r/EPA
United States
Environmental Protection
Agency
Environmental Monitoring
and Support Laboratory
PO Box 15027
Las Vegas NV 89114
Research and Development
Phytoplankton
Water Quality
Relationships in
U.S. Lakes Part I:
Methods, Rationale,
and Data Limitations
Working
Paper 705
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PHYTOPLANKTON WATER QUALITY RELATIONSHIPS IN U.S. LAKES
PART I: Methods, Rationale, and Data Limitations
by
W. D. Taylor, L. R. Williams, S. C. Hern, V. W. Lambou,
F. A. Morria*, and M. K. Morris*
Water and Land Quality Branch
Monitoring Operations Division
Environmental Monitoring and Support Laboratory
Las Vegas, Nevada 89114
^Department of Biological Sciences
The University of Nevada, Las Vegas
Las Vegas, Nevada 89154
Working Paper No. 705
National Eutrophlcation Survey
Office of Research and Development
U.S. Environmental Protection Agency
October 1978
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DISCLAIMER
This report has been reviewed by the Environmental Monitoring and
Support Laboratory—Las Vegas, U.S. Environmental Protection Agency,
and approved for publication. Mention of trade names or commercial
products does not constitute endorsement or recommendation for use.
ii
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FOREWORD
The National Eutrophication Survey (NES) was initiated in 1972 in
response to an Administration commitment to investigate the nationwide
threat of accelerated eutrophication to freshwater lakes and reservoirs.
The Survey was designed to develop, in conjunction with State environmental
agencies, information on nutrient sources, concentrations, and impact on
selected freshwater lakes as a basis for formulating comprehensive and
coordinated national, regional, and State management practices relating to
point—source discharge reduction and nonpoint—source pollution abatement
in lake watersheds.
This Survey collected physical, chemical, and biological data from 815
lakes and reservoirs throughout the contiguous United States. To date, the
Survey has yielded more than two million data points. In—depth analyses are
being made to advance the rationale and data base for refinement of nutrient
water quality criteria for the Nation’s freshwater lakes.
iii
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ABSTRACT
During spring, summer and fall of 1972 through 1975, the National
Eutrophication Survey (NES) sampled 815 lakes throughout the 48 contiguous
United States. About 2½ million physical, chemical and biological data
points were measured from these study lakes. In order to determine
phytoplankton water quality relationships the physical, chemical, and
biological data were merged. From this merger it has been possible to
establish environmental requirements and relative importance of phytoplank—
ton forms.
This report, Part I, presents the methodology, rationale, output format,
and data limitations of the product. The physical, chemical, and morpho—
metric conditions of the 250 lakes sampled during 1973 are described. The
mechanics and logic of interfacing physical and chemical data (total
phosphorus, orthophosphorus, nitrite—nitrate—, ammonia—, and total Kjeldahl—
nitrogens, nitrogen/phosphorus ratio, Secchi disk transparency, chlorophyll a,
turbidity, pH, total alkalinity, dissolved oxygen, and temperature) with
biological data, to establish the environmental requirements and relative
importance of phytoplankton, are described.
iv
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Foreword . . . . . . . . . . . . . . . . . . . . .
Abstract . . . . . . . . . . . . . . . . . . . . . . .
Figures and Tables
List of Abbreviations and Symbols . . . . . . . . .
Introduction . . . , . . . . . . . . .
Materials and Methods . . . . . . . .
LakeSelection . . . . . . . .
Field Sampling Methods . . . . . . . •
NutrientAnalyses
Phytoplankton Sample Preparation . . .
Phytoplankton Examination . . . . . . .
Quality Assurance .
Data Storage and Manipulation . . . . .
Physical and Chemical Characteristics of Lakes
Data Organization . . . . . . . . . .
Rationale
Output Format . . . . . . . . . . . . . .
L imitations . . . . . . . . . . . . . . . .
References . .
Bibliography
Appendix A:
. . . . . . . . . .
Lakes and Reservoirs Sampled in 1973
Eutrophication Survey . . . .
Physical and Chemical Data for Lakes
Histograms of Physical, Chemical and
Data
Page
iii
• . . . . . iv
vi
• viii
• . . • .
• I I I I I
I
I I • I • • • • I
• . I I • • I I
•
by the National
• I I • I I I I
Sampled in 1973
Morphological
CONTENTS
I I I • • I I I I • • •
• • . I • I I • • • I I
I •
I • •
•
3
3
4
6
7
7
7
9
12
12
14
18
19
20
23
31
58
Appendix B:
Appendix C:
. I • I I I I I I I I I I I I I
V
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phosphorus values . .
C—2 Distribution of eastern lakes
orthophosphdrus values
C—3 Distribution of eastern lakes
nitrate—nitrogen values
C—4 Distribution of eastern lakes
nitrogen values . . .
C—5 Distribution of eastern lakes
nitrogen values . . . . .
C—6 Distribution of eastern lakes
C—7 Distribution of eastern lakes
values
C—8 Distribution of eastern lakes
values . . . . . . .
C—9 Distribution of eastern lakes
C—b Distribution of eastern lakes
alkalinity values . . . .
. . . S • S • S
by partial depth dissolved
• S • S • • • S S S S S S S • S
by partial depth nitrite—
• I S S S S S S S S S S S I • S
by partial depth ammonia—
• . . I S
by partial depth total Kjeldahl
• . S S S S S S S S S • • S S S
by partial depth N/P values
by partial depth Secchi disc
• . S • • • S S • S •
by partial depth turbidity
• I I I S S S • S S I S I S S •
by partial depth pH values
by partial depth total
• S I S • I S S
FIGURES
Number Page
1 Number and location of lakes sampled during the years
indicated . • . . . • , , • • . . , • • . . . . • • . . . • • . 2
2 Flow diagram describing the interface of physical/chemical
lake data with the phytoplankton data • . • 13
3 Sample output format
A. Partial depth statistics for the occurrence and non-
occurrence of the genus Anabaena • . . • • • • 16
B. Partial depth statistics for the dominance and non—
dominance of the genus Anabaena . • • • • . • • • . •
C-i Distribution of eastern lakes by partial depth total
• 17
• . 59
• . 59
. . 60
• • 60
• • 61
• . 61
• 62
• . 62
• • 63
• . 63
vi
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Number
C—il
‘IGURES (Continued)
• . 64
• . 64
• • 65
• . 65
• • 66
• . 66
• . 67
67
68
Number Pate
1 Lake Water Sample Analyses Sut ary • • . • . . . . . •
2 Analytical Methods and Precision of Laboratory Analyses
3 Photlc Zone Statistics: Range, Mean, Standard Deviation,
Total Number of Lake Values for each Parameter .
Genus Occurrence Categories and Definitions
Total Depth Mean Parameter Values Listed by Lake—Date
Partial Depth Mean Parameter Values Listed by Lake—Date
Page
Distribution
of
eastern
lakes
by
partial depth dissolved
oxygen values
. . . .
• • •
. . . . . •‘• • • . . • . • .
.
C—12
Distribution
of
eastern
lakes
by
partial depth temperature
values • .
•
. . • •
. • •
• . • . • . . . • . • • • • •
•
C-13
Distribution
of
eastern
lakes
by
partial depth chlorophyll a
values . •
.
• • • •
• • •
C—14
Distribution
of
eastern
lakes
by
surface area
C—iS
Distribution
of
eastern
lakes
by
mean depth
C—l6
Distribution
of
eastern
lakes
by
maximum depth . .
C—17
Distribution
of
eastern
lakeB
by
volume • • . • • • • . . .
.
C—l8
Distribution
of
eastern
lakes
by
retention time • . . • • .
•
C—19
Distribution
of
eastern
lakes
by
drainage area • •
TABLES
4
B—i
B—2
• . . • 5
• • . • 6
and
• . . • 11
• . • . 15
• • • • 32
vii
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LIST OF ABBREVIATIONS AND SYMBOLS
TOTAL DEPTH VALUES — chemical and physical data from the entire lake
PARTIAL DEPTH VALUES — chemical and physical data from the photic zone
ROUND 1 — data collected during the spring
ROUND 2 — data collected during the suer
ROUND 3 — data collected during the fall
ROUND ALL — data collected during the sampling year
DON — (dominant occurrence) genus constituted 10 percent or more of the
numerical total cell concentration of each lake—date sample in
this category
NONDOM — (non—dominant occurrence) genus constituted less than 10 percent
of the numerical total cell concentration of each lake—date sample
in this category
0CC — (occurrence) genus was detected in each lake—date sample in this
category
NONOCC — (non—occurrence) genus was not detected in any of the lake—date
samples represented in this category
MIN — minimum value of a given parameter for the nature of occurrence
indicated
MAX — maximum value of a given parameter for the nature of occurrence
indicated
MEAN — mean value of a given parameter for the nature of occurrence indicated
SThV — standard deviation of the mean
N — sample size
viii
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LIST OF ABBREVIATIONS AND SYMBOLS (Continued)
N
N < — number of lakes with values less than the minimum (MIN)
> — number of lakes with values greater than the maximum (MAX)
O/WR:
0 — number of occurrences
WR — number of lakes having values within the range defined by the
MIN and MAX
CHLA — chlorophyll a (pg/i)
TURB — turbidity (% transmission)
SECCHI — Secchi disc (inches)
PH — standard pH unIts
DO — dissolved oxygen (mg/i)
TEMP — temperature (degrees Celsius)
TOTALP — total phosphorus (mg/l)
ORTHOP — dissolved orthophosphorus (mg/i)
N02N03 — nitrite—nitrate nitrogen (mg/i)
NH3 — ammonia nitrogen (mg/i)
KJEL — total Kjeidahi nitrogen (mg/i)
ALK — total alkalinity (expressed as CaCO 3 , mg/i)
N/P — inorganic nitrogen (N02N03 + NU3)/total phosphorus (TOTALP)
CONC — number of cells, colonies, or filaments/mi
PERC — percent composition of numerical total
ix
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INTRODUCTION
During spring, summer, and fall of 1972 through 1975, the National
Eutrophication Survey (NES) sampled 815 lakes throughout the 48 contiguous
United States (Figure 1). About 2½ million physical, chemical and biological
data points were measured from these study lakes. In order to determine
phytoplankton water quality relationships, the physical, chemical, and
biological data were merged. From this merger it has been possible to
establish environmental requirements and relative abundance of phytoplankton
forms. The phytoplankton water quality relationships existing in the lakes
sampled during 1973 are being determined first.
The physical and chemical lake data were summarized on a seasonal basis
and organized by four categories of phytoplankton occurrence — numerical
dominance, non—dominance, occurrence and non—occurrence. The summaries
provide knowledge of the specific requirements or environmental limits for
each taxon and are useful for the development of biological tools for
monitoring and prediction of water quality or trophic condition.
The purpose of this report is to present the methods used, rationale
under which the study was carried out, and limitations of the data. A
report series is necessary to present the large volume of information
produced in this study. This report, Part I, is the first of the series
“Phytoplankton Water Quality Relationships in U.S. Lakes”. Parts II
through V will present our findings by genus, arranged alphabetically, from
lakes in 17 eastern states sampled during 1973. Parts VI and VII will
present an analysis of environmental relationships of common phytoplankton
genera and evaluate trophic state indices, respectively. Additional
interpretative reports and water quality relationships of phytoplankton
species will be forthcoming.
1
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National Eutrophication Survey
‘72 - 231
‘75 - 154
•. :.
• .•#
• •
S •
• •
• - S
• • S..
S
• S
S
- 250
‘74 - 180
Figure 1.
Number and location of lakes sampled during the years indicated.
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MATERIALS AND METhODS
LAKE SELECTION
Lakes and reservoirs included in the Survey were selected through
discussions with State water pollution agency personnel and U.S. Environmental
Protection Agency Regional Offices (U.S. EPA 1975). Screening and selection
of lakes sampled in 1972 and 1973 strongly emphasized lakes with actual or
potential accelerated eutrophication problems. As a result, the selection
was generally limited to lakes:
(1) impacted by one or more municipal sewage treatment plant
outfalls either directly into the lake or by discharge
to an inlet tributary within approximately 40 kilometers
of the lake;
(2) 40 hectares or larger in size; and
(3) with a mean hydraulic retention time of at least 30 days.
Specific selection criteria were waived for sone lakes of particular interest
to the individual states. During 1974 and 1975, lakes were selected to
broaden the spectrum of water quality types represented.
FIELD SANPLING METHODS
Lake sampling was accomplished by two sampling teams, each consisting
of a limnologist, pilot, and sampling technician, operating from pontoon—
equipped Bell TJH—lH helicopters. A mobile field laboratory provided analytical
support. With few exceptions, each lake was sampled under spring (Round 1),
su ier (Round 2), and fall (Round 3) conditions.
Sampling site locations were chosen to define the character of the lake
as a whole and to investigate visible or known problem areas, e.g., algal
blooms, and sediment or effluent plumes (U.S. EPA 1975). The number of
sites was limited by the survey nature of the program and varied in accordance
with lake size, morphological and hydrological complexity, and practical
considerations of time, flight range, and weather.
The Survey helicopters were equipped with electric winches and approxi—
mately 200 feet [ 61 meters (m)] of hollow—core, multi—conductor cable attached
3
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to a submersible pump and an InterOcean Systems® sensor package capable cf
making in—situ measurements of conductivity, temperature, optical trarismis—
sivity, and depth. Rack—mounted equipment located inside the helicopter
provided analog recording capabilities and a digital display of the sensor
values. An echo sounder, Secchi disc, sample containers, and related equip-
ment items necessary for water sampling were also carried in each helicopter.
After landing at the Station the sensor—pump package was used to collect
data and water samples at various depths. Sampling depths were selected to
characterize the water column after inspection of analog strip—chart records
generated during the initial pass of the sensor package through the water
column.
At each sampling depth water samples were collected for nutrient, alka-
linity, pH, and dissolved oxygen determinations. For nutrient analyses,
two 130 milliliter (ml) polyethylene sample bottles were filled and the
samples immediately preserved with 0.25 ml of aqueous mercuric chloride
solution [ 25 grams (g) of HgCl 2 /l]. Nutrient samples were shipped to the
Environmental Monitoring and Support Laboratory—Las Vegas (F24SL—LV) for
analysis.
At each sampling station, a chlorophyll a (CHLA) and a phytoplankton
sample were taken. These depth—integrated samples were uniform mixtures
of water from the surface to a depth of 4.6 m (15 feet) or from the
surface to the lower limit of the photic zone, representing 1 percent of
surface Incident light, whichever was greater. If the depth at the sampling
station was less than 4.6 m, the sample was taken from just off the bottom
to the surface. Table 1 summarizes sample collection and handling procedures.
A Beckman ELectromate® portable pH meter and combination electrode were
used to determine pH as soon as possible following sample delivery to the
field laboratory at the end of the day’s sampling. Dissolved oxygen samples
were titrated with phenylarsine oxide in the mobile field laboratory within
16 hours after collection. CHLA analyses were performed at the end of each
day In the trailer laboratory according to the fluorometric procedure
described by Yentsch and Menzel (1963). One of each pair of nutr1 nt samples
was filtered through a type HA 0.45—micrometer Millipore® membrane filter
into a clean, unused polyethylene bottle, recapped, and, along with its
unfiltered counterpart, forwarded to E 1SL—LV for analysis.
NUTRIENT AM LYSES
The analytical methods utilized to process the samples at EMSL—LV are
outlined In Table 2. All of the analyses were performed utilizing adapations
of automated procedures described In Mullins, et al. (1975).
® Registered trademark
4
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TABLE 1. LAKE WATER SAMPLE ANALYSES SUMMARY*
SAMPLE WHERE
PARAMETERS VOLUME FIELD TREATMENT PERFORMED DEPTh
Temperature (TEMP) J —situ Continuous
Depth In—situ Continuous
Turbidity (TURB) In—situ Continuous
pH (PH) 4—ounce Refrigerated, dark Field lab Select levels
Dissolved Oxygen (DO) 300—mi Chemical fixation Field lab Select levels
Chlorophyll a (CILLA) 4—ounce Refrigerated, dark Field lab Photic zone
integration
‘ Algae identification 4—ounce Lugol’s solution EMSL—LV Photic zone
integration
Total Phosphorus (TOTALP),
Total Kjeldahl—N (KJEL) 4—ounce Unfiltered, HgC1 .1SL—LV Select levels
Dissolved Orthophosphorus
(ORTHOP), Nitrite—Nitrate—N
(N02N03), Ammonia—N (NH3),
Total Alkalinity (ALK) 4—ounce Filtered, }lgCl EMSL—LV Select levels
* Modified from U.S. EPA (1975).
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TABLE 2. ANALYTICAL btETHODS AND PRECISION OF LABORATORY ANALYSES
PARAMETER
METHOD
PRECISION
ORTHOP
Single reagent methods involving
colorimetric determination of
antl.niony—phosphomolybdate complex.
±
0.005 mg/i or + 5%
TOTALP
Persulfate oxidation followed by the
above method for dissolved orthophos—
phate.
±
0.005 mg/i or ±
N02N03
Cadmium reduction, sulfanilamide
diazotization by nitrite coupled with
N— (i—naphthyl) —ethylene diamine.
0.010 rag!], or ± 5
NH3
Alkaline phenol hypochiorite
reaction producing indophenol
blue, colorimetric.
0.005 mg/i or ± 5
1UEL
Acid digestion followed by the above
procedure for ammonia nitrogen.
±
0.10 mg/i or ± 5
AL1(
Methyl orange colorimetric.
± 0.5 mg/i or ± 5% as
CaCO 3
PHYT0PLA NKTON SAMPLE PREPARATION
Four ml of Acid—Lugol’s preservative solution (Prescott 1970) were
added to each site—specific 130—mi sample at the time of collection. The
samples were shipped to EMSL—LV, Nevada, where equal volumes from each site
were mixed to form two 130—mi composite samples for a given lake. One
composite sample was placed in storage; the other was used for the examination.
Prior to examination, the composite samples were concentrated by allowing
the solids to settle for at least 24 hours and drawing off the stipernate.
Final concentration varied from 15 to 40 times the original, depending upon
the paucity of the phytoplankton in the sample. Wet mounts and heat—treated
Hyrax—mounted diatom slides were prepared for species identification.
6
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PHYTOPLANK DN EXAMINATION
The phytoplankton samples were examined with the aid of binocular compound
microscopes. A preliminary examination was performed to identify and list
the forms encountered. The length of this examination varied depending on the
complexity of the sample. An attempt was made to find and identify all of the
forms present in each sample. Diatom slides were examined with a standard
light microscope. When greater resolution was essential to accurately identify
the diatoms, a phase—contrast microscope was used.
After the species list was compiled, phytoplankton were enumerated at
400x magnification (40X objective lens) using a Neubauer Counting Chamber.
All forms within each field were counted. The count was continued until a
minimum of 100 fields had been viewed, or until the dominant form had been
observed a minimum of 100 times.
JALITY ASSURANCE
A routine quality assurance program was maintained at each level of the
operation, e.g., sample collection, mobile field laboratory analyses, and
E24SL—LV laboratory analyses. Quality assurance for phytoplankton analyses
included routine internal and external replicate analyses. External
phytoplankton quality control of both identification and enumeration was
performed by Dr. G.W. Prescott of the University of Montana. Detailed
descriptions of quality assurance procedures are given in U.S. EPA (1975)
and Taylor, et al. (1977).
DATA STORAGE AND MANIPULATION
The physical and chemical data collected by the Survey were input to
STORET (STOrage and RETrieval), the U.S. EPA computer system which processes
and maintains water quality data. The phytoplankton data (species lists and
differential counts) were stored on disc packs accessible through WYLBUR, a
text editor. Data manipulation was as prescribed by Bliss, et al. (1976).
During any given round [ RouND 1 (spring); ROUND 2 (summer); and ROUND 3
(fall)], phytoplankton samples from stations within a lake were composited in
such a way as to give each station equal weight. Chemical and physical data
were calculated so as to provide equivalent weight to each depth sampled at a
station and each sampling station sampled on an individual lake during a
sampling round.
Mean parameter values for each sampling station were calculated as
follows (Lambou et al., 1976):
= Parj/D (1)
7
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where Pars = mean value for a parameter at the th sampling station during a
sampling round (lake—date),
Part = value for the 1 th depth,
and D = the number of depths for which a parameter was measured at the
jth sampling station during a sampling round.
Mean parameter values for each sampling round were calculated as follows:
S (2)
Park = Par /S
j=l
where Park = mean value for the kth sampling round on a given lake,
and S = number of sampling sites.
Formulas 1 and 2 were used to determine mean parameter values for total
phosphorus (TOTALP), dissolved orthophosphorus (ORTHOP), ammonia—N (NH3),
nitrite—nitrate—N (N02N03), ammonia—nitrite—nitrate—N (IN), total Kjeldahl—N
(KJEL), dissolved oxygen (DO), and total alkalinity (as CaCO 3 ) (ALK), all
expressed in milligrams per liter (mg/l); temperature in degrees Celsius
(°C) (T} 1P); turbidity in percent transmission (TIJRB); pH (PH); and Secchi
disc in inches (SECCHI).
The ratio of IN/TOTALP (N/P) for each samp]ing station was calculated
as follows:
N/P = IN/TOTALP
However, at the Formula 1 level a total phosphorus value was deleted If either
nitrogen complement was missing. Values for each round were calculated using
Formula 2.
Unlike the above parameters where measurements were made at various
depths, only one CHLA measurement was made at any individual sampling station
during a sampling round. Therefore,
CHLA = CHLA
where CELA = the mean CHLA concentration in micrograms per liter
( ig/l) for the jth sampling station during a sampling round,
and CFILA = the CHLA concentration in pg/l for a depth—integrated water
sample. Values for each round were calculated using Formula 2.
8
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PHYSICAL AND CHEMICAL CHARACTERISTICS OF LAKES
The previously described meaning procedure was used to create total—
depth parameter and partial—depth parameter lists. Tables B—l and B—2
in Appendix B present these lists for the lakes in 17 eastern states
sampled during 1973. These lists provide the data accessed in association
with the occurrence of a genus (species) within a lake—date phytoplankton
sample. The four—digit STORET number is the unique NES STORET identifier
for the lake (Appendix A). The first two digits identify the state and
the second two digits identify the lake. The DATE is a six—digit number
in year, month and day order. ROUND is used to designate seasonality
of sampling periods: “1” denotes the spring round, “2” — su=ier, and “3” —
fall. ROUND 1 occurred between March 7 and July 1; ROUND 2 occurred
between July 5 and September 18; and ROUND 3 sampling took place between
September 19 and November 14, 1973.
The total—depth parameter list (Table B—i) was created from data
collected at all sampling depths, resulting in mean values describing the
entire lake both horizontally and vertically. The partial—depth parameter
list (Table B—2) used data points restricted to depths within the layer
sampled for phytoplankton and chlorophyll a; these mean values describe
physical and chemical lake conditions generally coinciding with the photic
zone.
A series of histograms (Appendix C) are Included to illustrate the
distribution of lakes within the range of conditions encountered during
the 1973 survey year. Figures C—l through C—13 are based upon parameter
values in Table B—2. These histograms are compiled from all lake—date
combinations for which the specific data were present. As a result, up
to 747 values may be included (249* study lakes x 3 seasonal rounds).
When considering the range of environmental conditions associated
with the various categories of phytoplankton occurrence, it is valuable
to be familiar with the range of characteristics of the survey lakes
themselves. The 250 lakes and reservoirs sampled in 1973 were located
in the eastern portion of the country (Figure 1) and are listed in
Appendix A.
The variation in lake types ranged from mountain to coastal, humic
to calcareous, and natural to artificial. Figures C—l4 through C—l9
illustrate the range of inorphometric conditions for the NES lakes sampled
In 1973. The morphometric characters include maximum depth, mean depth,
surface area, lake volume, retention time, and drainage area. Morphometric
data was obtained from reports prepared on each lake sampled by
*Data for Allegheny Reservoir (N.Y./Pa.) omitted.
9
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NES, e.g., U.S. EPA (1976). Up to 249 values were used to generate each of
these figures, depending upon data availability.
Moore’s Lake, Delaware was the smallest study lake, with a surface
area of 0.1 square kilometers (kin 2 ), while Keowee Lake, South Carolina was
the largest study lake, with a surface area of 6941 km 2 . In terms of
volume, Cumberland Reservoir, Kentucky, led the group of study lakes,
with a volume of 5572 x 106 meters 3 .
The population of lakes sampled in 1973 split into the following trophic
categories:
Category Numbers of Lakes
Oligo—meso trophic 5
Mesotrophic 35
Meso—eutrophic 14
Eutrophic 195
Such factors as chlorophyll a level, phosphorus and nitrogen species
levels, Secchi disk transparency, dissolved oxygen levels and phytoplankton
composition were considered in the trophic assignments.
The conspicuous absence of oligotrophic lakes reflect, in some
measure, the e cpected bias away from highest wa’.er quality lakes. However,
no “trophic spectrum” comparison is available with similar lake populations,
selected at random, to confirm this possibility.
The decided emphasis toward eutrophy indicated above is further
illustrated in Table 3, which presents the range of chemical and physical
conditions found. The primary nutrients, phosphorus and nitrogen forms,
all have mean values well within generally accepted ranges of eutrophic
(nutrient—enriched) conditions. CHLA and SECCHI mean values further support
the general tendency toward eutrophy in the 1973 study lake population.
10
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TABLE 3. PHOTIC ZONE STATISTICS: RANGE, MEAN, STANDARD DEVIATION, AND
TOTAL NUMBER OF LAKE VALUES FOR EACH PARAMETER
Standard
Number
of
Parameter Minimum Maximum Mean Deviation
Lake Values**
Total Phosphorus 4 4549 137 316 742
(jig / 1)
Dissolved Orthophosphorus 1 2009 60 175 741
(pg/i)
Nitrite—Nitrate—N 17 9745 569 1066 742
(pg/i)
Ammonia—N 20 3024 116 149 742
(pg/i)
Total Kjeldahl—N 199 8199 1043 975 742
(pg/i)
Inorganic N*** (N/P) <0.1 210 14.1 22 742
Total Phosphorus
Chlorophyll a 0.3 595 26.2 48 741
(pg/i)
Turbidity 1 121* 72 23 645
(% transmission)
Secchi Depth 1 252 48 36 736
(inches)
pH 4.1 10.6 7.8 0.8 741
Dissolved Oxygen 0.7 19.2 7.8 2.1 732
(mg / 1)
Temperature 6.8 32.2 21.5 5.5 740
(°C)
Total Alkalinity. 10 334 72 67 742
(mg/i as CaCO 3 )
* Several data points ere recorded which exceed a theoretical maximum
of 106 percent light transmission in water with the transmissometer
calibrated for 100 percent transmission is air.
** There are more lake values than phytoplankton sample records since
phytoplankton samples were not always available for each lake—date.
*** Inorganic N Nitrite—Nitrate—N + Ammonia—N
11
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edited PhySical. Chesncal Data
STORE r
L Storage
Edited Phytopisotton Data
Disk
Storage
— percent composition
As witis Oscar.
_‘_ — — — _ _ Alphabetize tans list
._——...‘ ... — — — _L_.fProcesses taxa-by-taxa.
I’ I h 2 n
f _ . — Occurrence/D inanca Sort
/6 6 L 5
,‘ (Oomo. \ ( onDomI \ ( Occur \ / nOccu\
\Gecus ) \_Genus J \ Ganus ) \ Genus)
‘1’ ‘1’
• etc. etc. etc.
__Sea sonSori
(Sumer \ (rail \\
Domoinant II Domoinant I
\ Genus,/ \\ Genus
D) t E)
I
For Genus 1. 2 n
——.
/ \ I
I ‘RI
‘ I
• . -
For Species 1. 2
Figure 2. Flow diagram describing the interface of physical/chemical lake
data with the phytoplankton data.
— — — Enter into W , -tIflg Flies
swans
I Domsinant
13
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determined from the examination of composite samples, together with the
corresponding lake and date information.
To reduce the physical and chemical data to the coimnon denominator of
lake and date, a mean value was calculated as previously described. Two sets
of mean values were generated. In the first, all depths sampled within the
water column are represented (total depth mean values, see Table B—i) while
the second includes only those depths sampled within the zone Integrated to
obtain chlorophyll a and phytoplankton samples (partial depth mean values, see
Table B—2) as described previously. The lake—date means became the basic data
(A and B, Figure 2) for interface with corresponding phytoplankton information.
The phytoplankton data were segregated into alphabetized genera— and
species—based files, and the percent composition of each taxon (PERC) was
determined from its CONC relative to the total cell count in the sample.
From this point forward in the data reduction, processing was performed on a
taxon—by—taxon basis. The first genus or species encountered in the respec-
tive alphabetized files was sorted to determine those combinations of lake
and date under which it attained numerical dominance, appeared as a non—
dominant, occurred irrespective of dominance category, or was not detected at
all (non—occurrence). Table 4 provides criteria for each occurrence category.
Each of the four resulting files was further sorted, based upon sampling date,
to partition the dominance and occurrence data by season (ROUND 1, 2, and 3).
At this point, therefore, each taxori is represented by 16 sub—files, each
consisting of a list of lakes, dates, cell counts, and corresponding percent
compositions (C, D, E, F, . .R, Figure 2).
OUTPUT FORMAT
A sample of the computer generated output format is provided in Figures
3A and 3B. Figure 3A contains the statistics for partial depth mean con-
ditions under which 4riabaena was identified as present (0CC) or absent
(NONOCC). Figure 3B provides statistics for partial depth mean conditions
associated with Anabaena as a numerical dominant (DON) and as a non—
dominant form (NONDOM).
14
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TABLE 4. GENUS OCCURRENCE CATEGORIES AND DEFINITIONS
0CC (occurrence) — Genus was detected in each lake—date sample represented
in this category.
NONOCC (non—occurrence) — Genus was not detected In any of the lake—date
- samples represented in this category.
DOM (dominant occurrence) — Genus constituted 10 percent or more of the
numerical total cell concentration of each
lake—date sample in this category.
NONDOM (non—dominant occurrence) — Genus constituted less than 10 percent of
the numerical total cell concentration of
each lake—date sample In this category.
Note that the information on each sample output page is grouped by
round (ROUND 1, 2, 3, ROUND ALL). The numbered rounds correspond to the
seasonal categories Spring, Summer, and Fall respectively in the flow
diagram. ROUND ALL constitutes sw ary data for the sampling year. The
resulting “blocks” of data are organized by round and category of occurrence
for each parameter. Each block of data Includes minimum (NIN), maximum (MAX),
and mean (MEAN) values where Anabaena occurred, as well as the standard de-
viation (STDV) of the mean.
In order to provide the user with a tool to determine the significance
of the range of occurrence values, MIN to MAX, two ratios are included.
The ratio O/WR relates the number of occurrences (0) of Artcthaena to the
possible number of lake—dates with parameter values within the range (WR)
defined by the occurrence of Anahaena. For example, in Figure 3A (ROUND 1,
CCC, and CHLA) the ratio is 67/238, which means there were 67 occurrences of
Anabaena among the 238 lakes in the spring round with CHLA levels between
1.2 and 247.1 pg/i.
The ratio N
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GCNUSIANIOAFN*
PlOT 1*1. DEPTH VALUES
0. 001
1.032
0.075
0.1890
0.024
9.74,
0.542
1.5481
0.030
0. 4
0.110
0.1002
0.242
3. 199
0.085
0.7402
10
213
51
52.8
0.0
01.0
9.7
13.04
CHIA
TUPO
SECCI4I PH 00 TEMP TOTALP ORTIIOP NOV40) NH) JEL ALA N/P CONC
PEOC
MIM
1.2
S
7 6.6 4.2 1.2 0.000
0 MAX
247.1
252 10.1 13.5 20.9 1.104
u I C MfA14
20.3
7.9 0.1 22.3 0.141
‘I C STOY
36.49
1.02 4.87 0.2333
0 M(/)
ii 2
O W0
67 23a
• N MIN
0 0 MAX
0.3
355.6
Minimum CHLA value at which Anabaena was detected in
I N MEAN
N 0 5T0V
21.2
63.17
ROUND 1 (spring) samples.
o c N(/)
0/ 0
C 0 WR
1001247
Maximum CHLA value at which Anabaena was detected in
9 HIM
o 0 -
1.4
595.0
ROUND 1 (spring) samples.
U 2 C MEAN
37.9
‘4 C STOV
64.74
0 M cI)
C/WA
DI 0
141/267
Numerical average of lake—date CHIA values associated with
samples in which Anabaena was detected.
O N MEN
1.5
0 .1 MAX
456.6
H MEAN
N ‘3 STOV
29.3
59.21
Standard deviation of the above mean.
0 C N(s)
1/ 1
C CfWQ
O MIN
0 0 MAX
103 Z45
1.2
171.5
S During the spring there were 7 lakes with CHLA values less
than 1.2 pg/i (minimum CHLA value, above) while 2 lakes had
U 3 C MEAN
‘4 C STCV
22.6
27.79
CI{LA values greater than 247.1 pg/i (maximum CHLA value,
0 ‘ 4 (1)
‘ ,wq
4! 3
162/240
6
125/
above)
* N NI H
0 ‘3 MAX
0.0
241.4
I C.
APZaba na was detected in 67 of the 238 lakes sampled during
U3’4 MEAN
N 0 STOV
23.9
41.58
7
26.1
the spring round which had CNLA levels falling between
0 C ‘ 4 < ! >
C 0/ VA
0/ 0
105/247
3d’ 0
96/221
1.2 pg/i and 247.1 pg/i.
• MIP4
1.2
5
0 £ A NIX
595.0
100
50.3
U I. C MeA4
28.5
75
3.7
N I. C ETOV
48.39
20.0
35.6 0.80 1.72 4.43 0.2660 0.1175 0.8160 0.1751 1.0013 61.3 11.16 2632.9
7.61
0 P 4 (I)
11/ 0
3/ 3
5/ 0 8 1 2 2/ 2 1/ 0 14/ 1 0 0 0/ 0 3 0 0/ 0 0/ 3 0/ 4
(‘IWO
356/730
3281639
351/731 354/731 351/720 355/739 355/721 355/741 355/742 355 739 355/142 35517)9 355/7)8
O ‘4 NIH
0.3
1
j 4.1 0.7 4.8 0.004 0.001 0.020 0.020 0.199 10 0.0 0
0.0
0 A 0 MAX
456.6
121
216 10.6 19.2 31.4 4.549 1.255 0.089 0.979 7.149 334 210.0 0
0.0
U L N MEAN
24.1
70
46 7.7 8.1 19.7 0.147 0.062 0.769 0.114 0.956 76 18.0 0
0.0
P4 % ¶3 STOY
47.45
24.4
35.0 0.85 2.29 5.79 0.3553 0.1735 1.2189 0.1189 0.9429 71.2 25.10 0.0
0.00
0 C NC!)
0/ 1
OF 0
0/ 2 0/ 0 0/ 0 0/ 2 0/ 0 0/ 1 2/ 1 0/ 1 OF 1 0/ 0 0/ 0
C 0 /WA
305/740
311/645
385/734 301/741 381/732 305/735 307/742 306/140 357 739 367/741 387/141 307/742 387/742
0 0.0
1363 46.7
160 3.)
290.6 0.32
C’
Sample output formats Partial depth statistics for the occurrence and
non—occurrence of the genus Arzabaena.
Figure 3A.
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CENUS A 4A8AEN4 PA#TIAL 007TH VALUES
CHLA TUN e SECCHI PH 00 TEMP TOTALP ONTHOP N02N03 NP43 NJEL * 1.8 N/P CONC PENC
* NIH 6.1 68 12 7.0 8.8 16.3 0.017 0.032 0.071 0.078 0.360 10 5.0 267 13.9
0 0 MAX 14.0 89 73 8.5 9.1 27.8 0.112 8.064 3.429 0.369 0.832 199 44.0 983 46.7
U I 0 MEAN 11.3 02 48 7.8 7.4 24.9 (‘.065 (‘.016 0.832 ( ‘.181 0.570 51 24.6 512 27.9
N N STOV 4.04 9.0 24.8 0.62 1.39 4.06 0.0442 0.0173 1.4550 0.1211 0.1793 02.8 16.53 276.3 16.44
0 Pd(/) 112/ 75 69/ 29 19F 39 23/ 34 13/125 127! 6 32/ 60 101 45 31/ 15 124/ 0 50/ 73 0/ 15 66/ 28
0IwN 5/ 60 5/ 89 5/191 Sf192 5/1 31 5/115 5/157 8/194 5/233 5/117 SF126 5/234 51155
ft N NIH 1.2 26 7 6.6 4.2 7.2 0.008 0.001 0.024 8.030 0.242 10 0.0 0 0.0
o 0 MAX 247.1 100 252 10.1 15.5 28.9 1.184 1.032 9.745 0.534 3.199 218 81.0 1363 9.6
U I N NE ON 21.0 76 49 7.9 0.1 22.1 0.147 0.000 0.519 0.113 0.910 51 9.4 132 1.3
N 0 STOV 31.08 14.6 44.1 0.01 1.85 4.85 0.2414 0.1986 1.5642 0.0977 0.7628 50.7 12.80 283.7 1.91
o o N 1/ 2 0/ 0 8/ 0 4/ I 7/ 1 1! 0 8 / 4 0/ 3 0/ 0 2/ 1 1 3 0/ 1 0/ 10
N 0/NA 62/230 88/179 62/241 62/244 61/231 82/247 621231 62/246 62/249 62/246 O2 Z39 62/242 621239
N NIH 1.9 J9 15 6.8 3.1 21.5 0.010 0.033 0.038 0.041 0.399 10 0.0 50 10.5
0 0 ‘AX 347.4 92 102 10.3 16.0 30.2 1.474 1.619 1.181 1.219 3.699 275 21.0 4833 81.3
U 2 0 MEAN 23.2 81 52 7.8 7.5 26.8 0.149 (.057 0.181 (‘.099 0.896 85 6.4 996 24.2
N N STOV 37.89 14.8 20.0 0.86 3.21 2.56 0.3821 0.1598 0.2960 0.0409 0.8467 49.9 5.33 3084.6 11.67
O M CI ) 2/ I 91/ 29 21/22 32/ 1 1/ 1 SF 4 14/ 2 9/ 3 12/31 9/22 25/ I 0/ 3 1/33
0 1MM 14/237 14/117 14/199 141214 14/244 14/237 14/231 34/233 14/204 14/216 14/214 14/242 141214
ft N NIPI 1.4 0.8 0 0.0
0 0 MAX 593. 130.0 22330 9.7
U 2 N MEAN 39. 11.5 460 1.8
N 0 SIOV 66.8 21.20 2029.6 2.23
0 0 MCI) 0/ 0/ 1
N 0/MN 133/24 93/246
NIH 4 Maximum concentration of Anabaena, when it occurred
0 0 MAX 126. as less than 10 percent of the total cell count in
fall samples, was 14,743 filaments (appropriate 0 10713.Z
0 algal unit for this taxon) per ml.
* N NIH 1. ‘ ._ 0 0.0
0 ( I MAX 171. The numerical average percent composition of •14734 5.0
Anabaena, in samples taken throughout the
0 2 o 12e,24 sampling year, in which it represented 10 percent
ft NIH or more of the total cell count, was 23.8 percent.
0 A 0 MAX 147.
U I. 0 MEAN . •23.s
N I. N SIOV 31.6 11.54
O MC/) 30! 1
0/UN 33/69 .
ft N NIH 1.2 5 6 5.6 1.9 7.2 0.007 0.00 1 0.011 0.030 0.199 10 0.0 0 0.0
0 A 0 MAX 595.0 *00 252 10.2 15.5 32.2 1.609 1.189 9.745 0.569 6.349 283 130.0 22330 9.8
U L N MEAN 29.4 74 48 7.8 1.4 23.4 0.121 0.055 0.362 0.310 1.151 69 10.1 378 1.7
N I. 0 STOV 49.73 21.4 36.2 0.79 1.84 4.44 0.2)04 0.1474 0.8347 0.0043 0.9503 61.3 17.83 1617.1 2.24
0 0 N(s) 111 0 31 3 5/ 0 IF 4 2/ 3 1/ 0 14/ 4 0/ 4 0/ 0 3/ 6 3/ 2 0/ 3 0/ 4
N 0/UN 323/730 295/639 318/731 321/729 318/727 322/739 322/724 322/737 322/742 322/733 322/140 322/739 322/130
Figure 3B. Sample output format: Partial depth statistics for’the dominance and
non—dominance of the genus Anabaena.
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LIMITATIONS
The National Eutrophication Survey successfully collected and analyzed
water samples from more than 800 lakes in all of the 48 contiguous States
during a 4—year period. The effort resulted in about 2 1/2 million physical
and chemical data points and, when completed, about 75,000 phytoplankton
occurrence records. Seasonal data (spring, suimuer, and fall) were collected
for most of the lakes. Concessions with respect to “ideal” sampling coverage
had to be made commensurate with the broad survey nature of the program.
Constraints with respect to time, funds, and manpower resulted in the
following major data limitations:
1. The eastern study lakes, sampled in 1972 and 1973, were biased
towards eutrophy since lake selection emphasis, prior to the
passage of PL 92—500 by Congress, late in 1972, was placed on
lakes faced with actual or potential accelerated eutrophication
resulting from point—source nutrient discharges. In western
states, sampled in 1974 and 1975, selection criteria were modified
to include lakes representative of the full range of water quality
from oligotrophic to eutrophic.
2. Frequency of sampling was generally limited to three visits per
year for each study lake. Coincidence of lake sampling with such
episodic phenomena as algal blooms or fishkllls involved some
element of chance.
3. The instantaneous sampling provided few clues to the growth phase
of the phytoplankton community and did not address the environ-
mental conditions leadin g to the status quo.
4. The problems associated with the identification of phytoplankton
species from preserved material are well known. When morphological
features necessary for the proper identification of an organism are
unavailable, ‘information’ is lost from the data base. Since
occurrence by genus (species) was the primary criterion for
selection of data to be used in determining the environmental range
for that form, data from questionable identifications were not
included in the data analyses.
18
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REFERENCES
Bliss, J. D., M. J. Friedland, and J. Hodson. 1976. Format for acquiring
rapid data analysis capabilities of STORET data; Manipulation of
National Eutrophication Survey water quality data. EPA—600/4—76—057.
EPA Environmental Monitoring Series, U.S. Environmental Protection
Agency, Environmental Monitoring and Support Laboratory, Las Vegas,
Nevada. 21 pp.
Lambou, V. W., L. R. Williams, S. C. Hem, R. W. Thomas, and J. D. Bliss.
1976. Prediction of phytoplankton productivity in lakes. p. 676—700.
In: Proceedings of the Conference on Environmental Modeling and
Simulation. EPA 600/9—76—016. U.S. Environmental Protection Agency,
Environmental Monitoring and Support Laboratory, Las Vegas, Nevada.
847 pp.
Mullins, J. W., R. N. Snelling, D. D. Moden, and R. C. Seals. 1975.
National Eutrophication Survey: Data acquisition and laboratory
analysis system for lake samples. EPA—600/4—75—015. U.S. Environmental
Protection Agency, Environmental Monitoring and Support Laboratory, Las
Vegas, Nevada. 21 pp.
Prescott, C. W. 1970. How to Know the Freshwater Algae. Wm. C. Brown
Company Publishers, Dubuque, Iowa. 348 pp.
Taylor, W. D., F. A. Hiatt, S. C. Hem, J. W. Hilgert, V. W. Lambou, F. A.
Morris, R. W. Thomas, H. K. Morris, and L. R. Williams. 1977.
Distribution of phytoplankton in Alabama lakes. EPA—600/3—77—082.
U.S. Environmental Protection Agency, Environmental Monitoring and
Support Laboratory, Las Vegas, Nevada. 52 pp.
U.S. Environmental Protection Agency. 1975. National Eutrophication Survey
Methods 1973—1976. Working Paper No. 175. Environmental Monitoring and
Support Laboratory, Las Vegas, Nevada, and Corvallis Environmental
Research Laboratory, Corvallis, Oregon. 91 pp.
U.S. Environmental Protection Agency. 1976. Report on Greenwood Lake,
Passaic County, New Jersey; Orange County, New York. Working Paper
No. 367. Environmental Monitoring and Support Laboratory, Las Vegas,
Nevada, and Corvallis Environmental Research Laboratory, Corvallis,
Oregon. 34 pp.
Yentsch, C. S., and D. W. Menzel. 1963. A method for the determination of
phytoplankton, chlorophyll and phaeophytin by fluorescence. Deep Sea
Research. 10:221—231.
19
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BIBLIOGRAPHY
Section A: List of reports containing all phytoplankton data
collected in 1973 which were used in the series
“Phytoplankton Water Quality Relationships in U.S. Lakes.”
Corresponding U.S. EPA NES Working Paper (WP) numbers in parentheses.
Hem, S. C., J. W. Hilgert, V. W. Lambou, F. A. Morris, M. K. Morris, L. R.
Williams, V. D. Taylor, and F. A. Hiatt. 1977. Distribution of
Phytoplankton in South Carolina Lakes. EPA—600/3—77—102, Ecological
Research Series. v + 64 pp. (WP No. 690)
Hem, S. C., 3. W. Hulgert, V. W. Lambou, F. A. Morris, M. K. Morris,
L. R. Williams, W. D. Taylor, and F. A. Hiatt. 1978. Distribution
of Phytop].ankton in Delaware Lakes. EPA—60013—78—027, Ecological
Research Series. v + 33 pp. (WP No. 678)
Hiatt, F. A., S. C. Hem, 3. W. Hilgert, V. V. Lambou, P. A. Morris,
M. K. Morris, L. R. Williams, and W. D. Taylor. 1977. Distribution
of Algae in Pennsylvania. U.S. EPA National Eutrophication Survey
Working Paper No. 689. iv + 74 pp.
Hiatt, F. A., S. C. Ilern, J. W. Hilgert, V. W. Lambou, F. A. Morris,
M. K. Morris, L. R. Williams, and W. D. Taylor. 1978. Distribution
of Phytoplankton in Tennessee Lakes. EPA—600/78—016, Ecological
Research Series. v + 67 pp. (WP No. 691)
Hilgert, 3. W., V. W. Lambou, F. A. Morris, R. W. Thomas, M. K. Morris,
L. R. Williams, W. D. Taylor, F. A. Hiatt, and S. C. Hem. 1977.
Distribution of Phytoplankton in Virginia Lakes. EPA—600/3—77—l0O,
Ecological Research Series. v + 40 pp. (WP No. 692)
Hilgert, J. W., V. W. Lambou, F. A. Morris, M. K. Morris, L. R. Williams,
W. D. Taylor, F. A. Hiatt, and S. C. Hem. 1978. Distribution of
Phytoplankton in Ohio Lakes. EPA—600/3—78—Ol5, Ecological Research
Series. v + 94 pp. (VP No. 688)
Lambou, V. W., F. A. Morris, R. W. Thomas, M. K. Morris, L. R. Williams,
W. D. Taylor, F. A. Hiatt, S. C. Hem and J. W. Hilgert. 1977.
Distribution of Phytoplankton in Maryland Lakes. EPA—600/3—77-124,
Ecological Research Series. v + 24 pp. (WP No. 684)
20
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Lambou, V. W., F. A. Morris, M. K. Norris, L. R. Williams, W. D. Taylor,
F. A. Hiatt, S. C. Bern, and J. W. Hilgert. 1977. Distribution of
Phytoplankton in West Virginia Lakes. EPA—600/3—77—103, Ecological
Research Series. v + 21 PP. (WI’ No. 693)
Morris, F. A., R. W. Thomas, M. K. Morris, L. R. Williams, W. D. Taylor,
F. A. Hiatt, S. C. Bern, J. W. Hilgert, and V. V. Lambou. 1977.
Distribution of Phytoplankton In Indiana Lakes. U.S. EPA National
Eutrophication Survey Working Paper No. 682. iii + 73 pp.
Morris, F. A., M. K. Morris, L. R. Williams, W. D. Taylor, F. A. Hiatt,
S. C. Hem, J. W. Hilgert, and V. W. Latnbou. 1978. Distribution of
Phytoplankton in Georgia Lakes. EPA—600/3—78—O11, Ecological Research
Series. v + 63 pp. (WP No. 680)
Morris, M. K., L. R. Williams, W. D. Taylor, F. A. Hiatt, S. C. Bern,
J. W. Hilgert, V. V. Lambou, F. A. Morris, and R. W. Thomas. 1977.
Distribution of Phytoplankton in Illinois Lakes. U.S. EPA National
Eutrophication Survey Working Paper No. 681. iii + 131 pp.
Morris, M. K., L. R. Williams, W. D. Taylor, F. A. Hiatt, S. C. Hem,
J. W. ililgert, V. W. Lambou, F. A. Morris, and R. W. Thomas. 1977.
Distribution of Phytoplankton in North Carolina Lakes. U.S. EPA
National Eutrophication Survey Working Paper No. 687. iii + 75 pp.
Taylor, W. D., F. A. Hiatt, S. C. Bern, J. V. Hilgert, V. W. Lambou,
F. A. Morris, R. W. Thomas, M. K. Morris, arid L. R. Williams. 1977.
Distribution of Phytoplankton in Alabama Lakes. EPA—600/3—77—082,
Ecological Research Series. v + 51 pp. (WP No. 677)
Taylor, V. D., F. A. Hiatt, S. C. Bern, J. W. Hilgert, V. W. Lambou,
F. A. Morris, R. V. Thomas 1 M. K. Morris, and L. R. Williams. 1977.
Distribution of Phytoplankton in Florida Lakes. U.S. EPA National
Eutrophication Survey Working Paper No. 679. iii ÷ 113 pp.
Taylor, W. D., F. A. Hiatt, S. C. Bern, J. W. Ililgert, V. W. Lambou,
F. A. Morris, N. K. Morris, and L. R. Williams. 1978. Distribution of
Phytoplankton In Kentucky Lakes. EPA—600/3—78—013, Ecological Research
Series. v + 28 pp. (WP No. 683)
Williams, L. R., W. D. Taylor, F. A. Hiatt, S. C. Bern, J. W. Hilgert,
V. V. Lambou, F. A. Morris, R. V. Thomas, and M. K. Norris. 1977.
Distribution of Phytoplankton in Mississippi Lakes. EPA—600/3—77—101,
Ecological Research Series. v + 29 pp. (VP No. 685)
Williams, L. R., F. A. Morris, J. W. Hilgert, V. V. Lambou, F. A. Hiatt,
W. D. Taylor, N. K. Morris, and S. C. Bern. 1978. Distribution of
Phytoplankton in New Jersey Lakes. EPA—600/3—78--014, Ecological
Research Series. v + 59 pp. (VP No. 686)
21
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Section 3: LIst of completed parts in the series
“Phytoplankton Water Quality Relationships in U.S. Lakes.”
Hem, S. C., V. W. Lambou, F. A. Morris, N. K. Morris, W. D. Taylor, and
L. R. Williams. 1978. Phytoplankton Water Quality Relationships
in U.S. Lakes, Part III: Genera Dactylococcopsis through Gyrosigina
collected from eastern and southeastern lakes. National Eutrophication
Survey Working Paper No. 707. U.S. Environmental Protection Agency.
Environmental Monitoring and Support Laboratory, Las Vegas, Nevada.
vii + 116 pp.
Lambou, V. W., F. A. Morris, N. K. Morris, W. D. Taylor, L. R. Williams,
and S. C. Hem. 1978. Phytoplankton Water Quality Relationships in
U.S. Lakes, Part IV : Genera Bantzschia through Pteromonas collected
from eastern and southeastern lakes. National Eutrophication Survey
Working Paper No.708. U.S. Environmental Monitoring and Support
Laboratory, Las Vegas, Nevada. vii + 104 pp.
Morris, N. K., W. D. Taylor, L. R. Williams, S. C. Hem, V. W. Lambou,
F. A. Morris. 1978. Phytoplankton Water Quality Relationships in
U.S. Lakes, Part V: Genera Quadrigula thriugh Zygnema collected from
eastern and southeastern lakes. Working Paper No. 709. U.S. Environ-
mental Protection Agency. Environmental Monitoring and Support
Laboratory, Las Vegas, Nevada. vii + 95 pp.
Taylor, W. D., L. R. Williams, S. C. Hem, V. W. Lambou, F. A. Morris,
and M. K. Morris. 1978. Phytoplankton Water Quality Relationships in
U.S. Lakes, Part I: Methods, rationale, and data limitations.
National Eutrophication Survey Working Paper No. 705. U.S. Environmental
Protection Agency, Environmental Monitoring and Support Laboratory,
Las Vegas, Nevada. vii + 67 pp.
Williams, L. R., S. C. Hem, V. W. Lambou, F. A. Morris, N. K. Morris,
and W. D. Taylor. 1978. Phytoplankton Water Quality Relationships in
U.S. Lakes, Part II: Genera Acanthosphaera through Cystodiniwn.
National Eutrophication Survey Working Paper No. 706. U.S. Environ-
mental Protection Agency, Environmental Monitoring and Support
Laboratory, Las Vegas, Nevada. vii + 116 pp.
22
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APPENDIX A
LAKES AND RESERVOIRS SAMPLED IN 1973*
BY THE NATIONAL EUTROPHICATION SURVEY
* Adapted from U.S. EPA (1975)
23
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ALABAMA,
STORET II LAKE NAME COUNTY
0101 Bankhead Walker
0103 Gantt Reservoir Covington
0104 Guntersville Reservoir Marshall, Jackson
0105 Holt Lock and Darn Tuscaloosa
0106 Lay Lake Chilton, Coosa
0107 Martin Lake Elmore, Tallapoosa
0108 Mitchell Lake Coosa, Chi].ton
0109 Pickwick Lake Colbert, Lauderdale
(Tishomingo in MS & Hardin in TN)
0112 Weiss Lake Cherokee
0114 Wilson Lake Lauderdale, Colbert, Lawrence
0115 Lake Purdy Jefferson, Shelby
DELAWARE
1002 Killen Pond Kent
1005 Moores Lake (Pond) Kent
1007 Noxontown Pond New Castle
1008 Silver Lake New Castle
1009 Williams Pond Sussex
1010 Trussum Pond (Moores Pond) Sussex
FLORIDA
1201 Alligator Lake ‘Columbia
1202 Lake Apopka Orange, Lake
1203 Banana Lake Polk
1206 Lake Crescent Putnam, Flagler, Volusia
1207 Doctors Lake Clay
1208 Lake Dora Lake
1209 Lake Effie Polk
1210 Lake George Volusia
1211 Lake Gibson Polk
1212 Glenada Lake Highlands
1214 Lake Griffin Lake
1215 Lake Haines Polk
1217 Lake Hancock Polk
1219 Lake Horseshoe Seminole
1220 Lake Howell Seminole, Orange
1221 Lake Istokpoga Highlands
1223 Lake Jessup Seminole
1224 Lake Kissimmee Osceola
1227 Lake Lulu Polk
1228 ‘Lake Marion Polk
1229 Lake Minnehaha Orange
1230 Lake Minneola Lake
1231 Lake Monroe Seminole, Volu8ia
24
-------�
FLORIDA (Continued)
STORET II LAKE NMIE
COUNTY
1232 Lake Okeechobee
Lake Poinsett
Lake Reedy
Lake South
Lake Taiquin
Lake Thonotossassa
Lake Tohopekaliga
Trout Lake
Lake Weohyakapka
Lake Yale
Lake Munson
Lake Seminole
Lake Lawne
Lake Tarpon
Lake Eloise
Lake Jessie
East Lake Tohopekaliga
Allatoona
Blackshear Lake
Chatuge Lake
Clark Hill Reservoir
1309 Jackson Lake
1310 Lake Sidney Lanier
1311 Nottley Lake
1312 Lake Seminole (Jim Woodruff
Reservoir)
1313 Lake Sinclair
1314 Lake Eufaula
(Walter F. George Reservoir)
1316 Blue Ridge Lake
1317 Bartlett’s Ferry Reservoir
(Harding Lake)
1318 Lake Burton
1319 High Falls Lake
Okeechobee, Glades, Palm Beach,
Martin, Hendry
Brevard, Osceola, Orange
Polk
Brevard
Gadsden, Leon
Hilisborough
Osceola
Lake
Polk
Lake
Leon
Pine].laa
Orange
Pinellas
Polk
Polk
Osceola
Cherokee, Bartow, Cobb
Crisp, Sumter, Lee
Towns (Clay in TN)
Columbia, Lincoln, Elbert
(Edgefield, McCormick in SC)
Butts, Jasper, Newton
Hall, Forsyth, Dawson
Union
Decatur, Sethinole
(Jackson, Gadsen in FL)
Baldwin, Hancock
Quitinan, Clay, Stewart (Henry,
Barbour, Russell in AL)
Fannin
Harris (Lee in AL)
Rabun
Monroe
1234
1236
1238
1239
1240
1241
1242
1243
1246
1247
1248
1249
1250
1252
1258
1261
1301
1302
1303
1304
GEORGIA
ILLINOIS
1703
Lake Bloomington
McLean
1706
Lake Carlyle
Clinton, Fayette,
Bond
1708
Lake Charleston
Coles
1711
Coffeen Lake
Montgomery
1712
Crab Orchard Lake
Jackson, Williamson
25
-------�
ILLINOIS (Continued)
STORET II LAKE NAME COUNTY
1714 Lake Decatur Macon
1725 Long Lake Lake
1726 Lake Lou Yaeger Montgomery
1727 Lake Marie Lake
1733 Pistakee Lake Lake, McHenry
1735 Rend Lake Franklin, Jefferson
1739 Lake Shelbyville Shelby, Moultrie
1740 Highland (Silver) Lake Madison
1742 Lake Springfield Sangamon
1748 Vermilion Lake Vermilion
1750 Wonder Lake Mdllenry
1751 Lake Story Knox
1752 Depue Lake Bureau
1753 Lake Sangchris Christian
1754 Lake Holiday LaSalle
1755 Fox Lake Lake
1756 Grass Lake Lake
1757 East Loon Lake Lake
1758 Slocum Lake Lake
1759 Cedar Lake Lake
1761 Lake We—Ma—Tuk Fulton
1762 Raccoon Lake Marion
1763 Baldwin Lake Randolph
1764 Lake Vandalia Fayette
1765 Old Ben Mine Reservoir Franklin
1766 Horseshoe Lake Madison
INDIANA
1805 Cataract Lake Putnam, Owen
1811 Geist Reservoir Marion, Hamilton
1817 James Lake Kosciusko
1827 Mississinewa Reservoir Miami, Wabash, Grant
1828 Monroe Reservoir Jackson, Monroe, Brown
1829 Morse Reservoir Hamilton
1836 Wawasee Lake Kosciusko
1837 Webster Lake Kosciusko
1839 Whitewater Lake Union
1840 Winona Lake Kosciusko
1841 Westler Lake Lagrange
1842 Wittner Lake Lagrange
1843 Lake Maxinkuckee Marshall
1844 Tippecanoe Lake Kosciusko
1845 Dallas Lake Lagrange
1846 Olin Lake Lagrange
1847 Oliver Lake Lagrange
1848 Sylvan Lake Noble
1849 Hovey Lake Posey
26
-------�
INDIANA (Continued)
STORET II LAKE NAME COUNTY
1850 Versailles Lake Ripley
1851 Bass Lake Starke
1852 Crooked Lake Steuben
1853 Lake James Steuben
1854 Long Lake Steuben
1855 Pigeon Lake Steuben
1856 Marsh Lake Steuben
1857 Hamilton Lake Steuben
KENTUCKY
2101 Lake Cumberland Pulaski, McCreary, Russell,
Wayne, Clinton
2102 Dale Hollow Reservoir Cumberland, Clinton (Clay, Pickett,
Overton in TN)
2103 Herrington Lake Boyle, Mercer, Garrard
2104 Kentucky Lake Marshall, Lyon, Trigg, Livingston,
Calloway (Henry, Stewart, Benton,
Houston, Humphreys, Perry, Decatur
in TN)
2105 Barren River Reservoir Allen, Barren
MARYLAND
2402 Deep Creek Lake Garrett
2403 Liberty Reservoir Carroll, Baltimore
2408 Loch Raven Reservoir Baltimore
2409 Johnson Pond Wicomico
MISSISSIPPI
2801 Arkabutla Reservoir Desoto, Tate
2802 Enid Lake Yalo Busha, Panola
2804 Ross Barnett Reservoir Hinds, Madison, Rankin
2805 Sardis Lake Panola, Lafayette
2806 Grenada Lake Grenada, Yalo Busha
NEW JERSEY
3402 Budd Lake Morris
3403 Greenwood Lake Passaic (Orange in NY)
3406 Oradell Reservoir Bergen
3409 Pinecliff Lake Passaic
3410 Pompton Lake Passaic
3412 Duhernal Lake Middlesex
3413 Farririgton Lake Middlesex
3415 Lake Hopatcong Morris, Sussex
3417 Lake Musconetcong Morris, Sussex
27
-------�
NEW JERSEY (Continued)
STORET 1/ LAKE NAME COUNTY
3419 Paulinskill Lake Sussex
3420 Spruce Run Reservoir Hunterdon
3422 UnIon Lake Cumberland
3423 Wanaque Reservoir Passaic
NORTH CAROLINA
3701 Badin Lake Montgomery, Stanly
3702 Blewett Falls Lake Richmond, Anson
3704 Fontana Lake Swain, Graham
3705 Lake Hickory (Lake Oxford) Alexander, Caldwell, Catawba
3706 High Rock Lake Davidson, Rowan
3707 Hiwassee Lake Cherokee
3708 Lake James Burke, McDowell
3709 Lake Junaluska Haywood
3710 Lookout Shoals Lake Catawba, Alexander, Iredell
3711 Mount Island Lake Gaston, Mecklenburg
3713 Norman Lake Catawba, Iredell, Lincoln,
Mecklenburg
3715 Rhodhiss Lake Caidwell, Burke
3716 Lake Santeelah Graham
3717 Tillery Lake Stanly, Montgomery
3718 Waterville Lake Haywood
3719 Lake Waccainaw Columbus
OHIO
3901 Beach City Reservoir Stark, Tuscarawas
3902 Buckeye Reservoir Fairfield, Licking, Perry
3905 Charles Mill Reservoir Richiand, Ashland
3906 Deer Creek Reservoir Fayette, Pickaway
3907 Delaware Reservoir Delaware
3908 Dillon Reservoir Muskingum
3912 Grant Lake Brown
3914 Hoover Reservoir Franklin, Delaware
3915 Indian Lake Logan
3917 Loramie Lake Shelby, Auglaize
3921 Mosquito Creek Reservoir Trumbull
3924 Pleasant Hill Lake Richiand, Ashland
3927 Lake Saint Marys Mercer, Auglaize
(Grand Lake)
3928 Atwood Reservoir Carroll, Tuscarawas
3929 Berlin Reservoir Stark, Portage, Mahoning
3930 Holiday Lake Huron
3931 O’Shaugnessy Reservoir Delaware
3932 Rocky Fork Lake Highland
3933 Shawnee Lake Greene
3934 Tappan Lake Harrison
28
-------�
PENNSYLVANIA
STORET II LAKE NAME COUNTY
4201 Blanchard Reservoir Centre
4204 Conneaut Lake Crawford
4207 Greenlane Dam Montgomery
4213 Pymatuning Reservoir Crawford, Mercer (Ashtabula in OH)
4216 Shenango River Reservoir Mercer (Trumbull in OH)
4219 Beaver Run Reservoir Westmore].and
4220 Beltzville Dam Carbon
4221 Lake Canadohta Crawford
4222 Harveys Lake Luzerne
4223 Indian Lake Somerset
4224 Lake Naomi Monroe
4225 Lake Ontelaunee Berks
4226 Pinchot Lake York
(Conewago Lake)
4227 Pocono Lake Monroe
4228 Stiliwater Lake Monroe
4229 Lake Wallenpaupack Pike
3641 Allegheny Reservoir Warren (Cattaraugus in NY)
SOUTH CAROLINA
4503 Fishing Creek Reservoir Lancaster, Chester
4504 Lake Greenwood Laurens, Creewood, Newberry
4505 Lake Hartwell Anderson, Oconee, Pickens
(Franklin, Hart in GA)
4506 Lake Marion Berkeley, Clarendon, Sumter,
Calhoun, Orangeburg
4507 Lake Murray Lexington, Saluda, Richland,
Newberry
4508 Lake Robinson Darlington, Chesterfield
4510 Lake Wateree Kershaw, Fairfield, Lancaster
4511 Lake Wylie (Lake Catawba) York (Gaston, Mecklenburg in NC)
4512 Lake Moultrie Berkeley
4513 Lake Keowee Oconee, Pickens
4514 Lake Secession Abbeville, Anderson
4515 Saluda Lake Greenville, Pickens
4516 Lake William C. Bowen Spartanburg
TENNESSEE
4701 Barkley Lake Stewart, Montgomery (Trigg, Lyon,
in KY)
4704 Boone Reservoir Washington, Sullivan, Carter
4706 Cheathain Reservoir Cheatham, Davidson
4707 Cherokee Lake Jefferson, Hamblen, Grainger,
Hawkins
4708 Chickainauga Lake Hamilton, Rhea, Meigs, McNinn
4711 Douglas Lake Sevier, Jefferson, Cocke
29
-------�
TENNESSEE (Continued)
STORET # LAKE NAME COUNTY
4712 Fort Loudon Lake Loudon, Knox, Blount
4713 Great Falls Lake white, Van Buren
4717 Nickajack Reservoir Marion, Hamilton
4720 Old Hickory Lake Sumner, Davidson, Wilsqn, Smith,
Trousdale
4722 Watts Bar Lake Rhea, Meigs, Cuinberland, Roane,
Loudon
4723 Percy Priest Reservoir Davidson, Rutherford
4724 Tims Ford Reservoir Moore, Franklin
4725 South Hoiston Lake Sullivan (Washington in VA)
4727 Reelfoot Lake Obion
4728 Woods Reservoir Franklin, Coffee
(Elk River Reservoir)
VIRGINIA
5103 Claytor Lake Pulaski
5105 John W. Flannagan Darn Dickenson
5106 John H. Kerr Reservoir Mecklenburg, Halifax
(Buggs Island Lake) (Granville, Vance, Warren in NC)
5108 Occoquan Reservoir Fauquier
5110 Smith Mountain Lake Bedford, Franklin
5111 Lake Chesdin Dinwiddie
5112 Chickahominy Lake New Kent, Charles City
5113 Rivanna (South Fork) Albemarle
Reservoir
WEST VIRGINIA
5401 Bluestone Reservoir Surnniers
5402 Lake Lynn Reservoir Monongalia
(Cheat Lake)
5403 Sutnmersville Reservoir Nicholas
5404 Tygart Reservoir Taylor
30
-------�
APPENDIX B
PHYSICAL AND CHEMICAL DATA FOR LAKES SANPLED IN 1973
Appendix B was computer—generated and it was only possible to use upper
case letters in the printout.
Page
TABLE B—i. Total depth mean parameter values listed by lake—date...... 32
TABLE B—2. Partial depth mean parameter values listed by lake—date.... 45
31
-------�
TABLE B-i
TOTAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE
STORET 02T( ROUND
N/P TOTALP ORTI OP 0021.03 NH3
0.011 SICCI4I CULA TORI P.4
ALO 00 1(80
01
0101
0101
0103
0103
0103
0)04
0104
0104
c os
3 3
oios
0106
010’.
0106
0107
o10
010?
0101
0108
0108
o 108
o 109
0109
0109
01 )2
0112
0112
o 1 12
01)4
o i4
0)14
oilS
oilS
oIlS
3002
0002
1002
1005
0005
isoS
1007
1007
1007
1000
7106
73082?
731030
730609
730830
13)093
730609
7308)7
731028
730801
730829
7310)1
730607
730829
73103)
730319
730817
730825
711101
730606
730829
7)103)
730609
730815
73)022
730319
730608
730925
‘‘1030
730609
7300)6
731022
738319
710830
711102
7304)0
730720
730920
7304)0
730720
730928
730410
730720
710929
730410
I
2
3
2
3
I
2
3
I
2
3
I
2
3
1
1
2
3
1
2
3
1
2
3
1
1
2
3
1
2
3
I
2
3
1
2
3
1
2
3
1
2
3
1
17.19
‘7 .
76.00
7.41
II . ?)
9.15
9.94
9.86
6.58
20.31
106.37
49.28
5.26
4.23
4.55
10.51
11.88
14.55
7.80
4.69
3.83
3.37
9.05
9.92
0.50
2.99
3.56
2.02
0.08
9.17
11.08
7.4)
2.64
8.21
1.77
13.03
7.02
0.60
13.67
4•75
7.44
7.44
‘.66
1.31
08.54
0.06355
0.023)0
0.02247
0.0483?
0.02523
0.02458
0.05256
0.03654
0.04479
0.044))
0.00184
0.01766
0.08475
0.03667
0.08768
0.02070
8.02071
0.016)3
5.02265
0.08332
0.0486)
0.05)75
0.06)22
0.04346
0.05792
0.13200
0.09242
0.08429
0.11370
0.05608
0.02980
0.06254
0.05983
0.06550
0.0531)
0.12350
0.2)600
0.30000
0.20800
0.28600
0.27000
0.21750
0.09875
0.33050
0.24533
.012)78
•00 214
.007567
.005961
.008917
.009)61
.0)3552
.010906
.020979
.011186
.604396
.006)00
.036267
.0)5722
.044267
.003825
.005181
.008185
.006233
.031550
.018889
.0)90)7
.029682
•037104
.046500
.034667
.028033
.030)6?
.050320
.022683
•0I4 143
.038375
.030)59
.020556
.010722
.038000
.046000
.070000
.07)500
.05)000
.143000
.022730
.0)0500
.015500
.097313
0.47300
0. 0 1 ’ .
0 $6317
0.1933)
0•13944
0.17417
0.93040
fl 2S083
0.24438
(I•64459
0.7)38)
0.790 )2
0.28800
0.10619
0.33150
0.16693
0.12293
0.06635
0.03753
0.25267
0.10611
0.25717
0.45240
0•34396
0.43500
0.27333
0.20567
0.10042
0.30420
0.4)743
0.24929
0.4)042
0.09540
0.12333
0.04222
1.45000
1.50000
0.16000
2.75000
1.30000
0.96000
1.45000
0.40500
0.22000
4.20000
.3)0560
.2984Th
.421167
.164889
.156661
.049722
.100542
.101667
.048123
.204345
.119950
.061125
.155667
.053056
.043333
.048656
.099068
.128803
.1)6527
.138567
.079161
.020500
.101774
.084167
.057178
.120000
.104)67
.071250
.100800
.09584)
.08)000
.050417
.0 857I
.392770
.045000
.160000
.190000
.080000
.093000
.060000
.050000
.190000
.0S2 00
.2’5000
•373333
0.71702 29.7500
0.92175 56.7500
0.74500 53.5000
0.44667 20.0000
0.4777834.6667
0.35270 48.0000
0.38333 30.6250
0.55806 45.8333
0.33133 45.0000
0.42583 26.0000
0.36458 63.2500
0.31750 62.5000
0.43)6? 19.3333
0.47341 41.0000
0.32333 27.3333
0.23959 40.8571
0.291)1 73.2857
0.47371 90.57)4
0.28605 54.2857
C.43333 23.6667
0.51111 41.0000
0.30833 37.3333
0.29119 36.3333
0.42292 72.0000
0.22500 46.3333
0.4666? 6.0000
0.439)7 17.6667
0.64583 28.8333
0.47200 20.8000
0.29603 32.0000
0.27000 75.0000
0.22917 60.0000
0.37619 08.0000
1.33333 39.0000
0.58333 59.3333
0.90000 19.0000
1.20000 26.0000
•.40000 17.0000
0.73000 22.0000
1.80000 24.0000
1.70000 36.0000
0.90000 11.5000
0.97500 32.0000
2.05000 20.0000
0.96667 08.0000
4.425
4.975
2.650
2.400
2.900
1.133
5.523
13.017
7.975
2.725
3.025
0.800
6.567
10.733
3.867
),757
14.043
5.786
3.371
3.900
R 433
4.300
1.450
3.525
7.767
1.600
8.111
14.700
12.440
3.133
9.350
11.850
4.367
13.900
39.667
10.400
101.200
23’.Ooo
15.900
92.300
13’.’00
07.450
53.650
30.700
8.600
63.4464
90.5980
60.5000
16.7667
87.0556
83.9444
69.3458
77.9722
88.4875
77.357?
92.0042
91.3375
61.1333
87.3889
71.6000
72.1381
85.1604
91.0401
92.0340
60.1833
78.8500
83.7167
85.3869
89.2583
97.0218
27.6867
47.3667
76.3750
19.5200
81.2000
87.4286
93.0333
85.6190
90.6111
89.7222
63.0000
19.0000
60.0000
13.0000
18.3000
49.7500
55.6667
6.376?
6.6358
6.7217
6.8289
7.5033
7.5306
7.4660
7.5569
8.0079
6.8164
6.5587
6.8250
7.0333
7.2758
7.2300
7.4)90
7.6995
6.3782
6.7597
7.0750
7.2A 1
7.3200
7.5993
7.3812
7.6)67
7.4667
6.9792
7•3944
7.4560
7.6)05
7.3571
7.5042
8.2508
8.21))
8.0444
8.3500
8.4000
10.3000
8.5000
9.2000
7.9730
8.0750
7.5000
7.1000
19.763
23.068
P9.367
20.344
21.056
27.089
46.740
33.431
57.479
22.452
20.429
19.4)2
42.950
54.067
48.983
10.250
12.606
13.403
12.287
37.233
51.722
53.800
54.121
55.646
57.861
27.333
30.650
48.000
57.970
52.952
54.314
85.958
98.952
78.033
89.778
15.000
25.000
21.000
14.500
21.000
36.000
19.750
39.500
53.500
22.333
S 9917
1.6062
3 .5R7
3.0333
4.2333
0.2889
7.6300
5.8750
7.4542
5.6492
‘.1950
5.9000
5.5722
4.7500
5.4444
9.7264
5.7234
3.3657
6.1629
6.3500
5.3389
6.3222
6.9778
5.8854
7.1667
0.8000
5.01)1
4.9778
7.601?
7.5000
6.0486
6.3833
8.1833
3.3933
6.7333
9.7000
8.1000
30.1000
I’.7000
9.5000
9.9000
‘,.3000
9.2000
21.8503
26.7385
23.0033
24.7300
29.2194
)8.4389
23.6131
28.1329
21.0287
23.1556
28.0446
21.4625
25.3617
29.62)4
20.3417
13.6106
23.5473
25.2)69
20.6900
25.1903
29.3267
21.1960
24.3067
29.4063
22.7)89
14.4867
P3.94’2
21.4500
16.6430
24.5”.?
29.107)
22.1458
16.0823
27.511)
17.2111
13.0000
25.4000
20.2000
13.9000
26.3000
12.8000
27.1000
21.4730
12.1000
1004
730720
2
40.54
0.11100
.032000
4.30000
.200000
0.95000 35.0000
52.800
8.1500
29.000
9.9000
23.7000
1808
1009
710929
7304)0
3
1
22.22
66.54
0.21)00
0.03630
.101000
.000750
4.47000
2.37500
.220000
.047500
1.70000 50.0000
0.6,000 41.0000
18.700
10.430
83.5000
82.5000
7.7000
8.4000
10.000
02.730
6.5000
10.0500
19.4000
13.9130
1009
730720
2
3.39
0.09475
.010500
0.07300
.033000
1.10000 39.0000
58.000
8.7000
73.750
9.1500
2b.)7 0
1009
730928
3
‘ .70
0.14300
.011000
0.07300
.050000
0.80000 72.0000
21.830
84.2500
7.700.)
18.300
9.3000
P1.8500
1010
1104)0
1
32.94
0.03900
.012000
0.20000
.085000
0.60000 36.0000
3.800
82.0000
7.9500
10.000
9.2000
13.OcOfl
1010
710770
2
7.27
0.02200
.007000
0.10000
.060000
0.69000
‘ ..400
6.8000
14.000
9.7000
28.7000
1701
710307
1
0.56
0.7)100
.542300
0.07500
.172500
1.92500 33.0000
2?.500
90.3000
7.7500
34.730
5.7000
20.9500
1701
1701
1702
730031
713)05
7703)2
2
3
1
0.67
0.35
3.6708
0.42875
0.82450
0.10533
.236750
.600500
0.0)483
0.i’2c0
0.11250
0.20833
.112500
.070000
.068333
2.92500 23.0000
3.42300 72.0000
3.20000 15.187
153.730
84.950
31.107
78.7500
87.0000
63.0000
9.2750
8.7000
9.4833
50.500
61.750
120.000
9.9500
8.1500
10.1661
29.4500
71.0187
23.7200
120?
1202
1703
730906
73)107
130308
2
3
0
2.3327
1.3313
8.8150
0.14061
0.08783
0.06008
0.03083
0.02058
0.33900
o• 19333
0.08583
0.86000
.140300
.074167
.0)0000
4.05000 11.600
3.53033 20.000
3.90000 18.000
77.900
26.217
355.600
35.1667
45.1867
35.0000
8.8000
9.3833
10.6000
126.833
025.583
85.000
5•7497
9.466?
19.2000
28.9167
23.0250
78.3000
(Continued)
-------�
TABLE B—i.
TOTAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE (Cbrltinued)
STOOd OAT( ROWO
N/P TOTALP OOTHOP 802603 6 )13 EJEl. SECCIOI
CHLA 11188 PH
ALE 00 TEMP
1203
1703
1206
0706
1106
1207
1207
1707
1204
1208
1206
1209
1209
1209
0210
0210
0210
1211
1211
070)
1712
1212
1212
0214
1204
730904
73110.8
730310
730901
711108
730307
730907
731108
730312
730906
731105
730314
130905
131107
T303 10
730901
731108
730308
130904
73010.8
730313
730905
710107
730314
730906
1
3
1
2
I
7
3
I
2
3
I
2
3
I
2
3
1
2
3
i
2
3
1
2
Ii27 0
4.9621
l.’4 2
1.0620
2.8634
0.9000
1.3673
2.7497
2.4659
2.5366
0.563j
0.2562
0.1669
0.4625
0.6372
6.9521
0.09*6
0.0662
0.6069
1.5021
2.5185
0.8831
3.378?
2.0163
0.66000
0.07700
0.05367
0.07000
0.09333
0.01361
0.08650
0.08908
0.10050
0.09200
0.09667
1.28000
1.60000
1.48000
0.10693
0.13570
0.17107
8.13361
0.20450
0.18250
0.16300
0.04300
0.13908
0.09067
0.00000
0.29300 0.15000 .110000 4.00000
0.00100 0.00,050 .060000 4.30000
0.02903 0.11167 .088333 1.00000
0.03183 0.02833 .071667 1.73333
0.050)3 0.03000 .073331 1.283)3
0.02328 0.12722 .088880 1.4333)
0.02700 0.03000 .048333 1.86667
0.04458 0.08750 .047500 1.26667
0.01367 0.17000 .126667 2.65000
0.02467 0.12000 .091667 3.68333
0.04533 0.12667 .115000 3.56667
0.39900 0.20000 .510000 4.10000
0.95000 0.21000 .200000 5.70000
1.10000 0.18000 .070000 4.00000
0.05903 0.05567 .092000 1.06000
0.06630 0.09400 .116000 1.63000
0.10150 0.08833 .065000 1.83333
0.06043 0.06333 .053333 1.03333
0.06175 0.11750 .100000 1.75000
0.08417 0.04833 .061667 1.13333
0.09432 0.07900 .164000 1.04750
0.01767 0.09167 .113333 1.31667
0.07925 0.04583 .077083 1.28750
0.01233 0 l6333 .170000 2.66667
0.02767 0.10667 .090000 3.80000
18.000
18.000
22.000
36.333
20.000
30.333
38•333
38.467
14.333
15.333
17.667
3.000
12.000
18.000
34.400
35.000
17.333
27.000
21.000
35.000
52.000
41.500
44.000
20.000
14.66w
140.800 31.0000
126.600 31.0000
1.407 93.6667
17.900 81.6667
1 1.207 83.1667
27.23) 85.3333
36.167 76.5000
I7 900 79.5000
40.1)3 67.1667
80.200 50.3333
50.400 55.2222
116.700
595.000 11.0000
12.600 29.0000
15.060 94.6333
56.620 72.5000
32.000 76.5000
14.267 88.5000
33.600 61.5000
15.800 84.3333
41.150 75.7050
10.400 84.7500
22.250 02.7083
22.805 62.0000
90.233 48.3333
10.6000
10.0000
7.0.330
1.2500
7.2833
6.2167
8.3300
7.3833
9•6667
9.0333
9.3167
9.0000
7.2000
1.6000
7.1033
7.5400
7.4167
7•5333
7.9250
6.3167
8.4975
6.4667
6.9042
9.3000
8.9667
70.006
‘os.ooo
Io.400
26.500
14.000
41.33)
‘0.067
59.917
109.333
100.167
105.500
196.000
123.000
134.000
53.133
53.600
49.500
16.8)3
20.750
18.500
19.050
04.633
04.542
100.333
90.667
0’.2000 29.9000
11.4000 2 ..Oooo
7.0333 20.6067
5.5333 28.46)3
4.5133 21.2667
7•0433 10.83)3
5.7000 29.5000
7.0667 20.9833
00.5667 24.4167
9.4667 2 .lO00
10.4667 27.9556
28.3009
4.0000 25.6000
6.7000 21.0767
4.9300 27.9100
6.9333 21.4500
7.2667 23.5667
6.7000 28.6000
8.5333 24.1667
2.8500 20.5675
5.6867 28.6208
5.4467 73.8708
9.1667 25.7333
8.7333 20.5000
0714
1715
1715
1215
1217
7)1105
130306
130906
730007
730304
3
1
2
3
1
1.9911
2.7624
2.8530
1.1711
,.3b5I
o. 13 ’17
0.06031
0.04900
0.01 ’00
0.54650
0.05)33 0.14333 .123333 3.26667
0.01633 0.08667 .080000 0.03333
0.01100 0.06000 .070000 1.lonoo
0.01467 0.03667 .050000 1.20000
0.17400 0.00500 .000000 3.00000
16.333
30.000
.0.000
34.000
21.000
74.533 48.1111
37.300 09.6667
25.300 75.5000
17.100 8 .3333
49.000
6.8500
6.6333
6.9500
8.9000
6.5500
100.500
11.000
06.000
14.133
90.000
9.0333 72.5989
6.0400 20.0667
5.3000 28.3000
7.1000 73.1333
26.7500
1217
73090’
2
1.1880
0.60750
0.13500 0.62500 .250000 6.35000
12.000
166.750 1.0500
10.1500
73.000
10.2000 28.9000
0717
0209
1209
0719
1)20
0 )29
1220
1271
1721
1221
0223
1223
1223
I??’
7)1106
730305
710905
711105
710313
710905
731105
710312
73090’
731006
730314
730905
730005
73030’
3
1
2
3
1
2
3
l
2
3
I
2
3
I
0.21)3
5.1612
i.8e3
1.0493
o. Iioe
0.2046
0.3802
1.5714
4.8165
2.0873
0.5884
0.0340
0.2002
4.6014
0.92250
0.03000
0.03400
0.08100
1.16500
1.76000
1.36133
0.03708
0.03850
0.05692
0.49250
0.44600
5.57600
0 Q3225
0.49450 0.00500 .090000 4.10900
0.00700 0.06500 .095000 0.95000
0.02)00 0.06000 .070000 1.30000
0.05200 0.030i.. .055000 0.00000
0.03)33 0.06061 .070000 1.28333
1.19250 0.18500 .072300 1.72500
0.25667 0.61260 .017500 1.44067
0.00283 0•06333 .051331 0.87500
0.01433 0.04500 .095000 0.45000
0.01883 0.06067 .055633 1.09061
0.26700 5.05500 .035000 2.60000
0.28000 o.2551’11 .200000 3.’0000
0.40230 4.05000 .ooS000 1.70000
0.00475 fl QA750 .018150 0.06250
16.500
‘8.000
35.000
40.000
44.000
29.500
34.300
59.000
21.000
20.333
03.600
12.000
03.500
36.740
7 . S0 32.0000
14.500 67.5000
12.600 93.0000
8.100 78.5000
42.750 64.3333
77.950 83.5000
41.650 72.8333
4.81’ 81.3333
10.367 86.0667
3.0.00 7’.9067
76.400
II .6S0 38.0000
37. ’00 60.5000
72.3750
9.8500
1.5500
7.6000
7.4500
10.1333
8.4250
8.2833
7.9411
1.5661
6.7681
9.5500
9.2600
7.9000
7.5875
90.500
10.000
10.000
10.000
71.000
60.000
68.407
00.000
10.167
10.061
80.500
0.4.000
76.000
09.500
10.1000 25.3050
3.5000 72.0000
8.0.000 24.7000
7.2000 73.9000
11.5400 2’.7333
4.5000 29.2250
4.1300 23.0133
7.9167 76.0667
7.0)33 29.6633
7.433) 24.9633
10.1500 26.7000
10.6900 28.5500
6.2000 ?3.3S00
1.4000 74.0)75
1226
0224
0221
0227
I? )?
Il?M
1)20
130905
1’ 1 107
710308
710906
730108
730103
110906
2
3
1
2
3
I
7
5.9164
0.0279
5.0.191
0.3214
0.0335
7.1748
8.942
0.04125
0.03750
1.72000
1.12000
0.80000
0.04624
0.93600
0.00737 0.11875 .1 17500 2.00000
0.01100 0.05375 .051600 1.50000
1.05000 0.81500 .430000 3.00000
0.59000 o. Icooo .010000 1.15000
0.19000 1.70000 .005000 6.00000
0•05975 5.16500 .164005 0.65500
0.00960 0.06000 0.11000 2.65000
35.250
37.000
24.000
9.000
08.000
27.000
35.300
37.525 78.3750
18.975 89.1500
256.700 1 -.5000
456.600 41.5000
116.400 49.6867
28.500 65.5000
31 03O 70.5000
7.6875
7.0376
9.0500
9.5000
8.9000
9.0750
8.5500
19.150
17.625
116.000
72.500
71.500
07.000
33.000
7.7000 20.6500
7.1025 23.080.?
0.7000 77 1fl00
7.2000 78.5400
P 9Q00 24.1000
04.0000 26.4740
7.6000 26.6r00
12 18
0)29
0720
0229
1730
1230
1230
1731
I . ’ ))
710101
71331’
110908
111006
130314
320906
730107
730304
7)0905
3
1
7
3
1
2
3
1
2
3.676
0.965
4.565
0.802
5.077
3.94k
3.085
0.938
1.933
0.06050
0.03905
n 7770Q
0.00350
.31394
0.02087
0.02360
0.23500
0.2323)
0.03400 0.12000 0.00000 2.05000
0.00400 0.0160.1 0.04000 0.46667
0.00300 0.06000 0.05000 0.20000
0.01000 0.03500 0.06000 0.53000
0.00578 0.02500 0.04774 0.64444
0.00333 0.03061 0.04667 0.95000
(3.01001 0 0Z833 0.04111 0.54444
0.06539 0.08389 0.16833 0.84444
0.19517 0.15167 0.30000 2.10000
31.000
000.000
65.000
60.000
132.003
73.000
76.000
29.333
26.333
27.450 72.5000
6.800 80.0000
11.900 88.0000
7.500 80.0000
0.700 01.0000
5.967 94.5000
2.831 81.3333
09.550 73.166?
16.767 84.5000
8.14500
4.7333
p.0000
7.6500
7.6222
7.1333
6.5444
7.7278
7.3500
34.000
62.000
39.000
‘2.000
10.500
10.000
10.000
40.278
40.300
4.9000 24.5000
8.2000 24.14000
7.6000 30.7000
6.6000 73.44555
8 7P03 25.7000
7.7000 79.6501
8.0667 22.6556
5.9500 26.9500
5.20.67 28.9333
(Continued)
-------�
TABLE B-i.
TOTAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE (Continued)
STORET DAlE R0V040
N/P TOTALP ORTHOP N02803 8113 EJEL SECCHI CHIP. TUOB PH 618 DO TEMP
1231
0232
0232
1232
1?
023 ’
734
1236
1236
1236
0230
1238
7)1105
730309
710902
711106
730315
750004
731105
730313
730905
7)1107
7)0315
730905
3
I
2
3
1
7
3
1
2
3
1
7
2.062
3.286
6.395
1.034
1.506
7 774
2.332
19.108
10.836
5.803
1.000
6.611
0.15050
0.05148
0.01660
0.O6
0.08650
0.10950
0.05600
8.04456
0.03025
0.02987
0.10900
0.03400
0.09407 0.17010 O.I?17 0.85000
0.00739 n.ioso’ 0.05900 1.52000
0.02480 0.22100 0.10808 2.36000
0.01837 0.07511 0.06767 1.55333
0.05500 0.08750 0.07750 1.60000
o.oo o0 0.19000 0.10500 2.30000
fl.0*l25 0 06750 0.08250 1.35000
0.00733 0.28556 0.b4000 2.11111
0.01250 0.15750 0.16500 1.62500
0.01425 0.08875 0.08500 1.55000
0.02800 0.05000 0.06000 1.00000
0.01600 0.06000 0.09000 1.60000
20.867
29.500
26.300
27.100
31.000
20.000
40.000
29.333
28.000
36.000
36.000
26.000
4. 1J3 83.6010
045.267 69.0611
07.440 73.6000
65.45 (00
S.400 73.4000
07.200 88.5000
1.900 59.7500
29.067 65.2222
51.750 66.5000
29.4 )3 79.8889
69.600
12.200
7.2500
8.6950
8.6100
8.4847
9.1250
7.7000
7.8750
0.2111
7.5250
8.0167
9.3000
7.5000
37.067
136.750
1.35.500
115.150
37.000
51.000
30.500
55.056
52.750
45.825
90.000
86.000
$.# b7 75.6767
6.7’.S6 78.4000
7.7 OO 2S.?Sfl0
6.1600 25.0070
5.9(400 29.0000
4.7000 23.8000
0.8833 24.8279
7.0000 28.4750
7.7667 23.5864
25.0000
6.0000
123$
1239
0239
731105
730620
7)0831
3
1
2
1.756
2.785
.954
0.07400
5.12491
0.08512
0.06000 0.06000 0.07000 1.00000
41.03731 0.14925 0.19687 0.68500
0.03575 0.20302 0.08312 0.81975
48.000
23.500
36.750
7.700 73.0000
2.275 81.0250
20.650 90.3750
8.8000
6.7800
6.5562
12.188
13.250
3.5125 26.0812
4.9083 25.8750
1239
0240
1240
0240
731105
730309
730904
731106
3
I
2
3
1.850
o.i s
0.233
0.120
0.08942
0.70250
0.70750
0.13567
0.03302 0•08562 0.07459 0.31450
0.61750 l 04?50 0.06667 1.13333
0.56700 0.08250 0.08250 1.77500
fl 43767 0 035#3 0.05167 1.47500
53.250
38.000
31.500
34.000
5.525 93.8582
18.550 91.8167
53.200 69.7500
41.350 01.3333
6.9875
7.9917
8.6000
8.2500
17.666
65.661
86.500
77.583
20.0075
6.3750 21.7500
8.5500 28.2750
6.8000 22.9333
0741
1241
730313
710906
1
2
0.206
0.789
0.28675
0. 39250
0.17)00 fl•13500 0.02375 1.77500
0.30)50 0.11000 0.10025 2.20000
15.750
32.000
37.825 75.2500
39.500 62.2500
8.9025
7.7625
24.375
28.125
6.7000 P5.6750
6.0250 29.1875
l? I
1742
1242
1742
l?83
711107
73030?
730906
830005
130313
3
1
2
3
1
0.819
0.790
0.126
0.609
3.222
0.27702
1.095450
1.01000
0.90000
0.03000
0.18575 0.06375 0.05500 1.53750
0.04500 0.61500 0.33000 2.45000
0.97000 0.06000 0.08000 2.80000
0.78500 0.27500 0.28000 2.30000
0.00450 0.08000 0.06000 0.55000
31.500
30.000
22.000
32.000
66.000
04.575 18.2500
39.300 80.0000
035.800 76.0000
56.800 85.3333
4.467 75.5000
7.1875
8.2500
7.9000
6.9000
8.2333
09.875
23.000
36.000
33.500
00.000
7.7onO ?2.eS0O
2.0000 2 ’. 100 0
9.2000 29.1000
5.7000 27.8661
8.0667 26.1333
1283
0243
0246
1286
1244
730905
71000’
71030’
710906
750005
2
3
0
2
3
3.087
0.520
06.603
4 474
4 543
0.05’ 3
0.04933
0.0191?
0.02782
0.03517
0.00600 0.07667 0.08667 1.00000
0.01200 0.03161 0.06333 0.78333
41.00533 0.05500 0.13167 1.23333
0.00183 0.06167 0.05*17 0.31500
0.02508 0 .07667 0.08167 1.22500
39.667
30.333
96.000
40.000
‘1.000
12.800 90.3333
6.0)3 93.8889
5.650 #5.3333
56.200 84.3333
04.750 90.6333
6.2000
6.5500
8.5000
8.6063
8.8417
10.000
10.000
004.8)3
107.017
107.161
7.0667 27.7333
7.9000 23.4444
8.9000 24.7833
9.2000 29.1917
9.2000 22.5333
1287
710620
I
0•733
1.16000
0.85250 0.31000 0.52500 2.95000
14.000
046.750 64.5000
9.2500
39.500
15.4500 28.6500
1787
110630
p
0.359
1.47500
0.60000 0.31000 0.22000 3.704500
15.000
047.400 62.5000
10.3000
46.000
16.0000 30.2000
1267
1248
l2 8
0240
711105
700)09
7 )0 0’
711006
3
1
7
3
1.297
0.809
1.010
0.550
3.38500
41.21500
0.23500
0.74525
2.01000 0.80010 3.025006.204100
41.07750 0.0 00 0.08000 0.90000
0.02250 0.13000 0.00750 2.57500
0.03375 0.06500 0.07000 2.75000
11.000
62.000
21.0450
05.500
126.800 60.0000
100.050
140.050 64.0000
65.000 34.2500
8.4500
8.6500
8.9500
8.0000
107.000
129.000
111.750
114.500
4.7000 19.9000
9.1500 24.6500
7.2000 28.0750
9.7000 24.1500
1? ’9
770316
1
0.219
1.14000
(1.60000 0.03000 0.02000 .‘0000
05.500
2.0.600
9.7000
l. 9
I?49
1250
700905
7)1107
1303459
2
3
I
0.527
0.400
1.616
2.56000
4.55000
(1.08644
41.04400 0.07000 0.28000 3.70000
0.11700 0.59000 0.20000 5.00000
41.029 ?? 5.02610 0.0394* 0.64446
0.000
80.661
00.900 00.0000
1.200 3.0000
00.900 99.5000
6.8000
7.3000
7.2111
24.000
00.000
6.4007 27.2070
‘.6222 77.7111
0750
710904
2
4.105
0.02650
0.01600 0.04667 0.05833 0.96667
116.667
5.433 95.3333
5.1000
6.6000
1253
025?
711006
710308
3
I
1.083
0.326
0.0)450
41.53033
fl.0220 1 5.02278 0.04279 0.67778
41.3805845.09125 0.08025 1.43333
92.000
3.s.ooo
8.267 98.5556
c .7oo #5.0933
6.0889
9 554
#0.667
9.6000 70.7500
1252
710006
2
0.439
0.39950
0.24500 0•09759 0.07750 2.S2 00
34.500
107.750 69.0000
9.0750
61.750
9.9000 28.5550
l.’52
710106
3
0.34
0.51992
0.32625 0.07687 .00416’ 2.5666?
34. 00
54.750 74.5000
9.15000
80.583
60.667
7.55000 23.5000
9.50000 22.53)3
1258
730308
1
‘.06
0.04700
0.00767 0.04687 .040000 0.80687
60.000
245.800 89.0000
1258
710904
2
2.76
0.05705
0.02050 0.07500 .070000 0.70000
40.000
37.600 #3.5000
8.95000
42.000
5.60000 ?o.9500
0258
711106
0
1.15
0.06500
(1.01500 0.02500 .050000 0.65000
42.C’00
26.500 92.3333
7.00000
31.000
8.00000 23.7667
170 1
I?o l
7)031)
710906
I
7
4.11
2.60
0.02150
0.04737
41.00421 0.01500 .051250 0.66250
0.0790? 0.05075 .o5375 1.22500
90.250
59•7541
5.000 89.7500
6.075 85.9750
6.R 333
6.414000
10.000
15.500
7.80090, 24.0192
6.37500 2R.h7 0
I’bl
0264
710007
710101
3
1
0.79
0.10
0.34717
1.26003
(4.00900 5.0)907 .081500 1.05407
1.21000 0.06000 .080000 1.70000
07.500
24.000
5.575 83.7907
89.200
6.57907
1.40000
10.000
30.000
7..5000
7.60000 74.7000
25.4964
0300
130630
I
9.51
0.07544
41.00030 0.12252 .103667 0.40607
65.000
6.750 80.5619
7.06119
16.009
25.0750
0100
710907
2
‘0.30
0.02581
0.00575 0 06n42 .114250 0.77407
60.661
8.417 81.0558
6.47667
16.959
4./1043
0300
731013
3
5.08
0.0,1255
0.01007 0.08900 .068778 0.27389
63.833
1.300 89.7828
6.73667
20.767
0.661)3 03.6001
0302
0107
I3 ’2
1703
710622
710907
730008
730629
1
2
3
I
5.99
10.04
7.15
13.06
0.08256
0.02307
0.03400
0.0150?
0.01556 0.32021 .164167 0.53750
0.00240 (1.07354 .059583 0.42083
0.02044 0.19000 .062222 0.25556
0.00259 0.09375 .078298 0.30360
09.500
38.250
40.000
171.500
0.925 56.2500
7.550 02.2708
45.8)3 94.2556
6.633 90.4722
7.07292
7.26975
7.52222
6.81778
16.862
19.646
21.667
10.000
4.57500 27.3646
5•97650 20.6907
8.9045440 16.6611
6.92719 71.7491
0103
7009 15
2
7 . 7
0.00684
0.00590 0.05266 .056675 0.28073
022.867
5.800 92.9881
6.05460
0(4.722
‘.6522e 23.2095
(Continued)
-------�
TABLE B—i
TOTAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE (Continued)
STORET OATC ROUND
N/P TOTALP ORTHOP 802603 P41.13
41.2(0. S(CCHI CIlIA TUOB P14 AIK 0 ( 1 TEMP
(Continued)
L.)
Ln
0303
1304
1304
1309
0709
1309
1310
1300
03)0
1311
131)
031)
711110
733623
730910
1)1112
73070)
130908
731113
730630
710911
732)09
730627
7309)2
71)1)2
3
1
2
3
I
2
3
I
2
3
1
2
3
3. ?
9.
10.64
8. I
‘,.62
21.96
17.1
7 .8w
11.S4
12.90
6.00
0.01742
0.03068
0.02092
0.03176
0.10309
0.38862
A 3 )275
0.02300
0.02588
0.03581
0.02367
0.01121
0.021)7
0.01271
0.00506
41.00727
41.07346
.0422Q
41.12487
‘7.2 )038
0.00489
41.00590
1 O )947
0.00414
0.00304
0.00824
0.03592
0.04918
0.06909
0.06298
0.31166
0.35008
0.66983
0.2 )57?
0.0908)
0.08300
0.16095
0.05881
0.06)33
.066167
.100472
.033327
.06897?
.3’991 1
.360331
.300333
.124003
.266606
.163214
.107460
.085556
.062476
0.204 )1
0.36770
0.46579
0.29665
0.7360?
0.30047
1.23500
0.38878
0.59804
0.35340
0.26508
0.32381
0.20476
57.500
61.300
75.182
e5.8 )8
35.000
39.000
41.200
004.000
99.833
106.90?
028.000
96.333
58.661
6.583
9. 155
‘.092
4•0Q9
13.800
21.400
9•78Q
5.967
6.675
3.650
5.933
10.000
4.033
92.5872 6. 7964 10.000
78.1149 7.27049 19.003
88.1024 6.69910 70.567
75.5357 6.81991 28.485
15.5429 7.95643 20.106
73.2083 7.46125 28.033
90.0350 6.96000 26.461
02.5301 7.08838 02.864
90.2683 6.42164 13.QO1
88.2660 6.21063 12.333
80.7381 6.40036 03.087
93.6159 5.88095 10.794
6.27810 11.048
8.04167 I .8 ..S8
5.46694 PP.7153
5.2055? 26.4789
7.99030 26.2840
5.73750 25.6677
4.98333 26.0)8 )
8.32333 13.1417
5.76982 20.568 o
3.91034 21.4314
6.90417 18.7805
5.22984 09.7062
3.47178 22.9432
7.42222 15.48)9
1)12
13)2
730620
7)0830
1
2
9.70
13.73
0.05275
0.02642
0.00962
0.01062
0.35033
0.28500
.100000
.083033
0.44933
0.89333
34.000
86.800
4.000
8.660
75.3833 7.23)67 30.967
83.69)3 1.67333 56.72?
6.32667 27.9383
6.50000
0312
730103
3
9.7)
0.04807
0.01808
0.33200
.058000
0.80933
50.800
...lpo
93.3417 7.50500 55.450
28.7933
8.25333
0313
73070)
0
10.36
0.03444
0.00478
0.184)9
.063028
0.45194
59.000
10.500
76.1972 1.56167 0.?92
4.21161 26.6972
I) ))
730910
2
8.29
0.02728
0.00481
0.01875
.142230
0.59833
69.667
7.3)3
82.0667 7.04194 26.197
3.96056
1313
7311)3
3
7.49
0.040)6
0.02203
0.20207
.06697?
0.32667
49.333
6.183
84.936) 6.100)9 23.356
28.6492
1.94161 15.92)9
0114
7306)9
I
5.03
0.06)00
0.0)254
0.19787
.114250
0.77)25
42.150
9.100
74.7625 8.01675 11.800
6.22093
)) )4
7308)0
2
8.34
0.03262
8.00942
0.16983
.122167
0.68590
43.250
12.715
79.2000 7.62000 20.4)7
5.410667 28.73°2
)3I8
13)003
3
6.70
0.05594
0.01644
0 33d58
.050073
‘..33208
4j .000
7•375
89.1146 1.61333 22.729
7.92500
1306
730621
1
11.41
0.0)4)8
0.0034)
0.08083
.081264
0.33281
028.000
3.033
90.2454 6.47593 10.000
19.752)
7.50774
13)6
730905
2
10.30
0.00978
0.00503
0 038 )0
.066420
0.26989
105.667
4.633
94.1032 5.68571 11.159
09.2782
S•44397
23)6
711)02
3
8.89
0.01091
0.00449
fl 0331I
.06)444
0.20000
01.667
0.467
6.22444 10.000
8.05667
03)7
730601
1
8.63
0.11510
0.03665
0.39037
.234450
0.36100
21.200
5.060
57.7533 6.45433 06.28?
7.04910
Ill?
130829
2
9.3)
0.0082)
0.03869
0.4)396
.433)23
2.02°)?
39.500
I2. 15
67.6778 7.60000
1317
73103)
3
6.22
0.03190
41.07597
0.58144
.112143
0.32262
39.500
5.375
85.5695 6.46012 17.848
26.8073
7.32917 17.9699
1308
730628
I
25.47
0.00855
0.00721
0.056)9
.074571
0.28190
109.667
3.500
92.8286 6.69333 I0. 10
7.16111
1118
770918
2
11.95
0.00936
0.00573
41.03929
.070595
0.14310
113.333
3.033
96.9929 5.95816 10.250
20.4062
4.37277
13)8
131)00
3
10.59
A.00660
0.02167
.087333
41.20933
065.333
2.667
85.7167 6.39333 00.083
22.3036
7.80444
13)9
730622
1
6.62
0.04992
0.00550
0.11912
.202500
0.90000
40.647
11.047
73.5833 7.80270 28.111
05.3233
3.83333
03)9
710900
2
10.68
0.03889
0.00867
0.04S66
.32 ,’.67
1.03556
42.667
20.633
02.2222 7.2440$0 3S.I li
25.1861
1319
73)108
3
1.36
0.05848
0.02)00
17.02 ( 499
.045556
0.57222
38.333
12.150
93.’222 7..9 a 35.722
26.6750
8.00000
1703
730512
I
83.02
0.09204
0.06433
7•55333
.055000
0.83333
19.500
I 0.000
48.5817 8.26250 162.875
9.05000 06.5750
)703
730809
2
100.57
0.06312
43.01925
5.69250
.330000
1.36250
56.000
00.850
70.3000 1.98150 183.625
8.07300
1703
731017
3
64.00
0.04517
0.0703)
7•83738
.4)3333
1.12500
30.500
56.759
76.3333 8.30833 164.750
25.4043
6.64000 )P.54S9
lbs
730509
1
17.72
0.09)3?
‘1.02683
1.4613)
.076331
0.58667
20.000
15.533
0.06500 1)0.78)
8.66944
0106
1 3Bl0
2
04.26
0.00 53
“.O?SR)
) 09477
.I00 8
1.06884
26.000
16.700
40.7040 7.81222 228.???
6.40000 21.0063
1108
11 10 18
3
24.085
8.09 )44
.1)41080
0.24 )01
.035556
0.77778
19.333)
19.86?
55.6000 6.03333 )SQ 333
P.?6 1 17.8778
1708
710507
1
13.238
0.1 1173
.051150
9.09000
.065000
0.42500
9.0000
2.650
8.10000 162.500
‘41.04100 03.2750
0708
730809
2
26.606
0.16400
.076500
4.77300
.095000
1.15090
9.0000
I .300
17.5000 7.95000 236.coo
6.94100
0700
730018
3
03.044
0.2)775
.095500
7.570041
.202100
l.?’SOO
10.0000
18.050
10.2500 7.97500 291.250
7.9000
17)1
710507
I
13.268
0.04299
.011600
0.45338
.078)01
0.51356
4 ).3333
7.033
7.92333 14.900
16.9000
7.41450
I l ))
7108)0
2
8.539
0.08272
.010067
0.12167
.219556
0.85222
16.0000
19.223
89.6333 7.71)333 74 q99
18.6122
8.7233
17 11
71)0)8
3
3 477
A 4985
.027655
0.05083
.136829
0.’ 2739
54.04100
6.4)3
88.4683 7.88214 80.239
6.6567
0712
730508
1
2.000
0.12)53
.0029)7
0.11406
.002300
0.16000
18.3333
26.000
6.15000 36.056
8.2722
0722
730008
2
2.7405
0.18333
.041067
fl• 12888
.159333
2.20448
22.6667
008.600
30.7270 8.25667 59.056
171.1250
7.8000
27)2
73)0)0
3
0.601
fl.14304
.025500
41.10667
.056331
1. 1)1)1
0’.3333
46.100
50.7778 7.95000 55.944
I7)
710608
I
60.257
0.12400
.976278
7 24536
.00222?
0.3))))
16.3333
24.733
43.0000 8.23333 702.333
19.6067
05.37489
1714
710009
2
33.7)9
8. 1)283
.02872?
3.60000
.08 1e.o’
1.18869
26.3)33
97.967
31.7777 8.014189 239.356
1714
71)004
8•7 17
8• )5954
.052 )61
0.60066
.04)33)
‘1 .77777
14.0000
2l. 00
I9 8444 9.19444 2)9.000
9.7000 11.41167
1725
710309
I
5.097
3.21981
.127333
0.03167
.100000
1.0)661
19.0000
44.550
8.26667 199.167
1775
7104107
2
0.31)
‘1.75000
..34333
0 09Ib1
.141607
7.7)641
21.0000
‘7.700
76.3000 8.88333 266.300
13.9313
8.0500
177’.
‘ l01t
3
0.641
8 7QP )3
.461833
0.73333
.370000
e.b 000
12.0000
82.250
20.6667 8.57500 220.0041
0.0600 17.3600
1128
71061?
I
7.44
.2R7479
.005667
1.977418
.183125
0.76625
5.5000
7.69)67 56.675
7.7750
0776
710610
2
8.312
0.09446
.065917
I.’8771
.130208
0.929)7
9.0000
02.750
16.3125 7.19797
c• )657
)777,
711018
3
7.535
0.15019
.066417
0.09375
.05916?
0.72083
26.1500
8.575
50.7662 7.61250 75.4133
7.3)75 17.4681
)777
730509
1
3.762
0.00033
.061583
0.21411
.163333
1.07500
16.0000
04.800
9.05000 197.733
8.2000 13.0)67
1727
110807
2
4.535
0.05467
.015230
0•09750
.155933
1.75033
39.0000
33.050
77.4000 44.441333 203.917
8.2000 26.3800
0727
731016
3
1.099
.2 517
.182583
0.05917
.052500
2.10000
22.0000
76•75Ø
70.4250
-------�
TABLE B-i.
TOTAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE (Continued)
STORCI DATE ROuMO
IVP TOTALP ORTHOP 502803 NH) KJE1 S(CCHI CPLA 1URB
P14 ALK 00 T(MP
0 5
I .05000
2. 73o o
I • 70000
0. 709J)
1.47917
1.01667
0.57111
1.09389
0.66389
1 • 00033
• 76667
0.71111
0.50667
0. 90 0 00
0.71667
0.53333
1.60000
0.43333
0.07500
2.65*300
I .142500
0.9)33
2.06000
I • 79583
0.43333
3.70000
3.001100
0.52917
0.83333
0.59067
1.03333
2.37300
• 17500
0.97500
2.91667
0733
710509
I
3.372
o .l ’450
.043000 0.37750 .095000
1733
730607
7
1.030
0.27125
.093000 0.16000 .120000
1733
73 )0 06
3
1.333
0.71650
.061500 11,23500 .065000
1735
730500
I
2.052
0.06042
.006333 0,06250 .087500
1735
7308 ’0
7
5.261
0.06537
.0 )9875 0.16667 .105417
1735
731019
3
4.673
0.06771
.017417 11,739)7 .050000
1139
730504
1
64.126
0.11065
.064817 5.88356 .080222
1139
7306 9
7
70.42,
0.05328
.023319 2.95189 .248134
1739
731014
3
36.393
0.06592
.023764 1.45750 .086446
1740
730507
I
3.371
0.24989
.066056 0.66917 .211222
1740
730810
7
4.465
0.29056
.065444 0.83667 .394444
1740
131007
3
6.20?
11.10506
.033489 0.40944 .061111
0742
730501
I
39.145
0.17287
.094133 6.42600 .137000
1742
730809
2
31.630
8,10860
.053300 3.05900 .087500
742
731016
3
12.067
0.09940
.063650 1.00011 .036333
)748
130511
I
61.122
0.09773
.055333 7,55933 .073333
1740
730808
7
32.817
0.16100
.031500 4.29661 .103333
17*6
130017
3
11.051
0.11733
.054661 1.20333 .093333
1750
730509
1
9.129
0.26000
.099250 2.09750 .230000
1750
730807
2
1.486
0.60600
.404250 0. ’1250 .485000
1750
‘31010
3
1.451
0.47375
.133750 0.511750 .037500
1751
730512
1
44•433
‘1.09667
.025000 3.43000 .310000
1751
7308 9
2
‘3.003
0.05250
.014833 1.59467 .566657
1151
731017
3
11.308
6.12254
.061750 1.29958 .413333
)757
7105 )2
1
10.642
0.39433
.760000 3.56000 .636667
1752
730607
2
2.366
1.03000
.556000 1.72000 .720000
1752
771016
3
4.368
6.49900
.362000 1.20000 .980000
1753
7)0507
I
39.064
0.11419
.029042 4 30547 .091458
1753
730610
7
48.620
0.04475
.006917 1.89146 .073750
1753
730004
1
6.501
0.04642
.008208 0.26175 .037706
0754
730509
I
53.416
0.18617
.092500 9.74667 .141667
1756
710807
7
19.394
0.20850
.0’24 17 2.55750 .169167
1734
771016
3
3.602
11.18250
.027500 0.03750 .032500
1755
730509
I
2.507
‘3.13850
.044250 0.2.750 0.09750
1755
710601
2
1.145
0.32200
.119187 0.17167 0.19500
1755
71)016
3
1156
710309
I
6.460
0.12800
.086500 0.79000 0.03500
1.00000
1756
730807
2
0.939
0.30625
.173250 0.16500 0.12250
!,475gQ
)754
711016
3
2.677
0.37000
.106750 0.9)000 0.07250
1.97500
1757
710509
1
2.500
0.04800
.017333 0.06667 0.05333
1.03333
757
730867
2
5.324
0.15400
.100750 0.12250 0.69750
2.02500
1757
711016
3
0.918
0.05733
.026667 0.02667 0.05333
I •43333
1759
710609
I
0.399
0.50100
.273300 0.12500 0.07500
2.00000
1758
730407
2
0.368
0.44230
.345800 0.l75 0 0.15000
6.25000
1756
73)016
3
0.075
1.33000
.848000 0.04000 0.06000
6.00000
1759
730519
1
6.111
0.02880
.0)2200 0.09400 0.08200
1.00000
lISO
710907
2
7.307
0.02600
.0)3500 0.09250 0.00750
1.37500
l7 9
730006
3
4.507
0.05325
.025750 0.02000 0.22000
1.32500
1160
710510
1
‘5.697
0.06417
.027157 2,73833 0.18333
0.58333
0764
710009
2
37.493
0.04337
.005062 0 972Q7 b,6’147
0.70543
1761
711017
3
14.8)0
11.10162
.061542 1.26.17 0.40454
0.95583
118?
110611
I
4.767
0.10433
.0261433 0.28833 0.15333
0.93333
176?
710808
2
3.157
0.11643
.023)3) 0.13733 0.19053
1.15833
1762
711019
3
2.240
A.I’550
.OIQ000 A I27c0 0.10000
1.00000
1163
110507
1
2.675
0.32958
.003667 0,039)7 0.03831
0.62600
1753
730eIo
2
3.820
0.05317
.012083 0.10000 0.10833
0.97500
0763
77)017
3
‘.133
0.044)7
.006583 0,17667 0.04553
0.74167
1784
710511
1
7.205
0.14736
.030174 0.92489 0.11022
0.78661
1164
710810
2
3.268
0.13539
.021139 0.11028 4.33139
1.37222
1164
711016
3
3.155
0.14172
.027633 0.10222 0.45536
0.46001
1765
730511
1
2.303
0.39500
.335500 0.54500 0.36500
1.10800
22.0000
9.0000
12.0000
28.5000
33.5000
73.5000
35. 6 667
61.3333
19. 0 000
9. 3333
8. 0000
16. 0 000
7. 6000
22.400 0
22. 0000
25. 0000
16 .50 00
14.0000
6.00 00
18. 00 00
18.0000
57.0000
30.0*300
35. 0000
16 • 0000
6.0000
6 • 0000
6.0000
33. 2500
34 .50 00
1,0000
20.0000
17.51100
19.000
9.000
I ). 500
27. 0 00
18.000
12. Ou O
60. 0 00
54. 0 00
36.000
08. 000
4.000
12.000
120. 600
70.600
100.000
22.400
37.000
47.000
10.000
21.000
05.000
16. 0 00
44.000
16. 500
12. 3 33
25. 333
28. 000
18.000
40. 050
107.050
6 .500
25.575
29.425
15.600
20. 550
14.083
I ?. 850
6.26 7
5.433
5.767
3.260
08.440
I? • 360
S • 950
57.5 00
27. 0 00
22.100
75. 500
199.000
14.8oo
.95O
30.000
21.400
132. 700
42. 4 00
3.250
0 00
15. 8 , 25
5.4 60
Al .200
6’.OOO
‘5.750
104 • 850
37 • ‘50
33.850
1 74’.500
46. ISo
I’. 100
24.000
26.800
100.000
312.000
740.400
‘.500
8.400
c • :150
10.250
P • 100
10.450
36.600
00.600
6.90 0
15.200
I 1.500
5.233
15.133 50.2222
03.467 69.3889
00.000
6.40000 094.000
50.5000 4. 78000 240.1100
32.0000 8.40000 204.000
7.96667 39.917
47,4333 7.45407 73.000
11.7250 7.1.v833 74•955
8.23039 164.056
93.9250 .9l917 160.564
49.9028 7.75218 174.727
7.53056 58.694
18.5500 7.2 11 11 6a.778
40.1667 7.69444 72.122
6.11333 126.367
35.4500 6.04500 030.250
27.4)67 6.49647 042.33)
32.6667 8.20000 215.000
59.0000 8.11667 222.800
6.0000 4.04661 222.000
8.00000 241.300
28.7500 8.50000 333.500
‘5.0000 8.72300 2 o.50o
85.6667 8.14333 l99.oo
76.2500 0.13333 1 ’9.i00
40.2500 8.05000 170.500
26.6667 7.83333 240.080
4.0000 8.30000 740.000
1.0000 0.10000 171.000
8.00875 73.412
81.3125 8.33025 97.750
60.8750 8.07705 90.042
8.03333 170.000
24.5633 8.40187 269.167
70.0000 8.60000 2)7.500
8.42500 096.000
45.6667 8.66667 239.500
26. 00 00
8.05000 095.000
24.0000 8.9?500 280.500
22.5000 8.35000 237.1100
8.26667 173.661
75.2857 7.95000 178.250
90.3333 4.60000 146.000
6.70000 212.000
25.5000 9.35000 293.000
4.0000 9.20000 214.000
6.18000 161.000
87.8333 8.57500 136.500
96.�500 6.40000 139.750
63.5000 7.93333 051.300
64.4750 7.9)250 074.456
39.4067 7.88750 140.128
7.63333 63.167
25.5750 7.50000 63.133
37.2500 7.62500 46.250
8.aSA33 115.250
58.6190 8. ?S00 000.000
89.6667 9.25000 016.067
7.52667 90.756
7.61056 62.633
1.77777 68.889
7.53000 66.500
9.7000 l .S7So
4.0000 24.975o
9.1.000 15.7000
8.3000 17.7003
3.6025 28.2375
8.4250 18.1833
0.33)4 15.3275
4.52)1 25.9269
6.3333 19.4139
6.5278 16.7630
1.5178 26.5275
1.8333 18.9250
6.6200 16.6100
5.9300 27.7209
4.8700 18.843g
8.7500 07.3663
6.2250 24.5667
5.9000 10.1500
0.5500 14.6509
7.9000 26.2750
13.5000 18.8250
9.0000 111.7633
3.I 3J ? .9#23
8.9000 17.7458
‘.9000 16.8000
7..000 30.5000
07.5000
8.6250 11.6333
6.3000 29•1879
7.8583 20.3706
9.0500 14.9667
G. .000 27.0667
10.3000 16.7500
9.9500 I..3250
6.7000 26.0847
9.2000 05.11500
9.5000 14.0000
11.7000 26.5000
12.5760
9.6500 03.9333
4.4000 2).37I
6.4000 06.0000
.2000 14.5000
03.3000 25.20110
06.4000
8.9000 03.6600
6.8500 24.69 )3
7.2000 16.2000
7.7007 11.51300
5.6133 25.6400
5.8000 )A .)375
7.7000 18.7813
3.3373 77.9911
1.8000 17.1500
.A750 18.95011
6.6750 31.10?.
7.4000 21.8500
7.1A33 17.eS7a
4.16.70 26.0444
7.0337 16.45011
3.8000 08.4500
(Conti nued)
-------�
TABLE B-i.
(Continued)
TOTAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE (Continued)
STORE! DATE ROU
N/P TOTAL! OPIHOP 1 102403
11113 KJEL SECCMI
CHL* TURE PH *17
1763
1765
300oe
13)0)6
2
3
0.2)4
•.15b
0.95600 • S0Oo 0.10500 0.10000 1.60700 28.000 .70Q 32.3000 7.Qso e 129.’.Oo 5.7000 28.75o
0.93000 .633000 0.06503 0.00000 L.750o
1166
6766
0766
1805
1805
1805
lOll
1611
lOll
1817
130507
710810
131017
7305 )0
730808
7310 17
730510
730802
731015
730503
&
2
3
I
2
3
1
2
3
p
‘1.365
6.966
14.2Ot
50.247
19. ’30
p.551
$7•45
12.839
1.878
43.760
19.000 24.600 56.5000 8.00000 1’8. oo 9.6000 I l. PS oo
0.11400 .053500 4.39000 0.48000 1.65000 19.500 I8 .S5o 6.Ssooo 137.ooo .‘,0O0 l5.qOOn
0.25575 .025750 o 25 co .lA0oo .30000 10.000 258.700 4.7509 9.35000 ‘9.000 8.6000 28.3000
0.00800 .011750 0.45590 0.97500 3.35000 22.000 8 . o0 50.0000 8.90000 88.000 19.9000 I .35Oo
O.066fl .016178 2.54267 0.11833 0.74667 44.000 9.500 1.95333 1’A.?4 8.3417 16.3.89
0.08896 .024517 1.16894 0.18550 1.14667 25.333 19.000 67.9611 p.97278 1)8.900 3.1528 25.623 ,
0.12047 .013133 0.05067 0.65533 2.0066? 30.661 12.733 54.4667 8.09333 149.467 6.9)07 72.5247
lI.o63 .007500 2.589)7 0.07708 0.1041? 21.500 .55o 57.5833 8.27500 226.959 .62SO 17.379?
0.10917 .015167 0.47750 0.11583 1.61667 27.000 56.753 70.6667 8.39167 172.003 8.4500 25.9333
0.10133 .011417 0.08042 0.10292 1.06667 28.000 37 .55 58.6667 8.34583 168.250 T.2933 20.2000
p.32500 .003000 0.99400 0.10000 0.66000
1817
1117
730804
731013
2
3
16.73?
14.467
60.000 4.800 6.2ooo 8.15000 200.400 $.3500 12.1200
0.03060 .017500 0.26000 0.25200 0.94000 11.700 3.6ooo 7.86000 188.600 3.8000 18.8400
0.06171 .037679 0.04114 0.84571 1.84286
1927
730503
1
19.390
72.000 17.100 92.2857 ‘.84286 193.429 7. 000 15.51 3
0.12753 .012178 2.27778 . )Io22 9.69111
1027
730803
2
39.366
29.333 71.8222 8.02667 17 .578 8.4500 14.3600
0.10001 .014289 2.60844 0.14756 1.09778
1827
7310 )5
3
14.823
24.667 19 AQ 59.8661 7.97333 164.261 4.8667 24.0S5
0.12890 .032411 1.34022 0.27733 1.14667
1828
*928
1428
1829
1829
1829
7305*0
730806
7’I010
7’05I0
730402
731015
1
2
3
I
2
3
*6.695
14.032
11.731
67.491
S .901
13.038
26.667 18.133 48.3556 1.88446 200.733 5.1667 19.8567
0.01854 .004798 0.22252 0.06374 0.40581 84.800 4.180 7.60714 22.667 7.7877 16.0707
0.03484 .008121 0.11147 0.29361 0.79000 52.067 18.333 83.0100 7.2896? 38.35o 3.Q633 24.4875
0. 633 .014730 0.04210 0.62087 1.26300 50.000 5.967 71.6233 6.96047 46.773 3.5850 21.2930
0.10250 .019333 S. o I7 0.06611 0.67778 30.667 39.533 se. 1667 9.41359 184.844 10.3000 16.69.4
0.08575 .0006)) 2.38500 0.40028 2.15300 24.333 68.367 65.5279 9.5*667 135.722 7.2067 26.64)7
0.12397 .008911 1.02299 0.55089 1.88900
1836
730503
1
83.561
23.333 60.603 62.5167 8.07056 l 3.’22 6.7778 19.8189
0.00712 .003625 0.53250 0.34625 0.57500
1831.
1436
730804
73)0)5
2
3
20.301
16.524
127.oo o 3.SSO 96.2500 8.30000 146.125 9.5333 13.276o
0.01237 .002225 0 1095Q 0.14125 0.81000 7. ’o 3.75oo 8.26750 123.550 6.7167 27.6 30
0.oite .005233 0.06500 0.12867 0.88667
1831
713502
I
30.549
144.000 4.050 95.9oo 5.13667 126.367 7.4533 17.7867
0.02985 .006500 0.81153 0.08550 0.Q8 o
1837
730804
2
11.43
66.000 12..5 9 1.9ooo 8.31000 6 9.Aoo $.ln o o 16.6800
.023375 .004375 fl.12125 0.13000 1.03750
*837
1839
1839
73)015
710429
73080?
3
1
7
34.48
52.32
21.22
11.450 91.5000 8.18750 180.975 5.9667 27.4000
.022583 .009333 0.07417 0.69500 2.10833 72.000 8.630 93.6333 7.93333 188.000 5.1000 15.841,
.092250 .010575 ‘•58150 0.09500 0.91250 21.000 3fl•943 67.8750 8.38750 225.750 10.4661 13.9875
.079250 .014875 1.09875 0.56375 1.96250
1838
1840
731010
730506
3
1
5.61
37.66
29.500 37.95 70.0000 5.33750 1 ’Q.l25 .175o 22. 570
.125250 .023000 0.04025 0.77125 1.06753 33.000 30.350 65.8150 8.25000 150.000 6.6500 ?Q.95O
.060583 .01)444 1.38468 0.11972 0.77083
)#49
1840
1641
1841
1 ’I
1942
847
18’2
1843
1041
1861
1644
730604
731013
730503
730803
731012
73050)
730803
731012
730502
710403
731013
730503
2
3
I
2
3
I
2
3
I
2
3
1
23.04
4.80
27.32
10.04
0.67
34.61
8.62
7.65
12.25
17.70
4•53
42.72
54.000 4.aoo 0.30933 195.611 9.0648 12.2139
.025333 .005472 0.64694 ..09079 0.91944 19.033 88.33)3 $.30556 183.917 1..Q59 0 77.4619
.089)73 .069714 0.08000 0.4o000 1.53989 56.667 10.900 88.6032 8.00524 177.016 5.6161 17.5095
.03383) .006400 0.77647 0.14733 0.94667 80.000 12.633 8.20667 206.600 R.1l 7 1?.3 fl
.1l’ 167 .077003 0.09083 1.02250 2.18333 57.000 11.850 83.4375 7.89la7 2?1.’.3o 6.612 ’ I .23I2
.210139 .183478 0.03400 1.74683 3.54657 76.333 8.033 92.3722 7.69556 269.139 5.5667 15.4054
.028071 .007679 0.87119 9.09607 0.85933 63.000 11.100 8.14690 214.0 2 R. 7I7 11.796.
.103283 .07 3 0 0.30217 0.38317 1.77833 56.000 11.200 87.7980 .875co 215.333 5.0975 16.4045
.127917 .103950 0.02983 0.976o1 1.83000 60.000 13.450 97.3833 7.84833 205.300 8.6167 1 ’.430 0
.024125 .002375 0.22000 0.07375 C.5)75Q 120.900 s.ooo 9’.75o 8.3o0 ø 156.900 0.4333 13.95)5
.013950 .oo soo 0.04450 0.11400 0.4)000 47.000 6.750 92.2000 8.30000 161.400 7.8333 7?.S’.no
.025250 .010250 0.04000 0.07750 0.93053 84.000 5.780 92.Sooo 134.750 7.9000 19 .6o
.023625 .003000 o.qSooo 0.05750 0.10000
l 44
730604
2
15.83
5.150 95.6250 9.23750 201.500 9.1333 *3.0675
.016125 .006417 .l7l67 0.07958 0.85000
1444
1845
711013
710504
3
I
9.02
20.28
9.400 3.S0oo 0.21667 17 1.333 7.81)3 22.937’
.021000 .012500 0.05600 0.13350 0.96500 109.000 3.600 90.5750 0.07667 170.175 6.1133 18.9375
.047347 .019228 0.88167 0.05282 0.69514
1865
6945
1466
1846
1666
I ’41
710803
731012
710504
730806
731311
130554
2
3
I
2
3
1
10.01
8.63
136.36
I2 .20
74.00
141.86
102.000 I?.’oo 8.06319 IQ6.75 1.9643 10.3535
.061643 .038429 .30452 0.29657 I.I?619 65.000 10.760 83.9167 7.85114 194.333 1.6000 14.8581
.096325 .088133 0.05095 0.77464 1.58899 93.000 ‘.050 ‘.5?14 7.75079 195.843 5.9417 12.1429
.011000 .002000 1.64714 0.05286 9.37143 102.000 6.973 8.28571 191.714 0.58)3 9. 2 o
.011)31 .004167 1 .26667 0.11831 0.61667 55.000 3.500 9 ’.SQoo 7.83333 103.167 ‘.5700 15.45’.?
.015000 .014206 0.96143 0.16857 0.70000 132.000 6.200 93.2857 7.80000 182.571 4.757) 12.1716
.007286 .00?000 0.98714 0.04429 0.30000
1647
730806
2
93.71
2.700 8.3l ’29 183.143 lfl.lSs? IU. fl03
.010000 .0037), 0.87429 0.06289 0.37)43
1047
6946
711011
7105)0
3
I
‘6.14
0.76
6.200 85.57)4 7.8957) 173•957 ‘.9667 I5.R?0o
.015875 .013625 0.62815 0.10375 0.51250 120.000 3.600 7.13750 108.175 1.6750 12.0000
.195667 .017167 0.06333 0.06333
1848
1848
1869
710603
73)0)2
7105))
2
3
1
1.06
1.70
17.91
29.000 46.300 68.0030 9.oj)3j 173.833 11.1000 16.161.?
.I4 lo7 .015167 0.06000 0.05833 2.36667 27.000 .100 58.9167 8.35000 160.333 6.3760 2 .Sls7
.186750 .077833 0.04083 0.27333 2.6)667 34.500 27.850 I.1667 8.43633 152.667 5.53)3 18.7150
.059333 .022333 1.00667 0.06000 0.40000
-------�
TABLE B-i.
TOTAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE (Continued)
5107(1 )41 QOtf#D
? /P TOTALP 001)1717 NI)2507
tft 3 YJ( ) 51(011 CMLO TURO PH ALl 0 ) TEMP
(Conti nued)
( )
1649
1830
1 ’)
ioso
los;
1851
)95 )
1852
1852
1852
1853
1853
1853
1854
1654
los.
1855
73)001
738429
730802
7jIOlO
710502
730803
7j 3
730502
730804
701015
710502
730804
731014
710502
710606
73)013
730503
3
I
2
3
1
7
3
1
2
3
I
2
3
1
2
3
I
0.31
6.5*
9.42
3.8?
8.92
7.18
3.93
6.77
7.5?
12.12
17.38
9.44
17.74
20.12
5.34
5.85
87.91
.702000
.193722
.117778
.108111
. 112956
.036222
.038833
.016944
.026486
.028)89
.019707
.038976
.043346
.103600
.379600
.406400
.032733
.042000 0.13000 0.09000 5.40000
.063446 1.14644 fl• 13 167 0.93333
.0143)3 0.81999 0.1722 ? 1.42222
.013111 0.04373 0.37444 1.62222
.0)2722 0.2 )772 0.55556 2. 5(100
.008000 0.1427! 0.11779 I.3 44
.011500 0.06667 0.08611 1.86667
.002389 0.06278 0.05111 0.72778
.012976 0.05904 0.15992 1.15397
.016889 0.06667 0.31278 1.14444
.008417 0.1270? 0.00500 0.64413
.026720 0.10077 0.24821 0.91)90
.02)354 0.05163 0.36967 1.06206
.041800 1.96000 0.14600 1.50000
.296200 0.94800 1.08200 2.62000
.328400 0.24600 2. 13400 3.72000
.005333 2.74000 0.13800 1.30333
8.000
9.000
15.667
25.333
16.500
33.13)
32.000
76.000
103.667
90.000
189.333
105.333
152.000
40.000
54.000
78.000
60.000
‘ .soo 8.60000
10.967 18.6667 7.93869
37.900 45.5536 7.9222?
31.367 56.11)1 7.82222
27.000 53. 1067 R. )3333
31.033 61.1667 6.70356
29.067 68.1111 0.68689
.067 88.8333 8.33689
7.167 88.409) 7.99921
4.500 95.3333 7.98689
5.567 93..905 0.2 957
4.633 91.1769 7.77143
4.367 96.1667 7.806)9
31.600 77.0000 7.00000
11.200 89.285? 7.62000
9.300 93.6000 7.70000
7.550
116.000
128.056
111.889
139.000
106.333
68.989
79•944
132.66?
129.93?
131.833
183. 165
173.739
173.725
207.600
219.600
270.600
11.4000 19.0000
0.0500 13.9778
6.1900 24.S ) )
6. 1fl33 2I.64
8.63)3 16.3773
6.0733 2’.looo
6.1333 20.0333
0.9600 13.36))
6.5733 72.0220
7.4667 16.0167
10.0711 11.9600
5.7986 16.8144
5.6278 13.3349
7.5250 12.5600
3.9500 17.057)
2.2000 14.0000
1855
1655
1856
1996
1656
730806
73)015
730503
770806
7310)3
2
3
1
7
3
29.80
7.15
4.06
2.5?
8.70
.06)625
.164033
.083900
.307800
.305500
.022)25 1.4)500 0.36500 2.07500
.102133 0.06567 1.11733 2.80667
.052900 0.14200 0.19800 1.12000
.324030 0.10600 0.89400 2.02000
.236000 0.00150 2.59500 3.95000
63.000
49.000
46.000
50.000
7.75333
21.700 85.4167 7.72500
11.450 77.4000 7.65333
33.600 8.26000
10.400 91.2500 7.06000
215.167
277.000
258.067
233.200
303.600
7.1000 11.0533
2.2167 15.9667
4.1000 13.2933
0.5000 00.4200
11.6667 16.2075
1957
1857
1057
7 )01
2101
2 )0 )
2102
2)0?
2)02
2)03
2)03
2)33
730503
fl0804
731013
730529
710821
711025
7305)9
730818
731024
730525
130820
11)025
1
2
3
I
2
3
I
2
3
1
2
3
23.93
6.49
7.51
17.60
20.79
14.41
27.63
20.75
23.64
10.03
4.7
2.30
.032286
.129986
. 17357%
.024740
.017413
.0)0690
•0 I )4%3
.0)4436
.000177
.102816
.125506
.118931
.017629 0.56529 0.19)7) 0.00000
.088051 0.21829 0.62000 1.55000
.126686 0.04786 1.31900 2.23571
.007)59 0.29813 0.05354 0.265)7
.007268 0.26734 0.05578 0.26546
.008109 0.20340 0.04893 0.26566
.003329 0.26969 0.03578 0.25175
.007 52 0.19686 0.08283 0.4013)
.005415 0.07443 0.11686 0.28325
.056670 0.79833 0.10406 0.49410
.070058 0.30267 3.27725 0.68250
.054270 0.11778 0.12889 0.67083
49.000
114.000
53.500
93.000
43.714
62.286
96.897
251.500
125.000
133.500
44.500
63.500
64.000
50.6000 86.5000 7.75000
2.5900 8.11286
44.7800 86.5000 7.50057
5.1000 93.8000 1.69429
1.7571 59.6412 7.53523
7.0714 62.2)56 7.07427
2.5857 15.3617 7.l l63
2.9133 93.5397 7.8)627
6.6000 94.5609 6.95021
1.4500 95.0563 7.4)747
17.6250 81.4549 8.14097
9.2500 73.1670 7.12167
306.500
160.129
151.229
162.071
37.089
37.965
39.957
60.71)
67.498
67.629
1o).67
133.675
4.1667 13.1000
7.’503 11.03 14
3.7753 18.2286
5.4500 15.1129
8.9086 65.8003
5.6005 21.2493
4.1609 19.4968
8.7630 15.7240
4.8399 23.1873
5.2625 19.2525
6.6952 16.97)4
2.7025 21.919?
2 )04
2 )06
2)04
2 )03
2)05
2105
2402
2402
240?
7105 16
7306%4
1)102)
7305)9
770613
711023
710421
730728
11100’
I
2
3
1
2
3
I
P
3
9.05
4.45
5.12
23.43
7.91
6.65
90.97
31.93
16.77
.073769
.068068
.076802
.063)51
.060086
.035975
.000007
.011900
.0)89)7
.027629 0 67O35 0.39603 0.31775
.024880 0.20)43 0.09800 0.56300
.075631 0.3)807 0.04033 0.30380
.010090 0 76549 0.07262 0.44666
.0)4745 0.23138 0.20506 0.90011
.006553 0.08063 0.10132 0.70033
.003’07 0.65996 0.04494 0.70571
.006350 0.24875 0.12637 0.30250
.006371 0.07608 0.2166? 0.57042
33.235
42.000
42.067
54.727
49•934
38.000
97.750
144.000
121.750
86.1508 7.47 )43
6.9625 1.69804
1 1.6100 79.9671 7.64767
9.8444 80.541) 7.62093
7.9 55 75.58)5 7.99561
9.4909 76.9883 8.16930
7.4778 72.2370 7.72.17
5.2500 73.97)4 7.92357
7.8750 94.5431 6.22375
5.3250
109.477
50.432
40.077
46.646
83.9)7
8o.7 )o
98.558
10.000
11.83?
7.1296 18.3805
7 .Qo9 l9. ?S
6.9987 28.8432
7.9444 70.48)9
7.)737 I .1 79
4.6876 b.Ql66
6.9750 25.010?
11.1208 8.63A4
6.083? 20.7303
2403
7306)1
1
77.15
.0370’?
.0)0201 2.04514 0.0693) ( (.6986)
6.19500
11.317
6.0)42 17.1(93
2603
7.03
2408
2608
7107?)
731001
730’))
710771
2
3
I
2
112.49
66.62
40.86
74.06
.0)9620
.037664
.050000
.020056
.006300 1.79446 0.12029 0.59536
.006234 1.36057 0.2230? 0.9)230
.006593 1.64167 0.05500 0.63333
.005722 1.35093 0.09222 0.4016?
150.000
112.500
29.333
6.62153
7.7750 88.4093 7.57681
6•9753 65.7063 6.89889
4.9000 03.1467 4.7)447
26.750
26.625
32.603
37.667
10.3760 9.7637
5.66)7 19.03o9
9.c,3o 17.s69 5
10.7956 10.7 17
2.00
71)00%
3
46.66
.032589
.008644 0.80333 fl 39b33 0.62778
10.96o7 80.3869 7.79)67
‘0.028
9.7000 71.3667
2409
7304)0
I
11.06
.005000
.040500 0.82500 0.12000 0.70000
30.000
5.6733 66.6300 6.90222
2.8000
46.144
7.1674 04.0240
2.00
710720
2
6.20
.115900
.017500 0.55500 0.05500 1.40000
8.45000
10.000
0.6000 13.4000
2.39
710078
7
16.88
.090000
.063000 1.56500 0.09000
69.1000 .4S000
13.500
13.7500 26.0000
280%
7)06)3
1
2.42
.244117
.029233 0.33067 0.25931 0.73 1o7
72.000
9.333
30.2000 89.0000 7.19000
‘.3000 49.1167
16.500
6.0000 I .6ono
290%
730029
7
3.69
.063672
.008472 0.079 0.159 6 1.19000
25.333
l?. 50
3.3 ’ 6 23.4 5 )7
200%
71% )0)
3
6.89
.204093
.028972 0.26639 0.10944 0.76722
6.9667 70.8333 6.69464
26.944
3.6000 74.0309
2802
110412
1
6.%5
.074990
.0)3600 6.17167 (1.13300 3.67667
10.000
20.333
10.3373 16.7083 7.63333
19.333
0.0000 15.1150
2802
1306??
2
6.68
.0 0Soo
.007770 0.066) ) 0.20639
R0.01o7 6.66333
15.217
4.4639 24.o183
2802
711101
3
3.53
.074750
.013556 0.13722 0.09167 0.67778
53.000
6.2967 80.9444 6.5361)
19.222
5.7003 21.5 )39
2F04
7106)5
1
4.55
.083366
.0)8600 0.13133 0.22062 0.83417
29.250
51.1667 1.60633
14.361
8.248 ’ 11.0993
2004
26O
730827
731102
2
3
4.57
7.09
.032496
.06066?
.007246 0.05400 0.09120 1.04950
.00*107 0.04083 0.04292 0.3979?
43.500
81.5167 6.76458
13.2000 80.7542 7. 13083
13.796
18.604
6.43)2 27.4370
4.9437 28.1763
-------�
TABLE B-i.
TOTAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE (Continued)
S100U DATE R0U43
N/P IOTALP ORTHOP 002803
883 OJEI S CCHI
C0ILA TURB PH
ALK 0( 1(81
os
z os
2809
2805
4Q4
2806
3402
34Q
3402
3403
3403
3403
3406
3406
3406
3409
3409
3409
34)0
3410
3410
34)2
3412
34)2
34)3
14)3
36))
34)5
34)5
34)5
34)7
34)7
34)7
34)9
34)9
3419
3420
3420
342 ’)
342?
34 ?p
3.2?
1420
3421
1473
310)
3701
370)
3702
‘707
3702
3794
3704
J70 ’
1706
170’ .
3105
3706
3706
3706
3707
710613
730827
13110)
710614
730826
731102
730417
730123
731001
730416
730123
73)001
730416
710722
73100)
730416
730723
73)002
7304)7
730722
731002
7104)6
730122
73)002
7304)6
710722
711002
7114)7
710723
73)003
7304)1
71072)
71)001
7104)7
73o722
71)002
710418
730722
73)002
730.16
710720
7 )0928
730417
710772
711001
7)0324
73071)
7309)9
730323
730705
1139)9
7 0607
7308?)
13)026
110330
710107
710976
730326
7307)2
7)09)9
70060?
1
2
3
I
2
3
I
2
3
I
2
3
1
2
3
I
2
3
1
2
3
1
2
3
1
2
3
1
2
3
I
2
3
I
2
3
I
2
3
1
7
3
1
7
3
I
2
3
I
7
3
1
2
3
1
2
3
I
2
3
I
4.68
6.38
5.58
5.73
3.24
4.40
3.04
1.13
6.23
S.5
2.14
24.54
15.89
9•73
3.904
2.786
1.141
10.4)4
7.292
10.947
3 1.405
8.266
18.658
24.40!
8.607
13.151
7•55
6.279
3.814
7. 07
1.726
3.214
9.059
6.338
2.982
26.69
22.Z0
16.22?
7.907
16.333
13.554
9.547
11.318
9.610
6.672
16.053
11 45p
7.148
9.012
8.119
25.022
55.165
57.827
5.812
10.613
‘4,459
‘.800
7.212
3.973
10.800
.004858 .01)958 0.2)075 0.11058 0.40583 l8. 00 9 . ooo 76.2750 7.5Q250 16.292 4.5367 22.6QSp
.030375 .009250 0.06000 0.13 )26 0.60 1,25 46.250 4.9250 89.8875 6.64376 ?l . 181 3.1000 25.5947
.028562 .008687 0.03750 0.1043? 0.31875 52.500 4.9500 46.8750 7.96200 .500 7.3500 lB.4Q37
.093289 .012444 0.2Q72 0.23757 0.53774 12.000 6.4567 63.8000 5.79714 10.456 4.4347 23.2472
.044222 .007722 0.09500 0.149)7 0.73056 36.667 3.6330 80.5276 6.56944 22.444 3.SAOO 26.5306
.046778 .0)0944 0.09111 0.05774 0.41189 21.000 ?.Sbe .7 10.0000 p.30556 16.778 8.3722 1 .?003
.045500 .006000 0.14500 0.06000 0.50000 34.000 03.4000 89.0000 7.45000 19.000 11.4000 lI.eSoo
.082000 .0)2000 0.12500 0.12500 1.65000 24.000 57.5000 35.0000 1.90000 29.500 7.6000 25.ISoo
.106000 .014000 0.05500 0.06500 1.70000 18.000 5 .6000 8.60000 21.500 10.8000 18.8000
.0)0187 .005875 0.04208 0.05043 0.42500 72.000 14.0000 61.8889 1.79375 16.729 12.1633 9.3447
.0339)7 .017181 0.060)7 0.1201? 0.58333 92.000 14.2000 89.3254 6.60500 20.1)7 5.4400 23.1104
.040083 .01)050 0.02050 0.07050 0.65833 88.667 6.8667 94.6000 6.61000 13.067 7.713) I9.l70
.045500 .004000 1.05000 0.06647 0.48333 36.000 27.ôSno 43.0000 7.13333 65.833 1 1.1250 10.6661
.059833 .011000 0•77313 0.16833 1.05000 41.000 12.3500 80.6667 7.94)33 78.667 5.4500 ? .8500
.066333 .008250 0.55)67 0.08417 1.73333 35.500 26.8000 7.85000 83.467 8.9000 19.9)47
.046500 .0)62500 0.12000 .062500 0.62500 36.000 12.3000 31.5000 7.65000 22.000 11.6500 13.0750
.100500 .0155000 0.14000 .I’0000 0.90000 36.000 38.1000 79.5000 7.80000 26.500 6.2000 25.0500
.126000 .0107500 0.04750 .060000 1.47500 33.000 66.0500 8.27500 44.000 8.0000 18.7150
.054417 .03)0000 0.49083 .070833 0.30667 52.500 8.1500 97.5000 ‘.27500 36.147 10.5240 12.4750
.121250 .0360000 0.64500 .236667 0.75000 22.000 .3500 67.5000 1.1)667 50.000 5.8500 21.54)7
.064000 .0)04313 0.0)833 .07)333 0.50000 )b.000 51.0000 8.78333 74.167 12.7000 ) .‘667
.044500 .0060000 1.10000 .310000 0. 0OQO ‘9.000 1.5000 ).OQ0O 5.25000 10.000 11.0000 13.4000
.IlgO oo .0265000 0.97500 .505000 I.2 oø 24.000 8.6000 56.5000 5.’5000 10.000 6.5000 22. 0oo
.082000 .0)00000 1.22000 .310000 0.60000 36.000 10.3000 S.60000 10.000 7. 0000 20.5000
.039833 .0096667 0.83500 .083333 0.43333 36.000 1.9000 86.3333 6.60000 10.700 10.0250 12.0?))
.092)61 .014666? 0.50500 .248333 1.31667 35.000 9.5500 69.2667 6.21667 12.500 6.0433 23.1800
.0544)3 .0)16467 0.56000 .160000 1.06467 43.000 l3.*000 6.36667 15.667 6.3500 20.2900
.017103 .fl360667 0.00843 .038333 0.36833 69.600 22.8000 75.3)67 7.78000 15.183 11.8493 10.2)60
.0329)7 .0)25587 0.05063 .141167 0.60367 90.800 10.0400 94.1702 6.8)300 25.087 5.0810 22.3295
.0’I627 .0)7)733 0.02250 .151967 0.68533 90.600 8.0400 6.73267 30.5Q7 6.4843 18.2573
.021000 .0120070 0.15000 .050000 0.60000 60.000 9.4000 7.90000 24.000 Ifl.8000 l .S0o0
.081000 .0220000 0.05500 .085000 1.00000 72.000 20.1900 91.0000 8.05000 33.500 0.6000 20.9500
.024000 .0060000 0•0)OQO .060000 0.80000 60.000 3.7700 6.90000 13.000 0.0o00 19.3000
.117750 .0775000 0.94150 .09G000 0.30900 34.000 3. S0o 56.0000 7.85000 9 .75o 10.1500 11.4000
.127500 .0701500 0.68500 .132500 0.87500 27.000 4.4900 79.5000 7.37500 2.00Q 7.0000 21.6150
.202750 .0012500 0.50750 .067500 0.5 )000 53.500 12.7000 8.32500 1 )6.250 10.8000 17.2750
.018)00 .flOSSIal 0.45950 .026131 0.23000 50.000 l .3flao 41.3833 8.04)67 24.100 11.0150 111.4 .13
.020175 .0064750 0.23625 .2)5000 0.90000 43.000 I’.OOoO 88.9659 1.1)150 35.250 •.0009 ) .I733
.020300 .0092000 0.04000 .376000 1.07000 71.000 9.7000 ‘ . 3000 31.200 6.7006 11.9400
.029500 .0)65000 l .?8333 .130000 0.40900 34.500 2.7500 96•9333 6.7 333 10.000 10.0500 1 1.8600
.0678)3 .°l900 0 0.9)667 .188333 0.84333 33.500 39.2000 6.95661 10.000 5.8000 25.5)67
.070333 .‘)243313 0.87 )33 .080000 0.96467 40.000 26.6000 7.43333 11.667 .00o0 20.3667
.0)7778 .n06#I )i 0.09577 .035)330.34222 93.331 0.8067 9.7I67 7.4 278 12.011 1I.QnH’ 0.Qojg
.0l?asT .00736 )9 0.094)0 .0.5044 0.69048 186.000 8.2000 92.3526 6.678)0 13.738 5.8000 18.3879
.0)5928 .0051))) 0.05633 .045222 0.52189 156.667 .I567 67.oooo 6.52722 15.806 ‘.7033 17.1166
.111221 .0218607 0.56687 .109333 0.42)85 10.000 4.5000 51.4859 7.37655 12.504 9.0668 12.1164
.038603 .009)000 0.38200 .156964 0.45406 34.500 6.1000 53.1)67 7.04306 26.100 2.40).9 73.6536
.023667 .0006056 0.20547 .165556 0.61056 51.250 10.6750 81.0111 6.53778 23.589 3.5937 23.1 .61
.098867 .0394000 0.56167 .164500 0.66500 10.000 2.4667 73.8607 1.23000 17.511 I0.033) Il.’ l50
.065722 .0)36)11 8.46574 .124)57 0.44A 1 ) )5 333 6.7000 ‘2. 1 11 1 7.26)1) / 1.750 5.27/220.715’)
.068389 .06)2500 0.78750 .063066 0.25656 44.000 6.0133 41.5833 6.06464 24.406 6.0/22 26. 1966
.036748 .0073787 0.313)6 .190979 0.3.99) 56.667 2.9000 68.3836 0.93880 10.728 8.238) 15.7976
.0)4445 .7064766 8.3227) .246226 0.57050 114.000 6.6143 09.6040 6.27374 12.3)7 5.)644 2?. 1339
.0)7869 .004769) 0.49349 .264232 0.52637 )64. ) 3 2.5000 66.7696 5.3448? 10.304 5.0347 10.1654
.063392 .0)32583 8.25396 .09679? 0.22)67 21.000 3.2750 63.48)3 7.51000 10.800 Q• )944 II.7 ’2
.036271 .0069583 0.12967 .2)1258 0.53333 ‘5.000 5.3000 82.4208 .l”200 12.47) S. 17I 26.0675
.04082) .0083042 0.06233 .324125 0.7229? 51.000 l?.2500 89.9458 6.77815 17.775 5.4562 23.0856
.179939 .0229014 0,46630 .153014 0.365)0 10.000 1.0000 40.99)) 7.26804 10.436 9.3619 11.0479
.072896 .0)43333 0.28604 .2)0000 0.7)042 28.667 15.7000 39.1250 7.25208 2 1.229 5.44)7 27.3333
.068958 .0142167 0.19683 .078833 0.67333 30.500 23.3500 59,34)7 6.73000 22.225 6.4750 24.1650
.029723 .0080877 0.18869 .08)603 0.23508 48.000 5.4600 74.5119 7.19250 10.3)7 8.4106 16.4633
(Cori±inued)
-------�
TABLE B-i
TOTAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE (Continued)
STORU OAT( ROUND
N/P TOIALP ORTHOP H02603 063 OJEL SECCHT
CIlIA TURD PH
617 00 1(68
3707
3707
3708
3700
3708
3709
3709
3709
3710
3700
3710
3711
3711
3700
3703
3703
3703
3715
3715
3705
3116
3706
3706
3707
3717
3707
37)8
3708
3118
730623
731026
730321
7307
700924
730324
730705
730920
730330
730707
730924
700402
730700
730909
730329
130700
730919
730330
730706
130924
730603
730822
73)026
730322
730707
770920
73037’
730105
730920
2
3
1
2
3
I
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
I
2
3
12.290
6.244
12.01$
8.443
18.044
20.326
10.673
6.060
09.220
01.550
8.660
16.345
5.854
9.565
22.434
19.063
‘.296
5.66w
3.809
$? 397
23.123
10.419
7.685
10.119
16.354
6.330
00.182
05.346
.015560
.040820
.006455
.021083
.044750
.024500
.034661
.064600
.024300
.0 ’5000
.042972
.011061
.013156
.044070
.007010
.011270
.078350
.057917
.056601
.606094
.010106
.0)2229
.088043
.040710
.017667
.025 7
.101821
.006858
.0080542 0.00143 .088458 0.28500
.0136400 0.18973 .046133 0.27267
.0061705 0.1460’ .067038 0.38457
.0064114 0.06097 0.1202’ 0.40429
.0077500 0.67500 0.13258 0.27500
.0072500 0.34000 0.18256 0.35000
.0033333 0.02000 0.25000 0.90000
.0032333 0.26667 0.13133 0.37600
.0065667 0.08700 0.07233 0.29333
.0075000 0.13000 0.15625 0.65000
.0070778 0.26667 0.07450. 0.25500
.0031500 0.17161 0.10511 0.29000
.0076222 0.03400 0.0426’ 0.37778
.0063070 0.26936 0.08240 0.27029
.0030667 0.24007 0.10083 0.50100
.0061267 0.00020 0.07907 0.48200
.0249667 0.24350 0.08567 0.26333
.0134167 0.16333 0. 1 )150 0.47500
.0233333 0.08944 0.10600 0.50833
.0043484 0.00252 0.08532 0.26090
.0053540 0.12318 0.0973’ 0.36797
.0112810 0.04849 0.08014 0.23733
.0240700 0•49747 0.07870 0.40667
.0069e0? Q 3b300 0.08843 0.44000
.0075933 0.20773 0.06647 0.53967
.042)250 0 63542 0.05708 0.41250
.0513214 fl 60964 0.25357 0.50570
.6447750 0.49900 1.000PO 2.29750
.8037500 0.06750 0.45000
nO.500
43.200
75.200
95.000
24.000
42.000
44.000
18.000
50.000
54.500
20.667
43.667
43.333
21.000
76.800
62.200
29.333
32.000
52.333
168.000
017.000
105.200
17.200
70.200
43.800
27.000
32.000
36.008
40.000
4.0833
6.1000
0.8400
6.960
0.500
2.008
19.200
0.600
2.000
9.200
6.008
4.700
7.167
6.840
3.600
6.980
3.300
2.300
5.113
4.920
6.900
5.260
2.988
‘.920
10.580
0.300
0.258
1.000
5.260
91.3986
19.0667
89.5524
82.3724
70.5000
80.1500
88.3333
52.9000
83.3000
90.3750
65.3000
61.3444
76.9111
84.6243
85.7600
64.0833
63.7500
79.0833
92.0619
98.46)6
85.7000
29.7250
72.4367
65.8467
73.7901
72.0079
60.4600
79.5000
6.13417 10.671
1.68733 14.093
7.54033 03.094
6.65000 I..S03
7.47500 1l.’ .fl0
6.27500 lo.’SO
6.40000 20.333
7.54000 10.000
6.60333 16.833
6.72500 17.875
7.06309 11.278
6.60944 I7 43Q
6.60667 14.622
7.00057 10.073
6.80633 20.fl13
6.42733 15.980
7.64667 00.000
7.32500 17. 17
7.01101 14.0.11
4.67505 18.136
0.43304 l0. ’ 52
6.60033 10.000
7.24033 17.287
7.02600 35.563
6.61)67 17.707
7.50000 12.375
7.43750 34.446
6.70750 62.375
6.07500 10.000
6.925)
l0.oinO
6.5009
3.7800
0.8000
5.2333
0.5333
8.8500
‘.7125
5.0000
9.736)
3.9860
5.9111
9.7040
4.0020
4. )967
9.6407
7.0009
5.4089
0.1614
4.7776
5.9167
10.6367
4.4000
4•9973
10.0200
4. SI ’ 7
0.7500
9.0000
I0.70
00.4007
21.6730
21.7679
9.2000
21.0000
20.4667
12.1767
23.7000
23.7750
12.8601
26.3261
26.7622
02.3145
23.9Il
25.0791
10.0313
22.6500
72.8750
16.6011
20.502)
04.0865
13.0280
26.5063
76.00)3
00.2667
23.4160
20.2075
1’.0500
3710
3710
730322
730705
0
2
3.832
8.006
.040250
.0)6250
.0040000 0.05250 0.07750 0.02500
0.05250 0.87500
42.000
30.000
2.450
3.050
89.2500
06.7500
7.07500 11.750
6.02500 00.500
6.7000
6.5500
29.8000
26.0000
3719
730920
3
5 .Q39
.006000
0.04000 0.60000
12.000
‘.380
15.0000
0.20000 34.000
7.5000
15.0000
3900
3900
3901
730420
730730
731006
1
2
3
32.471
7.09)
10.131
.000000
.200000
.132000
.173000
.0130000
.0330000 l•6 1000 0.36008 1.70000
.0035000 0.96008 0.38000 0.45000
.0263333 0.22)33 0.06000 2.05000
8.900
03.000
6.667
10.400
4.900
241.007
0.0000
26.3333
7.40800 102.000
7.00000 75.000
9.05000 43.333
3.4000
5.0000
9.8333
24.7000
I7.b000
15.1500
8807
iQ0Z
730426
710730
0
2
)•577
4.273
.080556
.0061III 0.53722 0.190)1 2.27778
.0315000 0.20500 0.21333 3.45000
12.000
11.333
041.167
)7%..07
22.7222
6.60000 75.809
8.81667 70.167
7.210)
6.6667
75.5056
20.6087
3002
73)009
3
1.720
.0070833 0.73833 0.00333 0.92500
24.000
63.500
32.5000
8.52500 l3I. 17
10. ’lll
13.4750
39Q5
730420
I
14.469
.o1563 13 0.3)600 8.07330 2.05133
13.000
77.300
16.2500
8.0)667 133.667
0.0000
23.679?
3535
110727
2
3.430
.0035000 0.04000 0.06667 1.61667
15.333
66.633
8. 166b7 140.667
0. 1313
10.1867
3900
73)006
3
0.819
fl•09350 0.80722
02.087
01.433
13.1556
0.01718 087.018
0.5863
17.6644
3Q06
730420
0
28.758
.177433
.0094750 0.09075 0.54750
42.000
4 Q5Ø
50.5476
8.37500 191.125
‘ ..7759
2S.9II
3906
710001
2
55.529
.092875
.0223333 0.92661 0.00750 0.99167
30.000
6.067
75.9067
4.20187 200.833
7.’.133
20.0167
0906
710010
3
13.091
.063 ’17
2•06667 0.05501 8.86667
00.060
13.767
32.0250
8.17500 170.000
8.022 ?
14.6008
1007
730426
1
20.653
.100750
2.99583 0.04583 1.04067
13.607
0.700
42.1667
7.99107 154.600
5.000
24.7 I7
1q07
jgo,
710800
701010
2
3
10.441
10.021
.000417
.101056
.0216667 0.02500 0.10111 0.24444
.0)40556 1.46001 0.23)94 0.08056
18.000
)7 .333
10.100
06.467
33.4444
48.6944
8.02776 150.000
8.05833 133.111
6.5444
8.7056
19.0133
I4.46 4
1908
730426
1
10.370
.150778
.9515000 1.22417 0.23500 1.56667
04.000
37.300
29.3000
7.85613 113.01 7
5.0000
24.1700
7904
710730
2
7.36
.205500
.0513833 1.75333 0.S04I 2.90833
20.667
31.713
7.90000 042.087
5.4000
70.0750
3Q05
781008
3
6.409
.230750
.oloSooo 0.37750 0.35000
16.000
.S. S0
14.0080
7.47500 62.250
‘.2500
25.S7’0
0902
ionooi
2
6.350
.1e4750
0.20167 ..58333
02.060
73.650
17.1067
0.00000 54.008
6.0000
2i . lT
3902
730009
3
1.556
.202187
0.08240 0.63848
30.700
07.825
8.00595 94.064
I0.I07
I?.31 2
1904
710476
I
36.808
.051049
0.13271 0.93250
32.750
4.550
65.8417
7.79292 l.192
‘.7729
23.1233
39)4
730800
2
16.363
.046729
0.00250
44.250
02.875
69.235
7.0654 101.096
-.5792
09.7268
30)4
3005
731000
110504
3
1
09.41
15.93
.058250
.055667
.005062 0.82896
.005067 0.70333 .075000 0.98333
.036667 2.6166?
15.333
07.000
53.033
005.313
40.000
13.667
8.6500 054.333
8.7167 077.687
00.9000
6.4661
02.0133
23.0 ,000
3915
730802
2
3.03
.027667
.037178 0.07111 .111111 2.10000
12.000
71.400
77.333
8.4550 1l5. 49
3.) B ’
l9.20fl
3’lc
3907
71)001
710504
3
1
0.31
11.27
.185000
.006500 2.02250 .095000 0.75000
.175000 2.25000
5.000
6.000
149.058
103.’50
7.500
12.900
8.6000 154.500
8.3500 030.000
0.0000 02.1000
7.2000 24.4500
7907
730001
2
6.72
.204500
.016000
7.000
50.900
10.250
8.4500 138.000
7.5000
19.7750
(Continued)
-------�
ThBLE B—i.
TOTAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE (Continued)
STORE! DAT( ROUND
N/P TOTAl_P OPTHOP 10029fl3 NH]
KJ(L SECCHI CPI.A TURO Pl o
*10 0( T(MP
3923
3973
3921
3924
1924
392’
392?
3927
3927
3928
3928
3926
3929
1929
3920
3931
3431
3931
3432
3932
3932
3933
3033
3933
3934
1934
39)4
4701
420)
‘201
4204
4704
4704
4701
4207
‘207
‘711
8151
47)3
4706
4706
‘210.
‘219
4259
‘219
4770
4720
4220
‘?2 1
4225
41.’?
4777
‘‘72
‘.‘23
4??)
‘223
477.
4224
4724
‘225
‘725
730421
7307.30
7)1009
730420
730130
731005
730504
730801
731011
730420
730730
731008
730424
710730
73100$
130426
7ioeoz
7310 1 1
730426
730601
711009
710.28
730801
731009
710425
770130
73 )006
730453
7’0724
7)1002
7’O ’ ?I
730727
731005
7164)7
710724
731003
710421
71073)
731006
130420
73073)
7 )1008
130473
710128
735005
7a0 .57
130774
73)004
710727
795004
130 .52
710123
720002
710473
710125
730004
710457
1)0773
13500)
1)0413
713774
I
2
3
1
2
3
I
2
3
I
2
3
1
2
3
3
2
3
3
2
3
3
2
3
1
2
3
I
2
3
1
2
3
1
2
3
I
2
3
I
2
3
1
2
3
)
2
3
2
3
1
2
3
I
7
3
I
2
3
1
p
4.59
1.90
‘.44
33.97
6.07
1.10
1.04
1.96
1.07
44.6
5.62
3.50
21.97
10.44
5.64
15.41
4.04
6.75
7.65
7• )7
33.98
33.3)
7.17
16.36
3.3!
3.99
20.12
15.40
14.35
12.59
4.15
5.05
23.33
53.35
9.07
9.67
7.18
0.93
14.33
3.79
3.82
1’1.13
7s.96
51.16
95 57
56.36
55.67
4.59
2.49
50.31
16.08
14.05
020.94
39.95
3? 37
02.27
9.50
4.10
112.01
5j 4
.033167 .005833 0.08000 .070000 0.85667 37.500 29.000
.078567 .007500 0.07500 .070000 1.20667 26.000 51.150
.108167 .007667 O.0 250 .?2los7 1.48657 38.500 2 .65o
.023500 .006567 0.0 )961 .03033’ 0.31667 45.900 37.000
.054083 .012000 0.17167 .130147 0.8060.7 41.000 17.300
.046957 .011083 0.16500 .086647 0.68333 *3.500 14.250
.213500 .033525 0.10875 .105000 2.61250 4.500 100.925
.127500 .0132s0 0.14500 .107500 2.10000 17.500 82.100
.193750 .012253 n.05230 .082500 1.37500 25.500 54.475
.025000 .004750 0.89000 .052083 0.37500 41.500 8.575
.048458 .006625 0.061 6 .546452 0.71458 31.500 24.575
.053708 .0O 042 0.08911 .067500 0.71500 41.000 16.175
.067476 .020063 0.89131 .088810 0.75905 35.000 16.264
.059003 .007854 0.32271 .368956 0.89375 32.500 11.500
.066861 .007053 0.25711 .098661 1.03833 32.200 16.540
.218216 .166971 3.14286 .125905 1.01048 15.333 6.133
.233400 .161689 3.62011 .273333 1.47222 17.333 3.361
.517933 .337044 5.44289 .443778 1.64689 29.333 7.067
.125722 .017917 0.60917 .097776 0.76667 20.000 54.067
.084633 .009663 fl I45A3 .427667 1.14633 29.333 47.347
.092133 .012200 0.05111 .608500 1.69000 31.667 17.633
I4475o .012000 3. 0000 .057’ .oo 1.03750 18.000 50.650
.076125 .009000 1.93750 .503750 1.47500 29.000 27.’SO
.071250 .004500 0.15625 .361250 1.63750 30.000 40.600
.021806 .006194 9.2812? .067778 0.60278 36.667 25.533
.074063 .010056 0.06639 .1 ’9 ’ ’ 1.97778 29.333 53.200
.075833 .0133)3 0.03056 .258)33 1.21657 35.667 34.400
.068694 .064528 1.33333 .047500 0.24567 30.667 7.900
.062500 .072000 0.78250 .322500 0.60833 01.000 10.333
.178167 .093583 1.2o500 .101331 1.01667 57.000 40.900
.019500 .006375 0.20875 .036259 0.41500 105.000 ‘.050
.031233 .012033 0.03767 .040009 0.54667 107.000 ‘.450
.07)433 .027700 0.02000 .337647 5.09133 07.000 11.200
.076841 .017198 1.67302 .065114 0.87222 38.000 4.lsT
.075111 .023500 fl 8O77.’ .168)89 0.94727 26.667 51.633
.072194 .022833 0.26260 .363849 1.26389 54.167 16.2)3
.046271 .007792 o .? 79 .075000 3.00900 49.500 26.075
.095046 .004S ’ 3 fl .09 59 .995891 1.11467 20.250 70.575
.I’9375 .012856 0.04593 .083159 2.23750 27.000 70.400
.0)6778 .001556 0.44722 .041944 0. .8)33 36.000 12.167
.065389 .009)67 0.05694 .075533 0.96133 32.000 ‘5.033
.979811 .006222 0.17500 .089669 1.00151 45.033 21.200
.007875 .005675 0.98950 .057500 0.25750 512.000 ?.3 5o
.01073? .006)19 0.64569 .082079 0.307)4 005.000 °.650
.0)26)3 .009000 0.50767 . 11868 ’ 0.35000 108.500 1.350
.0)0040 .90 .3 . 0.86466 .03)415 0.26550 529.090 4.513
.952300 •fl 044 9 9 9 0.50976 .111511 ‘.29778 106.000 6.7667
.011817 .0065012 0.52992 .552698 0.35968 168.oS7 3.2667
.027900 .0053313 0.00000 .053333 0.53333 77.000 23.3000
.076000 .0085000 0.02500 .040004) 0.50000 72.000 12.’000
.0062)2 .0056036 0.52139 .043929 0.36796 120.000 5.4500
.0lI 37 .4’0h16 7 0.09333 .087504’ 0.11457 222.000 7.’600
.023464 .0047355 0.13750 .098452 0.2oP lo 144.000 .I000
.005000 .0043444 0.53811 .081778 0.22500 002.300 0.6331
.010022 .005094’ 0.3083) .097500 0.55778 354.700 7•41)3
.053783 .005880.70.53967 .7 7) 7 0.7333) 85.333 7.1547
.01)000 .0060000 0.10000 .034000 0.25000 60.000 1.8900
.020000 .0050000 0.09000 .500000 0.50000 50.000 50.5000
.057000 .0040000 0.03000 .050000 0.40900 60.000 4.3000
.027667 .0)51667 2.96333 .050000 0.31667 14.000 2.8500
.044133 .0514583 2.02500 .255661 0.75000
76.833
52.833
71.000
08.03)
66.500
b.0b3
49.500
53.125
49.722
64.438
85.675
88.095
65.125
75.261
3 1.2o7
21.911
46.544
43.278
42.4)0
61.917
16.875
44.)67
61.375
60.689
64.843
‘7.500
82.976
78.063
‘1.500
84.833
92.200
48.391
80.389
80.646
71.646
83.306
75.750
85.333
68.800
94.727
77.77k
90.556
98. )3
86.000
94.000
86.000
81.6))
86.911
88.689
9a. , o
80.000
62.000
67.000
1.9000 36.667 ‘.0750 12.0.367
7.60.67 50.661 5.9500 24.I’.0
7.43.33 ‘‘. I1 5.7833
8. 6b7 104.767 02.1125 15.5733
8.0500 132.917 4.59)7 24.1000
T.”17 1.1.500 6.7000 I .5eI7
1.9)75 104.750 8.0500 12.2400
8.SSO o 92.250 7.5500 23.8000
9.0500 69.250 9.4000 20.5675
8.368? 39.875 10.6250 12.518,
8.3540 50.063 8.0958 25.5708
7.9563 56.003 7.7583 19.1207
7.8840 62.871 9.2990 13.9702
1.8979 67.470 .2202 24.3779
7.$l8 92.217 6.6667 19.031,
7.6324 183.101 6.0167 13.2990
1.64)) 190.967 3.5533 21.6712
7.597$ 181.044 3.0844 18.3256
8.3611 048.039 9•9733 12.1389
8.0283 157.117 3.5078 ?‘.0?54
8.2133 IS .5o7 5.9000 21.2467
8.5570 173.415 12.0433 17.3625
8.2250 164.125 ,.e500 73.6633
8.2125 144.125 4.4500 21.0750
6.6972 83.69, ai.ocoo 52.6694
8.3056 79.167 6.7000 2...R33
7.6778 69.SSb 6.2222 19.5167
7.6694 84.667 1) 4S55 6.4500
8.5167 102.750 6.9167 2’.’ 1 55.
7.6333 142.500 7.2167 17.5000
7.9675 59.S00 11.263) 10.3675
7.7267 ‘4.300 ‘.2250 2I. 033
7.2650 70.600 6.6667 16.7500
8.3246 31.55? 11.7889 10.1056
8.1272 44 )67 3.7244 27.1917
7.3056 64. 65 4.4422 20.7056
8.3167 38.196 10.479? 14.0571
8.7750 ‘0.342 6.0754’ 24.4857
8. ’375 31.250 9.5250 16.4411
9.7026 35.722 57.4633 13.0100
7.0056 61.718 5.2279 2’.6590
7.0.567 65.944 7.4444 1A.I4 i
6.0700 13.525 11.6333 lI. P0o
6.7732 50.208 6.2675 21.344?
6.9467 10.600 6.3000 09.7167
7.4453 10.844 13.4989 9.3313
6.6744 10.0000 6.2722 70 ..9’p
6.2706 02.8050 5.5667 07.6070
7.6000 44.3333 ‘.4500 21.5667
P. soo ..M.onoo 6.6000 37.4000
8.5759 I’.5 ’82 11.9957 6.7774
6.9500 28.4561 7.6800 57.9653
6.4635 70.87,4 ‘.070? 17.5788
6.8750 11.3556 10.4,17 10.9050
6.2100 10.0900 6.9367 70.4305
0.3033 12.4400 ‘ 43R) 55.4009
7.4500 10.0000 00.6000 10.9000
4.5000 50.0000 7.0000 27.7003
6.0000 10.0000 6.2000 17.5000
7.6667 38.8333 01.0000 9.4000
(Conti nued)
-------�
TABLE B-i
TOTAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE (Continued)
6/P TOTAIP npTur’P •r ’5n)
•183 0J(L 5(7011 COLA T000 r.1 -fl r l
4725
4226
8226
8726
4227
731003
730413
730724
731002
730417
3
I
2
3
I
39.97
10.00
7.5?
6.66
5.97
.048167
.023667
.032?50
.052000
.01403)
.0113333 1.57667
.0000000 0.19000
.0076687 0.07083
.CI4IOS7 0.0510?
.0082500 0.05313
.100000 0.75000
.046667 0.40000
.165000 0.08333
.795000 1.26667
.035833 0.358))
40.000
24.000
57.800
60.000
81.000
21.7500
12.0000
14.1000
15.7500
2.5600
84.675
79.750
85.000
8.5667
7•7543
7.586;
6.7833
7.1333
78.0000
20.2600
S0.Ih07
bI.6 ’61
Io.oooo
0.0000 15.o .o)3
10.0500 10.3917
5.9500 75•
8.5333 I .4’co
11.7500 9.6917
.221
.221
4228
.226
4228
4220
4229
4229
4503
730123
711003
730817
730723
731003
730412
730723
731003
130402
2
3
1
2
3
I
2
3
1
6.74
5.00
12.00
11.25
0.33
20.22
12.12
7.77
3.35
.028167
.040000
.015000
.016000
.015000
.013325
.010350
.046754
.169061
.0071561 0.0958)
.0065000 0.05000
.0070000 0.14000
.0040000 0.07000
.0040000 0.03000
.0067500 0.23517
.0077500 0 0947S
.0203792 0.02600
.0291111 0.32044
.054167 0.41661
.110003 l.0000o
.040000 0.50000
.110000 0.60000
.055000 0.60000
.03083) 0.26033
.125000 0.40250
.275708 0.91125
.230889 0.5866?
57.000
10.000
60.000
60.000
33.500
58.500
171.000
06.750
2.000
6.5000
5.7000
42.2000
5.8000
6.7000
7.1750
0.8500
12.0250
2.4333
01.667
73.000
84.000
86.000
86.450
92.563
5.6750
5.8507
7.8000
5.7000
6.1000
8.7425
6.4125
6.5711
7.2022
10.0000
10.0000
10.0000
10.0000
10.0500
12.5000
18.8125
20.2500
10.5556
6.4000 21.7333
.10O0 15.4500
10.7000 10.0000
7.1000 72.4000
8.8000 17.1000
11.6275 1.1517
8.8771 20.3775
6.0917 16.9000
7.8500 15. ?50
4503
4503
4504
4504
4504
4505
4505
4505
4506
4506
4506
8507
4507
730707
730922
730320
130709
739910
730627
730915
711113
710327
130110
730922
730127
7)0709
2
3
1
2
3
I
2
3
I
2
3
I
2
4.47
2.90
5.51
9.05
7.23
15.94
10.79
15.13
3•95
6.63
4.04
6.22
15.42
.125022
.114667
.090896
.045500
.106046
.015357
.016833
•017301
.072047
.050750
.062875
.042098
.026203
.0600444 0.37822
.0646667 0.21917
.0187500 0.40062
.0091125 0.15787
.0194500 0.15925
.0031766 0.11943
.0049080 0.05119
.0080655 0 05393
.C 116528 5 74387
.0103750 0.17833
.0136944 5.13639
.5100357 0.26969
.0073812 0.19271
.183333 0.88667
.114167 0.50000
.082708 0.32500
.218875 0.65575
.341503 0.91250
.099675 0.29667
.087710 0.37383
.0c Q l’ 0.39629
.04700) 0.41940
.I)79I 0.75000
.071528 0.58611
.041619 0.32143
.109751 0.66834
20.000
29.000
19.150
57.000
31.500
125.083
80.583
65.000
22.000
36.667
29.500
49.657
85.71.
3.0667
2.9333
5.7750
10.4150
0.2500
0.0750
5.2313
1.6750
8.2607
9.8500
8.0067
5.7286
7.ll 3
61.501
73.750
50.667
79.587
48.646
88.595
63.293
81.674
63.111
82.083
66.806
84.190
84.922
6.9000
6.7500
7.1062
7•385o
6.7258
6.8096
6.1014
6.4594
7•59 .
7.0250
6.63.?
7.5340
6.8954
19.3)33
23.00)3
12.1875
26.2125
18.3003
14.0757
17.S587
13.8113
Io.6 2o
23.6067
14.5500
13.5057
19.319.
6.0917 27.9111
8.9000 26.5167
8.4708 15.0042
8.1875 26.782;
4.0750 28.5837
5.4099 28.2110
4.5318 75.6716
7. .PSt. 16.7097
6.7528 15.1.683
6.3063 29.8000
5.5309 28.6122
9.2516 17.7864
3.6545 23.9354
8507
8.00
730522
715)22
3
I
8.64
59.91
.02848)
.0)2950
.01)2048 0.04585
.5540167 s 88383
.172595 0.50888
.001333 0.38667
89.718
40.000
4.5000
6.6000
50.519
87.10)
6.5685
6.1667
27.7857
10.0000
3.7300 24.6709
7.5250 15.856?
4500
8608
4510
730706
7109?)
730)30
2
3
I
15.02
15.81
4.85
.017218
.013778
.115946
.5081944 0.11111
.0122222 0.06122
.0807321 5.35277
.147272 0.85278
.090556 0.69444
.16500° 0.45536
36.000
39.667
14.250
2.8667
16.5661
3.7500
84.122
86.000
5.8389
6.0000
7. 170
10.0000
10.0000
16.8511
4.8889 30.5917
6.73)3 20.8722
8.0750 lo I652
4610
8510
730706
7)5521
2
3
4.23
5. 5
.088333
.062675
.a273750 0.205)7
.0322250 0.16182
.168375 0.43125
.141593 0.62250
28.500
10.250
9.0750
12.4000
73.604
81.067
7.30b?
7.0682
21.2700
19.9417
4.5892 28.0417
5.7000 20.6382
‘ lI
710387
I
7.212
.069267
.1317333 5.32867
090150 0.783)3
15.750
8.26?
7.41167
13.142
°.4512 13.4075
4511
7)0712
2
10.828
.033725
.005550 0.16712
.105750 0.48125
‘6.333
6.275
65.8181
4.74750
20.075
8.07u6 77.766?
4611
4612
710520
730328
3
I
6.075
5.290
.030875
.045968
.OIIolg 0.07875
.000150 5.22617
.107081 0.59792
.0)4167 0.3bISO
46.000
24.571
0.650
15.183
87.0208
78.4762
6.41667
7.04088
12.013
14.017
4.8617 ?7.479
.66#? lS.’(.5
4 l7
710109
2
8.064
.024575
.006325 0.05000
.102187 0.71750
52.667
7.503
53.3167
7.26003
26.167
6.1158 29.7967
8512
7)052 )
3
3.9)0
.010153
.006200 5.0)125
.080560 0.46528
60.000
8.850
95.6944
6.97639
16.531
7.1000 27.1539
‘511
710625
I
23.191
.009112
.002440 0.14633
.s52’7n 0.72207
110.000
c.o5 0
85.7356
6.65427
16.101
6.64)5 16.9207
4513
710517
2
24.386
.007265
.008680 0.11368
.056s75 0.78274
115.150
2.775
94.065)
6.11637
11.14)
•.8577 20.9643
461)
7)1113
3
11.896
.012672
.00)208 0.07110
.Q)99 17 0.72667
159.000
1.075
06.5473
0.13650
17.719
4.5998 13.7808
‘514
710626
0
.Do3
.050944
.05581) 0.17)67
.270718 0.71556
‘8.1300
21.233
sQ.0?22
7.30778
16.856
4.s b? 2 ’.29’4
4614
735518
2
4.047
.008800
.02193) 0.21005
.126222 0.16000
20.000
1.887
38 4444
6.74000
10.0..9
3.7033 24.2530
45)4
‘615
45)5
731114
7 )0073
770510
3
I
2
15.320
4.724
4.551
.064533
.060542
.073000
.004So? 0.17517
.005582 0.18752
.001000 0.14500
.358667 0.91033
.597500 0.20000
.085000 0.46250
81.687
l .500
27.noO
5.067
7.000
1.150
90.3167
73.0000
60.5000
6.60833
7.22917
6.38150
27. 00
13.417
17.500
6.0)11 I ). 1689
7.6667 27.2000
6.5750 71.2375
8515
711114
3
3.770
.040600
.006875 5.10750
.075005 0.23750
24.000
1.150
74.8313
6.06250
15.000
I0.?SuO 14.8/08
‘516
‘ ‘0)79
I
8.145
.052100
.005111 0.30989
.070885 fl.?7089
17.667
3.013
47.3778
7.14556
15.44’
5.l? 0 l1.l’f.7
5l6
110711
2
14.883
.027227
.012228 0.15505
.170811 0.46611
44.067
7.167
74.0448
6.87833
)4 744
8.0056 46.6730
4518
130070
3
19.030
.0)3700
.000066 0.02566
.20077 0.57778
58.000
6•733
85.4000
8.811)1
)5 17s
6.111) 7 7174
4701
1 )517
1
3.324
.l41 53
.081248 5.80558
.086557 0.321)3
7 ,.I1I
I’. 40
67.3700
7•95833
86.11?
5 o731 16.9516
4701
110614
2
3.383
.137303
.00363) 0.32783
.125417 0.82583
30.167
11.247
74.4033
7.38250
64.325
0.7069 26.1160
8701
4704
711020
7 0403
3
1
3.975
19.622
.115427
.068911
.070900 0.43710
.0’502 1.0)690
.083461 0.27967
.277743 O•43858
26.400
17.250
.50O
10.650
5?.&?67
7.31800
7.97035
57.483
70.159
5.6307 22.5750
8.8900 12.6365
4704
7)0712
2
28.382
.048875
.020750 0.58571
.180290 0.88631
60.250
11.100
91.2518
1.85357
03.694
5.8717 21.2040
4100
711077
3
10.832
.007708
.082450 0.55119
.095292 0.40200
77.000
9.175
79.0250
7.70417
85.650
4.9742 17.4354
.lOe
4706
4736
170521
770816
771023
I
2
3
8•759
2.335
3.588
.055625
.194250
.147000
.037625 O•35375
.102500 0.30750
.085200 0.36750
.050000 0.40000
.146250 0.37500
.160000 0.42600
21.000
28.000
33.000
6.550
0.100
11.500
61.7500
81.7500
7.000O
7.50000
7.36250
7.35000
54.175
60.175
59.500
9.7u00 17.6750
6.0333 24.977C
5.8000 29.6250
(Continued)
-------�
TABLE B-i
TOTAL DEPTHMEAN PARAMETER VALUES LISTED BY LAKE-DATE (Continued)
ST PLT 0210 80USD
N/P TOTAL? ORTHOP tOflZSfl3
‘ .H3 rJoi S(CCH )
(ULA TUOB P14 °LY 00 l )’4p
4707
4707
4707
4708
4706
4708
.7))
471)
47))
4712
‘7 )2
47)?
4713
47)3
47)3
4717
4717
47)7
4720
4720
4120
4727
‘722
472?
4723
4723
4723
4724
4724
‘724
4725
4723
‘725
‘727
4727
4727
4128
4779
4728
5003
5103
5)03
5)05
3)03
5)06
5)08
5)06
5)06
5)08
5)09
5)00
SilO
SIlO
5110
5!))
5)l
5 )1 )
5117
3112
5)13
5113
730524
730823
13)027
73032*
730823
731079
710323
730823
73 )027
730525
730824
13)026
730531
7300)7
73 )024
730523
5300)8
731030
730322
730816
73102?
710525
710824
731027
73052)
730811
73 )074
730522
7)0805
73)023
730323
730820
73 )727
7305)5
7104))
731019
7)052)
7108)5
73)023
730404
7)07)6
730927
710405
7307)8
710977
73Q4Q7
7107)3
7)0925
7104)0
710719
730929
730404
7107)6
710926
710407
710713
130976
110409
110026
730409
7107)9
1
2
3
1
2
3
1
2
3
1
2
3
I
2
3
1
2
3
1
2
3
I
2
3
I
2
3
1
2
3
1
2
3
I
2
3
2
3
0
2
3
I
2
3
j
2
3
1
2
3
1
2
3
I
2
3
1
3
4
2
09.100
8.8)6
12.666
14.393
l6. ’53
9.718
17.173
12.935
9.594
14.477
10.971
6.978
13.906
24.764
10.924
9.306
9.0.e
6.384
6.774
4.00)
‘.176
18.118
18.903
9.783
4.402
4.046
4•?13
21.93?
12.074
4•999
33.203
36.9)5
30.59)
1.010
0 9Q2
0.604
30.072
i ’.o 5
6.525
18.139
15.806
13.228
22.78 )
27.790
24.196
5.031
9•350
4 .557
5.734
3.967
4 573
27.690
74.p39
14.848
4.920
8.235
8.164
I.A6O
1.505
5.030
10.617
.054)68
.089)79
.067.Qo
.03)069
.027100
.03869?
.033250
.o . o6o
.043403
.0592)8
.049974
.074920
.0291 12
.0)697)
.028958
.08548)
.066207
.0553)2
.056)80
.067087
.072400
.030113
.028048
.042260
.059760
.133597
.08)586
.0)3)03
.038779
.069403
.0199)7
.0)5656
.020348
.I’6167
.378583
.220375
.0)8625
.027604
.0)8933
.042)0’
.020208
.027933
.0)8206
.0)0208
.009736
.055109
.019197
.065490
.094369
.173160
.097094
.032083
.033305
.0)66)4
.046400
.0’SSOA
.059444
.07)500
.06)500
.110300
.062)04
.022,65 0.73970. • )44034 0.58760 ‘9.?J
.031824 0.37860 .414333 0.90095 55.571
.029498 0.65857 .098690 P.585.8 ‘8.714
.0)13)9 0.36497 .08072? 0.3536) 34.667
.0)0272 fl.33a 4 .085944 0.27333 36.667
.0)3133 0.3)656 .056667 0.23333 37.16?
.017082 0.439)8 .076361 0.32274 51.000
.011828 0.2731) .232889 0.51528 60.000
.015937 0.28530 .092767 0.40)00 ‘6.800
.028084 0.72834 .016)63 0.37099 32.286
.0)8667 0.34479 .150020 0.5338) 29.429
.037262 0.39)3) .077024 0.45000 41.37)
.008012 0.35687 .078500 0.39)25 21.250
.006179 0.27096 .143625 0.520)7 71.000
.009271 0.14271 .153000 0.38958 74.500
.0470.6 0.43287 .244625 0.51583 27.750
.03837) 0.41)7) .090292 0.40792 40.000
.028462 0.36737 .089750 0.26625 52.750
.0)9.90 0.33670 .03)600 0.22400 22.000
.022447 0.24040 .084533 0.50467 34.400
.022033 3.?32s7 .052667 0.28000 37.000
.0)3526 0.46908 .068021 0.32548 37.873
.011438 0.4)27) .075937 0.37042 39.125
.0)6094 0.36021 .0*8220 0.25833 36.250
.02)050 0.18037 .083000 0.38733 53.400
.034497 0.11300 .3070)0 1.01857 81.600
.022880 8.02525 .246814 0.67357 77.800
.01.540 9 5.3S4 .067763 0.27)94 81.000
.010908 0.20838 .223471 0.43624 94.661
.003772 .04982 .263393 0.5)603 129.8)3
.0092)3 0.59345 .0470)7 0.29574 58.500
.005984 0 4954) .053408 0.34159 98.250
.013012 0.27260 .151229 0.37333 129.000
.03)175 0.06792 .07206) 0.47083 31.000
.177417 O.I 53 4c .179)6? 7.A9 o3 10.250
.058000 0.07500 .073150 2.00000 07.000
.002079 0.60083 .015000 0.16661 79.000
.003637 0.16)75 .204583 0.693)) 56.507
.0046)2 0.04912 .066625 0.38500 17.250
.010954 fl 514 )7 .076575 0.30208 70.750
.004037 0.30062 .126250 0.38750 84.000
.008756 0.19464 .17857) 0.40052 68.750
.002979 0.32907 .042795 0.2607) 2 .750
.0056)1 0.16639 .06)806 0.38053 I’’.900
.004)39 0.12073 .06)806 0.34583 11 1.500
.0)20)7 0.23544 .070722 0.276,7 23.813
.009289 0.17011 .12458) 0.52167 39.600
.0)9328 0.05908 .17530k 0.77444 41.200
.03392) 0.41250 .126548 0.69405 12.000
.069617 0.14)00 .509 )67 1.27 )67 54.000
.03)650 0.21600 .23533) 0.90467 45.333
.0)3774 0 47973 .143580. O.SIIS 58.200
.035921 .348O0 .134607 0.5)093 78.400
.007548 0.18004 .166386 0.5)212 104.400
.007683 0.16000 .077331 0.40500 20.000
.0019)3 0.09057 .253667 0.0381) 47.333
.0) 547? 0.05844 .311667 1.01111 35.333
.0)9000 0.05750 .075000 0.57500 60.000
.008000 0.03000 .060000 0.95000 3’.OOO
.028433 0.43067 .065000 0.38000 18.000
.82)861 0.29000 .499444 0.54067 54.000
12.786 90.563) 8. 17129 95.973 5.SSv .0 18.20.3
13.600 79.9617 7.90095 89.060 ‘. 182 ’ 2 .b1pa
10.100 85.3667 7.865 .8 145.493 5.84)4 20.7775
4.58) 82.1583 7.44806 55.275 7.5583 15.1080
3.783 86.061) 7.41639 54.000 3.0)30 25.6)75
1.967 88.53)1 7.45000 53.400 6.6 ) 4 )9.777
3.850 91.0500 7.66258 ‘6.233 7.4644 18.78 15
6.050 67.1746 ?.2 222 45.6014 3.3b53 23.16))
3.600 75.9067 7.3)967 45•493 5.7’ 7 I9 30*
.386 74.8031 7.88218 79.27) 8.5052 17.3917
3.929 80.2 )43 7.68932 65.164 4.4595 24.0379
4.014 13.1667 7.60000 64.405 6.3905 19.Q988
0.550 47.7833 7.05500 38.162 8.9125 17.1281
6.900 86.9536 7.53292 19.900 3.0375 27.0 13
‘.300 88.8333 7.63542 109.604 6.2)67 I7.l’b$7
2.830 83.7375 7.23017 58.57) 7.5492 19.3900
‘.200 82.0250 6.624)7 53.620 3.4675 26.7729
1.173 93.7000 7.’0Ooo 53.438 6.7$33 18.7Oo
5. 2o 40.8300 7.80400 52.120 10.0500 16.4720
1?.lOp 79.9733 7.52533 53.167 7.8)00 23.9040
8.700 83.8000 7.60661 47.061 7.6667 20.0733
5.375 19.4741 7.63602 62.345 ‘.2442 17.8822
1.462 78.66.5 7.87729 70.500 6.4342 23.4 . )g
3.662 07.4271 7.48437 59.633 6.5315 20.05)0
14.550 7*.0895 8.10)33 139.293 6.1433 19.3078
7 .34Q 84.4867 7.50552 179.969 2.8890 23.9271
8.080 84.0*57 7.67300 125.05 1 3.8417 l9. 508
4333 84.8210 . 5520 6*.38? 5.9894 17.0202
7.733 91.956 7.48390 71.384 7.4028 22.9309
4.150 02.837 7.22060 68.097 4.3977 24.0919
11.925 80.409 0.1739) 76.875 8.6083 14.3480
‘.760 92.7 3 7.35980 80.160 4.0796 19.2604
3.423 80.802 7.71646 82.300 4.55)0 17.0989
20.700 60.102 8.03000 06.34? 8.3500 21.3083
126.525 30.083 8.56857 001.4)7 3.0750 2Q 0)47
84.650 51.000 8.60000 102.375 8.2000 20.0500
0.400 85.125 7.82500 68.250 .10 o 19.1437
3.300 85.562 .735’2 2.68T 4.7896 25.3383
6.175 93.471 8.00292 16.431 8.1958 20.0025
1.850 70.31? 1.754)7 30.654 9.5260 11.8562
.97S 90.601 1.635,2 34.146 5.0962 24.1113
.I00 37.0)7 7.09333 38.833 5.5fl5 2l.8 . Q
‘.650 54.375 6.93745 17.480 0. )q3 1.1746
) ‘. 561 87.514 7.69167 27.097 7.0849 27.5768
4.800 81.700 6.80143) 26.958 5.3069 20.4638
8.400 72.822 7.34367 27.794 9.6792 12.881)
8.4)7 75.6,0 7.4458) 37.356 4.8375 25.906 .
4.663 76.))) 6.87552 35.535 3 .8 9 2 .?6?O
8.54643 71.1)9 9.3278 11.84 18
11.633 74.500 7.36857 38.167 4.3776 23.3933
13.300 77.078 7.24777 3S. ?2 3.155b 2?.63’n
1 ’.020 70.000 7.824614 68.191 9.7)5. 10.0037
10.500 106.150 ‘.7)0)2 78.580 ‘.86)8 20.48)0
5.ISQ 62.896 7.04326 70.006 2. 17 13 20.9293
4.733 38.000 7.40833 27. 117 9.030 1 ’ 04.0117
i .R 7 55.007 7.30000 ‘0.017 4.6361 76.7000
18.067 72.667 6.76111 33.250 5.233) 23.1651
‘.030 70.250 6.75000 lS.5 0.4300 l ’.3000
10.250 86.250 6.35000 25.500 6.2000 73.7300
3.133 7.67000 12.733 10.3250 11.3333
6.367
( Continue [ J
-------�
TABLE B-i. TOTAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE
STOPET
01ND
N/P
IOTALP
ORTHOP M2P.’)3 *13 (.3 (1
src r
CHL6
UPF PH
A1P
(0 (IMP
II3
5401
6401
5401
5402
5802
5402
5403
5403
5403
5404
5604
5604
730929
730403
710718
7 0926
730626
730728
131005
730403
730718
730928
730423
730728
731008
3
1
2
3
I
2
3
1
2
3
1
2
3
4.962
12.506
17.080
21.697
92.424
91.404
37.849
S6.04.
66.15)
37.516
73.950
65.461
31.063
.089078
.083187
.068958
.080150
.005683
.005333
.014750
.015280
.010006
.012945
.007030
.006276
.012897
.028361 0.20156 .159778 0.54889
.017250 0.94875 .085625 0.36250
.025042 1.05583 .121250 0.26250
.021683 1.58983 .076333 0.52833
.002841 0•48063 .04365 1 0.24286
.002756 0.31400 .171331 0.41000
.003861 0.30028 .257500 0.60556
.002552 0.76490 .064687 0.20833
.006405 0.56125 .068095 O.?982l
.007634 0.39203 .056932 0.30909
.004875 0.47417 •036905 0.27702
.903238 0.28661 .101429 0.27905
.006087 0.28881 .1C698’ 0.28413
47.333
17.000
25.500
36.000
88.000
116.000
84.333
24.667
216.000
140.000
88.000
126.000
350.000
.S00
1.650
26.150
27.4? .
0.500
11.967
1.733
0.475
13.4? ’.
4.826
0.633
1.533
1.367
85.056 6.95000
40.500 7.70ø?S
46.458 7.68750
83.633 8.’3333
87.770 5.16625
69.544 4.10444
5.22778
70.911 7.15521
116.474 6.62589
93.968 6.45739
83.330 6.52500
90.952 6.26778
6.48175
1Q. l1
‘3.125
54.750
8.4.883
10.000
10.067
10.000
10.000
10.521
11.339
10.000
11.924
11.556
8..flI8 . 2 .c344
10.2111 12.3667
6.8.375 28.5667
‘.518.7 24.18.67
9.61o7 14.8810
6.3017 24.4856
7.1733 21.1139
10.8290 9.7779
7.2945 21.58.60
e.3os 22.8023
10.5925 12.8513
5.0267 23.3430
7.0933 22.7317
-------�
TABLE B-2. PARTIAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE
510RF ’ DAT( 90uN3
N/P TOTALP (177809 002303
083 Vi(1 S CCHI
CHLA TIJOS PH ALl
00 t(MP
0101
o o
0101
o o
0103
0)03
0104
0 )04
0)04
*105
*105
olOS
0)06
0106
0)06
0)07
o o1
0107
0)01
0)08
0108
0)08
0109
0109
0109
011?
01)2
01)2
0112
0114
0)14
o ) 14
oilS
oilS
oILS
1002
1002
1002
1005
1005
1005
1007
1007
1007
100$
1008
1000
1000
1009
1009
1010
10)0
1201
1771
1201
1202
1202
730608
730827
731030
730619
1)0830
731103
730609
730817
731022
730607
730829
7)1031
7)060?
730829
731031
7303)9
7306)7
730825
731101
730606
730829
13103)
7)0609
1308)5
13)022
7303)9
130008
730825
73)030
730609
730816
7)1022
1383)9
730830
731102
130410
1)0720
730928
7304)0
730720
730920
F304 10
730720
730929
7 104 10
730720
730929
730410
7)0120
7)0928
730410
730720
130307
730831
731)05
7303)2
130106
)
2
0
2
3
1
2
3
I
2
3
1
2
3
1
1
2
3
I
2
3
I
2
3
1
1
2
3
)
2
3
1
2
3
1
2
3
1
2
3
)
2
3
1
2
3
1
2
3
1
2
1
2
3
)
2
15.97
44.62
?0 Sl
7.24
10.43
9.13
9.51
9.93
6.43
20.65
103.19
50.71
5.6)
3.36
4•T$
9.92
0.66
9.44
7.64
4.7$
).9
3•45
8.80
9.13
0.33
3.93
3.30
1.42
2.14
9.12
0.86
0.15
2.4
0.73
I . ?)
13.03
7.02
0.5%
13.%?
4.15
1.44
7.46
5.37
3.3)
10.64
41.0?
22.22
66.5’
1.39
43.70
32.94
7.21
0.56
0.61
0.36
3.6700
2.33w
0.07300
0.07350
0.02353
0.04783
0.02528
0.02444
0.05166
0.03517
0.04450
0.04233
0.00800
0.0)74?
0.08278
0.03861
0.08489
0.0203)
0.01831
0.0)274
0.0)936
8.08387
0.04333
0.05111
9.06)50
0.04)7)
0.05789
0.13100
.00 6
0.08667
0.1)180
0.05467
0.03117
0.05825
0.05091
0.04228
0.05333
0.12350
0.2)600
0.30000
0.20.300
0.28600
0.21000
0.2)750
0.09500
0.15050
0.24533
0.10200
0.21100
0.03650
0.09475
0.04300
0.03900
0.92200
0.71700
‘1•*2875
0.82450
0.10533
0.16067
.01)333 0•48750 .300000 0.75000
.007000 o 49A41 .240000 0.92500
.0O8 50 0.83000 .400000 0.74147
.001056 0.19111 .155556 0.45556
.009111 0.14222 .146667 0.46667
.009)33 0• 17333 .048889 0.35556
.011333 0.42031 .080208 0.38750
.0)0528 0.24694 .09472? 0.57222
.021093 0.24208 .046667 0.35000
.0)0000 0.63250 .200833 0.44)61
.008887 0.078)3 .145000 0.42500
.006083 0.80147 .140000 0.15933
.034718 0.29111 .171111 0.47778
.015556 0.08722 .042770 0.55556
.046111 0.33778 .0 4e*’ 0.32222
.00)476 0.15179 .04821’ 0.27024
.006083 0.07226 .079286 0.34190
.008571 0.04714 .05357) 0.50714
.0066)9 0.03857 .086667 0.29286
.031667 0.25556 . )44444 0.50000
.0)5167 0.09500 .073333 0.61467
.0)8111 0.25718 .021111 0.32722
.029556 0 44667 .090069 0.32778
•Q35058 0 34083 .081250 0.43)33
.046))) 0.43667 .057178 0.24444
.035000 0.21500 .125000 0.50000
.027139 0.18986 .100417 0.48)94
.030639 0.09361 .055000 0.65556
.050)67 0.10533 .100000 0.49000
.021000 0.4)000 .087710 0.33333
.009833 0.20833 .060333 0.35000
.036000 0.41100 .052500 0.25000
.Q ?9O 4 0.08644 .056000 0.38667
.005278 0.13278 .226647 1.21)1)
.0)04)7 0.04167 .042500 0.70000
.038000 1.45000 .160000 1.90000
.046000 1.50000 .190000 1.20000
.070000 0.16000 .080000 4.40000
.071500 2.75000 .095000 0.75000
.05)000 1.30000 .060000 1.80000
.143000 1.96000 .050000 1.70000
.022750 1.45000 .190000 0.90000
.009500 0.40500 .050000 0.95000
.0)5500 0.22000 .245000 2.05000
.097333 .20000 .313333 0.96667
.0)5000 4.10000 .090000 1.10000
.101000 4.47000 .220000 1.70000
.008750 2.37500 .047500 0.65000
.010500 0.07500 .055000 1.10000
.0)3000 1.82500 .050000 0.90000
.002000 1.20000 .085000 0.60000
.007000 0.10000 .060000 0.60000
.542500 0.11500 .172500 1.92500
.236750 0.15257 .112500 2.92500
.610500 0.1)250 .170000 3.42500
0.01483 0.20833 .168333 3.20000
0.03)83 0.1933) .140000 4.85000
79.7500
56.7500
55.5000
20.0000
34.6667
48.0000
30.6250
45.8333
45.0000
26.0000
67.2500
62.5000
19.3333
41.0000
27.33)3
‘0.857)
13.2957
40.57)4
54.2857
23.6667
41.0000
37.3333
36.3333
72.0000
46.3333
6.0000
17.6067
28.8333
20.8000
32.0000
15.0000
60.0000
08.0000
39.0000
59.3333
19.0000
26.0000
17.0000
22.0000
24.0000
36.0000
11.5000
32.0000
2,0.0000
18.0000
35.0000
50.0000
41.0000
39.0000
72.0000
36.0000
33.0000
23.0000
22.0000
15.167
11.600
4.425 66.0333
4.915 90.8333
2.650 80.1250
2.400 77.7222
2.900 87.1467
1.133 84.0000
c.575 70.3958
13.811 78.7500
1•Q?5 89.6250
2.725 78.7500
3.025 92.1667
0.800 91.33)3
6.567 63.3333
10.733 91.2778
3.867 78.1111
1.747 72.4881
14.043 88.9284
5.784 41.9296
3.37) 43.2143
5. 00 63.0000
8.433 91.6111
4.300 83.7778
1.450 86.4444
3.625 83.6250
7.761 97.2222
3.600 30.0000
8.117 48.6389
14.700 77.5218
l2. 40 74.766?
3.133 81.11)1
9.350 86.1667
11.850 95.7500
4.361 95.6667
13.900 90.61))
19.867 89.9)67
10.400 63.0000
101.200
237.000 19.0000
16.900 60.0000
92.500
)34•490 13.0000
17.450 18.5000
55.650
30•799 49•7500
8.600 55.6667
52.800
18.700 83.5000
10.650 82.5000
56.000
21.850 84.2500
3.800 82.0000
6.400
22.500 90.5000
155.750 78.7500
84.950 67.0000
33.711 63.0000
77.900 35.1667
6.5667
6.7583
6.7500
6.8444
1.6000
7.5333
7.5010
7.6139
8.0625
6.8)6?
6.6167
6.8333
7.0444
7.4389
7.2)33
7.4284
7•9393
6.97)4
6.8048
1.0656
7.4033
1.3556
1.6500
7 4333
7.6444
7.4500
6.9809
7.4961
7.4133
7.5667
7.6500
1.6500
8.3222
8.3611
8.1583
0.3500
8.4000
10.3000
0.5000
9.2000
1 Q75Q
0.3000
7.5000
7.1000
9.7000
7.7000
8.4000
8.7000
7.7000
7.9500
6.8000
7.7500
9.2750
8.7000
9.4633
6.0000
20.000
25.333
28.333
21.056
20.611
27.089
46.406
53.222
54.250
22.667
20.083
20.083
42.333
54.389
48.687
19.262
12.071
12.429
11.119
37.222
52.333
53.667
54.167
55.600
51.444
27.500
30.4)7
47.861
57.467
52.667
57.167
66.250
98.5))
11.444
89.333
10.000
25.000
23.000
1 .SD0
21.000
36.000
19.750
40.500
53.500
22.333
27.000
38.000
12.750
23.250
18.600
10.000
14.000
34.250
51.500
61.750
120.000
126.833
6.7 )20 23.4500
5.0375 29.1583
3.9500 73.7667
5.3333 27.0278
4.5000 29.40)2
8.1333 )8.5777
7.1490 23.9323
6.0912 28.7389
7.8000 21.9375
6.2750 23.666?
4.9500 28.4500
S.7?50 2 1.Se.6?
6.7167 25.4444
4.8667 29.7778
6.3667 70.5444
9.8005 14.82)4
8.4778 27.5536
7.2857 28.81)4
6.957) 21.057)
4.5667 25.3118
6.1000 79.6389
6.3333 2 1. 1989
7•39 )T 2’.b 44
5.1083 2°.56?5
7.1000 27.8272
8.4000 1’.5000
6.1056 Z4.7153
5.9000 27.6944
7.4300 16.6633
7.9000 25.2000
8.2667 29.4000
4.4000 2?. S9O
8.6833 16.5244
3.0333 28.811)
9.0000 17.258)
9.2000 13.0000
8.1000 25.4000
20.2000
10.3000 13.90)0
15.2000 26.3000
9.5000 12.6000
10.0500 27.3000
5.3000 71.4750
9.2000 17.1000
17.8000 26.2000
6.5000 19.4.300
0.0500 13.9750
9.1500 28.1750
9.3000 21.8500
0.2000 13.0600
9.7000 28.7000
5.2000 20.9600
9.0500 29.4300
8.1500 2..0 161
10.3661 25.7200
8.7661 28.9)6?
(Conti nued)
-------�
TABLE B-2. PARTIAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE (Continued)
STOlE 7 DATE ROUND N/P 70181 .8 OPIHOP 802803 #83 K ’EI. SECCI4I
CHLA TURB PH * 17 00 TEMP
a’
1202
*703
2203
1203
1206
1206
1206
*207
*707
1207
1208
1200
1208
1209
731107
730306
730904
731106
730310
730901
731206
730307
730907
731008
730312
738906
73 1 105
7)03*4
3
1
2
3
1
2
3
1
2
3
1
2
3
1
0.8303
0.9150
0.3939
1.2790
4.9621
0.442
1.0628
2.8654
0.0090
1.3429
2.7437
2.4659
2.5351
0.5634
0.08783
1.06000
0.66000
0.27200
0.05367
0.07000
0.09333
0.07360
0.08650
0.09006
0.10950
0.09200
0.09667
0.76000
0.02058 0.08503 •O’ L67 3.55833
0.31900 0.86000 .110000 3.90000
0.29000 0.15000 .110000 ‘.ooooo
0.13700 0.16000 .060000 4.30000
0.02933 0.17167 .088313 1.00000
0.03083 0.02833 .07I o7 1.73333
0.05033 8.03000 .073333 1.28333
0.02328 0.027?? .088889 1.43333
0.02700 0.03000 .048333 0.86667
0.04560 0.08778 .047222 1.28333
0.31367 0.07000 .126667 2.65000
0.02467 0.12000 .091667 3.68333
0.04533 0.12667 .005000 3.56667
0.39900 0.20000 .500000 4.70000
20.000
16.000
18.000
18.000
22.000
38.333
20.000
30.333
34.333
38.667
18.333
05.333
17.667
3.000
26.2*7 45.1667
053.000 35.0000
142.600 31.0000
128.600 37.0000
1.467 93.6667
17.900 81.6667
11.267 83.1667
77.733 63.333)
38.067 76.5000
07.900 79.4.44
49.333 87.1667
B0.2C0 30.3333
50.403 55.2722
016.700
9.3633
*0.4000
10.6000
10.0000
7.6333
7.2500
7.2833
8.7267
8.3500
7.382*
9.6667
9.0333
9.3167
*25.363 . 667 ?3.I25
R5.000 io. o
70.000 14.7000 29.900o
85.000 1l.’000 24.9070
10.500 7.033) 20.6167
26.500 s .s oo 28.4833
18.000 0.5133 20.2661
‘ 1.3 )3 7.9033 09.8)33
40.167 5.7000 7 .5o0o
60.056 7.0667 20.9944
209.313 10.5667 24.4167
100.067 9.4667 29.1000
005.500 10.4667 22.cSSô
1209
1209
12*0
1200
l?I0
1211
730905
730001
73 1310
7)0901
711008
730306
2
3
1
2
3
1
0.2562
0.1689
1.46 S
1.6372
0.952*
0.8966
0.60000
I.’BOoo
0.00693
0.03570
0.077*7
0.03167
0.95003 0.20000 .200000 5.70000
0.00000 0.18000 .070000 4.00000
0.05903 0.03567 .092000 1.06000
0.06630 0.09400 .116000 1.83000
0.10150 0.08033 .065000 1.03333
0.05083 0.08333 .033333 1.03333
12.000
18.000
34.400
35.000
27.333
21.000
595.000 11.0000
72.600 29.0000
15.180 94.6333
56.620 72.5000
32.000 76.5000
24.267 88.3000
‘.2000
7.6000
7.1033
7.5400
7.6167
7•533
290.000
123.000 28.3000
034.000 4.0000 ?3.6000
53.133 0.7000 20.0767
53.600 4.9300 27.9100
49.500 6.9333 21.4500
1711
1211
12*2
12*2
1212
*7*’
730906
711106
730303
710905
731101
730314
2
3
1
2
3
I
1.060?
0.6060
1.3256
2.7183
0.7161
3.3787
0.20450
0.08250
0.15962
0.07550
0.1338)
0.09867
0.06175 0.0 *750 .100000 0.75000
0.08611 0.04833 .06*667 0.13333
0.09050 0.07375 .136250 1.03750
0.01575 fl 0975Q .001300 1.27500
0.07513 0.04250 .053333 1.28333
0.0*2)3 0.05333 .170003 2.06667
27.000
35.000
52.000
41.500
44.000
21.000
30.600 60.5000
15.800 84.3333
41.350 75.7675
19.400 84.6667
27.250 92.4067
27.500 62.0000
7.’ 25o
8.3287
8.5375
6.5730
6.9901
16.8 3 7.2667 23.5667
20.150 6.1000 28.6000
18.500 8.5333 2 ’. 1557
18.506 3.0000 22.0000
14.750 6.4000 28.7907
14.333 6.2500 23.9583
12*4
121’
‘30906
731105
2
3
2.0*63
1.9911
0.00000
0.13’l7
0.02787 0.13667 .090000 3.8,000
0.05333 0.14333 .123333 3.26667
*8.557
*6.3)3
99.733 48.3333
7 ’.S)3 ‘6.1*1*
6.9667
100.333 9.1667 23.7331
90.667 8.7333 75.5000
1215
730306
1
2.7624
0.06033
7.0*633 0.08667 .000030 0.83)33
30.000
37.300 89.6667
100.500 8.0333 .‘7. o 9
1?IS
730906
2
2.6530
8.0 ’QOO
0.01100 0.06000 .070000 1.15000
*8.000
25.300 75.3000
6.6333
11.070 6.8500 20.3667
1723
27*7
1727
1717
731107
730304
730904
731106
3
I
2
3
1.1701
0.3651
1.1080
0.2133
0.07400
0.34850
0.60750
0.92250
0.01467 0.03687 .050000 0.20500
7.12400 0.06500 .090000 3.00000
‘1.0)500 n. 25o0 .250050 6.35000
5.48450 0.10500 .090030 4.10000
34.000
21.000
02.000
16.500
17.000 83.3333
.9.000
*66.730 7.0500
17.950 32.0000
6.5500
6.9000
8.5300
lo.osoo
9.8500
16.000 5.1000 28.3000
04.333 7.0000 23.0333
93.000 26.1500
13.000 *7.7000 78.9000
1719
7)0303
I
5.1612
0.03*00
0.00700 0.06500 .093000 0.95000
48.000
15.500 67.5000
7.5500
10.1000 25.3000
1 .0 19
730905
2
3.8235
0.03400
0.02300 0.06000 .070000 1.30000
35.000
12.600 93.0000
7.6000
3.5000 22.0000
2719
730005
3
2.0493
0.08*00
5.05200 0.03000 .035000 0.80000
*0.000
‘.000 78.5000
7.4500
10.000 8.6000 28.7000
0720
710325
I
0.0206
I.IOSOO
1.03133 0.06257 .070000 0.78)33
4*.000
4?•73Ø 64.1333
*0.0333
*0.000 7.2000 43. fl00
*220
733903
7
0.7046
1.26000
1.19250 0.18500 .072500 1.17500
29.500
77.957 83.5000
8.’?S0
lI.SSOO 24.7313
1220
731103
3
0.3802
0.38333
2.25557 0.41250 .117500 1.44167
3’.500
‘1.4.50 72.0333
A.e433
60.000 6.5000 29.7250
*721
730312
I
3.5714
0.03708
0.01283 0.06333 .053333 0.87500
59.000
4.0*7 83.3333
p.9401
68.427 .I0Q0 23.1333
*222
110904
2
4.8265
0.03830
0.0143) 0.06300 .095000 1.45000
27.000
10.387 86.0667
7.5667
00.000 7.9267 26.1467
1771
731*06
3
2.0875
0.05692
5.02581 0.06*67 .035831 0.05261
21.333
1.500 74.9067
0.7667
10.067 1.1335 29.68)3
1)23
730324
1
0.5886
0.49250
0.76700 0.15500 .135007 2.60000
23.500
7’..300
9.5500
10.061 7.5333 7 . .8033
1223
130905
2
2.0360
0.44600
0.26800 0.25500 .200000 3.40000
22.000
115.650
80.000 10.0500 25.7000
1723
711*05
3
0.2002
0.57600
0.41250 0.05000 .065007 1.10000
*3.300
37 fl 62.5000
7.9000
64.000 20.0050 Po.S500
76.000
*724
7303*4
0
4.6004
0.03225
0.00475 0.06750 .078750 1.16250
36.750
15.925 72.1750
‘.7000 73.3607
*724
710905
2
3.9166
0.04*25
0.00737 0.21875 .0*7500 2.00000
35.250
37.525 76.3750
7.6875
*9.500 1.4700 2’.2)’3
*724
712107
3
3.0279
0.03750
0.01100 0.03375 .057300 1.50000
37.000
j8•973 89.7300
7.0373
l ’.750 7.7700 78.8500
*727
110308
I
0.6191
1.72000
2.05000 0.63500 .‘30000 3.00000
24.000
756.700 79.S00 0
9.0500
17.025 7.7*25 23.7657
*727
710906
2
0.3214
1.27000
0.59000 0.29000 .270000 1.25000
5.000
436.600
116.000 0.7002 27.1070
*727
731106
3
1.1333
1.61000
1.19000 1.7*000 .1*5000 ‘.00000
18.000
1 1’. ’00 49.6057
9.5000
8.9000
7? .5 7.7(100 ? .55O0
*728
710013
I
7.1758
0.04625
0.00875 0.26500 .105000 0.55000
27.000
70.500 65.5000
9.0750
73.500 8.9070 74. 3000
1778
750906
2
6.942
7.03600
8.01530 0.14000 0.1*000 2.55000
35.500
33 953
6.5300
37.000 20.0000 76.4750
2278
73*007
3
3.678
0.06050
0.01400 0.22000 0.15000 2.25000
30.000
27.450 72.3000
8.0500
1.4000 ? .f000
*22
73032’
1
0.965
0.01900
0.00800 0.03667 0.04000 0.56067
100.000
6.800 80.0000
8.7333
8.8000 2’.0000
2229
710903
7
4 545
0.02200
0.01300 0.05000 0.05000 1.20000
55.000
10.900 08.0000
8.7770 7 ..8073
2729
732103
3
1.952
0.04100
0.02500 0.04000 0.04000 0.60000
40.000
1.500 80.0000
7.4000
39.000 7. ’000 30.7000
1230
700313
2
5.077
0.01394
0.00318 0.02500 0.04778 D . 4444
032.000
1.200 93.0000
44.000 24.2000
0730
738906
2
3.944
0.02067
0.01333 0.03167 0.04667 0.95000
73.000
5.967 94.5080
7.1)33
10.000 6.2833 25.2000
*230
731107
3
3.065
0.0236*
0.0*811 0.02013 0.040 II 0 544
76.000
2.833 80.3333
*0.000 7.7000 20.8500
(Conti nued)
-------�
TABLE 8-2. PARTIAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE (Continued)
STORE I DATE ROUND
N/P TOTALP 0911407 802803
*403 OJEl. 5(CCHI C4’LA TURO PH Alk
00 TEMP
—3
1231
1231
*23)
1232
1732
1232
1234
1234
1234
1236
1236
1236
1238
1238
1238
1239
*239
73S314
730905
731105
730309
730402
? 1l06
730315
710905
731105
730313
700905
131107
730315
730905
7)1105
730620
730831
I
2
3
0
2
3
I
2
3
1
2
3
1
2
3
1
2
0.938
1.933
2.062
3.246
6.395
5.934
2.024
2.114
2.33?
19.108
10.836
5.803
1.009
4.411
1.756
2.733
4.737
0.23500
0.23213
0.15050
0.05148
0.07840
0.06407
0.00650
0.10850
0.05600
0.04456
0.03025
0.07907
0.10900
0.03400
0.07400
0.12354
0.08117
0. 5539 0,06389 0.16833 4444
0.195*7 0.15167 0.31000 2. 10000
0.09417 0.17111 0.12778 1.85000
0.00738 0.105*7 0.05900 1.52000
0.02480 0.22700 0.10800 2.36000
0.01837 0.07 I7 0.04767 1.55*33
0.05525 0.00000 0.08500 1.02500
0.08400 0.19000 0.10500 2.30000
0.04125 0.04750 0.08250 1.35000
0.00733 0.28556 0.54000 2.11111
0.0)250 0.15750 0.14500 1.62500
0.01425 0.08875 0.08500 1.55000
0.02800 0.05000 0.06000 1.90000
0.01600 0.06000 0.09000 1.60000
0.06106 0.06000 0.07000 1.00000
0.03754 0.14375 0.19250 0.67917
0.03400 0.10667 0.15750 0.80000
29.333
26.333
20.687
29.500
28.300
27.100
33.000
20.000
40.000
29.33j
28.000
36.000
36.000
24.000
48.000
23.500
36.750
19.550 73.1867
*8.767 84.5300
6.133 83.6111
I .Ps7 69.0611
17.440 73.6000
15.440 65.4500
5.400 73.1500
12.200 88.5000
1.000 59.7500
28.967 65.2722
51.750 66.5000
2 .433 79.8889
49.600
12.200
7.700 73.0000
2.275 81.0000
20.650 90.1667
7.7278
7.3500
7.2500
8.6950
8.4100
8.4887
8.1500
7.2000
7.8750
9.21*1
7.5250
8.0167
9.3000
7.9000
8.4000
8.7958
6.5750
41.278
1.500
17.167
136.750
*35.500
115.150
37.500
51.000
31.500
55.056
52.750
45.625
80.000
08.000
67.000
12.083
12.833
5.0500 75.9500
‘ .?667 20.0333
5.39 i.7 22.544 .
4.65 7 25.0267
6.7557’ 28.4000
7.7900 75.2500
6.3000 P5.0000
5.8000 ? .10oO
4.7000 23.AOoo
8.8833 24.8278
7.0000 28.4750
7.1697 23.5444
25.0000
6.0000
“8.9000
3.8500 27.1667
5.4500 28.9917
1239
1240
1240
1240
1241
*24*
I2 0
*742
1742
1?’2
*243
I?43
12 ’3
1246
1246
1246
1247
1247
*247
*248
1?48
1748
1749
1249
1249
*250
1750
)75(3
*752
1252
1252
*258
IPSO
1258
1241
126*
1261
126’
1301
1101
1301
*302
1302
1307
73*185
730)09
730004
731106
730313
130406
731107
730312
730906
731105
7303*3
710905
731107
730314
110908
73*105
710620
730830
711105
730309
730904
731106
7303*’
710405
731107
710309
710904
711106
730308
730906
71*106
110308
710404
701106
7103*3
710906
71*107
710312
730630
730917
11111)
710622
730907
73*108
3
I
2
3
1
2
3
I
2
3
I
2
3
1
2
3
I
2
3
1
2
3
I
2
3
1
2
3
I
2
3
1
2
3
3
2
3
1
1
2
3
1
2
3
1.047
0.126
0.233
0.020
0.206
0.789
0.819
0.190
0.126
0.609
3.222
3.007
1.520
*6.683
4.428
4.583
0.731
0.359
1.297
0.809
1.010
0.550
0.219
0.527
0.48*
1.4*6
.105
1.843
0.326
0.439
0.34
7.06
2.78
1.15
‘.17
7.68
1.79
0.1*
9.01
4.87
5.60
6.01
9.89
1.26
0.08879
0.70250
0.10750
0.73587
0.28675
0.30250
0.27712
1.19500
1.11000
0.41000
0.03100
0.05530
0.04933
0.01917
0.02742
0.03517
1.16000
1.87500
3.08500
0.21500
0.23500
0.24525
1.14000
7.56000
4.55000
0.04644
0.02650
0.03450
0.53033
0.39850
0.5*992
0.04200
0.05700
0.06500
0.07*50
0.047)7
0.04717
1.26000
0.02135
0.01700
0.031*7
0.08092
0.02329
0.03361
0.03254 0.08500 0.07303 0.32083
0.60750 0.04250 0.04667 1.13333
0.54700 0.08250 0.08250 1.77500
0.’3767 0.03503 0.05167 1.47500
(7.17300 0.13500 0.12375 1.77500
0.30350 0.11000 0.10125 2.20000
0.18575 0.06375 0.05500 1.53750
1.04500 0.61500 0.33000 2.45000
0.97000 0.06000 0.06000 2.80000
0.78500 0.27500 0.28000 2.30000
0.00450 0,0.000 0.06000 0.55000
(7.0*000 0.07667 0.09687 1.10000
0.0*200 0.03167 0.04331 0.18333
0.00533 0.15500 0.13*67 1.23133
0.01783 0.06161 0.054*7 1.37500
0.02508 0.01667 0.08*67 1.22500
0.85250 0.33000 0.52500 2.0’,000
0.6*000 0.3*000 0.22000 3.70000
2.01080 0.8*000 3.02580 8.20000
0.02750 0.09500 0.08000 1.80000
0.02250 0.13000 0.10150 7.57500
0.03375 0.04500 0.07000 2.75000
0.60000 0.13003 0.12000 4.40000
0.04400 1.07000 0.28000 3.10000
0.1*100 1.99000 0.20000 5.10000
0.02977 0.076*1 0,03944 0.64444
0.0*600 0.04667 0,05811 0.96067
0,02711 0.02278 0,04270 0.67776
0.38*58 0.09125 0.06125 1.83333
0,24500 0.09750 0.07750 2.52500
0.32625 0.07867 .104*67 2.56667
0.00767 0.04867 .040000 0.86667
0 O2ISQ 0.07500 .070000 1.20000
0.01500 0.07500 .050000 0.65000
0.0042* 0.0)500 .05*250 0.66250
0.029*2 0.05125 .053150 1.27500
0.00900 0.03417 .047500 1.15417
1.21000 0,06000 .000000 1.70000
0.00317 0.10083 .088750 0., 417
0.00633 0.021133 .0473333 0.85000
0.00969 0.09*98 .067500 0.28056
0.0*267 0.314*7 .156667 0.55833
0.01196 0,16875 .052500 0.46667
0.02011 0.18000 .06222? 0.26111
53.250
36.000
31.500
34.000
15.750
32.000
33.500
30.000
22.000
37.000
46.000
39.667
38.333
96.000
40.000
41.000
14.000
15.000
11.000
‘2.000
21.000
15.500
*5.000
1.000
88.661
116.667
92.000
36.000
34.000
34.000
60.000
40.000
47.000
80.250
59.750
37.500
24.000
05,000
61.667
43.833
19.500
38.250
40.000
5.525 94.0000
18.550 91.4167
53.200 69.7500
).3 o 81.3333
37.825 75.2500
39.500 62.2500
14.575 78.2500
38.300 81.0000
135.800 76.0000
56.800 85.3333
4.467 75.5000
12.800 90.3333
6.033 93.8889
5.6cO 85.3333
56.700 84.3333
1’.750 90.8333
146.750 64.5000
*47.400 82.5000
*28.800 60.0000
100.050
148.150 44.0000
65.800 34.2500
240.600
10.900 Io.oooo
9.200 3.0000
10.900 09.5000
S•433 95,3333
4.Pbl 98.5556
53.700 85.0833
I0 .750 69.0000
5 .250 ‘ .5000
20.800 89.0000
32.600 #3.5003
25.500 07.3333
1.800 88.7500
6.1 75 85.8750
5.525 83.7417
88.200
6.750 87.5003
8.417 92.9167
7.300 91.1218
1.025 56.6667
2.550 92.2083
0.833 94.2000
6.9875
7.9917
8.6000
8.2500
8.9125
7.76e5
7.1875
8.2500
7.9000
6.9000
8.2333
6.2000
6.5500
8.5000
8.6083
8.84*7
4.2500
*0.3000
8.4500
8.6500
8.9500
8.6000
v.7000
7’. ooo
7.3000
7.2111
5.7000
6.0069
9.S5 ’2
‘.0750
9.15000
8.71333
8.95000
7.00000
6 .R8333
8.40300
6.579*7
7.90000
7.3236*
6.74*87
6.73889
7.074333
7.27917
7.55000
17.583
65.667
#6.500
77.583
24.375
28.125
18.875
23.000
34.000
33.500
10.000
10.000
10.000
*04.833
107.917
117.167
30.500
‘6.000
107.000
129.000
*11.750
1*4.500
72.000
32.000
74,000
10.000
10.333
10.000
80.667
81.750
81.583
41.667
42.000
11.000
10.000
15.500
10.000
30.000
15.819
16.750
20.861
16.563
19.917
23.611
6.5750 20.0667
6.3750 21.7500
6.5500 28.2250
6.8000 22.9333
6.7000 25.6750
6.1250 29.1075
7.1000 22.9500
2.1000 2’.1000
9.2000 29.1000
5.7000 22.8667
8.1657 26. 1533
7.0667 27.1313
7.8000 23.4444
8.0000 24.2033
8.2000 29.1917
0.2000 72.5333
15.4500 28.6500
16.0000 371.7000
2.8000 *9.9000
9.1500 24.6,00
7.2000 28.0750
8.7700 74.3500
28.8000
4.6000 ?9.3000
6.4000 72.2000
6.5722 22.2111
0.6000 29.0000
7.5000 23.1556
8.6000 20.7500
8.8000 210.6500
7.55000 23.5000
9.50000 27.5333
5.ooo o ?I,.Q 00
8.00000 23.1667
7.80700 74.070?
6.17500 277.8750
7.45000 22.7083
7.60000 24./000
5.04444 26.6875
6.51661 26.7583
8.6)333 *3.7333
4.68750 27.4083
6.22500 28.9917
8.86667 18.8667
(Continued)
-------�
TABLE B-2.
PARTIAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE (Continued)
7/P TOTALP OD HO7 5O2 4O3
4113 ‘J(L $ECCH! CHLA Tu 8 PH AL -LuP
1303
1303
1303
1304
1304
1304
1309
1309
1309
1310
1311
1310
13)1
730629
730915
711110
730625
730910
731112
73070)
730908
7311)3
730630
730911
731109
730627
1
3
I
7
3
I
2
3
1
2
3
1
11.18
4,97
6.83
6.00
.I
4.23
4.75
3.27
3.37
13.72
5.33
7.25
9.81
0.01187
0.0167?
0.01483
0.02658
0.01623
0.03186
0.11315
0.31167
0.29280
0,01567
0.0)789
0.02026
11.0)933
11.00251
0.00608
0.01272
0.00500
0.00663
0.02423
11.04537
0.17350
0.20567
11.00399
0.00486
0,01576
0,00461
11,06)81
0.03431
0.03556
0.08455
0.03523
0.05978
0.30417
0.35083
11.58833
0 09090
0.03042
0.06661
11.10750
.065833
.037639
.063889
.075)52
.11433 )3
.062273
.144792
.120417
.185000
.084444
.045833
.065275
.082222
11.33811
0.32917
0.20556
0.39304
0.4)894
0.31818
0,00833
0.83750
0.11333
0.39444
0.47063
0.27361
0.29722
171.500
122.667
57.500
61.300
75.182
45.818
35.000
39.000
41.200
104.000
99.833
106.917
128.800
4.633
5.600
‘.583
‘.ics
7.082
4.909
)‘.800
21.400
9.740
5.967
6.675
3.653
5.933
96.0556
95.2083
115.88119
83.9697
92.3182
79.0455
77.1250
72.291?
90.5067
88.5069
96.0500
91.526?
89.7222
7.22500
8.22917
6.5166?
7.56970
7.16417
8.87424
8.53333
7.76250
6.87333
8.02708
6.94861
6.29306
6.68333
10.000
10. 42
10.000
18.1179
18.614
18.348
18.146
23.125
23.533
11.111
11.486
11.750
13.194
0.70000
6.911333
0.104300
6.65009
6.80606
8.24545
7.24792
5.73750
8.86000
8.50333
6.7486)
7.54167
6.13333
25.21119
25.4770
1 ’.53119
27.4000
29.1227
16.5657
27.6458
78.04)7
13.5267
27.0049
711.0917
17.691?
23.8)67
1311
1311
1312
1312
131?
1313
1313
13)3
13)4
1314
1314
1316
1316
13)6
1317
7309)2
7311)2
730620
73083)
731103
73070)
7309)0
73)1)3
730619
730830
73)103
730627
730915
73111?
7306))
2
3
1
2
3
1
2
3
1
2
3
I
2
3
1
7.81
7.93
6.72
)3.94
I . ??
7.47
4,30
8.74
4.10
7,95
6.73
9.75
10.3)
10.11
4.19
0.00911
0.01567
0.05)93
0.02310
0.04340
0.02850
0.02133
0.03322
0.05800
0.03004
8.05367
0.81425
0.00750
0.00933
0.11120
0.00356
0.00800
0.00953
0.0)073
0.0)833
0.0046)
11.00400
0.02122
0.01008
0.00825
0.0)554
11.00342
0.006113
0.00422
0.03587
0.03000
0.06000
0.34533
0,28133
0.33000
0.11369
0.04500
3.20333
11.15500
0.16375
0.32583
0.059)7
0.0266?
0.03333
0.36133
.040556
.061111
.100000
.075333
.052000
.090000
.046667
.050000
.087083
.092500
.050417
.07416’
.04666?
.0600110
.099333
0.35000
0.2)111
0.48000
0.5)000
0.42667
0.45000
0.59)67
0.32222
0.75417
0.66667
8.35833
0.35000
0.4)667
0.20000
0.38687
96.333
58.66?
34.000
48.800
50.800
59.000
69.667
40.333
42.750
43.250
41.0110
128.000
105.66?
81.667
21.200
111.003
4.033
‘.900
8.660
6.720
10.500
7,333
6.183
8.100
11.775
7.375
3.133
4.633
1.467
5.060
96.4444
76.0667
84.9000
84.7733
84.8333
90.6500
77.9)67
80.5000
09.3)67
92.0000
97.6667
58.7333
6.17778
6.78369
7.22667
7.72333
7.51333
8.06607
7.47500
6.79444
8.34167
7.86333
7.12917
6.83333
6.26667
6.25556
6.88000
10.000
10.589
39.867
56.000
55.333
18.000
24.011
23.167
17.625
19.875
23.083
10.1100
10.667
10.000
16.067
7.02222
7.36607
6.35000
7.00000
8.36000
6.95833
6.26867
8 . 5000
7.57500
6.901133
8.10000
8.4444’
‘.03000
11.03333
6.23000
26.8833
)5.7444
27,9867
28.903)
19.4767
78.9278
30.091?
16.32;?
26.8417
28.9760
19.84)?
23.4500
74.0667
15.6556
22.7*67
1317
130829
2
5 74
0.0993?
0.03742
0.35833
.128333
0.77500
39.500
12.475
72.3333
8.15003
19.583
7.64667
27.8’)?
13)1
I llS
1318
73)031
710628
730918
3
1
2
6.37
14.04
9.44
0.17?)?
11.00908
0.00763
0.07054
0.00236
8.00633
7.60083
0,04718
0.02833
.108750
.065556
.041667
0.34)67
0.30*33
0.45000
39.500
109.86?
113.333
5.375
3.500
3.033
89.7500
58.3333
98.3333
6.87911
6.9)667
6.41667
18.083
10.000
10.000
8.88*89
7.20000
18.2067
25.1722
24.3333
1318
71)110
3
10.60
0.00644
0.0211)
.046667
0.2)1))
185.333
1.647
85.11889
6.60000
10.111
3.83333
15.4772
I3 )Q
710622
1
6.62
0.041192
0.00650
0.11972
.202500
0.80000
40.661
11.067
1319
710908
2
10.64
0.03889
0.00867
0.04556
.370667
1.05556
42.867
70.83)
82.2222
7.28889
35.1)1
3,33333
)3 )9
73)138
3
1.34
0.05844
0.02)00
3.021189
.045556
0.57222
36.333
12.750
93.4222
1703
7105)1
I
83.67
0.08967
p.05431
1.44000
.05)667
3,43333
19.500
11.000
52.0000
162.600
9. 17500
16.5833
1703
710809
2
209.89
0.33458
0.00692
6.65833
.090833
1.07500
56.000
20.550
77.6750
8.22500
189.867
7.06 ’ 67
?7 8I7S
1703
7310)7
3
69.63
0.04200
0.0)817
7.68858
. 117500
0.6)667
30.500
54•753
26.7500
11.45000
156.3)3
7.55000
18.94475
1708
710508
I
17.47
0.09089
0.02667
1.42556
.074’ ”
0.63333
21.000
l .533
8.0666?
110.178
8.55000
16,32??
1706
7306)0
2
15.40
0.01756
0.02489
1.09778
.098889
1.06667
25.000
14.700
45.1667
7.86)))
128.111
27.21)1
1706
7310)8
3
14.69
0.08161
.04)589
1.23772
.03388Q
0.79444
19,0333
15•#N7
57.7278
8.15556
171)8
730507
1
73.23
0.11175
.1157750
8.09000
.085000
0.42500
9.0000
2.650
8.10000
162.500
238.500
9.1008
1708
710809
2
26.6)
0.164011
.078500
4 ?7b00
.065000
1.15000
0.0000
17.5000
1708
1310)0
3
)3.04
0.2)275
.095500
7.57000
.202500
1.21500
10.0000
)A .060
10.2500
7.97500
16.’11000
I II)
770507
I
13.04
11.04067
.008000
0.43556
.075550
0.53333
4 )•3333
7•033
7.8’446
8.1000
171)
7106)0
2
4.63
0.03889
.008556
0.10667
.0411)1
0.78889
36.0000
111.233
89.4444
7.82222
/3.0278
27)1
7110)8
3
3.25
0.03294
.013639
0.0561)
.036)))
0.51667
54.0000
6.1173
89.0167
7 Q3333
711.267
7 . )444
1712
730508
1
2.16
0.12039
.017667
0.12111
• )QO5S8
o.7a11 1
16.3333
P6.100
8.15556
36.000
6.3)61
).4 . )3SQ
17)7
7401108
2
2.33
0.18361
.047889
A.I23R
.135000
2.32778
22.6667
104.800
29.1)67
11.36887
511.611
8.0333
7.8687
3647
1717
73 )1119
3
1.60
n %43Q4
.025500
0.10667
.058313
1.11111
%4 3333
46.700
50.77711
0.7500
4*0
)7 11
730508
1
80.25
0.I2’00
.076278
7.24566
.102222
fl.51lII
16.3333
)4 .733
43.0000
7.3667
17)4
710800
2
33.7)
0.11283
.02*722
3.68000
.08)667
1.181189
25.3333
92.1167
3 1.7272
8.011189
239.658
9.70110
77 IH31
j7 )
71 )0 16
3
4 71
0.15056
.052)67
0.60066
.043333
0.7272?
18.0000
21.400
19.4444
8.1544’
1725
130509
1
5.09
n,73983
. 12?333
1.03)67
.180000
1.0)667
19.0000
4’.550
6.28667
I89.IaJ
1725
130807
7
0.3)
0.75000
.434333
0 .0’. 1o7
• 14 1067
7.2)667
21.0000
47.200
76.5000
11.88333
266.500
11. 1500
25.3500
3775
11)016
3
1.6’
0.79233
.451833
0.73333
.570000
2.65000
12.0000
61.250
2 1.6687
B.525u0
720.000
7.8615
1726
130512
1
1.34
0.2*917
.106208
1.05292
.183333
0.76833
5.5000
7.60583
2726
7308)0
2
8.64
0.39225
.088292
1 53?08
.117063
0.91250
9.0000
12.750
16.666?
7.41667
5.2500
17.5000
2726
131018
3
7.58
0.14950
.065667
1.09292
.057500
0.1)667
16.7500
0.575
53.029?
7.629)7
7.5500
1727
730509
1
3.02
0.09925
.06)250
0.21500
.165000
1.07500
36.0000
14.800
8.05000
8.1500
TCó ñti nued)
-------�
TABLE B-2. PARTIAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE (Continued)
S1O T OATS ROUND
N/P TOTAI.P ORTHOP 40218)3
4)43 OJEL SECCHI CHIA TURB
PH ALK DO TEMP
1727
1727
730887
731016
2
3
3q71
1.11
0.05325
0.27800
.0*2750 0.10250
.141250 0.16000
.091500 1.72500
.150000 2.15000
39.0000
22.0000
33.050
70.750
76.5000
74.9250
8.60000
8.53000
197.750
210.500
7.3750
8.7000
25.5500
15.0000
1733
*133
*733
1733
1735
1735
730509
700807
1310 )6
730508
730806
131019
5
2
3
I
2
3
3.37
1.03
1.33
2.03
5.26
4.67
0.14450
0.27125
0.2*630
0.08046
0.06537
0.06171
.043000 0.37150
.093000 0.16000
.041500 0.23500
.00654? 0.06208
.0*0975 0.16667
.0174*7 0.23917
.095000 1.05000
.120000 2.41500
.065000 1.70000
.086667 0.12083
.105411 1.42011
.050000 1.0*667
P2.0000
9.0000
12.0000
28.5000
33.5000
23.5000
49.050
117.050
66.600
25.675
29.425
15.600
50.5000
32.0000
47.8333
71.7250
0.40000
8.70000
8.40000
7.97500
7.45417
7.60833
194.000
780.000
204.000
40.125
73.000
74.958
9.7000
4.0000
9.6000
8.1000
5.e129
4.4250
*4.5730
24.97’0
15.7000
17.7083
28.2375
10.1833
1739
1739
1739
*740
1740
*740
730508
730809
7)10)8
730507
730810
73)0*1
1
2
3
1
2
3
65.08
101.4$
37.26
3.59
5.31
8.01
0.10950
0.03415
0.06389
0.24167
0.25178
0.10700
.063444 5.84722
.009125 3.15272
.023056 1.86722
.061278 0.66500
.059778 0.94556
.033433 0.79667
.077222 0.57222
.077719 0.93611
.044722 0.68089
.2*722? 1.09444
.307222 1.63089
.056667 0.7*667
35.6667
61.3333
*9.0000
9.3333
8.0000
16.0000
20.550
*8.083
*7.850
6.267
5.433
5.767
97.8889
51.9*67
*8.9667
40.2718
8.24444
8.10250
7.77222
7.54444
7.27222
7.70000
163.722
152.292
175.222
58.556
62.600
72.000
9.6583
6.7056
6.4 oo
6.7500
4.0778
7.6000
15.4*11
26.9458
*9.7003
*6.7944
26.1587
18.9500
1742
1742
*7 42
1748
1740
*148
730501
730809
73*018
7305*1
130808
731011
I
2
3
I
2
3
39.18
32.38
*2.06
85.12
32.8*
11.03
0.17287
0.10703
0.09940
0.09125
0.16100
0.117)3
.094133 6.’2600
.05*533 3.15833
.0436 0 l 000I7
.055333 7 55033
.03*500 4.29667
.054661 1.20333
.137000 0.51667
.088333 0.91333
.036333 0.71661
.073333 0.53333
.103333 1.60000
.093333 0.83333
7.6000
22.4000
22.0000
25.0000
16.5000
14.0000
5.240
*6.440
17.360
6.950
57.500
21.000
37.2333
27.4167
32.6667
59.0000
6.0000
8.11333
6.09333
8.49867
8.20000
8.1*667
8.06667
126.367
030.100
042.333
215.000
222.500
222.000
4.6200
6.2167
4.6200
0.1500
6.2250
5.9000
16.6*00
27.893)
14.8450
1’.)583
24.5661
14.1500
1750
730509
1
9.12
0. .26000
.099250 P.09150
.230000 1.01500
6.0000
22.100
8.10000
247.500
8.5500
14.6500
1750
130807
2
1.48
0.60650
.404250 0.4*250
.485000 2.65000
18.0000
75.500
28.2500
8.50000
333.500
7.9000
26.2750
*750
731016
3
1.45
0.42326
.133750 0.56750
.037500 1.42500
*8.0000
19 .0D0
45.0000
8.72500
240.500
13.5000
14.8240
*751
730512
1
44•43
0.09667
.075000 3.43000
.310000 0.63333
57.0000
14.400
85.6667
8.14333
199.000
9.1000
16.2433
*751
730809
2
43.08
0.05250
.014033 1.59667
.566667 2.05000
30.0000
6.950
76.2500
8.13333
149.500
3.1 )3
24.9625
175*
131017
3
18.41
0.09217
.038000 1.40*67
.286667 1.18333
35.0000
30.000
40.0000
8.00000
160.500
6.8000
*1.8500
*752
7105)2
1
*0.64
fl.394’3
.260000 3.56000
.636667 0.’3333
*8.0000
21.400
24.6661
7.83333
2.0.000
7.9300
*6.4000
1152
730807
2
2.36
l.030 ’)
.556000 1.12000
.720000 3.70000
6.0000
112.700
4.0000
8.30000
240.000
7.4000
30.5300
*752
1310*6
3
4.30
0.49 00
.362000 ) 200n0
.980000 3.00000
6.0000
42.400
1.0000
8.00000
171.000
17.5000
1753
1753
1753
*754
730501
7306*0
71*018
730509
0
2
3
1
39.60
51.58
7.12
53.41
0.11415
0.03942
0.04304
0.18617
.029167 ‘.30911
.006667 1.9183)
.004167 0.264*1
.092500 9,74667
.09)333 0.533)3
.045000 0.79167
.035417 0.6*250
.141667 1.033)3
6.0000
33.2500
34.5000
7.0000
3.250
39.000
15.675
5.450
83.0833
63.7500
6.02500
8.37500
8.079*7
8.03333
13.433
97.000
00.750
*70.000
4.4250
7.2000
7.4500
9.0500
*7.6333
29. 500
20.5700
*4.9667
*754
730007
2
19.39
0.20650
.0424*7 2,55730
.164187 2.37500
20.0000
81.200
24.5833
8.40*67
268.167
4.4000
27.0681
*754
*755
71*0*6
710509
3
1
0.40
2.507
0.18250
0.13850
.027500 0,03750
.044250 0.24750
.032500 1.11500
.097500 0.97500
11.5000
19.000
67.000
45.250
70.0000
8.60000
6.42600
217.500
096.000
10.3000
0.9600
*6.7500
l..3750
1755
730407
1.145
0.32200
.119)67 0.17167
.195000 2.0*667
9.000
10 .R50
45.6667
8.66667
238.500
o.7000
25.0667
1755
131016
3
13.500
31.450
26.0000
.?000
15.6500
1756
71050 ’
1
6.480
0.12000
.046500 0.70000
.035000 1.10000
27.000
33.850
0.05000
195.000
4.5900
14.1000
1756
710807
2
0.939
0.30625
.100250 0.16500
.122500 2.47500
*4.000
*70.500
24.0000
8.92500
240.500
11.7000
26.5000
*756
731016
3
2.617
0.37000
.106750 0.9*000
072500 1.97500
12.000
4 .150
22.5000
4.35000
237.000
6.5000
12.6750
1757
*757
730500
730807
I
2
2.500
4.127
0.04800
0.07333
.011333 0.06461
.028667 0.11333
.053333 1.03333
.233)33 1.63333
60.000
54.000
12.100
24.000
74.0000
4.26667
8.20000
*13.667
117.333
4.8500
4.4000
13.9133
23.9800
1757
*758
731016
730409
3
I
0.916
0.309
0.08703
0.50100
.026687 0.02661
.713500 0.12500
.053333 1.43333
.075000 2.00300
38.000
14.000
P6.400
100.900
90.3333
0.60000
0.70000
168.000
2*2.000
4.6000
9.7000
*6.0000
*4.6000
1758
730807
2
0.366
0.RA.?50
•345530 0.17500
.150000 6.25000
4.000
312.000
25.5000
0.35000
2 3.000
*1.5000
25.200 41
115$
43*0*6
3
0.075
1.33000
.048000 0.04000
.060000 0.00000
12.000
241.400
8.0000
9.20000
214.000
*6.4000
*759
110609
I
5.730
0.02967
.0*2000 0.09133
.076667 1.03333
*20.003
4.500
8.20333
*66.601
9.5000
14.0667
*759
710807
2
8.333
0.02400
.0*2000 0.10900
.100000 1.53333
10.000
7.200
87.0000
8.88607
134.661
0.4000
24.8400
*750
711016
3
3.711
0.0)900
.021000 0.02000
.125000 l, 3000
*09.003
5.600
97.0000
8.50000
*34.000
7.6000
15.1500
I7b 1
710511
1
45.697
0.06417
.027167 7.73013
.183311 0.580*3
22.000
5.’50
63.5000
7,03333
151.500
7.7000
*7.5000
1761
110809
2
40.862
0.03667
.008167 1.00000
.408667 1.50000
37.000
*0.250
66.9500
8.00000
163.000
5.9331
28.5625
1761
11*0*7
3
*4.082
0.09100
.054433 1.26613
.376000 0.96667
42.000
4.100
40.1667
7.69333
*40.667
4.8000
*4.4000
*76 ?
7105)1
I
4.287
0.10413
.076833 0.248)1
,)53331 0.9)333
10.000
10.460
1.63333
63.167
7.1000
1 .7 ’)
*762
730804
2
3.157
0.1)683
.323333 0.13i33
.190833 1.75033
21.000
16.600
75.5150
7.50000
63.133
5,3333
77. l7
1762
7’1019
3
2.240
0.16550
.0*9000 0,12250
.100000 1.00000
*6.000
10.600
37.2500
7.42500
45.250
7.4000
11.3500
1763
710507
1
2.673
0.02954
.003667 0,03911
.036333 0.62500
38.000
6.900
8.45833
*15.250
9.6250
IM.QS00
1163
710810
2
3.102
0.04625
.0*0150 0,07500
.012500 0.90000
48.000
l .200
65.2063
8.32500
108.750
6.1500
31.5417
*763
131017
3
4.003
0.04475
.006750 0.13500
.047500 0.80000
36.500
01.900
99.7500
6.27500
1*5.500
7.8000
21.0000
1764
*764
730511
710810
I
2
7.4*8
3.217
0.14370
0.10239
.03)444 0.92333 .107776 0.77778
.016689 0.10464 .216667 1.20667
52.333
25.333
5.233
16.133
35.2778
7.53)33
7.66689
90.667
59.944
7.7667
5.6500
)1.8333
26.9000
(Continued)
-------�
TABLE B-2. PARTIAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE (Continued)
ST000T DATE POU6O
K/P TOTA [ P 007809 602W)3
PIH3 YJEI. SECOHI CHIA TURB PH #10 Ir lIMP
U,
1764
0765
1765
0765
0766
1766
1766
1805
0805
1810
18)1
lou
1807
181?
1 017
1627
1627
)8Z1
1828
0828
1828
1829
1029
0829
1836
1836
1q36
0837
0837
1837
)839
1839
1839
1840
0840
18.0
1841
1941
064%
1842
1042
18 ’2
0843
18,1
11443
1804
0644
0844
0845
1945
08”
1846
0846
08 6
0847
0847
18’7
1848
1848
l’ .8
731110
1 105)1
730808
730018
710507
730810
131017
730510
700008
131000
7305)0
730602
730015
730503
730804
731013
730503
730803
731005
730500
700806
iioouo
730510
730802
730005
730503
730804
7100)5
730502
730804
7310*5
710.29
730802
71)0 )0
F’050’
130804
111003
710503
130803
13 10 12
730503
110803
131012
110’02
113803
7 )1003
1)0503
73060’
711013
7l0S0
710803
7110)?
710508
110806
711011
75050’
710806
7310)0
730500
730803
7310)2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
2
3
1
2
3
I
2
3
I
2
3
1
2
3
I
2
5
I
2
3
I
2
3
I
2
3
I
2
1
1
2
3
1
2
3
1
2
3
‘.263
2.303
0.214
0.134
41.363
1.966
14.267
53.091
20.878
5.016
42.039
02.839
2.047
•5.5Q7
8.421
3.205
09.457
55.011
25.108
16.693
6.701
6.177
70.03*
61.207
13.964
86.55)
15.2)4
17.215
20.796
6.59
11.32
49.45
19.93
3 ?4
3.33
19.39
3.19
28.56
7.39
5.46
32.03
6.53
2.21
12.35
9.00
4.53
‘1.61
9.85
1.39
28.52
8.28
7.53
141.90
130.00
86.16
133.87
90.74
44.32
0.16
1.06
1.03
0.05363
0.1 S00
0.95600
0.93000
0.01400
0.25575
0.09800
0.06200
0.08444
0.09089
0.06400
0.10917
0.09667
0.02300
0.01900
0.02600
0.12609
0.08387
0.10156
0.01808
0.03230
0.03620
0.1000 1
0.08356
0.10486
0.00733
0.00 083
0.01)50
0.03058
.024333
.020750
.092833
.07 S0
.019833
•035556
.025444
.03411)
.030889
.032000
.031167
.028067
.034067
.036583
.023958
•0I e50
.025750
.073333
.016600
.0095’?
.079500
.019131
.025867
.0)0500
.010000
.012750
.001150
.008000
.004000
.165667
.115500
.022167 0.01389
.035500 n 54So0
.595000 0.10500
.633000 0•06500
.053500 4_39006
.025750 0.25260
.011750 0.85500
.013178 2.57444
.02I 44 1.08272
.002667 0.052??
.007500 2.58333
.015067 0.67750
.011750 0.08500
.002000 0 99000
.003661 0.10000
.01)667 0.03333
.070667 2.27778
.009667 2.69889
.027689 1.46111
.004’33 0.22250
.007400 0.09533
.000200 0.04400
.017778 5.79667
.00916? 2.66556
.007222 1.09333
.003833 0.53333
.002167 0.09500
.005500 0.07000
.004667 0.804)7
.004667 0.10067
.008750 n 07500
.008681 4.45000
.0119)7 1.21911
.004333 0.04 57
.008222 0.40444
.005556 0.38222
.0 )244 ’ 0.04333
.001770 0.6027 ?
.011375 0 07875
.022007 0 02500
.o05633 8.82833
.010033 0.13500
.015833 0 0?583
.002’17 0 219S6
.003500 0•06250
.000260 0 04000
.003)67 0.91667
.004500 0.09167
.002108 0.75260
.003833 3.19833
.008000 0.00667
.007000 0.0)833
.007000 1.65500
.005333 1.22000
.002000 1.01500
.002000 0.99750
.003333 0.78667
.003000 0.58000
.017167 0.06)33
.033167 0.06000
.062750 0.04000
.108333 1.00000
.365000 0.10000
.100000 1.60000
.060000 1.75000
.480000 1.65000
.080000 4.30000
.975009 3.35000
.082222 0.67778
.033333 1.06667
.j97778 1.50000
.066667 0.70000
.115833 1.60661
.007500 1.08333
.05666? 0.83333
.060000 0.80000
.050000 0.90000
.110000 0.72222
.084444 1.01111
.207778 1.04444
.048333 0.43000
.0)2000 0.59133
.176000 0.79333
.055566 0.62222
.117222 1.97222
.195566 0.37176
.046667 0.5666?
.085000 0.78333
.127500 0.97500
.069167 1.00000
.103333 0.03333
.060000 0.42500
.070000 0.90667
.2’6667 1.65000
.190833 1.12500
.796667 0.75556
.0810 II 0.92722
.063331 0.06667
.087178 0.91100
.157500 1.31250
.%43333 1.21667
.063333 0.96667
.086661 0.36667
.055000 1.00833
.074161 0.53750
.065000 0.40000
.072500 0.90000
.058331 0.68133
.071661 0.85000
.092917 0.93333
.036661 0.70000
.08)667 0.95000
.0.5000 0.85000
.015000 0.31500
.0140000 0.53333
.045000 0.52500
.040000 0.30000
.070008 0.53333
.0’3333 0.46660
.063331 1.33333
.088333 2.3666?
.150000 2.57508
28.000
18.000
28.000
09.000
09.500
00.000
22.000
44.000
25.333
30.667
27.500
27.000
28.000
60.000
72.000
28.333
24.667
26.667
84.800
60.400
54.400
30.667
26.333
23.333
127.000
044.000
66.000
72.000
27.000
29.500
33.000
54.000
56.661
80.000
57.000
76.333
63.000
56.000
50.000
120.000
87.000
68.000
108.000
009.000
002.000
65.000
93.000
102.000
56.000
112.000
132.000
72.000
120.000
29.000
27.000
34.500
13.467
10.000
59.700
24.600
18’.550
258.700
99.500
9.500
10.000
12.733
84.550
56.750
37.550
5.800
11.700
17.000
9.400
19.800
18.133
4.180
11.120
8.120
39.533
68.367
60.600
3.550
7.400
4.050
j ? .450
11.450
8.600
30•9SQ
37.950
30.150
4.800
08.033
10.000
12.633
11.950
8.033
11.100
11.700
01.450
‘.000
5.750
6.700
5.050
9.400
3.600
17.400
00.750
7.060
6.900
1.500
4.200
7.700
‘.200
3.400
46.300
89.100
27.850
32.5000
56.5000
4.7500
50.0000
71.2222
61.2222
58.3333
70.6667
63.8333
96.3333
92.3333
89.6667
73. 1 1 11
66.0089
58.0000
84.9333
77.2667
59.1111
63.3889
64.6944
96.1667
83.3333
96.0000
91.8333
90.8333
92.5000
66.0667
69.0000
69.7500
88.0000
87.5556
71.0000
83•$333
81.3750
96.0667
94•03 33
92.3333
92.5000
95.5000
93.0000
91.0661
77.3750
83.3333
93.0000
93.2500
95.0000
95.0000
48.0000
50.9067
90.5000
7.55000
7.95000
8.00000
8.55000
9.35000
6.90000
8.00101
8.08889
8.31111
8.28333
8.39167
8.36667
8.23333
8.06667
8.33333
8.03333
0.07778
7.94444
7.66)67
7.6)667
7.03333
8.42222
8.79448
8.03056
8.30000
8.58333
8.07500
8.38333
8.25000
8.05000
8.40000
8.45000
8.37500
8.33333
8.31778
8.38989
8.10 11)
8.15000
8.11687
8.75667
8.23333
8.35000
6.30000
8.4.000
8.40000
8.23133
8.33333
8.20000
6.40000
41.35000
8.30000
9.32500
.4.26667
8.30000
8.35800
6.30000
8.33333
6.63133
0.35000
0.57500
66.500
029.600
148.000
137.000
49.000
88.000
146.111
011.101
118.111
227.000
172.083
068.333
200.000
174.333
066.667
173.889
161.867
)99 444
21.950
32.367
33.467
085.000
121.833
150.’,67
188.167
013.833
022.750
099.500
019.333
173.’SO
226.133
I34. 17
038.150
198.000
081.656
165.556
205.778
199. ’00
184.667
218.000
093.500
060.600
155.017
140.333
134.250
201.500
167.500
1o8.000
091.813
180.331
070.667
088.500
182.333
167.500
082.500
157.661
149.000
)73 .4033
060.333
052.000
3.8000 18.’600
5.7000 PM.7500
q. 0 0 0 17.7500
9.6000 15.9000
8.0 .000 78.3000
10.8000 07.3500
9.0803 07.3110
4 1# 7 25.8178
7.8)33 23.3000
9.9500 17.4833
8.4500 25.9333
7.3000 PO.2 ’ 17
9.4000 13.6667
6.6500 23.7331
7.9000 19.0867
8.3833 0’.5333
#..0060 24.2556
5.7667 19.9889
0.7633 18.8)33
6.7800 26.0067
5.0200 22.2087
10.1600 18.8111
9.883) ?h.0000
6.7176 P0.1167
8.5750 13.3000
8.0500 28.4833
7.’.’00 01.9750
9.1500 15.2 13
6.6000 23.6661
6.3500 11.4250
9.6500 08.41)3
9.5500 23.8333
6.6600 20.9147
9.4000 12.8880
6.9500 73.1667
7.8667 19.8133
13.7000
6.6175 23.0400
c.5 .. .7 %8 .4333
9.1000 02.8631
6.4133 23.5875
8.4167 114.6)13
‘1.6333 03.9500
0.52s0 e3.#l# 7
7.0000 08.8000
0.4780 13.2167
7.83 33 2..1313
6.8833 19.4681
00.0500 07.7167
7.00(00 78.4160
6.’.000 Io.3H10
00.1487 11.4500
8.4000 ?3.40fl0
6.1600 06.0000
10.6667 01.4160
8.2000 24.2000
8.8000 18.1667
00.1800 06.3667
8.3750 24.5167
6.4300 16.9250
(Continued)
-------�
TABLE B-2.
PARTIAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE (Continued)
S103(T DATE °0047,
N/P TOTAIP ORTHOP 802803
583 0.3(1 57CC ) )!
CKLA TURB PM 01.0 oe io p
U i
I- .
1849
1849
1850
oso
0850
p5
1851
7305)1
730811
711019
730429
730802
731013
7306112
730803
1
2
3
I
2
3
3
2
17.9?
0.32
0.31
6.58
8.42
3.87
6.92
7.10
.059333
.863000
.702000
.193722
.117778
.108111
.112556
.036222
.022333
.037000
.042000
.063444
.014333
.013111
.012722
.008000
1.0066?
0.150110
0.13000
1.14444
0.8)889
0.04333
9.21222
0.14278
.060000
.130000
.090000
.131667
.172???
.374644
.555556
.117778
0.40000
1.60000
5.40000
0.93333
1.62222
1.62222
2.45000
1.39444
18.000
6.000
8.000
9.000
16.667
25.333
16.500
33.333
1.600
206.700
44.530
19.96?
31.900
31.367
27.000
33.033
5.0000
18.6687
45.5556
56.I l Ii
53.1687
81.1667
7.60000
8.00000
9.40000
1.93889
7.92222
7.82222
8.13333
8.70556
16.133
14 1.900
118.1100
148.058
113.889
139.000
106.3)3
88.889
7.9000
7.4000
11 .6000
8.0600
6.1500
6.1833
8.6333
8.9333
16.2.333
30.1000
19.0000
l3.977
24.5111
21.8684
16.3333
24.1000
1851
1852
731013
710502
3
1
3.93
5.73
.038833
0174 )1
.011500
.002417
0.00667
0.05500
.086111
.045000
9.86687
0.75933
32.000
76.000
78.067
5.061
68.1111
87.5000
8.58889
8.37500
78.944
132.581
8.1133
9.1111
70.0333
13.8000
1852
£852
1853
1853
730804
731015
710502
730804
2
3
1
2
5.52
9.25
13.11
7.01
.020167
.018500
.015700
.015222
.007167
.008167
.003518
.005778
0.05000
0.06167
0.12617
0.04889
.058333
.103333
.078309
.057718
1.05556
0.93333
0.64111
0.78889
103.667
90.000
185.333
105.333
7.167
4.500
5.567
4.633
86.8333
95.5000
93.1000
86.5833
8.18333
0.16667
8.77944
8.25556
123.722
125.667
182.989
158.667
7•5444
8.2667
1fl.3 4’
8.4889
24.40)1
17.5500
12.7000
26.8667
1853
731114
3
8.00
.015611
.010000
0.04444
.061111
0.73889
152.000
4.387
96.2222
8.28333
156.687
7.7222
17.6167
1854
730502
I
21.52
.100333
.030000
2.10000
.060000
1.53333
40.000
31.800
7S.6 67
7.83333
206.000
9.3000
13.7667
1854
185’
1855
710806
731013
730503
2
3
1
10.90
3.43
86.38
.135667
.263667
.033000
.094000
.200000
.005500
1.19667
0.37333
2.75000
.293333
.533333
.101667
1.83333
1.80000
1.28333
54.000
78.000
60.000
11.200
5.300
2.550
85.5000
95.6667
7.76667
7.86687
7.80000
165.333
241.133
2)5.833
6.9000
3.5133
7.7750
20.5500
16.6667
11.7933
1855
730806
2
34.93
.056000
.0)9958
1.51125
.273333
1.99583
63.000
21.700
84.2500
7.77917
276.500
3.0000
17.2875
1855
1856
7310)5
730503
3
1
4.02
2.68
.06/750
.049667
.0294)7
.0)466
0.06167
0.06661
.209167
.066667
1.65000
1.06667
49.000
48.000
11.450
33.400
82.7500
7.89167
8.36667
261.133
235.333
‘.1000
9.6000
15.5167
11.7000
1856
730806
2
1.07
.114750
.080000
0.07250
.162500
1.15000
50.000
19.400
91.7500
8.10000
274.500
11.6667
2 1.5000
1856
711015
3
2.70
.105000
.0530000
0.07500
.210000
1.05000
48.000
50.6000
88.0000
8.15000
283.000
8.0000
15.9000
1057
710503
I
29.91
.023750
.0094167
0.59833
.113750
0.74167
114.000
2.5500
8.13750
158.933
9.2750
12.9661
1857
730804
2
6.93
.036667
.0165000
0.08833
.173333
1.13333
53.500
44.7000
81.7500
8.00000
134.667
5.3181
23.9250
1857
7310)3
3
5.0)
.030083
.0182500
0.03250
.120000
0.89167
91.0110
5.1000
96.5000
8.17500
136.833
6.0500
18.0833
2)01
2)01
730529
73082)
1
2
17.31
11.64
.023)4
.0)0057
.0072857
.0065714
0.267)’
0.07143
.05)429
.05)’29
0.25524
O 3S7)4
43.7)4
62.2 86
1.7571
7.0714
65.0952
86.7143
7.5851)
1.73571
38.29’.
38.500
8.814’
8. 1951
18.4714
27.3605
2101
2102
73)025
730519
3
I
I?.88
29.27
.012905
.009878
.0080238
.0035500
0.11714
0.25103
.041)90
.033056
0.32381
0.25118
96.857
251.500
2.5857
2.9333
86.26)9
93.6750
7.35000
7.89139
30.690
58.861
6.607)
9. 1444
21.6667
17.3647
2)02
710818
2
15.20
.013100
.0075000
0.12056
.059444
0.4)667
125.000
6.4000
95.1667
7.30556
64.056
7.9333
28.3611
2)02
2)03
70)024
730526
3
I
16.46
6.19
.007556
.09O 17
.0050556
.03)6661
0.05944
0.45667
.059444
.078333
0.22222
0.60833
131.500
44.500
1.4500
17.6250
96.222?
80.6667
7.57178
8.65)67
62.778
95.333
7.2750
9.9750
20.7889
21.0750
2)03
710820
2
2.13
.041375
.0702500
0.06750
.0 6250
0.11250
61.500
9.2500
73.4583
7.52500
86.625
4.SSOO
27.5 42
2103
731025
3
1.21
.089000
.0339167
0.03500
.056250
0.60750
68.000
11.8500
80.6667
7.62500
105.500
4.6250
20.5625
2)04
710516
I
0.01
.070900
.0280196
0.47059
.0178’)
0.33725
33.235
6.9625
7.67843
50.686
8.0000
19.6863
2)04
73081’
2
4.75
.066)00
.0256333
0.20800
.094661
0.6)333
42.000
11.8100
81.3333
7.47500
49.131
7.5733
28.93)7
2104
2)05
73)0?)
730519
3
I
5.2?
23.70
.07512?
.0 39303
.0359630
.0088250
0.32093
0.7)098
.049259
.050076
0.42593
0.443)8
4?..867
54.727
9.8444
1.5455
81.4630
83.2127
7.64815
8.077e7
45.759
8 1.265
7.8774
9.6016
20.5204
19.0221
7)05
2105
2 02
130813
73)023
71042)
2
3
I
5.18
6.71
60.29
.049121
.029950
.008842
.0143113
.0063000
.0014667
0.20)82
0.06933
0.46719
.089697
.086667
.038625
0.53939
0.37033
0.33583
48.636
38.000
81.750
9•6999
7.4778
5.2500
88.5455
76.3333
73.3958
8.34565
7.75500
7.56625
74.142
87.083
10.000
6.5045
7.1750
11.3187
28.318?
25.6389
9.7504
2*0?
710728
2
26.82
.011375
.0066250
0.25250
.04)250
0.26250
144.000
7. 75o
94.6459
6.58750
10.600
8.0150
2.1.9411
7402
7110114
3
19.40
.01)167
.0066667
0.09000
.121661
0.50000
141.750
5.3250
6.24167
10.000
7.7750
15.0917
2403
730411
I
71.54
.037750
.0100000
2.01500
.087500
0.50833
32.000
4.3250
6.65000
74.500
10.4145
10.1417
2403
710721
2
129.60
.0)5375
.9061661
1.92500
.osSls2
0.54683
150.000
7.7250
90.5870
8.05)19
24.792
8.fl ’ .97
23 .439k
2403
701101
3
90.19
.023417
.1)062083
I 37S93
.112917
0.13750
1)2.500
6.9250
74.7083
7.13750
30.033
7.0625
21.0)67
2*08
7304))
1
40.54
.048667
.01166661
1.65556
.05444 ’
0.17778
29.333
‘.6000
64.7778
6.65556
37.333
10.3333
19.2779
2408
100771
2
75.82
.0)8989
.0062222
1.36556
.063333
0.544.4
78.000
10.9667
92.3333
8.36667
40.333
1.9333
75.9444
2408
711001
3
58.13
.020444
.0097778
1•09778
.090556
0.40000
104.000
5.6133
78.6809
7.30556
41.333
c.rpM9
26.7444
2609
710610
1
11.06
.085000
.0405000
0.87500
.170000
0.10000
30.000
2.8000
8.45000
10.000
8.4000
13.4000
2609
7 072O
2
5.28
• ) )6500
0j150o0
0.55500
.05500A
1.40000
35.000
69.1000
9.45000
13.630
13.7500
16.0000
7409
730928
3
16.88
.098000
.0430000
1.56500
.090000
0.90000
72.000
10.2000
89.0000
7.15000
16.500
8.0006
19.6000
290)
730613
I
2.5?
.227444
.0272222
0.38778
.186667
0.65556
9.333
6.3900
46.6689
7.57778
15.656
6.2)67
75.5880
280)
710828
2
2.79
.057722
.0085556
0.07278
.089444
1.05000
25.333
4.8667
76.1667
6.76111
25.778
4.2000
26.5189
2801
11)101
3
1.88
.204667
.0292222
0.26861
.110000
o.lSSSo
10.000
10.3133
16.6867
7.84444
19.333
8.0667
15.1833
7002
7106)2
I
3.56
.073556
.0147778
0.12899
.125556
0.56667
29.333
3.4400
82.0000
7.0111)
15.333
6.0)67
21.2170
4802
710027
2
4.60
.025333
.0054444
0.05278
.063889
0.73333
53.000
4.2667
86.61)1
6.42778
16.389
7.0333
79.6389
2802
711101
3
3.55
.074778
.0137778
11.13778
.092222
0.47178
22.667
10.0667
51.2222
7.61111
14.333
8.2667
17.0667
2804
7106)5
1
4.54
.072750
.0132500
0.12150
.198333
0.07508
29.250
5.9000
82.1667
8.85000
13.250
4.8250
27.0667
Conti nued)
-------�
TABLE B-2. PARTIAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE (Continued)
STORET DATE ROUND
5/P TOTAIP ORTHOP 802503 1 183
EJEL SECCHI CHLA TUP.8 PH
AL l TI I
2808
eos
sos
2805
2806
2806
2006
3402
3402
730527 2
730162 3
730613 I
730821 2
731)00 3
7)06)4 1
730828 2
730102 3
730417 1
730723 2
4.u
2.07
4.19
4•71
6.13
5.72
4.1?
3.34
4.50
3.04
.032000 .0062500
.080833 .‘)081687
.061667 .0)35833
.016250 .0082500
.026083 •c,083333
.086000 .0)08889
.035272 .0064444
•Q4 333 .0111111
.045500 .0060000
.082000 .0020500
0.05500
0.041193
0.15250
0.03625
0.03750
0.26000
0•08546
0.091)1
0.14500
0.12500
.074167
.042500
.100000
.041250
.103333
.232222
.082222
.060000
.060000
.175000
1.02500
0.60000
0.85000
0.55000
0.32500
0.60000
0.71111
0.82722
0.50000
1.65000
43.500
38.500
09.000
86.250
52.500
12.000
36.667
21.000
36.000
2.000
13.2000
10.8750
9.8 1 100
4 .925o
‘.9500
8.9667
3.6333
1.5667
33.4000
57.5000
80.5833
85.2500
77.6667
92.’583
87.5000
60.2222
83.5556
70.0000
69.0000
35.0000
7.26467
7.09I 7
7.80333
6.55000
7.95000
7.07222
6.67776
7.32222
1.85000
7.90000
17.833
16.007
05.?5O
19.250
p3.c83
10.111
20.333
16.778
09.1100
29.500
6.7375 28.47cc
8.3600 lP.e5oo
8.3500 25.94)7
‘.9250 29.237w.
7.3750 14.5417
6.3333 20.1000
5.7000 27.911)
8 .33i3 07.7101
01.9000 00.9500
7.6000 25.1500
3402
3403
3403
3403
3406
3406
3406
3409
3409
3409
3610
34)n
730001 3
730406 0
730123 2
73100) 3
730406 0
730722 2
731001 3
730416 1
730723 2
730002 3
730407 1
730722 2
1.13
6.40
3.436
2.305
24.542
15.697
9.738
3.904
2.106
1.14)
10.405
7.292
.106000 .0040000
.0)7706 .0085417
.032500 .0066687
.025778 .0072222
.045500 .0060000
.059833 .0110000
.066333 .0082500
.046500 .0162500
.0155000
.126000 .0007500
.054417 .0310000
.12)250 .0380000
0.05500
0.0616?
0.05067
0.02110
0.05000
0.77313
0.55167
0.12000
0.14000
0.04750
0.49083
0 64500
.065000
.050833
.068333
.036667
.066667
.1683)1
.084067
.062500
.140000
.060000
.010833
.23666?
1.70000
Q.83753
0.67500
0.66661
0.48333
1.05000
1.23333
0.62500
0.90000
1.47500
0.36667
0.75000
18.000
72.000
92.000
88.667
30.000
‘1.000
35.500
36.000
36.000
33.000
52.500
22.000
54.6000
04.0000
14.21100
6.6607
27.6500
12.3500
26.8000
12.3000
38.0000
66.0500
8.7500
8.3500
60.6101
89.1667
95.3333
43.0000
60.6867
31.5000
79.5000
97.5000
67.5000
8.60000
7.87083
7.03333
9.73333
7.73333
7.90333
7.85000
7.85000
7.80000
8.27500
7.77500
7.0)667
21.SoO
16.833
18.667
03.722
65.8)3
78.667
83.667
22.000
26.500
44.000
36.167
50.000
10.8000 10.8000
02.2500 9.3042
7•7 41 25.6250
9.6667 19.0.227
11.3250 10.6667
5.4500 24.9500
9.9000 )9 .9 167
1 1.0500 13.0750
6.2000 25.0500
P.0000 18.7750
00.5250 02.6750
5.9500 20.54)7
3410
3417
3802
3802
34)3
34)3
3403
3415
34)5
3 )5
3407
3’.07
38 )7
3 I9
3419
3419
3420
3420
34211
3822
3’.??
182?
3427
0823
3 3
3701
3700
3700
37117
3702
7’1002 3
130406 1
710722 2
731002 3
710’16 I
710722 2
731002 3
730’)? 1
730723 2
731003 3
110407 1
7’0723 2
730000 3
7304)7 I
730772 2
13)002 3
730408 I
730722 2
730002 3
7104 )6 I
730770 7
7)0926 3
730417 I
730772 7
73100) 3
7303/’ 1
730711 2
7309 )4 3
7103?)
110785 2
10.947
30.665
8.206
16.656
24.400
8.341
13. 051
7.460
5 l97
2.628
7.407
1.728
3.20’
9.059
6.338
2.982
29.204
02.8)4
4.299
47.907
35.811
13.554
9.124
5.289
6.6)3
7.285
9.056
18.080
7.138
6.703
.084000 .0108333
•0485QQ .0060000
.179000 .0765000
.082000 .0000000
.039913 .0OS’6667
.090167 .0036467
•054833 .0)06667
.00736? .0063333
.025700 .0078667
.026500 .0075607
.021000 .0l.’0000
.09)000 .02200110
.028000 .5060000
.117750 .0775000
.027500 .0701500
.?02150 . 902S0D
.016667 .11060000
.024500 .0075000
.025667 .0095000
.029500 .0)65000
.0b ’583 . I88133
.070333 .0243333
.0)4000 .0046667
.003667 .0075556
.004111 .0056667
.102667 .0242500
.038000 .0056)33
.022583 .0098067
.098222 .0391778
.066399 .4131133
0.81833
1.10000
0.97500
1.22000
0.83500
0.56750
0.56000
0.08033
0.05133
11.02300
0.15000
0 .OSSOC
0.03000
0.94750
0.68500
0.50750
0.45500
0.25250
0.04)33
1.28373
0.858)7
0•87333
0.09389
0.03272
0.02556
0.53333
0.22593
0.20917
0.5)600
0.45546
.013333
.300000
.505000
.310000
.063333
.093333
.060000
.035667
.076667
.040331
.050000
.085000
. .b0000
.090000
.032500
.067500
.025000
.060000
.1166667
.130000
.069333
.000000
.033333
.o3S55
.038899
.189167
.115000
.075931
.164444
.122222
0.50000
0.601100
0.20000
0.60000
0.83333
1.73333
0.06667
0.39667
0.57000
0.58000
0.60000
0.00000
0.80000
0.30000
0.81500
0.40000
0..’SOOO
0.00000
0.60000
0.401100
0.92500
0.96667
0.33333
0.30111
0.61)11
0.40661
0.49167
0.65000
0.683)3
0.50000
36.000
40.000
24.000
36.000
36.000
35.1100
43.000
69.600
90.800
93.600
60.000
72.000
60.000
38.000
27.0110
53.500
60.000
83.000
70.000
39.500
33.500
40.000
93.313
194.000
056.667
10.000
38.500
50.250
10.000
05.133
51.0000
1.5000
8.6000
011.3000
0.9000
9.5500
13.4000
22.9000
00.0400
8.0 ’00
9.4000
20.0000
3.7000
3.9500
4.4000
12. 7000
09. 01300
07.0000
9.7000
2.1500
34.2000
26.5000
M•4947
8.20011
4.07.67
4.50011
6.0000
10..?50
7.4667
‘.0000
91.0000
56.5000
86.3333
69.2917
75.5000
93.5)00
90.0000
56.0000
79.5000
79.6667
67.1250
96.8333
99.7778
92.8889
89.9444
56.4067
54.6687
80.7503
73.0000
46.0000
8.79333
5.25000
5.65000
5.60000
6.60000
6.08333
6.36667
7.79333
6.93667
6.77661
1.90000
8.05000
6.90000
7.65000
7.37500
8.32500
9.09333
7.10000
7.20000
6.18333
7.20833
7•83333
7.46101
7.02222
6.67778
7.45000
7.79l 7
6.62500
7.731189
7.38*86
76.067
00.000
00.000
00.000
10.000
00.500
15.667
16.300
23.233
28.067
28.000
33.500
03.000
94.750
92.000
0 )6.250
26.667
31.760
32.967
10.000
10.000
lI.’.67
10.600
03.000
13.1189
12.1)3
22.417
21.250
01.722
2 1 .048
12.7000 18.4667
00.0000 13.5000
.5.5000 72.9000
7.9000 20.5000
10.0750 12.0333
4.3083 23.7 )25
6.3500 20.2000
12.0250 10.4667
6.5733 25.0047
7.9300 09.0000
00.8000 0 3.5000
9.9000 26.9500
0.0000 19.30110
10.1400 0 3.6000
7.0000 21.6150
10.91100 11.2250
17.3750 11.1333
‘.3750 25.0760
8.1500 19.9500
00.0500 11.6500
6.9000 25.5250
‘.0000 70. ‘67.7
I?.oiq3 9.0661
8.9313 24.8956
9.0000 20.1 199
9.4500 33.34 )7
6.0000 21.8240
4.6000 /6.0697
10.0667 I1. ’ 8
5. ’933 76.4/77
170?
3104
3704
3704
3705
3705
3705
3706
3706
710919 3
710602 1
7’092 1 2
711026 3
710330 0
73070? 2
730924 3
730324 0
730712 2
8.957
23.497
55.282
88.775
6.272
7.298
5.765
4.749
6.658
.066100 .0500001
.03236) .0052500
.000952 .11069046
.009800 .1111838)0
.059907 .0036667
.033667 .0055833
.031950 .0075000
.032706 .0235833
.067750 .0045000
0.28556
0.78484
0.23429
0.54667
0.26167
0.00750
0.05083
0.47125
0.24500
.001111
.001011
.2776 1Q
.2016 1Q
.0 00833
.120833
.000750
.155833
.184161
0.26556
0.40656
0.67043
0.39048
0.23333
0.46667
0.6166?
0.42083
0.72500
44.000
56.067
004.000
044.143
20.000
45.000
51.000
00.000
28.661
6.0333
2.9000
8•5 )43
7.11000
3.7750
0.3000
02.2500
3.8000
05. 1000
83.6667
74.67.67
94•5351
90.2857
61.0000
87.0000
93.0250
40.0417
‘ .9l67
6.81333
7.209,2
6.115 ,8
6.40952
7.SbOol
7.’SOOO
7.10667
7.26750
7.54161
28.656
00.389
01.619
10.738
10.000
I1. 17
06.208
10.333
20.917
7. 1133 76.7001
8.6317 20.1000
9 46/4 76 /679
5.3043 20.61167
8. 1150 07.7543
6.7000 20.6083
6.8792 74.5873
9.3000 11.1833
7.0000 28.0417
(Continued)
-------�
TABLE 8-2. PARTIAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE—DATE (Continued)
STOOET DATE ROUND
N/P TOTAI .P ORTHOP 14021403
14143 0.0(1 SECCHI
CK1.A 1uR8 PH AIr oo itur
(Continued)
3109
130919
3
9.090
.061083
.0036667 0.16000 .06633) 0.87083
30.500
23.3500
64.8333
6.75833
22.800
6.6425 26.3792
3707
130602
1
6.510
.024778
.0072718 0.10178 .074444 0.27178
48.000
9.450
87.5556
7.62778
10.227
9.0250 19.8167
3701
710823
2
13.938
.011888
.3072222 0.09278 .073333 0.40000
71.833
7.400
91.444k
7.62222
10.111
7.9883 25.90.11
3707
711026
3
14.930
.010597
.0075694 0.07710. .070417 0.26528
110.500
‘.183
95.7639
6.79722
10.333
7.1133 19.7292
3’06
710321
1
4.925
.042133
.311’Ob’ 0.056 ,50 .044330 0.31333
3.200
l.. 140
77.2000
7.800uO
04.400
l(..6 .0O 11.7133
3700
130706
2
7.311
.017003
.0011833 0.05167 .064333 0.46333
75.230
9.140
92.2500
8.4.3667
I2. b7
9.0050 27.3017
3708
730924
3
3.151
.02076?
.0079000 0.02600 .044000 0.40)33
95.000
‘.060
94.8333
6.99000
13.467
6.6400 25.8100
3709
730324
1
19.435
.041333
.0080000 0.60667 .116667 0.266o?
24.030
0.500
79.6667
7.53333
01.687
10.0000 9.366?
3709
730705
2
22.238
.022333
.0091313 0.34661 .150000 0.33133
42.000
7.000
01.6667
7.0666?
16.000
6.2500 27.’667
3709
710020
3
10.701
.028500
.0140000 0.12500 .180000 0.85000
48.000
19.200
90.5000
6.35000
19.500
1.9000 20.9000
3710
730330
1
6.213
.063833
.0133333 0.26667 .130000 0.38)33
18.000
1.600
53.3333
7.49333
10.000
8.6500 12.2667
3700
130707
2
15.121
.022333
.0063333 0.19833 .085000 0.76667
50.000
2.800
87.3333
6.68333
06.167
5.5500 24.2833
3710
710924
3
10.039
.025000
.0080000 0.13250 .140000 0.77500
54.500
8.200
90.7500
6.90000
18.000
5.7003 24.0750
3711
730402
1
0.271
.042444
•3074444 0 21778 .075556 0.25556
20.687
‘.000
65.1101
7.07778
11.cSb
9.7133 13.0667
3701
710711
2
16.236
.016067
.9033556 0.01111 .000889 0.28222
43.607
4.700
68.9333
6.66667
07.378
6.3889 26.8267
3110
730909
3
5.203
.013001
.0088333 0.03333 .03333) 0•43333
‘3.333
7.167
80.6067
6.66331
04.333
0.5000 27.2000
3703
7)0329
1
8.205
.046333
.0078000 0 27800 .060000 0.30661
21.000
6.840
7.04661
10.000
9.7300 13.4400
3703
730101
2
IB. 157
.014900
.0038000 0.15633 .097000 0.46333
76.800
3.600
91.2400
7.29333
10.767
6.5900 28.9050
3703
7309)9
3
15.241
.010800
.006o333 0.09100 .054667 0.57667
62.200
6.980
87.9667
6.60000
05.600
6.0400 2b.6933
3715
7)0330
1
4.330
.07572?
.0258333 0.24101 .080556 0.21222
29.333
3.300
63.0444
7.65556
00.000
.7107 11.1778
3705
710706
2
5.048
.050667
.0032222 0.16333 .095000 0.52178
32.000
2.300
71.2222
7.80556
07.444
8.5833 24.2611
3705
710924
3
2.924
.053556
.0218089 0.01444 .08222? 0.51111
52.3)3
8.133
81.3333
7.28869
14.133
6.70.81 23.4778
3706
730603
1
9.904
.006567
.r’043667 0.08417 .07466 ’ 0.28)33
168.000
‘.920
94.8000
0.83000
00.017
9.7200 20.7367
3710.
730872
2
04.215
.010000
.3062813 0.08007 .068667 0.38500
017.600
5.900
98.3333
7.01333
00.000
6.9200 24.9933
37)0.
73)076
3
7.566
.00019)
.0103000 0 O3833 .045500 0.22667
115.200
5.260
85.7067
6.19333
00.000
6.7267 09.6333
3717
730)72
1
7.842
.087667
.0246667 0.48667 .08266? 0.42000
07.200
7.980
31.4067
7.27333
17.400
10.0.400 13.0467
3707
710707
2
00.443
.035600
.0060333 0.30933 .064667 0.40.000
31.200
6.929
78.1333
7.24000
36.033
8.6400 e?.b067
IJI
3fl1
730021
3
16.449
.017533
.0076000 0.21600 .06733) 0.66000
45.800
10.500
87.3333
6.40000
07.4b7
.3 ’00 78.07)3
3708
710324
I
6.758
.105000
.0020667 0•43033 .133333 0.18133
27.000
0.300
73.6667
3.50000
17.000
9.9500 00.4087
3719
710705
2
7.254
.100667
.0533333 0.58667 .125000 0.46667
32.000
9.250
79.0000
7.80000
33.333
6.0750 25..0.0.7
3719
710920
3
18.150
.077250
.0452500 0.54500 .832500 2.07500
36.000
l. oo
85.2500
6.80000
63. OO
0.5500 20.5500
3719
71)322
I
3.832
.040250
.0037500 0.05500 .067500 0.45000
40.000
5.250
79.5000
6.97500
10.000
9.0000 14.0800
37)9
710705
2
8.006
.016250
.0040000 0.05250 .077500 0.62500
42.000
2.450
89.2500
7.17500
1I.?So
6.1000 79.8000
3719
710920
3
5.039
.006000
.0013000 0.0275’ .052508 0.87500
50.000
3.050
86.7500
6.92500
10.500
6.5400 26.0000
3900
7)0420
I
32.471
.089000
.01)0000 7.15000 .140000 0.610000
02.000
4.300
05.0000
8.20000
38.000
7.5000 05.6000
3901
730710
2
7.081
.280000
.0310000 1.01000 .380008 1.30000
8.000
19.400
9.0000
7.40000
102.000
3.4000 2’.2000
1900
711006
3
10.151
.132000
.0135000 0.96000 .300000 1.’S000
11.090
0.900
7.00000
78.000
5.0000 07.0.000
390?
710426
I
1.571
.073000
.0263333 9.22333 .000009 2.55000
6.667
247.00.7
26.3333
9.08000
63.333
9.8333 lb.l 00
310?
7107)0
2
4.273
.066586
.0151111 0.53122 .181111 2.27778
02.000
040.167
22.722?
8.60000
75.889
7.2111 2’ ..5Sc0.
1107
710008
3
1.720
.27483)
.0335000 0.20500 .27333’ 3.45900
11.333
171.467
8.80657
79.167
6.6647 20. .l 7
3805
710420
1
15.554
.055000
•77077 1544 0.78067 .062770 0.81776
24.000
0.1.500
30.5556
8.53333
132.656
10.3333 03.7000
3905
730777
2
2.952
.187667
.01533)3 0.31500 .244067 1.6’,667
03.000
77.300
18.0000
8.05833
029.417
5.0000 25.0367
3605
711006
3
0.819
.1398))
.0035000 0.04000 .066667 1.60667
15.333
65.633
8.06667
140.667
8.1313 19.0647
3906
3D428
I
29.045
.076722
•7489444 1.86667 .09444’ 0.82722
12.667
1 . 33
13.2222
8.11333
187.778
‘1.8000 12.6(78
09110.
710800
2
65.409
.042500
.00140000 2.69800 .085000 0.60600
‘2.000
9.849
71.5833
8.81500
180.750
8.1260 76.7501
34106
330000
3
14.001
.070)1)
.0270667 0.91900 .080000 0.98333
39.000
6.9147
86.3)33
8.35000
194.633
7.80.87 20.1433
3901
3901
7)0426
730800
1
2
20.640
33.609
.0 10667
.105067
•93?5556 2.00667 .05 ’ .SS0 0.88089
.0430556 3.02011 .140556 1.03889
06.900
13.667
11.167
8.700
35.0000
46.6667
0.13333
8.02222
169.989
153.944
41.0800 1’.0.48b
5.8500 24.8056
39d1
710010
3
10.513
.091009
.0216667 0.96313 .000000 0.23333
18.000
10.000
36.5556
8.16667
049.167
6.9333 19.6944
3909
710426
1
11.759
.1 —4 110
.0328689 1.46667 .207770 0.04444
07.333
16.461
52.3333
8.08889
134.000
9.7000 14.5778
3908
730730
2
7.963
.0149750
.9520090 1.213740 .095009 1.57500
08.000
37.300
33.7500
7.92500
104.500
8.5750 24.14740
3908
710098
3
9.22
.200000
.050444 0.220.0.7 .568888 2.65556
20.667
3 ) .733
7.9333
042.8149
5.6113 70.1556
3 l2
710800
2
6.35
.084750
.010500 0.0.7000 .317500 1.35000
16.000
4S.Q 0
14.000
7.4750
0.2.750
‘.7800 75.8780
3902
711009
3
0.55
.202067
.023500 0.00067 .201667 1.58333
12.000
73.680
07.167
8.0000
54.000
6.0000 26.8167
3906
730426
I
33.06
.053667
.006167 1.514313 .058313 0.69)67
30.750
1’.6?5
8.0500
94.067
10.3878 17.9800
3904
110801
7
40.16
.038042
.006625 0.0.1067 .068759 0.87083
32.750
8.580
77.125
8.0208
87.792
5.77,0 74.9175
3904
111010
3
35.01
.040750
.013000 0•92000 .112500 0.88750
49.250
17.875
86.508
7.8625
97.075
7.0750 20.0750
3905
710504
I
15.53
.055667
.005167 0.79133 .075000 0.98333
18.333
53.1433
‘0.000
8.6500
154.333
In.s000 12.0)13
3905
71980?
2
3.03
.027667
.0)4833 0.2 S00 .036667 2.61667
07.000
008.133
13.667
8.7167
127.667
8.465’ 23.14000
3 I5
730001
3
1.33
.038833
.038500 0.07161 .010667 2.00000
12.000
71.400
27.500
8.5500
114.667
5.7000 19.’)33
3917
73050’
1
11.27
.085000
.016500 2.02253 .055000 1.15008
5.000
049.950
1.500
8.6000
154.500
9.0000 11.3000
-------�
TABLE B-2. PARTIAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE (Continued)
STOR(1 DATE ROUND
P0/P TOTA1.P ORTHOP NOV.03 883 VJ L SECCH!
CHLA 7 (108 PH
ALl DO TL IP
U’
331?
3917
3Q21
3921
3921
3928
392’
3924
3977
3927
3927
3926
3926
3928
3929
3929
3929
3931
3931
393)
39)2
3932
3932
3933
3933
3933
3934
3934
3938
4201
4200
4700
4204
4204
4204
4701
4701
4707
•? 13
8713
4213
82)6
4216
4716
47)9
4719
42)9
6220
4220
4720
8221
4721
4)2?
4222
472?
4223
4223
4223
4224
8224
4228
730801
73*010
730421
730730
731009
730420
730730
731006
730504
730801
731011
730420
730730
711008
730424
730730
131008
730426
710802
731010
730428
710001
731009
130428
730801
711009
710421
110730
731006
730413
730724
111002
71042)
130721
731005
7104)1
730724
111003
71047)
730730
731006
710420
730731
711008
130423
7)0724
73)005
710411
7)0728
73000’
130727
111005
710802
730723
13)002
730423
700775
73 )004
110417
730723
731003
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
I
2
3
1
2
3
1
2
3
I
7
3
I
2
3
I
2
3
2
3
o
2
3
1
2
3
0
2
3
6.12
0.71
4.63
2.02
2.89
35.15
6.07
7.05
1.04
1.96
1.07
46.72
4.90
3.44
21.30
10.23
6.4)
13.42
06.68
5.56
10.36
3.51
3.02
33.16
39.29
6.2?
16.1?
2.’8
3,9)
20.05
14.0’
13.36
02.66
3.
6.30
25.00
10.42
8.01
9.33
2.06
9.95
14.59
2.72
3.78
031.02
67.71
51.70
90.65
88.30
57.57
4.58
2.50
)S.74
6.04
1*9.72
37.65
30.46
12.27
9.50
4.70
.204500
.168000
.031000
.073333
.086250
.024500
.054083
.042750
.213500
.127500
.193750
.024917
.045750
.053250
.067619
.058667
.062400
.219222
.288222
.397667
.115218
.079556
.072333
.042917
.060750
.064417
.021778
.065609
•069667
.068611
.042489
.177000
.019167
.021130
.021000
.070333
.071889
.067889
.048125
.091938
.089375
.038333
.060770
.079333
.007708
.002000
.0)1700
.000167
.012000
.009833
•0?0S90
.026000
-.011817
.009000
.020202
.005222
.000250
.009500
.011000
.020000
.007000
.016000 1.20000 .075000 2.23000
.028500 0.05000 .070)00 1.60000
.005750 0.07750 .060831 0.84167
.007083 0.07333 .066663 1.20000
.007250 0.04250 .187500 1.42500
.006500 0.81167 .023333 0.31667
.012000 0.17167 .135067 0.81667
.011000 0.05750 .145009 0.60000
.013125 0.10875 .005000 2.61250
.013250 0.14500 .107500 2.10000
.032250 0.05250 .082500 1.37500
.004667 0.88792 .051667 0.37917
.006.58 0.0791’ .095000 0.85000
.005815 0.08475 .066250 0.75000
.0201)1 0.8816? .081190 0.78452
.007833 0 376A1 .170833 0.48333
.007600 0.25300 .093000 0.04000
.112011 3.16667 .008889 0.98089
.175 4’ 3.83778 .033949 0.43333
.254167 1.60333 .128333 1.26667
.017718 0.81161 .090000 0.73089
.000667 0.14273 .017272 0.72778
.011667 0.03536 .155556 1.04848
.011667 3.90000 .057500 0.03333
.008167 2.18583 .200633 1.00000
.015250 0.15750 .243333 1.37500
.006222 0.28067 .061272 0.61110
.000556 0,0644’ .Q77777 1.02222
.010167 0.03000 .213333 1.15000
.064500 1.33333 .047778 0.2 ’444
.012167 0,60300 .006667 0.44444
.090750 0.26230 .155000 0.00000
.006833 0.70667 .035000 0.44333
.006917 0.03667 .045000 0.50 33
.009250 0.01000 .142500 0.82500
.012889 0.63333 .050000 0.88889
.008778 0.61849 .117778 0,97778
.0l 778 0.27000 .2’3333 0.15556
.007475 0.24750 .064161 0,99583
.008503 0.09458 ,Q95433 1.31667
.012458 0.04563 .083750 2.73750
.007667 0.44333 .0’)))) 0.81778
.009667 0.05444 .099’.’ 0.91111
.008)33 0.17500 .085000 0.06667
.005108 0.99093 .055833 0.27083
.9073000 0.65150 .055000 1.32500
.0085833 0.88833 .075633 0.31667
.0047770 0.88528 .032778 0.22500
.0052222 0.49444 .084444 0.27’76
.8051)13 0.49667 .069333 0.43333
.0050000 0.07000 .065000 0.55000
.9085000 0.02500 .o .oooo u. ’oooo
.0065833 0.02593 .047500 0.28583
.flO’9000 0.07000 .071000 0.10000
.008)750 0.05750 .064583 5.29583
.0047222 0.51000 .086667 0.23333
.0050000 0.31913 .065274 0.48133
.0060000 0.05833 .118333 0.6166?
.0060000 0.10000 .035000 0.25000
.0050000 0.09000 .000000 0.50000
.0040000 0.03000 .050000 0.40000
6.000
7.000
37.500
28.000
38.580
45.000
41.000
43.500
4.500
17.500
25.500
41.500
31.500
41.000
36.000
32.500
32.200
15.333
17.333
2 .J33
20.000
29.333
31.647
18.000
29.000
30.000
36.667
20.333
35.667
30.657
61.000
57.000
005.000
102.000
87.000
36.000
26.667
54.667
49.500
20.250
27.000
36.000
32.000
40.333
032.000
005.900
108.300
128.000
116.000
069.667
72.000
72.000
120.000
222.000
044.000
*02.000
106.000
8 ).333
60.000
50.000
60.000
103.450
54.300
29.000
50.160
28.650
37.000
17.300
14.250
100.925
82.100
54.425
0.575
24.575
16.175
16.264
11.500
16.540
6.133
3.367
7.067
54.067
42.367
11.633
50.650
27.450
40.600
2c.513
53.200
34.’03
2.900
10.333
40.900
4.050
7.450
10.200
44.167
11.6)3
18.233
28.025
79,575
10.400
17.067
4 .033
23.?0Q
7.350
9.6500
3.1500
4,5333
6,7557
3.2667
23.3008
02.4000
5.4600
7.3500
5,l 00
0.8333
7.4133
7,3667
0.6000
10.5000
4.3000
12.500
11.250
77.583
64.917
76.750
67.667
88.500
6.063
49.500
33.750
49.122
67.833
82.750
88.095
65.750
61.000
32.111
25.333
60.000
44.944
43.417
68.444
21.083
52.025
64.750
60.067
68.500
77.500
83.063
18.500
93.833
85.167
94,750
51.444
80.222
80.792
71.646
63.779
76.056
87.333
88.667
95.025
71.194
90.667
000.000
86.000
94.000
88.000
00.025
88.694
09.60)
93.833
80.000
82.000
67.000
8.3500 130.000
8.4500 136.900
7.9000 36.500
7.7500 50.417
7.5000 44.500
8.6333 10’. ’33
8.0500 132.911
8.0000 147.500
7.9375 104.750
8.6500 92.750
9.0500 04.250
8.0958 39.075
8.3875 48.708
7.9625 56.125
7.925C 63.524
7.0333 87.250
7.8500 90.700
7.8556 192.111
7.6433 171.333
7.6033 072.033
8.3718 050.056
0.3000 149.111
8.3444 150.556
8.1750 173.833
8.1083 155.833
8.3417 141.133
8.6444 83.611
8 39*4 75.601
1•7333 68.500
7.6778 08.6)1
8.6356 94.556
1.6750 140.500
7.9500 59.333
8.0730 73. ’17
7.3500 65.500
0,4556 30.778
8.5667 42.722
7.4667 63.889
R.J 167 3 4 . ’2
8.2750 ‘0.047
8.4375 37.750
Q.0I1 36.133
7.1111 60.667
7.6331 60.833
6.9300 01.675
7.2250 17.5000
7.0333 08.8133
7.84 )1 10.0833
7.0000 10.0000
6.4167 02.8133
8.3500 ‘3.5000
7.4500 38.0000
8.5458 07.9)61
1.OAuO 24.8000
6.6108 1 .975o
6.8778 11.2???
6.3083 00.0000
6.3333 *0.0000
1.5500 10.0000
5.5000 10.0000
6.0000 10.8000
7.7000 24.4500
7.5000 19.1750
9.6600 12.8133
7.3750 2 ’.10 17
6.0500 17.5500
12.7500 11.4833
‘.5917 24.1000
6.9000 09.0700
8.9500 12.2500
7.5500 23.8000
9.4000 20.2000
10.7000 12.6333
6.6375 75.0042
7.2750 19.1500
9.4643 14.1095
5.6375 24.8543
6.9600 19.1500
4.1000 04.3000
4.9667 73.6003
3.5333 18.9833
IG. ) ’33 12.0033
4.7000 25.6907
7.1333 21.7)22
12.1500 12.4167
6.3197 2 ’.8500
4 • 4 C, 08 21.7917
11.4500 12.SASa
6.7000 25. 1774
6.4667 19.5833
1 1.4590 8.4500
9.8900 25.8)67
7.8000 17.5750
11.3750 10.9000
7.7750 24.9030
7.4000 17.0000
12.383) 11.1111
4.8833 24.3667
6.5667 20.9667
10.3167 14.1458
4.0750 24.4407
4.5250 10.44)7
02.7775 13.0100
6.3033 74,9948
7.5000 04.1,00
10.9333 I� .7s33
7.8000 26.5375
8.3500 21.1157
01.6189 9.6777
7.6)33 78.1333
7.2687 08.9667
8.0000 75.0000
‘.6000 17.5000
) ) .0833 4.8000
8.5825 20.0.00
6.6750 06.7083
*0.4809 01.5583
8.0667 ?2.35’.6
7.8)67 *7.5500
00.6000 *0.9000
7.0000 22.7000
6.2000 17.1000
(Conti nued)
-------�
TABLE B-2. PARTIAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE (Continued)
ST070T DATE ROUND
NIP TOTALP ORTHOP 8021403 1483
6JEI. SECCHI 0418 TURO P14
ALE 00 TEMP
U i
Ui
4225
4225
4225
4226
4226
‘226
4227
4227
6227
4228
4228
4228
4220
4229
4229
4503
‘303
4503
4504
4504
4504
4505
4505
4505
4506
4506
4506
4507
‘507
4507
4508
4508
45014
45*1)
45*0
.5)0
4511
SI1
5 1 1
85*2
.3*7
4502
4313
4503
4503
65*4
7304%)
730724
731003
730403
710724
73*002
730417
730723
13)003
7304)1
730723
731003
7304*2
730723
13*003
730.02
730707
130922
730328
730709
7)0 18
710627
7309)5
7311*3
710377
7307*0
730922
730327
730709
730922
710322
730706
71097*
710330
730706
71092*
710387
7301*2
7’0’ .20
730328
710700
730921
710625
7 )Qe%7
73*103
710676
2
3
I
2
3
1
2
3
1
2
3
I
2
3
I
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
1
2
3
I
3
I
2
3
1
10Z. I
54•34
38.97
10.00
4.10
6.56
5.97
6.74
5.00
12.00
10.25
5.33
19.19
8.79
4.99
3.38
4.30
2.83
5.63
7.44
4.30
12.68
6.60
9.06
3.98
5.65
3.92
7.89
9.10
4.85
64.66
15.03
*0.54
4.858
3.666
4.845
7.134
10.6)3
6.129
5.402
7.160
3.879
*6.234
02.763
11.377
6.487
.027667
.042167
.048107
.023661
.033000
.053250
.014833
.028167
.060000
.015300
.0*6000
.015000
.0*3583
.012958
.020750
.1671*1
.125333
.115276
.089667
.03741?
.086250
.0116141
.011772
.017264
.072583
•050722
.063278
.043286
.020524
.020786
.011778
.016000
.0*4333
.11.500
.062917
.064000
.063667
.027150
.02141100
.049.20
.024639
.017972
.009979
.008*04
.007 ’ 17
.040444
.0*5*667 2.98333 .050000 0.31667
.0103333 2.10000 .186667 0.70000
.0)13333 1.67667 .100000 0.75000
.0080000 0.111000 .046667 0.60000
.00140000 0.06150 .081300 0.82500
.0135000 0.05250 .297500 1.27500
.0062500 0.05333 .035833 0.35933
.0071667 0.095143 .096161 0.61667
.0063000 0.09000 .110000 1.00000
.0070000 0.14000 .040000 0.50000
.0040000 0.07000 .110000 0.30000
.0060000 0.03000 .050000 0.60000
.0073333 0.23500 .03*667 0.26667
.0060000 0.05500 .037083 0.33333
.00604)7 0.02708 .075833 0.76250
.0293333 0.31889 .233333 0.62222
.050881490.35667.171111 0.,7778
.0652222 0.22000 .107222 0.6*667
.0189*67 0.40067 .0141667 0.34*67
.0081667 0.13333 .130000 0.6*661
.0173333 0• 139 )7 .137500 0.68333
.00328*7 0.07214 .07*639 0.30278
.0049644 0.03*94 .041111 0.38189
.0084306 0.05361 .081389 0.64167
.01*6389 0.24333 .04722? 0.6)964
.0104167 0.114811 .I1388 0.7d611
.01)9056 0.13839 .069444 0.59444
.0*14286 0.2557) .047619 0.376*9
.00590.8 0.07619 .084162 0.46*50
.00147)43 0.03.29 .050000 0.50104
.0037778l).88 167 .081111 0..ll1l
.0075556 0.10667 .130000 0.41111
.0)30000 0.06o33 .08)667 0.75000
.040667 0.38792 .162081 0.46667
.02,000 0.081433 .122500 0.41661
.030250 0.15500 .1*8750 0.90000
.020250 0.33833 .102500 0.13333
.0040)70.145143 .1314313 0.31500
.0Il2 0 0.07625 .097500 0.60000
.0052*4 0.23119 .034246 0.17619
.005292 0.08722 .0b5306 0.76250
.01)5222 1.03056 .03972? 0.47222
.002479 0.10167 .05l 50 0.24175
.00.937 0.06292 .037109 0.33333
.0029*7 0.34000 .0 3750 0.27500
.005667 0. 1511 1 .093331 0.57722
16.000
36.000
411.000
26.000
51.000
60.000
14 1.000
57.000
30.000
63.000
60.000
33.000
38.500
111.000
86.750
2.000
20.000
29.000
19.750
57.000
31.500
125.0143
14Q• 6 43
69.000
27.000
36.661
29.500
40.857
65.7*6
89.714
414.030
36.000
39.667
14.250
28.500
30.250
15.750
66.333
6.0fl0
2..510
52.667
60.000
1*0.000
115.750
*59.000
814.000
2.8300
*1.2500
2 1.2500
12.0000
14.1000
I5.750n
2.0500
6.9000
5.2000
2.2000
3.14000
6.1000
7.IlSo
8.8500
02.14250
2.4333
3.0667
2.9333
5.7250
10.4750
14.2500
8.0750
5.2)13
3.6750
8.2’,’.7
9.3500
8.06 7
5.72.06
7.1)’)
6.9000
6.6000
2.6667
*6.5667
1.750
9.075
17.600
5.267
3.225
4.653
10.1’)
7.5140
.‘50
5.1)50
2.375
)•fl1 ’
21.713
76.500
84.667
79.750
85.000
81.667
13.000
88.000
86.000
86.633
93.167
6 ’.I II
74.667
52.407
86.500
56.333
96.094
69.2*2
85.3)9
63.111
83.139
66.8149
84.333
86.238
92.214
87.500
85.11 1
88.167
78.3333
82.7500
70.3750
80.6250
7 .S952
95.0698
95.8056
91.4581
64.14750
86.14333
77.7778
7.6667
8.6000
8.5667
7.75143
7.6500
6.*000
7.1333
5.6750
5.8500
1.8000
3.2000
6.0000
8.7500
6.7000
6.6583
1.2111
7.0*11
6.7722
7.7*67
7.6333
6.7917
7.26*6
6.3028
6.5139
1.594k
7.1333
6.6583
1.5333
7.5143
6.7643
6.1500
5.4556
6.0500
7.22917
7.60000
7.08750
7.37500
6.04161
6.45000
1.411800
7.4 722
7.00278
6.76875
6.314514
6. 0fl33
7.141111
38.8333
69•3333
714.0000
28.2 00
48.7500
51.51100
10.0800
10.0000
*0.0000
10.0000
00.0000
00.0000
*2.3333
*7.0617
18.2083
10.55 6
19.1111
22.9’44
12.1667
21.7500
18.01433
13.2*25
11.6667
13.772 ?
10.7???
23.1389
14.3839
13.5238
17.9324
20.71457
*0.0000
*0.0700
*7.0000
15.667
21.750
111.625
*3.333
10.133
*7.503
04.048
24.931
16.944
*5.708
00.667
*7.133
1i.Fl019
11.0000
7.2150
.k4000
*0.8300
4.9500
3.0000
11.2300
5.4000
14.0000
00.7000
7.1000
8.14000
l1.6?50
8.0875
8.0833
7.8667
6.5167
6.0000
8.3375
6.6750
4.5000
7.3Q3 1
6.5750
7.5667
9.2750
1.0*35
5.6000
‘0.5214
6.7500
6.72*4
14.5500
7A33
6.14000
8.0750
6.3150
6.4750
9.4750
6.3503
5.1750
‘0.’ 500
7.2056
7.1667
7.95143
6..0’03
8.0000
6.1607
9.1100
24.7833
1 .61433
10.3917
26.5667
19.5000
9.69*7
21.2333
15. ’500
10.0000
22.9000
17.1000
7.1917
2’.2292
*7.8208
15.3333
20.1556
06.9610
15.2167
29.1730
26.5150
28.023*
21.72??
)6.95143
*5.0556
29.0056
26.8672
13.1044
211.5762
21.0643
*5.81714
31.3667
28.0*67
l..2313
25.00143
26.7500
13.8500
214.clco
26.8250
l5..’76
30.0560
27.7572
25.61433
25.660.
00.8333
27.2111
506
7305*8
2
4.309
.075000
.02*222 0.20000 .ll777 0.76607
20.000
%•1467
39•3333
o .7777d
11.133
1.0567
e—. 773
4 I4
4515
65*3
‘5)5
4516
4516
8516
670)
470*
7311*4
730623
7309114
71 11 14
1)0379
7307))
7)0070
7105)7
710814
3
1
2
3
1
2
3
I
2
6.685
4•7)0
3.982
‘.082
8.556
14.600
l5. .17
3.542
3.554
.036611
.059*67
.077150
.0145333
.050533
.020133
.0133149
.03*308
.1221489
.003500 0.17101 .093333 1).S3 89
.005)33 0.18000 .093313 0.10000
.006750 0.04000 .070000 0.47500
.006657 0.10750 .075000 0.? ’ 167
.005222 0•300 .4 .0688149 0.?o133
.0*2667 0.15000 .13081400.46667
.0076149 0.03011 .182222 0.49444
.041275 0.40225 .0481117 0.14017
.055583 0.32306 .121389 0.48944
43.687
114.500
27.000
24.000
*7.661
44.667
58.000
25.111
30.167
9.01.7
2.030
1.350
1.I’ 0
1.8)3
7.167
5.713
*7.540
l1.2a7
9l. .4 4
24.0000
60.7500
76.33)3
47.6667
83.6446
91.1272
63.5000
76.4*67
6.66067
7.25000
6.40000
6.57500
7.76111
7.03333
6.4)333
7.564*7
7.45000
20.446
03.500
*2.750
16.8)3
15.464
*3.133
15.056
145.183
64.0143
14 6333
7.14250
1.0050
10.21100
11.1667
5.0000
5.2718
5.4450
6.4730
03.8556
22.2033
7I.)lco
3 6o13
*3.4667
21.’04’4
24.4644
*6.9000
26.2444
4701
4704
4704
4706
*706
73*020
730403
7307*2
7)1021
730320
3
1
2
3
0
4.106
22.600
17.4 4
19.404
6.933
.132933
.066000
.05427*
.0561112
.092333
.075667 0.64600 .083331 0.13333
.0514)67 1.04167 .296667 0..8333
.023542 fl•37937 .0243’S 0.35833
.029292 0.52000 .078750 0.45000
•033 167 0.39067 .060000 0.40)00
24.400
37.230
60.250
12.000
21.000
3.500
*3.650
11.100
4.175
6.550
56.4667
05.5153
83.2500
62.5000
7.3?6o7
8.001033
8.38*25
7.814750
7.45000
57.600
75.917
84.1454
80.458
34 .SQ o
6. 1250
9.4250
6.14 43
6.1000
0.7000
22. 1200
*3.7667
25.6458
014.2833
17.6333
(Continued)
-------�
TABLE B—2.
PARTIAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE (Continued)
STORIT DATO ROUND
N/P TOTALP ORTHOP N02N03
983 OJEL S(CCHI
CHLA TURB P8
ALK DO lIMP
8 _fl
C .’
4706
4706
4707
4701
4707
4708
4706
4708
4701
471)
47)1
4112
4712
4712
4713
4713
47)3
4717
471?
47)7
4720
7308)6
730823
730524
730823
731027
730524
730023
731029
730525
730823
731027
730523
730824
731020
730531
7308)7
731024
730323
730816
731030
710522
2
3
1
2
3
1
2
3
0
2
3
5
2
3
1
2
3
0
2
3
I
p.439
3.42*
11.200
03.816
12.436
18.273
16.503
9.908
17.956
12.0 )1
12.80*
14.047
11.429
7.136
16.16)
15.437
50.164
9.212
9.60*
8.433
6.848
.188167
.154667
.048000
.037143
.068000
.030667
.027167
.038000
.027389
.021000
.029533
.056571
.046024
.070048
.028000
.017937
.021)67
.109250
.060292
.055083
.053800
. )05033 0.3)000 .148333 0.40000
.088000 0.37000 .160000 0.46667
.009381 0.64288 .082381 0.60000
.018143 0.35500 .098571 0.64286
.027381 0.65048 .067148 0.58571
.010611 0.36278 .073889 0.39844
.010389 0•33778 .08 .4 8 0.30556
.013194 0.31583 .0’,6806 0.28306
.011611 0.38556 .053889 0.35556
.007083 0.15833 .068333 0.38333
.014267 0.27200 .053333 0.35333
.025333 0.69619 .0695!’ 0.42857
.017095 0.37095 .145000 0.52610
.036345 0.39107 .067738 0.45952
.008333 0.34333 .080833 0.42500
.005917 0.19271 .080208 0. ’9161
.001792 0.129)7 .072917 0.30833
.063083 0.43333 .340833 0.68)67
.046625 0.41417 .092917 0.60833
.o281c0 0.36750 .090833 0.27500
.0)8000 0.32200 .033333 0.22867
28.000
33.000
49.714
55.571
48.714
34.667
36.667
37.167
63.000
60.000
46.800
32.286
29.429
41.57)
21.250
71.000
74.500
27.750
40.000
52.150
22.000
0.100
11.500
12.786
18.600
10.100
3•583
3.783
1.967
3.650
6.050
3.600
6.386
3.029
4.0)4
0.550
6.900
4.500
2.050
4.200
0.175
5.920
82.5000 1.40000
57.6667 7.36667
89.9048 8.90048
83.0714 8.48571
89.7143 7.96190
83.1111 7.48333
86.6111 7.43333
88.9306 7.4.86)
94.7222 7.85000
83.9444 7.95833
89.6000 7.42000
76.0952 8.04286
83.0238 7.78571
76.5476 7.65714
50.8089 7.03333
88.229! 7.662SQ
96.5000 7.72917
03.0833 7.26667
83.2083 6.68333
93.8333 7.41667
62.6000 7.84667
60.333
59.000
3.524
78.?) ’
84.571
55.856
54.222
63 fl69
45.667
‘5.417
44.867
80.333
64.810
63.631
33.750
68.815
105.867
56.583
54.042
58.667
51.333
8.0000 24.9333
5.8000 29.6333
6.8714 20.31)4
7.0857 26.77 .
6.5000 20.9000
7.7167 19.3811
5.8333 25.5944
6.8500 19.2033
8.5600 21.1167
6.7600 26.6760
6.2600 20.3667
9.0143 18.0416
4.7429 24.1976
6.6143 20.0952
8.8750 11.2633
6.7 )7 25.3833
7.3500 16.5)67
7.7000 19.4417
5.5500 26.8)25
6.72 ,0 16.7083
10.0800 16.6267
4720
4720
472?
‘722
8122
4723
.723
4723
4724
4724
4724
8725
4725
4725
‘‘27
4727
4721
4728
4728
8728
5)03
5003
5)03
5105
5105
5)05
5)06
5)06
5106
5)08
5108
5)08
51)0
50)0
SIlO
5 1 11
5 )))
5111
3)12
5002
710816
73)022
780525
730824
73)027
730521
7308)7
73)024
130522
130815
131023
730523
710820
73)027
7305)5
1308))
11)009
730521
710805
731023
130804
7307)6
730927
710405
7107)8
730927
730807
710713
110075
7304)0
7307)9
730079
130408
130718
130926
730407
7307)3
730926
730409
730926
2
3
I
2
3
1
2
3
1
2
3
0
2
3
1
2
3
I
2
3
1
2
3
3
2
3
1
2
3
0
2
3
0
2
3
I
2
3
1
3
3.767 .055733
4.202 .070000
17.730 .029229
18.222 .0269)7
9.565 .083)46
2.7)3 .044267
3.179 .052133
2.220 .043800
21.39) .021”
6.201 .024833
2.974 .07)790
20.507 .873583
11.017 .014750
24.23? .012661
1.070 .146167
0.902 .378503
0.684 .220375
39.098 .0)8125
9.106 .024250
6.639 .0)8333
17.854 .041)67
13.721 .022625
11.082 .023583
26.726 .0)3)67
15.806 .0)0556
13.726 .009500
4.748 .063)94
7.005 .03611)
3.766 .054083
5.735 .094667
‘.630 .097844
4• )0) .099333
28.969 .03)933
14.398 .023200
9.966 .022917
4.848 .048900
5•977 .039718
5.614 .053333
1.069 .071300
1.503 .061508
.015833 0.14633 .058647 0.58667
.0222?! 0.22178 .048889 0.32222
.012083 0.44479 .062917 0.35417
.0)0875 0 38956 .074375 0.4)042
.0)5054 0.35990 .04002) 0.28229
.011061 0.0736? .046667 0.42567
.021500 0.07367 .079667 0.66333
•Q )7733 0.02533 .049333 0.41333
.006000 0.40944 .045556 0.30556
.007722 0.08444 .065556 0.33333
.006722 0.026)1 .036389 0.30278
.0)0750 0.42503 .057000 0.37500
.005583 0.11750 .043333 0.43333
.012375 0.2)083 ..‘4B331 0.27917
.033125 0.0670? .012083 0.62083
.)774)7 0.15542 .179)67 2.89583
.058000 0.01500 .013150 2.00000
.003)67 0.60125 .063)25 0.17292
.0084)7 0.139)7 .088333 0.60000
.004229 0.04729 .065675 0.3666?
.0)0208 0.64875 .069583 0.28750
.004250 0.20875 .005831 0.13750
.0070)7 0.20000 .055833 0.40000
.003000 0.3)250 .035833 0.20833
.005667 0.08089 .056889 1.41111
.004)25 0.06815 .041500 0.41250
.012389 0.226)) .062500 0.28056
.009894 0.13528 .080833 0.54844
.0175*33 0.09)67 .068313 0.11000
.033556 0.4)333 .127778 0.72722
•Q39133 0.00333 .298889 0.97778
.032))) 0.20778 .206667 0.9)0)1
.008183 0.44303 .079867 0.46833
.005400 0.19800 .096000 0.64000
.00708) 0.12850 .070000 0.41933
.007889 0.15044 .079000 0.40667
.006556 C 08778 .118889 0.04444
•015500 0.04833 .170556 0.86667
.0)9000 0.03750 .073000 0.37300
.008000 0.03000 .060000 0.95000
34.400
37.000
37.875
39.125
36.250
55.400
81.600
72.800
81.000
94.667
123.033
58.500
98.250
129.000
31.000
18.250
17.000
19.000
56.500
77.250
28.150
84.000
68.750
27.250
144.000
111.500
23.833
59.600
41.200
12.800
54.000
45.313
58.200
18.400
104. ’00
20.000
47.333
35.333
60.000
37.000
12.380
8.200
5.325
7.462
3.662
14.560
7•38fl
8.060
8.333
7.733
4.150
11.825
7.750
‘.425
20.700
128.525
84.650
9.800
6.600
4. )75
1.850
6.975
0.100
3.630
10.567
8.800
8.400
8.417
0.643
10.533
13.100
10.820
18.600
.‘90
8.733
14.867
16.067
7.950
19.250
83.3333 7.97333
86.1111 7.74444
80.7917 7.8.4792
82.6042 7.91042
87.9563 7.5)667
81.4000 8.31667
91.300 7.89887
87.86? 7 ?9333
86.500 8.46607
94.389 7.95000
06.889 7.36889
89.417 8.76667
92.417 6.15833
87.125 7.93333
60.792 8.05000
30.083 8.56467
50.000 8.80000
86.724 7.93333
06.667 8.3.661
94.181 8.36458
69.675 7.77500
103.417 8.06250
36.9)7 7.20000
72.167 6.89)81
80.778 #.2888’3
85.125 7.03150
73.000 7.61000
82.476 7.78333
83.500 6.98333
8.46667
77.333 7. ’ )ll1
72.000 7.31133
73.661 1.0 37S
106.533 8.56000
89.083 7.391o7
58.000 7.40556
61.000 7.411))
75.633 6.82772
79.250 6.15000
06.250 6.55000
52.800
47.889
62.042
87.419
61.42?
135.400
105.633
1)1.267
60.667
6).??!
59.628
78.583
73.750
82.292
86.8’?
)3).4)7
002.375
67.52)
66.813
14.938
30.625
32.042
36.083
08.083
27.)))
24.000
27.36)
35.500
34.167
21.111
35.444
35.722
59.767
81.667
71.383
27.11)
30.000
31.611
13.250
25.808
9.9200 23.8Q67
1.9333 20.3444
6.6375 18.4486
6.9875 23.9896
6.579! 20.2094
9.7800 20.5867
5.4600 27.7667
6.6800 20.3333
8.6833 20.5222
4•5333 28.0944
6.7667 21.6472
10.1250 10.7083
.27b0 26.8500
6.2000 19.4208
8.3500 21.3083
3.0750 29.0)67
8.2000 20.0500
8.0167 19.7104
6.1875 27.2667
8.6503 20.1956
9.5625 12.5150
7.1000 26..979
6.7080 2 .9917
9.7625 22.14 )7
8.8778 21.2000
6.0975 23.7625
0.9)67 )3 .3639
6.1578 27.8)31
6.7667 24.8750
0.6560 11.8833
4.8006 25.7556
3.Q567 22.6887
11.2300 11.9683
7.1200 26.3333
4.8467 22.9267
9.1000 14.1122
5.6833 28.2000
5.7333 23.5833
6.6500 14.3000
6.2000 23. 7500
(Continued)
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TABLE B-2. PARTIAL DEPTH MEAN PARAMETER VALUES LISTED BY LAKE-DATE
STORET
DATE
801.810
N/P
TOTALP
ORTHOP
802603 74113 KJEL
SECCHI
CIlIA
TUR8 PH
ALE
) TEMP
3113
3U3
5113
5400
3400
3401
5602
5402
5402
34Q3
3403
5403
5404
5404
5604
730409
730719
730929
730403
130718
730926
1 0424
730726
731005
730403
730718
730926
730423
730726
73*085
1
2
3
1
2
3
1
2
3
I
2
3
1
2
3
5.1
11.699
6.267
12.620
17.78?
20.367
96.486
85.425
61.296
55.169
37.206
33.536
10.799
62.008
61.101
.104389
.056667
.085167
.082708
.067500
.081833
.005222
.005161
.008333
.015667
.010373
.012750
.006517
.005000
.005972
.028500
.021333
.028056
.017250
.024500
.020000
.002556
.002667
.003333
.002917
.006750
.007583
.005667
.002694
.005889
0.44869 .062778 0.41111
0.28333 .191111 0.53333
0.20000 .146667 0.54444
0.94956 .086667 0.36250
1.10333 .091667 0.21667
1.73250 .054167 0.50833
0.47000 .0 3333 0.26667
0.30917 .125833 0.35833
0.29889 .095556 0.53333
0•19833 .042500 0.20833
0.50667 .064167 0.30833
0.36167 .048661 0.34167
0.47967 .032833 0.31333
0.26639 .043611 0.22778
0.27583 .080276 0.26944
16.000
54.000
47.333
11.000
25.500
36.000
86.000
116.000
86.333
24.661
216.000
140.000
88.000
126.000
150.000
8.133
6.361
8.500
1.650
26.350
22.425
‘1.500
11.967
1.7)3
0.475
13.425
4.825
0.633
1.533
1.367
7.67222
70.444 7.51111
66.389 6.97222
60.389 7.70833
51.208 7.71667
63.417 8.56667
N8.000 5.30000
91.4Z7 4.05000
4.73333
70.167 7.15833
121.058 6.95833
94.917 6.66333
84.733 6.47000
93.222 6.49167
6.43611
12.778
20.667
09.718
43.167
53.667
64.411
10.000
10.001
10.001
I0.00S
10.956
11.333
10.000
12.583
10.361
00.3560 11.o
6.4)33 23.4222
6.6)33 2l.61 7
1’1.2 167 12.3776
6.8750 24.8792
9.1687 24.325
9.3667 15.4889
7.1000 2a. 19U
7.5000 22.1778
10.6.Zb 10.3563
7.0*25 25.3606
7.4300 24.0500
10.2.28 13.0526
7.6161 26.7833
7.4110 23.4026
1.11
-J
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APPENDIX C
HISTOGRAMS OF PHYSICAL, CHEMICAL AND MORPHOLOGICAL DATA
The histograms characterize lakes sampled by the National Eutrophication
Survey during 1973. Figures C—i through C—13 are based on the partial depth
data presented in Table B—2. Figures C—14 through C—19 are based on the best
available information for each study lake.
Contents Figure Page
Total Phosphorus C—i 59
Dissolved Orthophosphorus C—2 59
Nitrite—Nitrate—Nitrogen C—3 60
Ammonia—Nitrogen C—4 60
Total Kjeldahl Nitrogen C—5 61
N/P C—6 61
Secchi Disc C—7 62
Turbidity C—8 62
pH C—9 63
Total Alkalinity C—lO 63
Dissolved Oxygen C—il 64
Temperature C— 12 64
Chlorophyll a C—13 65
Surface Area C—14 65
Mean Depth C—iS 66
Maximum Depth C—l6 66
Lake Volume C—17 67
Retention Time C—18 67
Drainage Area C—19 68
58
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56 126
Distribution of eastern lakes by partial depth total
phosphorus values. Scale is semi-logarjthmjc and class
intervals are incremented by 0.1 log 10 units.
V.,
w
I .-
cc
C
LU
cc
-4
LL
a
LU
TOTAL PHOSPHORUS (jig/liter)
i, . , 56-
LU
I .-
cc
C?
LU
40-
cC
-J
Li.. 32-
C
24-
8-
Figure C-2.
Figure c-i.
72-
64-
Minimum
Maximum
Mean
Standard deviation
Sample size
36 794 1995 5012
4
4,549
137
316
742
Minimum 1
Maximum 2,009
Mean 60
Standard deviation 175
Sample size 741
10 25 63 158 398 1000 2512
DISSOLVED ORTHO-PHOSPHORUS (jig/i i ter)
Distribution of eastern lakes by partial depth dissolved
ortho-phosphorus values. Scale is semi —logarjth jc and class
intervals are incremented by 0.110 units.
63-
56-
49-
42-
35-
28—
21—
14-
7-
3 8 20
48-
16-
59
-------�
Mini mum
Maximum
Mean
Standard deviation
Sample size
17
9,745
569
1,066
742
Figure C—3. Distribution of
nitrogen values.
are incremented
eastern
Scale
by 0.1
lakes by partial depth
is semi-logarithmic and
10910 units.
nitrite—nitrate-
class intervals
10
Figure C-4.
Minimum 20
Maximum 3,024
Mean 116
Standard deviation 149
Sample size 742
20 40 80 160 320 630 1260 2510
AMMONIA-NITROGEN (pg/liter)
Distribution of eastern lakes by partial depth ammonia-nitrogen
values. Scale is semi-logarithmic and class intervals are
incremented by 0.1 log 10 units.
NITRITE—NITRATE-NITROGEN (pg/liter)
U,
w
L J
-J
0
U i
V)
U i
I.-
C
U i
-J
0
Ui
E
117-
104-
91-
78—
65-
52-
39-
26-
13-
60
-------�
48-
42-
36-
30-
24-
18-
12-
6-
C ’,
LU
I .-
c
LU
-J
U-
0
LU
100
Figure C-5.
63-
56-
49-
42-
F-
c35-
LU
28-
—I
LL
o 21-
LU
14-
7-
0-• -
0
Figure C-6.
Minimum 199
Maximum 8,199
Mean 1,043
Standard deviation 975
Sample size 742
160 250 4 1580 2510 3980 6310
TOTAL KJELDAHL NITROGFP (pg/liter)
Distribution of eastern lakes by partial depth total K.jeldahl
nitrogen values. Sca’e is semi-logarithmic and class intervals
are incremented by 0.05 log 10 units.
Minimum 0.11
Maximum 210
Mean 14.1
Standard deviation 22.0
Sample size 742
•5
N/P (inorganic nitrogen/Total phosphorous)
Distribution of eastern lakes by partial depth N/P values
(51 lake-dates had N/P values greater than 50).
61
-------�
72•
U,
LU
F—
C
LU
-J
U-
Lu
E
Figure C-7.
U,
LU
I-
C
LU
-j
U-
U i
cn
SECCHI DISC (inches)
1
252
48
35.7
736
Distribution of eastern lakes by partial depth Secchi disc
values.
TURBIDITY (% transmittance)
Figure C-8.
Distribution of eastern lakes by partial depth turbidity
values.
Minimum
Maximum
Mean
Standard deviation
Sample size
so
100
125
1
Minimum
Maximum
Mean
Standard deviation
Sample size
•1
121
72
22.7
645
I
0
30
45
60
105
62
-------�
(P1
uJ
I—
C
L i i
-J
Li
0
w
18-
Figure C-9.
198-
176-
154-
L i i
I— 132-
I —
Lii
—I 88—
LL
° 66-
44 -
22-
0- - - -
0
Figure C-b.
Distribution of eastern lakes by partial depth pH values.
Minimum 10
Maximum 334
Mean 72
Standard deviation 66.7
Sample size 742
I I I I
40 80 120 160 200
TOTAL ALKALINITY (CaCO 3 in
240 280
mg/liter)
320
Distribution of eastern lakes by partial depth total alkalinity
values.
Minimum
Maximum
Mean
Standard deviation
Sample size
4.1
10.6
7.8
0.83
741
3
27-
9.
4.0 4.8
5.6
6.4
pH
9.6 10.4
63
-------�
DISSOLVED OXYGEN (mg/liter)
Figure C-il.
depth dissolved
Minimum
Maximum
Mean
Standard deviation
Sample size
6.0 8.5 11.0
Figure C-12.
13.5
6.8
32.2
21.5
5.49
740
I I
28.5 31.0
partial depth temperature
Minimum
Maximum
1
0
LU
Mean
Standard deviation
Sample size
0.7
19.2
7.8
2.07
732
0
12 14 16
8
Distribution of eastern lakes by partial
oxygen values.
36-
32-
28-
24-
20 -
. j 16-
D 12-
LU
8-
4-
16.0 18.5 21.0
TEMPERATURE (oC)
1
23.5
26.0
Distribution of eastern lakes by
values.
64
-------�
72-
Minimum 0.3
6 Maximum 595
56- Mean 26.2
Standard deviation 47.93
Sample size 741
<48
40_
-4
32-
0
24-
L J
__
0.1 0.3 0.6 1.6 4.0 10 25 63 158 398
CBLOROPHYLL a ( jg/iiter)
Figure C-13. Distribution of eastern lakes by partial depth chlorophyll a
values. Scale is semi-logarithmic and class intervals are
incremented by 0.1 1og units.
36-
32-
28- Minimum 0.1
Maximum 6,941
24- Mean 91
Standard deviation 565.9
2o- Sample size 249
16-
12 .
5 10 15 2 ftt:T1 It jT6 111 1 -F-
SURFACE AREA (krn 2 )
Figure C—14. Distribution of eastern lakes by surface area (33 lakes had
surface areas greater than 50 kilometers 2 ).
65
-------�
0 S
Figure C-15.
Minimum
0.9
Maximum
41.3
Mean
6.4
Standard deviation
6.11
Sample size
246
..
I I I
10 15 20 25 30
MEAN DEPTH (m)
Distribution of eastern lakes by
35 40
mean depth.
48 64
MAXIMUM DEPTH (m)
Figure C-16. Distribution of eastern lakes by maximum depth.
1
134
17.9
17.5
236
48-
42-
36-
—J 24-
U-
18—
LU
12-
6-
v - i
LU
-J
U-
LU
Minimum
Maximum
Mean
Standard deviation
Sample size
112 128
66
-------�
5’
U)
w
-J
U.
U i
Figure C-17.
(57 lakes
U)
LU
-J
U.
L ii
Figure C-18.
(14 lakes
4.
4:
3
Minimum
Maximum
Mean
Standard deviation
Sample size
Distribution of eastern lakes by lake volume
had volumes greater than 250 x 106 meters 3 ).
0.1
5,572
319
767.1
246
1
2,884
194
344
233
Minimum
Maximum
Mean
Standard deviation
Sample size
140 210
350
490 560
RETENTION TIME (DAYS)
Distribution ofeastern lakes by retention time
had retention times greater than 700 days)
67
-------�
104-
91- Minimum 0.04
Maximum 1 ,041
78- Mean 54.9
Standard deviation 139.08
65- Sample size 234
52-
0
39-
26-
13-
25 50 75 1 01 5 O 1 2 5
DRAINAGE AREA (x10 2 kin 2 )
Figure C-19. Distribution of eastern lakes by drainage area
16 lakes had drainage areas greater than 230 x 102 kilometers 2 )
68
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