
Da.y T i me
Exposure
(days)
77 059
0000
77
059
0830
0.35
059
0830
062
1635
3.33
062
1635
066
1635
4.00
066
1635
070
1800
4.06
070
1800
073
1500
2.88
073
1500
076
1630
3.06
076
1630
088
0930
11.71
088
0930
091
1615
3.28
091
1615
096
0950
4.74
096
0950
108
1430
12.20
108
1430
119
0930
10.79
119
0930
122
1445
3.22
122
1445
130
1530
8.03
130
1530
133
1500
3.00
133
1500
140
1430
7.00
140
1430
144
1500
4.00
144
1500
146
0900
1.75
146
9099
150
2400
4.63
Seasonal
total
92.03
Spring 1977
Calcium
Loading Loading rate
(q/ha)
(q/ha/da.y)
4.3*
12.3*
43.5
13.1
264.2*
66. *
482.8
119.
192.4*
66.8*
44.7
14.6
243.6*
20.8*
88.3
27.
(132.7)
(28. )
(341.6)
(28. )
(302. )
(28. )
32.1
10.
104.4*
13. *
47.8
16.
100.8*
14.4*
51.2
12.8
20.6*
11.8*
49.8
10.7
2547
0.943** mean 28.
2402*** n = 8
Magnesium
Loading Loading rate
(q/ha)
(q/ha/day)
1.6*
4.7*
10.
3.
14.8*
3.7*
17.5
4.3
18.1*
6.3*
25.
8.2
106.6*
9.1*
32.8
10..
(33.2)
(7.0)
(85.4)
(7-0)
(75.5)
(7.0)
(22.5)
(7.0)
(56.2)
(7.0)
25.3
8.4
(49. )
(7.0)
(28. )
(7.0)
(12.3)
(7.0)
37.
8.0
651
0.943** mean 7.0
614*** n = 6
-------�
Table 40 (continued)
Part A. Dryfall
VI. Calcium and Magnesium
Summer 1977
Calcium Magnesium
Starting time
Ending time
Exposure
Loadi ng
Loading rate
Loading
Loading rate
Yr
Day
Time
Yr
Day
Time
(days)
(g/ha)
(g/ha/day)
(g/ha)
(g/ha/day)
77
151
0000
77
051
1530
0.65
7.
10.7
5.2
8.
151
1530
161
1500
10.00
84. *
8.4*
74. *
7.4*
161
1500
165
0730
3.69
22.2
6.
24.6
6.7
165
0730
172
0730
7.00
120. *
17.2*
46.6*
6.7*
172
0730
175
1500
3.31
93.6
28.3
21.8
6.6
175
1500
194
0800
18.71
(282. )*
(15. >*
153.4*
8.2*
194
0800
196
1515
2.30
(34.5)
(15. )
22.5
9.8
196
1515
207
0745
10.69
(160.4)*
(15. )*
55. *
5.2*
207
0745
209
1500
2.30
(34.5)
(15. )
1.1
0.5
209
1500
227
0730
17.69
(265.4)
(15. )
(112. )
(6.3)
227
0730
231
1030
4.13
13.4
3.2
(26. )
(6.3)
231
1030
234
1215
3.13
71 .2
22.8
(19.8)
(6.3)
234
1215
241
2400
7.50
109.5*
14.6*
(47.4)
(6.3)
Seasonal
total
91.1
1298
609.4
0.965**
mean 15
0.965**
mean 6.3
1253***
n = 5
588***
n = 5
-------�
Table 40 (continued)
Part A. Dryfall
VI. Calcium and Magnesium
Starting time Ending time Exposure
Yr Day Time Yr Day Time (days)
77 242 0000 77 242 0800 0.33
242 0800 245 1500 3.29
245 1500 262 0900 16.75
262 0900 266 1500 4.25
266 1500 271 0800 4.71
271 0800 273 1500 2.29
273 1500 291 0800 17.71
291 0800 298 0730 7.00
298 0730 315 0900 17.06
315 0900 320 0830 5.00
Seasonal total 78.4
Fall 1977
Calcium Magnesium
Loading Loading rate Loading Loading rate
(q/ha)
(q/ha/da.y)
(q/ha)
(q/ha/day)
5.1
14.6*
20.9
6.3
121.4*
7.3*
34.9
8.2
40.5*
8.6*
20.7
9.0
(110.2)
(6.2)
(43.4)
(6.2)
(105.8)
(6.2)
6.8
1.4
510
.960**
mean 6.2
490***
n = 4
-------�
Table 40 (continued)
Part A. Dryfall
VII. Copper and Iron
Starting time Ending time
(r Day Time Yr Day Time
043
0900
76
049
1600
049
1600
054
1700
054
1700
057
1630
057
1630
060
2400
jasonal
1 total
061
0000
76
082
0900
082
0900
085
0900
085
0900
096
0830
096
0830
099
0830
099
0830
103
0830
103
0830
106
0845
106
0845
110
0830
110
0830
112
0815
112
0815
117
0745
117
0745
119
0910
119
0930
121
0830
121
0830
124
0945
124
0945
127
0800
127
1030
131
0800
131
0800
140
0845
140
0845
142
0815
142
0815
145
0715
145
0715
152
2400
Seasonal total
Winter - 1976
Copper Iron
Exposure Loading Loading rate Loading Loading rate
(days) (g/ha) (g/ha/day) (g/ha) (g/ha/day)
6.29
0.28
0.04
1.3
0.21
5.04
0.33*
0.07*
1.5*
0.3*
3.0
0.26
0.09
1.1
0.38
3.31
91
Spring - 1976
21.4
(3.6)
(.17)
(11)
(.52)
3.0
0.6
0.2
2.4
0.82
11 .0
(1.9)
(.17)
(5.7)
(.52)
3.0
(.5)
(.17)
(1.6)
(.52)
4.0
(.7)
(.17)
(2.1)
(.52)
3.0
(.5)
(.17)
(1.6)
(.52)
4.0
(.7)
(.17)
(2.1)
(.52)
2.0
0.4
0.2
0.5
0.25
4.98
0.85*
0.17*
1.6*
0.33*
2.04
0.28
0.14
0.82
0-4
1.96
0.26
0.13
0.7
0-33
3.05
0.7*
0.22*
2.0*
0.64*
2.92
0.82
0.3
2.8
0.95
3.92
0.31
0.08
1.3
0.33
9.03
0.1*
0.12*
4.8*
0.53*
2.0
0.33
0.16
1.5
0.73
2.92
0.28
0.1
1.3
0.45
7.82
(1.3)
(.17)
(4.1)
(.52)
92
15
48
0.918**
mean .17
0.918**
mean .52
13.8***
n = 8
44***
n = 8
-------�
Table 40 (continued)
Part A. Dryfall
VII. Copper and Iron
Starting time Ending time Exposur
Yr Day Time Yr Day Time (days)
153
0000
76 155
0900
2.38
155
0900
159
0930
3.92
159
0800
161
0745
2.0
161
0800
163
0745
2.0
163
0800
167
0730
4.0
167
0730
174
0745
7.0
174
0745
177
0735
3.0
177
0745
181
0800
4.0
181
0800
216
0930
35.0
216
0930
218
0730
1.92
218
0730
223
0745
5.0
223
0745
225
0800
2.0
225
0800
229
0745
4.0
229
0745
231
0730
2.0
231
0730
233
0745
2.0
233
0745
236
0745
3.0
236
0745
240
0745
4.0
240
0745
243
0730
3.0
243
0730
244
2400
1.7
Seasonal total
92
Summer - 1976
Copper
Loading Loading rate
(g/ha) (g/ha/day)
(.65)
(.27)
0.41
0.1
0.4
0.2
0.9
0.44
0.98
0.24
1.4*
0.2*
0.5
0.16
0.65
0.16
(9.5)
(.27)
(.52)
(.27)
(1.4)
(.27)
(.54)
(.27)
(1.1)
(.27)
0.45
0.23
0.8
0.4
1.63
0.54
1.3
0.33
0.9*
0.3*
0.45
0.26
24.5
0.949**
mean .
23.2***
n =
Iron
Loading Loading rate
(g/ha)
(q/ha/day)
(1.5)
(.61)
0.8
0.21
1.1
0.57
2.0
1.0
1.63
0.41
3.0*
0.42*
1.3
0.43
6.4
1.6
(21.4)
(.61)
(1.17)
(.61)
(3.1)
(.61)
(1.22)
(-61)
(2.44)
(.61)
0.98
0.49
0.98
0.49
0.8
0.26
1.3
0.33
1.8*
0.62*
1.5
0.9
54 4
0.949**
51.6***
mean .61
n = 9
-------�
Table 40 (continued)
Part A. Dryfall
VII. Copper and Iron
Starting time
Yr Day Time
Yr
Ending time
Day T i me
Exposure
(days)
76 245
0000
76
245
0730.
0.3
245
0730
257
0900
12.05
247
0900
259
0900
2.0
259
0900
279
0915
20.0
279
0915
281
1000
2.04
281
1000
300
1000
19.0
300
1000
304
0915
3.96
304
0915
307
0915
3.0
307
0915
310
1630
3.33
310
1630
314
0900
3.67
314
0900
321
1645
7.31
321
1645
324
1800
3.04
324
1800
328
0915
3.64
328
0915
331
0900
3.0
331
0900
335
1000
4.04
335
1000
335
2400
0.58
Seasonal total
91
Fall - 1976
Copper Iron
Loadi ng
(q/ha)
Loading rate
(q/ha/day)
Loading
(q/ha)
Loading rat(
(q/ha/day)
(.04)
(.12)
(.1)
(.32)
(1.4)
(.12)
(3.9)
(.32)
0.28
0.14
1.1
0.6
3.0 *
0.15*
9.2 *
0.5 *
0.33
0.16
0.65
0.32
2.5 *
0.13*
5.0 *
0.26*
0.34
0.1
0.8
0.2
0.3 *
0.1 *
3.2 *
1.1 *
0.3
0.1
1.3
0.4
0.37
0.1
1.3
0.35
0.73*
0.1 *
2.0 *
0.28*
0.26
0.09
0.65
0.2
0.46*
0.13*
0.9 *
0.25*
0.5
0.16
0.8
0.3
(.5)
(.12)
(1.3)
(.32)
(.07)
(.12)
(.19)
(.32)
11.4
0.908**
10.4***
mean .12
n = 7
32.4
0.908**
29.4***
mean .32
n = 7
-------�
Table 40 (continued)
Part A. Dryfall
VIII. Zinc and Cadmium
Summer - 1976
Zinc
Cadmi urn
Starting time
Ending time
Exposure
Loadi ng
Loading rate
Loading
Loading rate
Yr Day
Time
Yr
Da.y
Time
(days)
(q/ha)
(q/ha/day)
(q/ha)
(q/ha/day)
76 231
0730
76
233
0745
2.0
0
0
0
0
233
0745
236
0745
3.0
0.5
0.17
0
0
236
0745
240
0745
4.0
0.4
0.1
0.07
0.02
240
0745
243
0730
3.0
0.6 *
0.2 *
0.9 *
0.3 *
243
0730
244
2400
1.7
0.5
0.3
1.0
0.56
Seasonal
1 total
92
Fall - 1976
76 245
0000
76
245
0730
0.3
(.01)
(.03)
(.002)
(.08)
245
0730
257
0900
12.06
(.36)
(.03)
(.1)
(.08)
257
0900
259
0900
2.0
0
0
0
0
259
0900
279
0915
20.0
0 *
0 *
0 *
0 *
279
0915
281
1000
2.04
0
0
0
0
281
1000
300
1000
19.0
0.38*
0.02*
0 *
0 *
300
1000
304
0915
3.96
0.15
0.04
0
0
304
0915
307
0915
3.0
0.15*
0.05*
0.02*
0.01*
307
0915
310
1630
3.33
0.2
0.06
0.03
0.01
310
1630
314
0900
3.67
0
0
0
0
314
0900
321
1645
7.31
0 *
0 *
0 *
0 *
321
1645
324
1800
3.04
0
0
0
0
324
1800
328
0915
3.64
0.25*
0.07*
1.1 *
0.3 *
328
0915
331
0900
3.0
0.42
0.14
1.8
0.6
331
0900
335
1000
4.04
(.1)
(.03)
(.32)
(.08)
335
1000
335
2400
0.58
(.02)
(.03)
(.05)
(.08)
Seasonal
total
91
2.04
3.4
0.908**
mean .03
0.908**
mean .08
1.9***
n = 7
3.1***
n = 7
-------�
Table 40. (Continued)
B. Bulk precipitation
I
. Total
1 Kjeldahl nitrogen
Winter
1977
Starting time
Ending time
Rain
Loadings
Concentration
Yr Day Time
Yr
Day
Time
(cm)
(Kg N/ha)
(yg/i)
76 336 0000
76
343
1500
4.01
8.10E-2
202
343 1500
356
1030
3.18
1.57E-1
494
356 1030
77
007
1030
0.44
1.61E-2
367
77 007 1030
018
0930
1.50
2.85E-2
190
018 0930
058
2400
0.56
5.56E-2
733
Seasonal
total
9.69
3.38E-1
Spring 1977
77 059 0000
77
073
1500
0.20
1.96E-2
198
073 1500
077
1645
0.51
9.33E-2
1830
077 1645
082
1015
3.63
4.65E-2
128
082 0930
096
0950
4.12
3.93E-1
953
096 0950
116
0945
2.03
6.66E-1
3280
116 0945
130
1530
3.35
3.75E-1
1120
130 1530
146
0730
1.70
2.57E-1
1510
146 0730
150
2400
0.58
4.60E-2
310
Seasonal
total
16.12
1.90E00
508
-------�
Table 40. (Continued)
B. Bulk precipitation
I. Total Kjeldahl nitrogen
Summer 1977
Starting time
Yr Day Time
Yr
Ending time
Day Time
Rain
(cm)
Loadings
(Kg N/ha)
Concentration
(wg/A)
77 151
0000
77
158
0715
0.91
7.20E-2
485
158
0715
161
1500
2.11
1.69E-1
801
161
1500
171
1430
6.43
4.88E-1
759
171
1430
172
0730
1.02
7.85E-2
770
172
0730
193
0800
2.72
3.70E-1
1360
193
0800
194
0800
1.14
7.08E-2
621
194
0800
199
1315
1.78
1.24E-1
695
199
1315
207
0730
0.58
2.02E-1
3480
207
0730
214
0730
1.60
2.93E-2
183
214
0730
221
0730
0.94
1.38E-1
1470
221
0730
227
0730
0.87
1.65E-1
1900
227
0730
241
2400
1.85
9.25E-2
500
Seasonal
total
21.95
2.00E00
Fall 1977
242
0000
77
255
0715
1.67
1.35E-1
810
255
0715
276
0730
0.59
5.90E-2
1000
276
0730
284
0715
4.25
1.96E-1
460
284
0715
291
0730
5.78
6.65E-2
115
291
0730
304
0815
4.75
1.66E-1
350
304
0815
308
1045
0.79
5.90E-2
747
308
1045
313
0830
4.20
1.29E-1
307
313
0830
315
0830
1.04
5.72E-2
550
315
0830
322
0830
1.91
5.37E-2
281
322
0830
327
1400
2.31
9.59E-2
415
327
1400
332
2400
2.16
5.77E-2
267
Seasonal
total
29.45
1.08E00
509
-------�
Table 40. (Continued)
B. Bulk precipitation
I. Total Kjeldahl nitrogen
Winter
1978
Starting time
Ending time
Rain
Loadings
Concentration
Yr Day
Time
Yr
Day
Time
(cm)
(Kg N/ha)
(yq/O
77 333
0000
77
336
1530
1.45
3.60E-2
248
336
1530
340
1530
0.64
7.23E-2
1130
340
1530
350
1000
2.21
1.72E-2
78
350
1000
354
0845
8.00
4.24E-2
53
354
0845
356
1230
1.82
3.24E-2
178
356
1230
78
011
1330
5.13
1.17E-1
229
78 Oil
1330
044
1200
13.47
(4.30E-1)
(319)
044
1200
058
2400
0.10
7.75E-3
483
Seasonal
total
32.82
7.55E-1
Spring 1978
059
0000
78
067
0930
0.06
4.55E-3
284
067
0930
072
0900
1.45
4.73E-2
326
072
0900
074
0840
1.60
5.70E-1
3560
074
0840
081
0830
0.35
6.37E-2
1820
081
0830
087
0905
8.71
2.65E-1
304
087
0905
111
1530
2.92
6.54E-1
2240
111
1530
118
1530
0.84
3.07E-1
3660
118
1530
122
0720
0.03
(4.39E-3)
(1462)
122
0720
125
1430
3.61
2.35E-1
650
125
1430
130
0700
4.62
3.93E-1
850
130
0700
138
1430
7.73
3.56E-1
460
138
1430
146
0730
1.47
2.13E-1
1450
146
0730
150
2400
1.63
(2.38E-1)
(1462)
Seasonal
total
35.02
3.35E00
(Data estimated) = seasonal mean
510
-------�
Table 40. (Continued)
B. Bulk precipitation
II. Nitrate
Winter 1977
Starting time
Ending time
Rain
Loadings
Concentration
Yr Day Time
Yr
Day
Time
(cm)
(Kg NO, N/ha)
(ug/t)
76 336 0000
76
343
1500
4.01
1.29E-1
321
343 1500
356
1030
3.18
2.86E-1
900
356 1030
77
007
1030
0.44
1.94E-2
440
77 007 1030
018
0930
1.50
6.30E-2
420
018 0930
058
2400
0.56
4.09E-2
539
Seasonal
total
9.69
5.38E-1
Spring 1977
77 059 0000
77
073
1500
0.20
1.44E-2
189
073 1500
077
1645
0.51
6.63E-2
1300
077 1645
082
1015
3.63
7.70E-2
212
082 0930
096
0950
4.12
2.54E-1
616
096 0950
116
0945
2.03
1.64E-1
808
116 0945
130
1530
3.35
1.88E-1
560
130 1530
146
0730
1.70
8.81E-2
518
146 0730
150
2400
0.58
4.56E-2
306
Seasonal
total
16.12
8.97E-1
511
-------�
Table 40. (Continued)
B. Bulk precipitation
II. Nitrate
Summer
Ļ 1977
Starting time
Ending time
Rain
Loadings
Concentration
Yr Day
Time
Yr
Day
Time
(cm)
(Kg NO, N/ha)
(yg/*)
77 151
0000
77
158
0715
0.91
7.14E-2
478
158
0715
161
1500
2.11
1.61E-1
765
151
1500
171
1430
6.43
2.44E-1
379
171
1430
172
0730
1.02
6.67E-2
654
172
0730
193
0800
2.72
1.58E-1
582
193
0800
194
0800
1.14
(6.27E-2)
(550)
194
0800
199
1315
1.78
6.34E-2
356
199
1315
207
0730
0.58
5.68E-2
980
207
0730
214
0730
1.60
3.68E-2
230
214
0730
221
0730
0.94
5.73E-2
610
221
0730
227
0730
0.87
4.35E-2
500
227
0730
241
2400
1.85
7.49E-2
405
Seasonal
total
21.95
1.10E00
Fall
1977
77 242
0000
77
255
0715
1.67
1.77E-1
1060
255
0715
276
0730
0.59
1.36E-2
230
276
0730
284
0715
4.25
1.14E-1
268
284
0715
291
0730
5.78
9.25E-2
160
291
0730
304
0815
4.75
9.50E-2
200
304
0815
308
1045
0.79
2.28E-2
288
308
1045
313
0830
4.20
4.03E-2
96
313
0830
315
0830
1.04
5.03E-2
484
315
0830
322
0830
1.91
7.64E-2
400
322
0830
327
1400
2.31
1.36E-1
589
327
1400
332
2400
2.16
1.64E-1
757
Seasonal
total
29.45
9.82E-1
(Data estimated) = seasonal mean
512
-------�
Table 40. (Continued)
B. Bulk precipitation
II. Nitrate
Winter 1978
Starting time Ending time Rain Loadings Concentration
Yr Day Time Yr Day Time (cm) (Kg NO3 N/ha) (ug/0
333
0000
77
336
1530
1.45
5.80E-2
400
336
1530
340
1530
0.64
6.98E-2
1090
340
1530
350
1000
2.21
1.77E-2
80
350
1000
354
0845
8.00
1.50E-1
188
354
0845
356
1230
1.82
9.32E-2
512
356
1230
78
Oil
1330
5.13
1.72E-1
336
Oil
1330
044
1200
13.47
(5.85E-1)
(434)
044
1200
058
2400
0.10
1.28E-2
800
Seasonal
total
32.82
1.10E00
Spring 1978
059
0000
78
067
0930
0.06
7.51E-3
470
067
0930
072
0900
1.45
3.58E-2
247
072
0900
074
0840
1.60
8.06E-2
504
074
0840
081
0830
0.35
5.67E-2
1620
081
0830
087
0905
8.71
1.49E-1
171
087
0905
111
1530
2.92
1.79E-1
612
111
1530
118
1530
0.84
7.53E02
896
118
1530
122
0720
0.03
(3.07E-3)
(1024)
122
0720
125
1430
3.61
1.55E00
4280
125
1430
130
0700
4.62
1.88E-1
408
130
0700
138
1430
7.73
3.43E-1
444
138
1430
146
0730
1.47
1.19E-1
812
146
0730
150
2400
1.63
(1.67E-1)
(1024)
Seasonal
total
35.02
2.95E00
(Data estimated) = seasonal mean
513
-------�
Table 40. (Continued)
B. Bulk precipitation
III. Total phosphorus
Winter 1977
Starting time
Ending ti ne
Rain
Loadings
Concentra
Yr Day
Time
Yr
Day
Time
(cm)
(Kg P/ha)
(ug/Ŗ)
76 336
0000
76
343
1500
4.01
7.62E-3
19
343
1500
356
1030
3.18
2.32E-2
73
356
1030
77
007
1030
0.44
1.67E-3
38
77 007
1030
018
0930
1.50
6.90E-3
46
018
0930
058
2400
0.56
3.37E-3
44
Seasonal
total
9.69
4.28E-2
Spring 1977
059 0000
77
073
1500
0.20
1.19E-3
16
073 1500
077
1645
0.51
(2.40E-3)
(47)
077 1645
082
1015
3.63
(1.71E-2)
(47)
082 0930
096
0950
4.12
4.74E-2
115
096 0950
116
0945
2.03
7.55E-2
372
116 0945
130
1530
3.35
2.04E-2
61
130 1530
146
0730
1.70
2.31E-2
136
146 0730
150
2400
0.58
5.97E-3
40
Seasonal
total
16.12
1.93E-1
(Data estimated) = seasonal mean
514
-------�
Table 40. (Continued)
B. Bulk precipitation
III. Total phosphorus
Summer 1977
Starting time
Ending time
Rain
Loadings
Concentration
Yr Day
Time
Yr
Day
Time
(cm)
(Kg P/ha)
(ug/O
77 151
0000
77
158
0715
0.91
9.33E-3
63
158
0715
161
1500
2.11
4.22E-3
20
161
1500
171
1430
6.43
2.96E-2
46
171
1430
172
0730
1.02
4.08E-3
40
172
0730
193
0800
2.72
4.24E-2
156
193
0800
194
0800
1.14
1.15E-2
101
194
0800
199
1315
1.78
8.19E-3
46
199
1315
207
0730
0.58
3.43E-2
592
207
0730
214
0730
1.60
5.84E-2
365
214
0730
221
0730
0.94
5.55E-3
59
221
0730
227
0730
0.87
6.96E-2
800
227
0730
241
2400
1.85
5.37E-3
29
Seasonal
total
21.95
2.83E-1
Fall
1977
77 242
0000
77
255
0715
1.67
1.64E-2
98
255
0715
276
0730
0.59
4.78E-3
81
276
0730
284
0715
4.25
2.85E-2
67
284
0715
291
0730
5.78
1.33E-2
23
291
0730
304
0815
4.75
1.85E-2
39
304
0815
308
1045
0.79
1.15E-2
146
308
1045
313
0830
4.20
7.98E-3
19
313
0830
315
0830
1.04
5.41E-3
52
315
0830
322
0830
1.91
6.11E-3
32
322
0830
327
1400
2.31
2.77E-3
12
327
1400
332
2400
2.16
2.59E-3
12
Seasonal
total
29.45
1.18E-1
515
-------�
Table 40. (Continued)
B. Bulk precipitation
III. Total phosphorus
Winter
1978
Starting time
Ending time
Rain
Loadings
Concentration
Yr Day
Time
Yr
Day
Time
(cm)
(Kg P/ha)
(vg/*)
77 333
0000
77
336
1530
1.45
2.18E-3
15
336
1530
340
1530
0.64
2.66E-2
415
340
1530
350
1000
2.21
6.41E-3
29
350
1000
354
0845
8.00
1.68E-2
21
354
0845
356
1230
1.82
6.37E-3
35
356
1230
78
011
1330
5.13
1.64E-2
32
78 Oil
1330
044
1200
13.47
(1.23E-1)
(91)
044
1200
058
2400
0.10
5.64E-4
35
Seasonal
total
32.82
1.98E-1
Spring 1978
78 059
0000
78
067
0930
0.06
3.32E-4
21
067
0930
072
0900
1.45
1.60E-3
11
072
0900
074
0840
1.60
6.06E-2
379
074
0840
081
0830
0.35
4.20E-3
120
081
0830
087
0905
8.71
6.97E-3
8
087
0905
111
1530
2.92
3.85E-2
132
111
1530
118
1530
0.84
3.65E-2
434
118
1530
122
0720
0.03
(3.84E-4)
(128)
122
0720
125
1430
3.61
1.95E-2
54
125
1430
130
0700
4.62
3.14E-2
68
130
0700
138
1430
7.73
3.94E-2
51
138
1430
146
0730
1.47
1.35E-2
92
146
0730
150
2400
1.63
(2.09E-2)
(128)
Seasonal
total
35.02
2.74E-1
(Data estimated) = seasonal mean
516
-------�
Table 40. (Continued)
b. Bulk precipitation
IV. Total organic matter
Winter
1977
Starting time
Ending time
Rain
Loadings
Concentration
Yr Day Time
Yr
Day
Time
(cm)
(Kg cal/ha)
(gm cal/n)
76 336 0000
76
343
1500
4.01
2.01E03
5
343 1500
356
1030
3.18
1.24E04
39
356 1030
77
007
1030
0.44
1.48E03
33
77 007 1030
018
0930
1.50
3.30E03
22
018 0930
058
2400
0.56
3.60E03
47
Seasonal
total
9.69
2.28E04
Spring 1977
77 059 0000
77
073
1500
0.20
1.26E03
17
073 1500
077
1645
0.51
9.38E03
184
077 1645
082
1015
3.63
1.27E04
35
082 0930
096
0950
4.12
2.43E04
59
096 0950
116
0945
2.03
6.33E04
312
116 0945
130
1530
3.35
2.58E04
77
130 1530
146
0730
1.70
(2.07E04)
(122)
146 0730
150
2400
0.58
2.67E03
18
Seasonal
total
16.12
1.60E05
(Data estimated) = seasonal mean
-------�
Table 40. (Continued)
B. Bulk precipitation
IV. Total organic matter
Summer
1977
Starting time
Ending time
Rain
Loadings
Concentration
Yr Day
Time
Yr
Da.y
Time
(cm)
(Kg cal/ha)
(gm cal/Jt)
77 151
0000
77
158
0715
0.91
4.18E03
28
158
0715
161
1500
2.11
5.91E03
28
161
1500
171
1430
6.43
1.61E04
25
171
1430
172
0730
1.02
3.26E03
32
172
0730
193
0800
2.72
1.41E04
52
193
0800
194
0800
1.14
5.59E03
49
194
0800
199
1315
1.78
6.05E03
34
199
1315
207
0730
0.58
6.09E03
105
207
0730
214
0730
1.60
8.32E03
52
214
0730
221
0730
0.94
5.55E03
59
221
0730
227
0730
0.87
(4.18E03)
(48)
227
0730
241
2400
1.85
7.59E03
41
Seasonal
total
21.95
8.69E04
Fall
1977
77 242
0000
77
255
0715
1.67
6.51E03
39
255
0715
276
0730
0.59
5.49E03
93
276
0730
284
0715
4.25
1.57E04
37
284
0715
291
0730
5.78
1.10E04
19
291
0730
304
0815
4.75
1.14E04
24
304
0815
308
1045
0.79
5.06E03
64
308
1045
313
0830
4.20
2.94E03
7
313
0830
315
0830
1.04
2.39E03
23
315
0830
322
0830
1.91
4.01E03
21
322
0830
327
1400
2.31
3.93E03
17
327
1400
332
2400
2.16
3.67E03
17
Seasonal
total
29.45
7.25E04
(Data estimated) = seasonal mean
518
-------�
Table 40. (Continued)
B. Bulk precipitation
IV. Total organic matter
Winter 1978
Starting time
Ending time
Rain
Loadings
Concentration
Yr Day
Time
Yr
Day
Time
(cm)
(Kg cal/ha)
(gm cal/s,)
77 333
0000
77
336
1530
1.45
4.93E03
34
336
1530
340
1530
0.64
1.12E04
175
340
1530
350
1000
2.21
5.75E03
26
350
1000
354
0845
8.00
1.12E04
14
354
0845
356
1230
1.82
(9.83E03)
(54)
356
1230
78
Oil
1330
5.13
1.03E04
20
78 Oil
1330
044
1200
13.47
(7.27E04)
(54)
044
1200
058
2400
0.10
3.73E02
23
Seasonal
total
32.82
1.26E05
Spring 1978
059
0000
78
067
0930
0.06
2.19E02
14
067
0930
072
0900
1.45
2.03E03
14
072
0900
074
0840
1.60
1.44E04
90
074
0840
081
0830
0.35
3.01E03
86
081
0830
087
0905
8.71
1.74E04
20
087
0905
111
1530
2.92
2.16E04
74
111
1530
118
1530
0.84
7.81E03
93
118
1530
122
0720
0.03
(1.71E02)
(57)
122
0720
125
1430
3.61
(2.06E04)
(57)
125
1430
130
0700
4.62
1.89E04
41
130
0700
138
1430
7.73
2.47E04
32
138
1430
146
0730
1.47
1.23E04
84
146
0730
150
2400
1.63
(9.29E03)
(57)
Seasonal
total
35.02
1.52E05
(Data estimated) = seasonal mean
519
-------�
Table 40. (Continued)
B. Bulk precipitation
V. Sodium and potassium
Starting time
Yr Day Time
76 033 0900
054 1700
Ending time
Yr Day Time
76 054 1700
060 2400
Seasonal total
061
0000
068
0815
071
0815
089
0800
093
0900
124
0830
140
0830
148
1000
068 0815
071 0815
089 0800
093 0900
124 0830
140 0830
148 1000
152 2400
Seasonal total
) = Seasonal average
Winter 1976
Sodium Potassi um
Rainfall Loading Concentration Loading Concentration
(cm) (g/ha) (uq/O (g/ha) (ug/ft)
2.16
420
1,945
484
2,242
0.05
39.0
7.800
40.1
.8,000
28.10
459
524
Spring 1976
0.06
45.8
7,633
47.0
7,833
3.43
700
2,040
959.7
2,798
2.77
424.6
1,533
398.6
1,439
3.30
321
973
434
1,315
5.38
(797)
(1,482)
(1,441)
(2,678)
3.00
597
1,990
1,212.3
4,041
0.46
(115.6)
(2,513)
(168)
(3,646)
2.97
901.6
3.036
996.4
3,254
21.37
3,902.6
5,627
-------�
Table 40. (Continued)
B. Bulk precipitation
V. Sodium and potassium
Starting time Ending time
Yr Day Time Yr Day Time
76 153 0000 76 153 0730
153 0730 169 1635
169 1635 189 0800
189 0800 195 0830
195 0830 201 0705
201 0705 212 0930
212 0930 223 0745
223 0715 229 0745
229 0745 244 2400
Seasonal total
76
245
0000
76
257
0900
257
0900
261
0900
261
0900
272
0745
272
0745
279
0915
279
0915
286
- 0845
286
0845
295
1000
295
1000
300
1000
300
1000
307
0915
307
0915
335
1100
Seasonal total
Summer
1976
Sodium
Potassium
Rainfall
Loading
Concentration
Loading
Concentration
(cm)
(q/ha)
(ug/O
(g/ha)
(ug/O
0.74
(142)
(1,919)
(164)
(2,210)
4.47
923.5
2,066
1 ,273.5
2,849
2.57
891
3,467
1,002.3
3,900
3.61
572
1,584
594.2
1,646
4.62
(887)
(1,919)
(1,021)
(2,210)
2.06
(395)
(1,919)
(455)
(2,210)
9.98
1,457
1 ,460
1,441
1,444
5.21
1,033
1,983
1,137.3
2,183
1.29
123.2
955
159.6
1,237
34.55
6,423
7,248
Fall 1976
1.12
98
875
127
984
4.70
2,153.5
4,582
1,585
3,372
2.59
573.2
2,213
783
3,023
5.44
4,699
8,637
2,888
5,309
4.95
2,116.6
4,276
2,890
5,839
5.03
817.9
1,626
871.2
1,732
4.17
2,025
4,855
2,638
6,327
3.00
(857)
(2,656)
(1 ,076.3)
(3,587)
2.21
189.6
858
187.4
848
33.21
1 ,3530
1,3046
-------�
Table 40. (Continued)
B. Bulk precipitation
V. Sodium and potassium
Winter 1977
Sodium Potassium
Starting time
Ending time
Rainfall
Loading
Concentration
Loading
Concentration
Yr
Day
Time
Yr
Day
Time
(cm)
(g/ha)
(yg/*)
(g/ha)
(yg/O
76
336
0000
76
343
1500
4.01
(798.8)
(1,992)
(176.3)
(439)
343
1500
356
1030
3.18
612.8
1,927
130.1
409
356
1030
007
1030
0.44
132
2,999
26.4
599
007
1030
77
018
0930
1.50
157.7
1,051
46.7
311
77
018
0930
058
2400
0.56
112
1,992
24.5
439
Seasonal total
9.69
1,813
404
Spring 1977
77
059
0000
77
073
1500
0.20
(36.3)
(1,815)
(12.1)
(603)
073
1500
077
1645
0.51
202.9
3,978
64.6
1,267
077
1645
082
1015
3.63
209.5
577
49.7
137
082
0930
096
0950
4.12
343.6
834
133.5
324
096
0950
116
0945
2.03
249.9
1,231
179
882
116
0945
130
1530
3.35
782.2
2,335
211.4
631
130
1530
146
0730
1.70
479.4
2,820
125.5
738
146
0730
150
2400
0.58
54.1
933
14.4
248
Seasonal total
16.12
4,208
790
-------�
Table 40. (Continued)
B. Bulk precipitation
V. Sodium and potassium
Starting time Ending time
Day
Time
Yr
Day
Time
150
0000
158
0715
158
0715
161
1500
161
1500
171
1430
171
1430
172
0730
172
0730
193
0800
193
0800
194
0800
194
0800
199
1315
199
1315
207
0730
207
0730
214
0730
214
0730
221
0730
221
0730
227
0730
227
0730
241
2400
Seasonal total
Summer 1977
Sodium Potassium
Rainfall Loading Concentration Loading Concentration
(cm) (g/ha) (yg/a) (g/ha) (ygA)
0.91 77.8 855 20.7 227
2.11 565.3 2,679 389.1 1,844
6.43 1,380.5 2,147 110.6 172
1.02 219.6 2,153 24.7 242
2.72 1,369.8 5,036 194.2 714
1.14 303.6 2,663 37.2 326
1.78 557.5 3,132 50.2 282
0.58 457.5 7,888 81 1,395
1.60 939 5,869 178.7 1,117
0.94 341.7 3,635 58.7 624
0.87 193.5 2,224 63 724
1.85 291.2 1 ,574 36.6 198
21.95
6,697
1,245
-------�
Table 40. (Continued)
B. Bulk precipitation
V. Sodium and potassium
Starting time Ending time
Day
Time
Yr
Day
Time
242
0000
77
255
0715
255
0715
276
0730
276
0730
284
0715
284
0715
291
0730
291
0730
304
0815
304
0815
308
1045
308
1045
313
0830
313
0830
315
0830
315
0830
322
0830
322
0830
327
1400
327
1400
332
2400
Seasonal total
Fall 1977
Sodium Potassium
Rainfal1
Loading
Concentration
Loading
Concentration
(cm)
(q/ha)
(m9/0
(g/ha)
(yq/O
1.67
589
3,527
105
629
0.59
(152.2)
(2,579)
(31)
(526)
4.25
1,310.7
3,084
323.9
762
5.78
1,257
2,175
131.8
228
4.75
1,220
2,568
182.9
385
0.79
(203.7)
(2,579)
126.2
1,598
4.20
1,027
2,445
105
250
1.04
256.7
2,468
34.5
332
1.91
555
2,906
52.3
274
2.31
336.3
1,456
62.8
272
2.16
(557)
(2,579)
(113.5)
(526)
29.45
7,465
1,269
-------�
Table 40. (Continued)
B. Bulk precipitation
VI. Calcium and magnesium
Starting time Ending time
Y r Day T i me Yr Day Time
76 033 0900 76 054 1700
054 1700 060 2400
Seasonal total
061
0000
068
0815
071
0815
089
0800
093
0900
124
0830
140
0830
148
1000
068 0815
071 0815
089 0800
093 0900
124 0830
140 0830
148 1000
152 2400
Seasonal total
Winter 1976
Calcium Magnesium
Rainfall Loading Concentration Loading Concentration
(cm) (g/ha) (yg/O (g/ha) (yg/Ŗ)
2.16
312.2
1,487
50.5
234
0.05
22.3
4,460
7.8
1,560
28.10
343.5
58.3
Spring 1976
0.06
26.1
4,350
9.2
1,533
3.43
(205)
(598)
(94.3)
(275)
2.77
221.6
800
74.5
269
3.30
86.5
262
22
67
5.38
(118.6)
(221)
(318)
(591)
3.00
53.7
179
334.5
1,115
0.46
(21.5)
(467)
(31)
(672)
2.97
224
754
67.7
228
21.37
957
951.1
-------�
Table 40. (Continued)
B. Bulk precipitation
VI. Calcium and magnesium
Starting time Ending time
Yr Day Time Yr Day Time
76 153 0000 76 153 0730
153 0730 169 1635
169 1635 189 0800
189 0800 195 0830
195 0830 201 0705
201 0705 212 0930
212 0930 223 0745
223 0715 229 0745
229 0745 244 2400
Seasonal total
245
0000
257
0900
261
0900
272
0745
279
0915
286
0845
295
1000
300
1000
307
0915
76 257 0900
261 0900
272 0745
279 0915
286 0845
295 1000
300 1000
307 0915
335 1100
Seasonal total
Summer 1976
Calcium Magnesium
Rainfal1
Loading
Concentration
Loading
Concentration
(cm)
(g/ha)
(yg/A)
(g/ha)
(yg/O
0.74
(33.2)
(449)
(10.2)
(139)
4.47
20.6
46
93
208
2.57
151.6
590
38.6
150
3.61
158
437
27
75
4.62
(208)
(449)
(64)
(139)
2.06
(93)
(449)
(29)
(139)
9.98
33
33
77
77
5.21
55.2
106
5.7
11
1.29
191.4
1,483
40
310
34.55
944
385
Fall
1976
1.12
152.4
1,361
34
304
4.70
314
668
316.3
673
2.59
177
683
89.3
345
5.44
747.4
1,374
302
555
4.95
220.8
446
258.4
522
5.03
117.7
234
56.8
113
4.17
895.7
2,148
269
645
3.00
427
( 1 ,424)
119.3
( 398)
2.21
154.7
700
15.2
150
33.21
3,207
1,460
-------�
Table 40. (Continued)
B. Bulk precipitation
VI. Calcium and magnesium
Starting time Ending time
Yr
Day
Time
Yr
Day
Time
76
336
0000
76
343
1500
343
1500
356
1030
356
1030
77
007
1030
77
007
1030
018
0930
018
0930
058
0930
Seasonal total
059
0000
073
1500
077
1645
082
0930
096
0950
116
0945
130
1530
146
0730
77 073 1500
077 1645
082 1015
096 0950
116 0945
130 1530
146 0730
150 2400
Seasonal total
Winter 1977
Calcium Magnesium
Rainfall Loading Concentration Loading Concentration
(cm) (g/ha) (ugA) (g/ha) (ug/a)
4.01
-
-
(109)
(271)
3.18
222.6
700
76.6
241
0.44
-
-
6.0
137
1.50
-
-
65.4
436
0.56
-
-
(15.2)
(271)
9.69
-
272
Spring 1977
0.20
-
_
(65)
(325)
0.51
(42.5)
(833)
53.3
1,045
3.63
59.5
164
19
52
4.12
150.8
366
107.3
260
2.03
315.7
1,555
44.9
221
3.35
123.3
368
70.4
210
1.70
236.3
1,390
37.7
222
0.58
70.7
1,219
15.5
267
16.12
999
355
-------�
Table 40. (Continued)
B. Bulk precipitation
VI. Calcium and magnesium
Sunnier 1977
Calcium Magnesium
Starting time
Yr Day Time
Yr
Ending time
Day T i me
Rainfall
(cm)
Loading
(q/ha)
Concentration
(vq/Ji)
Loading
(q/ha)
Concentration
(ug/Ji)
77 151
0000
77
158
0715
0.91
101.7
1,117
22.3
245
158
0715
161
1500
2.11
52.1
247
30.6
145
161
1500
171
1430
6.43
119
185
96.5
150
171
1430
172
0730
1.02
12.9
126
93.8
92
172
0730
193
0800
2.72
191.8
705
108
397
193
0800
194
0800
1.14
3.2
28
2.9
25
194
0800
199
1315
1.78
57.1
321
23.3
131
199
1315
207
0730
0.58
44.7
770
32.4
558
207
0730
214
0730
1.60
64.2
401
52.2
326
214
0730
221
0730
0.94
36.4
387
26
276
221
0730
227
0730
0.87
35.4
407
15.3
133
227
0730
241
2400
1.85
54
292
36.1
195
Seasonal total
21.95
773
540
-------�
Table 40. (Continued)
B. Bulk precipitation
VI. Calcium and magnesium
Fall 1977
Calcium Magnesium
Starting time
Ending time
Rainfall
Loadi ng
Concentration
Loadi ng
Concentration
Yr Day
Time
Yr
Day
Time
(cm)
(g/ha)
(ng/*)
(g/ha)
(vq/a)
77 242
0000
77
255
0715
1.67
52.4
314
53.6
321
255
0715
276
0730
0.59
(20.5)
(348)
(10)
(169)
276
0730
284
0715
4.25
131.8
310
82.9
195
284
0715
291
0730
5.78
76.9
133
150.3
260
291
0730
304
0815
4.75
44.7
94
62.5
131.5
304
0815
308
1045
0.79
27.7
350
(13.4)
(169)
308
1045
313
0830
4.20
(14.6)
(348)
48.3
115
313
0830
315
0830
1.04
1.2
12
6.4
61.4
315
0830
322
0830
1.91
141.4
744
30.6
160
322
0830
327
1400
2.31
190.8
826
25.2
109.2
327
1400
332
2400
2.16
(75.2)
(348)
(36.5)
(169)
Seasonal total
29.45
777
520
-------�
Table 40. (Continued)
B. Bulk precipitation
VII. Copper and iron
Starting time Ending time
Yr Day Time Yr Day Ti me
76 033 0900 76 054 1700
054 1700 060 2400
Seasonal total
061
0000
068
0815
071
0815
089
0800
093
0900
124
0830
140
0830
148
1000
068 0815
071 0815
089 0800
093 0900
124 0830
140 0830
148 1000
152 2400
Seasonal total
Winter 1976
Copper Iron
Rainfall Loading Concentration Loading Concentration
(cm) (g/ha) (pg/fc) (g/ha) (ug/O
2.16
0.9
4.0
2.5
11.6
0.05
0.04
8.0
0.2
40
28.10
0.94
2.7
Spring
1976
0.06
0.06
10
0.3
47
3.43
1.2
3.6
3.0
8.8
2.77
1.0
3.5
3.5
12.6
3.30
0.8
2.4
1.7
5.2
5.38
3.0
5.5
29
54.1
3.00
2.6
8.5
31
103
0.46
(0.3)
(6.4)
(1.2)
(56.2)
2.97
1.3
4.3
2.8
9.4
21.37
10.3
72.5
-------�
Table 40. (Continued)
B. Bulk precipitation
VII. Copper and iron
Starting time Ending time
Yr Day Time Yr Day Time
76 153 0000 76 153 0730
153 0730 169 1635
169 1635 189 0800
189 0800 195 0830
195 0830 201 0705
201 0705 212 0930
212 0930 223 0745
223 0715 229 0745
229 0745 224 2400
Seasonal total
245
0000
257
0900
261
0900
272
0745
279
0915
286
0845
295
1000
300
1000
307
0915
76 257 0900
261 0900
272 0745
279 0915
286 0845
295 1000
300 1000
307 0915
335 1100
Seasonal total
Summer 1976
Copper r_ Iron
Rainfall Loading Concentration Loading Concentration
(cm)
(q/ha)
(vg/a)
(q/ha)
(ug/Jl)
0.74
(0.3)
(3.5)
(0.6)
(8.9)
4.47
1.2
2.6
0
0
2.57
1.6
6.3
4.1
16
3.61
1.2
3.2
3.2
8.9
4.62
(1.6)
(3.5)
(4.1)
(8.9)
2.06
(0.7)
(3.5)
(1.8)
(8.9)
9.98
1.8
1.8
6.1
6.1
5.21
1.6
3.1
4.3
8.2
1.29
0.54
4.2
1 .8
14
34.55
10.5
26
Fall
1976
1.12
0.43
3.8
1.5
13.4
4.70
0.4
0.9
1 .8
3.8
2.59
0.7
2.6
3.2
12.2
5.44
2.3
4.2
3.3
6.1
4.95
0.8
1.6
1.7
3.4
5.03
1.3
2.5
3.5
7.0
4.17
0.4
1
1.9
4.5
3.00
(0.6)
(1.9)
(1.3)
(4.4)
2.21
0.62
2.8
1.0
4.3
33.21
7.6
19.2
-------�
Table 40. (Continued)
B. Bulk precipitation
VIII. Zinc and cadmium
Starting time
Y r Day T i me
76 033 0900
054 1700
Ending time
Y r Day T i me
76 054 1700
060 2400
Seasonal total
76 061 0000 76
068 0815
071 0815
089 0800
093 0900
124 0830
140 0830
148 1000
068 0815
071 0815
089 0800
093 0900
124 0830
140 0830
148 1000
152 2400
Seasonal total
Winter 1976
- Zinc Cadmium
Rainfall Loading Concentration Loading Concentration
(cm) (g/ha) (ug/O (g/ha) (ug/a)
2.16 3.3 15.2 0.5 2.3
0.05 1.2 240 0.11 22
28.10 4.5 0.61
Spring 1976
0.06 1.4 233 0.13 22
3.43 8.0 23.4 1.3 3.9
2.77 3.9 14.0 0.05 0.2
3.30 1.7 5.2 0.7 2.0
5.38 (2.8) (5.2) (1.7) (3.15)
3.00 1.5 5.1 1.3 4.3
0.46 (0.3) (7.3) (0.2) (4.3)
2.97 2.8 9.5 1.3 4.4
21.37 22.4
6.7
-------�
Table 40. (Continued)
B. Bulk precipitation
VIII. Zinc and Cadmium
Starting time Ending time
Yr Day Time Yr Day Time
76 153 0000 76 153 0730
153 0730 169 1635
169 1635 189 0800
189 0800 195 0830
195 0830 201 0705
201 0705 212 0930
212 0930 223 0745
223 0715 229 0745
229 0745 244 2400
Seasonal total
245
0000
257
0900
261
0900
272
0745
279
0915
286
0845
295
1000
300
1000
307
0915
76 257 0900
261 0900
272 0745
279 0915
286 0845
295 1000
300 1000
307 0915
335 1100
Seasonal total
Summer 1976
Zinc Cadmi urn
Rainfall Loading Concentration Loading Concentration
(cm)
(q/ha)
(yg/<0
(q/ha)
(nq/O
0.74
(0.4)
(4.9)
(0.2)
(2.5)
4.47
(2.2)
(4.9)
0.7
1.5
2.57
1.2
4.8
0.8
3.3
3.61
0.5
1.4
0.6
1.6
4.62
(2.3)
(4.9)
(l.D
(2.5)
2.06
(1.0)
(4.9)
(0.5)
(2.5)
9.98
0
0
1.4
1.4
5.21
0.2
0.4
0.2
0.3
1.29
2.3
18
0.9
6.6
34.55
10,1
6.4
Fall
1976
1.12
1.8
16
0.7
6
4.70
4.6
9.7
1.7
3.7
2.59
2.6
9.9
0.6
2.3
5.44
3.4
6.3
1.5
2.7
4.95
0.2
0.4
0.2
0.5
5.03
0.4
0.8
0.3
0.6
4.17
0.2
0.6
0.4
1.0
3.00
(0.23)
(0.9)
(0.3)
(1.0)
2.21
0.2
1.1
0.2
1.0
33.21
13.71
5.9
-------�
TABLE 41. Rainfall at weather station at
Horn Point Environmental Laboratories
Julian Rainfall
Date cm
Autum (1977)
248-249
3.78
252-253
3.71
260
1.32
269
.48
275
.05
279
.05
281
.15
282
2.79
285
.03
286
.03
287
3.58
289
.03
290
.51
292
.10
299-300
2.13
301
.05
307
.64
308
.08
310-311
3.35
312
.28
314
.18
316
(Trace Snow)
321
.41
322
.79
325
.08
326
1.88
327
1.47
328
.05
330
1.43
334
.08
Julian
Rainfal
Date
cm
Winter (1977-1978)
335
.89
339
.11
342
.64
348
2.24
352-355
7.92
359
.41
364-365
2.44
006
.08
007
.48
008-009
3.71
013
4.98
017
1.85
018
2.24
019
2.87
025
2.51
026
1.09
036-037
(Snow Appr)2.03
039
.05
044
(Snow) .64
Spring (1978)
059
(Snow) .05
060
.18
062
(Snow) .94
067-069
(Hail & Snow)4.42
073
3.10
075
1.24
080
.15
084-086
8.71
534
-------�
Table 42. Bacterial discharge data for Horn Point Watersheds
FC conc.
FC
FS conc.
FS
TVC
TVC
Day of
Flow *
cells/
discharge
eel Is/
discharge
cells x
discharge
year
l/sec.
100 ml
da.y
100 ml
day
103/ml
day
A G
R I C U L T U
RE WAT
E R S H E D
353
100
860
7.43E10
030
8
2
1.38E07
_
-
_
044
3
45
1.16E08
_
-
_
052
2
30
5.19E07
7
1.21E07
0.1
1.73E10
059
3
54
1.40E08
15
3.88E07
0.7
1.81E11
065
3
28
7.25E07
1.0
2.59E11
072
5
102
4.41E08
371
1.60E09
19.0
8.21E12
080
14
104
1.26E09
176
2.13E09
3.5
4.23E12
087
15
176
2.27E09
163
2.10E09
18.0
2.32E13
093
18
83
1.29E09
40
6.20E08
4.0
6.20E12
100
15
33
5.11E08
26
3.35E08
5.4
6.96E12
107
14
510
6.17E09
83
1.00E09
4.2
5.08E12
114
14
228
2.76E09
35
4.23E08
1.0
1.21E12
WOODS
WATERS
H E D
353
14
1100
1.33E10
030
1
2
1.73E06
-
_
_
052
2
375
6.49E08
75
1.30E08
0.7
1.21E11
065
2
404
7.00E08
40
6.92E07
26.0
4.50E12
065
2
5
8.65E06
14.2
2.46E12
072
2
60
1.04E08
526
9.10E08
380
6.57E13
080
3
132
3.42E08
395
1.02E09
6.4
1.66E12
087
8
1349
9.23E09
395
2.73E09
270
1.86E14
093
2
14
2.42E07
65
1.12E08
6.6
1.14E12
100
2
21
3.63E07
47
8.13E07
3.0
5.19E11
107
2
20
3.46E07
52
9.00E07
3.1
5.36E11
114
2
11
1.90E07
73
1.26E08
3.4
5.88E11
* Flow less than 15 liters/sec is estimated, due to minimum calibration for flume.
535
-------�
Table 43. Area yield discharge loadings per season for Horn Point Watersheds
Water Fecal Fecal Total
Discharge Nitrogen Phosphorus Coliforms Streptococci viable cells
(A/ha) (Kg/ha) (q/ha) (cells/ha) (cells/ha) (cells/ha)
AUTUMN 1977
Ag Dry
Woods Dry
WINTER 1977-78
Ag 1.4E05 .037 36 8.6E08
Woods 2.0E05 .008 4 3.9E08
SPRING 1978
Ag 8.0E05 .180 110 1.4E08 9.3E07 5.0E12
Woods 5.0E05 .125 10 3.0E09 1.2E09 4.5E13
536
-------� |