&EPA
United States
Environmental Protection
Agency
Environmental Monitoring
and Support Laboratory
P.O. Box 15027
Las Vegas NV 89114
EPA-600/3-79-025
March 1979
Research and Development
Ecological
Research Series
Phytoplankton Water
Quality Relationships
in U.S. Lakes
PartV:
Genera Quadrigula
through Zygnema
Collected from
Eastern and
Southeastern Lakes
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RESEARCH REPORTING SERIES
Research reports of the Office of Research and Development, U.S. Environmental
Protection Agency, have been grouped into nine series. These nine broad categories
were established to facilitate further development and application of environmental
technology. Elimination of traditional grouping was consciously planned to foster
technology transfer and a maximim interface in related fields. The nine sereies are:
1. Environmental Health Effects Research
2. Environmental Protection Technology
3. Ecological Research
4. Environmental Monitoring
5. Socioeconomic Environmental Studies
6. Scientific and Technical Assessment Reports (STAR)
7. Interagency Energy—Environment Research and Development
8. "Special" Reports
9. Miscellaneous Reports
This report has been assigned to the ECOLOGICAL RESEARCH series. This series
describes research on the effects of pollution on humans,plant and animal species, and
materials. Problems are assessed for their long-and short-term influences. Investiga-
tions include formations, transport, and pathway studies to determine the fate of
pollutants and their effects. This work provided the technical basis for setting standards
to minimize undesirable changes in living organisms in the aquatic, terrestrial, and
atmospheric environments.
This document is available to the public through the National Technical Information
Service, Springfield, Virginia 22161
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EPA-600/3-79-025
March 1979
PHYTOPLANKTON WATER QUALITY RELATIONSHIPS IN U.S. LAKES, PART V:
Genera Quadrigula through Zygnema
Collected from Eastern and Southeastern Lakes
by
M. K. Morris*, W. D. Taylor, L. R. Williams,
S. C. Hern, V. W. Lambou, and F. A. Morris*
Water and Land Quality Branch
Monitoring Operations Division
Environmental Monitoring and Support Laboratory
Las Vegas, Nevada 89114
*Department of Biological Sciences
University of Nevada, Las Vegas
Las Vegas, Nevada 89154
ENVIRONMENTAL MONITORING AND SUPPORT LABORATORY
OFFICE OF RESEARCH AND DEVELOPMENT
U.S. ENVIRONMENTAL PROTECTION AGENCY
LAS VEGAS, NEVADA 89114
-------
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.
-------
FOREWORD
Protection of the environment requires effective regulatory actions
which are based on sound technical and scientific information. This infor-
mation must include the quantitative description and linking of pollutant
sources, transport mechanisms, interactions, and resulting effects on man
and his environment. Because of the complexities involved, assessment of
specific pollutants in the environment requires a total systems approach
which transcends the media of air, water, and land. The Environmental
Monitoring and Support Laboratory-Las Vegas contributes to the formation
and enhancement of a sound monitoring data base for exposure assessment
programs designed to:
• develop and optimize systems and strategies for moni-
toring pollutants and their impact on the environment
• demonstrate new monitoring systems and technologies
by applying them to fulfill special monitoring needs
of the Agency's operating programs
This report presents the ranges of environmental conditions found for
specific phytoplankton genera in lakes sampled by the National Eutrophication
Survey during 1973. These data can be used to identify specific water
quality indicators, develop trophic classification methods, relate factors
in lake problem conditions and to predict or control algal forms associ-
ated with taste, odor, or toxicity in potential drinking water sources.
This report was written for use by Federal, State and local governmental
agencies concerned with water quality analysis, monitoring, and regulation.
Private industry and individuals similarly involved with the biological
aspects of water quality will find the document useful. For further infor-
mation contact the Water and Land Quality Branch, Monitoring Operations
Division.
Geor'ge B,. Morgan
Director
Environmental Monitoring and Support Laboratory
Las Vegas
lii
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ABSTRACT
Water quality relationships for about 180 genera and 700 species and
ieties or phytoplankton were determined from National Eutrophication Survey
a collected in 17 eastern and southeastern States during 1973. This report,
t V, presents the environmental requirements and relative abundance of 45
toplankton genera: Quadx-igula through Zygnema.
iv
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CONTENTS
Foreword iii
Abstract iv
List of Abbreviations and Symbols vi
Introduction 1
Results 3
References 5
Bibliography 6
Appendix: Phytoplankton Genera-Water Quality Relationships .... 9
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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 summer
ROUND 3 - data collected during the fall
ROUND ALL - cumulative data through the sampling seasons
DOM - (numerical dominance) taxon constituted 10 percent or more of the
numerical total cell concentration of each lake-date* sample in
this category
NONDOM - (non-dominance) taxon was detected but constituted less than 10
percent of the numerical total cell concentration of each lake-
date sample in this category
OCC - (occurrence) taxon was detected in each lake-date sample in this
category
NONOCC - (non-occurrence) taxon 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
STDV - standard deviation of the mean
N - sample size
*Lake-date (sample, value, information, etc.) denotes specificity for a given
lake oh a single sampling date.
vi
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N > :
N < - number of lakes with values less than the minimum (WIN)
> - number of lakes with values greater than the maximum (MAX)
0/WR:
0 - number of occurrences
WR - number of lakes having values within the range defined by the
MIN and MAX
CHLA - chlorophyll a_ (yg/1)
TURB - turbidity (% transmission)
SECCHI - Secchi disc (inches)
PH - standard pH units
DO - dissolved oxygen (mg/1)
TEMP - temperature (degrees Celsius)
TOTALP - total phosphorus (mg/1)
ORTHOP - dissolved orthophosphorus (mg/1)
N02N03 - nitrite-nitrate nitrogen (mg/1)
NH3 - ammonia nitrogen (mg/1)
KJEL - total Kjeldahl nitrogen (mg/1)
ALK - total alkalinity (expressed as CaC03, mg/1)
N/P - inorganic nitrogen (N02N03 + NH3)/total phosphorus (TOTALP)
CONG - number of cells, colonies, or filaments/ml
PERC - percent composition of numerical total
vii
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INTRODUCTION
During the spring, summer, and fall of 1973, the National Eutrophication
Survey (NES) sampled 250 lakes in 17 States. About 750,000 physical and
chemical measurements were made of these study lakes. Some 180 genera
and over 700 phytoplankton species and varieties were enumerated from the
694 water samples examined; this resulted in about 25,000 phytoplankton occur-
rence records. In order to determine phytoplankton water quality relationships
in eastern States, the physical, chemical, and biological data collected were
merged. From this merger it has been possible to establish the environmental
requirements and relative importance of phytoplankton forms.
The physical and chemical lake data were summarized on a seasonal basis
and organized according to numerical dominance or non-dominance and occurrence
or 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 predicting water quality or trophic
condition.
A report series is necessary to present the large volume of information
produced in this study. This report is Part V of the series "Phytoplankton
Water Quality Relationships in U.S. Lakes" and presents findings for 45 genera
(alphabetically from Quadrigula through Zygnema) of the phytoplankton detected
in samples from 17 eastern and southeastern States (Table 1). Part I (Taylor
et al., 1979) presents the methods used, rationale under which the study was
carried out, and limitations of the data. Parts II through IV of the series
(Williams et al., 1979; Hern et al., 1979; Lambou et al., 1979) present
findings for the other 135 phytoplankton genera encountered in our study of
eastern and southeastern lakes. Parts VI and VII of the series will present
an analysis of the environmental relationships of 57 common phytoplankton
genera and a comparison of trophic state indices. Additional interpretative
reports and phytoplankton water quality relationships by species will be
forthcoming.
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TABLE 1. LISTING OF PHYTOPLANKTON GENERA ADDRESSED IN THIS REPORT
GENUS
Quadr-iguZa
Raphidiopsi-s
Rh-Lzosolen-ia
Rhoiaosphenia
Rhopalodia
Romeria
Roya
Soenedesrms
Sah-izochlamys
Sohroederia
Selenastrum
Skeletonema
Sorastrum
Spermatozoopsis
Sphaere Hop sis
Sphaerooy stis
Sphaerososma
Spinooosmavivm
Spirogyra
Sp-ivulina
Spondylosiwn
Staurastrum
StauTodesims
ALGAL UNITS
COUNTED
Colony
Filament
Cell
Cell
Cell
Filament
Cell
Colony
Colony
Cell
Colony
Cell
Colony
Cell
Cell
Colony
Filament
Cell
Filament
Cell
Cell
Cell
Cell
PAGE
10
12
14
16
18
20
22
24
26
28
30
32
34
36
38
40
42
44
46
48
50
52
54
GENUS
Stauroneis
Stephanodiscus
Stiohocoecus
St-igeocloniim
Stipitococcus
Surirella
Synavypta
Synedra
Synura
Tdbellaria
Tevpsinoe
Tetvadesmus
Tetvaedron
Tetrastrum
Trache lamonas
Treubaria
Tfibonema
Troohisohia
Ulothrix
Volvox
Xanthid-um
Zygnema
ALGAL UNITS
COUNTED
Cell
Cell
Filament
Filament
Cell
Cell
Colony
Cell
Colony
Cell
Cell
Colony
Cell
Colony
Cell
Cell
Filament
Cell
Filament
Colony
Cell
Filament
PAGE
56
58
60
62
64
66
68
70
72
74
76
78
80
82
84
86
88
90
92
94
96
98
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RESULTS
The overall ranges of physical, chemical, and biological conditions
defined by our population of 250 eastern and southeastern study lakes are
presented in Table 2. It should be noted that the levels of nutrients
(nitrogen and phosphorus forms) as well as chlorophyll a (CHLA) and Secchi
disk (SECCHI) measurements strongly suggest a lake popuTation bias toward
the eutrophic (nutrient enriched; end of the trophic spectrum, and may
reflect the initial criteria for selection of lakes to be sampled by the
NES (see Part I, Taylor et al., 1979).
The Appendix summarizes environmental requirements of the 45 phyto-
plankton genera included in this report. Findings for each genus occupy
two Appendix pages. A detailed description of the Appendix format is
found in Part I of this report series (Taylor et al., 1979). The first
Appendix page for a genus contains the statistics for partial-depth (photic
zone) conditions under which the taxon was found to occur (OCC) or was not
detected (NONOCC). The second page provides statistics associated with
partial-depth conditions representing the taxon as a numerical dominant
(DOM) and as a non-dominant form (NONDOM).
The Appendix was generated by computer. Because it was only possible
to use upper case letters in the printout, all scientific names are
printed in upper case letters and are not italicized. Definitions of
terms and abbreviations appearing in the Appendix are given on page vi.
Table 2 summarizes all the physical and chemical data by seasonal sampling
round and total- and partial-depth values.
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TABLE 2. SUMMARY OF LAKE-DATE PHYSICAL AND CHEMICAL DATA FOR TOTAL AND PARTIAL
DEPTH VALUES (N IS THE SAMPLE SIZE; THE OTHER TERMS'AND ABBREVIATIONS
ARE DEFINED ON PAGE vi.)
CHLA
T'URB
SECCHI
PH
DO
TEMP TOT ALP OUT HOP
N02N03
NH3
KJEL
ALK
N/P
TOTAL DEPTH VALUES
ft
0
U 1
N
0
R
0
U 2
H
0
R
0
U 3
N
0
II
0 A
U L
N L
D
WIN
HAX
MEAN
STDV
N
MIN
MAX
MEAN
STCV
N
MIN
MAX
M£»N
STOV
N
MIN
MAX
MEAN
STCV
N
0.3
355.4
21.0
41.40
2*7
1.*
595.0
34.4
62.58
247
0.8
241.4
23.2
34.27
247
0.3
595.0
26.2
47.93
741
6
100
69
20.5
187
4
116
71
23.8
238
1
99
72
22.9
221
1
118
71
22.4
64*
2
252
44
36.2
249
I
222
49
35.8
241
6
185
50
35.0
246
1
252
48
35.7
736
5.2
10.6
7.8
0.74
249
4.1
10.6
7.6
0.91
247
5.2
10.3
7.5
0.83
245
4.1
10.6
7.7
0.84
741
0.7
19.2
8.7
2.18
243
2.2
16.0
6.1
2.13
246
1.5
13.5
6.9
1.87
242
0.7
19.2
7.2
2.33
733
6.8 0.004 0.001
28.7 1.719 1.239
16.9 0.124 0.058
5.35 0.2311 0.1641
248 249 249
14.9 0.004 0.001
31.1 2.559 1.191
25.2 0.142 0.057
3.33 0.2809 0.1492
246 247 247
8.8 0.00$ 0.032
29.6 4.549 2.009
19.8 0.164 0.075
3.47 0.4083 0.2096
246 246 245
6.8 0.004 0.001
31.1 4.549 2.009
20.6 0.143 0.063
5.40 0.3154 0.1760
740 742 741
0.024
9.745
0.880
1.4755
249
0.027
5.691
0.503
0.8352
247
0.019
4.469
0.340
0.5362
246
0.019
9.745
0.575
1.0519
742
0.025
0.635
0.115
0.0960
249
0.044
1.081
0.177
0.1538
247
0.019
3.024
0.210
0.3529
246
0.019
3.024
0.167
0.2317
742
0.199
4.699
0.789
0.7021
249
0.261
7.149
1.255-
1.0845
247
0.199
8.199
1.209
1.1042
246
0.199
8.199
1.083
1.0013
742
10
248
70
67.2
249
10
334
76
71.0
247
10
337
73
66.4
246
10 •
334
73
68.2
742
0.0
142.0
18.7
25.01
249
0.0
122.0
14.5
20.08
247
0.0
76.0
9.7
12.85
246
0.0
142.0
14.3
20.28
742
PARTIAL DEPTH VALUES
R
0
U 1
N
O
R
0
U 2
N
0
R
O
U 3
N
0
R
0 A
U L
N L
0
HIN
MAX
MEAN
STDV
N
NIN
MAX
MEAN
STDV
N
MIN
MAX
MEAN
STDV
N
MIN
MAX
MEAN
STOV
M
0.3
355.6
21.0
41.40
247
1.4
595.0
34.4
62.58
247
0.8
241.4
23.2
34.27
247
0.3
595.0
26.2
47.93
6
100
71
20.6
187
4
121
72
24.0
237
1
100
74
23.1
221
1
121
72
22. 7
2
252
44
36.2
249
1
222
49
35.8
241
6
185
SO
35.0
246
1
252
48
35.7
5.3
10.6
7.9
0.73
249
4.1
10.6
7.8
0.89
247
4.7
10.3
7.6
0.84
245
4.1
10.6
7.8
0.83
0.7
14.2
9.0
2.02
245
3.0
17.8
7.0
1.98
246
1.6
13.5
7.3
1.61
241
0.7
19.2
7.0
2.07
6.8 0.004 0.091
28.4 1.719 1.209
17.5 0.123 0.057
5.59 0.2314 0.1642
248 249 249
17.3 0.004 0.001
32.2 2.559 1.191
26.6 0.134 0.053
2.35 0.2811 0.1479
246 247 247
9.0 0.004 0.001
29.6 4.549 2.009
20.4 0.155 0;070
3.29 0.4091 0.2088
246 246 245
6.8 0.004 0.001
32.2 4.549 2.009
21.9 0.137 0.060
5.49 0.3157 0.1753
0.024
9.745
0.870
1.4754
249
0.025
6.857
0.493
0.8836
247
0.017
4.469
0.342
0.5477
246
0.017
9.745
0.569
1.0660
0.022
0.635
0.107
0.0953
249
0.034
0.719
0.120
0.0878
247
0.020
3.024
0.122
0.2232
246
0.020
3.024
0.116
0.1487
0.199
4.699
0.796
0.6975
249
0.215
7.149
1.217
1.0778
247
0.199
8.199
1.118
1.0572
246
0.199
8.199
1.043
0.9749
10
248
70
67.3
249
10
334
73
68.9
247
10
291
73
64.1
246
10
334
72
66. T
0.0
142.0
18.6
25.14
249
0.0
210.0
14.1
23.76
247
0.0
90.0
9.6
14.87
246
0.0
210.0
14.1
2Z.04
741
645.
736
741
742
741
742
742
742
742
742
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REFERENCES
Hern, S. C., V. W. Lambou, F. A. Morris, M. K. Morris, W. D. Taylor, and
L. R. Williams. 1979. Phytoplankton Water Quality Relationships
in U.S. Lakes, Part III: Genera Dactyloaoacopsis through Gyrosigma
collected from eastern and southeastern lakes. EPA-600/3-79-023.
U.S. Environmental Protection Agency, Environmental Monitoring and
Support Laboratory, Las Vegas, Nevada. 85 pp.
Lambou, V. W., F. A. Morris, M. K. Morris, W. D. Taylor, L. R. Williams,
and S. C. Hern. 1979. Phytoplankton Water Quality Relationships in
U.S. Lakes, Part IV: Genera Hantzsohia through Pteromonas collected
from eastern and southeastern lakes. EPA-600/3-79-024. U.S.
Environmental Protection Agency, Environmental Monitoring and
Support Laboratory, Las Vegas, Nevada. 105 pp.
Taylor, W. D.; L. R. Williams, S. C. Hern, V. W. Lambou, F. A. Morris,
and M. K. Morris. 1979. Phytoplankton Water Quality Relationships
in U.S. Lakes, Part I. Methods, rationale, and data limitations.
EPA-600/3-79-021. U.S. Environmental Protection Agency, Environ-
mental-Monitoring and Support Laboratory, Las Vegas, Nevada. 67 pp.
Williams, L. R., S. C. Hern, V. W. Lambou, F. A. Morris, M. K. Morris,
and W. D. Taylor. 1979. Phytoplankton Water Quality Relationships in
U.S. Lakes, Part II: Genera Acanthosphaera through Cyetodiniian collected
from eastern and southeastern lakes. EPA-600/3-79-022. U.S. Environ-
mental Protection Agency, Environmental Monitoring and Support Laboratory,
Las Vegas, Nevada. 119 pp.
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BIBLIOGRAPHY
List of reports containing all phytoplankton data
collected In 1973 which was used in the series
"Phytoplankton Water Quality Relationships in U.S. Lakes."
Corresponding U.S. EPA NES Working Paper (WP) numbers in parentheses.
Hern, S. C., J. W. Hilgert, V. W. Lambou, F. A. Morris, M. K. Morris, L. R.
Williams, W. 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)
Hern, S. C., J. W. Hilgert, V. W. Lambou, F. A. Morris, M. K. Morris,
L. R. Williams, W. D. Taylor, and F. A. Hiatt. 1978. Distribution
of Phytoplankton in Delaware Lakes. EPA-600/3-78-027, Ecological
Research Series, v + 33 pp. (WP No. 678)
Hiatt, F. A., S. C. Hern, J. W. Hilgert, V. W. Lambou, F. 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. Hern, 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 + 40 pp. (WP Mo. 692)
Hilgert, J. 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. Hern. 1977.
Distribution of Phytoplankton in Virginia Lakes. EPA-600/3-77-100,
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. Hern. 1978. Distribution of
phytoplankton in Ohio Lakes. EPA-600/3-78-015, Ecological Research
Series, v + 94 pp. (WP 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. Hern, 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)
-------
Lambou, V. W., F. A. Morris, M. K. Morris, L. R. Williams, W. D. Taylor,
F. A. Hiatt, S. C. Hern, and J. W. Hilgert. 1977. Distribution of
Phytoplankton in West Virginia Lakes. EPA-600/3-77-103, Ecological
Research Series, v + 21 pp. (WP No. 693)
Morris, F. A., M. K. Morris, L. R. Williams, W. D. Taylor, F. A. Hiatt,
S. C. Hern, J. W. Hilgert, and V. W. Lambou. 1978. Distribution of
Phytoplankton in Indiana Lakes. EPA-600/3-78-078, Ecological Research
Series, v + 70 pp. (WP No. 682)
Morris, F. A., M. K. Morris, L. R. Williams, W. D. Taylor, F. A. Hiatt,
S. C. Hern, J. W. Hilgert, and V. W. Lambou. 1978. Distribution of
Phytoplankton in Georgia Lakes. EPA-600/3-78-011, Ecological Research
Series, v + 63 pp. (WP No. 680)
Morris, M. K., L. R. Williams, W. D. Taylor, F. A. Hiatt, S. C. Hern,
J. W. Hilgert, V. W. Lambou, and F. A. Morris. 1978. Distribution of
Phytoplankton in Illinois Lakes. EPA-600/3-78-050, Ecological Research
Series, v + 128 pp. (WP No. 681)
Morris, M. K., L. R. Williams, W. D. Taylor, F. A. Hiatt, S. C. Hern,
J. W. Hilgert, V. W. Lambou, and F. A. Morris. 1978. Distribution of
Phytoplankton in North Carolina Lakes. EPA-600/3-78-051, Ecological
Research Series, v + 73 pp. (WP No. 687)
Taylor, W. D., F. A. Hiatt, S. C. Hern, J. W. Hilgert, V. W. Lambou,
F. A. Morris, R. W. Thomas, M. K. Morris, and 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, W. D., F. A. Hiatt, S. C. Hern, J. W. Hilgert, V. W. Lambou,
F. A. Morris, M. K. Morris, and L. R. Williams. 1978. Distribution of
Phytoplankton in Florida Lakes. EPA-600/3-78-085, Ecological Research
Series, v + 112 pp. (WP No. 679)
Taylor, W. D., F. A. Hiatt, S. C. Hern, J. W. Hilgert, V. W. Lambou,
F. A. Morris, M. 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. Hern, J. W. Hilgert,
V. W. Lambou, F. A. Morris, R. W. Thomas, and M. K. Morris. 1977.
Distribution of Phytoplankton in Mississippi Lakes. EPA-600/3-77-101,
Ecological Research Series, v + 29 pp. (WP No. 685)
Williams, L. R., F. A. Morris, J. W. Hilgert, V. W. Lambou, F. A. Hiatt,
W. D. Taylor, M. K. Morris, and S. C. Hern. 1978. Distribution of
Phytoplankton in New Jersey Lakes. EPA-600/3-78-014, Ecological
Research Series, v + 59 pp. (WP No. 686)
-------
APPENDIX
PHYTOPLANKTON GENERA-WATER QUALITY RELATIONSHIPS
This Appendix is a computer generated summary of the physical, chemical,
and biological conditions associated with occurrence (OCC), non-occurrence
(NONOCC), dominance (DOM) and non-dominance (NONDOM) of 45 genera phyto-
plankton (Quadrigula to Zygnema) from 250 eastern and southeastern lakes
sampled during 1973.
-------
e*NUS:
,
0 0
U 1 C
N C
D
* N
0 0
U 1 N
N 0
0 C
C
R
0 o
U 2 C
w C
0
P N
0 0
U 2 N
N 0
0 C
C
R
0 0
U 3 C
N C
D
R N
0 0
U 3 N
N 0
0 C
C
R
n A 0
U L C
NIC
0
R N
0 A 0
U L N
N L 0
0 C
C
QUAD* IGULA
MIN
PAX
MEAN
STOV
0/WR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STCV
0/WR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
P/WP
MIN
MAX
MEAN
STOV
N>
0/WR
CHIA -
14.8
31**
24,18V
i7o/ n
2/ 56
0.3
355.6
20.9
41.53
Of 9
245/247
2.4
11.4
7.9
4.84
6/126
3/115
1.4
595.0
34.8
62.93
O/ 0
244/247
5.4
72.6
37.7
24.35
59/ 14
9/174
0.8
241.4
22.6
34.51
O/ 0
238/247
2.4
72.6
30.5
23.63
42/ 60
14/639
0.3
595.0
26.1
48.28
O/ 0
727/741
TU»«
99999
-99999
: • o
- .0.0
187/ 0
3/ 0
6
130
71
20.6
O/ 0
187/187
86
95
92
4.9
153/ 10
3/ 74
4
121
72
24.0
O/ 0
234/237
29
95
75
24.0
17/ 16
6/188
1
100
74
23.1
O/ 0
215/221
29
95
81
20.8
47/ 35
9/563
1
121
72
22.8
O/ 0
636/645
PARTIAL DEPTH VALUES
SECCHI "PH 01 TEMP TOTAtP
21 8.1 8.2 13.9 O.O98
36 8.6 8.2 26.8 O.S45
29 8.3 8.2 20.3 0.321
13.6 0.35 0.00 9.12 0.3160
67/101 146/ 26 64/177 84/ 15 172/ 10
2/ 81 2/ 77 I/ 4 2/149 2/ 67
2 5.3 0.7 6.8 0.004
252 10.6 19.2 28.9 1.719
44 7.9 9.3 17.5 0.121
36.3 0.73 2.32 5.58 0.2338
0/0 O/ O 0/0 0/0 0/0
247/249 247/249 244/245 246/248 247/2*9
27 6.3 6.4 25.3 0.037
116 7.6 7.1 29.7 0.037
78 6.9 6.7 26.9 0.022
45.9 0.65 3.36 2.49 0.0153
63/ 12 11/143 86/ 93 66/ 15 */137
3/166 3/ 93 3/ 67 3/165 3/106
1 4.1 3.3 17.3 0.034
222 10.6 17.8 32.2 2.559
48 T.8 7.0 26.6 0.136
35.6 0.89 1.99 2.35 0.2826
0/3 0/0 0/0 0/0 0/3
238/241 244/247 243/246 2*3/2*6 2**/2*7
8 6.6 4.3 18.3 0.024
89 8.8 12.7 25.6 1.479
35 7.7 8.1 20.9 0.461
23.2 0.84 2.62 2.69 O.5859
2/ 34 23/ 12 5/ 1 64/ 16 56/ 3
9/210 9/213 9/235 9/166 9/187
6 4.7 1.6 9.3 0.004
185 10.3 13.5 29.6 4.549
51 7.6 7.3 20.4 0.1*3
35.2 0.84 1.56 3.27 0.3980
3/0 0/0 0/0 0/0 0/0
237/2*6 236/2*5 232/2*1 237/2*6 237/2*6
8 6.3 4.0 13.9 0.007
116 8.8 12.7 29.7 1.479
43 7.6 7.8 22.1 0.347
32.0 0.84 2.23 4.30 0.5023
16/ 4* 22/ 49 19/ 10 88/ IS 14/ 6
14/676 14/670 13/733 14/637 14/722
1 4.1 0.7 6.8 0.004
252 10.6 19.2 32.2 4.549
48 7.8 7.8 21.5 0.133
35.8 0.83 2.07 5.52 0.3102
0/00/0 0/0 0/0 0/0
722/736 727/741 719/732 726/740 728/742
ORTHOP
0.060
0.123
0.091
0.0445
211/ 18
2/ 20
0.001
1.209
0.057
0.1649
O/ 0
247/249
0.003
0.013
0.007
0.3051
9/138
3/130
0.001
1.191
0.054
0.1487
O/ 0
244/247
0.906
1.255
0.288
0.5063
28/ 1
9/216
0.001
2.009
0.061
0.1861
O/ 0
236/2*5
0.003
1.255
0.199
O.*168
38/ 1
l*/702
0.001
2.009
0.057
0.1668
O/ 0
727/7*1
N02NQ3
0.064
0.214
3.138
0.1063
25/157
2/ 67
0.024
9.745
0.876
l.*799
O/ 3
2*7/2*9
0.053
0.08*
0.06*
3.3173
21/185
3/ 41
0.325
6.857
0.499
0.8878
O/ 3
244/247
0.020
0.317
0.257
0.2868
2/ 34
9/210
0.017
4.469
0.345
0.5553
O/ 0
237/246
O.O20
0.817
0.199
3.2421
2/137
14/603
0.017
9.745
0.577
1.3745
O/ 0
728/742
NH3 KJEL
0.089 1.074
0. 164 3. 000
0.126 2.337
•3.3333 1.3618
153/ 37 207/ 4
2/ 59 2/ 38
0.322 3.199
0.635 4.699
0.106 0.786
3.3956 9.6858
O/ J O/ 0
247/249 247/249
3.336 3.332
0.094 1.449
0.068 0.783
0.3295 0.5885
1/123 12/ 63
3/123 3/172
0.034 3.215
0.719 7.149
0.120 1.222
3.0881 1.0820
0/0 3/0
244/247 244/2*7
0.035 0.3*0
0.116 5.399
0.074 1.844
0.025* 1.726*
5/ 61 34/ 2
9/180 9/210
0.020 0.199
3.024 8.199
0.124 1.091
0.2271 1.0191
0/0 0/0
237/246 237/246
0.035 0.332
0.164 5.399
0.080 1.644
0.0336 1.5009
22/123 83/ 6
14/597 I*/ 653
0.020 0.199
3.024 8.199
9.117 1.031
0.1500 0.9599
0/0 0/0
728/742 72V 742
ALK
93
198
146
74.2
176/17
2/ 56
13
248
69
67.1
O/ 0
247/249
10
23
15
7.2
3/173
3/ 77
10
334
74
69.0
O/ 0
2*4/247
13
134
60
42.4
28/ 51
9/167
10
291
73
64.8
O/ 0
237/246
10
198
63
55.9
O/ 46
14/696
10
33*
72
66.9
O/ 3
72»/7*2
N/P
0.0
*.o
2.0
2'. 83
0/183
2/ 66
3.0
1*2.0
18.7
25.19
O/ 0
2*7/2*9
5.0
13.0
7.7
*.62
82/ 62
3/103
3.0
210.0
1*.2
23.89
O/ 0
2**/2*7
0.0
11.0
2.6
3.68
O/ 50
9/196
0.0
90.0
9.9
15.07
O/ 0
237/2*6
0.0
13.0
3.6
4.15
0/198
14/5*4
3.0
210.0
14.3
22.19
O/ 0
728/7*2
CONC
0
399
200
262.1
0
0
o
0.0
0
a
0
0.0
0
3
3
0.0
0
232
32
67.2
0
0
0
0.0
0
399
49
114.6
3
0
0
0.0
PERC
0.0
1.1
0.5
0.75
3.0
0.0
0.0
0.00
0.0
3.0
0.0
0.00
0.0
0.0
0.3
0.00
0.0
0.6
0.1
0.20
0.0
0.0
0.0
0.00
0.0
1.1
0.2
0.31
0.0
0.0
0.0
0.30
-------
GENUS:QUACRIGULA
CHtA
TURB SECCHI
PH
00
TEMP
PARTIAL DEPTH VALUES
TOTALP ORTHOP N02N03
NH3
KJEL ALK
N/P
CONC PERC
R
0
U 1
N
0
R
0
U 1
N
0
R
0
U 2
N
0
R
c
U 2
N
D
R
0
U 3
N
0
R
0
U 3
N
0
R
0 A
U L
M L
0
R
0 A
U L
N L
0
0
0
M
N
0
N
D
0
M
0
0
M
N
0
N
0
0
M
0
"i
M
N
0
N
0
0
M
D
0
M
N
9
N
0
0
M
MIN
MAX
MEAN
STOV
O/WR
MIN
MAX
MEAN
STOV
N>
0/NR
MIN
MAX
MEAN
STOV
M>
,0/WR
MIN
MAX
MEAN
STOV
N>
O/WR
HIN
MAX
NEAN
STDV
N>
9/WR
MIN
MAX
MEAN
STOV
N>
O/WR
MIN
MAX
MEAN
STOV
N>
O/WR
"IN
MAX
MEAN
STOV
N>
0/NR
14.8
49.0
31.9
24.18
170/ 21
2/ 56
2.4
11.4
7.9
4.84
6/126
3/115
5.4
72.6
37.7
24.05
59/ 14
9/174
2.4
72.6
30.5
23.63
42/ 60
14/639
99999
-99999
0
0.0
187/ 0
O/ 0
86
95
92
4.9
153/ 10
3/ 74
29
95
75
24.0
17/ 16
6/188
29
95
81
20.8
47/ 35
9/563
21
36
29
10.6
67/101
2/ 81
27
116
78
45.9
63/ 12
3/166
8
89
35
23.2
11 34
9/210
8
116
43
32.3
16/ 44
14/676
8.1
8.6
8.3
0.35
146/ 26
2/ 77
6.3
7.6
6.9
0.65
11/143
3/ 93
6.6
8.8
7.7
0.84
23/ 12
9/210
6.3
8.8
7.6
0.84
22/ 49
14/670
8.2
8.2
8.2
0.03
64/177
I/ 4
6.4
7.1
6.7
0.36
86/ 93
3/ 67
4.3
12.7
8.1
2.62
5/ 1
9/235
4.3
12.7
7.8
2.23
19/ 10
13/703
13.9
26.8
20.3
9.12
84/ 15
2/149
25.0
29.7
26.9
2.49
66/ 15
3/165
18.3
25.6
20.9
2.69
64/ 16
9/166
13.9
29.7
22.1
4.30
88/ 15
14/637
0.098
0.545
0.321
0.3163
172/ 13
2/ 67
0.007
0.037
0.022
0.0150
4/137
3/106
0.024
1.479
0.461
0.5859
S6/ 3
9/187
0.037
1.479
0.347
3.5023
14/ 6
14/722
0.060
0.123
0.091
0.0445
21 1/ 18
2/ 20
0.003
0.013
0.007
O.OOS1
9/108
3/130
0.006
1.255
0.288
0.5063
28/ 1
9/216
0.033
1.255
0.199
0.4168
38/ 1
< 4/702
0.064
0.214
0.138
0.1060
25/157
2/ 67
0.050
0.084
0.064
0.0173
21/185
3/ 41
0.020
0.817
0.257
0.2868
2/ 34
9/210
0.320
0.817
0.199
0.2421
2/137
14/603
0.089
0.164
0.126
0.0530
153/ 37
2/ 59
0.036
0.094
0.068
0.0295
1/123
3/123
0.035
0.116
0.074
0.0254
5/61
9/180
0.035
0.164
0.080
0.0336
22/123
14/597
1.074
3.300
2.037
1.3618
207/ 4
2/ 38
0.332
1.449
0.783
0.5885
12/ 63
3/172
0.340
5.399
1.844
1.7264
34/ 2
9/210
3.332
5.399
1.644
1.5009
83 / 6
14/653
93
198
146
74.2
176/ 17
2/ 56
10
23
15
7.2
0/170
3/ 77
13
134
60
42.4
28/ 51
9/167
10
198
63
55.9
O/ 46
14/696
0.0
4.0
2.0
2.83
0/183
2/ 66
5.0
13.0
7.7
4.62
82/ 62
3/103
0.0
11.0
2.6
3.68
O/ 50
9/196
0.3
13.9
3.6
4.15
0/198
14/544
0
399
200
282.1
0
0
0
3.3
0
202
32
67.2
3
399
49
114.6
0.0
1.1
0.5
0.75
0.0
0.0
0.0
3.33
0.0
0.6
0.1
0.20
0.0
1.1
0.2
0.31
-------
CENUSl KAPHICI6PSIS
PARTIAL DEPTH VALUES
cm A
TUPB SECCHI
PH
DO
TEMP TOTAtP ORTHOP N02N03
NH3
KJEl ALK
N/P
CONC
PERC
ro
*
0 0
U 1 C
N C
0
R N
0 0
U 1 N
N 0
0 C
C
R
o o
U 2 C
N C
0
R N
0 0
U 2 N
N 0
0 C
C
•
r o
U 3 C
N C
D
* N
C 0
U 3 N
N 0
O C
r
•
0*0
U L C
It L.C
D
• N
O A 0
U L N
N I 0
D C
C
HIN
MAX
MEAN
STOV
N>
o/m
MM
MAX
MEAN
STOV
N>
0/tffi
MIN
MAX
MEAN
STOV
N>
0/UM
MIN
MAX
MEAN
STOV
N>
0/HR
HIM
MAX
MEAN
STOV
H>
3 /MR
MIN
MAX
MEAN
STOV
N>
0/HR
MIN
MAX
MEAN
STDV
N>
0/U*
MIN
MM
MEAN
STOV
N>
0/MR
0.6 8
2*7.1 97
43.2 65
57.70 25.7
4/2 1/3
26/2*1 21/183
0.3 6
355.6 100
18.3 71
38.37 14.8
0/0 0/0
221/247 166/187
1.9 4
595.0 107
55.2 64
92.75 27. I
2/0 3/1
78/245 77/236
1.4 7
312.0 121
24.9 76
38.72 21.4
0/2 3/0
169/245 160/234
0.8 1
171.5 97
31.3 71
33.18 22.3
1/3 0/2
73/244 68/219
3.8 3
241.4 130
19.8 75
34.24 23.4
0/0 1/0
174/247 153/220
0.6 1
595.0 107
43.6 67
69.35 25.1
4/ 0 O/ 1
177/737 166/644
0.3 3
355.6 121
20.7 74
37.29 21.6
O/ 2 I/ 0
564/739 479/644
5
108
32
21.9
2/ 18
26/229
2
252
45
37.3
O/ 0
223/249
6
98
36
23.0
I/ 24
78/216
1
222
55
39.9
O/ 0
163/241
6
130
38
26.7
O/ 12
73/234
10
185
56
36.8
3/ 0
173/243
5
130
36
23.2
3/ 26
177/707
1
252
51
38.2
or o
559/736
6.8 3.8
10.1 15.5
8.3 8.9
0.83 2.13
9/1 4/1
26/239 26/240
5.3 3.7
10.6 19.2
7.8 9.0
0.70 2.31
0/0 0/3
223/249 219/245
6.6 3.1
10.3 16.0
8.0 6.7
0.71 1.86
19/1 1/1
78/227 77/244
4.1 3.0
13.6 17.8
7.7 7.1
0.95 2.0)
9/3 0/0
169/247 169/246
6.6 2.8
S.3 11.4
7.8 7.2
0.73 1.57
23/ 42/2
73/218 72/237
4.7 1.6
10.3 13.5
7.5 7.3
0.87 1.63
0/0 0/0
172/245 169/241
6.6 2.8
10.3 16.0
7.9 7.3
0.76 1.93
46/2 4/2
177/693 175/726
4.1 0.7
10.6 19.2
7.7 7.9
0.84 2.99
O/ 0 3/ 3
564/741 557/732
11.7
28.9
20.0
5.96
28/ 0
26/220
6.8
28-.S
17.2
5.48
O/ 1
222/247
23.8
32.2
27.4
2.00
21/ 0
78/225
17.3
31.5
26.2
2.41
O/ 1
168/245
9.0
27.2
21.2
3.41
O/ 3
73/2*3
12.6
29.6
20.1
3.13
I/ 0
173/2*5
9.0
32.2
23.7
4.71
3/ 0
177/737
6.8
31.5
20.8
5.54
O/ 1
563/739
0.022
1.184
0.219
0.3218
43/ 4
26/202
0.034
1.719
0.111
0.2169
O/ 0
223/249
0.013
1.599
0.195
0.3321
26/ 1
78/220
0.004
2.559
0.106
0.250*
O/ 0
169/2*7
0.010
3.084
9.228
0.4679
ll/ 1
73/234
0.00*
4.549
0.124
0.3788
O/ 0
173/2*6
0.010
3.08*
0.212
0.3937
37/ 1
177/70*
0.30*
4.549
0.114
0.28*6
O/ 0
565/7*2
3.002 O.O38
1.032 3.865
0.127 0.58*
0.276* 3.8775
10/ 3 */ 13
26/236 26/232
0.001 0.024
1.209 9.745
0. 049 0.903
0.1446 1.5279
0/3 3/9
223/249 223/249
0.003 0.327
1.191 3.679
0.087 0.389
0.2103 0.6700
9/0 1/5
78/238 78/241
0.001 0.025
0.969 6.857
0.037 0.542
0.1047 0.96*5
0/1 0/0
169/2*6 169/2*7
0.003 O.O24
2.309 1.709
0.125 0.251
0.3376 0.3573
2/0 6/8
73/2*3 73/232
0.001 0.017
0. 8*7 *.*69
0.0*6 0.380
0.1111 0.6373
O/ * 0/0
172/2*1 173/2*6
0.002 0.024
2.009 3.865
0.109 0.361
0.2779 0.6089
I*/ 3 6/ 18
177/777 177/718
0.331 0.017
1.209 9.745
0.045 0.635
0.1236 1.1659
0/2 O/ 0
564/739 565/742
0.037 0.385
0.554 2.949
0.131 1.221
0.1284 0.8264
17/ 1 62/ 6
26/231 26/181
0.022 0.199
0.635 4.699
0.104 0.746
0.0906 0.6655
0/0 0/0
223/249 223/249
0.049 0.265
0.719 7.149
0.134 1.446
0.1025 1.2440
4/0 3/0
78/243 78/244
0.034 0.215
3.565 6.349
0.113 1.111
0.0796 0.9777
0/1 0/1
169/246 169/246
0.031 0.240
3.024 8.199
0.161 1.379
0.3769 1.3456
1/0 6/0
73/245 73/2*0
0.020 0.199
0.831 6.000
0.106 1.008
0.1028 0.8935
0/3 0/1
173/2*3 173/2*5
0.031 0.2*0
3.02* 8.199
0.1*5 1.386
0.2554 1.2331
4/ 3 15/ 0
177/738 177/727
0.323 0.199
0.831 6.349
0.107 0.936
0.0914 0.8520
O/ 3 0/2
565/739 565/7*0
10
246
89
67.9
O/ 0
26/2*9
10
2*0
68
67.1
O/ 1
223/248
11
334
7*
56.1
IB/ 0
78/229
10
293
73
7*. 2
O/ 1
169/2*6
10
218
78
53.8
O/ 9
73/237
10
291
71
68.0
O/ 0
173/246
10
33*
78
56.9
O/ 3
177/742
10
293
70
69.5
O/ 1
565/7*1
0.0
48.0
9.7
12.53
O/ 24
26/225
0.0
142.0
19.7
26.03
O/ 0
223/249
0.0
61.0
7.8
10.45
O/ 11
78/236
0.0
213.0
17.0
27.38
O/ 0
169/2*7
0.0
35.0
5.4
6.05
O/ 15
73/231
3.0
90.0
11.4
17.00
O/ 0
173/2*6
0.0
61.0
7.1
9.35
O/ 35
177/737
0.0
210.0
16.3
2*.30
O/ 0
565/7*2
0 3.0
7074 19.6
699 3.0
157*. 2 4.76
0 0.0
0 0.0
0 0.0
0.0 0.00
0 0.0
56584 87.6
4127 1*.9
96*7.9 20.40
0 0.0
0 0.0
0 0.0
0.3 3.13
0 0.0
668*9 92.5
3613 12.4
13464.6 21.62
3 3.3
0 0.0
0 O.O
0.0 0.30
3 0.3
66849 92.5
3411 12.1
9338.3 19.«O
3 0,3
0 0.3
0 0.0
0.0 O.OO
-------
GtNUStRAPHIDIOPSIS
CHLA
TURB SfCCHI
PH
00
TEHP
PARTIAL DEPTH VALUES
TOTALP ORTHOP N02N03
NH3
KJEL AIK
N/P
CONC PERC
ft
0 0
U 1 0
N M
0
* N
0 0
U 1 N
N 0
D 0
N
ft
0 D
U 2 1
N M
0
» N
0 0
0 2 N
N D
0 3
H
•
" 0
U 3 0
N H
0
ft N
C 0
U 3 N
N 0
0 0
M
ft
0 A 0
U L 0
N L M
0
• N
P A 0
U L N
N L 0
0 0
N
•< IN
MAX
MEAN
STOV
N>
0/WR
*IN
MAX
MEAN
STOV.
N>
0/WR
HIN
MAX
MEAN
STOV
M>
O/Wft
*IN
MAX
MEAN
STOV
N>
O/WR
HIM
MAX
MEAN
STOV
N>
«/WR
MIN
MAX
MEAN
STOV
N>
0/MR
MIN
MAX
MEAN
ST9V
N>
0/WR
MIN
MAX
MEAN
STCV
N>
r/wft
10.5
100.1
55.3
63.36
144/ 10
2/ 93
0.6
247.1
42.2
58.57
4/ 2
24/241
3.8
258.7
34.6
58.04
20/ 3
25/224
1.9
595.0
64.9
104.33
2/ 3
53/245
3.4
99.5
22.1
25.41
22/ 8
18/217
0.8
171.5
34.3
35.03
O/ 3
55/244
3.4
258.7
30.5
47.37
82/ 4
45/655
0.6
595.0
48.0
75.03
4/ 0
132/737
85
85
85
0.0
133/ 48
I/ 6
8
97
64
25.9
I/ 3
23/183
•>
107
72
23.7
I/ 1
24/235
4
95
61
28.0
O/ 10
53/227
50
93
79
13.7
31/ 28
17/162
1
97
68
24.0
3/ 2
51/219
5
107
75
20.1
3/ 1
42/641
1
97
64
26.1
Of 12
124/633
42
59
51
12.0
163/ 56
2/ 30
5
108
30
21.9
2/18
24/229
10
98
44
21.4
12/ 24
25/205
6
95
33
18.6
I/ 26
53/214
8
129
49
30.2
2/ 13
18/231
6
130
35
24.7
of 12
55/234
8
129
46
24.8
16/ 27
45/693
5
130
33
21.8
3/ 26
132/707
8.1
8.7
8.4
0.42
146/ 19
21 84
6.8
10.1
8.3
0.86
9/ 1
24/239
6.7
10.3
8.1
0.77
257 1
25/221
6.6
9.5
7.9
0.69
19/ 4
53/224
6.6
8.9
7.3
0.74
23/ 8
18/214
6.6
9.3
7.9
0.67
23/ 4
55/218
6.6
10.3
7.8
0.83
46/ 2
45/693
6.6
10.1
8.0
0.73
46/ 5
132/690
7.0
9.2
8.1
1.55
32/113
2/100
3.8
15.5
9.0
2.18
4/ 1
24/240
4.7
16.0
7.2
2.21
16/ 1
25/229
3.1
10.3
6.5
1.64
I/ 11
52/23^
4.5
11.4
6.6
1.92
9/ 2
18/233
2.8
10.5
7.5
1.40
2/ 7
54/232
4.5
16.0
7.0
2.07
30/ 2
45/700
2.8
15.5
7.4
1.88
4/ 3
130/725
24.7
28.9
26.8
2.97
203/ 0
2/ 45
11.7
28.7
19.5
5.82
28/ 2
24/218
23.8
30.2
27.1
1.82
21/ 4
25/221
23.8
32.2
27.5
2.09
21/ 0
53/225
16.3
27.2
23.0
3.55
21/ 3
18/222
9.0
26.8
20.6
3.18
O/ 6
55/240
16.3
30.2
25.4
3.33
148/ 4
45/588
9.0
32.2
23.2
4.97
3/ 0
132/737
0.027
0.214
0.120
0.1322
57/ 26
2/166
0.022
1.184
0.227
0.3319
43/ 4
24/202
0.013
1.474
0.122
0.2928
26/ 2
25/219
0.021
1.599
0.229
0.3464
55/ 1
53/191
0.011
0.701
0.082
0.1572
IS/ 12
18/219
0.010
3.384
0.275
0.5241
ll/ 1
55/234
0.011
1.474
0.106
0.2389
51/ 7
45/684
0.010
3.084
0.248
0.4251
37/ 1
132/704
0.003
0.026
0.014
0.0162
27/ 78
2/144
0.002
1.032
0.136
0.2861
10/ 3
24/236
0.003
0.609
0.039
0.1210
9/ 3
25/235
0.004
1.191
0.110
0.2389
22/ 0
53/22!
0.006
0.049
0.013
0.0121
2B/ 47
18/170
0.003
2.009
0.162
0.3827
2/ 0
55/243
0.333
0.639
0.027
0.0906
38/ 16
45/687
0.002
2.309
0.136
0.3129
IV 0
132/727
0.094
0.112
3.132
0.0127
46/195
2/ 8
0.038
3.865
0.624
0.9029
4/ 13
24/232
0.027
2.664
0.387
0.6286
I/ 11
25/235
0.027
3.679
0.390
0.6946
I/ 5
53/241
0.029
1.092
0.206
0.2434
19/ 23
18/204
0.024
1.739
0.264
0.3884
6/ 8
55/232
0.327
2.664
* 0.3O3
0.4979
20 f 35
45/687
0.024
3.865
0.380
0.6429
6/ 18
132/718
0.079
0.089
0.084
3.0070
125/ 92
2/ 32
0.037
0.554
0.135
0.1331
17/ 1
24/231
0.042
0.219
0.102
0.0504
10/ 22
25/215
O.O40
0.719
0.149
0.1168
4/ 0
53/243
0.037
0.974
0.148
0.2150
2/ 2
18/242
0.031
3.024
0.166
0.4181
I/ 0
55/245
0.032
0.974
0.119
0.1407
7/ 2
45/733
0.031
3.024
0.153
0.2841
4/ 0
132/738
0.449
1.799
1.123
0.9545
92/ 19
2/138
0.385
2.949
1.229
0.8378
62/ 6
24/181
0.304
4.299
1.055
1.0215
7/ 5
25/235
0.265
7.149
1.630
1.3346
3/ 0
53/244
0.254
5.399
1.092
1.2865
10/ 2
18/234
0.240
8.199
1.473
1.3626
6/ 0
55/240
0.254
5.399
1.073
1.1089
23/ 6
45/713
0.240
8.199
1.492
1.2588
15/ 0
132/727
18
129
74
78.5
78/ 54
2/117
10
248
90
68.7
O/ 0
24/249
17
156
58
37.4
45/ 33
25/169
11
334
81
62.0
18/ 0
53/229
14
151
53
45.6
32/ 33
18/181
10
218
86
54.2
O/ 9
55/237
14
156
57
41.6
125/105
45/512
10
334
85
59.8
O/ 3
132/742
1.0
7.0
4.0
4.24
7/133
2/109
0.0
48.0
10.2
12.92
Of 24
24/225
0.0
61.0
10.9
13.15
Of 11
25/236
0.0
45.0
6.3
8.65
Of 19
53/228
0.0
24.0
8.8
5.86
O/ 19
18/227
0.0
35.0
4.3
5.72
Of 15
55/231
0.0
61.0
9.8
10.52
O/ 35
45/707
0.0
48.0
6.2
8.77
Of 52
132/690
556
7074
3615
4608.9
0
4453
4*0
S25.0
201
56584
10788
14969.5
0
9240
985
1735.0
267
66849
12140
18873.4
0
6424
822
1304.6
201
66849
11319
16224.7
0
9243
818
1443.6
16.3
19.6
16. 0
2.33
0.3
5.6
1.8
1.80
11.2
87.6
3S.5
19.63
0.0
e.«
3.2
2.65
11.3
92. 5
40.3
29.30
0.0
9.9
3.3
9.03
11.2
92.5
38.9
23.72
0.0
9.9
3.0
2.72
-------
GfNUS: RHIZOSOLENIA
PARTIAL DEPTH VALUES
CHLA
TURB SECCH!
PH
00
TEMP TOT ALP ORTHOP N02N03
NH3
KJEL ALK
M/P
CONC PERC
p
« 0
U 1 C
s c
D
R N
0 0
U 1 N
N 0
0 C
C
I
0 0
U 2 C
N C
0
• N
n o
U 2 •«
N 0
0 C
C
•
0 0
U 3 C
N C
D
• s
0 0
U 3 N
M 0
0 C
C
»
TAG
U I C
N t C
D
R N
1) A H
U L N
M t 0
0 C
C
MIN
WAX
MEAN
STOV
N>
0/W*
MIN
MAX
MEAN
STOV
M>
0/WR
NIN
HAX
MEAN
STDV
N>
0/MR
MIN
MAX
MEAN
STOV
H>
0/WR
MIN
MAX
MEAN
STPV
N>
r/MR
KIN
MAX
MEAN
STOV
N>
0/WR
HIN
MAX
MEAN
STOV
N>
3/WR
MIN
H*X
ME*N
STOV
N>
0/HK
2.1
21.2
8.9
6.15
20/ 57
14/170
0.3
355.6
21.7
42.49
3t 0
233/247
1.4
5S.O
15.7
17.66
O/ 38
26/209
1.5
595.0
36.6
65.56
If 0
221/246
1.1
3».7
9.7
9.56
2/ 42
25/233
0.8
241.4
24.7
35.69
O/ 0
222/247
1.1
78.3
11.9
13.17
9/ 78
65/654
0.3
595.0
27.6
49.80
O/ 3
676/741
19
100
73
25.5
4/ 0
13/183
6
100
70
20.3
O/ 0
174/187
35
96
81
13.6
27/ 7
25/203
4
121
71
24.7
O/ 0
212/237
45
97
82
13.7
28/ 2
25/191
1
100
73
23.8
O/ 0
196/221
19
100
80
16.8
26/ -i
63/616
I
121
72
23.2
3/ 0
582/645
19
125
55
36.8
IS/ 11
14/223
2
252
43
36.1
O/ 0
235/249
20
96
53
21.7
357 25
26/181
1
222
48
37.1
O/ 0
215/241
20
157
63
41.7
40/ 3
25/203
6
185
49
34.1
O/ 0
221/246
10
157
56
33.5
30/ 11
65/695
1
252
47
35.8
3/ 9
671/736
6.8
e.i
7.4
0.41
9/ 88
14/152
5.3
10.6
7.9
0.73
3/ 0
235/249
5.7
8.7
7.2
0.79
5/ 22
26/220
4.1
10.6
7.8
0.88
O/ 0
221/247
5.9
9.4
7.3
0.82
2/ 3
25/240
4.7
10.3
7.6
0.83
O/ 0
223/245
5.7
9.4
7.3
0.73
9/ 17
65/715
4.1
10.6
7.8
0.82
9/ 0
676/741
5.3
12.1
8.1
1.60
ll/ 8
14/226
0.7
19.2
9.0
2.03
O/ 0
231/245
5.0
9.2
6.8
1.01
24/ 19
26/203
3.0
17.8
7.0
2.07
O/ 0
220/246
4.5
10.2
7.3
1.43
9/ 9
24/223
1.6
13.5
7.3
1.63
O/ 0
217/241
4.5
12.1
7.3
1.38
30/ 16
64/686
0.7
19.2
7.8
2.12
O/ 0
668/732
9.2 0.098 0.001 0.034 0.032 0.199
28.9 0.216 0.027 1.449 0.190 1.161
22.1 0.048 0.007 0.271 0.101 0.480
6.36 0.0545 0.0087 0.3707 0.0547 0.2645
4/ 0 8/ 25 O/ 75 2/ 37 5/ 24 O/ 35
14/244 14/216 14/174 14/210 14/220 14/214
6.8 0.004 0.001 0.024 0.022 0.207
28..S 1.719 1.239 9.745 0.635 4.699
17.2 0.127 0.060 0.905 0.107 0.815
5.43 0.2372 0.1686 1.5089 0.0973 0.7109
0/1 O/ O 0/0 0/00/0 1/0
234/247 235/249 235/249 235/249 235/249 235/248
21.2 0.007 0.002 0.027 0.039 0.281
30.2 0.125 0.055 0.677 0.239 2.000
27.7 0.039 0.011 0.142 0.088 0.904
2.331 0.0309 0.0117 0.1529 0.0467 0.5310
3/ 4 4/ 52 3/ 34 I/ 43 3/ 18 5/ 37
26/239 26/191 26/210 26/203 26/226 26/205
17.3 0.004 0.001 0.025 0.034 0.215
32.2 2.559 1.191 6.857 0.719 7.149
26.5 0.146 0.058 0.535 0.123 1.254
2.32 0.2951 0.1556 0.9242 0.0908 1.1198
0/0 0/0 O/ O 0/0 0/0 0/0
220/246 221/247 221/247 221/247 221/247 221/247
9.0 0.008 0.004 0.024 0.035 0.24O
27.1 0.149 0.049 0.545 0.296 3.557
20.9 0.042 0.012 0.098 O.O96 0.908
4.00 0.0318 0.3099 3.1118 0.0664 0.7211
O/ 4 5/ 44 B/ 47 6/ 47 5/ 12 6/ 10
25/242 25/197 25/190 25/193 25/229 25/230
12.6 0.004 0.001 0.317 0.020 0.199
29.6 4.549 2.009 4.469 3.024 8.199
20.4 0.167 0.076 0.369 0.125 1.142
3.16 0.4297 3.2194 3.5703 3.2343 1.3874
1/0 0/0 9/0 0/0 0/0 3/0
221/24S 221/246 220/245 221/246 221/246 221/246
9.0 0.007 3.001 0.024 0.032 3.199
30.2 0.216 0.055 1.449 0.296 3.557
23.9 0.042 0.011 0.153 O.O94 0.814
5.15 0.0373 0.0105 0.2145 0.0561 0.5920
3/ 4 14/ 85 3/117 6/ 74 7/ 37 3/ 26
65/733 65/643 65/624 65/662 65/698 65/716
6.8 0.004 9.001 0.017 0.020 0.199
32.2 4.549 2.039 9.745 3.024 8.199
21.3 0.146 0.065 0.609 0.118 1.965
5.47 0.3289 0.1828 1.1059 0.1546 1.0016
0/0 0/3 9/0 0/0 0/0 0/0
675/740 677/742 676/741 677/742 677/742 677/742
10
51
18
10.3
0/112
14/137
10
248
73
68.0
Of 0
235/249
10
108
23
19.6
Of 61
26/186
10
334
79
73.2
Of 0
221/247
13
185
44
46.2
Of 15
25/231
10
291
76
«5.1
Of 0
221/246
10
185
30
33.2
O/ 59
65/683
10
334
76
67.7
Of O
677/742
4.0
23.0
9.0
5.14
51/ 57*
14/141
0.0
142.0
19.2
25.74
Of 0
235/249
1.0
103.0
11.8
23.55
12/ 3
26/232
0.0
210.0
14.3
24.14
Of 0
221/247
1.0
85.0
8.3
16.29
13/ 2
25/231
0.0
90.3
9.8
14.74
O/ 3
221/246
1.0
103.0
9.9
16.51
32/ 8
65/702
0.0
210.0
14.5
22.46
Of 0
477/742
0
2237
187
595.0
0
O
0
0.0
0
1101
107
232.1
0
O
0
0.0
0
269
33
65.0
0
3
0
0.0
0
2237
96
313.0
0
0
0
0.0
0.0
12.2
1.7
3.35
0.0
0.0
0.0
0.00
0.0
4.7
0.7
1.12
0.0
0.0
0.0
0.30
0.0
2.0
0.5
0.62
0.0
0.0
0.0
0.00
0.0
12.2
0.8
1.77
0.0
0.0
0.0
0.00
-------
GENUStFHIZOSCLENIA
PARTIAL DEPTH VALUES
CHLA
TURB SECCHI
PH
DO
TEMP TOTAL? ORTHOP N02NO3
NH3
KJEL
ALK
N/P
CONC PERC
O1
R
0 0
U 1 0
N M
0
R N
0 Q
U 1 N
N 0
D 0
H
R
0 0
U 2 0
N H
0
R N
0 0
U 2 N
N 0
0 0
1
R
O 0
U 3 •!
N M
0
»u
H
o g
U 3 N
N 0
0 0
M
R
0 A 0
U L 0
H L <<
0
R N
0 A 0
U L N
S L 0
0 0
N
MIN
MAX
MEAN
STOV
N>
O/MR
MIN
MAX
MEAN
STOV
M>
0/UR
MIN
MAX
MEAN
STDV
M>
0/HR
MIN
MAX
MFAN
STOV
N>
rVHR
MIN
MAX
MEAN
STOV
N>
0/WR
MTU
H IK
MAX
MEAN
STOV
K>
0/WR
MIN
XAX
MEAN
STOV
*>
0/WR
MIN
MAX
MFAN
STDV
N>
0/W*
15.9
15.9
15.9
0.00
175/ 71
If I
2.1
21.2
8.3
6.04
ZO/ 57
13/170
1.4
58.0
15.7
17.66
O/ 38
26/209
If
. 1
39.7
9.7
9.56
2/ 42
25/203
15.9
15.9
15.9
0.00
483/257
I/ 1
1.1
58.3
11.8
13.27
9/ 78
64/654
72
72
72
0.0
77/107
It 3
19
100
73
26.6
4/ 0
12/183
35
96
81
13.6
27/ 7
25/203
i *
%5
97
82
13.7
28/ 2
25/191
72
72
72
0.0
223/413
I/ 9
19
130
80
16.9
26/ 3
62/616
37
37
37
0.0
148/ 98
I/ 3
10
125
57
37.9
If/ 11
13/223
20
96
53
21.7
35/ 25
26/181
20
157
60
41.7
40/ 3
2 5/203
37
37
37
0.0
367/355
If 14
10
157
56
33.6
33/ 11
64/695
7.6
7.6
7.6
0.00
72/162
I/ 15
6.8
8.1
7.4
0.42
9/ 88
13/152
5.7
8.7
7.2
0.79
5/ 22
26/220
9.4
7.3
0.82
2/ 3
25/240
7.6
7.6
7.6
0.00
284/423
I/ 34
t>.7
9.4
7.3
0.74
9/ 17
64/715
7.4
7.4
7.4
0.00
36/206
I/ 3
5.3
12.1
8.1
1.66
11 / 8
13/226
5.0
9.2
6.8
1.31
24/ 19
26/203
13.2
7.3
1.43
9/ 9
24/223
7.4
7.4
7.4
0.00
314/4O1
I/ 17
4.5
12.1
7.3
1.39
3O/ 16
63/686
24.1
24.1
24.1
0.00
195/ 50
.I/ 3
9.2
28.9
22.0
6.59
4/ 0
13/244
21.2
30.2
27.7
2.33
3/ 4
26/239
27.1
20.9
4.00
O/ 4
25/242
24.1
24.1
24.1
0.00
437/294
I/ 9
9.0
30.2
23.9
5.20
3/ 4
64/733
0.031
0.031
0.031
0.00 JO
72/175
I/ 2
0.008
0.216
0.353
0.0565
8/ 25
13/216
3.007
0.125
0.039
0.0399
4/ 52
26/191
0.149
0.042
0.0318
!/ 44
25/197
0.031
0.031
0.331
0.0000
231/504
I/ 7
0.007
3.216
a. 042
0.0373
14/ 85
64/643
0.003
0.003
0.003
0.0003
27/210
I/ 12
0.001
0.027
0.038
0.0090
O/ 75
13/174
0.332
0.055
0.011
0.0117
3/ 34
26/210
0.004
3.049
0.012
0.0099
8/ 47
25/190
0.003
0.003
3.033
0.0030
38/672
I/ 31
0.001
9.055
0.011
0.0105
0/117
64/624
0.066
0.066
0.365
3.0330
29/218
I/ 2
0.034
1.449
0.287
0.3809
2f 37
13/210
0.027
0.677
0.142
3.1529
I/ 43
26/203
0*024
0.545
0.098
0.1118
6/ 47
25/193
0.066
0.066
0.065
0.3090
160/578
I/ 4
0.024
1.449
0.154
0.2160
6/ 74
64/662
0.077
0.077
0.076
0.0000
121/125
If 3
0.032
0.190
0.103
0.0565
5/ 24
13/220
0.039
0.239
0.088
3.0467
3/ 18
26/226
0.035
0.296
0.096
0.0664
5/ 12
25/229
0.077
0.077
3.076
0.0000
333/405
If 4
0.032
0.296
0.094
3.0565
7/ 37
64/698'
1.161
1.161
1.160
0.0000
213/ 35
I/ 1
0.199
0.899
0.428
0.1853
Of 66
13/183
3.281
2.000
0.904
0.5310
5/ 37
26/205
09Af1
• £*U
3.557
0.908
0.7211
6/ 10
25/230
1.161
1.161
1.160
0.0000
542/199
I/ 1
0.199
3.557
0.809
3.5950
Of 26
64/716
23
20
20
3.3
86/169
If 3
10
51
17
10.7
0/112
13/137
13
138
23
19.6
Of 61
26/186
i n
*u
185
44
46.2
Of 15
25/231
20
20
20
0.0
208/520
If 14
10
185
30
33.4
Of 59
64/683
5.0
5.0
5.0
0.00
66/164
If 19
4.0
23.0
9.3
5.22
51/ 57
13/141
1.3
103.0
11.8
20.55
12/ 3
26/232
1i«
• u
85.0
8.3
16.29
13/ 2
25/231
5.0
5.0
5.0
0.00
264/415
If 63
1.0
103.0
10. i»
16.63
32/ 8
64/702
2237
2237
2237
3.3
0
288
29
79.5
3
1131
107
232.1
Q
269
33
65.0
2237
2237
2237
3.3
3
1101
62
169.3
12.2
12.2
12.2
0.33
0.0
4.3
O. 9
1.52
3.0
4.7
0.7
1.12
On
• U
2.0
0.5
3.62
12.2
12.2
12.2
0.30
3.3
4.7
0.6
1.35
-------
GFNUS: RHOKOSPHENU
PARTIAL DEPTH VALUES
CHIA
TUR8 SECCHI
PH
OO
TEMP TOTALP ORTHOP N02N03
NH3
KJEL ALK
N/P
CONC PEHC
cr>
R
0 r>
U 1 C
N C
0
R N
o a
U 1 N
N 0
0 C
C
R
0 0
u 2 c
N C
0
R N
0 0
U 2 N
N 0
0 C
C
R
0 0
U 3 C
N C
0
• N
0 0
U 3 N
N 0
0 C
C
R
P A 0
U L C
NIC
9
R N
0 » 0
U L N
N L 0
0 C
C
KIN
MAX
MEAN
STOV
N>
0/MR
NIK
MAX
MEAN
STOV
M>
0/WR
HIN
PAX
MEAN
STOV
M>
0/UR
NIN
MAX
MEAN
STOV
N>
0/Wft
MIN
MAX
MEAN
STCV
N>
C/«»
MIN
MAX
MEAN
STOV
N>
0/W»
MIN
• AX
MEAN
STOV
N>
0/W*
MIN
MAX
MEAN
STDV
N>
0/MR
2.9
39*5
17.7
12.3*
337 30
13/184
0.3
355. 6
21.1
42.44
O/ 0
234/2*7
3.4
46.0
15.6
20.39
15/ 50
4/182
1.4
595.0
34.7
63.91
O/ 0
243/247
7.1
60.6
39.9
22.74
85/ 24
4/138
3.8
241.4
23.1
34.44
o/ a
243/247
2.9
60.6
19.8
16.15
62/ 75
21/694
0.3
595.0
26.4
48.53
•>/ o
723/741
13 6
86 57
54 28
21.0 i5. 6
2/ 44 4/ 61
9/141 13/184
6 2
100 2S2
71 44
20.3 36.8
0/0 0/0
1787187 236/249
14 16
83 33
49 23
34.4 8.2
8/124 23/144
4/105 4/ 74
4 1
121 222
73 49
23.7 35.9
0/0 0/0
233/237 237/241
19 18
78 36
56 27
25.6 7.8
9/133 28/142
4/ 79 4/ 76
1 6
100 185
74 51
23.0 35.1
O/ 00/3
217/221 242/246
13 6
86 57
53 27
23.9 12.9
15/206 5/196
17/424 21/535
1 1
121 252
73 48
22.5 36.0
O/ 0 O/ 0
626/645 715/736
7.7 8.6
9.1 12.8
8.2 9.8
0.35 1.25
87/ 12 8 1/ 2
13/150 13/162
5.3 0.7
10.6 19.2
7.9 8.9
0.74 2.05
0/0 0/0
236/249 232/245
7.4 4.3
8.0 7.0
7.6 5.5
3.26 1.16
TO/ 96 9/1O1
4/ 81 4/136
4.1 3.0
10.6 17.8
7.8 7.3
0.90 1.98
0/0 0/0
243/247 242/246
7.7 3.5
8.2 9.7
7.9 6.6
0.26 2.53
127/ 60 3/ 11
4/ 58 4/227
4.7 1.6
10.3 13.5
7.6 7.3
9.84 1.60
9/0 0/0
241/245 237/241
7.4 3.5
9.1 12.8
•.0 8.4
0.38 2.38
21 S/ 30 12/ «
21/496 21/711
4. 1 0. 7
10.6 19. Z
7.7 7.8
0.84 2.06
0/0 0/0
723/741 711/732
8.5 0.023
26.5 0.259
15.5 0.113
4.15 0.0642
21 19 SO/ 18
13/227 13/181
6.8 0.004
28.9 1.719
17.6 0.123
5.65 0.2373
0/0 0/0
235/248 236/249
21.7 0.037
25.5 0.247
24.0 0.148
1.67 0.4891
7/158 104/ 28
4/ 81 4/115
17.3 0.004
32.2 2.559
26.6 0.134
2.34 0.2833
0/0 O/ O
242/246 243/247
17.8 0.068
20.1 0.396
19.1 0.179
0.99 0.1484
52/121 149/ 17
4/ 73 4/ 89
9. 3 9. 304
29.6 4.549
20.4 0.154
3.27 0.4121
0/0 9/0
242/246 242/246
8.5 0.323
26.5 0.396
17.8 0.132
4.73 0.0877
2/155 168/ 49
21/583 21/525
6.0 0.004
32.2 4.549
21.6 0.137
5.48 0.3199
0/0 0/0
719/740 721/742
0.005 0.164
0.098 9.745
0.043 3.075
0.0327 2.9707
53/ 21 79/ 0
13/175 13/170
0.001 0.024
1.209 8.089
0.058 0.748
0.1685 1.2501
0/0 0/1
236/249 236/248
0.005 0.619
0.174 3.836
0.069 1.687
0.0746 1.5323
38/ 18 199/ 4
4/191 4/ 44
9.901 0.325
1.191 6.857
0.053 0.474
0.1489 0.8613
O/ 3 3/ 0
243/247 243/247
0.006 0.029
0.253 1.602
0.079 0.830
0.1173 0.6731
28/ 14 19/ 19
4/203 4/217
0.331 3.317
2.309 4.469
0.070 0.334
O.2101 0.5434
3/0 0/3
241/245 242/246
0.305 0.029
9.253 9.745
0.353 2.383
0.0619 2.5676
106/ 43 25/ 0
21/592 21/717
0.001 0.017
2.009 8.389
0.069 0.517
0.1776 0.9422
O/ 0 O/ 1
720/741 721/741
0.022 9.243
0.554 2.449
0. 162 0. 883
0.1507 0.5982
O/ 1 8/ 12
13/248 13/229
0.024 0.199
0.635 4.699
0.104 0.791
0.0908 0.7034
1/0 0/0
236/248 236/249
0.067 0.869
0.376 1.432
0.176 1.131
3.1364 0.3012
S3/ 6 120/ 64
4/188 4/ 63
0.034 0.215
0.719 7.149
0.119 1.218
9.0869 1.0861
0/0 0/0
243/247 243/247
0.042 0.721
0.212 1.376
0.143 1.127
0.0770 0.2865
20/ 20 107/ 58
4/206 4/ 81
0.020 3.199
3.324 8.199
0.122 1.118
0.2248 1.0655
0/0 0/0
242/246 242/246
0.022 0.243
0.554 2.449
0.161 0.977
0.1320 0.5056
I/ 9 18/ 56
21/732 21/666
0.020 3.199
3.324 8.199
0.115 1.045
0.1490 0.9834
0/0 0/0
721/742 721/742
37
248
147
60.1
11 5/ 0
13/134
10
240
66
65.2
O/ 1
236/248
62
171
105
47.2
142/ 25
4/ 80
19
334
73
69.1
O/ 0
243/247
69
219
153
62.8
147/ 8
4/ 91
19
291
72
63.4
01 0
242/246
37
248
149
58.6
319V 12
21/411
10
334
7»
65.9
Of 0
721/742
7.0
81.0
33.0
25.38
100/ 10
13/139
0.0
142.0
17.8
24.94
O/ 0
236/249
6.0
48.0
19.3
19.86
106/ 17
4/124
0.0
210.0
14.0
23.85
O/ 0
243/247
4.0
14.0
7.3
4.57
93/ 37
4/116
0.0
90.0
9.6
14.99
O/ 0
242/246
4.0
81.0
25.5
23.66
20B/ 20
21/514
0.0
210.0
13.8
21.92
O/ 0
721/742
0
230
30
69.8
0
0
0
0.0
0
66
17
33.0
0
0
0
0.0
0
0
0
0.0
0
0
0
0.0
0
230
22
56.8
0
0
0
0.0
0.0
2.3
0.3
0.72
0.0
0.0
0.0
0.09
0.0
2.8
O. 7
1.40
3.0
0.0
0.0
0.00
0.0
0.3
0.0
0.00
0.0
0.0
0.0
0.00
0.0
2.8
0.3
0.81
0.0
0.0
0.0
0.00
-------
GCNUStRHOlCOSPHEMA
CHI A
TURB 5ECCH!
PH
DO
PARTIAL DEPTH VALUES
TSMP TOTALP OUT HOP NQ2N03
NH3
KJEL ALK
N/P
CONC PE*C
*
0 0
U 1 0
N N
0
* N
0 0
U 1 1
N 0
0 C
M
R
0 0
020
N M
O
* N
0 0
U 2 N
N 0
0 0
H
It
0 0
U 3 0
N H
0
* N
0 0
U 3 N
N •>
0 0
•(
•
0 A D
U L 0
N I M
D
» N
0 A 0
U L N
N L 0
o n
N
MUf
MAX
MEAN
STOV
N>
C/HR
KIN
MAX
MEAN
STCV
N>
0/W»
MIN
MAX
MEAN
STOV
N>
0/H4
HIM
MAX
"EAN
STOV
N>
0/HR
MIN
MAX
MEAN
STOV
N>
•3/MR
MI*
MAX
MEAN
STOV
N>
0/ws
MIN
MAX
MEAN
STOV
N>
0/UR
MIN
MAX
MEAN
STOV
N>
O/MR
2.9
39.5
17.7
12.24
33/ 3O
13/184
3.4
46.0
15.6
20.39
IV 53
4/182
7.1
60.6
33.9
22.74
85/ 24
4/138
2.9
60.6
19.8
16.15
62/ 75
21/604
13
86
54
21.0
2/ 44
9/141
14
80
49
34.4
8/124
4/105
19
78
56
25.6
9/133
4/ 79
13
86
53
23.9
15/206
17/424
6
57
28
15.6
4/ 61
13/184
16
33
23
8.2
23/144
4/ 74
18
36
27
7.8
2 8/ 142
4/ 76
6
57
27
12.9
5/196
21/535
7.7
9.1
8.2
0.35
87/ 12
13/150
7.4
8.3
7.6
0.26
70/ 96
4/ 81
7.7
8.2
7.9
0.26
12 T/ 60
4/ 58
7.4
9.1
8.0
0.38
21 S/ 30
21/496
8.6
12.8
9.8
1.25
8 1/ 2
13/162
4.3
7.3
5.5
1.16
9/101
4/136
3.5
9.7
6.6
2.53
3/ 11
4/227
3.5
12.8
8.4
2.38
12/ 9
21/711
8.5 0.323
26.5 0.259
15.5 0.113
4.15 0.3642
2/ 19 SO/ 18
13/227 13/181
21.7 0.037
25.5 0.247
24. 0 0.148
1.67 0.0891
7/158 104/ 28
4/ 81 4/115
17.8 0.068
20.1 0.396
19.1 0.179
0.99 0.1484
52/121 140/ 17
4/ 73 4/ 89
8.5 0.023
26.5 0.396
17.8 0.132
4.73 0.0877
2/155 168/49
21/583 21/525
0.005
0.098
0.040
0.3327
S3/ 21
13/175
0.005
0.174
0.069
0.0746
38/ IB
4/191
0.036
0.253
0.079
0.1173
28/ 14
4/203
3.035
0.253
0.053
0.0619
106/ 43
21/592
0.164
9.745
3.075
2.9707
79/ 0
13/170
0.619
3.836
1.687
1.S023
199/ 4
4/ 44
0.029
1.602
0.830
a. 6731
19/ 10
4/217
0.329
9.745
2.383
2.5676
ZS/ 0
21/717
0.022
0.554
0.162
0.1507
O/ 1
13/248
0.067
0.376
0.176
0.1364
53/ 6
4/188
0.042
0.212
0.143
0.0770
20/ 20
4/206
3.022
0.554
0.161
0.1320
I/ 9
21/732
0.243 37
2.449 248
0.883 147
0.5982 60.1
8/ 12 US/ 0
13/229 13/134
0. 869 62
1.432 171
1.131 133
0.3312 47.2
120/ 64 142/ 25
4/ 63 4/ 80
0.721 69
1.376 219
1.127 153
0.2865 62.8
107/ 58 147/ 8
4/ 81 4/ 91
0.243 37
2.449 248
0.977 140
0.5056 58.6
18/ 58 319/ 12
21/666 21/411
7.0
81.0
33.0
25.38
100/ 10
13/139
6.0
48.0
19.3
19.86
106/ 17
4/124
4.0
14.0
7.3
4.57
93/ 37
4/116
4.3
81.0
25.5
23.66
208/ 20
:21/S14
0
230
30
69.8
0
66
17
33.3
a
3
0
0.0
0
233
22
56.8
3.0
2.3
0.3
0.72
0.0
2.8
0.7
1.43
3.0
3.3
0.0
O.OO
3.3
2.8
0.3
0.81
-------
CENUSl KHOPALOOIA
PARTIAL DEPTH VALUES
CHLA
rime SECCHI
PH
00
TEMP TOTALP OUTHOP NOZNOS
NH3
KJEL ALK
N/P
CONC PEKC
00
«
C 0
U 1 C
* c
D
» N
0 0
U 1 N
N 0
O C
C
t
0 0
U 2 C
N C
0
• N
C 0
U 2 N
N 0
0 C
C
*
0 0
U 3 C
N C
O
* N
0 0
U 3 N
N 0
O C
£
•
C A 0
U I C
U L C
0
» N
O A 0
U 1 N
N t O
0 C
C
MIN
MAX
MEAN
STOV
N>
0/UR
MIN
MAX
MEAN
STOV
N>
0/UR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
O/m
MIN
MAX
MEAN
JTOV
N>
o/wx
MIN
MAX
MEAN
STOV
N>
O/WR
MIN
MAX
MEAN
STDV
N>
0/WR
0.3
355.6
21.0
41.49
O/ 0
2*7/2*7
1.4
595.0
34.4
62.5S
O/ 0
247/2*7
5.1
19.3
12.2
10.0*
S2/ 74
2/121
0.8
2*1.4
23.3
34.39
3/ 0
2*5/2*7
5.1
19.3
12.2
10.3*
160/221
2/360
0.3
S95.0
26.2
47.98
9/ 0
739/741
6
100
71
20.6
O/ 0
187/187
*
121
72
24.0
O/ 0
237/237
86
97
92
7.8
12 7/ 2
2/ 92
1
100
7*
23.1
O/ 0
219/221
86
97
92
7.8
*19/ It
2/21*
1
121
77
22.7
tl 0
6*3/6*3
2
252
44
36.2
O/ 0
2*9/249
1
222
49
35.8
O/ 0
2*1/2*1
37
93
65
39.6
10*/ 28
2/11*
6
185
50
35.0
Of 0
2**/2*6
37
93
65
39,6
367/81
2/288
1
252
48
35.7
a/ a
73*/736
5.3 0.7 6.8 0.00* 0.001
10.6 19.2 28.9 1.719 1.2)9
7.9 9.0 17.5 0.123 0.057
0.73 2.02 5.59 0.231* 0.16*2
0/0 0/0 0/0 0/3 0/0
2*9/2*9 2*5/2*5 2*8/2*8 2*9/2*9 2*9/2*9
4.1 3.O 17.3 O.OO4 O.O01
19.6 17.8 32.2 2.559 1.191
7.8 7.3 26.6 0.13* 0.053
0.89 1.98 2.35 0.2811 3.1*79
0/0 0/0 0/0 0/0 0/0
2*7/2*7 2*6/2*6 2*6/2*6 2*7/2*7 2*7/2*7
6.6 6.1 18.1 0.029 0.007
8.2 6.2 23.8 O.060 O.O17
7.* 6.1 20.9 0.0** 0.011
1.13 3.07 *.03 0.0219 0.0070
23/ 60 43/190 59/ 37 71/119 42/199
2/162 2/ 8 2/150 2/ 56 2/ 9*
4.7 1.6 9.3 0.004 3.331
10.3 13.5 29.6 4.5*9 3.009
7.6 7.3 20.* 0.155 0.070
9.8* 1.61 3.25 0.4106 3.2096
0/0 3/9 0/0 0/3 3/0
243/245 739/241 244/246 244/246 243/245
6.6 6.1 18.1 0.029 0.337
8.2 6.2 23.8 0.060 0.017
7.* 6.1 20.9 0.0** 0.011
1.13 9.07 *.03 O.O219 O.O070
'46/209 130/580 219/312 216/3*9 205/291
2/466 2/ 22 2/216 2/186 2/2*5
4.1 0.7 6.8 0.004 0.001
10.6 19.2 32.2 4.5*9 2.039
7.8 7.8 21.5 0.137 0.06C
0.83 2.07 5.50 0.3161 0.1755
0/0 9/3 0/0 0/00/0
739/7*1 730/732 738/7*0 7*0/7*2 739/7*1
0.02*
9.7*5
0.870
1.4754
O/ 0
2*9/2*9
O.02S
6.857
0.493
0.8836
O/ 0
2*7/2*7
0.029
0.031
0.029
0.001*
19/215
2/ 12
0.017
4.469
0.3**
0.5*92
31 0
244/246
0.029
0.031
0.029
O.0014
25/699
• 2/ IB
0.017
9.7*5
0.571
1.0671
O/ 0
7*0/742
0.022 0.199
0.635 4.699
0.107 0.796
0.0953 0.6975
0/0 0/0
2*9/2*9 2*9/2*9
O.O3* 0.215
0.719 7.1*9
0.120 1.217
0.0878 1.0778
0/0 0/0
2*7/2*7 2*7/2*7
0.059 0.890
0.119 0.9*9
0.089 0.919
0.0*2* 0.0*17
7B/ 58 134/102
2/110 2/ 10
0.020 0.199
3.02* 8.199
0.123 1.120
0.22*0 1.061*
0/0 3/0
244/246 2*4/246
0.059 3.890
0.119 0.9*9
0.089 0.919
0.0*2* O.0*l 7
184/203 438/275
2/355 21 29
0.020 0.199
3.02* 8.199
0.116 1.0*3
0.1*89 0.9762
01 00/0
7*3/7*2 7*3/7*2
10
2*8
70
67.3
O/ 0
2*9/2*9
10
33*
73
68.9
O/ 9
2*7/247
26
137
62
78.5
84/ SO
2/112
10
291
73
64.1
O/ 3
244/2*6
26
137
82
78.5
265/138
2/339
10
33*
7Z
66.7
O/ 0
740/7*2
0.0
1*2.0
18.6
25.1*
O/ 0
2*9/2*9
0.0
210.0
14.1
23.76
O/ 0
2*7/2*7
2.0
5.0
3.5
2.12
42Y110
Z/ 9*
0.0
90.0
9.7
14.92
O/ 0
244/246
2.0
5.0
3.5
2.12
95/415
2/232
0.0
210.0
14.1
22.06
Of 0
740/742
0
0
0
0.0
0
0
0
0.0
0
0
0
0.0
0
O
0
0.0
0
0
0
0.0
0
0
0
0.0
0.0
0.0
0.0
0.00
0.0
o.o
0.0
0.00
0.0
o.o
0.0
0.00
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.90
-------
68NUS:RHOPALOCIA
CHLA
TURB SECCHI
PH
PARTIAL DEPTH VALUES
TEMP TOTALP ORTHOP NOZNOB
NH3
KJEL ALK
M/P
CONC PERC
4
0 0
U 1 O
N M
0
R N
0 0
U 1 N
N 0
D 0
1
R
0 0
U 2 0
N It
0
R N
0 O
U 2 N
N 0
0 0
M
R
0 0
U 3 0
N M
0
t N
1 0
U 3 N
N 0
0 0
H
R
0 A D
U L 0
N L M
0
R N
0 A 0
U L N
N L D
0 0
M
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STDV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STDV
N>
0/WP
MIN
MAX
MEAN
STDV
N>
O/hR
MIN
MAX
MEAN
STDV
N>
P/WR
5.1 86 37 6.6 6.1 18.1 0.029 0.007 0.329 3.059 0.890 26 2.0
19.3 97 93 8.2 6.2 23.8 0.060 0.017 0.031 0.119 0.949 137 5.0
12.2 92 65 7.4 6.1 20.9 0.044 0.011 0.029 0.089 0.919 82 3.5
10.34 7.8 39.6 1.13 0.07 4.03 0.0219 0.0070 0.3314 0.0424 0.0417 78.5 2.12
52/ 74 127/ 2 104/ 28 23/ 60 43/190 59/ 37 71/119 42/139 19/215 78/ 58 134/102 84/ 59 42/110
2/121 2/ 92 2/114 2/162 2/ 8 2/150 2/ 56 2/ 94 2/ 12 2/110 2/ 10 2/112 2/ 94
5.1 86 37 6.6 6.1 18.1 0.029 3.037 3.029 0.059 3.890 26 2.0
19.3 97 93 8.2 6.2 23.8 0.060 0.017 0.031 0.119 0.949 137 5.0
12.2 92 65 7.4 6.1 20.9 0.044 0.011 0.029 0.089 0.919 82 3.5
10.04 7.8 39.6 1.13 0.07 4.03 0.0219 0.0073 3.0014 3.0424 0.0417 78.5 2.12
160/221 41 9/ 12 367/ 81 46/209 130/580 210/312 216/343 205/291 25/699 184/203 438/275 265/138 95/415
2/360 2/214 2/288 2/486 2/22 2/218 2/186 2/245 2/18 2/355 2/29 2/339 2/232
0
0
0
o.o
0.0
3.3
o.c
0.00
3 3.3
0 0.0
0 0.0
0.0 0.00
-------
MNUSt
ro
CHLA
TURB SCCCHI
00
TEMP
PARtTAt DEPTH VALUES
TOTM.P ORTHOP N02N03 NH3
KJEL ALK
W/P
CONC PERC
R
0 0
U 1 C
N C
0
R N
0 0
U 1 N
N 0
D C
C
R
0 0
U 2 C
N C
0
R N
C C
U 2 N
N 0
0 C
C
R
0 0
U 3 C
1 C
D
0 0
U 3 N
N 5
D C
C
1
0 A 0
o L r
NIC
0
R N
1 A 0
U L N
* I 0-
0 C
C
MIN
MEAN
STDV
0/MR
HIM
MAX
MEAN
STOV
N>
0/HR
NIN
MAX
MEAN
STOV
N>
C/WP.
MIN
MAX
MEAN
STDV
N>
C/H»
MIN
MAX
MFAN
STrv
N>
0/HR
MIN
MAX
MEAN
STDV
N>
c/w»
MIN
•AX
fEAN
STDV
N>
0/MR
MIN
MAX
MEAN
STDV
N>
C/WR
0.3
355.6
21.0
*1.*0
9/ 0
2*7/2*7
5.8
5.8
5.8
0.00
37/206
I/ *
I.*
595.0
34.6
62.68
O/ 0
2*6/2*7
0. 8
2*1.*
23.2
34.27
3f 0
247/247
5.8
5. a
5.8
9.99
203/531
I/ 7
0.3
595.0
26.2
47.95
9/ 0
740/7*1
6 2
100 252
71 44
20.6 36.2
0/0 0/0
187/187 249/249
8* 60
8* 60
8* 60
0.0 0.0
138/ 91 175/ 60
1/8 1/6
* 1
121 222
72 *9
2*.0 35.9
0/0 0/0
236/237 2*0/241
100 185
74 50
23.1 35.0
9/0 0/0
221/221 246/246
84 . 61
84 60
84 60
0.0 0.0
379/2*6 549/166
I/ 29 I'/ 21
1 1
121 252
72 *8
22.7 35.7
J/ 9 3/ 3
6*4/6*5 735/736
5.3
10.6
7.9
0.73
O/ 0
249/249
5.2
5.2
5.2
0.90
1/245
I/ 1
4.1
10.6
7.8
O.B8
O/ 0
246/247
10.3
7.6
0.8*
9/ 9
2*5/2*5
5.2
5.2
5.2
0.00
2/738
i/ r
*.l
10.6
7.8
0.82
O/ 0
7*0/7*1
0.7
19.2
9.0
2.02
O/ 0
2*5/2*5
7.1
7.1
7.1
0.00
1*5/ 93
I/ 8
3.0
17.8
7.0
1.99
O/ 0
2*5/2*6
13.5
7.3
1.61
O/ 0
2*1/2*1
7.1
7.1
7.1
0.00
279/438
1/15
a. 7
19.2
7.8
2.07
o/ o
731/732
6.8
28.9
17.5
3.59
O/ O
2*8/2*8
22.9
22.9
22.9
0.00
11/233
I/ 2
17.3
32.2
26.6
2.3*
9/ 0
2*5/2*6
29.6
20.*
3.25
O/ 0
2*6/2*6
22.9
22.9
22.9
0.00
382/352
I/ 6
6.8
32.2
21.5
5.50
O/ 0
739/7*9
0.00* 0.001 0.02* 0.022 0.199
1.719 1.209 9*7*5 0.635 *.699
0.123 0.057 0.870 0.107 0.796
0.231* 0.16*2 l.*75* 0.0953 0.6975
0/0 0/0 O/ 0 0/00/0
2*9/2*9 2*9/2*9 2*9/2*9 2*9/2*9 2*9/2*9
0.015 O.003 0.069 0.109 0.500
0.015 0.003 0.069 0.109 0.500
0.015 0.003 0.068 0.108 0.500
0.0099 9.9000 0.0090 0.0000 0.0000
31/208 9/225 *2/202 1*5/ 99 56/18B
I/ a 1/13 1/3 1/3 1/3
0.00* 0.001 0.025 0.03* 0.215
2.559 1.191 6.857 0.719 7.1*9
0.135 0.053 0.*95 0.12O 1.220
0.2816 0.1482 0.8850 0.0860 1.0790
0/0 0/0 0/0 0/0 0/0
246/247 246/247 2*6/2*7 2*6/2*7 2*6/2*7
0.09* 9.091 0.917 0.020 0.199
*.5*9 2.909 4.469 3.02* 8.199
0.155 0.070 0.3*2 0.122 1.118
0.4091 0.2088 0.5477 0.2232 1.0572
0/0 0/0 9/0 0/0 0/0
2*6/2*6 2*5/2*5 2*6/2*6 2*6/2*6 2*6/2*6
0.915 9.993 0.069 0.109 0.500
0.015 9.003 0.069 0.109 0.500
0.015 0.003 0.968 9.198 0.500
0.0000 0.0000 0.0000 0.0000 0.0000
86/6*5 38/672 167/571 500/23* 227/506
I/ 11 1/31 I/ * 1/8' I/" 9
0.00* 0.001 0.017 0.020 0.199
*.5*9 2.009 9.7*5 3.02* 8.199
0.137 0.060 0.770 0.116 1.0*4
0.3159 0.175* 1.0666 0.1*88 0.975*
0/0 O/ » O/ 0 0/0 . 0/ 0
7*1/7*2 7*9/7*1 7*1/7*2 7*1/7*2 7*1/7*2
10
2*8
70
67.3
O/ 9
2*9/2*9
10
10
1O
0.0
0/229
I/ 18
1O
33*
7*
68.9
O/ 9
2*6/2*7
• *
1 V
291
73
64.1
O/ 0
2*6/246
1O
10
10
o.o
0/668
»/ ?*
10
33*
72
66.7
O/ 0
7*1/7*2
0.0
142.0
18.6
25.14
O/ 0
249/249
11.0
11.0
11.0
0.00
171/ 68
I/ 8
0.0
210.0
14.1
23.81
O/ 0
246/247
0. 0
90.0
9.6
14.87
O/ 0
2*6/2*6
11.0
11.0
11.0
0.00
500/221
I/ 21
0.0
210.0
l*.l
22.05
O/ 0
7*1/7*2
0
0
0
0.0
0
0
0
0.0
0
0
0
0.0
0
0
0.0
0
0
0
Or n
0
0
0
0.0
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
OA
• u
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.90
-------
CCNUSiROMEMA
ro
CW.A
TURB SECCHI
00
TEMP
PARTIAL DEPTH VALUES
TOTAL? ORTHOP N02N03
NH3
KJEL ILK
N/P
CONC PERC
R
0 0
U 1 O
N N
o •
R N
0 O
0 I H
M 0
0 0
«
R
0 0
O 2 0
N m
0
R N
0 0
U 2 N
N 9
0 0
M
R
C 0
U 3 0
N N
O
R N
C 0
U 3 N
* 0
0 0
M
0 A 0
U L C
N L M
0
• N
0 A 0
U L N
N L 0
0 0
M •
MI*
MAX
WEAN
STOV
N>
0/MR
HIM
HAX
•CAM
STOV
M>
O/MR
•UN
PAX
MEAN
STCV
N>
0/HR
MIN 5.8 84 60 5.2 7.1 22.9 0.015 0.003 0.069 0.109 0.500 10 11.0
MAX 5.8 84 60 5.2 T.I 22.9 0.015 0.003 O.O69 O.109 0.500 10 11.0
MEAN 5.8 84 60 5.2 7.1 22.9 0.015 0.003 0.068 0.108 0.500 10 11.0
STOV 0.00 0.0 0.0 0.00 0.90 0.00 0.0000 0.0330 3.0300 0. OOOO O.OOOO 0.0 O.OO
K> 37/206 138/ 91 175/ 60 1/245 14 5/ 93 11/233 31/238 9/225 42/202 145/ 99 56/188 0/229 171/ 68
0/HR 1/4 1/8 1/6 I/ 1 1/8 1/2 1/8 I/ 13 1/3 1/3 1/3 I/ 18 I/ 8
MIN
MAX
MEAN
STOV
K>
O/MR
MIN
MAX
MFAN
STOV
N>
0/UR
•AX
•4EA4I
STOV
0%R
PIN 5.8 84 60 5.2 7.1 22.9 0.015 0.003 0.069 0.109 0.500 10 11.0
MAX 5.8 84 69 5.2 7.1 22.9 0.315 3.333 3.369 0.109 0.500 10 11.0
MEAN 5.8 84 60 5.2 7.1 22.9 0.015 0.033 0.968 0.108 0.530 10 11.0
$TOV 0.00 0.0 0.0 0.00 0.00 0.00 0.0000 0.0000 0.0000 0.0000 0.0900 3.0 0.39
N> 2)3/531 379/246 549/166 2/738 279/438 382/352 86/645 38/672 167/571 500/234 227/506 0/668 500/221
0/M I/ 7 I/ 23 I/ 21 I/ 1 I/ 15 I/ 6 I/ 11 I/ 31 1/4 1/8 1/9 I/ 74 I/ 21
0 0.0
3 0.0
0 0.0
0.0 0.00
0 0.0
0 0.0
0 0.0
3.0 3.09
-------
GCNUSS ROY*
ro
ro
CHIA
TURB SSCCHI
PH
00
PARTIAL DEPTH VALUES
TOTALP ORTHOP N02N03 NH3
KJEL ALK
N/P
CONC PERC
R
o n
U 1 C
N C
D
R N
0 0
U 1 N
N 0
0 C
C
R
0 0
U 2 C
N C
0
* N
0 . 0
II' 2 N
N 0
P C
C
». •
<• 0
use
N c
0
R N
0 O
U.J N
N 0
0 C
C
*
PAP
U I C
* I C
o
R N
«AD
0 L N
N I 0
0 C
r
HtH
MAX
HEAM
STOV
N>
0/HR
NIN
MAX
MEAN
STOV
N>
0/HR
HIM
MAX
MEAN
STOV
N>
0/HR
HIM
MAX
MEAN
STOV
N>
0/WR
HIN
•AX
MEAN
STDV
M>
0/WR
KIN
MAX
MEAN
STOV
N>
0/HR
HIN
MAX
MEAN
STOV
H>
P/HR
MIN
MAX
MEAN
STOV
*>
C/HR
6.6 96 172 7.2 ».7
6.6 96 172 7.2 8.7
6.6 96 17 Z 7.2 8.7
0.00 0.0 0.0 0.00 0.00
108/139 178/ 4 246/ 2 37/204 92/149
I/ * 1/5 1/1 1/8 1/4
0.3 6 2 9.3 0.7
355.6 100 252 10.6 19.2
21.0 70 43 7.9 9.0
41.47 20.6 35.3 0.73 2.02
0/0 0/0 0/0 0/0 0/0
246/247 186/187 248/249 248/249 244/245
2.4 95 116 6.3 6.4
2.4 95 116 6.3 6.4
2.4 95 116 6.3 6.4
0.00 0.0 0.0 0.00 0.00
6/240 218/ 10 225/ 12 11/232 86/150
1/1 1/9 1/4 1/4 I/ 10
1.4 4 1 4.1 3.0
595.0 121 222 10.6 17.6
34.6 72 49 7.8 7.0
62.68 24.0 35.6 0.89 1.98
0/0 0/0 0/0 0/0 0/0
246/247 236/237 240/241 246/247 245/246
0.8 1 6 4.7 1.6
241.4 100 185 10.3 13.5
23.2 74 50 7.6 7.3
34.27 23.1 35.0 3.84 1.61
3/0 0/0 0/0 3/3 0/3
247/247 221/221 246/246 245/245 241/241
2.4 95 116 6.3 6.4
6.6 96 172 7.2 8.7
4.5 96 144 6.7 7.5
2.97 0.7 39.6 0.64 1.63
*2/498 593/ 18 6B8/ 6 22/549 161/211
2/201 2/ 34 2/ 42 2/170 2/360
0.3 1 1 *.l 3.7
595.0 121 252 10.6 19.2
26.3 72 47 7.8 7.8
47.98 22.7 35.4 0.83 2.07
0/0 0/0 0/0 0/0 0/0
739/741 643/645 734/736 739/741 730/732
25.3
25.3
25.3
0.00
214/ 33
If 1
6.8
28.9
17.5
5.58
O/ 0
247/248
25.9
25.9
2S.9
5.00
98/142
I/ 6
17.3
32.2
26.6
2i35
O/ 0
245/246
9.3
29.6
20.4
3.25
O/ 0
246/246
25.3
25.9
25.6
0.42
520/181
2/ 39
6.8
32.2
21.5
5.50
O/ 0
738/740
0.010
0.010
0.309
0.0000
12/233
I/ 4
0.004
1.719
0.123
0.2318
O/ 0
248/249
0.007
O.OO7
0.007
0.0000
4/241
If 2
0.034
2.559
0.135
0.2816
O/ 0
246/247
0.334
4.549
0.155
0.4091
O/ 0
246/246
0.037
0.119
0.008
0.0021
14/691
2/ 37
0.004
4.549
0.138
0.3161
O/ 0
740/742
0.001
0.001
0.000
0.0000
0/239
It 10
0.001
1.2O9
0.057
0.1645
O/ 0
248/249
O.OO3
0,003
0.003
o.oooo
9/225
I/ 13
3.391
1.191
0.053
0.1482
O/ 0
246/247
0.031
2.009
0.070
0.2088
O/ 0
245/245
0.001
0.003
0.001
0.0014
0/672
2/ 69
0.001
2.009
0.060
0.1755
Of 0
739/741
0.060
0.060
0.060
0.0000
17/229
I/ 3
0.024
9.745
0.873
1.477$
O/ 0
248/249
0.061
0.061
0.060
0.0000
37/208
I/ 2
0.325
6.857
O.495
0.8853
O/ 0
246/247
0.017
4.469
0.342
0.5477
O/ 0
246/246
0.360
0.361
0.060
0.0007
136/596
2/ 10
0.017
9.745
0.571
1.0671
O/ 0
740/742
0.064 0.335
0.064 0.335
0.063 0.335
0.0000 0.0000
85/161 42/206
1/3 1/1
0.022 0.199
0.635 4.699
0.107 0.798
0.0955 9.6983
0/0 0/0
248/249 248/249
0.036 0.332
0.036 0.332
0.035 0.332
0.0000 0.0000
1/244 12/231
1/2 1/4
0.034 0.215
0.719 7.149
0.120 1.220
0.0878 1.0785
0/0 0/0
246/247 246/247
0.020 0.199
3. 024 8. 199
0.122 1.118
0.2232 1.0572
0/0 0/0
246/246 246/246
0.036 0.332
0.364 0.335
0.049 0.333
0.0197 0.0020
27/500 83/649
2/215 Z/ 10
0.020 0.199
3.024 8.199
0.116 1.045
0.1489 0.9755
0/0 0/0
740/7*2 740/742
10
10
10
0.0
0/214
I/ 35
10
248
70
67.4
Of 3
248/249
11
11
11
0.0
18/220
If 9
10
334
74
68.9
01 0
246/247
10
291
73
64.1
O/ 0
246/246
10
11
11
0.7
. 0/649
2/ 93
10
334
72
66.7
O/ 0
740/742
11.0
11.0
11.0
0.00
142/103
I/ 4
0.0
142.0
18.6
25.18
O/ 0
248/249
13. fl"
13.0
13.0
0.00
181/ 62
I/ 4
3.0
210.0
14.1
23.81
O/ 0
246/247
3.0
90.0
9.6
14.87
Of 0
246/246
11.0
13.0
12.0
1.41
500/198
2/ 44
0.0
.210.0
14.1
22.07
. O/ 0
740/742
70
70
70
0.0
0
0
0
0.0
231
231
231
0.0
0
0
0
0.0
0
3
0
0.0
70
231
151
113.8
0
0
3
0.0
6.5
6.5
6.5
0.00
0.0
0.0
0.0
0.00
34.6
34.6
34.6
0.00
0.0
0.0
0.0
0.00
o.o
0.0
0.9
0.00
6.5
34.6
20.5
19.92
0.0
O.O
0.0
0.30
-------
CENUS'ROVA
ro
CO
CHLA
Time SECCHI
00
PARTIAL DEPTH VALUES
TEMP TOTALP ORTHOP NO2N03
NH3
KJCL ALK
N/P
CONC PERC
ft MM
0 0 MAX
U 1 0 MEAN
N N STOV
O M>
R N MIN
C O MAX
U 1 N MEAN
N O STOV
D 0 N>
<4 O/MR
R MIN
O C MAX
U 2 0 MEAN
N N .STOV
0 N>
O/HR
R N NIN
C 0 MAX
U 2 N PEAN
1 0 STOV
0 0 N>
M C/NR
• MIN
C 0 NAX
o 3 c MEAN
N <• STOV
0 N>
0/UR
f N PIN
0 0 MAX
U 3 N «•«*
M O/HR
R MIN
0 A 0 NAX
U L 0 KEA1
N L M STOV
0 N>
0/W»
R M MIN
C A C MAX
U L N *E«N
N L 0 STOV
0 0 N>
M 0/ttA
6.6
6.6
6.6
0.00
108/133
I/ 4
2.4
2.4
2.4
0.00
6/240
If 1
2.4
2.4
2.4
0.00
42/695
I/ 4
6.6
6.6
6.6
0.00
237/498
I/ 6
96
96
96
0.0
178/ 4
I/ 5
93
95
95
0.0
218/ 10
I/ 9
95
95
95
0.0
593/ 35
I/ 17
96
96
96
0.0
610/ 18
If 17
172
172
172
0.0
246/ 2
I/ 1
116
116
116
0.0
22S/ 12
I/ 4
116
116
116
0.0
688/ 44
I/ 4
172
172
172
0.0
72 9/ 6
If 1
7.2
7.2
7.2
0.00
37/204
I/ 8
6.3
6.3
6.3
0.00
11/232
I/ *
6.3
6.3
t.3
0.00
22/711
I/ 8
7.2
7.2
7.2
0.00
171/549
I/ 21
8.7
8.7
8.7
0.00
92/149
I/ 4
6.4
6.4
6.4
0.03
86/150
I/ 10
6.4
6.4
6.4
0.00
161/552
It 19
8.7
8.7
8.7
0.00
514/211
If 7
25.3
23.3
25.3
0.09
214/ 33
If 1
25.9
25.9
25.9
3.00
98/142
If 6
25.9
25.9
25.9
0.00
552/181
If 7
25.3
25.3
25.3
0.00
520/217
If 3
0.010
0.010
O.O09
0.0000
12/233
I/ 4
0.037
0.007
0.007
0.0030
4/241
I/ 2
0.007
3.0)7
0.037
0.0000
14/723
I/ 5
0.010
0.310
0.009
0.0000
37/691
It 14
0.031
0.001
0.000
0.0000
0/239
If 10
0.003
0.003
0.003
0.0000
9/225
If 13
0.003
3.333
0.003
0.0000
38/672
If 31
0.001
0.001
3.330
0.0000
0/727
I/ 14
0.060
0.060
0.060
0.3300
17/229
If 3
0.061
0.061
0.060
0.0000
37/208
If 2
0.061
0.061
0.060
0.0000
143/596
It 3
0.060
0.360
0.060
0.0000
136/599
I/ 7
0.064
0.064
0.063
0.0000
85/161
If 3
0.036
0.036
0.035
0.0000
1/244
If 2
0.036
0.036
0.035
0.0000
27/712
If 3
0.064
0.064
3.063
0.0000
228/500
If 14
0.335
0.335
0.335
o.oooo
42/206
I/ 1
0.332
0.332
0.332
0.0000
12/231
I/ 4
0.332
0.332
0.332
0.0000
83/651
It 8
0.335
0.335
0.335
0.0000
92/649
If 1
10
10
10
0.0
0/214
I/ 35
11
11
11
0.0
18/220
I/ 9
11
11
11
3.3
74/649
I/ 19
10
10
13
0.0
C/668
I/ 74
11.0
11.0
11.0
0.00
142/103
I/ 4
13.0
13.0
13.0
0.00
181/ 62
If 4
13.0
13.0
13.0
0.00
530/198
If 14
11.0
11.0
11.0
0.00
500/221
If 21
70
70
70
0.0
231
231
231
0.0
231
231
231
3.3
70
70
73
3.3
t.5
6.5
6.5
O.OO
34.6
34.6
34.6
0.00
34.6
34.6
34.6
0.33
t.5
6.5
6.5
3.33
-------
ro
CCNUSt
«
0 0
U 1 C
1 C
D
ft N
0 0
U 1 N
N 0
0 C
C
»
0 0
U 2 C
N C
D
• N
P 0
U 2 N
N 0
C C
C
II
0 O
U 3 C
N C
0
R N
C O
U 3 N
X f>
0 C
C
•
0 » n
U L C
N L C
0
It N
f » 0
U L N
N L 0
0 C
C
SCENEOESHUS
HIM
MAX
MEAN
STOV
M>
o/uft
HIN
WAX
MEAN
STOV
*>
0/MR
MIN
HAX
MEAN
STOV
M>
0/HK
HIN
HAX
MEAN
STOV
N>
0/MR
HIN
MAX
HEAN
STOV
N>
0/M*
RIN
MAX
MEAN
STOV
N>
0/MR
MIN
MAX
MEAN
STOV
N>
0/MR
MIK
MAX
MEAN
STOV
N>
0/HR
CHLA
1.5
7*7, 1
21.7
33.9*
V 2
136/237
0.3
3SS.6
20.1
49.17
Of 0
111/247
US
595.0
39.4
67.87
I/ 0
203/246
1.4
56. 2
11.4
10.50
O/ 42
44/235
0.8
241.4
25.3
36.15
O/ 3
214/247
1.5
50.6
9.5
10.24
7/ 32
33/208
0.8
595.9
29.6
50.29
6/ 0
553/735
0.3
355.6
U.2
38.57
O/ 2
188/739
Time
6
100
70
20.6
O/ 0
119/187
13
100
71
20.8
2/ 0
78/185
4
107
70
23.6
O/ 1
193/236
9
121
80
24.2
4/ 0
44/233
1
99
73
22.7
Of 1
144/220
3
100
79
25.5
I/ 0
27/220
1
107
72
22.6
O/ 1
496/644
3
121
75
23.0
I/ 0
149/644
PARTIAL DEPTH VALUES
SeCCNt PH OO TEMP TOTALP GRTHOP
5 6.2 3.8 7.2 0.006 0.001
252 10.1 15.5 28.9 1.184 1.032
41 8.0 8.9 18.4 0.138 0.048
34.2 0.69 1.82 5.59 0.1707 0.1359
2/0 2/1 4/1 1/0 3/4 0/3
136/247 136/246 135/240 136/247 136/242 136/246
2 5.3 0.7 6.8 0.004 0.001
185 10.6 19.2 27.4 1.719 1.209
47 7.8 9.1 16.4 0.141 0.068
38.3 0.75 2.24 5.43 0.2879 0.1931
0/1 0/0 O/ 0 O/ 8 0/0 0/0
113/248 113/249 110/245 112/240 113/249 113/249
6 5.2 3.1 20.6 0.004 0.001
184 10.6 17.8 32.2 1.599 1.191
44 7.9 7.1 26.8 0.138 0.060
28.6 0.85 2.35 2.22 0.2507 0.1596
1/2 I/O 1/0 2/0 0/1 3/0
197/238 203/246 202/245 202/244 203/246 203/247
1 4.1 3.0 17.3 0.004 0.001
222 8.9 11.7 29.8 2.559 0.433
72 7.3 6.7 25.7 0.119 3.023
52.7 0.96 1.63 2.72 O.39S7 O.0656
O/ 0 O/ 16 O/ 6 O/ 11 0/0 3/8
44/241 44/231 44/240 44/235 44/247 44/239
6 4.7 1.6 9.0 0.004 3.001
159 10.3 13.5 29.6 3.084 2.009
46 7.6 7.4 20.7 0.151 0.077
30.5 0.84 1.66 3.31 0.3162 O.Z226
Of I 0/0 0/3 0/0 0/1 0/0
214/244 212/245 208/2*1 213/246 213/245 213/245
10 5.6 3.5 14.9 0.005 0.033
185 8.6 8.8 24.5 4.549 3.199
83 7.4 7.1 18.9 0.180 O.O24
45.0 O.81 1.20 2.35 0.7863 0.0406
3/ 0 1/19 3/ 30 6/ 25 If J 2f 16
32/243 33/225 33/218 33/215 33/245 32/227
5 4.7 1.6 7.2 0.004 0.001
252 10.6 17.8 32.2 3.084 2.009
44 7.8 7.6 22.3 0.135 0.063
30.8 0.82 2.00 5.09 0.2625 0.1818
3/0 1/0 1/1 I/O 0/1 0/0
547/733 551/740 545/733 5S1/T39 552/741 552/741
1 4.1 0.7 6.8 0.004 0.001
222 10.6 19.2 29.8 4.549 1.209
59 7.6 6.2 19.0 0.142 0.050
45.5 0.84 2.24 5.88 0.4357 0.1547
0/1 0/0 0/0 Of 11 Of 0 Of 2
189/735 190/741 187/732 189/729 190/742 189/739
NOZN03
0.034
7.557
0.769
1.3679
2/ 2
136/245
0.024
9.745
0.991
1.5929
O/ 0
113/249
0.027
4.295
0.458
0.7734
If 1
203/245
0.025
6.857
0.658
1.2740
Of 0
44/247
0.019
4.469
0.319
0.5254
If 0
213/245
0.017
2.569
0.490
0.6646
Of 2
33/244
0.019
7.557
0.481
0.9027
I/ 2
552/739
0.017
9.74S
0.827
1.4108
Of 0
190/742
NH3
0.022
0.554
0.106
0.0914
Of 1
136/248
0.024
0.635
0.108
0.1002
If 0
113/248
0.034
0.719
0.117
0.0776
Of 0
203/247
0.036
0.565
0.129
0.1252
If 1
44/245
0.020
3.024
0.122
0.2366
Of 0
213/2*6
0.0*0
0.532
0.126
0.1017
I*/ 6
33/226
0.020
3.024
0.116
0.1607
Of 0
552/742
0.024
0.635
0.116
0.1066
2/ 5
190/735
KJEL
0.225
3.199
0.825
0.6323
4/ 3
136/242
0.199
4.699
0.760
0.7701
O/ 0
113/249
0.215
7.149
1.285
1.1353
Of 0
203/247
0.299
3.699
0.900
0.6825
6/ 8
44/233
0.210
8.199
1.163
1.0790
2/ 0
213/244
0.199
5.099
0.830
0.8635
Of 3
33/243
0.210
8.199
1.125
1.0250
Sf 0
552/737
0.199
5.099
0.805
3.7662
Of 1
190/735
ALK
10
248
72
62.6
Of 0
136/249
10
240
67
72.9
Of 1
113/248
10
334
74
65.2
Of 0
203/247
10
277
72
84.7
Of 4
44/243
10
261
72
60.5
Of 2
213/244
10
291
79
84.5
Of 0
33/246
10
334
73
62.6
O/ O
552/742
10
291
73
77.5
O/ 2
190/740
N/P
0.0
112.0
14.8
18.94
O/ 4
136/245
0.0
142.0
23.3
30.45
Of 0
113/249
0.0
130.0
12.0
18.27
Of 1
203/246
0.0
210.0
23.8
39.31
Of 0
44/247
0.0
71.0
7.9
11.51
Of 3
213/243
0.0
90.0
20.9
25.78
Of 0
33/246
0.0
130.0
11.1
16.40
Of 4
552/738
0.0
210.0
23.0
31.85
Of 0
190/742
CONC
0
20175
535
1959.4
0
0
0
0.0
0
35998
1060
3990. 8
0
0
0
0.0
0
35612
978
3490.3
0
0
0
0.0
0
35998
899
3393.0
0
0
0
O.I
PERC
o.o
53.9
3.1
6.76
0.0
0.0
0.0
O.JO
0.0
41.4
3.7
5.94
0.0
0.0
0.0
0.00
0.0
58.3
4.2
6.36
0.0
0.0
0.3
0.03
0.0
58.3
3.7
6.31
0.0
0.0
0.0
0.00
-------
CENUSfSCENfOfSWS
PARTIAL DEPTH VALUES
CHLA
TURB SKCHI
PH
00
TEMP TOTALP ORTHQP N02N03
NH3
KJEL ALK
N/P
CONC PERC
ro
* IIN
C 0 MAX
U 1 0 MEAN
N M STOV
D IK/>
0/MR
• H HTM
W n fIX If
0 0 MX
U 1 N Mf AN
N 0 STDV
D 0 N>
M 0/MR
R MIN
O D MAX
U 2 0 MEAN
N 1 STDV
0 *>
0/MR
R N MIN
0 0 MAX
U 2 N MEAN
N D STCV
0 1 N>
N 0/MR
R MIN
O 0 MAX
U 3 0 MEAN
N M STDV
D N>
C/MR
R N MIN
•} 0 "AX
u 3 N MEAN
N 0 S'OV
0 0 N>
M O/WH
R «1M
o A o MAX
U L 0 MEAN
1 L M STDV
P N>
0/MR
o H MIN
OAT MAX
U L N MEAN
N L D STDV
0 0 N>
4.9
130.1
32.2
27.28
73/ 10
12/164
1 5
2*7! i
2O.6
34.44
8/ 2
124/237
4.0
595.0
104.2
169.07
227 0
IT/225
1.5
312.0
33.5
46.22
I/ 2
186/244
0.8
237.0
41.0
58.41
J/ i
21/246
0.8
241.4
23.6
32.62
3/ 0
193/247
0.8
595.0
60.4
139.16
6/ 0
50/735
0.8
312.0
26.5
38.92
67 3
43
91
74
17.1
217 21
9/145
A
100
70
20.9
O/ 0
130/187
7
103
62
28.2
3/ 2
16/232
4
107
71
23.1
O/ 1
177/236
19
91
68
24.4
97 42
19/170
1
99
74
22.5
O/ 1
175/220
7
103
67
24.5
7/ 2
44/636
1
107
72
22.4
O/ 1
16 7.2
SO 9.6
30 8.4
11.0 0.64
337 66 377 5
12/148 12/207
252 10. 1
42 7.9
35.5 0.69
2/0 2/1
124/247 124/246
9 6.6
84 10.6
32 8.4
20.2 1.15
77 33 197 0
16/201 17/228
6 5.2
184 9.7
45 7.8
29.0 0.80
1/2 1/3
1817238 186/243
17 6.4
159 10.3
47 7.8
39.2 1.15
237 2 127 0
217221 21/233
6 4.7
157 9.4
45 7.6
29.5 0.80
0/3 0/3
193/243 191/242
9 6.4
159 10.6
38 8.1
29.3 1.08
217 13 307 0
497705 50/711
5 4.7
252 10.1
44 7.8
33.9 0.78
3/ 0 I/ 5
6.4
11.1
8.4
1.50
217 24
11/200
15.5
9.3
1.85
4/ 1
124/240
4.8
16.3
7.8
3.15
197 1
16/226
3.1
17.8
7.0
1.92
17 0
1867245
4.0
11.4
7.3
1.80
5/ 2
237234
1.6
13.5
7.4
1.65
O/ 3
188/241
4.0
16.0
7.8
2.29
197 2
47/711
1.6
17.8
7.6
1.97
I/ 1
15.4 0.028
28.0 0.701
21.6 0.244
4.27 0.2251
1197 3 607 9
127126 12/180
28.9 1.184
18.1 0.395
5.62 0.1596
1/0 3/4
124/247 124/242
23.7 0.018
30.2 1.599
27.6 0.428
1.84 0.5239
187 4 447 1
17/224 17/202
20.6 0.004
32.2 1.259
26.7 0.111
2.25 0.1909
2/0 0/3
185/244 186/244
13.9 0.004
27.0 1.609
20.9 0.351
3.51 0.4869
4/5 0/2
21/237 21/244
9.3 0.036
29.6 3.084
20.6 0.129
3.29 0.2850
0/3 27 1
192/246 1927243
13.9 0.004
33.2 1.639
23.3 0.351
4.45 0.4502
867 4 37 4
507648 507738
7.2 3.334
32.2 3.084
22.2 0.114
5.14 0.2255
1/0 0/1
0.002
0.616
0.124
0.1888
107 5
12/234
Onni
• uu*
1.032
0.041
0.1283
O/ 3
1247246
0.002
0.949
0.213
0.2899
37 2
177242
0.001
1.191
0.046
0.1349
O/ 0
186/247
0.001
1.189
0.218
0.3556
O/ 2
21/243
0.332
2.039
0.061
0.1983
I/ 0
192/244
0.331
1.189
0.194
0.2977
3/ 4
50/737
0.031
2.039
0.050
3.1607
O/ 0
0.038 0.037
7.244 0.554
0.752 0.116
2.0518 0.1399
4/ 4 17/ 1
12/241 12/231
0/MA A O99
*UJ^ U*v££
7.557 0.539
0.773 0.105
1.2951 0.0861
2/2 0/2
124/245 124/247
0.074 0.054
2.099 0.297
0.323 0.137
0.4806 0.0701
SO/ 14 287 10
177183 17/209
0.027 0.034
4.295 0.719
0.470 0.116
0.7946 O.O782
1/1 0/0
1867245 186/247
0.034 0.042
4.469 0.244
0.505 0.101
0.9828 0.0646
357 0 207 16
21/211 21/210
3.019 0.020
2.688 3.024
0.298 3.124
0.4484 0.2483
17 1 0/0
1927244 IS2/246
0.334 0.337
7.244 3.554
0.502 0.117
1.2005 0.0892
487 4 30/ 9
50/690 53/703
0.319 3.320
7.557 3.324
0.479 0.116
0.8690 0.1662
1/2 0/0
0.479
3.000
1.380
0.8110
10 1/ 4
12/144
0994
.229
3.199
0.772
0.5892
4/ 3
124/242
0.336
7.149
2.315
2.2264
167 0
17/231
0.215
6.250
1.191
0.9340
O/ 2
186/245
O.268
4.399
1.685
1.5245
137 4
217229
0.210
8.199
1.136
1.0078
2/ 0
192/244
0.268
7.149
1.826
1.6897
33/ 1
50/708
3.213
8.199
1.055
0.9068
5/ 0
17
212
96
57.8
73/ 8
12/168
i n
1O
248
70
62.7
O/ 0
1247249
15
174
58
41.8
397 22
17/186
10
334
75
66.8
O/ 0
186/247
10
148
52
40.0
07 36
217210
10
261
74
62.3
C7 2
192/244
13
212
64
48.0
O/ 33
50/709
10
334
73
63.9
07 0
0.0
60.0
8.3
17.05
07 18
127231
Of)
# v
112.0
15.4
19.06
07 4
1247245
0.0
54.0
6.6
12.93
07 15
177232
0.0
130.0
12.5
18.64
07 1
1867246
0.0
62.0
10.2
16.64
07 5
21/241
0.0
71.0
7.6
10.83
O/ 3
192/243
0.0
62.3
8.5
15.34
07 33
53/739
3.0
130.0
11.3
16.49
O/ 4
160 13.3
20175 53.9
3822 20.9
5382.4 12.18
On n
U. U
5640 8.1
217 1.4
682.9 1.75
71 13.2
35998 41,4
8168 19.5
11515.1 S.78
0 0.0
6674 9.2
413 2.2
924.2 2.23
9 10.7
35612 58.3
5557 19.0
9641.8 13.71
0 0.0
9145 9.8
483 2.5
1134.7 2.51
9 10.2
35998 58.3
6029 19.6
9519.5 10.58
0 0.0
9145 0.8
389 2.1
965.5 2.28
0/HR 503/732 452/644 498/733 501/735 4987730 501/739 502/741 502/741 502/739 502/742 5O2/737 532/742 502/738
-------
GENUS: SCH1ZOCHLAMVS
PARTIAL DEPTH VALUES
CHIA
TUfiB SECCHI
PH
00
TEMP TOTALP ORTHOP N02N03
NH3
KJEL ALK
M/P
CONC PERC
rv>
en
R
C 0
U 1 C
N C
0
R N
O 0
U 1 H
N 0
0 C
C
R
0 0
u z c
N C
0
« H
C 0
U 2 N
N 0
D C
C
»
0 0
U 3 C
N C
D
» H
0 0
U 3 N
N 0
D C
C
R
r » 3
U L C
N L C
D
• «
0 A 0
U 1 N
ML O
0 C
C
HIM
MAX
MEAN
STOV
N>
0/MR
KIN
MAX
MEAN
STOV
N>
0/MR
HIM
MAX
MEAN
STOV
N>
0/VR
MIN
MAX
MEAN
STOV
N>
0/UR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STDV
N>
C/M»
MtN
MAX
MEAN
STTV
N>
0/MR
MIN
MAX
MEAN
STPV
N>
C/HR
0.3 A 2 5.3 0.7
399.6 100 252 10.6 19.2
21.0 71 44 7.9 9.0
41.40 20.6 36.2 O.T3 2.02
0/0 0/0 0/0 0/0 0/0
2*7/2*7 187/187 2*9/2*9 249/249 245/249
10.3 83 61 8.7 9.8
10.3 83 61 8.7 9.8
IO.3 83 61 8.7 9.8
0.00 0.0 0.0 0.00 0.00
103/142 128/ 99 181/ 58 219/ 22 23 O/ 14
I/ 2 If 10 1/2 1/6 1/2
1.4 4 1 4.1 3.0
595.0 121 222 10.6 17.8
34.5 72 49 7.8 7.9
62.69 24.0 35.9 0.89 1.98
0/3 0/0 0/0 O/ O 0/0
246/247 236/237 240/241 246/247 245/246
0.8 1 6 4.7 1.6
2*1.4 190 185 19.3 13.5
23.2 74 SO 7.6 7.3
3*.27 23.1 35.0 0.84 1.61
0/0 0/0 0/0 0/0 Of 0
247/247 221/221 246/246 245/245 2*1/2*1
10.3 83 61 8.7 9.8
10.3 83 61 8.7 9.8
10.3 83 61 8.7 9.8
0.00 0.0 0.9 0.00 0.03
366/370 356/266 570/163 66 $/ 58 630/97
I/ 5 I/ 23 If 3 I/ 15 I/ 5
0.3 1 1 *«1 0.7
599.0 121 252 10.6 19.2
26.2 72 48 7.8 7.8
47.95 22.7 35.7 0.83 2.37
0/0 0/0 0/0 0/0 0/0
740/741 644/645 735/736 740/741 731/732
6.8
28.9
17.5
5.59
O/ 0
248/248
25.8
25.8
25.8
0.00
96/148
I/ 2
17.3
32.2
26.6
2.35
O/ 0
245/246
9.0
29.6
20.4
3.25
O/ 0
2*6/2*6
25.8
25.8
25.8
0.00
5*9/188
I/ 3
6.8
32.2
21.5
5.49
O/ 0
739/740
0.004 0.001
1.719 1.209
0.123 0.057
0.2314 0.1642
0/0 0/0
249/249 249/249
0.051 0.011
0.091 0.011
0.050 0.011
0.0000 0.0000
127/116 120/120
1/4 1/7
0.004 0.001
2.559 1.191
0.135 0.053
0.2817 0.1482
0/0 0/0
246/247 246/247
0.004 0.001
4.549 2.009
0.155 0.070
0.4991 0.2088
0/0 0/0
2*6/2*6 2*5/2*5
0.051 0.011
0.051 0.011
9.05} 0.011
0.0000 0.0000
350/388 325/390
If 4 I/ 26
0.034 a. 031
4.549 2.009
0.137 0.060
0.3159 3.1754
0/0 0/0
741/742 740/741
0.024
9.745
0.870
1.4754
O/ 0
249/249
0.604
0.60*
0.603
0.0000
197/ 49
I/ 1
0.025
6.857
0.493
0.8854
O/ 0
246/247
O.O17
4.469
3.342
9.5477
O/ 0
2*6/2*6
0.604
0.60*
0.603
0.0000
568/173
It 1
0.317
9.745
0.569
1.0667
0/0
741/742
0.022
0.635
0.107
0.0953
O/ 0
249/249
0.105
0.105
0.104
0.0000
140/106
I/ 1
0.034
0.719
0.120
0.0880
O/ 0
246/247
0.020
3.024
0.122
9.2232
O/ 0
2*6/2*6
0.105
0.105
0.104
0.0000
489/252
I/ 1
0.020
3.024
0.116
9.1488
O/ O
7*1/7*2
0.199
4.699
0.796
0.6975
O/ 0
249/249
0.843
0.843
9.843
0.0000
116/129
I/ 2
0.215
7.149
1.218
1.0797
O/ 0
246/247
0.199
8.199
1.118
1.0572
O/ O
246/246
9.843
0.843
0.843
3.0000
422/318
\r 2
1.199
8.199
1.043
0.9756
O/ 0
741/742
10
248
70
67.3
O/ 0
249/249
95
95
95
0.0
179/ 67
I/ 1
10
334
73
69.0
O/ 0
246/247
10
291
73
64.1
O/ 0
2*6/246
95
95
95
0.0
533/206
I/ 3
13
336
72
66.8
O/ 9
741/742
0.0
142.0
18.6
25.14
O/ 0
249/249
14.0
14.0
14.0
0.00
185/ 55
I/ 7
0.0
210.0
14.1
23.81
Of 0
246/247
0.0
90.0
9.6
14.87
Of 0
2*6/2*6
14.0
14.0
14.0
0.30
544/180
If 18
9.0
210.0
14.1
22.05
Of 0
741/742
0
0
0
0.0
254
254
25*
0.0
0
0
0
0.9
0
0
0
0.0
254
25*
254
0.0
9
0
0
0.0
0.0
0.0
0.0
0.00
2.8
2.8
2.8
o.-oo
0.0
0.0
0.0
0.30
3.0
0.0
0.0
0.90
2.8
2.8
2.8
0.00
0.9
0.0
0.0
0.00
-------
CfNUSJSCmZOCHLAMVS PARTIAL DEPTH VALUES
CHU TUM SECCHI PH 00 TEW TOT ALP OUT HOP N02N03 NH3 KJEL ALK N/P CONC PEPC
ro
ft
I) 0
U 1 O
N M
0
ft N
0 O
U 1 N
N 0
0 0
N
R
0 0
0 2 0
N M
D
R N
0 0
U 2 N
N 0
0 0
M
*
0 0
O 3 0
N M
0
* N
C 0
U 3 N
N 0
0 0
M
R
0 A 0
U L 0
N L M
0
4 N
0 A 0
U L N
N L 0
D 0
M
KIN
"AX
MEAN
STDV
H>
0/MR
HIM
MAX
MEAN
STOV
H
0/HR
MIH
MAX
MEAN
STDV
N>
0/UR
MIN 10.3 83 61 8.7 9.8 25.8 0.051 O.O11 0.604 0.105 0.843 95 14.0
MAX 10.3 83 61 8.7 9.8 25.8 0.051 0.011 '0.604 0.105 0.843 95 14.0
MEAN 10.3 83 61 8.7 9.8 25.8 0.050 0.011 0.603 0.104 3.843 95 14.0
STOV 0.00 0.0 0.0 O.OO 0.00 O.OO O.OOOO O.OOOO O.OOOO O.OOOO 0.0300 0.0 0.90
H> 103/142 12 8/ 99 181/ 58 219/ 22 23 O/ 14 96/148 127/116 120/120 197/ 49 140/106 116/129 ITS/ 67 185/ 55
0/HR I/ 2 1/13 1/2 1/6 1/2 1/2 1/4 1/7 1/1 1/1 1/2 1/1 1/7
MIN
MAX
MEAN
STDV
N>
0/MR
MIN
MAX
MEAN
STDV
N>
0/UR
MIN
MAX
MEAN
STDV
H>
0/HR
MIN 10.3 83 61 8.7 9.8 25.8 0.351 0.011 0.634 0.1J5 0.843 95 14.0
MAX 10.3 83 61 8.7 9.8 25.8 0.051 0.011 0.604 0.105 0.843 95 14.0
MEAN 10.3 83 61 8.7 9.8 25.8 0.050 0.011 0.603 0.104 0.843 95 14.0
STDV 0.00 0.0 0.3 O.JO 0.33 0.00 0.0003 0.0000 0.0000 0.0000 0.0000 0.0 0.00
H> 366/370 356/266 570/163 66 8/ 58 630/ 97 549/188 350/388 325/390 568/173 489/252 422/318 533/236 544/183
0/MR I/ 5 I/ 23 I/ 3 I/ 15 1/5 1/3 I/ 4 I/ 26 1/1 1/1 1/2 1/3 I/ 18
254 2,8
254 2.8
254 2.8
0.0 0.00
254 2.8
254 2.8
254 2.8
o.o c.oo
-------
INi
CO
CKNUSl SCHROEOEMIA
CHLA
TUR8 SKCHI
00
TEMP
PARTIAL DEPTH VALUES
TOTALP OUTHOP N02N03 NH3
KJEL ALK
N/P
CONC PERC
« HIM
r o MAX
0 t C MEAN
N C STDV
0 M>
0/tlR
R N HIN
C 0 MAX
U 1 N MEAN
M 0 STOV
D C N>
C 0/U*
R NIN
0 0 MAX
U 2 C MEAN
N C STOV
D N>
O/VR
• N MIN
0 0 MAX
U 2 N MEAN
N 0 STOV
0 C N>
C 0/H*
* PIN
Q 0 MAX
USC MEAN
N C STOV
D N>
0/MR
• N MIN
C 0 MAX
U 3 N MEAN
N O STOV
0 C N>
C 0/MR
« MIN ,
0 A 0 MAX
u i c MEAN
NIC STPV
er *>
O/MR
• N NIN
C A 0 MAX
U L N MEAN
N 1 0 STOV
0 C N>
C 0/M*
1.5
247. 1
41.5
S9.ll
•/ 2
34/237
0.3
355.6
17.7
37.91
a/ o
213/247
2.6
595.0
67.9
97.76
8/ 9
76/239
1.4
166.8
19.6
27.30
O/ 6
171/241
1.4
241.4
41.8
51.66
6/ 0
69/241
0.8
128.6
16.0
20.49
O/ 5
178/242
1.4
595.0
S2.8
76.01
14/ 0
179/727
0.3
355.6
17.7
29.97
O/ 2
562/739
6 5
93 18S
69 33
21.1 30.3
O/ 17 2/ 1
26/170 34/246
8 2
100 252
71 45
20.6 36.8
1/0 0/0
159/186 215/249
4 6
95 123
62 34
27.5 20.0
O/ 10 I/ 9
70/227 76/231
7 1
121 222
76 56
21.0 39.2
3/0 0/0
167/234 165/241
1 6
96 ISO
64 37
27.2 27.2
0/7 0/5
60/214 69/241
3 10
100 185
78 56
20.3 36.3
1/0 3/0
161/220 177/243
1 5
96 185
64 35
26.3 25.0
O/ 18 3/3
158/62T 179/730
3 1
121 252
75 S2
20.8 37.7
I/ 3 O/ 0
487/644 557/736
6.8 3.8
10.1 15.5
8.2 8.6
0.76 2.18
9/1 4/1
34/239 33/240
5.3 0.7
10.6 19.2
7.8 9.0
0.71 1.99
0/0 0/3
215/249 212/243
5.2 3.1
9.7 17.8
8.1 7.5
0.81 2.43
1/3 1/0
76/243 75/245
4.1 3.0
10.6 16.0
7.6 6.8
0.89 1.72
0/0 0/1
171/247 171/245
6.4 3.5
10. 3 13. 5
7.9 7.6
0.77 1.79
12/ 03/0
67/233 64/238
4.7 1.6
10.0 12.7
7.5 7.2
0.83 1.53
0/1 0/1
178/244 177/240
5.2 3.1
10.3 17.8
8.0 7.7
0.79 2.19
2/2 7/1
177/737 172/72*.
4.1 3.7
10.6 19.2
7.7 7.8
0.82 2.33
0/0 0/3
564/741 560/732
10.4
28.9
20.6
5.78
13/ 0
34/235
6.8
28.8
17.0
5.41
O/ 1
214/247
20.6
30.5
27.1
2.09
2/ 3
76/241
17.3
32.2
26.4
2.43
O/ 0
170/246
14.8
29.6
20.2
3.22
5/ 0
68/241
9.0
29.0
20.5
3.26
O/ 1
178/245
10.4
30.5
23.2
4.82
14/ 3
178/723
6.8
32.2
21.0
5.59
"O/ 0
562/740
0. 014 0. 002
1.184 1.032
0.225 0.128
0.3024 0.2534
22/ 4 10/ 3
34/223 34/236
0.004 0.001
1.719 1.209
0.106 0.046
0.2146 0.1430
0/0 0/0
215/249 215/249
0. 039 0. 003
1.599 1.191
0.228 0.105
0.3232 0.2261
9/1 9/0
76/237 76/238
0.004 0.001
2.559 0.609
0.093 0.030
0.2502 0.0857
0/0 0/3
171/247 171/244
0.004 0.004
1.609 1.255
0.227 0.119
0.3367 0.2619
0/2 8/1
68/244 68/236
0.005 0.001
4.549 2.009
0.127 3.051
0.4312 0.1817
1/0 0/0
178/245 177/245
0.004 0.002
1.609 1.255
0.227 0.115
0.3228 0.2443
0/4 -14/ -1
178/738 178/726
0.034 3.001
4.549 2.009
0.109 0.043
0.3083 0.1429
at o 3/ o
564/742 563/741
3.041
4.389
0.513
0.9233
• 6/ 9
34/234
0.024
9.745
0.926
1.5388
O/ 0
215/249
0.029
6.857
0.563
1.0781
4/ 0
76/243
0.025
4.295
0.462
0.7835
O/ 1
171/246
0.020
1.959
0.393
0.4945
2/ 4
68/240
0.317
4.469
0.322
9.5668
O/ 0
178/246
0.020
6.857
0.489
9.6661
2/ 5
178/735
0.317
9.745
O.S95
1.1212
0/0
564/742
0.0*5
0.524
0.122
0.1067
30/ 3
34/216
0.022
0.635
0.104
0.0934
O/ 0
215/249
0.036
0.719
0.135
0.0999
I/ 0
76/246
0.034
0.565
0.113
0.0812
O/ 1
171/246
0.020
0.979
0.145
3.1811
O/ 1
68/245
0.032
3.024
0.113
0.2371
2/ 0
178/244
0.020
0.979
0.137
0.1373
O/ 1
178/741
0.022
3.024
0.110
0.1517
It 0
564/741
0.326 IS
3. 199 248
1.222 77
0.8340 64.1
37/ 3 61/ 0
34/209 34/188
0.199 10
4.699 240
3.729 69
0.6505 67.9
0/0 0/1
215/249 215/248
0.328 10
7.149 334
1.699 90
1.2987 81.9
ll/ 00/0
76/236 76/247
0.215 10
6.349 277
1.002 66
0.8868 61.1
O/ 1 O/ 4
171/246 171/243
0.268 10
6.000 261
1.485 96
1.1566 69.8
13/ 10/2
68/232 68/244
0. 199 10
6. 199 291
0.978 64
0.9846 59.6
3/0 0/0
178/246 178/246
0. 268 10
7. 149 334
1. 526 90
1.1756 74.2
33/ 1 O/ O
178/738 178/742
0. 199 10
8. 199 291
0.890 67
0.8481 63.3
0/0 0/2
564/742 564/740
0.0
42.0
7.4
10.26
O/ 30
34/219
0.0
142.0
20.4
26.32
Of 0
215/249
0.0
210.0
10.1
28.19
O/ 0
76/247
0.0
130.0
15.8
21.36
O/ I
171/246
0.0
62.0
6.6
13.39
O/ 5
68/241
0.0
9O.O
10.7
16.22
O/ 0
178/246
0.0
210.O
8.3
19.94
O/ 0
178/742
0.0
142.0
16.0
22.36
O/ 1
564/741
0
584
124
166.6
0
0
0
0.0
O
1702
93
228.9
0
0
0
0.0
0
1877
159
297.5
0
0
0
o.o
0
1877
124
248.8
0
3
3
0.0
0.0
25.4
1.7
4.3$
0.0
0.0
0.0
0.00
0.0
24.9
1.0
3.04
0.0
0.0
0.0
0.03
0.0
8.S
1.1
1.64
0.0
3.3
o.o'
o.oo
0.0
25.4
1.2
2.91
O.O
0.0
0.0
0.00
-------
ro
10
GCNUStSeWoEDERlA
CHLA
TURB SECCHI
PH
00
TEMP
PARTIAL DEPTH VALUES
TOTALP ORTHOP NO2N03
NH3
KJEL ALK
N/P
CONC PERC
t "IN
0 9 MM
U 1 0 "JAM"
N 1 STOV-
0 fK/>
0/M*
* N NIN
0 0 MAX
U 1 N HEAN
N 0 STOV
0 0 M>
" O/WR
• "IN
0 0 MAX
U 2 0 MEAN
N H STOV
0 N>
0/««
R 1 "IN
C 0 "AX
U 2 N MEAN
N 3 STOV
O ? '!>
M 0/WR
* PI*
g D "AX
030 «EAM
N » STOV
0 N>
9/HP
• N "IN
0 'MAX
U 3 N WEAN
N 0 STOV
0 0 N> '
" 0/hR
4 "IN
0 A 0 MAX
U L 0 "FAN
K L " STOV
O N>
0/H»
R N MIN
C • 0 "AX
U L N MEAN
N L 0 STOV
P C N>
M 0/Wft
5.6
9.6
5,6
0.00
94/112
If 1
1.5
247.1
42.6
55.59
•/ 2
3V 237
2.6
2.6
2.6
0.09
8/238
I/ 1
3.5
595.0
66.8
98.12
16/ 0
75/231
1.4
241.4
41. 8
51.66
6/ 0
69/241
2.6
5.6
4.1
2.12
48/543
2/150
1.4
595.0
53.4
76.26
14/ 9
177/727
93
93
93
. 0.0
168/ 17
I/ 2
6
91
68
20.9
O/ 21
27/166
92
92
92
0.0
196/ 29
I/ 12
4
95
61
27.4
O/ 1O
69/227
1
96
64
27.2
3/ 7
61/214
92
93
93
0.7
541/ 67
2/ 37
1
96
64
26.3
Of 18
185
185
185
0.0
247/ 1
I/ 1
5
60
28
14.0
2/ 47
33/200
38
38
38
0.0
120/120
I/ 1
6
123
34
20.1
I/ 9
75/231
6
153
37
27.2
3/ 5
69/241
38
185
112
103.9
381/ 3
2/352
5
150
34
22,4
3/ 13
156/627 177/720
8.3
8.3
8.3
0.00
175/ 59
I/ 15
6.8
10.1
8.2
0.77
9/ 1
33/239
7.3
7.3
7.3
0.00
62/177
I/ 8
5.2
9.7
8.1
0.81
I/ 3
75/243
6.4
13.3
7.9
0.77
12/ 3
67/233
7.3
8.3
7.8
0.71
192/167
2/382
5.2
13.3
e.o
0.79
2/ 2
175/737
13.4
19.4
10.4
•0.00
196 / 42
I/ 7
3.8
15.5
8.6
2.19
4/ 1
32/240
6.2
6.2
6.2
0.09
75/163
I/ 8
3.1
17.8
7.5
2.44
I/ 0
74/245
3.5
13.5
7.6
1.79
3/ 3
64/238
6.2
10.4
8.3
2.97
141/ 59
2/532
3.1
17.8
7.7
2.19
11 1
170/724
12.7
12.7
12.7
0.00
50/194
I/ 4
10.4
28.9
20.8
5.70
13/ 0
33/235
29.0
29.0
29.0
0.00
201 / 38
I/ 7
20.6
30.5
27.0
2.09
2/ 3
75/241
14.8
29.6
20.2
3.22
5/ 0
68/241
12.7
29.0
20.8
11.53
52/ 39
2/649
10.4
33.5
23.2
4.76
14/ 3
0.014 0.002 0.125 0.077 0.640 183
0.314 0.302 9.125 0.077 0.640
0.013 0.001 0.125 0.076 0.639
0.0000 0.0000 0.0000 0.0000 O.OOOO
22/223 10/222 58/188 121/125 141/106
I/ 4 If 17 1/3 1/3 1/2
0.022 0.003 0.041 0.045 0.326
1.184 1.032 4.389 0.524 3.199
0.231 0.132 0.525 0.123 1.239
0.3048 0.2563 0.9350 0.1080 0.8405
43X 427/3 6/9 30/ 3 37/ 3
33/232 33/219 33/234 33/216 33/209
0.022 0.010 0.167 0.051 0.465
0.022 0.010 0.167 0.051 0.465
0.021 0.009 0.166 0.050 0.465
0.0030 O.OOOO 0.0000 . 0.0000 O.OOOO
60/184 115/127 133/113 24/222 44/198
1/3 1/5 1/1 1/1 1/5
0.009 3.303 0.329 0.036 9.328
1.599 1.191 6.857 0.719 7.149
0.231 0.106 0.569 0.136 1.716
0.3244 0.2274 1.3844 0.1001 1.2994
9/1 9/0 4/0 I/ 0 ll/ 0
75/237 75/238 75/243 75/246 75/236
0.004 0.004 0.020 0.020 0.268
1.639 1.255 1.959 0.979 6.000
0.227 0.119 0.393 0.145 1.485
0.3367 0.2619 0.4945 0.1611 1.1566
0/2 8/1 2/4 0/1 13/ 1
68/244 68/236 68/240 68/245 68/232
0.314 0.002 0.125 0.051 0.465
0.322 3.310 3.167 0.077 0.640
0.017 0.035 3'146 0.063 0.552
0.0056 0.0056 0.0296 0.0183 0.1237
77/574 14/416 286/382 134/405 199/418
2/ 91 2/311 2/ 74 2/203 2/125
3.034 3.033 0.020 0.020 0.268
1.639 1.255 6.657 3.979 7.149
0.230 0.116 0.492 0.137 1.537
0.3239 0.2454 0.8702 0.1378 1.1776
O/ 4 38/ 1 2/50/1 33/ 1
176/723 176/738 176/702 176/735 176/741 176/738
183
183
0.0
219/ 28
If 2
15
248
74
62.3
61/ 0
33/188
20
20
20
0.0
58/184
I/ 5
10
334
91
82.1
Of 0
75/247
10
261
96
69.8
Of 2
68/244
20
183
132
115.3
206/ 61
2/473
10
334
89
74.1
Of 0
176/742
13.0
13.0
13.0
0.00
ISO/ 94
I/ 5
0.0
42.0
7.2
10.37
Of 30
33/219
10.0
10.0
10.0
0.00
161/ 76
I/ 10
0.0
210.0
10.1
28.38
O/ 0
.75/247
0.0
62.0
6.6
10.09
O/ 5
68/241
10.0
13.0
11.5
2.12
473/198
21 71
0.0
213.3
8.2
20.0$
Of 0
176/742
481
481
481
0.0
0
584
113
156. C
55
55
55
0.0
3
1732
93
230.4
0
1877
159
297.5
55
481
26S
301.2
0
1877
122
248.7
25.4
25.4
25.4
0.00
0.0
4.5
1.0
1.18
24.9
24.9
>4.9
0.00
0.0
8.0
0.7
1.24
0.0
8.9
1.1
1.64
24.9
25.4
25.2
J.38
0.0
8.9
3.9
1.41
-------
GENUS! SELENASTPUM
PARTIAL DEPTH VALUES
CHLA
TURB SECCHI
PH
DO
TEMP TOTALP ORTHOP N02N03
NH3
KJEL ALK
N/P
CONC PERC
co
o
R
0 0
U 1 C
N C
D
It N
O 0
U 1 N
N 0
D C
C
R
C 0
U 2 C
N C
D
R N
0 0
U 2 N
H 0
D C
C
*
0 0
use
N C
D
R N
0 O
U 3 N
N O
0 C
C
R
C A 0
U L C
N L C
0 "
R N
0*0
U L N
N I 0
0 C
C
MIN
MAX
MEAN
STOV
N>
0/WR
KIN
MAX
MEAN
STDV
N>
0/WR
MIN
MAX
MEAN
STDV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/UR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STDV
N>
0/HR
MIN
MAX
MEAN
STDV
N>
C/WR
MIN
MAX
MEAN
STDV
N>
0/HR
3.3
IBS. 6
44.6
71.76
42/ *
6/201
0.3
355.6
20.4
40.44
O/ 0
241/247
2.8
195.0
89.0
137.58
10/ 0
18/237
1.4
456.6
30.1
50.61
O/ 1
229/246
3.6
134.4
44.3
39.25
26/ 4
14/217
0.8
241.4
21.9
33.62
O/ 0
233/247
2.8
595.0
65.5
102.19
57/ 0
38/684
0.3
456.6
24.1
42.22
9/ 1
703/740
61
79
67
8.3
45/ 79
4/ 63
6
100
71
20.8
O/ 0
183/187
11
91
67
24.7
6/ 41
17/190
4
121
73
23.9
O/ O
220/237
13
92
67
25.0
6/ 36
13/179
1
100
75
22.9
O/ 0
208/221
11
92
67
23.0
13/ 84
34/548
1
121
73
22.7
O/ 0
611/645
15
60
31
15.6
29/ 47
6/173
2
252
44
36.5
01 0
243/249
12
77
33
18.1
13/ 39
18/189
1
222
50
36.6
O/ 0
223/241
14
95
39
23.9
14/ 27
14/205
6
185
51
35.4
O/ 0
232/246
12
95
35
19.8
39/ 79
38/618
1
252
48
36.3
O/ 0
698/736
6.7 8.4 10.1 0.036 0.009
9.5 10.4 25.7 0.145 0.052
7.9 9.5 16.4 0.090 0.024
1.08 0.88 6.03 0.0382 0.0156
6/ 7 71/ 42 ll/ 25 77/ 38 102/ 44
6/236 6/132 6/212 6/134 6/103
5.3 0.7 6.8 0.004 0.001
10.6 19.2 28.9 1.719 1.209
7.9 9.0 17.5 0.123 0.058
0.72 2.04 5.59 0.2342 0.1662
0/0 0/0 0/0 0/0 0/0
243/249 239/245 242/248 243/249 243/249
6.7 3.1 23.8 0.013 0.002
10.3 16.9 30.2 1.599 0.969
8.1 8.1 27.2 0.355 0.192
0.92 3.38 2.11 0.5042 0.3188
2S/ 11/1 2 1/ 4 26/ 13/1
18/221 17/244 18/221 18/220 18/243
4.1 3.0 17.3 0.004 0.001
10.6 17.8 32.2 2.559 1.191
7.7 6.9 26.5 0.117 0.042
0.88 1.82 2.36 0.2494 0.1199
0/0 0/0 0/0 0/0 0/0
229/247 229/246 228/246 229/247 229/247
6.5 4.0 17.0 0.016 0.003
9.1 10.8 25.8 1.479 1.099
7.6 7.5 21.4 0.298 0.193
0.78 1.89 3.00 0.4196 0.3397
19/ 75/4 31/ 15 30/ 32/3
13/219 13/232 13/200 14/213 14/240
4.7 1.6 9.0 0.004 0.001
10.3 13.5 29.6 4.549 2.009
7.6 7.3 20.4 0.146 0.062
0.84 1.60 3.26 0.4377 0.1968
0/0 0/0 0/0 0/0 9/0
232/245 228/241 233/246 232/246 231/245
6.5 3.1 10.1 0.013 0.002
10.3 16.0 30.2 1.599 1.099
7.9 8.1 23.4 0.292 0.166
0,91 2.65 5.29 0.4329 0.3019
40/ 27/2 12/ 4 67/ 5 14/ 5
37/699 36/723 37/724 38/670 38/722
4.1 0.7 6.8 0.004 0.001
10.6 19.2 32.2 4.549 2.099
7.7 7.8 21.4 0.129 0.054
0.82 2.04 5.49 0.3063 0.1642
0/0 0/9 0/00/0 0/0
704/741 696/732 703/740 704/742 703/741
0.956 0.071
4.389 0.479
1.171 0.159
1.7567 0.1607
14/ 9 102/ 5
6/226 6/142
0.024 0.022
9.745 0.635
0.862 0.105
1.4713 0.0933
0/0 0/0
243/249 243/249
0.059 0.059
1.299 0.219
0.273 0.115
0.2998 0.0451
31/ 25 38/ 22
18/191 18/187
0.025 0.034
6.857 0.719
0.511 0.120
0.9119 0.0903
0/0 0/0
229/247 229/247
0.025 0.043
1.959 O.9T4
0.399 0.147
0.6491 0.2449
12/ 4 24/ 2
14/230 14/220
0.017 0.020
4.469 3.0Z4
0.338 0.121
0.5424 0.2223
0/0 0/0
232/246 232/246
0.025 0.043
4.389 0.974
0.461 0.134
0.8408 0.1607
13/ 11 64/ 2
38/718 38/676
0.017 0.020
9.745 3.024
0.575 0.115
1.0770 0.1481
Of 00/0
704/742 704/742
0.271
3.199
1.136
1.1176
18/ 3
6/228
0.199
4.699
0.788
0.6855
O/ 0
243/249
0.265
5.699
1.851
1.4132
3/ 3
18/241
0.215
7.149
1.167
1.0345
9/ 0
229/247
0.332
4.000
1.589
1.0848
33/ 7
14/206
0.199
8.199
1.090
1.0512
O/ 0
232/246
0.265
S.699
1.642
1.2505
29/ 5
38/708
0.199
8.199
1.011
0.9482
O/ 0
704/742
10
137
66
56.2
O/ 48
6/201
10
248
70
67.7
O/ 0
243/249
16
128
54
37.5
40/ 49
18/158
10
334
75
70.6
O/ 9
229/247
14
134
49
36.5
32/ 51
14/163
10
291
74
65.1
O/ 9
232/246
10
137
54
39.6
0/138
38/604
10
334
73
67.8
O/ 0
704/742
1.0
72.0
20.7
29.46
7/ 13
6/229
0.0
142.0
18.6
25.09
O/ 0
243/249
0.0
18.0
5.4
5.70
O/ 37
18/210
0.0
210.0
14.8
24.50
O/ 0
229/247
0.0
44.0
6.5
11.51
O/ 12
14/234
0.0
90.0
9.8
15.05
O/ 0
232/246
0.0
72.0
8.2
14.45
O/ 24
38/718
0.0
210.0
14.4
22.34
O/ 0
704/742
0
431
88
169.1
0
0
0
0.0
0
852
63
199.7
0
0
0
0.0
0
654
97
179.9
0
9
0
0.0
0
852
79
183.9
0
0
0
0.0
0.0
4.6
1.0
1.80
0.0
0.0
0.0
0.00
0.0
11.2
0.8
2.65
0.0
0.0
0.0
0.00
0.0
0.7
0.2
0.27
9.0
0.0
0.0
0.00
0.0
11.2
0.6
1.95
0.0
0.0
0.0
0.90
-------
GENUS SSELENASTRUN
PARTIAL DEPTH VALUES
CHLA
TURB SECCHI
PH
00
TEMP rOTALP ORTHQP N02N03
NH3
KJEL ALK
N/P
CONC PERC
CO
It "IN
0 0 "AX
u i o MEAN
N N STDV
0 N>
9/KR
R N HIM
O 0 MAX
U 1 N HEA*
N D STDV
0 0 K>
1 0/WR
R HIM
O D MAX
U Z 0 MEAN
N 1 STOV
D N>
0/MR
R N HIM
C O HAX
U 2 N MEAN
N 0 STOV
0 0 N>
«• O/M«
« HIM
0 0 -MX
U 3 0 "SAN
N M STOV
0 N>
C/h*
.9 N »IN
0 0 MAX
U 3 N «EAN
N D STOV
0 0 N>
M I/HP
a MJN
D A 0 "AX
u L o MEAN
X L « STOV
0 N>
0/HR
• N MIN
C A 0 MAX
U L N MEAN
N L 0 STOV
D 0 N>
M 0/UP
3.3
m.6
44.6
71.76
427 4
6/201
9.3
9.3
9.3
0.09
89/156
I/ 2
2.8
595. 0
93.7
14O.33
10/ 0
17/237
3.6
134.4
44.3
39.25
26/ 4
14/217
9.3
9.3
9.3
0.03
338/401
I/ 2
2.8
595.3
67.0
103.17
57/ 0
37/684
61
79
67
8.3
45/ 79
4/ 63
79
79
79
0.0
107/126
I/ 4
11
91
66
25.3
6/ 41
16/193
13
92
67
25.0
6/ 36
13/179
79
79
79
3.0
301/333
I/ 11
11
92
66
23.3
13/ 84
33/548
15 6.7
60 9.5
31 7.9
15.6 1.08
29/47 6/ 7
6/173 6/236
32 7.8
32 7.8
32 7.8
0.0 0.00
86/148 113/121
I/ 7 I/ 13
12 6.7
77 10.3
33 8.2
18.7 0.95
13/ 39 25/ 1
17/189 17/221
14 6.5
95 9.1
39 7.6
23.9 0.78
14/ 27 19/ 7
14/205 13/219
32 7.8
32 7.8
32 7.8
0.0 0.03
8.4
10.4
9.5
0.88
71/ 42
6/132
6.1
6.1
6.1
0.00
71/171
I/ 4
3.1
16.0
8.2
3.45
I/ 1
16/244
4.3
10.8
7.5
1.89
5/ 4
13/232
6.1
6.1
6.1
0.00
285/436 353/353 130/591
I/ 15 I/ 35
12 6.5
95 10.3
35 7.9
20.1 3.92
39/ 79 40/ 2
37/618 36/699
I/ 11
3.1
16.0
8.2
2.67
7/ 2
35/723
10.1 0.336
25.7 0.145
16.4 0.090
6.03 0.0382
ll/ 25 7T/ 38
6/212 6/134
25.5 0.399
25.5 0.099
25.5 0.098
0.00 0.0330
84/158 178/ 66
1/4 1/3
23.8 0.013
30.2 1.599
27.3 0.373
2.13 0.5155
21/ 4 26/ 1
17/221 17/220
17.3 0.016
25.8 1.479
21.4 0.298
3.03 3.4196
31/ 15 30/ 3
13/200 14/213
25.5 0.399
25.5 0.099
25.5 0.098
3.30 3.0331
0.009 0.056 0.071
0.052 4.389 0.479
0.024 1.171 0.159
0.0156 1.7567 0.1607
102/ 44 14/ 9 102/ 5
6/103 6/226 6/142
0.052 0.585 0.125
0.052 0.585 0.125
0.052 0.585 0.125
0.0000 3.0030 0.0033
210/ 36 196/ 50 170/ 74
1/1 1/1 1/3
0.002 0.059 0.099
0.969 1.299 0.219
0.200 0.254 0.114
0.3266 0.2985 0.0464
3/ 1 31/ 25 38/ 22
17/243 17/191 17/187
3.033 0.025 0.043
1.099 1.959 0.974
0. 193 0.399 0. 147
0.3397 0.6491 3.2449
2/ 3 127 4 24 / 2
14/240 14/230 14/220
0.052 0.585 0.125
0.052 0.585 0.125
0.052 0.585 0.125
0.0030 3.3033 0.0003
529/207 529/238 614/123 562/179 547/188
1/4 1/3
10.1 0.013
30.2 1.599
23.4 0.298
5.26 3.4377
12/ 4 6T/ 5
36/724 37/673
1/4 1/1 1/7
0.002 3.325 3.343
1.099 4.389 0.974
0.169 0.458 0.134
0.3055 3.8521 0.1629
14/ 5 13/11 64/ 2
37/722 37/718 37/676
0.271
3.199
1.136
1.1176
IB/ 3
6/228
0.465
0.465
0.465
0.3300
44/198
I/ 5
0.265
5.699
1.933
1.4124
3/ 3
17/241
3. 332
4.000
1.589
1.0848
33/ 7
14/206
0.465
0.465
0.465
3.3333
199/535
I/ 8
0.265
5.699
1.674
1.2520
29/ 5
37/708
10
137
66
56.2
O/ 48
6/231
33
33
33
0.0
94/151
I/ 2
16
128
55
38.3
40/ 49
17/158
14
134
49
36.5
3Z/ 51
14/163
33
33
33
3.0
296/442
I/ 4
13
137
55
43.0
0/138
37/604
1.0
72.0
20.7
29.46
7/ 13
6/229
7.0
7.0
7.0
0.00
117/109
I/ 21
0.0
18.0
5.3
5.86
O/ 37
17/210
0.0
44.0
6.5
11.51
O/ 12
14/234
7.0
7.0
7.0
0.00
366/325
I/ 51
3.0
72.0
8.2
14.65
O/ 24
37/718
0
431
88
169.1
852
852
852
0.0
0
113
16
34.2
3
654
97
179.9
852
852
852
0.0
3
654
59
13J.2
0.0
4.6
1.0
1.80
11.2
11.2
11.2
0.00
0.0
1.8
0.1
0.44
3.3
3.7
0.2
0.27
11.2
11.2
11.2
o.oo
3.3
4.6
0.3
o.ai
-------
CfNUSl SKEIETOHEMA
PARTIAL DEPTH VALUES .
CHLA
SECCHI
00
TEMP TOTAIP CRTHOP N02N03
NH3
KJEL ALK
N/P
CONC PfRC
CO
ro
•
0 0
U 1 C
M C
0
* N
0 0
U 1 N
N 0
D C
C
ft
0 0
U 2 C
N C
D
* N
0 0
U 2 N
N 0
0 C
C
ft
0 0
U 3 C
N C
O
• N
O O
U 3 N
N 0
D C
C
*
C A 0
U L C
NIC
D
• N
0*0
U 1 N
N I 0
0 C
C
MIN
MAX
MEAN
STDV
N>
0/MR
MIN
PAX
MEAN
STOW
N>
0/MR
MIN
MAX
MEAN
STOV
N>
0/MR
MIN
MAX
MEAN
STCV
N>
0/MR
MtN
MAX
MEAN
STOV
N>
0/MR
PIN
MAX
MEAN
STOV
M>
0/WR
MIN
MAX
MEAN
STOV
N>
0/MR
NtN
• AX
MEAN
STOV
N>
0/MR
1.9
150.0
22.7
29.49
8/ 5
39/234
0.3
399.6
20.6
43.32
O/ 0
208/247
2.4
170.5
26.8
34.79
6/ 5
40/236
1.4
595.0
35.9
66.59
O/ 0
207/247
2.0
99.5
21.*
20.60
13/ 8
47/226
0.8
241.4
23.6
36.77
J/ 0
200/247
1.5
173.5
23.5
28.35
!•/ 1*
126/711
0.3
599.0
26.7
51.02
)/ 9
615/7*1
8
95
66
19.1
I/ 9
30/177
6
100
71
20.8
O/ 0
157/187
13
98
66
27.0
7/ 3
39/227
4
121
73
23.2
O/ 0
198/237
11
97
66
24.2
5/ 2
43/214
1
too
76
22.4
O/ 0
178/221
8
98
66
23.8
e/ 7
112/630
1
121
74
22.3
O/ 0
933/649
5
102
29
15.7
2/ 21
43/226
2
252
46
38.3
O/ 0
209/249
6
116
35
21.3
I/ 12
38/228
1
222
51
37.4
O/ 0
203/241
7
144
32
21.5
I/ 6
47/239
6
185
55
36.1
O/ 0
199/246
5
144
32
19.8
3/ 15
125/718
1
252
91
37.4
O/ 0
611/736
7.0 5.7
8.9 11.3
8.0 8.7
0.44 1.4O
23/ 16 12/ 19
40/210 40/214
5.3 0.7
10.6 19.2
7.9 9.0
0.77 2.12
0/0 0/0
209/249 295/245
6.3 4.3
9.2 15.2
7.8 6.6
0.53 1.97
ll/ 10 9/ 2
40/226 40/235
4.1 3.0
10.6 17.8
7.7 7.1
0.94 1.98
0/0 0/0
207/247 206/246
6.6 4.6
8.9 11.4
7.8 7.3
9.51 1.35
23/ 8 ll/ 2
46/214 47/228
4.7 1.6
10.3 13.9
•7.6 7.3
0.89 1.67
0/0 0/0
1=9/245 194/241
6.3 4.3
9.2 15.2
T.9 7.5
0.50 1.78
22/ 26 26/ 4
126/693 127/792
4.1 0.7
10.6 19.2
7.7 7.8
0.88 2.12
0/0 0/0
615/741 6)5/732
12.2
26.0
18.5
4.24
39/ 23
40/186
6.8
28.9
17.3
5.81
O/ 0
208/248
21.5
32.2
26.5
2.24
5/ 0
40/241
17.3
31.5
26.6
2.37
O/ 1
206/245
12.6
29.6
20.4
2.90
I/ 0
47/245
9.0
29.0
20.4
3.33
O/ 1
199/245
12.2
32.2
21.7
4.62
40/ 0
127/700
6.8
31.5
21.5
5.66
O/ 1
613/739
0.028
0.288
0.133
0.0647
60/ 16
40/173
0.004
1.719
0.126
0.2510
O/ 0
209/249
0.007
0.305
0.093
0.0744
4/ 22
40/221
0.004
2.559
0.142
0.3049
O/ 0
207/247
0.010
0.929
0.131
0.1638
ll/ 6
46/229
O.OM
4.949
0.160
0.4470
O/ 3
200/246
0.097
0.929
0.110
0.1138
14/ 22
126/706
0.004
4.549
0.143
0.3425
O/ 0
616/742
0.002 0.054 0.032 0.225
0.172 7.557 0.339 1.799
0.037 1.375 0.090 0.735
0.0384 2.1023 0.0538 0.4578
10/ 15 ll/ 2 5/ 10 4/ 19
40/224 40/236 4O/234 40/226
0.001 0.024 0.022 0.199
1.209 9.745 0.635 4.699
0.061 0.773 0.110 0.808
0.1783 1.3070 0.1011 0.7348
O/ 0 0/0 O/ 0 O/ O
209/249 209/249 209/249 209/249
0.002 0.061 0.036 0.332
0.104 4.274 0.376 2.474
0.027 0.840 0.113 0.959
0.0261 1.9843 0.0642 0.5663
3/ 22 37/ 21/6 12/ 24
40/222 40/208 40/240 40/211
0.001 0.025 0.034 0.215
1.191 6.857 0.719 7.149
0.058 0.426 0.121 1.266
0.1607 0.8258 0.3917 1.1450
0/0 0/0 0/0 0/0
207/247 207/247 2O7/247 207/247
0.094 0.029 0.032 0.242
0.632 1.866 0.974 5.399
0.046 0.392 0.111 1.026
0.0941 0.4251 O.1596 0.9406
8/ 6 19/ 5 2/2 7/2
46/231 46/222 46/242 46/237
0.091 0.017 0.020 0.199
2.109 4.469 3.024 8.199
0.075 0.330 0.125 1.140
0.2270 O.S725 O.235« 1.O833
0/0 0/0 0/0 0/0
199/245 200/246 2OO/246 209/246
0.002 0.029 0.032 0.225
3.632 7.397 0.974 5.399
9.037 0.846 3.105 9.912
0.0627 1.4058 0.1071 0.7067
14/ 14 25/ 2 7/ 2 10/ 6
126/713 126/715 126/733 126/7~26
0.001 0.017 0.020 0.199
2.019 9.749 3.024 8.199
0.065 0.513 0.111 1.070
0.1900 0.9740 0.1558 1.0196
0/0 0/00/0 0/0
615/741 616/742 616/742 616/742
11
227
95
65.1
3S/ 3
40/211
10
248
65
66.9
O/ 0
209/249
11
281
99
64.3
18/ 2
40/227
10
334
68
68.8
O/ 0
217/247
14
237
92
58.5
32/ 5
46/209
10
291
69
64.6
O/ 0
230/246
11
281
95
62.1
74/ 4
126/664
10
334
67
66.7
O/ 0
616/742
1.0
81.0
16.8
20.45
7/ 10
40/232
0.0
142.6
19.0
25.97
O/ 0
209/249
1.0
130.0
16.7
26.04
12/ 1
40/234
0.0
210.0
13.6
23.33
O/ 0
207/247
0.0
37.0
6.7
6.83
Of 14
46/232
0.0
90.0
10.3
16.11
O/ 0
200/246
0.0
130.0
13.1
19.56
O/ 4
126/738
0.0
210.0
14.3
22.52
- O/ 0
616/742
0 0.0
14070 61.9
1284 12.7
2804.5 14.74
0 0.0
0 0.0
0 0.0
0.0 0.30
0 0.0
6316 35.5
579 7.3
1104.5 8.80
0 9.0
0 0.0
0 0.0
0.0 0.00
0 0.0
8752 68.7
681 7.5
1491.3 14.75
0 0.0
0 0.0
0 O.O
0.0 0.00
0 0.0
14070 68.7
839 9.1
1928.1 13.29
0 O.O
0 0.0
0 0.0
0.0 0.90
-------
SPECIES* SKELETCNStA
CHL<
TUBS SECCHI
PH
DO
PARTIAL DEPTH VALUES
TEHP TOT ALP OR T HOP N02N03
KJEL ALK
K/P
CCNC PERC
R HIN
O 0 MAX
U 1 0 MEAN
N M STOV
0 N>
0/W«
II N HIN
O O MAX
U 1 N MEAN
M 0 STOW
0 0 N>
M O/UR
* HIN
0 0 MAX
O 2 0 MEAN
M N StOV
0 N>
0/WR
M N HIN
0 0 HAX
U 2 N HEAN
N 0 STOV
CO 00 N>
CO! H o/WR
M HIM
O 0 HAX
u 3 o MEAN
N H STOV
0 N>
0/KR
R N HIN
0 0 MAX
U 3 N HEAN
N 0 STOV
0 0 N>
N 0/W»
R HIN
O A 0 HAX
U L 0 HEAN
H I 1 STOV
0 N>
0/MR
t N HIN
O A 0 HAX
U L N HCAN
N I 0 STOV
0 0 N>
H 0/MR
1.5
MO.O
2C.2
34.48
»/ t
17/234
2.9
icc.i
24.6
2S.14
•33/ 10
22/204
3.;
1S.8
11.0
5.34
!«/ 82
10/149
2.4
17C.5
32.1
36.78
*/ 5
30/236
S.S
46.2
»7.6
12.38
tOt 35
8/152
2.0
ft. 5
22.2
21.93
13/ <
39/226
1.5
150.0
17.0
21.14
I*/ 17
35/7C8
2.0
170.5
at.o
29.23
3(/ 14
Vl/691
9
86
62
22.8
I/ 44
13/142
32
95
69
15.9
12/ 9
17/166
11
93
71
23.0
U/ 22
10/204
13
98
64
28.4
T/ 3
29/227
23
97
69
32.7
12/ 2
7/207
11
96
65
22.6
S/ T
36/209
- 6
97
67
24.8
8/ 12
30/625
11
98
66
23.6
13/ 7
•2/625
5
102
30
20.9
2/21
17/226
6
55
28
10.9
4/ 63
2V 182
9
75
39
22.1
7/ 40
10/194
t
114
34
21.1
I/ 12
28/226
12
60
36
16.3
7/ 59
6/160
7
144
31
22.4
I/ 6
39/239
S
102
34
20.2
3/ 69
35/664
6
144
31
19.6
5/ IS
90/716
7.5
6.6
8.0
0.34
59/ 26
17/164
7.0
d.9
6.0
0.51
Z3/ 16
23/210
7.1
4.3
7.7
0.38
48/ 62
10/137
6.3
9.2
7.9
0.57
117 10
30/226
6.6
8.5
7.7
0.65
23/ 30
6/192
6.7
6.9
7.6
0.48
JO/ 8
36/207
6.6
8.6
7.9
0.44
46/ 73
35/622
6.3
9.2
7.9
0.52
22/ 26
91/693
7.4 12.2
10.8 25.2
8.9 18.3
0.96 3.67
36/ 30 39/ 34
17/179 17/175
5.7 12.2
11.3 26.0
8.5 18. S
1.65 4.69
12/ 19 39/ 23
23/214 23/18*
5.1 21.5
9.9 29.6
7.0 26.1
1.51 2.70
29/ 12 5/ 1«
1O/205 10/223
4.3 23.7
15.2 32.2
6.5 26.6
2.11 2.11
9/ 2 U/ 0
SO/235 30/226
5.6 12.6
9.5 23.6
7.1 20.1
1.27 3.53
34/ 14 I/ 37
6/193 6/208
4.6 15.7
11.4 29.6
7.4> 20.5
1.38 2.80
It/ 2 12/0
39/228 39/234
5.1 12.2
10.8 29.6
7.9 21. C
1.50 4.71
57/ 42 40/ U
39/633 35/682
4.3 12.2
15.2 32.2
7.4 22.0
1.87 4.56
26/ 4 40/ 0
92/7O2 92/700
0.028 0.002
0.184 0.093
0.067 0.029
0.0460 0.0241
tfl/ 31 10/ 23
17/156 17/216
0.029 O.OOi
0.238 0.172
0.115 0.043
0.0743 0.0456
65/ 16 53/ 15
23/163 23/161
0. 009 0. 004
0.167 O. 104
0.082 0.032
0.0575 0.0323
9/ 37 22/ 22
10/291 10/203
0. 007 0. 002
0.305 0.099
0.096 0.025
0.0798 0.0240
4/ 22 3/ 23
30/221 30/221
0.041 0.007
0.369 0.105
0.108 O.O37
0.1074 0.0304
92/ 18 42/ 23
6/136 6/160
0.010 O.OO4
0.929 0.632
0.136 0.046
0.1741 0.1028
ll/ 68/6
38/229 38/231
0. 009 0. 002
0.369 0.105
C.09O O.O32
0.0659 0.0274
29/ 55 IV 65
35/658 35/662
0.007 0.002
0.929 0.632
0.116 0.039
0.1271 0.0718
14/ 22 IV 14
91/706 91/713
C.120 0.032
7.557 0.136
2.004 0.073
2.7697 0.0265
57/ 2 S/ 50
17/190 17/194
0.054 0.046
5.846 0.339
0.910 0.102
1.3130 0.0651
U/ 6 34/ 10
23/232 23/205
0.145 0.067
4.274 0.235
1.113 0.104
1.3563 0.0512
116/ 2 53/ 19
10/129 10/175
0.061 0.036
3.679 0.376
0.749 0.116
0.9879 0.0664
37/ 5 1/6
30/205 30/240
0.029 0.035
1.460 0.2O6
O.559 O.O86
0.5126 0.0561
19/ 12 5/24
8/215 6/217
0.032 0.032
1.666 0.974
0.357 0.116
0.4034 0.1737
31/ 52/2
36/210 38/242
0.029 0.032
7.557 0.235
1.419 0.065
2.1269 0.0436
25/ 2 Tf 53
35/715 35/682
0.032 0.032
5.646 0.974
0.626 0.113
0.9268 0.1224
43/ 77/2
91/692 91/733
0.225
1.750
0.565
0.4080
4/ 21
17/224
0.340
1.799
0.846
0.4691
44/ l«»
23/166
0.349
1.149
0.688
0.2919
IT/ 86
10/142
0.332
2.474
1.050
0.6091
12/ 24
30/211
0.243
1.974
0.761
0.5781
8/ 29
8/209
0.242
5.399
1.O82
0.9972
7/ 2
36/237
0.225
1.974
0.655
0.4185
10/ 84
35/648
0.242
5.399
1.012
0.7692
16/ 6
91/720
at
215
100
66.1
U2/ 7
17/130
11
227
90
65.5
25/ 3
23/211
49
237
103
68.9
116/ 12
10/119
11
281
97
63.9
16/ 2
30/227
18
237
112
61.7
SI/ 5
8/190
14
219
86
52.9
32/ 6
38/206
16
237
104
68.6
178/ 19
35/545
11
261
92
59.4
74/ 4
« 1/664
2.0
81.0
22.3
25.05
2S/ 10
17/214
1.0
65.3
12.8
15.66
7/ 16
23/226
2.0
130.0
26.4
39.79
28/ 1
10/218
1.0
101.0
13.5
19.49
12 / 4
30/231
2.C
25.0
6.5
7.58
42/ 16
6/186
0.0
37.0
6.3
6.71
O/ 14
36/232
2.0
130.0
2O. 3
27.75
95/ 4
35/643
0.0
101. O
10.3
14.S8
O/ 9
91/733
256
14070
2687
3923.4
O
1036
24t
315.6
137
305fc
950
913.6
0
6316
455
1148.2
467
6752
2733
2727.4
0
2145
260
593. «
137
14970
2201
3105.1
0
' 6316
320
747.7
11.5
61.9
2t.7
12.61
0.0
9.4
2.4
2.64
10.2
35.5
20.6
7.22
0.0
9.5
2.9
2.61
10.7
68.7
34.3
20.33
0.0
6.3
2.0
2.41
10.2
68.7
26.7
14.07
0.0
9.5
2.4
2.53
-------
GCNUSt SORASTRUN
PARTIAL DEPTH VALUES
CHLA
TUPB SECCHI
PH
DO
TEMP TOTALP OUTHOP N02N03
NH3
KJEL ALK
N/P
CONC PE»C
*
r o
U 1 C
N C
D
ft N
0 0
U 1 N
N 3
0 C
C
•
0 0
U 2 C
N C
0
• N
C 0
U 2 N
N 0
0 C
C
R
O 1
U 3 C
N C
0
* N
0 0
U 3 N
N 0
0 C
C
R
0 A 0
U I C
1.1 C
0
« N
0 A 0
U L N
N I 0
0 C
C
MIN
MAX
MEAN
STCV
0/W
MIN
MAX
MEAN
STCV
N>
0/NR,
MIN
MAX
MEAN
STDV
N>
O/UR
NIN
MAX
MEAN
STOV
N>
o/w»
PIN
MAX
MEAN
STPV
N>
0/M»
MIN
MAX
MEAN
JTCV
M>
O/«*
MIN
MAX
MEAN
STOV
N>
O/Vft
MIN
MAX
MEAN
STOV
*>
r/wR
0.3
355.6
21.0
41.40
9/ 0
247/247
1.4
595.0
34.4
62.58
O/ 0
247/2*7
15.8
15.8
15.8
0.00.
IS*/ 91
I/ 2
0.8
2*1.4
23.2
34.33
O/ 0
2*6/247
15.8
15.8
15.8
0.33
481/258
I/ 2
0.3
595.0
26.2
47.96
3f 0
740/741
6
100
71
20.6
O/. 0
187/187
4
121
72
24.0
O/ 0
237/237
80
80
80
0.0
93/124
I/ 4
1
100
74
23.1
O/ 0
220/221
80
80
80
0.0
312/321
I/ 12
1
121
T2
22.8
3/ 3
644/6*5
2
252
**
36.2
O/ 0
2*9/2*9
1
222
*9
35.8
O/ 0
2*1/2*1
60
60
60
0.3
1S1/ 59
I/ 6
6
185
50
35.0
O/ 0
2*5/2*6
60
60
60
0.0
5*9/166
I/ 21
1
252
*8
35.7
3/ 3
735/736
5.3
10.6
7.9
0.73
O/ 0
2*9/2*9
*.l
10.6
7.8
0.89
O/ 0
2*7/247
6.8
6.8
6.8
0.00
39/189
I/ 17
4.7
10.3
7.6
3.84
O/ 0
244/2*5
6.8
6.8
6.8
0.33
80/631
1/30
*.l
10.6
7.8
0.83
3/ 0
7*0/7*1
3.7
19.2
9.0
2.02
O/ 0
2*5/2*5
3.0
17.8
7.0
1.98
O/ 0
246/246
5.0
5.0
5.0
0.03
15/223
I/ 3
1.6
13.5
7.3
1.61
I/ 0
240/241
5.0
S.O
5.0
0.03
49/675
1/8
J.7
19.2
7.8
2.07
3/ 3
731/732
6.8 0.004 0.301 0.024 0.022 0.199
28.9 1.719 1.209 9.745 0.635 4.699
17.5 0.123 0.057 0.870 0.107 0.796
5.59 0.231* 0.16*2 1.4754 O.O9S3 0.6975
0/0 0/0 0/0 0/0 0/0 0/0
2*8/2*8 249/249 249/249 249/249 249/249 249/2*9
-
17.3 0.004 0.001 0.025 0.034 0.215
32.2 2.559 1.191 6.857 0.719 7.149
26.6 0.134 0.053 0.493 0.129 1.217
2.35 0.2811 0.1*79 0.8836 0.0878 1.0778
0/0 0/0 O/ 0 0/00/0 3/0
2*6/2*6 2*7/2*7 2*7/2*7 2*7/2*7 2*7/2*7 247/247
19.5 0.052 0.012 0.051 0.296 1.274
19.5 0.052 0.012 0.051 0.296 1.274
19.5 0.052 0.011 0.050 0.295 1.273
0.00 0.0000 0.0030 3.0030 0.0000 0.9000
98/145 107/132 98/134 70/172 233 / 12 179/ 65
1/3 1/7 I/ 13 1/4 1/1 1/2
9.0 0.004 3.001 0.317 0.020 0.199
29.6 4.549 2.009 4.469 3.024 8.199
20.4 0.155 0.070 0.3*3 0.122 1.118
3.25 O.4O99 0.2092 3.5*85 0.2233 1.0593
0/0 0/3 0/3 9/0 0/0 3/0
245/2*6 245/246 244/245 245/246 245/246 245/246
19.5 9.052 0.312 9.351 0.296 1.274
19.5 0.052 0.012 0.351 0.296 1.274
19.5 0.052 0.011 0.050 0.295 1.273
0.09 0.0000 0.0000 0.0000 0.0000 0.0000
261/475 354/377 351/361 135/631 TO*/ 37 564/175
I/ 4 1/11 I/ 29 1/6 I/ 1 I/" 3
6.8 O.OH 0.301 0.017 0.020 3.199
32.2 4.549 2.039 9.745 3.924 8.199
21.5 0.137 0.060 0.570 0.116 1.043
5.50 0.3159 0.1754 1.O666 0.1*87 0.9755
O/ 0 O/ 0 O/ 0 O/ . 0 O/ 0 O/ 0
739/7*0 7*1/7*2 7*0/7*1 7*1/7*2 7*1/7*2 7*1/7*2
10
2*8
70
67.3
O/ 0
2*9/2*9
10
33*
73
68.9
O/ )
2*7/2*7
52
52
52
•3.0
118/127
I/ 1
10
291
73
64.2
O/ 0
2*5/2*6
52
52
52
0.0
378/361
It 3
10
33*
72
66.8
O/ 0
7*1/7*2
0.0
1*2.0
18.6
25.1*
O/ 0
249/249
O.O
210.0
14.1
23.76
O/ 0
247/247
7.0
7.0
7.0
0.00
149/ 83
I/ 1*
0.0
93.0
9.6
14.90
O/ 0
2*5/2*6
7.0
7.3
7.9
0.00
366/325
-I/ 51
0.0
213.3
14.1
22.05
O/ 0
7*1/7*2
0
0
0
0.0
0
0
0
3.0
0
0
0
0.0
3
3
0
0.0
0
3
0
0.0
0
3
0
0.0
0.0
0.0
0.0
0.00
0.0
0.0
O.O
0.90
0.0
0.0
0.0
0.00
0.0
0.0
O.O
o.oo
0.0
0.0
0.0
0.00
O.O
3.0
0.0
o.oo
-------
GFNUS:SORASTRUM
CO
tn
CHLA
TlNte SECCHI
PARTIAL DEPTH VALUES
00 TEMP TOTAL P OUT HOP N02NQ3
NH3
KJEL ALK
N/P
CONC PERC
ft
0 0
U 1 0
N N
0
1 N
0 0
0 1 N
N D
0 0
M
II
*> C
0 2 0
N M
0
* N
0 0
U 2 N
N 0
9 ?
1
" 0
U 3 C
N M
0
R N
0 0
U 3 N
N 0
0 0
M
•
P A 0
U L 0
•» L M
D
* N
C A 0
U L N
N L 0
D 0
X
MIN
MAX
MEAN
STDV
N>
0/HR
KIN
MAX
MEAN
STOV
N>
0/HR
MIN
MAX
MEAN
STOV
N>
0/W
MIN
MAX
MEAN
STOV
N}
0/HR
MAX
MEAN
STDV
N>
C/HR
MIN 15.8 80 60 6.8 5.3 19.5 3.352 3.012 0.351 3.296 1.274 52 7.0
MAX 15.8 80 60 6.8 5.0 19.5 0.052 0.012 0.051 0.296 1.274 52 7.0
*>EAN 15.8 80 63 6.8 5.0 19.5 0.052 0.011 0.050 0.295 1.273 52 7.0
STOV 3.33 3.3 3.3 0.00 3.33 3.33 3.0330 3.0333 0.3030 0.0333 3.0000 0.0 0.00
N> 1!4/ 91 93/124 181/ 59 39/189 It/223 98/145 137/132 98/134 70/172 233/ 12 179/ 65 118/127 1*9 / 83
9 /HI 1/2 1/4 1/6 I/ 17 1/3 1/3 1/7 I/ 13 1/4 1/1 1/2 1/1 I/ 14
¥IH
MAX
MEAN
STOV
W>
•VHR
MIN 15.8 80 60 6.8 5.3 19.5 0.352 0.312 0.351 3.296 1.274 52 7.0
»AX 15.8 80 60 6.8 5.0 19.5 0.052 0.012 0.051 0.296 1.274 52 7.3
MEAN 15.8 80 63 6.8 5.0 19.5 0.052 0.011 0.050 0.295 1.273 52 7.0
STOV 0.00 0.0 0.3 3.00 0.00 0,03 3.0133 0.0003 0.3030 3.3033 O.OOOO 0.0 0.00
N> 481/258 312/321 549/166 80/631 49/675 261/475 354/377 351/361 105/631 704/ 37 564/175 378/361 366/325
0/HR I/ 2 I/ 12 I/ 21 I/ 30 1/8 1/4 I/ 11 I/ 29 1/6 1/1 1/3 1/3 I/ 51
3 3.0
3 0.3
0 O.C
0.0 C.OO
3 3.3
3 3.3
0 0.0
0.0 0.00
-------
CO
er>
CEWISl SPEftNATOZOOPSIS
CW.A Time
PM
oo
TEMP
PAftTIAt DEPTH VALUES
TOTALP ORTHOP N02N03 NH3
KJEL ALK
N/P
CONC PEftC
»
0 0
U 1 C
N C
0
• N
»J 0
U 1 N
N 0
0 C
C
•
P 0
u 2 e
1 C
0
• N
0 0
U 2 N
N O
0 C
C
I
0 ?
U 3 C
1 C
0
• 1
o a
U 3 N
N 0
0 C
C
*
C A 0
u L r
NIC
0
* N
' M 0
U 1 N
M I 0
0 C
C
"IN
MAX
MEAN
STOV
«>
0/HK
NIN
MAX
•CAN
STOV
N>
0/M
Ml*
•AX
MEAN
STOV
M>
0/H*
NIN
fAX
•EAN
STDV
N>
0/HR
MIK
*AX
MEAN
STOV
N>
C/WH
KIN
PAX
MFAN
STOV
">
O/UK
*IN
MAX
MEAN
STDV
:*>
O/WR
MtN
MAX
MEAN
STPV
*>
0/HK
5.*
*9.3
2l.»
19.08
877 19
VIM
0.3
353.6
20.9
41.68
O/ 0
243/2*7
• 5.*
141.2
39.5
40.5*
35/ 10
16/202
1.*
595.0
34.1
63.87
O/ 0
231/247
3.6
24.6
9.6
10.03
26/ 64
4/157
0.8
241.4
23.4
34.48
O/ 0
243/247
3.6
141.2
31.6
35.72
91/ 21
24/629
0.3
595.0
26.0
48.29
" Of . 0
717/7*1
67.
91
80
11.8
67/ 21
4/ 99
6
100
70
20.7
J/ 0
183/187
13
95
61
30.4
11 10
16/220
4
121
73
23.3
O/ 0
221/237
37
99
81
19.2
44/ 1
4/176
1
100
74
23.2
O/ 0
217/221
13
99
67
27.6
15/ 6
24/624.
1
121
73
22.5
Of 0
621/645
18
36
. 29
7.9
43/101
4/103
2
252
44
36.4
O/ 0
245/249
6
117
33
26.5
I/ 11
16/229
1
222
50
36.1
O/ 9
225/241
19
92
43
34.1
37/ 30
4/179
6
185
31
35.0
O/ 0
242/246
6
U7
34
Z5.2
5/ 43
24/688
1
252
48
35.*
Of 0
712/736
7.5
9.7
8.3
0.95
59/ 2
4/188
5.3
10.6
7.9
3.72
O/ 0
245/249
5.7
6.6
7.4
0.84
5/ 28
16/214
4.1
10.6
7.8
0.89
Of 0
231/247
6.1
8.0
6.9
0.81
*/ 79
4/162
4.7
10.3
7.6
0.83
Of 0
241/245
5.7
9.7
7.5
3.93
9/8
24/724
4.1
10.6
7.8
0.82
O/ 0
717/741
6.3
10.6
7.6
2.02
18/ 36
4/191
0.7
19.2
9.0
2.32
Of 0
241/245
4.*
7.4
6.3
0.80
20/ 76
16/150
3.0
17.6
7.1
2.03
Of 0
230/246
7.5
9.6
8.1
1.01
122/ 12
4/1J7
1.6
13.5
7.3
1.62
Of 0
237/241
4.9
13.6
6.8
1.33
45/ 31
24/636
0.7
19.2
7.8
2.08
Of 0
708/732
21.8 3.085 0.012 0.041 0.0*5 1.032
25.0 0.701 0.616 0.169 0.125 2.649
23.7 0.256 0.185 0.090 0.076 1.609
1.39 0.2969 0.287* 0.3560 0.0365 0.7398
180/ 38 ISA/ 9 126/ 5 6/168 30/ 59 197/ 8
*/ 30 4/ 84 4/118 */ 75 4/160 4/ 44
6.8 0.004 0.031 0.024 0.022 0.199
28.9 1.719 1.209 9.7*5 0.635 4.699
17*4 0.121 0.055 0.882 0.107 0.783
5.58 0.2304 0.1616 1.4840 0.0959 0.6905
0/0 Of 3 Of 0 3/0 0/0 0/0
244/248 245/249 245/249 245/249 245/249 245/249
24.5 0.025 0.010 0.045 0.052 0.799
29.7 0.955 0.594 4.274 0.309 2.299
27.6 0.161 0.077 0.919 0.120 1.481
1.64 0.2200 0.1453 1.4325 0.0656 0.5156
45/ 15 74/ 7 US/ 416/2 25/ 8 111/ 29
16/186 16/166 16/128 16/229 16/214 16/137
17.3 0.004 0.001 0.025 0.034 0.213
32.2 2.559 1.191 6.857 0.719 7.149
26.5 0.133 3.051 0.464 3.119 1.198
2.36 0.2852 0.1482 0.8294 0.0892 1.10*5
0/0 0/0 0/0 0/0 0/0 0/0
230/246 231/247 231/247 231/247 231/247 231/247
17.8 0.033 0.011 0.021 0.041 0.676
25.0 0.929 0.632 0.064 0.059 1.750
22.3 0.266 0.169 0.043 0.0*8 1.37*
3.1* 0.4*19 0.3081 0.021* 0.3089 3.4833
52/ 20 79/ 6 90/ 6 4/157 17/159 97/ 35
4/174 4/161 4/149 */ 85 4/ 70 4/114
9.0 0.004 0.001 0.017 0.020 0.199
29.6 4.549 2.009 4.469 3.024 8.199
20.4 0.153 0.068 0.347 0.123 1.119
3.2* 3.4092 0.2073 0.5509 0.22*8 1.06*6
0/0 0/0 Of O Of 0 Of 0 3/0
2*2/2*6 2*2/2*6 2*1/2*5 242/246 242/246 242/246
17.8 0.025 0.010 0.321 0.041 0.676
29.7 0.955 0.632 4.274 0.309 2.649
26.1 0.194 0.110 0.635 0.101 1.435
2.89 0.2662 3.1982 1.2277 0.3623 3.5519
201/15 188/ 21 301/14 -4/1*. tit 31 340/45
24/524 24/533 24/426 24/724 24/660 24/357
6.8 0.004 0.001 -0.017 0.020 0,199
32.2 4.549 7.009 9.745 3.024 8.199
21.3 0.135 0.058 0.567 0.117 1.030
5.49 0.3172 0.1744 1.0611 0.1507 0.9835
O/. 0 0/0 01 0 Of 0- Of 0- O/ 0
716/740 718/742 717/741 718/742 718/742 718/742
17
1)9
58
39.8
73/ 61
4/115
10
248
70
67.7
Of 0
245/249
10
240
80
77.1
Of 9
16/238
10
334
73
68.4
Of 0
231/247
10
148
*3
69.0
Of 36
4/210
10
291
73
64.0
Of 3
242/246
10
240
70
73.1
Of 15.
24/727
10
334
72
66.7
0/0
718/742
0.0
3.3
1.5
1.29
0/198
4/ 51
0.0
142.0
18.9
25.25
O/ 0
245/249
0.0
34.0
8.9
11.22
Of 26
16/221
0.0
210.0
14.4
24.37
Of 0
231/247
0.0
2.0
1.5
1.00
0/178
*/ 68
0.0
90.0
9.7
14.96
Of 0
242/246
0.0
34.0
6.4
9.75
3/ 81
24/661
3.0
210.0
14.4
22.29
Of 0
718/742
186
429
352
111.9
0
0
0
0.0
0
1008
187
272.7
0
0
0
0.0
0
539
297
232.2
0
0
0
0.0
0
1008
233
248.6
3
3
0
' 0.0
1.1
5.5
2.7
1,89
0.0
0.0
0.0
0.00
O.O
24.1
3.6
7.32
O.O
0.0
0.0
0.00
0.0
6.3
4.4.
3.73
0.0
0.0
0.0
0.30
0.0
2*. 1
3.6
6.12
0.0
0.0
0.0
0.00
-------
W-NUSiSPEMATOZODPSIS
G3
TURB SECCHI
PH
00
TEMP
PARTIAL DEPTH VALUES
TOTAL? ORTHOP N02N03
NH3
KJEL »LK
N/P
CONC PERC
* HIM
0 0 «MU,
010 MEAN
N M STOV
0 N>
C/Mt
II N HIM
O 0 MAX
0 1 N MEAN
N O STOV
0 0 N>
M 0/HM
II MIH
0 0 MAX
U 2 0 MEAN
N M STDV
D N>
a/WR
* N MIN
0 0 •'AX
U 2 N MEAN
N D STOV
0 0 N>
M (J/MR
• MIN
C 0 MAX
u 3 o MEAN
N M STOV
0 N>
0/kft
• N MIN
0 1 MAX
u 3 N MEAN
N 0 STOV
0 0 N>
M C/Wft
* MIN
o * o MAX
u i o MEAN
« I M STOV
0 N>
c/m
• N NfN
o»o MM
0 L N MEAN
N L 0 STCV
D P «K/>
M C/HR
5.4
49.3
21.9
19. OS
87/ 19
4/141
5.4
12.2
•.8
4.S1
35/115
2/ 97
6.2
141.2
43.8
41.59
46/ 10
14/191
3.6
24.6
9.6
13.03
• 26/ 64
4/157
5.4
12.2
8.8
4.ai
181/319
2/241
3.6
141.2
33.6
36.64
91/ 21
22/629
67
91
80
11.8
67/ 21
4/ 99
89
95
92
4.2
176/ 10
2/ 51
13
90
56
29.9
7/ 52
14/178
57
99
81
19.2
44/ 1
4/176
89
95
92
4.2
4T9/ 35
2/1:1
13
99
65
27.7
15/ 6
22/624
18
36
29
7.9
43/101
4/105
20
117
69
68.6
35/ 11
2/195
6
60
28
15.1
I/ 60
14/180
19
92
43
34.1
37/ 30
4/179
20
117
69
68.6
135/ 43
2/558
6
92
31
18.7
5/ 84
22/647
7.5
9.7
8.3
0.95
59/ 2
4/188
5.7
7.2
6.4
1.06
5/185
2/ 57
6.2
8.6
7.5
0.75
7/ 28
14/212
6.1
S.O
6.9
9.81
4/ 79
4/162
5.7
7.2
6.4
1.06
9/549
2/183
6.1
9.7
7.6
0.88
13 / 8
22/723
6.3 21.8 0.085 0.012
10.6 25.0 0.701 O.616
7.6 23.7 0.256 0.185
2.02 1.39 0.2969 0.2879
18/ 36 ISO/ 38 156/ 9 126/ 5
4/191 4/ 30 4/ 84 4/118
5.8 28.0 0.925 0.015
6.6 29.1 0.107 0.083
6.2 28.5 0.065 0.048
0.57 0.78 9.0579 0.9480
58/135 1S9/ 34 74/ 61 ISO/ 26
2/ 53 2/ 53 2/112 21 71
4.9 24.5 0.037 0.010
7.4 29.7 0.955 0.594
6.3 27.5 0.174 3.981
9.85 1.71 0.2323 3.1550
20/ 76 45/ 15 104/ 7 US/ 4
14/150 14/186 14/136 14/128
7.5 17.8 3.333 3.311
9.6 25.0 0.929 0.632
8.1 22.3 0.266 0.169
1.91 3.14 0.4419 3.3981
122/ 12 52/ 23 79/ 6 SO/ 6
4/107 4/174 4/.161 4/149
5.8 28.0 0.025 0.315
6.6 29.1 0.107 0.083
6.2 28.5 3.365 0.048
3.57 3.78 0.0579 3.3480
105/522 646/ 35 188/192 415/ 83
2/10! 2/ 99 2/262 2/243
4.9 17.6 0.033 0.010
10.6 29.7 0.955 0.632
6.9 25.9 0.2)6 3.116
1.34 2.91 0.2752 0.2062
45/ 51 201/ IS 243/ 21 301/ 14
22/636 22/524 22/478 22/426
0.041
0.169
0.090
0.0560
6/168
4/ 75
0.045
0.189
0.117
0.1018
16/104
2/127
0.050
4.274
1.033
1.5012
21/ 2
14/224
3.021
0.064
0.043
3.0214
4/157
4/ 85
0.345
0.189
0.117
3.1018
0.045 1.032
, 0.125 2.649
0.076 1.609
. 0.0365 0.7398
30/ 59 197/ 8
4/160 4/ 44
9.057 0.965
0.104 2.299
0.080 1.631
0.0332 0.9*32
34/107 135/ 29
2/1O6 27 83
0.052 0.799
0.309 2.276
0.126 1.460
0.0677 3.4841
2S/ 8 111/ 30
14/214 14/106
3.041 9.676
0.059 1.750
0.048 1.074
3.0389 0.4833
17/159 97/ 33
4/ 70 4/114
0.057 0.965
0.104 2.299
0.080 1.631
0.0332 3.9432
84/360 175/253 467/ 64
2/298
0.021
4.274
0.682
1.2737
4/ 14
22/724
2/314 2/211
3.341 3.676
0.309 2.649
0.103 1.417
3.3641 3.5360
SI/ 31 340/ 45
22/660 22/357
17
139
58
39.8
73/ 61
4/115
10
51
31
29.0
0/124
2/123
10
240
87
79.8
O/ 9
14/238
13
148
45
69.0
O/ 36
4/210
13
51
31
29.3
3/364
2/378
13
240
7*
72.3
O/ 15
22/727
0.0
3.0
1.5
1.29
0/198
4/ 51
3.0
4.0
3.5
0.71
44/165
2/ 38
9.3
34.0
9.6
11.84
O/ 26
14/221
3.0
2.0
1.5
1.00
0/178
4/ 68
3.0
4.0
3.5
3.71
146/478
2/118
0.0
34.0
6.7
13.16
O/ 81
22/661
186
429
352
111.9
522
1008
765
343.7
0
411
104
134.0
3
539
297
232.2
522
1338
765
343.7
J
539
184
183.6
1.1
5.5
2.7
1.89
19.7
24.1
21.-9
3. O7
0.3
5.5
1.0
1.52
0.3
8.3
4.4
3.75
IS. 7
24.1
21. S
3.37
3.0
6.3
1.9
2.43
-------
00
00
CCNUS* SPHAEPEUOtStS
CHI A TURB SECCHI
PH
DO
TEMP
PARTIAL DEPTH VALUES
TOTALP ORTHOP NC2NO3 NH3
KJEL ALK
N/P
CONC PERC
*
0 0
0 I C
N C
0
R N
P 0
U 1 N
N 0
D C
C
R
0 0
U Z C
1 C
D
• N
0 0
U Z N
N 0
D C
C
R
C 0
0 3 C
N C
0
* N
O 0
U 9 N
N- C
0 C
C
•
c A o
u t c
N L C
o •
« "I
P A 0
U L N
N L 0
0 C
e
HIM
MAX
MEAN
STOV
N>
PAIR
HIN
MAX
MEAN
STOV
M>
0/MR
NIN
MAX
MEAN
STOV
N>
n/uR
MIN
MAX
MEAN
STDV
N>
0/WR
N1N
MAX
MEAN
STOV
N>
o/u*
HI If
1»X
MEAN
STOV
N>
O/HR
*W
MAX
MEAN
STOV
N>
Q/MR
WIN
MAX
H5A"
STOV
N>
P/HR
0.3
355.6
21.0
41.40
O/ 0
247/247
6.4
32.9
16.2
14.51
49/ 68
3/130
1.4
595. 0
34.7
62.92
O/ 0
24V 247
14.3
15.4
14.8
0.78
148/ 95
2/ 4
0.8
241.4
23.3
34.40
O/ 0
245/247
6.4
32.9
15.7
10.30
232/154
5/355
0.3
595.0
26.3
48.07
O/ 0
736/7*1
6
130
71
20.6
O/ 0
187/187
46
86
67
20.1
38/ 78
3/121
4
121
72
24.9
O/ 0
234/237
65
91
78
18.4
55/ 42
2/124
1
100
74
23.1
9/ 0
219/221
46
91
72
17.9
92/104
5/449
1
121
72
22.8
O/ 0
640/645
2 5.3
252 10.6
44 7.9
36.2 0.73
0/0 0/0
249/249 249/249
17 7.5
75 7.9
49 7.7
29.4 0.20
24/ 40 80/110
3/177 3/ 57
1 4.1
222 10.6
49 7.8
35.9 0.90
0/0 0/3
238/241 244/247
27 8.5
41 8.8
34 8.6
9.9 9. 21
59/115 208/ 12
2/ 72 2/ 25
6 4.7
185 10.3
51 7.6
35.1 0.83
0/0 0/0
244/246 243/245
17 7.5
75 8.8
43 8.1
22.8 0.55
86/124 24S/ 49
5/526 5/447
1 4.1
252 10.6
48 7.8
35.8 0.83
0/0 0/0
731/736 736/741
0.7
19.2
9.3
2.02
O/ 0
245/245
6.2
8.3
7.0
1.16
75/ 42
3/129
3.0
17.8
7.0
1.99
a/ o
243/246
7.8
9.2
8.5
0.99
141/ 19
2/ 81
1.6
13.5
7.3
1.61
I/ 0
239/241
6.2
9.2
7.6
1.27
141/151
5/440
0.7
19.2
7.8
2.08
O/' 0
727/732
6.8
28.9
17.5
5.59
O/ 0
248/248
24.5
29.4
26.4
2.61
45/ 25
3/176
17.3
32.2
26.6
2.35
O/ 0
243/246
22.5
25.3
23.9
1.98
174/ 18
2/ 54
9.0
29.6
20.4
3.24
O/ 0
244/246
22.5
29.4
25.4
2.51
370/26
5/344
6.8
32.2
21.5
5.50
O/ 0
735/740
0.004 0.001 0.024 0.022 0.199
1.719 1.209 9.745 0.635 4.699
0.123 0.057 0.873 0.107 0.796
0.2314 0.1642 1.4754 0.0953 0.6975
0/0 O/ O 0/0 0/0 0/0
249/249 249/249 249/249 249/249 249/249
0.030 0.008 0.207 0.067 0.349
0.116 0.020 0.817 0.190 1.421
0.067 0.013 0.435 0.142 0.767
0.0439 0.3060 0.3326 3.0662 0.5734
82/ 55 97/ 76 149/ 39 53/ 30 17/ 66
3/110 3/ 74 3/ 59 3/164 3/16*
0.004 0.001 0.025 0.034 0.215
2.559 1.191 6.857 0.719 7.149
0.135 0.054 0.494 0.119 1.222
0.2B27 0.1487 0.8885 0.0881 1.O820
0/0 0/0 0/0 0/0 0/0
244/247 244/247 244/247 244/247 244/247
0.034 0.017 0.074 0.046 1.224
0.063 0.024 0.075 0.080 1.552
0.048 0.020 0.074 0.062 1.388
0.0205 0.0049 0.0006 0.0240 0.2319
81/113 131/ 86 97/142 34/105 174/ 46
2/ 52 2/ 28 2/ 7 2/107 2/ 26
0.004 0.001 0.017 0.020 0.199
4.549 2.039 4.469 3.024 8.199
0.155 0.070 0.344 0.123 1.116
0.4106 0.2096 0.5494 0.2240 1.0612
0/0 0/0 0/0 0/0 0/0
244/246 243/245 244/246 244/246 244/246
0.030 0.008 0.074 0.046 0.349
0.116 0.024 0.817 0.190 1.552
0.059 0.016 0.290 0.110 1.015
0.0343 0.0061 0.3072 0.0651 0.5416
222/168 255/235 182/137 »7/ 86 99/133
5/352 5/251 . 5/423 5/569 5/510
0.004 0.001 0.017 0.020 0.199
4.549 2.009 9.745 3.024 8.199
. 0.138 0.060 0.571 0.116 1.043
0.3167 0.1759 1.0691 0.1491 0.9774
O/ 0 01 0 O/ 0 O/ 0 O/ 0
737/742 736/741 737/742 737/742 737/742
10
248
70
67.3
O/ 3
249/249
21
114
64
46.9
63/ 56
3/128
10
334
73
69.2
a/ o
244/247
115
117
116
1.4
182/ 56
2/ 8
10
291
73
64.2
O/ 0
244/246
21
117
85
43.7
222/169
5/351
10
334
72
66.9
O/ 0
737/742
0.0
142.0
18.6
25.14
O/ 0
249/249
8.0
12.0
9.7
2.08
138/ 66
3/ 43
0.0
210.0
14.1
23.90
O/ 0
244/247
2.0
5.0
3.5
2.12
42/110
2/ 94
0.0
90.0
9.7
14.92
O/ 0
244/246
2.0
12.0
7.2
3.83
95/212
.5/435
0.0
210.0
14.2
22.10
O/ 0
737/742
0
0
0
0.0
0
96
48
48.0
0
0
0
0.0
0
0
0
0.0
0
0
0
0.0
0
96
29
43.0
0
O
0
0.0
0.0
0.0
0.0
0.00
0.0
15.2
5.2
8.65
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.0
15.2
3.1
6.76
0.0
0.0
0.0
0.30
-------
CO
vo
CENUSiSPHAEHELLOPSlS
CMLA
TUKfl SECCHI
PH
oo
TEMP
PARTIAL DEPTH VALUES
TOTALP OUTHOP N02N03
NH3
KJEl AW
H/t>
CONC PERC
II H1N
0 D MM
U 1 0 MEAN
N N STOV
0 N>
0/MR
R M HIM
0 0 MAX
u i N MEAN
N 0 STOV
D 0 N>
• 0/H*
* NIN
0 0 MAX
U 2 0 MEAN
S N STOV
0 N>
0/MR
• H MIN
0 0 MAX
U 2 N MEAN
•I D STOV
0 0 N>
•4 O/M*.
R MIN
0 0 MAX
U 3 0 MEAN
N M STOV
0 N>
e/w*
R N MIN
0 0 "AX
U 3 N MEAN
N 0 STOV
0 3 *>
« C/W«
• MIN
0 A 0 «*X
U L C MEAN
N L M STDV
•> N>
0/W4
R V UN
C A C NAX
U L N MEAN
N L 0 StOV
0 0 N>
M 0/*«
6.4
6.4
6.4
0.00
49/19!
I/ 3
9.4
32.9
21.1
16.62
917 68
21 B»
14.3
15.4
14.S
0.7 »
148/ 9»
2/ 4
6.4
6.4
6.4
9.00
232/535
I/ 4
9.4
32.9
18.0
10. 2T
343/154
4/247
70
70
70
0.0
74/161
I/ 2
46
86
66
28.3
38/78
2/121
65
91
78
18.4
55/ 42
2/124
13
70
70
0.0
213/427
I/ 8
46
91
72
20.7
92/114
4/449
54 7.5 6.4
54 7.5 6.4
54 7.5 6.4
0.0 0.00 0.00
1S9/ 77 80/151 86/150
I/ 5 I/ 16 I/ 10
17 7.7 6.2
75 7.9 8.3
46 7.8 7.2
41.0 0.14 1.48
24/ 40 134/113 75/ 42
2/177 2/ 33 2/129
27 8.5 7.8
41 8.8 9.2
34 8.6 8.5
9.9 0.21 0.99
59/115 238/ 12 141/ 19
2/ 72 2/ 25 2/ 81
54 7.5 6.4
54 7.5 6.4
54 7.5 6.4
0.0 0.00 0.00
510/216 245/457 161/552
I/ 10 I/ 39 I/ 19
17 7.7 6.2
75 8.8 9.2
40 8.2 7.9
25.3 0.51 1.26
16/124 318/ 49 141/151
4/526 4/374 4/443
25.4
25.4
25.4
O.OO
80/162
I/ 4
24.5
29.4
26.9
3.46
45/ 25
2/176
22.5
25.3
23.9
1.9«
174/ 18
21 54
25.4
25.4
25.4
0.00
523/211
I/ 6
22.5
29.4
25.4
2.90
37 Of 26
4/344
0.057
0.057
0.056
0.0000
138/107
I/ 2
0.030
0.116
0.072
0.0608
82/ 55
2/110
0.034
0.063
3.048
0.0205
81/113
11 52
0.057
0.057
0.356
0.0000
0.020
0.020
0.019
0.0000
166/ 76
I/ 5
0.008
0.013
0.010
0.0035
97/108
2/ 42
0.017
0.024
3.020
0.0049
131/ 86
2/ 28
0.020
3.023
0.019
0.0000
384/352 461/268
I/ 6
0.333
3.116
0.060
0. 0396
I/ 12
0.038
0.024
0.015
0.0067
222/168 255/235
4/352
4/251
0.282
0.282
0.281
0.0000
16S/ 81
I/ 1
0.207
0.817
0.511
0.4313
149/ 39
2/ 59
0.074
0.075
9.374
0.0006
97/142
2/ 7
0.282
0.282
0.281
0.0000
0.190
0.190
0.189
0.0000
21S/ 30
I/ 2
0.067
3.171
0.119
0.0735
53 / 40
2/154
0.046
0.080
0.362
0.0240
34/105
2/107
0.190
0.190
0.189
0.0000
0.532 21
0.532 21
0.531 21
0.0000 0.0
64/180 63/177
1/3 1/7
0. 349 57
1.421 114
0.884 86
0.7580 40.3
17/ 66 135/ 56
2/164 2/ 56
1.224 115
1.552 117
1.388 116
0.2319 1.4
174/ 46 182/ 56
2/ 26 2/ 8
0.532 21
0.532 21
0.531 21
0.0000 0.0
453/288 653/ 86 250/485 222/508
I/ 1
0.074
0.817
0.293
0.3547
182/137
4/423
I/ 3
0.046
0.171
3.390
0.0551
87/109
4/546
I/ 7 I/ 12
0.349 57
1.552 117
1.136 131
0.5420 29.2
99/133 404/169
4/510 4/169
12.0
12.0
12.0
0.00
179/ 66
I/ 2
8.0
9.0
8.5
0.71
138/ 86
2/ 23
2.0
5.0
3.5
2.12
42/110
2/ 94
12.0
12.0
12.3
3.33
521/212
I/ 9
2.0
9.0
6.0
3.16
95/269
4/378
96
96
96
0.0
0
49
25
34.6
0
0
3
3.3
96
96
96
3.3
0
49
12
24.5
15.2
15.2
15.2
0.30
0.0
0.5
0.2
0.35
0.0
0.0
3.3
J.33
15.2
15.2
15.2
3. 33
0.0-
0.5
3.1
3.25
-------
CfNUSt SPHAEKOCVSTTS
CHLA
TU«B SECCHI
00
TEMP
PARTIAL DEPTH VALUES
TOTALP ORTHOP N02NO3 NH3
KJEL ALK
N/P
CONC PERC
• KIN
0 0 KM
o i c MEAN
N C STOV
0 N>
0/KR
ft N MIH
0 0 MAX
U I N MEAN
N P STOV
0 C N>
C 0/t«
• KIN
0 0 MAX
U 2 C 1EAN
N C STOV
0 *>
0/MK
* N "IN
C 0 MAX
U 2 N MEAN
M 0 STOV
0 C N>
C O/H*
• MIN
0 0 MAX
U 3 C MEAN
N C STOV
0 »>
0/WR
* N MIN
0 0 MAX
U J N MEAN
N 0 STOV
0 C M>
C C/MR
* MIN
0 A " MAX
U 1 C MEAN
NIC STDV
0 W>
0/M*
• N MIN
IJ A n MAX
U L N MEAN
N L n STOV
0 C N>
C 0/WK
1.5
49.1
13.3
14.95
•/ 20
9/219
0.9
355. 6
21.2
42.06
9/ 0
238/247
3.6
170.5
3T.9
45.72
18/ 9
20/224
1.4
595.9
34.1
63.92
O/ 0
227/247
8.3
70.8
25.3
20.01
104/ 16
11/127
0.8
241.4
23.1
34.81
Of 0
236/247
1.}
170.5
28.9
35.60
'• 16/ 14
40/711
0.3
595.0
26.0
48.55
O/ 0
701/741
81 22
96 185
89 63
6.2 56.2
114/ 4 75/ 1
7/ 69 9/173
6 2
100 252
70 43
20.6 35.2
0/0 0/0
180/187 240/249
24 9
121 222
75 65
24.0 59.9
IS/ 07/0
19/222 20/234
4 1
197 184
72 47
24.0 32.6
0/1 0/2
218/236 221/239
26 14
95 87
69 41
24.6 19.5
13/ 16 14/ 35
8/192 11/197
1 6
100 185
74 51
23.1 35.5
o/o o/o
213/221 235/246
24 9
121 222
77 58
22.2 51.0
35/ 0 21/1
34/610 40/714
1 1
107 252
72- 47
22.8 34.6
O/ 10/0
611/644-696/736
6.9 4.8
9.7 12.7
8.2 8.7
0.76 2.55
17/ 29/3
9/230 9/233
5.3 0.7
10.6 19.2
7.9 9.0
0.72 2.00
0/0 0/0
240/249 236/245
6.7 4.9
C.9 11.7
. 8.0 7.7
0.72 1.73
25/ 16 20/ 6
20/206 20/220
4.1 3.0
10.6 17.8
7.7 7.0
0.90 1.99
0/0 0/0
227/247 226/246
6.8 4.1
8.8 12.7
8.0 7.8
0.62 2.34
39Y 12 8/ 1
10/194 11/232
4.7 1.6
10.3 13.5
7.6 7.3
0.84 1.57
0/0 0/3
235/245 230/241
6.7 4.1
9.7 12.7
8.0 8.0
0.69 2.08
- 61/ 8 22/19
39/672 40/700
4.1 0.7
10.6 19.2
7.7 7.8
3.83 2.07
O/ 0 O/ 0
732/741 692/732
12.7
27.9
17.4
5.36
SO/ 3
9/193
6.8
28.9
17.5
5.61
Of 0
239/248
20.1
27.9
25.6
1.68
I/ 87
20/158
17.3
32.2
26.7
2.38
O/ 0
226/246
15.6
23.3
18.7
2.49
ll/ 49
11/186
9.0
29.6
20.5
3.26
Of 3
235/246
12.7
27.9
21.9
4.85
52 / 94
40/594
6.8
32.2
21.5
5.53
O/ 0
700/740
0.006 0.002
0. 716 0. 541
0.123 0.072
0.2255 0.1762
3/ 8 10/ 7
9/238 9/232
0.004 0.001
1.719 1.209
0.123 0.056
0.2321 0.1641
0/0 0/0
240/249 240/249
0.008 0.003
0.321 0.118
0.087 0.024
0.1011 0.0353
6/ 21 9/ 21
20/220 20/217
0.004 0.001
2.559 1.191
0. 139 0. 056
0.2915 0.1537
0/0 0/0
227/247 227/247
0.020 0.005
0.277 0.140
0.083 0.028
0.0716 0.0418
46/ 21 13/ 19
10/179 10/211
0.004 0.001
4.549 2.009
0. 158 0. 072
0.4172 0.2128
9/0 9/0
236/246 235/245
0. OJ6 0. 002
0.716 0.541
0.094 0.036
0.1315 0.9893
7/31 14/ 23
39/794 39/704
9.994 9.991
4. 549 2. 099
0.140 0.061
0.3227 0.1788
O/ 0 9/ 0
703/742 702/741
0.072
1.403
0.379
0.4159
33/ 40
9/176
0.024
9.745
0.888
1.4979
O/ 0
240/249
0.035
6.857
0.753
1.5507
12/ 0
20/235
0.025
4.295
0.471
0.8008
O/ 1
227/246
0.029
1.675
0.479
0.5903
19/ 9
10/218
9.017
4.469
0.336
9.5464
O/ 0
236/246
0.029
6.657
0.596
1.1614
2S/ 5
39/712
0.017
9.745
0.568
1.0614
O/ 0
703/742
0.040 9.425
0.197 1.824
0.094 0.839
0.0554 0.4280
24/ 22 83/ 18
9/203 9/148
0.022 0.199
0.635 4.699
0.107 0.794
0.0965 0.7061
0/0 0/0
240/249 240/249
0.044 0.299
0.405 2.915
0.113 1.196
0.0795 0.8409
13/ 4 6/ 15
20/230 20/226
O.O34 0.215
0.719 7.149
0.120 1.219
0.0886 1.0977
0/0 0/9
227/247 227/247
0.046 0.500
0.375 2.149
0.162 1.164
0.1065 9.4984
34/ 9 65/ 23
10/203 10/158
0.020 0.199
3.024 8.199
0.121 1.116
0.2268 1.9750
0/0 0/0
236/246 236/246
0.040 0.299
0.405 2.915
0.121 1.105
0.0845 0.6877
42/ 18 55/ 38
39/682 39/649
0.020 0.199.
3.024 8,199
0.116 1.039
0.1515 0.9887
O/ 00/0
703/742 703/742
11
198
106
80.9
35/ 17
9/197
10
248
69
66.6
O/ 0
240/249
11
281
198
97.1
18/ 2
20/227
10
334
70
65.2
O/ 9
227/247
52
261
122
68.0
118/ 2
10/126
10
291
71
63.2
O/ 0
236/246
11
281
111
85.1
74/ 4
39/664
10
334
79
64.9
O/ 0
703/742
1.0
87.0
19.4
28.46
7/ 7
9/235
0.0
142.0
18.6
25.07
Of 0
240/249
1.0
210.0
24.2
47.37
12/ 0
20/235
0.0
130.0
13.2
20.40
O/ 1
227/246
1.0
39.0
10.5
11.09
IS/ 13
10/220
0.0
90.9
9.6
15.03
O/ 0
236/246
1.9
210.0
19.6
36.80
,32/ 0
39/710
0.0
142.0
13.8
20.92
O/ 1
703/741
0
418
53
137.1
0
0
O
0.0
0
1638
197
455.6
9
9
0
0.0
0
26
5
9.3
0
0
0
0.0
9
1638
112
335.7
0
0
0
0.0
0.0
5.6
0.8
1.82
0.0
0.0
0.0
0.00
0.0
32.4
4.0
9.21
0.0
0.0
0.0
0.00
0.0
0.6
0.1
.0.22
0.0
0.0
0.0
0.00
0.0
32.4
2.2
6.73
0.0
0.0
0.0
0.00
-------
CENUSlSPHAWCCYSTIS
CW.A
TORS SKCHI
PH
DO
TEMP
PARTIAL DEPTH VALUES
TOTALP ORTHOP N02N03
NH3 .
KJEL ALK
N/P
CDNC PERC
R MIN
0 0 MAX
010 MEAN
N 1 STDV
0 N>
0/HR
R H BIN
0 0 MAX
0 1 N MEAN
N 0 STDV
D 0 N>
N 0/WR
• NIN
" D MAX
U 2 0 MEAN
1 1 STOV
0 N>
0/UR
R N MIN
0 0 MAX
U 2 N ME0N
N 0 STOV
0 T N>
M 0/W*
I MIN
" 0 MAX
U 3 G MEAN
N 1 STOV
0 N>
r/WR
P N MIN
0 3 MAX
0 3 N MEAN
N 0 STOV
0 0 '«/>
M 0/WR
p MIN
040 »«x
U L 0 MEAN
N L 1 STOV
0 N>
C/w*
P N MIN
0 A 0 "AX
U L N MEAN
N L 0 STOV
D 0 N>
M C/NR
1.9
49.1
13.3
14.99
•/ 20
9/219
10.3
12.4
11.3
1.48
103/113
2/ 31
3.6
170.5
40. a
47.37
IB/ 5
18/224
8.3
70.8
25.3
21.01
104/ 16
11/127
10.3
12.4
11.3
1.48
366/311
2/ 64
1.5
170.5
29.8
36.31
16/ 14
38/711
81
96
89
6.2
114/ 4
7/ 69
67
81
74
9.9
64/116
2/ 57
24
121
76
25.3
IS/ 0
17/222
26
95
69
24.6
13/ 16
8/192
67
81
74
9.9
190/301
2/154
24
121
77
22.9
35/ 0
32/610
22 6.9
185 9.7
63 8.2
56.2 0.76
75/ 1 17/2
9/173 9/230
37 8.0
41 8.0
39 8.0
2.8 0.00
115/105 137/ 96
2/ 21 2/ 14
9 6.7
222 8.9
68 8.0
62.7 3.76
7/ 0 25/ 16
18/234 18/206
14 6.8
87 8.8
41 8.3
19.5 0.62
14/ 35 39/ 12
11/197 10/194
37 8.0
41 8.0
39 8.0
2.8 0.00
367/306 427/278
2/ 63 Zl 36
9 6.7
222 9.7
59 8.9
52.2 0.71
21/ 1 61/ 8
38/714 37/672
4.8 12.7
12.7 27.9
8.7 17.4
2.55 5.36
9/ 3 50/ 5
9/233 9/193
5.5 24.9
5.8 26.6
5.6 25.7
0.21 1.20
36/182 58/122
2/ 28 2/ 66
4.9 20.1
11.7 27.9
7.9 25.6
1.67 1.75
20/ 6 If 87
18/220 18/158
4.1 ' 15.6
12.7 23.3
7.8 18.7
2.34 2.49
8/ 1 11 / 49
11/232 11/186
5.5 24.9
5.8 26.6
5.6 25.7
3.21 1.20
73/616 489/151
21 43 2/100
4.1 12.7
12.7 27.9
8.1 21.7
2.37 4.89
22/ 10 52/ 9*
38/700 38/594
0.006 0.032
0.716 0.541
0.123 0.072
0.2255 0.1762
3/ 8 10/ 7
9/238 9/232
O.MS 0.007
0.058 0.010
0.046 0.008
0.0162 0.0021
97/106 79/127
2/ 44 2/ 41
O.OO8 O.O03
0.321 0.118
0.092 3.025
0.1057 0.3369
6/ 21 9/ 21
18/220 18/217
0.320 0.005
0.277 0.140
0.083 0.028
0.0716 0.0418
46/ 21 15/ 19
10/179 10/211
3.335 3.337
0.058 0.010
0.046 0.008
3.0162 3.3021
255/348 235/416
2/139 2/120
0.006 0.002
0.716 0.541
3.397 3.337
3.1346 0.0915
7/ 31 14/ 23
37/704 37/704
0.072
1.403
0.379
0.4159
33 / 40
9/176
0.772
1.089
0.930
0.2241
206/ 34
2/ 7
0.035
6.857
0.733
1.6372
12/ 0
18/235
O.J2S
1.67S
0.479
3.5933
19/ 9
10/218
0.772
1.089
0.930
3.2241
0.040 0.425
0.197 1.824
0.094 0.839
0.0554 0.4280
24/ 22 83 / 18
9/203 9/148
0. 167 1. 349
0.405 1.500
0.289 1.274
0.1682 0.3189
200/ 4 143/ 62
2/ 43 2/ 42
0.044 0.299
0.194 2.915
0.094 1.187
0.0390 3.8852
13/ 27 6/ 15
18/207 18/226
0.046 0.500
0.375 2.149
0.162 1.164
0.1065 0.4984
34/ 9 65/ 23
10/203 10/158
3.167 1.349
0.405 1.500
0.285 1.274
3.1682 0.3189
11
198
106
80.9
35/ 17
9/197
79
163
121
59.4
166/ 28
2/ 53
11
281
107
101.6
IB/ 2
18/227
52
261
122
68.0
11 a/ 2
10/126
79
163
121
59.4
590/105 619/ IB 504/140 4B9/ 93
2/ 47
0.025
6.857
0.578
1.1903
2«/ 5
37/712
2/105 2/ 98
0.040 3.299
0.375 2.915
0.112 1.096
0.0719 0.7034
42/ 23 5V 38
37/677 37/649
2/160
11
2B1
111
86.8
74/ 4
37/664
1.0
87.0
19.4
28.46
7/ 7
9/235
16.0
41.0
28.5
17.68
199/ 21
2/ 27
1.0
210.0
23.7
49.87
12/ 0
18/235
1.0
39.3
10.5
11.09
13/ 13
10/220
16.0
41.0
28.5
17.68
J76/ 66
2/100
1.0
210.0
19.1
37.63
32/ 3
37/710
0
418
53
137. 1
1203
1638
1421
307.6
3
755
61
175.0
0
26
5
9.3
1233
1638
1421
507.4
3
755
42
137.0
0.0
5.6
0.8
1.82
28.3.
32.4
30.4
2.92
0.0
6.7
1.0
1.78
0.3
3.6
C.I
C.22
26.3
32.4
3C.4
2. 92
J.O
6.7
0.7
1.53
-------
GENUS: SPHAEROZOSMA
CHLA
TWI8 S5CCHI
PARTIAL DEPTH VALUES
DO TEMP TOTALP ORTHOP N02N03 NH3
KJEL ALK
N/P
CONC PERC
R
0 0
U 1 C
M c
0
R N
0 0
U 1 N
N 0
0 C
c
R
0 0
U 2 C
N C
0
R N
O O
U 2 N
N 0
0 C
C
R
0 0
U 3 C
N C
D
R N
0 0
U 3 N
N 0
D C
C
R
C A 0
U L C
NIC
0
R N
OAQ
U L N
Nl 0
D C
C
NIM
•»AX
MEAN
STDV
P/WR
MIN
MAX.
XEAN
STOV
9l>
O/UR
MIN
MAX
NEAN
STDV
N>
0/UK
.MIN
MAX
MEAN
STDV
N>
0/U*
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/HR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
0/WR
0.3
355.6
21.0
41.40
9/ 0
247/247
2.7
2.7
2.7
0.00
9/237
I/ 1
1.4
595.0
34.6
62.68
9/ 0
246/247
16.6
16.6
16.6
0.00
159/ 87
I/ 1
0.8
241.4
23.2
34.33
O/ 0
246/247
2.7
16.6
9.6
9.83
52/250
2/439
0.3
595.0
26.2
47.98
O/ 0
739/741
6 2
100 252
71 44
20.6 36.2
0/0 0/0
187/187 249/249
85 36
85 36
83 36
0.0 0.0
146/ 84 110/126
1/7 1/5
4 1
121 222
72 49
24.6 35.9
9/0 9/0
236/237 240/241
86 40
86 40
86 40
0.0 0. 0
127/ 84 118/120
I/ 10 I/ 8
1 6
100 185
74 50
23.1 35.0
0/0 0/0
220/221 245/246
85 36
86 40
86 38
0.7 2.8
399/206 338/319
21 40 21 79
1 1
121 252
72 48
22.8 . 35.8
9/ 0 O/ 0
643/645 734/736
5.3
10.6
7.9
0.73
9/ 9
249/249
5.5
5.5
5.5
0.00
2/242
If 3
4.1
13.6
7.8
0.88
O/ 0
246/247
6.1
6.1
6.1
0.00
4/238
I/ 3
4.7
10.3
7.6
9.83
O/ 0
244/245
5. 5
6.1
5.8
9.42
5/725
21 11
4.1
10.6
7.8
0.82
O/ 9
739/741
9.7
19.2
9.0
2.02
O/ 9
245/245
5.8
5.8
5.8
0.00
58/182
I/ 6
3.0
17.8
7.9
1.98
O/ 0
245/246
6.8
6.8
6.8
O.OO
82/152
I/ 7
1.6
13.5
7.3
1.61
O/ 0
240/241
5.8
6.8
6.3
0.71
135/487
2/140
0.7
19.2
7. a
2.37
O/ 0
730/732
6.8
2B.9
17.5
5.59
O/ 3
248/248
31.4
31.4
31.4
0.00
243 / 2
I/ 1
17.3
32.2
26.6
2.33
Of 0
245/246
29.0
29.0
29.3
9.90
244/ 1
If 1
9.0
29.6
20.4
3.21
Of 0
245/246
29.9
31.4
30.2
1.70
693 / 2
2f 45
6.8
32.2
21.5
5.48
0/0
738/740
0.004
1.719
0.123
0.2314
Of 0
249/249
0.015
0.015
0.015
0.0000
31/208
If 8
0.004
2.559
0.135
0.2816
O/ O
246/247
O.013
0.013
0.913
0.0009
22/220
If 4
0.004
4.549
0.155
3.4098
Of 0
245/246
0.913
0.015
0.013
0.0014
67/645
2/ 30
0.094
4.549
0.137
3.3161
Of 0
740/742
0.001
1.209
0.057
0.1642
Of 0
249/249
0.006
0.006
0.005
0.0000
62/168
If 17
0.001
1.191
0.053
0. 1482
Of 0
246/247
0.012
0.012
0.011
3.1009
98/134
I/ 13
0.001
2.009
0.073
0. 2092
O/ 9
244/245
9.996
0.012
0.009
0.3042
156/361
2/222
3.301
2.039
O.O6O
0.1755
. O/ 0
739/741
0.924 0.022 0.199 10 0.0
9.745 0.635 4.699 248 142.0
0.870 0.107 0.796 70 18.6
1.4754 0.0953 0.6975 67.3 25.14
0/0 0/0 0/0 0/0 0/0
249/249 249/249 249/249 249/249 249/249
0.105 0.129 0.410 10 15.0
0.105 0.129 0.410 10 15.0
0.104 0.128 0.409 10 15.0
0.0000 0.0000 0.0000 0.0 0.00
88/156 IT*/ 70 29/216 0/229 192/ 48
1/3 1/3 1/2 If 18 If 7
0.025 0.034 0.215 10 0.0
6.857 0.719 7.149 334 210.0
0.495 0.119 1.220 74 14.1
0.8851 0.0880 1.0787 68.9 23.81
0/0 0/0 0/0 0/0 0/0
246/247 246/247 246/247 246/247 246/247
0.067 O.080 O.750 10 11.0
0.067 0.080 0.750 10 11.0
0.066 0.080 0.750 10 11.0
0.0000 0.9999 0.0990 0.0 0.00
91/153 138/105 111/132 0/225 187/ 50
1/2 1/3 1/3 I/ 21 I/ 9
0.017 0.020 0.199 10 0.0
4.469 3.024 8.199 291 90.0
0.343 0.122 1.120 73 9.6
0.5486 0.2236 1.9591 64.1 14.99
9/9 9/9 3/0 0/0 0/0
245/246 245/246 245/246 245/246 245/246
0.067 0.080 0.410 10 11.0
0.105 0.129 0.750 19 15.0
0.086 0.104 0.579 10 13.0
9.9268 0.0346 0.2404 0.0 2.83
164/478 355/178 151/362 0/668 500/166
2/109 2/209 2/229 2/74 2/76
0.917 0.020 0.199 10 0.0
9.745 3.024 8.199 334 219.0
O.571 0.116 1.044 72 14.1
1.0672 0.1489 0.9759 66.7 22.07
»/ 0 9/0 0/0 0/0 O/ 0
749/742 740/742 743/742 740/742 740/742
0
0
0
0.0
0
0
0
0.0
0
0
9
9.9
5859
5850
5850
0.9
3
0
0
0.0
0
5853
2925
4136.6
O
3
a
0.0
0.0
0.0
0.0
0.00
o.o
0.0
0.0
0.09
0.0
0.0
0.0
3.90
26.6
26.6
26.6
0.90
9.0
0.9
0.0
o.oe
0.0
26.6
13.3
18.77
O.O
0.0
a. o
0.00
-------
ttNUSiSPHACTOZOSMA
.£>
CO
TURB SECCHI
00
PARTIAL DEPTH VALUES
TEMP TOTALP ORTHOP N02N03
NH3
KJt. ALK
N/P
CONC PERC
R
0 0
0 1 0
N M
D
ft N
0 0
U 1 N
N D
0 0
N
P
0 D
U 2 0
N 1
0
R N
0 0
U 2 N
•« 0
0 0
M
K
0 0
039
N N
0
» N
0 0
U 3 N
N 0
P 0
M
R
•3*2
U L 0
K L M
0
« N
C A 0
U L N
N 1 D
0 0
M
HIM
HAX
NfAN
STDV
N>
a/UK
MIN
MAX
MEAN
STOV
«>
o/Hri
HIM
HAX
MEAN
STOV
N>
0/*R
WIN
MAX
MEAN
STOV
N>
>?/•»
MI*
MAX
MEAN
STtV
N>
3/t«
MIN
MAX
MEAN
S^OV
N>
C/H«
MIN
MAX
MEAN
STPV
N>
0/WB
MIN
»AX
MEAN
STOV
N>
C/WR
2.7
2.7
2.7
0.30
9/237
If 1
16.6
16.6
16.6
0.00
159/ 87
I/ 1
16.6
16.6
16.6
0.93
490/290
I/ 1
2.7
2.7
2.7
0.09
92/684
If 5
85
85
85
0.0
146/ 84
I/ 7
86
86
86
0.0
127/ 84
I/ 10
86
86
86
0.0
419/206
I/ 20
85
85
85
0.0
399/226
I/ 20
36
36
36
3.0
110/126
I/ 5
40
40
40
3.0
118/120
I/ 8
40
40
40
3.3
401/319
I/ 16
36
36
36
0.0
338/369
I/ 29
5.5
5.5
5.5
9.00
2/242
I/ 3
. 6.1
6.1
6.1
0.90
4/238
I/ 3
6.1
6.1
6.1
0.09
13/725
I/ 3
5.5
5.5
5.5
0.00
5/733
I/ 3
5.8
5.8
5.8
0.90
58/182
I/ 6
6.8
6.8
6.8
0.00
82/152
I/ 7
6.8
6.8
6.8
9.93
231/487
I/ 14
5.8
5i 8
5.8
0.39
105/616
I/ U
31.4
31.4
31.4
0.09
243/ 2
I/ 1
29.3
29.0
29.0
0.00
244/ 1
I/ 1
29.0
29.0
29.0
0.99
693/ 39
If 8
31.4
31.4
31.4
1.09
737/ 2
If 1
9.015
0.015
0.015
0.0900
31/208
I/ 8
0.013
0.013
0.013
0.0300
22/229
If 4
0.313
0.013
0.013
0.0)99
67/665
If 10
0.315
0.015
0.015
3.0033
86/645
If 11
0.006 0.105 0.129
0.006 0.105 0.129
0.005 0.104 0.128
0.0003 3.9399 0.0000
62/168 88/156 174/ 70
If 17 1/3 1/3
0.012 0.067 0.080
0.012 0.067 0.0*0
0.011 0.066 0.080
0.0000 0.0000 0.0000
98/134 91/153 138/195
If 13 If 2 1/3
3.912 9.967 0.080
0.012 0.067 0.980
0.011 0.066 0.080
9.3099 -0.9333 0.0300
3; 1/361 164/576 355/376
If 29 If 2 If 11
0.006 0.135 9.129
0.006 0.105 0.129
0.005 0.104 0.128
9.0030 0.9000 0.0039
158/536 269/478 559/176
If 47 1/4 1/5
0.410
0.410
0.409
0.0000
29/216
If 2
0.750
0.750
0.750
9.0090
111/132
If 3
3.750
9.750
0.750
0.0000
374/362
If 6
0.419
0.410
0.4O9
3.0330
151/587
I/ 4
10
10
10
0.0
0/229
If 18
10
19
10
3.9
0/225
If 21
19
13
10
0.0
0/668
If 74
10
10
1O
3.0
0/668
If 74
15.0
15.0
15.0
0.00
192/ 48
If 7
11.0
11.0
11.0
0.00
187/ 59
If 9
11.0
11.0
11.0
0.00
500/221
If 21
15.0
15.0
15.0
0.00
562/166
If 14
3
0
0
0.0
5859
5853
5850
0.0
5859
5853
5850
0.0
0
3
0
0.0
9.0
0.0
0.0
0.00
26.6
26.6
26.6
0.00
26. t
26.6
26.6
0.00
0.0
0.9
0.0
0.00
-------
CENUSi SPINOCOSMAMUN
PARTIAL DEPTH VALUES
CHLA
SECCHI
PH
00
TEMP TOTAL P ORTMOP N02N03
NH3
KJEL ALK
N/P
CONC
PERC
II
0 0
0 1 C
N C
0
* N
C 0
DIN
N 0
0 C
C
It
0 0
U 2 C
N C
D
P N
0 0
0 Z N
N 0
0 C
C
R
C O
0 3 C
N C
0
* N
0 0
U 3 N
N O
0 C
C
II
C * 0
0 L C
N L C
0
• N
0 A 0
U L N
H L 0
0 C
C
MIN
MAX
MEAN
STOW
N>
0/WR
NIN
MAX
NEAN
STOV
N>
O/UK
HIM
MAX
MEAN
STDV
N>
0/WR
NIN
PAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
PAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/WR
0.8 89 102 6.9 10.5 11.6
0.8 89 102 «,9 10.5 11.6
0.8 89 102 6.9 10.5 11.6
0.00 O.O 0.0 0.00 0.00 0.00
6/240 ISO/ 29 225/ 21 17/226 203/ 39 26/220
1/1 1/8 1/3 1/6 1/3 1/2
0.3 6 2 5.3 0.7 6.8
355.6 100 252 10.6 19.2 28.9
21.0 70 43 7.9 9.0 17.5
41.46 20.6 36.0 0.72 2.02 5.59
o/o o/o o/o o/ o o/ o o/o
246/247 186/187 248/249 248/249 244/245 247/248
1.4 4 1 4.1 3.0 17.3
595.0 121 222 10.6 17.8 32.2
34.4 72 49 7.8 7.0 26.6
62.58 24.0 35.8 0.89 1.98 2.35
0/0 0/0 0/0 0/0 0/0 O/O
247/247 237/237 241/241 247/247 246/246 246/246
9.8 1 6 4.7 1.6 9.0
241.4 100 185 10.3 13.5 29.6
23.2 74 50 7.6 7.3 20.4
34.27 23.1 35.0 0.84 1.61 3.25
3/9 0/0 0/0 0/0 0/0 0/0
2*7/2*7 221/221 246/246 245/245 241/241 246/246
0.8 89 102 6.9 10.5 11.6
0.8 89 102 6.9 10.5 11.6
0.8 89 132 6.9 10.5 11.6
0.00 0*0 0.0 0.00 0.00 0.00
6/732 479/146 663/ 69 110/614 673/ 55 27/711
I/ 3 11 20 I/ 4 I/ 17 I/ 4 1/2
0.3 1 1 4.1 0.7 6.8
595.0 121 252 10.6 19.2 32.2
26.2 72 47 7.8 7.8 21.5
47.95 . 22.7 25.7 0.83 2.07 5.48
0/0 0/00/0 O/ 0 O/ O O/O
743/741 644/645 735/736 740/741 791/732 739/740
0.004
0.004
0.003
0.0000
0/247
I/ 2
0.004
1.719
0.123
0.2318
O/ 0
248/249
0.004
2.559
0.134
0.2811
O/ 0
247/247
0.034
4.549
0.155
0.4091
O/ 0
246/246
0.004
0.034
O.003
0.0000
0/737
I/ 5
0.004
4.549
0.137
0.3159
O/ O
741/742
0.003
0.003
0.003
0.3010
27/210
I/ 12
0.001
1.209
0.057
0.1645
O/ 0
248/249
0.001
1.191
0.053
0.1479
O/ 0
247/247
0.3)1
2.039
0.070
0.2088
O/ 0
245/245
0.003
0.013
0.093
0.0000
38/672
I/ 31
0.001
2.009
0.060
0.1754
O/ 0
740/741
0.509
0.509
0.508
0.0309
158/ 90
I/ 1
0.024
9.745
0.871
1.4782
O/ 0
248/249
0.025
6.857
0.493
0.8836
01 0
247/247
0.017
4.469
0.342
O.S477
O/ 0
246/246
0.5O9
0.509
3.508
0.0000
547/194
\l 1
0.017
9.745
0.569
1.0667
O/ 0
741/742
0.085
0.065
0.085
0.0000
144/102
I/ 3
0.022
0.635
0.107
0.0955
O/ 0
248/249
0.034
0.719
0.120
0.0878
O/ 0
247/247
0.020
3.024
0.122
0.2232
O/ 0
246/246
0.085
0.085
0.085
0.0000
392/342
I/ 8
0.020
3.024
0.116
0.1488
O/ 0
741/742
0.232
0.232
0.231
0.0300
5/242
I/ 2
3.199
4.699
0.798
0.6980
O/ 0
248/249
0.215
7.149
1.217
1.0778
O/ 0
247/247
0.199
8.199
1.118
1.0572
O/ 0
246/246
0.232
0.232
0.231
0.0000
13/727
I/ 2
0.199
8.199
1.044
0.9751
O/O
741/742
11
11
11
0.0
35/208
I/ 6
10
248
70
67.4
O/ 0
248/249
10
334
73
68.9
O/ 0
247/247
10
291
73
64.1
O/ 0
246/246
11
11
11
0.0
74/649
I/ 19
10
334
72
66.7
01 0
741/742
120.0
120.0
120.0
0.00
24S/ 3
If 1
0.0
142.0
18.2
24.34
O/ 0
248/249
0.0
210.0
14.1
23.76
O/ 0
247/247
0.0
90.0
9.6
14.87
O/ 0
246/246
120.0
120.0
120.0
0.00
73 5/ 6
I/ 1
0.0
210.0
14.0
21.71
- O/ 0
741/742
0
0
0
0.0
0
0
0
0.0
0
0
0
0.0
0
0
3
0.0
0
0
a
3.0
0
0
0
0.0
0.0
0.0
0.0
0.30
0.0
0.0
O.O
0.00
0.0
o.o
0.0
0.30
0.0
0.0
0.0
0.00
..
O.O
O.O
0.0
0,30
0.0
0.0
0.0
0.00
-------
tn
CCNUSsSPINOCOSMlRIim
CHLA
« HIM
o g MX,
VIC MEAN
N N STDV
O N>
0/NR
TURB SECCHI
00
TEMP
PARTIAL DEPTH VALUES
TOTALP ORTHOP N02N03 NH3
KJEL ALK
N/P
CONC PERC
« II HIN
C 0 MAX
U 1 N MEAN
N O STOV
D «1 N>
N C/MR
* MIN
0 0 MAX
U 2 1 MEAN
N • STOV
0 N>
0/HR
R N HIN
0 0 MAX
u 2 N MEAN
N 0 STDV
0 0 N>
X C/MR
* MIN
0 3 MAX
u 3 o MEAN
N H JTCV
0 «*>
0/WR
0.8 89 102
0.8 89 102
0.8 89 102
0.00 O.O 0.0
6/240 ISO/ 29 225/ 21
1/1 1/8 1/3
6.9
6.9
6.9
0.00
17/226
I/ 6
10.5
10.9
10.9
0.00
203/ 39
I/ 3
11.6
11.6
11.6
0.00
26/220
I/ 2
0.004
O.O04
0.003
0.0000
0/247
I/ 2
0.003
O.OO3
0.003
0.0000
27/210
I/ 12
0.509
O.509
0.508
3.0000
158/ 90
I/ 1
0.085
0.085
0.085
O.OOOO
144/102
I/ 3
0.232
0.232
0.231
0.0000
5/242
I/ 2
11
11
11
0.0
35/208
I/ 6
120.0
120.0
120.0
0.00
24S/ 3
I/ 1
0 3.0
o o.o
0 O.O
o.o o.oo
0
U
N
0
«AX
MIAN
STOV
N>
• "IN
O A 0 «AX
u L o MCA*
N L « STOV
0 N>
0/H*
p
C A
U L
N L
0
N MIN
9 MAX
N MEAN
0 STOV
0.8
0.8
0.8
0.00
89
89
89
0.0
102
132
102
0.0
6.9
6.9
6.9
0.00
10.5
10.5
10.5
0.00
0/HR
6/732 479/146 663/ 69 113/614 673/ 55
I/ 3 It 20 1/4 1/17 1/4
11.6
11.6
11.6
0.00
27/711
I/ 2
0.004
3.734
0.333
0.0000
0/7S7
I/ 5
0.003
3.033
0.003
0.0000
0.509
3.539
0.508
O.OOOO
8/672 547/194
I/ 31 I/ 1
0.08S
3.085
0.08$
0.0000
192/342
I/ 8
0.232
0.232
0.231
0.0330
13/727
I/ 2
11
11
U
3.3
74/649
I/ 19
120.0
120.0
120.0
3.30
735/ 6
I/ 1
0
0
J
3. )
0.9
0.0
O.J
a. 33
-------
GCNUS:
R
0 0
U1C
N C
D
* N
P 0
U 1 N
N 0
0 C
C
ft
C 0
U 2 C
N C
0
« N
0 0
U 2 N
N 0
0 C
C
*
C 0
U 3 C
N C
0
* N
0 0
U 3 N
N O
0 C
C
R
O A 0
U I C
H 1 C
0
• N
C A 0
U t N
!» 10
0 C
C
SPIROGYRA
HIM
MAX
MEAN
STDV
N>
0/WR
N1N
MAX
MEAN
STOV
H>
0/WR
MIN
MAX
MEAN
STDV
N>
0/HR
H1N
MAX
MEAN
STOV
N>
C/WR
MIN
MAX.
MEAN
STOV
*>
0/MR
MIN
MAX
MEAN
STOV
N>
0/HR
MIN
MAX
MEAN
STOV
N>
0/HR
.MIN
MAX
MEAN
STOV
N>
0/WR
fHLA
6.9
6.4
6.9
3.30
115/129
I/ 3
0.3
355.6
21.0
*1.*7
O/ 0
2*6/2*7
1.*
595.0
3*.*
62.S6
3/ 3
2*7/2*7
O.B
2*1.*
23.2
a*. 27
3f 3
2*7/2*7
6.9
6.9
6.9
0.00
251/*83
11 8
0.3
595.0
26.2
*T.»5
3/ 0
7*3/7*1
TUPB
99999
-99999
0
0.0
187/ 0
O/ 0
6
100
71
20.6
3/ 0
187/187
*
121
72
2*.0
O/ 0
237/237
1
100
7*
23.1
3/ 9
221/221
99999
-99999
0
0.0
6*S/ 0
O/ 0
1
121
72
22.7
3/ 0
6*5/6*5
S5CCHI (>H 00 TEMP
36 8.5 9.6 19.0
36 8.5 9.6 19.0
36 8.5 9.6 19.0
0.0 0.00 0.33 0.03
13*/101 20*/ 3* 152/ 85 158/ 88
I/ 1« I/ 11 1/8 1/2
2 5.3 0.7 6.8
252 10.6 19.2 28.9
** 7.9 9.0 17.5
36.2 0.73 2.02 5.60
0/0 0/0 0/3 0/0
2*8/2*9 2*8/2*9 2**/2*5 2*7/2*8
1 *.l 3.0 17.3
222 10.6 17.8 32.2
*9 7.8 7.0 26.6
35.8 3.89 1.98 2.35
0/3 0/0 3/0 0/0
2*1/2*1 2*7/2*7 2*6/2*6 2*6/2*6
6 4.7 1.6 9.3
185 10.3 13.5 29.6
50 7.6 7.3 20.*
35.0 3.8* 1.61 3.25
0/0 0/0 3/3 3/0
2*6/2*6 2*5/2*5 2*1/2*1 2*6/2*6
36 8.5 9.6 19.3
36 8.5 9.6 19.3
36 8.5 9.6 19.0
3.0 0.00 0.00 0.00
338/369 61*/102 437/11* 2*1/*91
If 29 I/ 25 I/ 11 I/ 8
1 *.l 3.7 6.8
252 13.6 19.2 32.2
*8 7.8 7.8 21.5
35.7 0.83 2.07 5.50
0/0 0/0 0/0 0/0
735/736 7*3/7*1 731/732 739/7*3
PARTIAL DEPTH VALUES
TOTALP
0.028
0.028
0.027
0.0003
60/18*
If 5
0.00*
1.719
0.123
0.2318
O/ 0
2*8/2*9
0.00*
2.559
0.13*
0.2811
O/ 0
2*7/2*7
0.33*
*.S*9
0.155
O.*091
Of 3
2*6/2*6
0.328
0.328
0.027
0.0000
208/526
I/ 8
3.30*
*.5*9
0.137
0.3159
O/ 0
7*1/7*2
OUT HOP
0.032
0.002
0.001
0.3000
10/222
I/ 17
0.001
1.209
0.057
3.16*5
O/ 0
2*8/2*9
0.001
1.191
0.053
0.1*79
Of 0
2*7/2*7
0.001
2.009
0.070
0.2088
3/ 3
2*5/2*5
3.002
0.002
0.001
0.0000
1*/703
If 2*
0.001
2.039
0.060
0.175*
0/0
7*0/7*1
N02N03
3.038
0.038
0.037
0.3030
*/2**
If 1
0.02*
9.7*5
0.873
l.*775
Of 0
2*8/2*9
0.025
6.857
0.*93
0.8836
3/ 0
2*7/2*7
3.317
*.*69
0.3*2
0.5*77
O/ 0
2*6/2*6
0.038
0.038
0.037
0.0000
62/678
1/2
0.017
9.7*5
0.570
1.O666
Of 0
7*1/7*2
NH3
0.037
0.037
0.037
0.0000
17/230
If 2
0.022
0.635
0.107
0.095*
Of 0
2*8/2*9
0.03*
0.719
0.120
0.0878
Of 0
2*7/2*7
0.020
3.02*
0.122
0.2232
Of 0
2*6/2*6
0.037
0.037
0.037
0.0000
30/709
If 3
0.020
3.02*
0.116
0.1*88
Of 0
7*1/7*2
KJEL
0.625
0.625
0.625
0.0000
138/109
If 2
0.199
4.699
0.797
0.6988
Of 0
2*8/2*9
0.215
7.1*9
1.217
1.0778
Of 0
2*7/2*7
0.199
a. 199
1.118
1.0572
Of 0
2*6/2*6
0.625
3.625
0.625
O.OOOO
317/*22
If 3
0.199
8.199
1.3*3
0.9755
Of 0
7*1/7*2
ALK
115
115
115
0.0
190/ 58
If 1
10
2*8
70
67.*
Of 0
2*8/2*9
10
33*
73
68.9
Of 0
2*7/2*7
10
291
73
6*.l
O/ 0
2*6/2*6
115
115
115
0.0
563/17*
1/5
10
33*
72
66.7
Of 0
7*1/7*2
N/P
3.0
3.0
3.0
0.00
3*/198
If 17
0.0
1*2.0
18.7
25.17
Of 0
2*8/2*9
0.0
210.0
l*.l
23.76
Of 0
2*7/2*7
0.0
93.0
9.6
1*.8T
Of 0
2*6/2*6
3.0
3.0
3.0
0.00
1*6/53*
'.- If 62
0.0
210.0
l*.l
22.05
0/0
V*l/7*2
CONC PERC
0
0
0
0.0
0.0
0.0
0.0
0.00
0 0.0
0 0.0
0 0.0
0.0 0.00
0 0.0
3 0.0
3 0.0
0.0 0.00
0 0.0
3 0.0
0 0.0
0.0 O.OO
0 0.-0
3 3.0
3 0.0
o.o 0.00
0 0.0
0 0.0
0 0.0
3.3 3.3*
-------
CCNUStSPlRQCVRA
CHLA TURB SECCHI PH 00 TEMP
R NM
0 0 MAX
010 NEAH
N * STOV
D N>
0/HR
R N HIM 6.9 99999 36 8.5 9.6 19.0
0 0 MAX 6.9 -99999 36 8.5 9.6 19.0
U 1 N MEA* 6.9 0 36 8.5 9.6 19.0
N 0 STOV O.OO 0.0 0.0 0.00 0.00 0.00
0 0 N> 115/129 187/ 0 134/101 204/ 34 1S2/ 85 158/ 88
N O/M« 1/3 0/0 I/ 14 I/ 11 1/8 1/2
R MIN
0 0 MAX
U 2 0 MEAN
N H STOV
0 N>
O/HR
R N MIN
C G MAX
u 2 N MEAN
N D STDV
0 C N>
R HIM
0 0 MAX
U 3 0 MEAN
N M STOV
0 t>
C/UR
• N HIM
C 0 MAX
U 3 N 1EA*
N 0 !TDV
0 0 *>
«t 0/MR
• **IN
0 A 0 M*X
U L 0 »E*N
N L H STOV
0 N>
0/M«
PARTIAL DEPTH VALUES
TCTALP ORTHOP H02N03 MH3 KJEL ALK
0.028 0.002 0.038 0.037 0.625 115
0.028 0.002 0.038 0.037 0.625 115
0.027 O.OO1 0.037 0.037 0.625 115
0.0000 0.0000 0.0000 0.0000 0.0000 0.0
60/184 10/222 4/244 17/230 138/1O9 190/ 58
I/ 5 I/ 17 1/1 1/2 1/2 1/1
N/P
3.0
3.0
3.0
0.00
34/198
I/ 17
• N XI* 6.9 99999 36 8.5 9.6 19.3 3.328 0.032 0.338 0.037 0,625 115 3.0
C * 1 MAX 6.9 -99999 36 8.5 9.6 19.0 0.028 0.032 0.038 0.037 3.625 Hi 3.0
U L N «EAN 6.V 0 36 8.5 9.6 19.0 0.027 0.001 0.037 0.037 0.625 115 3.0
N L 0 STOV 3.03 0.0 3.3 0.03 0.33 3.33 0.0330 0.3033 3.0000 0.0000 0.0000 0.0 0.00
0 0 N> 250/483 645/ 0 338/369 614/102 607/114 241/491 208/526 14/703 62/678 30/709 317/422 563/174 146/534
1 0/M« 1/8 0/0 I/ 29 I/ 25 I/ 11 1/8 1/8 I/ 24 1/2 1/3 1/3 1/5 I/ 62
CONC PERC
0 0.0
0 0.0
0 0.0
0.0 0.00
0 0.0
a a.3
3 0.3
o.o o.oo
-------
GENUS: SP1RULIMA
PARTIAL DEPTH VALUES
CHI A
TURB SECCHI
PH
00
TEMP TOTALP ORTHOP
NH3
KJEL ALK
N/P
CONC PERC
00
R
0 0
U 1 r
N C
0
« N
0 0
U 1 N
N 0
0 C
C
•
0 0
U 2 C
N C
0
« N
O 0
U 2 N
N 0
0 C
C
Ri
0 0
U 3 C
N C
0
R N
O 0
U 3 N
N O
0 C
C
R
C A 0
U L C
* L C
0.
• N
0 A 0
U L N
N L 0
D C
C
NTN
•UX
NEAN
STDV
N>
0/MR
NIN
MAX
MEAN
STDV
N>
0/MR
HlN
«AX
MEAN
STOV
N>
0/MR
MIN
MAX
MEAN
STOV
N>
C/MR
MIN
MAX
MEAN
STOV
N>
0/MR
MIN
MAX
MEAN
STOV
N>
C/NR
MIN
MAX
MEAN
STDV
N>
0/MR
MIN
1AX
MEAN
STDV
N>
0/MR
22.1
22. e
22. »
0.09
193/ 52
I/ 2
0.3
355.6
20.9
41.48
O/ 0
246/2*7
27. 5
206.7
117.1
126.T1
IT*/ *
2/ 69
1.4
595.0
33.8
61.86
O/ 0
245/247
7.0
10.9
8.9
2.76
82/119
2/ 46
0.8
241.4
23.3
34.38
O/ 0
245/247
7.0
206.7
55.0
85.23
258/ 10
5/473
0.3
595.0
26.0
47.62
O/ 3
736/741
62
62
62
0.0
47/138
I/ 2
6
100
71
20.6
O/ 0
186/187
5
52
29
33.2
1/189
2/ 47
4
121
72
23.6
O/ 0
235/237
85
86
86
0.7
120/ 84
2/ 17
1
100
74
23.2
O/ 0
219/221
5
86
58
33.1
3/206
5/436
1
121
72
22.6
O/ 0
640/645
21
21
21
0.0
67/174
I/ 8
2
252
44
36.2
O/ 0
248/249
6
29
18
16.3
1/160
2/ 80
1
222
49
35.8
O/ 0
239/241
39
39
39
0.0
114/128
2/ 4
6
185
50
35.1
O/ 0
244/246
6
39
27
13.9
5/3J5
5/396
1
252
48
35.8
O/ 0
731/736
9.3
9.3
9.3
0.00
23 8/ 8
I/ 3
5.3
10.6
7.9
0.72
O/ 0
248/249
8.0
8.3
8.1
0.21
137/ 62
2/ 48
4.1
10.6
7.8
0.89
O/ 0
245/247
7.1
8.4
7.7
0.92
74/ 37
2/134
4.7
10.3
7.6
0.84
O/ 0
243/245
7.1
9.3
8.2
0.79
152/ 20
5/569
4.1
10.6
7.7
0.83
O/ 0
736/741
9.2
9.2
9.2
0.30
120/113
I/ 12
0.7
19.2
9.O
2.02
O/ 0
244/245
6.3
7.4
6.8
0.78
83/ 76
2/ 87
3.0
17.8
7.0
1.99
O/ 0
244/246
7.9
8.4
8.1
0.35
1S2/ 43
2/ 46
1.6
13.5
7.3
1.61
O/ 3
239/241
6.3
9.2
7.8
1.09
152/151
5/429
0.7
19.2
7.8
2.08
O/ t
727/732
25.7 0.097
25.7 0.097
25.7 0.096
0.00 0.0000
219/ 25 170/ 77
1/4 1/2
6. 8 0. 004
28.9 1.719
17.5 0.123
5.58 0.2319
0/0 0/0
247/248 248/249
24.9 0.059
30.1 0.867
27. 9 0.463
3.68 O.ST13
58/ 6 141/ 9
2/182 2/ 97
17.3 0.004
32.2 2.559
26.6 0.132
2.34 0.2783
0/0 0/0
244/246 245/247
18.3 0.039
21.2 0.069
19. 7 0. 053
2.05 0.0212
6V 89 88/101
2/ 93 2/ 57
9. 0 0. 004
29.6 4.549
20.4 0.155
3.26 0.4106
0/0 0/0
244/246 244/246
18.3 0.039
30.1 0.867
24.0 O.226
4.51 0.3588
21 7/ 6 284/ 26
5/517 5/432
6. 8 0. 034
32.2 4.549
21.5 0.137
5.50 0.3156
O/ 0 0/9
735/740 737/742
0.011
9.011
0.011
0.0000
115/123
I/ 11
0.001
1.209
0.057
0.1646
O/ 0
248/249
0.007
0.036
0.021
0.0205
79/ 47
2/121
0.001
1.191
0.053
0. 1485
O/ O
245/247
0.007
0.021
0.013
0.0998
42/ 93
2/110
0.001
2.009
0.070
0.2096
O/ 0
243/245
0.007
0.036
0.016
0.0123
205/166
5/370
0.001
2.319
0. 060
0.1759
O/ 0
736/741
0.162 0.169 2.665 100 3.0
3.162 0.169 2.665 103 3.0
0.161 0.168 2.664 100 3.0
0.0000 0.0000 0.0000 O.O 0.00
78/170 214/ 34 241 / 7 182/ 66 34/198
1/1 1/1 1/1 1/1 I/ 17
0.024 0.022 0.199 10 0.0
9.745 0.635 4.699 248 142.0
0.873 0.106 0.788 70 18.7
1.4777 0.0954 0.6887 67.5 25.17
0/0 0/0 0/0 0/0 0/0
248/249 248/249 248/249 248/249 248/249
0.149 0.129 1.099 141 0.0
2.184 0.199 3.599 156 39.0
1.166 0.163 2.348 149 19.5
1.4389 0.0494 1.7677 10.6 27.58
117/ 13 174/ 24 149/ 12 20 B/ 33 O/ 23
2/117 2/ 49 2/ 86 21 6 2/224
0.025 0.034 0.215 10 0.0
6.857 0.719 7.149 334 210.0
0.488 0.119 1.207 73 14.0
0.8893 0.0880 1.0713 68.8 23.79
0/0 Of 0 0/0 0/0 0/0
245/247 245/247 245/247 245/247 245/247
0.039 0.041 0.599 17 2.0
0.909 0.079 0.982 197 15.0
0.473 0.059 0.790 107 8.5
0.6151 0.0266 0.2708 127.3 9.19
45/ 30 17/108 SI/ 98 46/ 14 42/ 32
2/171 2/121 2/ 67 2/186 2/172
0.017 0.020 0.199 10 0.0
4.469 3.024 8.199 291 90.0
0.341 0.123 1.121 73 9.6
0.5484 0.2240 1.0610 63.7 14.92
0/0 0/0 0/0 0/3 0/0
244/246 244/246 244/246 244/246 244/246
0.039 0.041 3.599 17 0.0
2.184 0.199 3.599 197 39.0
0.688 0.123 1.788 122 11.8
0.9048 0.0643 1.2832 68.3 16.30
64/ 42 SI/ 73 287/- 24 1647 53 O/ 71
5/636 5/618 5/431 5/528 5/671
0.917 0.020 0.199 10 O.O
9.745 3.024 8.199 334 210.0
0.569 0.116 1.038 72 14.1
1.0675 0.1491 0.9717 66.6 22.08
0/00/00/0 0/0 0/0
737/742 737/742 737/742 737/742 737/742
0
0
0
0.0
0
0
0
0.0
0
604
302
427.1
3
0
0
0.0
13
22
18
6.4
0
3
0
0.0
0
604
128
266.4
0
3
0
0.0
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.30
0.0
0.4
0.2
0.28
0.0
0.0
0.0
0.00
0.1
0.2
0.1
0.02
0.0
0.0
O.O
o.oo
0.0
0.4
0.1
0.16
O.O
0.0
0.0
0.00
-------
CENUSiSPIRULINA
CHLA
TtffB SECCHI
00
PARTIAL DEPTH VALUES
TEMP TOTALP ORTHOP N02N03 MH3
KJEL AtK
N/P
CONC PERC
ft MIN
O 0 MAX
U t 0 MEAN
N M STOV
D H>
0/MR
* N NIN
O 0 MM
U 1 N MEAN
N D STOV
O O N>
M 0/WR
M MIN
O D MAX
U 2 0 MEAN
N M STDV
O . N>
0/WR
• N MIN
O 1 MAX
u 2 N MEAN
N 0 STOV
O P N>
« 0/MR
• MIN
0 D MIX
U 3 0 MEAN
N M STOV
0 N>
3/hR
R N MIN
P 0 MAX
0 3 N HF»H
N 0 STOV
0 0 «K/>
•1 "/MR
• MIN
15 A o MAX
U L 0 MEAN
N 1 M STOV
0 N>
O/MR
R N NIN
C A 0 «AX
U L N MEAN
N t 0 STPV
0 1 N>
« 0/MR
22.8
22.8
22.8
0.00
193/ 92
I/ 2
27.5
206.7
117.1
126.71
174/ 4
2/69
7.0
10.9
•.9
2.76
82/119
2/ 46
7.0
206.7
55.3
•9.23
298/ 10
5/473
62
62
62
0.0
47/138
I/ 2
5
52
29
33.2
1/189
2/ 47
85
86
86
0.7
12 O/ 84
2/ 17
5
16
58
33.1
3/206
5/4J6
21
21
21
0.0
67/174
I/ 8
6
29
18
16.3
1/160
2/ 80
39
39
39
3.3
114/128
2/ 4
6
39
27
13.9
9.3
9.3
9.3
0.00
23 •/ 8
»/ 3
8.0
8.3
8.1
0.21
137/ 62
21 48
7.1
8.4
7.7
0.92
74/ 37
2/134
7.1
9.3
8.2
0.79
9.2
9.2
9.2
0.00
120/113
1/12
6.3
7.4
6.8
0.78
83/ 76
2/ 87
7.' 9
8.4
8.1
0.35
IS2/ 43
2/ 46
6.3
9.2
7.8
1.39
25.7 0.097
25.7 0.097
25.7 0.096
0.00 0.0003
219/ 25 170/ 77
1/4 1/2
24.9 0.059
39.1 0.867
27.5 0.463
3.68 0.5713
58/ 6 141/ 9
2/182 21 97
18.3 0.339
21.2 0.069
19.7 0.053
2.05 3.0212
64/ 89 88/101
Z/ 93 2/ 57
18.3 0.039
30. 1 0. 867
24.0 O.Z26
4.51 3.3588
0.011 0.162
0.011 O.162
0.011 0.161
0.0000 0.0030
115/123 78/170
I/ 11 I/ 1
0.007 0.149
0.036 2.184
0.021 1.166
0.0205 1.4389
79/ 47 HT/ 13
2/121 2/117
3.037 0.039
O.OZ1 0.909
0.013 0.473
3.3098 0.6151
42/ 93 4S/ 30
2/110 2/171
3.037 0.339
0.036 2.18*
0.016 0.688
0.0123 0.9048
5/335 152/ 20 152/151 217/ 6 Z84/ 26 205/166 64/ 42
5/396
5/569
5/429
5/517 5/432
5/370 5/636
0.169 2.665
0.169 Z.665
0.168 2.664
0.0030 0.0000
214/ 34 241/ 7
1/1 1/1
0.129 1.099
0.199 3.599
0.163 2.348
0.0494 1.7677
174/ 24 149/ 12
21 49 21 86
0.041 0.599
0.079 0.982
0.059 0.790
0.0268 0.2708
17/108 81/ 98
2/121 21 67
0.041 3.599
0.199 3.599
0.123 1.788
0.0643 1.2832
51/ 73 287/ 24
5/618 5/431
103
100
100
0.0
182/ 66
I/ 1
141
156
149
10.6
208/ 33
2/ 6
17
197
107
127.3
4C/ 14
2/186
17
197
122
68.3
164/ S3
5/528
3.0
3.0
3.0
0.00
34/198
I/ 17
0.0
39.0
19.5
27.58
O/ 23
2/224
2.0
15.0
8.5
9.19
42 / 32
2/172
0.0
39.3
11.8
16.30
O/ 71
5/671
0 0.0
3 0.0
O 0.0
0.0 0.00
0 0.0
604 0.4
332 0.2
427.1 0.28
13 0.1
22 0.2
18 0.1
6.4 0.02
0 0.0
654 0.4
128 0.1
266.4 0.16
-------
CfNUSl SPONDYIOS1UM
PARTIAL DEPTH VALUES
CHLA
TUMB SECCHI
PH
DO
TEMP T0TALP ORTHOP NO2N03
NH3
KJEL ALK
N/P
CONC PERC
cn
o
R
c o
U 1 C
N C
D
R N
0 0
U 1 N
N 0
0 C
C
R
0 0
U 2 C
N C
0
R N
0 0
U 2 N
N 0
0 r
C
R
0 O
U 3 C
N C
P
P N
0 0
03*
N 0
0 C
C
R
0 A 0
u L r
1.1 C
0
* N
« A 0
U L N
K..L (T
0 C
C
«M
MX
MEAN
STDV
N>
O/WP
MI*
MAX
MEAN
STOV
H>
0/NR
MIN
MAX
MEAN
STDV
N>
0/WR
MIN
MAX
MEAN
STPV
N>
0/HR
MIN
PAX
ME»N
STOV
N>
0/«
MIN
MAX
MEAN
STOV
N>
O/WP
MIN
MAX
MEAN
STOV
M>
P/KR
MIN
MM
MEAN
STOV
f>
O/WP
9.0 66 Z7 7.S 10.3
28.5 100 93 9.1 12.1
18.8 S3 60 8.3 11.0
13.79 24.0 46.7 1.13 1.48
133/ 44 65/ 0 95/ 26 59/ 12 175/ 8
2/ 70 2/122 2/128 2/178 2/ 62
0.3 6 2 5.3 0.7
355.6 190 252 10.6 19.2
21.0 70 43 7.9 9.9
41.56 20.6 36.2 0.72 2.02
0/9 0/0 0/0 0/0 0/0
249/247 185/187 247/249 247/249 243/249
6.2 78 35 6.4 6.4
37.9 86 60 7.9 9.7
16.7 82 48 7.0 7.9
18.91 9.7 17.7 0.78 1.66
46/ 60 101/ 78 103/ 60 15/110 86/ 16
3/141 2/ 58 2/ 78 3/122 3/144
1.4 4 1 4.1 3.0
595.0 121 222 10.6 17.8
34.7 72 49 7.8 7.0
62.92 24.1 35.9 0.89 1.98
0/0 0/0 0/0 0/0 0/0
244/247 235/237 239/241 244/247 243/246
4.2 90 37 6.7 7.7
19.0 90 157 7.1 8.0
11.6 90 97 6.9 7.8
10.47 0.0 84.9 0.28 0.21
37/ 76 158/ 51 104/ 3 30/166 137/ 73
2/134 2/ 12 2/139 2/ 49 2/ 31
0.8 1 6 4.7 1.6
241.4 100 185 10.3 13.5
23.3 74 SO 7.6 7.3
34.38 23.1 34.4 0.84 1.62
V J 9/0 0/9 0/9 0/9
245/247 219/221 244/246 243/245 239/241
4.2 66 27 6.4 6.4
37.5 100 157 9.1 12.1
15.8 85 68 7.4 8.8
12.93 11.7 49.7 0.92 1.91
•119/137 187/3 217/11 SO/ 30 161/ 16
7/485 6/455 6/598 7/68" 7/555
9.? 1 . 1 4.1 3.7
595.9 121 252 10.6 19.2
26.3 72 47 7.8 7.8
48.13 22.8 35.6 0.83 2.07
9/ 9 9/ 0 O/ JO/ 0 O/ 9
734/741 639/645 730/736 734/741 725/732
9.2
26.5
17.8
12.23
4/ 19
2/225
6.8
28.9
17.5
5.56
O/ 0
246/248
28.7
28.9
28.8
9.11
187/ 45
3/ 14
17.3
32.2
26.6
2.35
O/ 0
243/246
20.1
23.1
21.6
2.12
120/ 51
2/ 75
9.0
29.6
20.4
3.26
O/ 0
244/246
9.2
28.9
23.6
7.19
if 47
7/688
6.8
32.2
21.5
5.48
O/ 0
733/740
0.013
0.045
O.028
0. 0226
19/146
2/ 84
0.004
1.719
0.123
0.2322
O/ 0
247/249
0.021
0.046
0.035
0.0130
55/124
3/ 68
0.004
2.559
0.136
0.2827
O/ 0
244/247
0.013
0.036
0.024
0.0162
22/161
2/ 63
0.004
4.549
0.156
0.4106
O/ 0
244/246
0.013
0.046
0.030
0.0145
67/411
7/264
0.004
4.549
0.138
0.3170
Of' 0
735/742
0.003
0.007
0.095
0.0028
27/153
2/ 69
0.001
1.209
0.057
0.1648
O/ 0
247/249
0.006
0.02B
0.013
0.0127
62/ 58
3/127
0.001
1.191
0.054
0.1487
O/ 0
244/247
0.004
0.010
0.007
0.0042
8/155
2/ 82
0.001
2.009
0.070
0.2096
O/ 0
243/245
0.003
0.028
0.009
0.0086
38/203
7/500
0.001
2.009
0.060
0.1761
Of 0-
734/741
0.092
0.164
0.127
0.0509
44/169
21 36
0.024
9.745
0.876
1.4799
O/ 0
247/249
0.050
0.117
0.088
0.0346
21/150
3/ 76
0.02S
6.857
0.498
0.8879
O/ 0
244/247
0.024
0.052
0.037
0. 9197
6/170
2/ 70
0.017
4.469
0.344
0.5493
O/ 0
244/246
0.024
0.164
0.085
0.0475
6/385
7/351
0.017
9.745
0.574
1.0700
O/ 0
735/742
0.032 0.332
0.164 1.549
0.097 0.940
0.0933 0.8605
5/ 37 3B/ 26
2/207 2/185
O.022 0.199
0.635 4.699
0.107 0.795
0.0955 0.6981
0/0 0/0
247/249 247/249
0.052 0.599
0.116 2.000
0.075 1.274
0.0351 0.7018
25/ 86 SO/ 37
3/136 3/130
0.034 0.215
0.719 7.149
0.120 1.216
0.9881 1.9825
0/0 0/0
244/247 244/247
0.037 0.610
0.056 1.500
0.046 1.054
0.9134 0.6293
10/170 87/ 49
2/ 66 2/110
0.020 0.199
3.024 8.199
0.123 1.119
0.2240 1.0608
0/0 0/0
244/246 244/246
0.032 0.332
0.164 2.000
0.973 1.116
0. 0483 0. 6145
7/123 "83/ 80
7/612 7/579
. 0.020 0.199
3. 024 8. 199
0.117 1.042
0.1493 0.9780
01 O 0/0
735/742 735/742
12
37
25
*7.7
41/130
2/ 78
10
248
70
67.5
O/ 0
247/249
14
20
17
3.1
37/184
3/ 26
10
334
74
69.0
O/ 0
244/247
14
18
16
2.8
32/187
2/ 27
10
291
73
64.1
O/ 0
244/246
12
37
19
8.5
93/417
7/232
10
334
73
66.8
O/ 0
735/742
7.0
9.0
8.0
1.41
100/117
2/ 32
0.0
142.0
18.7
25.22
O/ 0
247/249
3.0
7.0
5.3
2.08
44/109
3/ 94
0.0
210.0
14.2
23.89
O/ 0
244/247
3.0
5.0
4.0
1.41
68/110
2/ 68
0.0
99.0
9.7
14.93
O/ 0
244/246
3.0
9.0
5.7
2.21
146/269
7/327
0.0
210.0
14.2
22.13
O/ 0
735/742
125
703
414
408.7
0
0
0
9.0
119
616
365
248.5
0
0
0
0.0
0
0
0
0.0
0
0
9
0.0
0
703
275
290.1
0
0
0
0.9
0.6
1.9
1.3
0.89
0.0
0.0
0.0
0.00
1.3
22.9
8.6
12.41
0.0
0.0
0.0
0.00
0,0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.0
22.9
4.0
8.36
0.0
0.0
0.0
0.00
-------
cn
CCNUSsSPONOYLOSIUH
CMLA
TUK0 SSCCH1
PH
DO
PARTIAL DEPTH VALUES
TEMP TQTALP JRTHOP N02N03 NK»
ALK
N/P
CONC PEPC
* HIM
0 0 KM
010 MEAM
N t STDV
0 N>
0/HR
* N NIN
O 0 MAX
U 1 N MEA1
N D STDV
0 1 N>
K D/UK
It HIM
0 0 XAX
U 2 0 MEAN
N * STOV
0 N>
0/w«
• N MIN
0 0 MAX
U 2 N MEAN
N D STOW
C 0 N>
M 3/M*
M MIN
r o NAX
u 3 o MEAN
N N STOV
0 N>
0/H*
« N NIN
C 0 "AX
0 3 N MEAN
N 9 STOV
0 C N>
1 •?/*»
V MIN
o » o "AX
u L •: «E*N
Nil STOV
0 N>
9/M*
• ^1 HTM
w » "11
0*0 "AX
U L N MEAN
N t 0 STOV
0 •) N>
« 0/WK
9.0 66 27
26.5 100 93
18.8 83 60
13.79 24.0 46.7
133/ 44 65/ 0 95/ 26
2/ 70 2/122 2/128
6.4 99999 99999
6.4 -99999 -99999
6.4 0 9
0.00 0.0 0.0
49/195 23 7/ C 2*1 / 0
1/3 0/00/0
6.2 78 35
37.5 86 60
21.8 82 48
22.13 5.7 17.7
46/ 60 101 / 78 103/ 60
2/141 2/ 58 2/ 78
4.2 90 37
19.0 90 157
11.6 90 97
10.47 0.0 84.9
37/ 76 158/ 51 104/ 3
2/134 2/ 12 2/139
6.4 99999 99999
6.4 -99999 -99999
6.4 0 0
0.00 0.0 3.3
232/505 645/ 0 736/ 0
1/4 9/0 0/0
49 A A 9T
• £ OO C 1
37.5 100 157
17.4 85 68
13.42 11.7 49.7
119/137 187/ 3 ii7/ 11
6/405 6/455 6/53*
7.5 10.0
9.1 12.1
8.3 11.0
1.13 1.48
59/12 175/ 8
2/178 2/ 62
6.8 9.7
6.8 9.7
6.8 9.7
0.00 0.09
32/210 229/ 16
1/5 1/1
6.4 6.4
7.9 7.7
7.1 7.0
1.06 0.92
15/110 86/ 67
2/122 2/ 93
6.7 7.7
7.1 8.0
6.9 7.8
0.28 3.21
30/166 137/ 73
2/ 49 2/ 31
6.8 9.7
6.8 9.7
6.8 9.7
3.00 a. 30
80/631 618/102
I/ 30 I/ 12
9.1 12.1
7.4 8.6
0.97 2.05
30/ 30 16 1/ 16
6/tei 6/555
9.2
0.013
26.5 O.O45
17.8
12.23
4/ 19
2/225
28.7
28.7
28.7
0.00
187/ 57
I/ 2
28.9
28.9
28.9
3.04
192/ 45
2/ 9
20.1
23.1
21.6
2.12
123/ 51
2/ 75
28.7
28.7
28.7
0.33
676/ 61
I/ 3
28.9
22.8
7.49
S/ 47
6/6«8
0.028
9.0226
19/146
2/ 84
0.021
0.021
0.021
0.0030
55/187
I/ 5
0.040
0.046
0.042
3.0042
112/124
2/ 11
9.313
0.036
0.024
0.0162
22/161
2/ 63
0.321
0.021
0.021
3.0033
O.OU3
O.O07
0.005
3.3028
27/153
2/ 69
0.006
0.006
0.005
0.0000
62/168
1/17
0.006
0.028
0.017
3.0155
62/ 58
2/127
0.004
0.010
0.007
0.0042
8/155
2/ 82
9.906
0.006
0.005
3.0300
0.092
0.164
0.127
0.0509
44/169
If 36
0.099
0.099
O.O98
0.0030
81/163
I/ 3
0.050
0.117
0.083
0.0473
21/150
2/ 76
0.924
0.052
0.037
0.0197
6/170
2/ 70
3.099
0.099
0.098
3.0333
0.032 3.332
0.164 1.549
0.097 0.940
0.0933 0.8605
5/37 38/ 26
2/207 2/185
0.059 0.599
0.059 O.599
0.058 0.598
0.0000 0.0000
38/205 80/164
1/4 1/3
0.052 1.224
0.116 2.000
0.084 1.611
0.0452 0.5487
25/ 86 168/ 37
2/136 Zf 42
3.037 0.610
0.056 1. 503
0.046 1.054
0.0134 3.6293
10/173 87/ 49
2/ 66 2/110
0.059 9.599
O.O59 0.599
0.058 0.598
0.0300 3.3390
147/588 158/536 247/490 184/537 287/440
I/ 7
0.046
3.332
3.0152
67/411
6/264
I/ 47
0/1A9
. WU 3
0.028
9.339
3.0093
38/203
6/500
If 5
0*1? A
• OC4
0.164
0.083
3.0516
6/385
6/351
I/ 21 I/ 15
0/11? 1 13?
• U3£ «J»JJ*
0.164 2.000
0.076 1.202
3.0524 3.6251
7/123 83/ 80
6/612 6/579
12
37
25
17.7
41/130
Zf 78
14
14
14
0.0
37/208
I/ 2
16
20
18
2.8
40/184
2/ 23
14
18
16
2.8
32/187
2/ 27
14
14
14
].0
7.0
9.0
8.0
1.41
100/117
2/ 32
7.0
7.0
7.0
0.00
117/109
I/ 21
3.0
6.0
4.5
2.12
44/130
2/ 73
3.0
5.0
4.0
1.41
68/113
21 68
7.0
7.0
7.0
0.00
125
703
414
408.7
361
361
361
0.0
119
616
368
351.4
3
J
0
0.0
361
361
361
0.0
0.6
1.9
1.3
0.89
22.9
22.9
22.9
O.OO
1.3
1.6
1.4
0.19
0.0
3.3
0.0
0.00
22.9
22.9
22.9
C. 00
125/631 366/325
I/ 16
1 2
A£
37
20
9.0
I/ 51
3.0
9.0
5.5
2.35
3
733
261
315.1
0. J
1.9
0.9
0.81
93/417 146/269
6/232
6/327
-------
01
GENUS! STAUUStPUN
CNLA
SECCHI
PH
00
PAKTIAL DEPTH VALUES
TOTAL' ORTHO" N02N03 MH3
KJEL ALK
N/P
CONC PERC
R
C 0
U 1 C
N C
0
• N
0 9
U 1 N
N 0
0 C
C
•
0 0
U 2 C
N C
0
R N
•) 0
U 2 N
N O
0 C
C
,
0 O
U 3 C
N C
0
« N
C. 0
U 3 N
N 0
D C
C
R
0 A 0
U L C
N L C
y
R N
PA 0
U L N
»l t 1
D C
C
MIN
MAX
MEAN
STDV
N>
P/WR
MIN
MAX
MEAN
STPV
N>
C/HR
MIH
MAX
MEAN
STDV
N>
C/WR
MIN
MAX
MEAN
STDV
N>
P/HR
MIN
MAX
NEAN
STPV
f|>
P/WR
Nil"
«»AX
MEAN
STCV
N>
n/wR
MIN
MAX
MFAN
STOV
W>
P/WR
MIN
PAX
MEAN
STOV
CK/>
P/WR
1.5
247.1
28.3
.44.07
8/ 2
52/237
0.3
355.6
19.0
40.55
O/ 0
195/247
1.4
312.0
30.8
43.94
O/ 2
108/245
l.S
595.0
37.3
74.34
I/ 9
139/246
1.2
171.5
22.5
27.45
4/ 3
111/240
3.8
241.4
23.7
39.05
O/ 0
136/247
1.2
312.3
26.9
37.71
ll/ 3
271/727
0.3
595.9
25.8
52.96
O/ 0
473/761
6
100
74
19.9
O/ 0
43/187
8
100
70
20.8
I/ 0
144/186
13
107
75
21.1
7/ 1
102/229
4
121
70
25.7
9/ 0
135/237
13
99
76
19.9
6/ 1
96/214
1
193
73
25.3
9/ 0
125/221
6
137
75
20.4
5/ 1
241/639
1
121
71
23.9
o/ o
4)4/645
5
168
37
28.4
2/ 3
52/244
2
252
45
37.9
O/ 0
197/249
6
222
51
35.7
I/ 0
106/240
1
216
47
36.9
O/ 1
135/240
11
185
51
32.4
t/ 9
111/241
6
169
59
37.1
O/ 1
135/245
- 5
222
48
33.3
3/ 1
269/732
1
252
47
37.1
9/ 0
467/736
6.2
9.7
7.9
0.83
2/ 2
52/245
5.3
10.6
7.9
0.79
O/ 0
197/249
5.5
9.4
7.7
1.83
2/ 6
108/239
4.1
10.6
7.8
0.94
O/ 9
139/247
5.6
9.3
7.5
0.85
I/ 4
139/249
4.7
19.3
7.7
9.82
9/ 0
136/245
5.5
9.7
7.7
0.85
S/ 8
269/728
4.1
10.6
7.8
9.81
01 0
472/741
3.8
12.1
8.2
1.79
4/ 8
52/2)3
0.7
19.2
9.2
2.93
O/ 0
193/245
3.3
15.2
7.0
1.73
4/ 2
108/240
3.0
17.8
7.0
2.16
3/ J
138/246
1.6
12.7
7.4
1.72
O/ 1
199/240
2.8
13.5
7.2
1.51
2/ 0
132/239
1.6
15.2
7.4
1.79
If 4
269/727
O.T
19.2
8.0
2.20
O/ 0
463/732
9.2
28.9
29.3
5.74
4/ 0
52/244
6.8
28.8
16.8
5.32
O/ 1
196/247
20.1
31.4
26.8
2.25
I/ 2
107/243
17.3
32.2
26.4
2.42
Of 0
139/246
9.3
25.0
20.7
3.55
O/ 1
110/245
13.7
29.6
29.2
2.97
3/ 0
136/243
9.0
31.4
23.0
4.77
3/ 2
269/735
6.8
32.2
20.6
5.69
O/ 0
471/740
0.010 0.002 0.038 0.032 0.282 10
0.716 0.616 4.389 0.554 3.199 199
9.117 9.051 0.497 3.128 1.976 52
9.1483 9.1216 9.7119 9.1129 9.7564 51.5
12/ 8 10/ 5 4/9 5/1 21/ 3 O/ 15
52/229 52/234 52/236 52/243 52/225 52/234
0.004 0.001 0.024 0.022 0.199 10
1.719 1.209 9.745 0.635 4.699 248
0.124 0.058 0.992 0.101 0.722 75
0.2491 0.1749 1.5972 9.9898 9.6636 79.3
0/0 0/9 9/9 9/9 0/0 0/9
197/249 197/249 197/249 197/249 197/249 197/249
0.097 9.992 9.027 0.934 9.281 10
0.881 0.433 3.151 0.484 6.250 334
0.079 0.025 0.278 0.109 1.180 65
0.1313 9.0674 9.4992 9.3689 9.9771 71.4
4/8 3/8 1/7 0/3 5/2 0/9
108/235 108/236 108/239 198/244 198/240 108/247
0.034 0.001 0.025 0.036 0.215 10
2.559 1.191 6.857 0.719 7.149 277
0.177 0.075 0.661 0.128 1.245 80
0.3512 0.1854 1.0649 0.0995 1.1526 66.3
O/ 3 0/0 0/0 1/0 0/0 0/4
139/247 139/247 139/247 139/246 139/247 139/243
0.005 0.093 9.020 0.032 0.210 10
9.791 9.450 4.469 0.974 3.565 237
0.091 0.037 0.332 0.117 1.042 57
0.1254 0.0744 0.6263 0.1376 0.7330 52.9
I/ 10 2/9 2/0 2/2 2/9 0/5
110/235 109/234 110/244 119/242 119/235 110/241
0.004 0.001 0.017 0.020 0.199 10
4.549 2.009 2.569 3.024 8.199 291
0.236 3.096 3.349 3.126 1.180 86
0.5338 0.2697 0.4771 0.2740 1.2594 69.3
0/0 0/0 O/ 2 0/0 0/0 0/0
136/246 136/245 136/244 136/246 136/246 136/246
0.005 0.002 0.020 9.032 0.210 10
0.881 0.616 4.469 0.974 6.250 334
0.091 0.035 0.325 0.116 1.194 59
0.1326 0.0833 3.5968 3.1095 0.8426 60.8
S/ 25 14/ 15 2/ 9 7/ .2 5/3 0/0
270/712 269/712 270/731 270/733 270/734 270/742
0.034 0.001 0.017 0.020 0.199 19
4.549 2.009 9.745 3.024 8.199 291
3.163 9.074 9.799 0.116 1.008 80
0.3896 0.2392 1.2372 0.1671 1.0423 68.9
0/0 0/09/0 9/9 3/ O O/ 2
472/742 472/741 472/742 472/742 472/742 472/740
o.o
67.0
9.7
14.42
O/ 15
52/234
0.0
142.0
21.0
26.81
Of 0
197/249
0.0
130.0
10.8
19.50
Of 1
108/246
0.0
219.0
16.6
26.39
Of 0
139/247
0.0
85.0
9.0
14.09
O/ 2
110/244
0.0
90.0
10.1
15.52
O/ 0
136/246
0.0
130.0
9.9
16.49
9/4
270/738
3.0
210.0
16.6
24.34
-O/ a
472/742
9
1005
62
179.2
0
0
0
0.0
0
1540
54
179.6
0
0
0
0.0
0
2988
67
313.3
0
0
0
0.9
9
2988
61
242.7
3
0
O
0.0
0.0
4.7
0.3
0.79
0.0
0.0
0.0
0.00
0.0
8.9
0.6
1.29
0.0
o.o
0.0
0.00
0.0
13.6
0.5
1.44
0.0
0.0
0.9
3.90
0.0
13.6
0.5
1.28
0.0
0.0
0.0
0.00
-------
Ul
CJ
GENUSiSTAURASTRUM
CHLA
TURB SECCHI
PH
00
TEMP
PARTIAL DEPTH VALUES
TOTALP ORTHOP N02NO3
NH3
KJEL ALK
N/P
CONG PEftC
R
0 D
U 1 0
N M
.0
R N
0 O
U 1 N
N O
0 0
M
R
3 0
U 2 C
N M
D
R N
0 0
U 2 N
N 0
o n
M
R
0 D
U 3 0
N "
0
R N
r 1
U 3 N
K n
0 0
*
0
C A n
u L a
N L M
0
« H
C A 9
U L N
N L 0
0 0
MIN
MAX
MEAN
STOV
0/M
MIN
MAX
MEAN
STDV
N>
3/WR
MIN
MAX
MEAN
STDV
N>
C/HR
MIN
MAX
MEAN
STDV
N>
O/WP
MIN
MAX
MEAN
STOV
N>
C/WR
MIN
«AX
"EAN
«TDV
N>
3/W»
MIN
WAX
"EA«I
STOV
N>
C/MR
MIN
MAX
MEAN
STOV
N>
1.5
247.1
28.3
44.07
8/ 2
52/237
1.4
312.0
30.8
43.04
3/ 2
108/245
16.6
16.6
16.6
0.30
159/ 87
If I
1.2
171.5
22.6
27.57
4/ 3
110/240
16.6
16.6
16.6
0.39
490/253
If 1
1.2
312.0
27.0
37.78
I If 3
6
100
74
19.9
Of 0
43/187
13
107
75
21.1
7/ 1
132/229
86
86
86
0.0
12 7/ 84
I/ 10
13
99
76
20.0
6/ 1
95/214
86
86
86
0.0
419/206
If 20
6
107
75
20.4
5/ 1
5
168
37
28.4
2/ 3
52/244
6
222
51
35.7
if a
106/240
40
43
40
0.0
118/129
If 8
11
185
51
32.6
tt 0
110/241
40
40
40
3.0
431/319
I/ 16
5
222
48
33.4
3/ 1
6.2
9.7
7.9
0.83
2/ 2
52/245
5.5
9.4
7.7
0.83
2/ 6
138/239
6.1
6.1
6.1
0.00
4/238
If 3
5.6
9.3
7.5
0.84
I/ 4
108/240
6.1
6.1
6.1
0.00
13/725
If 3
5.5
9.7
7.7
3.85
5/ 8
3.8 9.2
12.1 28.9
8.2 20.3
1.79 5.74
4/8 4/0
52/233 52/244
3.3 20.1
15.2 31.4
7.0 26.8
1.73 2.25
4/2 1/2
138/243 107/243
6.8 29.0
6.8 29.0
6.8 29.0
0.00 0.00
82/152 244/ 1
1/7 1/1
1.6 9.3
12.7 27.8
7.4 20.6
1.73 3.48
3/1 0/2
108/240 109/244
6.8 29.0
6.8 29.3
6.8 29.0
0.33 0.00
231/487 693/ 39
If 14 I/ 8
1.6 9.3
15.2 31.4
7.4 23.0
1.79 4.77
1/4 3/2
0.010 0.002 0.038 0.032 0.282
0.716 0.616 4.389 O.554 3.199
0.117 0.051 0.407 0.128 1.076
0.1483 0.1216 0.7110 0.1120 0.7564
12/ 8 10/ 5 4/9 5/1 2 1/ 3
52/229 52/234 52/236 52/243 52/225
0.007 0.002 0.027 0.034 0.281
0.881 0.433 3.151 0.484 6.250
0.379 0.025 0.278 0.109 1.180
0.1313 0.0674 0.4992 0.0689 0.9771
4/8 3/8 1/7 0/3 5/2
108/235 108/236 138/239 108/244 108/240
0.013 0.012 0.067 0.080 0.750
3.013 0.012 0.067 0.080 0.750
0.013 0.011 0.066 0.080 0.750
0.0000 0.0000 0.0000 0.0000 0.0000
22/223 98/134 91/153 138/105 111/132
If 4 1/13 1/21/3 1/3
0.335 3.033 0.020 0.032 0.210
0.791 0.450 4.469 0.974 3.565
0.091 0.037 0.335 0.118 1.0*5
0.1258 0.0747 0.6287 0.1382 0.7359
1/13 2/9 2/3 2/2 2/9
139/235 138/234 199/244 109/242 139/235
0.313 0.312 0.067 0.080 0.750
0.313 9.012 9.967 0.083 3.759
0.013 0.011 0.066 0.080 0.750
0.0000 O.OOOO O.OOOO 0.0000 O.OOOO
67/665 351/361 164/576 355/376 374/362
If 13 I/ 29 1/2 I/ 11 1/6
3.035 3.002 0.320 3.332 3.219
0.881 3.616 4.469 0.974 6.250
0.091 0.035 0.326 0.116 1.105
3.1326 0.0835 0.5977 0.1O97 0.8439
5/ 25 14/ 15 2/9 7/2 5/3
10
199
52
51.5
Of 15
52/234
10
334
65
71.4
Of 0
108/247
10
10
10
0.0
0/225
If 21
10
237
57
53.0
C/ 5
139/241
10
13
13
0.0
0/668
If 74
13
334
59
60.8
Of 3
0.0
67.0
9.7
14.42
O/ 15
52/234
0.0
130.0
10.8
19.50
Of 1
108/246
11.0
11.0
11.0
0.00
187/ 50
If 9
0.0
85.0
9.0
14.15
Of 2
109/244
11.0
11.0
11.0
0.00
500/221
If 21
0.0
130.0
9.9
16.52
Of 4
0
1005
62
179.2
0
1540
54
179.6
2988
2988
2988
3.3
0
13*9
*1
141.8
2988
2988
29S8
0.0
0
1543
50
U*. 7
0.0
4.7
0.3
0.79
0.0
8.9
0.6
1.29
13.6
13.6
13. t
0.30
0.0
3.5
3.4
0.71
13.6
13.6
13.6
0.00
0.0
8.9
0.4
1.00
0/HA 270/727 240/639 <68/732 268/728 268/727 268/735 269/712 268/712 269/731 269/733 269/734 269/742 269/738
-------
C5NUS:
R
n t>
U 1 C
N C
D
• N
0 O
U 1 N
N C
0 C
C
R
0 0
U 2 C
N C
0
• N
0 0
U 2 N
N 0
0 C
C
ft
0 0
0 3 C
N C
D
• N
0 , O
U 3 N
N 0
0 C
C
ft
C A O
U L C
N L C
0
•V " N
3 » 0
U L N
N L 0
o- c
C
STAMOCCSMUS
MIN
MAX
MEAN
STOV
N>
o/w*
MIN
MAX
MEAN
STOV
N>
3/WR
MIN
MAX
MEAN
ST3V
N>
0/MR
MIN
MAX
«E»N
STOV
*•>
o/w*
MIN
MAX
MEAN
STOV
n%«
MIN
MAX
MEAN
STCV
N>
3/VP
MIN
M0X
MEAN
STPV
P/KR
MAX
MEAN
STCV
N
0/MR
fMLA
0.3
355.6
21.0
41.40
Of 0
247/247
37.5
37.5
37.5
0.30
186/ 69
I/ 1
1.4
595.0
34.4
62.71
O/ 0
246/247
9.8
241.4
23.2
34.27
Of 0
247/247
37.5
37.5
37.5
0.00
602/137
I/ 2
0.3
595.0
26.2
47.96
O/ 0
740/741
TURB
6
100
71
20.6
O/ 0
187/187
78
78
78
0.0
191/130
If 6
4
121
72
24.0
3/ 0
236/237
1
130
74
23.1
Of 0
221/221
78
78
78
0.0
286/344
If IS
121
72
22.8
O/ 0
644/645
SECCHI
2
252
44
36.2
Of 9
249/249
35
35
35
0.0
193/131
I/ 7
1
222
49
35.9
Of 0
240/241
6
185
50
35.0
Of 0
246/246
35
35
35
0.3
323/398
If 15
252
48
33.7
Of 0
735/736
PARTIAL DEPTH VALUES
PH DO TEMP TOTALP ORTHOP
5.3 0.7 6.8 0.094 9.001
10.6 19.2 28.9 1.719 1.299
7.9 9.0 17.5 0.123 0.057
0.73 2.92 5.59 9.2314 0.1642
0/0 0/9 0/0 0/0 0/0
249/249 245/245 248/248 249/249 249/249
* 7.9 7.7 28.9 0.040 0.996
7.9 7.7 28.9 0.949 9.996
7.9 7.7 28.9 0.039 0.005
0.00 0.90 0.00 0.0000 0.0000
126/110 176/ 67 192/ 45 112/134 62/168
I/ 11 1/3 1/9 1/1 If 17
4.1 3.0 17.3 0.004 0.001
10.6 17.8 32.2 2.559 1.191
7.8 7.0 26.6 0.135 0.053
0.89 1.98 2.35 0.2817 0.1482
0/9 0/0 0/0 0/0 0/0
246/247 245/246 245/246 246/247 246/247
4.7 1.6 9.0 0.004 0.001
10.3 13.5 29.6 4.549 2.009
7.6 7.3 23.4 0.155 3.970
0.84 1.61 3.25 0.4091 0.2088
0/0 0/0 0/0 0/0 0/0
245/245 241/241 246/246 246/246 345/245
7.9 7.7 28.9 0.040 0.006
7.9 7.7 28.9 0.040 0.006
7.9 7.7 28.9 0.039 0.035
0.00 0.90 0.00 3.9393 9.3990
388/314 355/365 6B3/ 47 288/448 158/536
If 39 I/ 12 If 10 1/6 If 47
10.6 19.2 32.2 4.549 2.009
7.8 7.8 21.5 0.137 0.060
0.83 2.37 5.49 0.3159 0.1754
Of 0 O/ 0 Of 3 Of 0 Of 0
740/741 731/732 739/740 741/742 740/741
N02N03
0.324
9.745
0.870
1.4754
Of 0
249/249
0.117
1.117
0.117
0.0000
96/150
If 1
0.025
6.857
9.495
0.8851
Of 0
246/247
0.017
4.469
9.342
3. 5477
Of 0
246/246
0.117
0.117
0.117
0.3300
277/464
If 1
an T
• Ji t
9.745
0.570
1. 0666
9/0
741/742
NH3 KJEL
0.022 9.199
0.635 4.699
0.107 0.796
0.0953 0.6975
Of 0 Of 0
249/249 249/249
0.116 2.000
0.116 2.000
0.116 2.000
0.0000 0.0000
154/ 86 209/ 37
1/7 1/1
0.034 0.215
0.719 7.149
0.120 1.214
0.0880 1.0788
0/0 0/0
246/247 246/247
0.020 0.199
3.024 8.199
0.122 1.118
0.2232 1.0572
0/0 0/0
246/246 246/246
0.116 2.330
0.116 2.000
0.116 2.000
0.0090 0.0339
521/212 659/ 89
If 9 If 3
3^024 8.199
0.116 1.04Z
9.1488 0.9749
Of 0 Of 0
741/7*' 741/742
ALK
10
248
70
67.3
O/ 0
249/249
20
20
20
0.0
58/184
If 5
10
334
74
68.9
Of 0
246/247
10
291
73
64.1
O/ 0
246/246
23
20
20
3.0
208/523
1/14
1 A
1**
334
72
66.7
O/ 3
741/742
N/P
0.0
142.0
18.6
25.14
Of 0
249/249
6.0
6.0
6.0
0.00
106/130
I/ 11
0.0
21O.O
14.1
23.80
Of 0
246/247
0.0
90.0
9.6
14.87
if 0
246/246
6.0
6.0
6.0
3.90
327/376
I/ 39
O/*
• V
213.9
14.1
22.05
Of 0
7*1/742
CONC
0
0
0
0.0
154
154
154
0.0
0
0
0
0.0
0
0
0
9.9
154
154
154
9.0
0
0
0.0
PERC
0.0
0.0
0.0
0.00
0.3
0.3
0.3
0.00
0.0
0.0
0.0
0.00
0.0
o.o
0.0
0.39
0.3
0.3
0.3
0.00
0.9
0.0
0.0
0.00
-------
en
emus < ST«I*OMSHUS
CHL»
• KIN
0 0 MM
U 1 0 MEAN
M N STDV
0 N>
0/H«
« •» NIM
0 0 MAX
U I N MEAN
N O STOV
D 0 N>
N 0/H*
* CTN
O O MAX
U 2 0 MEAN
N _M STOV
0 *>
0/HM
TORS SECCHI
PH
00
TEMP
PARTIAL DEPTH VALUES
TOTALP ORTHOP N02MO3
NH3
KJEL ALK
N/P
CONC PERC
K N MIN
C 0 MAX
U 2 N MEAN
N 9 STOV
D 0 N>
» 0/HR
• MIN
0' 0 M»X
u 3 o MEAN
N M STOV
0 N>
o/««»
37.5 7» 35 7.9 7.7 28.9 0.040 0.006
37.5 78 35 7.9 7.7 28.9 0.049 0.096
37.5 78 35 7.9 7.7 28.9 0.339 0.005
0.00 0.0 0.0 0.00 0.00 0.00 0.0000 0.0000
60 191/130 193/131 126/110 176/ 67 192/ 45 112/134 62/168
1/1 1/6 1/7 I/ 11 1/3 1/9 1/1 I/ 17
0.117 0.116 2.000
0.117 0.116 2.000
0.117 0.116 2.000
0.0000 0.0000 0.0009
96/150 154/ 86 209/ 37
1/1 1/7 1/1
20
20
20
0.0
6.0
6.0
6.0
0.00
58/184 106/130
I/ 5 I/ 11
154 0.3
154 0.3
154 0.3
3.0 0.00
f 0 "AX
U 3 N M£AN
N 5 STOV
0 C N>
«• 0/K«
0 A O MAX
u L c MEAN
N I M STOV
9 N>
0/K*
« N
C A 0
U L N
H L 0
0 0
MAX
WEAN
STPV
37.5
37.5
37.5
9.90
78
78
78
0.9
35
35
35
9.3
7.9
7.9
7.9
3.39
7.7
7.7
7.7
0.39
28.9
28.9
28.9
3.03
9.34}
0.040
0.039
9.9999
J.996
0.006
0.005
9.9909
0.117
0.117
0.117
9.9000
3.116
0.116
0.116
9.0990
2.990
2.990
2.000
0.0000
23
29
20
0.0
6.9
6.9
6.0
0.00
O/WR
602/137 286/344 323/398 388/314 355/365 683/ 47 288/448 158/536 277/464 521/212 6S9/ 80 298/523 327/376
I/ 2 I/ 15 I/ 15 I/ 39 I/ 12 I/ 10 I/ 6 I/ 47 I/ I 1/9 1/3 I/ 14 I/ 39
154 9.3
154 0.3
154 C.3
0.0 0.00
-------
cn
GENUSi
a
P 0
U 1 C
N r
0
* M
C P
U 1 N
!• 0
0 C
C
•
0 0
U 2 C
N C
0
* N
o n
U 2 N
N 0
0 C
C
R
0 0
U 3 C
N C
0
» N
0 0
U 3 N
N 0
0 C
C
ft
n » «
U L f
N L r
0
* f
0 A 0
U L N
N I 0
0 C
C
STAURONEIS
HIN
MAX
MEAN
STOW
H>
o/w«
HIN
1AX
KEAN
STOV
N>
o/wft
MtM
MX
»EAN
STOV
H>
o/w*
HI*
H«X
MEAN
STOV
N>
0/MK
H1N
MAX
»fAH
STOV
N>
r/KR
MIN
MAX
KFAN
STnv
N>
0/WR
MIN
*tx
MMN
STOV
N>
CVWR
KIN
HAX
MEAN
STOV
f>
e/w»
CW.A
1.9.
49.9
13.4
14.75
IT/ 21
9/209
0.3
355.6
21.2
42.0«
V 0
238/2*7
2.7
170. 5
27.5
13.93
9/ S
9/233
1.*
595.3
34.7
62.97
o/ 9
238/247
4.3
46.2
13.5
16.37
*!/ 35
6/1T1
0.8
241.4
23.4
34.18
a/ o
241/2*7
1.9
170.5
18.7
34.55
30/ 14
24/697
0.3
595.0
26.4
48.31
o/ o
717/7*1
TORS SKCHI PH oo
32 20 6.2 4.7
100 89 8.6 12.0
72 47 7.4 9.5
21.0 26.6 0.72 2.45
12/ 0 60/ 27 21 26 8/ 9
8/175 9/162 9/221 8/228
6 2 5.3 0.7
100 252 10.6 19.2
71 43 7.9 9.0
20.6 36.5 0.72 2.01
0/0 3/0 9/9 3/9
179/187 240/249 240/249 237/245
24 15 5.5 5.0
95 115 8.9 11.7
72 46 7.0 7.0
26.9 28.8 0.94 1.97
IS/ 10 20/ 19 21 16 24/ 6
9/212 9/202 9/229 9/216
4 1 4.1 3.0
121 222 10.6 17.8
72 49 7.8 7.0
23.9 36.1 0.88 1.99
3/ 0 0/0 0/0 0/0
228/237 232/241 238/247 237/246
23 12 5.9 6.8
87 60 8.4 9.5
71 36 6.9 8.2
24.2 17.4 1.06 0.90
12/ 75 7/ 59 2/ 37 82/ 1*
6/134 6/180 6/206 6/145
1 6 4.7 1.6
100 185 10.3 13.5
74 51 7.6 7.3
23.1 35.2 0.83 1.62
0/0 0/0 0/0 0/0
215/221 240/2*6 239/243 235/241
23 12 5.5 4.7
100 105 8.9 12.0
72 44 7.1 8.2
23.2 25.0 0.88 2.16
33/ 3 39/ 62 5/ 40 37/ 17
23/609 24/635 24/696 23/678
1 1 4.1 0.7
121 252 10.6 19.2
72 48 7.8 7.8
22.7 36.3 9.82 2.07
9/0 0/0 0/0 9/ 9'
622/6*5 712/736 717/7*1 709/732
TEHP
9.7
27.4
16.7
7.01
7/ 8
9/233
6.8
28.9
17.5
5.55
O/ 0
239/248
26.4
31.4
28.2
1.65
117/ 2
9/127
17.3
32.2
26.5
2.35
O/ 0
237/246
12.6
23.5
17.4
3.63
I/ 43
6/202
9.0
29.6
20.5
3.21
O/ 0
240/246
9.7
31.4
21.2
7.18
8/ 2
24/730
6.8
32.2
21.5
5.43
3/ 0
716/749
PARTIAL DEPTH VALUES
TOTAL P
0.910
0.545
0.102
0.1697
12/ 19
9/227
0.394
1.719
0.123
0.2337
O/ 0
243/249
3.911
0.305
0.069
0.0917
20/ 22
9/235
0.004
2.559
0.137
0.2856
O/ 0
238/247
O.014
0.369
0.093
0.1375
26/ 18
6/202
0.004
4.549
0.156
0.4136
O/ 0
24O/246
0.410
0.5*5
0.087
0.1314
37/ 39
24/666
0.994
4.549
0.139
9.3199
O/ 9
718/742
ORTHOP
0.002
0.123
0.029
0.3408
10/ 18
9/221
0.001
1.239
0.058
0.1671
O/ 0
240/249
0.095
0.099
0.019
0.0300
38/ 23
9/186
0.001
1.191
0.034
0.1504
O/ 0
238/247
0.003
0.105
0.026
3. 0394
2/ 23
6/220
0.001
2.009
0.071
0.2112
O/ 0
239/245
0.932
0.123
0.024
0.9353
14/ 60
24/667
0.001
2.909
0.061
0.1780
9/ 0
717/741
N02N03
0.025
2.276
0.585
0.8232
I/ 25
9/223
0.024
9.745
0.880
1.4943
O/ 0
240/249
0.024
0.656
0.258
0.2223
U/ 45
9/191
0.025
6.857
0.502
0.8981
O/ 0
238/247
0.029
0.909
3.206
0.3435
19/ 30
6/197
0.017
4.469
0.345
9.5519
O/ 0
2*0/2*6
0.325
2.276
0.367
0.5557
13/ 41
24/688
0.017
9.745
0.576
1.0785
3/ 0
718/742
NH3
0.034
0.155
0.072
0.0405
9/ 42
9/198
0.022
0.635
0.108
0.0966
O/ 0
240/249
0.042
0.239
3.121
0.0600
10/ 18
9/219
0.034
3.719
3.119
0.0888
O/ 0
238/247
0.049
0.109
9.077
9.0266
45/ 68
6/133
0.020
3.024
0.123
9.2258
O/ 0
240/2*6
3.034
0.239
0.092
9.0501
13/ 52
24/677
0.020
3.324
0.117
0.1508
O/ 0
718/742
KJEl
9.357
3.930
0.787
0.8484
49/ 4
9/196
0.199
4.699
0.796
0.6937
O/ 0
240/249
0.324
2.474
0.905
0.6757
10/ 24
9/213
0.215
7.149
1.229
1.0893
O/ 0
238/247
0.399
1.974
0.913
0.5772
*4/ 29
6/173
0.199
8.199
1.123
1.0666
3/ 0
2*0/2*6
0.324
3.000
0.862
0.6932
79/ 33
24/630
0.199
8.199
1.049
0.9827
9/ 0
718/742
ALK
10
174
43
55.7
O/ 39
9/219
10
248
71
67.6
O/ 0
240/249
10
281
47
88.0
O/ 2
9/245
10
334
74
68.1
O/ 0
238/247
10
237
57
90.5
O/ 5
6/241
13
291
73
63.5
O/ 0
2*O/2*6
10
281
*8
74.7
O/ 4
24/738
10
334
73
66.3
O/ 0
718/7*2
N/P
0.0
65.0
16.6
22.19
O/ 16
9/233
0.0
1*2.0
18.7
25.28
O/ 0
240/249
1.0
63.0
16.8
21.96
12/ 9
9/226
0.0
210.0
14.0
23.86
O/ 0
238/247
3.0
5.0
4.2
0.98
68/110
6/ 68
0.0
90.0
9.7
15.03
O/ 0
2*3/246
9.0
65.9
13.5
19.23
O/ 29
24/713
3.0
219.0
14.1
22.14
O/ 0
718/742
CONC
o
8
1
2.7
PERC
0.0
19.5
2.2
6.49
0 0.0
3 0.0
3 0.0
0.0 0.00
0 0.0
0 0.0
9 0.0
0.9 0.00
0 0.0
0 0.0
3 0.0
0.3 0.30
0 0.0
0 0.0
0 0.0
0.9 0.30
9 0.0
0 0.0
o o.o
0.0 0.00
o o.o
8 19.5
0 0.8
1.6 3.98
0 0.0
3 0.0
3 0.0
0.0 0.00
-------
cn
CENUStSTAUftCMEIS
cm A
TURB SECCHI
00
PARTIAL DEPTH VALUES
TEMP TOT ALP OP.THOP N02N03
NH3
KJEL ALK
N/P
CONC PERC
« MIN
0 D MAX
U 1 O MEAN
k M STOV
0 N>
0/WR
P N MIN
C O MAX
U 1 N MEAN
N 0 STOV
0 0 N>
X 0/HR
* MIN
0 O MAX
u 2 o MEAN
N M STOV
0 N>
O/WK
« N MIN
•3 0 MAX
U 2 N MEAN
N 0 STOV
D • 0 N>
M 0/WR
• MIN
0 0 MAX
U 3 0 MEAN
N M STOV
0 N>
0/DR
P N MIN
C 0 MAX
U 3 N MFAN
N 0 STOV
0 0 *>
M 0/W«
P MIN
0*0 MAX
U L 0 MEAN
N I M STOV
0 N>
0/WR
• N MIN
C A 0 HAX
U L N MEAN
N L D STOV
0 0 N>
•1 0/WR
1.9
1.9
1.9
3.30
17/227
I/ 3
3.0
49. O
14.8
15.07
38/ 21
8/188
2.7
170.5
27.5
53.93
9/ 5
9/233
4.3
46.2
13.5
16.37
41/ 35
6/171
1.9
1.9
1.9
0.03
30/705
If 6
2.7
170.5
19.4
35.14
52/ 14
23/675
57
57
57
0.0
37/149
I/ I
32
100
74
21.8
I2/ 0
7/175
24
95
72
26.9
IS/ 10
9/212
23
87
71
24.2
12/ 75
6/134
57
57
57
0.0
131/511
It 3
23
100
73
23.5
33/ 3
22/609
23
20
20
3.0
60/182
I/ 7
21
89
50
26.3
67/ 27
8/155
IS
105
46
28.8
23 1 19
9/202
12
60
36
17.4
7/ 59
6/180
20
20
23
0.0
135/586
It 15
12
105
45
25.3
>9/ 62
23/635
7.1 4.7 27.4 0.379
7.1 4.7 27.4 0.079
7.1 4.7 27.4 0.079
0.00 0.00 0.00 0.0000
30/212 8/236 238/ 8 ISO/ 97
1/7 1/1 1/2 1/2
6.2 8.4 9.7 0.010
8.6 12.0 26.8 0.545
7.4 10.1 15.4 0.105
0.77 1.63 6. IS 0.1812
2/ 26 71/ 9 If 15 12/ 19
8/221 7/165 8/226 8/227
5.5 5.0 26.4 0.011
8.9 11.7 31.4 0.305
7.0 7.3 28.2 0.069
0.94 1.97 1.65 0.0917
2/ 16 24/ 6 117/ 2 20/ 22
9/229 9/216 9/127 9/235
5.9 6.8 12.6 0.314
8.4 9.5 23.5 0.369
6.9 8.2 17.4 0.090
1.06 3.93 3.63 3.1375
2t 37 82/ 14 If 43 26/ 18
6/206 6/145 6/202 6/202
7.1 4.7 27.4 0.379
7.1 4.7 27.4 0.079
7.1 4.7 27.4 0.079
0.00 0.30 0.03 3.0003
152/570 37/690 625/112 464/275
If 19 1/5 1/3 1/3
5.5 5.0 9.7 0.010
8.9 12.0 31.4 0.545
7.1 8.3 20.9 0.087
0.90 2.07 7.22 0.1344
5/ 40 49/ 17 8/ 2 37/ 39
23/696 22/666 23/730 23/666
3.011
0.011
0.011
0.0000
115/123
I/ 11
0.002
3.123
0.031
0.0429
10/ 18
8/221
0.005
0.099
3.019
0.0300
38/ 23
9/186
3.033
0.105
0.026
9.3394
Zl 23
6/220
0.011
0.011
0.011
0.0030
325/390
If 26
3.032
0.123
3.025
0.9363
14/ 60
23/667
0.313
0.313
0.312
0.15S
0.155
0.155
0.0000 0.0000
120/128
I/ 1
0.025
2.276
0.619
0.8732
If 25
8/223
0.034
0.656
0.258
0.2223
It/ 45
9/191
0.029
. 0.909
0.206
3.3455
19/ 30
6/197
0.313
0.313
0.312
3.3330
467/274
It 1
3.325
2.276
0.370
3.5681
13/ 41
23/688
206/ 42
If 1
0.034
0.109
0.062
0.0279
9/ 67
8/173
0.042
0.239
3.121
0.0600
lOf 18
9/219
0.349
0.109
0.077
0.0266
45/ 68
6/133
0.155
0.155
0.155
0.0030
637/134
If 1
0.034
0.239
0.089
3.3493
13/ 52
23/677
0.557
0.5S7
0.557
0.0000
119/129
I/ 1
0.357
3.000
0.815
0.8937
49/ 4
8/196
0.324
2.474
9.905
0.6757
lOf 24
9/213
3.399
1.974
0.913
0.5772
44/ 29
6/173
0.557
0.557
0.557
0.0330
269/471
If 2
3.324
3.000
0.876
0.7356
79/ 33
23/630
17
17
17
0.0
73/171
It 5
10
174
47
58.6
O/ 30
8/219
10
281
47
88.0
Of 2
9/245
10
237
57
90.5
O/ 5
6/241
17
17
17
0.0
164/564
It 14
13
281
49
76.1
O/ 4
23/738
6.0
6.3
6.0
0.00
85/149
It 15
0.0
65.0
17.9
23.34
Of 16
8/233
1.0
63.0
16.8
21.96
12/ 9
9/226
3.3
5.0
4.2
0.98
68/110
6/ 68
6.0
6.0
6.0
0.00
327/376
It 39
3.0
65.0
13.9
19.59
Of 29
23/713
8
a
a
0.0
0
0
0
0.0
0
0
0
0.3
3
0
0
0.0
a
8
6
0.0
3
3
0
0.0
19.5
19.5
19. 5
0.00
0.0
0.0
0.0
0.00
0.0
0.0
0.3
3.33
0.0
0.3
O.C
0.00
15.5
19.5
19.5
0.00
3.3
3.3
0.0
C.OO
-------
cn
oo
GENUS: STEPHANOOISCUS
CHLA
TURB SECCHI
PH
00
TEMP
PARTIAL DEPTH VALUES
TOTALP OUTHOP N02N03 NH3
KJEL ALK
N/P
CONC PERC
•
n o
U 1 C
M C
o
R N
0 0
U 1 N
N 0
0 C
C
R
0 0
U 2 C
N C
D
R N
0 0
U 2 N
N 0
0 C
C
R
0 0
U 3 C
N C
D
« N
0 0
U 3 N
N 0
0 C
C
«
0 A O
U L C
NIC
0
R N
0 A 0
U L N
N L 0
0 C
C
MIN
<4AX
MEAN
STDV
N>
0/HR
MIN
MAX
MEAN
STPV
N>
0/WR
HIM
MAX
MEAN
STCV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
C/WR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
o/ws
MIN
MAX
MEAN
STOV
N>
0/WR
0.6
IBB. 6
20.7
29.94
4/ 4
96/239
0.3
355.6
21.1
47.71
O/ 0
151/247
3.1
312.3
40.6
51.72
14/ 2
B2/231
1.4
595.0
31.4
67.27
O/ 0
'165/247
1.9
241.4
29.2
40.23
ll/ 0
97/236
0.8
237.0
19.3
29.28
O/ 1
150/246
0.6
312.9
29.6
41.41
4/ 3
275/734
0.3
595.0
24.2
51.32
O/ 0
466/741
6 5
100 185
66 38
23.1 28.8
0/0 2/1
67/187 97/246
IS 2
97 252
73 47
18.6 39.9
3/3 0/0
120/181 152/249
4 6
133 ISO
64 43
27.2 33.6
0/2 1/4
82/235 80/236
5 1
121 222
76 52
21.0 36.6
1/0 0/0
155/236 161/241
1 6
97 157
68 44
26.0 32.0
0/2 0/3
82/219 97/243
3 7
100 185
78 54
20.4 36.3
1/0 1/0
139/220 149/245
1 5
103 IBS
66 42
25.5 31.4
0/2 3/3
231/643 274/730
3 1
121 252
76 51
20.2 37.7
1/0 9/0
414/644 462/736
6.7 3.8
9.7 12.8
8.0 9.4
0.52 1.63
6/2 4/2
97/241 97/239
5.3 0.7
10.6 19.2
7.9 8.7
0.83 2.21
0/0 0/0
152/249 148/245
6.6 3.1
9.4 13.5
8.9 7.1
0.51 1.56
19/ 61/5
82/222 82/240
4.1 3.0
10.6 17.8
7.6 7.0
1.30 2.17
0/0 0/0
165/247 164/246
6.1 1.6
9.2 13.5
7.8 7.4
3.64 1.83
4/5 3/ 0
95/236 94/241
4.7 1.9
10.3 11.4
7.5 7.3
0.92 1.46
9/0 1/2
150/245 147/238
6. 1 1.6
9.7 13.5
7.9 8.0
0.57 1.96
13/ 81/7
274/720 273/724
4.1 0.7
10.6 19.2
7.6 7.6
0.93 2.12
0/0 9/0
467/741 459/732
8.5
28.9
16.1
4.68
2/ 0
97/246
6.8
28.8
18.4
5.93
O/ 1
151/247
21.7
30.5
25.9
1.88
7/ 3
82/236
17.3
32.2
26.9
2.48
O/ 0
164/246
12.6
29.6
20.0
2.91
I/ 0
96/245
9.3
29.0
20.7
3.42
O/ 1
150/245
8.5
33.5
20.4
5.24
2/ 3
275/735
6.8
32.2
22.2
5.53
O/ 0
465/740
0.013 0.001
0.701 3.616
0.089 0.032
0.0892 0.0671
19/9 0/5
97/221 97/244
0.004 0.001
1.719 1.209
0.144 0.073
0.2858 0.2020
0/0 0/0
152/249 152/249
0.008 0.002
1.029 0.594
0.143 0.051
0.2171 3.1153
6/6 3/4
82/235 82/240
0.004 0.001
2.559 1.191
0.139 0.954
0.3086 0.1620
0/0 3/9
165/247 165/247
0.008 0.303
1.609 1.189
0.150 0.065
3.2491 0.1676
5/2 2/2
96/239 96/241
0.004 0.031
4.549 2.339
0.158 0.073
0.4854 0.2320
O/ 00/3
153/246 149/245
3.338 0.331
1.609 1.189
0.126 0.049
0.1975 0.1243
19/ 40/4
275/719 275/737
0.004 0.001
4.549 2.039
0. 144 3. 066
O.3680 0.1993
0/0 0/0
467/742 466/741
0.025
9.745
1.296
1.9395
I/ 0
97/248
0.024
8.089
0.598
0.9962
O/ 1
152/248
0.035
6.857
0.797
1.2472
12/ 0
82/235
0.025
4.099
0.343
0.5779
O/ 3
165/244
0.017
2.569
0.446
3.5574
O/ 2
96/244
0.019
4.469
0.275
0.5327
I/ 0
150/245
0.017
9.745
0.850
1.4192
O/ 0
275/742
0.019
8.089
0.404
0.7408
I/ 1
467/740
0.022 0.225
0.479 2.649
0.090 0.685
0.0695 0.4362
0/5 4/8
97/244 97/237
0.030 0.199
0.635 4.699
0.117 0.867
0.1076 0.8156
2/0 O/ O
152/247 152/249
0.040 0.215
0.719 6.250
0.119 1.254
0.3961 0.9724
4/0 0/2
82/243 82/245
0.034 0.226
0.565 7.149
0.120 1.198
0.0836 1.1289
0/1 1/0
165/246 165/246
0.020 0.250
0.979 6.000
0.115 1.146
3.1462 0.9845
0/1 9/1
96/245 96/236
0.032 9.199
3.024 8.199
0.127 1.100
0.2612 1.1041
2/0 3/0
150/244 153/246
0.020 0.215
0.979 6.250
0.198 1.316
0.1095 0.8625
0/1 7/3
275/741 275/732
0.030 0. 199
3.024 8.199
0.121 1.059
0.1674 1.0360
3/0 0/0
467/739 467/742
10
248
93
68.6
O/ 0
97/249
10
240
55
62.4
O/ 1
152/248
11
334
113
77.6
18/ 0
82/229
10
277
54
54.6
O/ 4
165/243
13
291
100
67.9
O/ 0
96/246
10
283
56
55.3
01 1
ISO/245
10
334
131
71.4
O/ 0
275/742
10
283
55
57.4
O/ 3
467/739
0.0
112.0
19.7
21.14
O/ 4
97/245
0.0
142.0
17.9
27.43
O/ 0
152/249
0.0
210.0
17.2
31.20
O/ 0
82/247
0.0
130.0
12.5
18.94
Of I
165/246
O.O
90.0
8.0
11.75
O/ 0
96/246
0.0
88.0
10.6
16.53
O/ 1
150/245
0.0
210.0
14.9
22.77
O/ 0
275/742
0.0
142.0
13.7
21.60
Of I
467/741
0 0.0
45654 89.6
1384 10.8
4960.0 17.02
0 0.0
0 0.0
0 0.0
0.0 0.00
0 0.0
18427 50.5
1096 8.0
2932.7 11.16
0 0.0
0 0.0
0 0.0
0.0 0.00
0 0.0
21946 63.5
1010 6.5
3297.7 11.47
o o.o
0 3.0
3 0.0
0.0 0.00
0 0.0
45654 89.6
1167 8.5
3865.8 13.68
0 0.0
0 0.0
0 0.0
0.0 3.90
-------
GENUS JSTEPHANOOISCOS
PARTIAL DEPTH VALUES
CHLA
TUR» SECCHI
PH
00
TEMP TOTALP ORTHOP N02N03
NH3
KJEL ALK
N/P
CONC
PERC
(Jl
R HIM
0 0 MAX
010 MEAN
N N STDV
D N>
0/UR
R N KIN
0 0 MAX
U 1 N MEAN
N 0 STOV
D 0 N>
M 0/HR
R HIM
0 0 MAX
U 2 0 MEAN
N «l STOV
0 N>
0/WR
R N MIN
0 0 MAX
U 2 N MEAN
N P STOV
0 0 N>
•« C/W
R MIN
0 S MAX
030 MEAN
N « STOV
0 N>
0/HP
• N MIN
0 0 MAX
U 3 N M€AN
N 0 STOV
0 0 N>
H P/WR
R 1IN
D A 0 MAX
U L 0 MfAN
N L 1 STOV
n N>
C/H«
It N MIN
0 A 0 «AX
U L N 1EAN
N L P STOV
5 0 1>
¥ 0/KR
0.6
150.0
27.4
31.52
«/ 5
30/238
1.8
188.6
17.6
27.54
14/ 4
66/229
3.4
141.2
44.0
42.03
15/ 10
26/222
3.1
312.0
39.3
55.93
I*/ 2
S6/231
4.2
198.3
43.2
51.63
37/ 2
1 7/208
1.9
241.4
26.2
37.09
U/ 3
83/236
0.6
198.3
37.0
40.87
4/11
72/726
1.8
312.3
26.9
41.37
27/ 3
a
98
59
23.8
I/ 2
22/184
6
10O
69
22.4
O/ 0
45/187
4
98
54
31.0
O/ 3
26/234
5
133
69
23.9
I/ 2
56/234
6
95
55
31.4
2/ 16
15/233
1
97
71
23.9
3/ 2
67/219
4
98
<6
28.5
2/ 7
63/636
1
133
70
23.4
O/ 2
5 7.0
105 8.8
34 8.1
23.7 0.43
2/ 19 23/ 17
30/228 30/209
5 6.7
185 9.7
43 7.9
31.7 0.54
2/1 6/2
67/246 67/241
6 6.6
144 8.9
38 8.1
40.6 0.49
I/ 5 19/ 16
26/235 26/212
6 6.9
150 9.4
45 8.0
29.8 0.52
I/ 4 37/ 6
54/236 56/204
8 6.7
157 8.7
39 8.0
40.4 0.55
2/ 3 30/ 17
17/241 16/198
6 6.1
130 9.2
46 7.8
30.1 0.65
O/ 12 4/ 5
03/234 79/236
5 6.6
157 8.9
37 8.1
33.3 0.47
3/ 11 46/ 40
73/722 72/655
5 6.1
185 9.7
44 7.9
30.5 0.59
3/ 3 IS/ 8
8.1
12.8
10.0
1.29
61/ 2
30/182
3.8
12.4
9.1
1.69
4/ 4
67/237
4.3
9.9
6.9
1.44
9/ 12
26/225
3.1
13.5
7.1
1.62
I/ S
56/240
4.8
13. 5
8.2
2.15
14/ 0
16/227
1.6
12.7
7.2
1.71
O/ 1
78/240
4.3
13.5
8.5
2.06
26/ 7
72/699
1.6
13.5
7.8
1.90
I/ 7
9.1 0.018
24.7 0.259
14.9 0.096
3.51 9.0691
3/ 42 35/ 18
30/203 30/196
8.5 0.013
28.9 0.701
16.6 0.085
5.06 0.0972
2/ 0 19/ 9
67/246 67/221
23.8 0.908
30.5 1.029
25.4 0.195
1.48 0.2452
21/ 36/6
26/222 26/235
21.7 0.011
30.1 0.955
26.1 0.118
2.02 0.2003
7/ 6 20/ 7
56/233 56/220
14.8 0.013
24.3 0.929
18.8 0.247
2.34 0.2885
5/ 28 22/ 6
16/213 17/218
12.6 0.008
29.6 1.609
23.2 3.129
2.97 0.2366
1/0 5/2
80/245 79/239
9.1 0.008
30.5 1.329
19.6 0.166
5.36 0.2127
4/ 3 19/ 20
72/733 73/733
8.5 0.008
30.1 1.639
20.6 3.111
5.19 0.1901
2/ 6 19/ 4
0.005
0.171
0.033
0. 3390
53/ 16
30/180
0.001
0.616
0.031
0.0767
O/ 5
67/244
0.032
0.555
0.082
0.1483
3/ 6
26/238
0.003
0.594
3.037
0.0946
9/ 4
56/234
0.004
0.632
0.100
3.1742
8/ 6
17/231
0.003
1.189
0.058
0.1663
2/ 2
79/241
0.002
3.632
0.066
0.1257
14/ 14
73/713
0.001
1.189
3.043
0.1235
O/ 4
0.066 0.022
7.439 0.369
1.638 0.091
1.9346 0.0772
29/ 30/8
30/217 30/241
0.025 0.024
9.745 0.479
1.143 0.090
1.9364 0.0663
1/0 1/5
67/248 67/243
0.035 0.040
4.274 0.719
0.995 0.158
1.2250 0.1541
12/ 24/0
26/233 26/243
0.046 0.041
6.857 0.245
0.705 0.101
1.2576 0.0421
17/0 9/ 16
56/230 56/222
0.024 0.031
2.569 0.569
0.743 0.114
0.7832 3.1276
6/2 1/4
17/238 17/241
0.017 0.020
1.866 0.979
3.382 0.115
3.4798 0.1506
0/5 0/1
79/241 79/245
0.024 0.022
7.439 0.719
1.201 0.120
1.5193 0.1231
6/3 1/4
73/733 73/737
0.017 0.020
9.745 0.979
9.724 3.103
1.3631 0.1041
0/0 0/1
0.299
1.799
0.669
0.3797
27/ 19
30/203
0.225
2.649
0.693
0.4617
4/ 8
67/237
0.261
3.699
1.427
0.9060
2/ 8
26/237
0.215
6.250
1.174
0.9994
3/ 2
56/245
0.477
5.399
1.412
1.1775
62/ 2
17/182
0.250
6.000
1.389
0.9367
9/ 1
79/236
0.261
5.399
1.112
3.8889
27/ 6
73/709
0.215
6.250
3.981
0.8524
7/ 3
22
248
112
64.3
91/ 0
30/158
10
227
85
69.3
O/ 3
67/246
11
334
135
86.1
ie/ o
26/229
12
293
103
71.8
27/ 1
56/219
14
291
135
81.2
32/ 0
17/214
10
237
92
62.7
O/ 5
79/241
11
334
125
76.4
74/ 0
73/668
10
293
92
67.5
O/ 1
1.0
112.0
24.2
26.62
7/ 4
30/238
0.0
81.0
17.7
18.04
O/ 10
67/239
0.0
101.0
17.5
27.02
O/ 4
26/243
0.0
210.0
17.1
33.19
O/ 0
56/247
0.0
21.0
7.1
5.88
O/ 21
17/225
0.0
90.0
8.2
12. 6«
O/ 0
79/246
0.0
112.0
17.8
24.33
O/ 7
73/735
0.0
210.0
13.8
22.16
O/ 0
22 10.3
45654 89.6
3889 28.9
8391.4 21.26
0 0.0
6707 10. 0
262 2.7
844.4 2.83
94 10.3
18427 50.5
2846 20.3
4746.9 12.59
0 0.0
2744 9.3
284 2.4
551.6 2.83
135 10.3
21946 63.5
4509 24.7
6843.8 17.98
0 0.0
5183 9.8
266 2.6
731.2 2.79
22 10.3
45654 69. t
3662 24.8
6857.5 17.98
0 O.C
6707 10.0
27J 2.6
724. t 2.8J
202/711 168/643 231/733 232/720 201/724 233/732 232/719 232/737 2D2/742 232/7*1 202/732 232/741 202/742
-------
6ENUS: STICHOCOCCUS
CHLA
TUftB SECCHI
PH
PARTIAL DEPTH VALUES
00 TEMP TOTALP ORTHOP N02N03 NH3
KJEL ALK
N/P
CONC PERC
ft
C 0
U 1 C
M C
D
* N
0 0
U 1 N
N 0
0 C
c
*
0 0
U 2 C
N C
0
• N
0 0
U 2 N
N 0
0 C
C
*
0 0
U 3 C
N C
9
• N
0 0
U S N
N 0
D C
C
•
0 » ?
U L C
N L C
D
ft M
O A 0
U 1 N
N L O
0 C
C
MIK
MAX
MEAN
STDV
N>
0/UK
MtN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
NEAN
STOV
N>
0/MK
MIM
MAX
MEAN
STOV
N>
0/VR
MIN
MAX
MEAN
STOV
N>
0/HP
MIN
MAX
NEAN
STDV
N>
C/WR
KIN
MAX
MEAN
STOV
N>
O/HR
MtN
MAX
MEAN
STOV
N>
D/Mft
0.3
355.6
21.0
*1.*0
O/ 0
2*7/2*7
5.8
5.8
5.8
0.00
37/206
If *
1.*
595.0
3*. 6
62.68
s/ a
2*6/2*7
0.8
2*1.*
23.2
3*. 27
O/ 0
2*7/2*7
5.8
5.8
5.8
0.00
203/531
I/ 7
0.3
595.0
26.2
*7.95
O/ 0
7*0/7*1
6
100
71
20.6
O/ 3
187/187
92
92
92
0.0
196/ 29
I/ 12
*
121
72
2*.0
a/ o
236/237
1
130
7*
23.1
O/ 0
221/221
92
92
92
0.0
5*1/ 8*
I/ 20
1
121
72
22.7
O/ 0
6*4/6*5
2
2S2
**
36.2
O/ 0
2*9/2*9
91
91
91
0.0
211/ 28
I/ 2
1
222
*9
35.8
O/ 0
2*0/2*1
6
185
50
35.0
O/ 0
2*6/2*6
91
91
91
0.0
6*7/ 86
I/ 3
1
252
*7
35.7
O/ 0
735/736
5.3 3.7 6.8 0.00* 0.031
10.6 19.2 28.9 1.719 1.209
7.9 9.0 17.5 0.123 0.057
0.73 2.02 5.59 0.231* 0.16*2
0/0 0/0 0/0 0/0 0/0
2*9/2*9 2*5/2*5 2*8/2*8 2*9/2*9 2*9/2*9
7.0 7.3 28.9 0.011 0.007
7.3 7.3 28.9 0.011 0.007
7.0 7.3 28.9 0.311 3.007
0.00 0.00 0.00 0.0000 0.0000
*0/199 160/ 83 192/ *5 20/223 79/150
1/8 1/3 1/9 I/ * I/ 18
*.l 3.0 17.3 0.00* 0.001
10.6 17.8 32.2 2.559 1.191
7.8 7.3 26.6 0.135 0.053
0.89 1.99 2.35 0.2816 0.1*82
0/0 0/0 0/0 0/0 0/0
2*6/2*7 2*5/2*6 2*5/2*6 2*6/2*7 2*6/2*7
*.7 1.6 9.0 0.00* 0.001
10.3 13.5 29.6 *.S*9 2.009
T.6 7.3 20.* 0.155 0.070
0.8* 1.61 3.25 O.*091 0.2088
o/o o/o o/o o/o o/o
2*5/2*5 2*1/2*1 2*6/2*6 2*6/2*6 2*5/2*5
7.0 7.3 28.9 0.011 0.007
7.0 7.3 28.9 0.011 0.007
7.0 7.3 28.9 0.011 0.007
0.00 0.03 3.03 0.0000 0.0000
127/589 305/*18 683/ *7 51/683 20S/*86
I/ 25 I/ 9 I/ 10 I/ 0 I/ 50
*.l 0.7 6.8 0.00* 3.001
10.6 19.2 32.2 *.5*9 2.009
7.8 7.8 21.5 0.137 0.060
0.83 2.17 S.*9 0.3159 0.175*
0/0 0/9 0/0 0/0 0/0
7*0/7*1 731/732 739/7*0 7*1/7*2 7*0/7*1
0.02*
9.7*5
0.870
l.*75*
O/ 0
2*9/2*9
0.0*6
0.0*6
0.3*6
0.0000
17/229
I/ 1
0.025
6.857
0.*95
0.8850
O/ 0
2*6/2*7
0.017
*.*69
0.3*2
3.5*77
O/ 0
2*6/2*6
0.0*6
0.0*6
0.3*6
3.3000
87/650
I/ i
0.317
9.7*5
0.570
1.0666
O/ 0
7*1/7*2
0.022 0.199
0.635 4. 699
0.107 0.796
0.0953 0.6975
0/0 0/0
2*9/2*9 2*9/2*9
0.052 0.506
0.052 0.506
0.052 0.505
0.0000 0.0000
25/220 59/187
1/2 1/1
0.03* 0.215
0.719 7.1*9
0.120 1.220
3.3879 1.0790
0/0 0/0
2*6/2*7 2*6/2*7
0.020 0.199
3.02* 8.199
0.122 1.118
3.2232 1.0572
0/0 0/0
2*6/2*6 2*6/2*6
0.052 3.536
0.052 0.506
0.052 0.505
0.0000 0.3300
138/595 236/53*
1/9 I/ 2
0.020 0. 199
3.02* 8.199
O.I 16 1.0**
0.1*88 0.975*
0/0 0/0
7*1/7*2 7*1/7*2
10
2*8
70
67.3
O/ 0
2*9/2*9
12
12
12
3.0
27/215
I/ 5
10
33*
7*
68.9
O/ 0
2*6/2*7
10
291
73
6*.l
O/ 3
2*6/2*6
12
12
12
0.3
93/632
I/ 17
10
33*
72
66.7
O/ 3
7*1/7*2
0.0
1*2.3
18.6
25.1*
O/ 0
2*9/2*9
9.0
9.0
9.0
0.00
1*8/ 86
I/ 13
0.0
210.0
l*.l
23.81
O/ 0
2*6/2*7
0.0
90.0
9.6
1*.87
O/ 0
2*6/2*6
9.0
9.0
9.0
3.00
**0/269
I/ 33
0.0
210.0
14.1
22.05
O/ 0
7*1/7*2
0
0
0
o.o
0
0
3
0.0
0
0
0
9.0
0
0
0
0.0
0
0
0
0.0
3
0
0
0.0
0.0
0.0
0.0
o.oo
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.0
o.o
0.0
0.30
0.3
0.0
0.0
0.00
0.0
0.0
0.0
0.30
-------
ee*LS«sTicw?coccus
CHLA
•c "I"
0 0 MAX
U 1 0 MEAN
N * S?DV
0 *>
O/HR
R N HIM
0 0 "»X
U 1 N fEAW
N 0 STDV .
D 0 M>
H
R MI*
0 0 «AX
U 2 0 «EA*
N " STDV
0 *>
C/WR
R N NIN
0 3 CAX
U 2 N MEAN
* 0 STDV
o r •«/>
" O/WR
R HIM
0 0 »AX
030 "EAN
N N STDV
o «>
TU»B seccm
PH
PARTIAL DEPTH VALUES
DO TEMP~ TOTALP ORTHOP NOZNOS
NH3
KJEL ALK
N/P
CONC PERC
5.8 92 91
5.8 92 91
5.8 92 91
0.00 0.0 0.0
37/206 196/ 29 21I/ 28
I/ * 1/12 1/2
7.0
7.0
7.0
0.00
40/199
I/ 8
7.3
7.3
7.3
0.00
160/ 83
I/ 3
28.9
28.9
28.9
0.00
192/ 45
I/ 9
0.011
0.011
0.011
0.0000
20/223
I/ 4
0.007
0.007
0.007
0.3000
79/150
I/ 18
0.046
0.046
0.046
0.0000
17/229
I/ 1
0.052
0.052
0.052
0.0000
25/220
I/ 2
0.506
0.536
0.505
0.0000
59/187
I/ 1
12
12
12
0.0
27/215
I/ 5
9.0
9.0
9.0
0.00
148/ 86
I/ 13
o o.o
0 3.0
0 0.0
0.0 0.00
R
C
U 3
N
t "IN
0 "AX
1 "EAN
C S»OV
3 A 0 "AX
u L o MEAN
K L « STDV
IS
C A
0/WR
WIH
"AX
WEAN
$TPV
5.8
5.8
5.8
0.00
92
92
92
0.0
91
91
91
0.0
7.0
7.3
7.0
0.00
7;3
7.3
7.3
0.00
28.9
28.9
28.9
0.00
0 /MR
233/531 5*1/ 8* t*7/ 86 127/589 33J/*18 683/ *7
I/ 7 I/ 20 I/ 3 It 25 I/ 9 I/ 10
0.011 0.007
0.311 3.037
0.011 0.007
0.0000 0.0000
51/683 205M86
I/ 8 I/ 50
0.046 0.052 0.506
0.346 0.052 O.S06
0.046 3.052 0.535
0.0000 0.0000 0.3300
87/650 138/595 236/504
1/5 1/9 1/2
12 9.0
12 9.0
12 9.0
3.0 3.30
93/632 440/269
I/ 17 I/ 33
o o.o
0 0.0
J 0.3
3.3 3.33
-------
GENUS: STIGEPCLON1UN
PARTIAL DEPTH VALUES
CHI A
TURB SECCHI
PH
DO
TEMP TOTALP ORTHOP N02S03
NH3
KJEL AUK
N/P
CONC PERC
R
0 0
U 1 C
N C
D
R N
0 0
U 1 N
N 0
D C
C
R
0 0
U 2 C
N C
0
P N
0 0
U 2 N
N 0
0 C
C
R
0 f>
U 3 C
N C
0
R N
0 0
0 3 N
N 0
D C
C
R
P A 0
0 I C
NIC
0
R N
0 A 0
U 1 N
N L 0
0 C
C
MIN
HAX
MEAN
STDV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/WR
N1N
MAX
MEAN
STOV
N>
0/WR
HIM
MAX
»EAN
STOV
N>
P/WP
I«IN
MAX
MEAN
STOV
N>
0/WR
HIN
MAX
ME»N
STDV
N>
C/WB
HIM
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/WR
0.5
0.5
0.5
0.00
1/2*3
I/ 3
0.3
355.6
21.0
41.46
O/ 0
2*6/2*7
1.4
595.0
3*.*
62.58
O/ J
247/2*7
0.8
241.4
23.2
34.27
3/ 0
247/2*7
0.5
0.5
0.5
0.00
1/737
I/ 3
9.3
595.0
26.2
47.95
a/ o
743/741
88 88 5.3 9.4 15.9
68 88 5.3 9.* 15.9
88 88 5.3 9.4 15.9
0.0 0.0 0.00 0.00 9.00
145/ 37 217/ 28 0/247 138/133 123/122
1/5 1/4 1/2 1/4 1/3
6 2 5.3 0.7 6.8
100 252 10.6 19.2 28.9
70 43 7.9 9.0 17.5
20.6 36.1 0.71 2.02 5.63
0/0 0/0 0/0 0/0 0/0
186/187 248/249 248/249 244/245 247/2*8
4 1 *. 1 3.3 17.3
121 222 10.6 17.8 32.2
72 *9 7.8 7.0 26.6
24.0 35.8 0.89 1.98 2.35
0/0 0/0 0/0 0/1 0/0
237/237 241/241 247/247 246/246 246/246
1 6 4.7 1.6 9.0
100 185 10.3 13.5 29.6
74 50 7.6 7.3 20.4
23.1 35.3 0.84 1.61 3.25
0/0 0/9 0/0 0/3 0/0
221/221 2*6/246 2*5/245 241/2*1 246/246
88 88 5.3 ?.4 15.9
88 88 5.3 9.4 15.9
88 88 5.3 9.4 15.9
0.0 0.0 0.00 0.00 0.00
463/166 639/ 93 3/736 588/139 141/595
1/16 1/4 1/2 1/5 1/4
1 1 4.1 3.7 6.8
121 252 10.6 19.2 32.2
72 48 7.8 7.8 21.5
22.7 35.7 0.82 2.07 5.49
}/ 0 3/0 0/0 3/3 0/0
64*/6*5 735/736 743/741 731/732 739/743
0.034
0.004
0.003
0.0033
0/247
I/ 2
0.004
1.719
0.123
0.2318
Of 0
248/249
0.034
2.559
0.134
0.2811
O/ 0
2*7/2*7
3.334
4.549
0.155
3.4091
O/ 3
246/2*6
0.034
0.034
0.003
0.0000
0/737
I/ 5
0.004
4.549
0.137
0.3159
O/ 0
741/7*2
0.031
0.001
0.000
0.0000
0/239
I/ 10
0.001
1.209
0.057
0.1645
01 0
2*8/249
0.001
1.191
0.053
0.1479
O/ 0
247/247
0.001
2.039
0.070
0.2088
O/ 0
2*5/2*5
0.101
0.031
0.000
0.0000
0/727
I/ 14
0.001
2.009
0.060
0.1754
O/ 0
7*0/7*1
0.469 0.042
0.469 0.042
0.468 0.042
3.3000 0.0000
151/ 96 26/222
1/2 1/1
0.024 0.022
9.745 0.635
0.871 0.107
1.4782 0.0954
0/0 0/0
248/249 248/249
0.325 0.034
6.857 0.719
0.493 0.120
0.8836 0.0878
0/0 0/0
247/247 247/247
0.317 3.023
4.469 3.024
0.342 0.122
0.5477 0.2232
0/3 0/0
246/246 2*6/2*6
0.469 0.042
0.469 0.042
0.468 0.042
0.0000 0.0000
534/206 56/678
1/2 1/8
0.017 0.020
9.745 3.324
0.573 0.116
1.0667 0.1488
0/0 0/0
741/742 741/742
0.265
0.265
0.264
0.0000
13/233
I/ 3
3.199
4.699
0.798
0.6981
O/ O
248/249
0.215
7.149
1.217
1.0778
O/ 0
247/247
3.199
8.199
1.118
1.0572
O/ 0
2*6/246
0.265
3.265
3.264
0.0000
29/709
I/ 4
0.199
8.199
1.044
0.9752
O/ 0
741/742
10
13
10
0.0
0/214
I/ 35
10
248
70
67.4
O/ 0
248/249
13
334
73
68.9
O/ O
247/247
13
291
73
64.1
01 0
2*6/2*6
10
10
10
0.0
0/668
I/ 74
10
334
72
66.7
O/ O
741/742
98.0
98.0
98.0
0.00
243/ 5
I/ 1
0.0
142.0
18.3
24.67
O/ 0
248/249
0.0
210.0
14.1
23.76
O/ O
247/247
0.0
90.0
9.6
14.87
O/ 0
2*6/2*6
98.0
98.0
98.0
0.00
731/ 10
I/ 1
0.0
210.0
1*.0
21.84
01 0
7*1/742
0
0
0
0.0
0
0
0
0.0
0
0
0
0.0
0
0
3
0.0
0
0
0
0.0
0
0
0
0.0
0.0
3.0
0.0
0.00
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.03
0.0
0.0
0.0
0.30
-------
GENUS! STIGEOCIONIUM
PARTIAL DEPTH VALUES
CHLA
TURB SCCCHI
00
TEMP TOTAL? ORTHOP N02N03
NH3
KJEL ALK
N/P
CONC PERC
00
R MIN
0 0 MAX
u i c MEAH
N 1 STOV
0 N>
0/NR
* H MIN
0 0 MAX
U 1 N MEAN
1 0 STOV
D 0 H>
1 0/W
R PIN
0 0 "AX
U 2 0 MEAN
N M STDV
D N>
C/W*
R N »IN
C 0 MAX
u 2 N MEAN
1 C STOV
n o N>
M O/NR
R MIN
0 0 MAX
U 3 1 "EAN
N M STDV
0 N>
C/WR
• N "IN
r. 1 *t*
'J 3 S "MS
N 0 STOV
0 C N>
M P/WR
R C'N
PAD MAX
U L C M«AN
»k L " STOV
9/NR
P N " IK
0 A 0 "AX
U L N MEAN
N i o SToy.
9 0 N>
1 0/*R
0.5 88 88 5.3 9.4 15.9 0.994 0.001 0.469 0.042 9.265 10 98.0
0.5 88 88 5.3 9.4 15.9 0.004 0.001 0.469 0.042 0.265 10 98.0
0.5 88 88 5.3 9.4 15.9 0.003 O.OOO O.468 0.042 0.264 1O 98.0
0.00 0.0 0.0 0.00 0.00 0.00 0.0000 0.0000 0.0000 0.0000 0.0000 0.0 0.00
1/243 145/ 37 217/ 28 0/247 138/103 123/122 0/247 0/239 151/ 96 26/222 13/233 0/214 243/ 5
1/3 1/5 1/4 1/2 1/4 1/3 1/2 I/ 10 1/21/1 1/3 I/ 35 I/ 1
O.S 88 88 5.3 9.4 15.9 0.004 0.001 0.469 0.042 0.265 10 98.0
3.5 88 88 5.3 9.4 15.9 9.334 3.331 3.469 3.942 0.265 10 98.0
0.5 88 88 9.3 9.4 15.9 0.003 0.000 0.468 0.942 0.264 13 98.0
9,00 0.0 0.0 0.00 0.00 0.00 0.0000 0.0000 0.0000 0.0000 0.0900 9.9 0.09
1/737 463/166 639/93 3/736 588/139 141/59} 0/737 0/727 534/206 56/678 29/709 0/668 731/ 10
I/ 3 11 16 1/4 1/2 1/5 1/4 1/5 \l 14 1/2 1/8 1/4 I/ 74 I/ 1
0 0.0
0 0.0
0 0.0
0.0 0.00
0 0.0
0 0.0
0 0.0
3.3 3.33
-------
GCNUS: STIP1TOCOCCOS
CHI A
TUPB SECCHI
PH
TEMP
PARTIAL DEPTH VALUES
TOTALP ORTHOP N02N03 NH3
KJEL ALK
N/P
CONC PERC
0 0
U 1 C
H C
D
R N
0 6
U 1 N
N P
D C
C
„
0 0
U 2 C
N C
0
R N
0 0
U 2 N
N 0
D C
C
*
0 0
U 3 C
N C
O
R N
P 0
U 3 N
N <3
0 C
C
• • •
0 A 0
U L C
N L C
D
R N
0 A 0
U L N
N L O
D C
C
MIN
MAX
MEAN
STDV
0/WR
MIN
MAX
MEAN
STOV
N>
r/wR
MIN
MAX
MEAN
STOV
N>
0/MD
MIN
MAX
MEAN
STOV
N>
0/HR
MIN
MAX
M*AN
STDV
"%»
MIN
MAX
MEAN
STDV
N>
0/HR
MIN
MAX
MEAN
STDV
N>
0/W»
MIN
1AX
MEAN
STOV
N>
P/HR
0.3
355.6
21.3
41.40
Of 0
247/247
39.2
39.2
39.2
0.33
190/ 56
If I
1.4
595.0
34.4
62.71
O/ 0
246/247
0.8
241.4
23.2
34.27
3f 0
247/247
39.2
39.2
39.2
0.39
610/130
I/ 1
0.3
595.0
26.2
. 47.96
3f 0
740/741
6
130
71
20.6
O/ 0
187/187
99999
-99999
0
0.0
237/ 0
O/ 0
4
121
72
24.0
Of 0
237/237
1
100
74
23.1
3/ 0
221/221
99999
-99999
0
0.0
645/ 0
O/ 0
1
121
72
22.7
3/ 0
645/645
2 5.3
252 10.6
44 7.9
36.2 O.73
0/0 0/0
249/249 249/249
34 7.2
34 7.2
34 7.2
3.3 0.03
97/138 55/185
1/6 1/7
1 4.1
222 10.6
49 7.8
35.9 0.89
0/3 0/0
240/241 246/247
6 4.7
185 10.3
50 7.6
35.0 0.84
3/0 0/3
246/246 245/245
34 7.2
34 7.2
34 7.2
3.0 0.00
311/413 171/549
If 12 If 21
1 4.1
252 10.6
48 7.8
35.7 0.83
0/3 O/ 3
735/736 740/741
0.7
19.2
9.3
2.02
O/ 0
245/245
6.8
6.8
6.8
3.33
119/121
I/ 6
3.0
17.8
7.0
1.99
O/ 9
245/246
1.6
13.5
7.3
1.61
3/ 3
241/241
6.8
6.8
6.8
0.00
231/487
If 14
3.7
19.2
7.8
2.07
Of 0
731/732
6.8 0.004 0.001 0.024 0.022
28.9 1.719 1.209 9.745 0.635
17.5 0.123 0.057 0.873 0.137
5.59 0.2314 0.1642 1.4754 0.0953
0/0 0/0 0/0 0/0 0/0
248/248 249/249 249/249 249/249 249/249
25.5 0.063 0.017 0.853 0.167
25.5 0.063 0.017 0.853 0.167
25.5 0.062 0.017 0.852 0.166
3.30 0.0033 0.3333 3.33)3 3.0300
84/158 143/133 159/ 84 238/ 38 200/ 45
1/4 If 1 1/4 I/ 1 1/2
17.3 0.004 0.001 0.325 0.034
32.2 2.559 1.191 6.857 0.719
26.6 0.135 0.053 0.492 0.119
2.35 0.2817 0.1482 3.8851 0.0879
3f 3 Of 3 0/3 3/3 0/0
245/246 246/247 246/247 246/247 246/247
9.0 0.034 3.001 0.017 0.020
29.6 4.549 2.339 4.469 3.024
20.4 0.155 0.070 0.342 0.122
3.25 0.4091 0.2088 0.5477 0.2232
0/3 0/3 )/ 9 0/3 Of 0
246/2,46 246/246 245/245 246/246 246/246
25.5 0.063 3.017 3.853 0.167
25.5 0.063 3.317 0.853 3.167
25.5 0.062 0.017 0.852 3.166
0.00 0.0000 0.0000 0.0000 0.9000
529/237 409/327 439/291 609/132 619/119
1/4 1/6 I/ 11 1/1 1/4
6.8 0.034 0.001 0.017 0.020
32.2 4.549 2.339 9.745 3.324
21.5 0.137 3.060 0.569 0.116
5.50 0.3159 0.1754 1.0667 O.1488
of o o/ o or o of o of o
739/743 741/742 743/741 741/742 741/742
0.199
4.699
0.796
0.6975
O/ 0
249/249
3.924
0.924
0.924
3.0330
129/116
I/ 2
0.215
7.149
1..218
1.0798
3f 0
246/247
.). 199
8.199
1.118
1.0572
V 0
24S/246
3.924
9.924
9.924
0.0000
455/285
If 2
0.199
8.199
1.343
0.9756
O/ 0
741/742
10
248
70
67.3
Of 3
249/249
13
10
10
3.3
0/229
If 18
10
334
74
68.9
Of 3
246/247
13
291
73
64.1
Of 0
246/246
10
19
13
0.0
0/668
If 74
10
334
72
66.7
Of 0
741/742
0.0
142.0
18.6
25.14
O/ 0
249/249
16.3
16.0
16.0
0.00
199/ 43
I/ 5
0.0
210.0
14.1
23.81
Of 0
246/247
0.9
90.3
9.6
14.87
Of 0
246/246
16.0
16.3
16.0
0.00
576/153
I/ 13
0.0
213.0
14.1
22.35
Of 0
741/742
0
0
0
0.0
180
180
180
0.0
0
3
0
0.0
0
3
3
0.0
180
183
183
0.3
0
0
0
3.3
0.0
0.0
0.0
0.00
2.5
2.5
2.5
0.00
0.0
0.0
0.0
0.00
0.0
0.3
0.0
0.00
2.5
2.5
2.5
0.39
0.0
0.0
0.0
0.00
-------
en
in
CENUS s STIPITCCOCCUS
CHLA
• MIM
O 0 HAX
010 MEAN
N N STOV
0 *>
0/NR
* * NIN
0 0 MAX
O 1 N MEAN
N 0 STOV
0 0 N>
•» O/K*
• NIN
0 D "AX
U 2 O MEAN
N N STDV
9 N>
c/tm
TUKB SKCHI
PH
DO
TEMP
DEPTH VALUES
TOTALP ORTHOP N02N03 NH3
KJEL ALK
N/P
CONC PERC
* N NIN
C 0 MAX
U 2 N MEAN
N 9 STDV
0 0 N>
H 0/W»
« NIN
0 0 NAX
U 3 0 »FAN
•« «• STDV
D
39.2 99999
39.2 -99999
39.2 0
0.90 0.0
190/ 96 23T/ 0
1/1 0/0
34
3*
34
3.0
97/138
I/ 6
7.2 6.8
7.2 6.8
7.2 6.8
0.00 0.00
55/185 119/121
1/7 1/6
2S.5 0.363 0.017 0.853 0.167 0.924 10 16.0
29.5 0.063 0.017 0.853 0.167 0.924 10 16.0
25.5 0.062 0.017 0.852 0.166 0.924 10 16.0
o.oa i.oooo o.oooo o.oooo 3.0000 o.oooo o.o o.oo
84/158 143/133 159/ 84 238/ 38 ZOO/ 45 129/116 0/229 199/ 43
1/4 1/1 1/4 1/1 1/2 1/2 I/ 18 I/ 5
* N MIN
C 0 MAX
0 3 N MEAN
N C STDV
9 C N>
M 0/W*
180 2.5
183 2.5
180 2.S
0.0 0.00
0 A 0
U L C
N L N
D
"AX
Hf»N
STOV
N>
P N
CAT
U L N
N L P
3 0
MAX
MEAN
STOV
39.2 99999
39.2 -99999
39.2 0
0.00 0.0
n/MR
619/133 64S/
I/ 1 }/
34
34
34
0.0
7.2
T.2
7.2
0.00
6.8
6.8
6.8
0.00
25.5
25.5
25.5
0.00
0.063
3.363
0.062
0.0000
0.017
0.317
0.017
0.0000
0.853
0.853
0.852
0.0000
0.167
3.167
0.166
0.0000
0.924
0.924
0.924
0.0330
0 311/413 171/549 231/487 529/707 409/327 439/291 609/132 619/119 455/285
It 12 I/ 21 I/ 14 1/4 1/6 I/ 11 I/ 1 1/4 1/2
10 16.0
10 16.0
10 16.0
3.3 D.3S
0/668 576/153
If 74 I/ 13
180 2.5
180 2.5
18J 2.!
3.3 3.33
-------
6€NUS: SURIREUt
PARTIAL DEPTH VALUES
TULA
TURB SECCHt
PM
00
TEMP TOTALP ORTHOP S02N03
NM3
KJEL ALK
N/P
CONC PERC
*
o o
U 1 C
N C
0
* N
0 0
U 1 N
N 0
0 C
C
R
0 0
U 2 C
•1 C
0
R N
0 0
U 2 N
cr> NO
CTl DC
C
R
o n
U 3 C
N C
0
R N
0 0
U S N
N 0
0 C
C
R
0*0
U L C
NIC
0
• N
P A 0
U I t
N L 0
0 C
C
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
JTOV
N>
O/HR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
9/WR
MIN
MAX
MEAN
STOV
N>
0/MR
MIN
MAX
MEAN
STOV
N>
C/WR
MIN
1AX
MEAN
STDV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/WR
2.4
188.6
18.8
29.65
22/ 4
47/221
0.3
355.6
21.*
43.75
Of 0
200/247
3.1
258.7
33.1
57.13
I*/ 3
23/230
1.4
595.0
34.8
63.14
O/ 0
227/247
1.2
198.0
35.0
49.il
4/ 2
31/241
0.8
241.4
21.5
31.26
O/ 0
216/247
1.2
258.7
26.2
43.26
ll/ 4
98/726
0.3
595.0
26.2
48.63
o/ a
643/741
13
98
62
24.7
2/ 2
30/183
6
190
72
19.4
O/ 0
157/187
5
87
62
23.5
I/ 65
20/171
4
121
73
23.8
O/ 0
217/237
6
94
64
26.8
2/ 20
28/199
1
too
75
22.2
O/ 0
193/221
5
98
63
24.9
3/ 7
78/635
1
121
74
22.1
O/ 0
567/645
2 6.8
172 8.8
31 8.9
26.4 0.45
O/ 2 9/ 17
48/247 48/223
3 5.3
252 10.6
46 7.9
37.6 0.78
1/0 0/0
201/248 201/249
10 5.5
61 9.4
32 7.5
16.1 3.96
12/ 58 21 6
20/171 20/239
1 4.1
222 10.6
59 7.8
36.7 0.88
Of 0 Of 0
221/241 227/247
10 5.9
150 8.9
35 7.6
26.5 0.95
3/5 2/8
31/238 30/235
6 4.7
185 10.3
53 7.6
35.5 0.82
If 0 0/0
215/246 215/245
2 5.5
172 9.4
33 7.7
24.5 0.77
I/ 6 5/ 17
99/729 98/719
1 4.1
252 10.6
50 7.8
36.6 0.84
0/0 0/0
637/736 643/741
6.3 7.2
12.2 27.8
9.4 15.0
1.31 3.97
18/ 71/6
48/220 48/241
0.7 6.8
19.2 28.9
8.9 18.1
2.15 5.76
0/0 0/0
197/245 200/248
4.3 21.5
9.8 29.7
6.6 26.4
1.19 2.29
9/ 14 5/ 15
20/223 20/226
3.0 17.3
17.8 32.2
7.0 26.6
2.33 2.36
3/0 0/0
226/246 226/246
2. 8 9. 0
13.5 25.0
7. 9 19. 1
1.93 3.88
2/3 0/20
31/239 31/226
1.6 13.7
12.7 29.6
7.2 20.6
1.54 3.11
3/1 3/0
213/249 215/243
2.8 7.2
13.5 29.7
8.4 18.6
1.86 5.67
4/ 7 If 15
99/721 09/724
0. 7 6. 8
19.2 32.2
7.7 21.9
2.09 5.33
0/0 0/0
633/732 641/740
0.010 0.001
0.259 0.171
0.091 0.937
0.0546 0.0331
12/ 18 Of 16
48/219 48/233
0.004 0.001
1.719 1.209
0.130 0.062
9.2558 0.1819
0/0 0/0
201/249 201/249
0.015 0.002
0.605 0.403
0.129 0.043
3.1431 0.1886
31/ 14 3/ 9
20/202 20/235
0.004 9.031
2.559 1.191
0.135 0.054
0.2904 3.1521
0/3 0/0
227/247 227/247
0.934 0.033
3.084 2.039
0.210 0.098
3.5535 0.3636
0/1 2/0
30/245 30/243
0.035 3.301
4.549 1.255
0.147 0.066
0.3858 0.1779
1/3 0/1
216/245 215/244
0.034 3.001
3.984 2.3)9
0.135 3.357
0.3158 0.2057
0/1 0/0
98/741 98/741
0.004 0.001
4.549 1.255
0.137 0.060
0.3159 0.1704
0/0 Of I
644/742 643/740
0.054 0.030
9. 745 0. 479
1.866 0.106
2.4101 0.0834
ll/ 02/5
48/238 48/242
0.024 0.022
7.439 0.635
3.632 0.107
1.0195 0.0981
0/3 0/0
201/246 201/249
0.051 0.054
4.295 0.504
0.532 0.176
3.9159 0.1305
25/ 1 28/ 2
20/221 20/217
0.025 0.034
6.857 0.719
0.490 0.115
9.8827 3.0816
0/0 3/0
227/247 227/247
0.029 0.034
2.569 3.024
0.405 0.215
0.5759 0.5579
19/ 24/0
30/225 30/242
0.017 0.020
4.469 0.979
0.333 0.109
0.5445 0.1157
0/0 0/1
216/246 216/245
0.029 0.030
9.745 3.024
1.146 0.154
1.8926 0.3196
25/ 03/0
98/717 98/739
0.017 0.020
7.439 0.979
0.482 0.110
0.8431 0.0991
0/3 0/1
644/739 644/741
0.243 10
1.649 248
0.690 96
3.3397 75.1
8/ 23 O/ 0
48/218 48/249
0.199 10
4.699 240
0.821 64
0.7569 64.0
0/0 0/1
201/249 201/248
0.281 10
4.299 334
1.157 64
0.9675 82.3
5/5 0/3
20/237 20/247
0.215 10
7. 149 293
1.222 74
1.0887 67.7
3/0 0/1
227/247 227/246
0. 240 10
8.199 291
1.379 80
1.5400 81.0
6/0 0/0
30/240 30/246
0.199 10
6.030 283
1.382 72
0.9711 61.5
0/1 0/1
216/245 216/245
0.240 10
8.199 334
3.996 84
1.0224 78.6
15/ 00/0
98/727 98/742
0.199 10
7.149 293
1.359 73
0.9681 64.6
0/1 0/1
644/741 644/741
2.0
112.0
23.1
24.77
25/ 4
48/220
0.0
142.0
17.5
25.17
O/ 0
201/249
1.0
33.0
8.3
T.03
12/ 28
20/207
0.0
213.0
14.6
24.64
O/ 0
227/247
1.3
62.0
7.0
11.38
13/ 5
30/228
0.0
90.0
10. 0
15.28
O/ 0
216/246
1.0
112.0
15.2
23.17
32/ 7
98/703
0.0
210.0
14.0
22.32
Of 0
644/742
0
53
5
12.4
0
0
0
0.3
0
79
4
17.6
3
3
0
0.0
0
722
65
183.6
O
J
3
0.0
0
722
24
136.3
0
O
•3
0.3
0.0
5.0
0.3
0.86
0.0
0.0
0.0
0.00
0.0
1.3
0.1
0.28
0.0
0.0
0.0
0.00
0.0
3.8
0.3
0.91
0.0
0.9
0.0
0.33
0.0
5.0
0.2
0.79
0.0
0.0
0.0
0.30
-------
CENUStSURHFlLA
C«.A
TURB SECCHI
PH
PARTIAL DEPTH VALUES
DO TEMP TOTALP OUT HOP NOZN03
NH3
KJEL ALK
N/P
CONC PERC
• MIN
0 0 MAX
U 1 0 M5AN
N •» STOV
0 N>
0/H*
* N MIN
«? 0 MAX
u i N MEAN
N D STOV
0 0 N>
1 O/MR
R MIN
0 0 "AX
u 2 o MEAN
N « STDV
D N>
O/K»
R N PIN
0 0 MAX
U 2 N MEAN
N 0 STCV
5 *? N>
" 0/M
R MIN
0 D "AX
u 3 o MEAN
N 1 STOV
0 N>
R S MIN
0 0 "AX
U 3 N NEAN
N 0 S'OV
n 0 N>
•• 0/MR
R "IN
0*0 MAX
U L 0 "FAN
N 1 H STPV
C N>
C/'nR
» N HIN
•3 A 0 KAX
U L N MEAN
N L 0 STOV
0 0 N>
N O/M»
2.4
188.6
18.8
29.65
227 4
47/221
3.1
258.7
30.1
57.13
14/ 3
20/230
1.2
198.0
35.3
49.61
4/ 2
31/241
1.2
258.7
26.2
43.26
ll/ 4
98/726
13
98
62
24.7
2/ 2
307183
5
87
62
23.5
17 65
23/171
6
94
64
26.8
2/ 20
28/199
5
98
63
24.9
3/ 7
78/635
2
172
31
26.4
O/ 2
48/247
10
61
32
16.1
12/ 58
20/171
10
150
35
26.5
3/ 5
31/238
2
172
33
24.5
I/ 6
99/729
6.8
8.8
8.0
0.45
9/ 17
48/223
5.5
9.4
7.5
0.96
21 6
207239
5.9
8.9
7.6
0.95
2/ 8
30/235
5. 5
9.4
7.7
0.77
5/ 17
98/719
6.3
12.2
9.4
1.31
IS/ 7
48/220
4.3
9.8
6.6
1.19
9/ 14
20/223
2.8
13.5
7.9
1.93
2/ 3
31/239
2.8
13.5
8.4
1.86
4/ 7
99/721
7.2
27.8
15.0
3.97
I/ 6
48/241
21.5
29.7
26.4
2.29
5/ 15
23/226
9.3
25.0
19.1
3.88
3/ 23
31/226
7.2
29.7
16.6
5.67
I/ 15
99/724
0.310
0.259
0.091
0.0546
127 18
48/219
0.015
0.605
0.129
0.1431
31/ 14
20/202
0.334
3.0«4
0.210
0.5535
O/ 1
30/245
0.004
3.384
3.135
0.3158
O/ 1
98/741
0.091
0.171
0.037
0.0331
O/ 16
487233
0.002
0.403
0.043
0.0886
3/ 9
20/235
0.003
2.339
0.098
3.3636
2/ 3
30/243
0.001
2.009
3.357
0.2057
O/ 0
98/741
0.054
9.745
1.866
2.4131
ll/ 0
48/238
0.051
4.295
0.532
0.9159
25/ 1
20/221
0.329
2.569
0.405
0.5759
19/ 2
30/225
0.029
9.745
1.146
1.8926
25/ 0
98/717
0.030
0.479
0.106
0.0834
2/ 5
487242
0.054
0.504
0.176
0.1305
287 2
20/217
0.034
3.024
0.215
0.5579
4/ 0
30/242
0.030
3.024
0.154
0.3196
3/ 0
98/739
0.243
1.649
0.690
0.3397
8/ 23
48/218
0.281
4.299
1.157
0.9675
5/ 5
23/237
3.240
8.199
1.379
1.5400
6/ 3
30/240
0.240
8.199
3.996
1.0224
IS/ 0
98/727
10
248
96
75.1
O/ 0
48/249
10
334
64
82.3
O/ 0
20/247
13
291
80
81.0
O/ 3
30/246
10
334
84
78.6
Of 0
98/742
2.0
112.0
23.1
24.77
25/ 4
48/220
1.0
33.0
8.3
7.03
12/ 28
20/207
1.0
62.0
7.0
11.38
13/ 5
30/228
1.0
112.0
15.2
23.17
32/ 7
98/703
0 0.0
53 5.0
5 0.3
12.4 0.86
0 0.0
79 1.3
4 0.1
17.6 9.28
0 0.0
722 3.6
65 0.3
163.6 0.91
0 0.0
722 5.0
24 J.2
Ut.3 0.7?
-------
00
GENUS I SYNCRYPTA
CKA
TURB SECCHI
TEM»
PARTIAL DEPTH VALUES
TOTALP ORTHO" N02N03 NH3
KJEL ALK
N/P
CCNC PERC
R
C n
U 1 C
N C
D
* N
0 0
U 1 N
N 0
0 C
C
*
0 0
U 2 C
N C
0
* N
0 0
U 2 N
N 0
0 C
C
>.
0 0
U 3 C
N C
0
«y
1
C 0
0 J N
•1 0
o c
r
*
r A o
U I C
N L C •
0
BU
^
0 A 0
U 1 N
N I 0
P C
C
NIN
MAX
MEAN
STOV
N>
r/wR
MIN
MAX
MEAN
STOV
N>
0/UK
MIN
MAX
"EAN
STOV
N>
O/MR
MIN
MAX
MEAN
STOV
N>
0/MR
MIN
MAX
MEAN
STOV
N>
P/WR
MTU
BIf
"AX
ME»N
STrv
N>
o/m
MIN
MAX
ME4N
STPV
N>
0/WH
MtM
•"in
HAX
MEAN
STDV
t>>
P/KR
33.9
33.9
33.9
• 0.00
211/35
I/ 1
0.3
355.6
20.9
41.47
O/ 0
246/247
1.4
595.0
34.4
62.58
O/ 3
247/247
00
. H
241.4
23.2
34.27
it J
247/247
33.9
33.9
33.9
0.30
593/147
I/ 1
0^
. 3
595.0
26.2
47.96
3/ 0
740/741
99999
-99999
0
0.0
187/ 9
O/ 0
6
1OO
71
20.6
O/ 0
187/187
4
121
72
24.0
3/ 3
237/237
|
100
74
23.1
}/ »
221/221
S9999
-99999
0
0.0
645/ 0
O/ 3
- «
. 171
72
22.7
V 3
645/645
27 8.1 9.5 14.1 0.127 0.085
27 8.1 9.5 14.1 0.127 0.085
27 8.1 9.5 14.1 0.126 0.085
0.0 0.30 0.33 3.00 3.0030 0.3300
95/148 146/ 88 142/ 93 92/152 200/ 48 222/ 26
I/ 6 I/ 15 I/ 10 1/4 1/1 1/1
2 5.3 0.7 6.8 0.004 0.001
252 10.6 19.2 28.9 1.719 1.209
44 7.9 9.3 17.5 0.123 0.057
36.2 0.73 2.02 5.63 0.2319 0.1646
0/0 0/0 0/0 0/0 0/0 0/3
248/249 248/249 244/245 247/248 248/249 248/249
1 4.1 3.0 17.3 0.504 0.001
222 10.6 17.8 32.2 2.559 1.191
49 7.8 7.0 26.6 0.134 0.053
35.8 0.89 1.98 2.35 0.2811 0.1479
<)/ 30/0 I/ 3 0/0 0/0 3/0
241/241 247/247 246/246 246/246 247/247 247/247
185 10.3 13.5 29.6 4.549 2.039
50 7.6 7.3 20.4 0.155 0.070
35.0 0.84 1.61 3.25 3.4091 0.2088
9/30/3 3/ 3 0/0 3/3 9/3
246/246 245/245 241/241 246/246 246/246 245/245
27 8.1 9.5 14.1 0.127 0.085
27 8.1 9.5 14.1 0.127 0.085
27 8.1 9.5 14.1 0.126 0.085
0.0 0.00 O.OO 0.00 0.0000 0.0000
217/502 463/242 393/125 97/639 587/154 658/ 82
I/ 17 I/ 36 I/ 14 1/4 1/1 I/ I
252 10.6 19.2 32.2 4.549 2.009
48 7.8 7.8 21.5 0.137 0.360
35.7 0.83 2.07 5.49 0.3159 0.1754
3/3 0/0 0/00/0 0/00/0
735/736 740/741 731/732 739/743 741/742 743/741
0.789
0.789
0.788
3.3330
177/ 71
I/ 1
0.024
9.745
0.870
1.4784
O/ 0
248/249
0.025
6.857
0.493
0.8836
O/ 3
247/247
o rtl 7
U. Ul 1
4.469
0.342
0.5477
O/ 0
246/246
0.789
0.789
0.788
0.0000
592/149
I/ 1
n ill 7
U. U 1 1
9.745
0.569
1.0667
O/ 0
741/742
0.034
0.034
0.033
0.0000
9/233
I/ 7
0.022
0.635
0.107
0.3954
O/ 0
248/249
0.034
0.719
0.120
0.0878
O/ 9
247/247
OA9A
• v£V
3.024
0.122
0.2232
O/ 0
246/246
3.334
0.034
0.033
0.0000
13/720
It 9
0.020
3.324
0.116
0.1488
O/ 0
741/742
1.099
1.099
1.098
0.0030
210/ 37
I/ 2
0.199
4.699
0.795
0.6987
O/ 0
248/249
0.215
7.149
1.217
1.0778
3/ 0
247/247
01 OQ
• * 77
8.199
1.118
1.0572
a/ a
246/246
1.099
1.099
1.398
0.0000
522/213
I/ 7
0. 199
8.199
1.043
0.9756
O/ 0
741/742
195
195
195
•1.0
226/ 22
I/ 1
10
248
69
67.0
O/ 0
248/249
10
334
73
68.9
O/ 0
247/247
1 ft
IV
291
73
64.1
O/ 9
246/246
195
195
195
0.0
68 8/ 53
I/ 1
10
334
72
66.6
O/ D
741/742
6.0
6.0
6.0
0.03
85/149
I/ 15
0.0
142.0
18.7
25.18
O/ 0
248/249
0.0
210.0
14.1
23.76
O/ 0
247/247
On
• V
90.0
9.6
14.87
O/ 0
246/246
6.0
6.3
6.3
0.00
327/376
I/ 39
0.0
210.0
14.1
22.05
O/ 0
741/742
0
0
0
0.3
0
0
0
0.0
0
0
0
0.0
Q
3
3
0.0
0
3
3
0.0
o
0
0
9.0
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.13
-------
CeiUSlSYHCRVPT* PARTIAL DEPTH VALUES
CHI A TURB SECCHI PH 00 TEMP TOTALP ORTHOP NOZN03 NH3 KJEL ALK N/P CONC PERC
VO
R NIK
0 0 MAX .
via MCAM
N H STDV
0 N>
0/HR
R N NIN
0 0 *AX
U 1 N MEAN
N 0 STDV
0 0 N>
N 0/HR
R MIN
0 0 PAX
020 MEAN
N M STOV
D N>
0/WR
R N NIN
0 0 MAX
U 2 H MEAN
N 0 STOV
D 0 N>
M 0/MR
R MIN
0 0 MAX
u 3 o MEAN
N M STOV
C N>
C/NR
R N MIN
c o r»x
0 3 N MSAN
N o STCV
0 0 N>
• 0/HR
R MI*
04? MAX
U L C ff AN
N L M STOV
D N>
0/UR
C N MIN
C A 0 'AX
U L N "FAS
N 1 D STOV
D 0 «K/>
H 0/MR
33.9 99999 27 8.1 9.5 14.1 0.127 0.08S 0.789 0.034 1.099 195 6.0
33.9 -99999 27 8.1 9.5 14.1 0.127 0.085 0.789. 0.034 1.099 195 6.0
33.9 0 27 8.1 9.5 14.1 0.126 0.085 0.788 0.033 1.098 195 6.0
0.00 O.O 0.0 0.00 0.00 0.00 0.0000 0.0000 0.0000 0.0000 0.0000 0.0 0.00
21 1/ 35 187/ 0 95/148 146/ 88 142/ 93 92/152 200/ 48 222/ 26 177/ 71 9/233 210/ 37 226 / 22 85/149
1/1 0/0 1/6 I/ 15 I/ 10 1/4 1/1 I/ 1 I/ 1 1/7 1/2 1/1 I/ 15
33.9 99999 27 8.1 9.5 14.1 0.127 0.085 0.78V 0.034 1.J99 195 6.0
33.9 -99999 27 8.1 9.5 14.1 0. 127 0.085 0.789 0.03* 1.399 195 6.0
33.9 3 27 8.1 9.5 14.1 0.126 0.085 0.788 0.033 1.098 195 6.0
0.00 0.0 0.0 0.00 0.00 3.00 0.0000 0.0030 0.0)00 0.0000 0.0000 0.0 0.00
593/147 645/ 0 217/502 463/242 593/125 97/639 S87/1S4 658/ 82 592/149 13/720 522/213 688/ 53 327/376
1/1 0/0 I/ 17 I/ 36 I/ 14 1/4 1/1 1/1 1/11/9 1/7 1/1 I/ 39
0 0.0
o o.o
o o.o
0.9 0.00
0 0.3
) 3.3
0 0.0
0.0 0.00
-------
GENUS: SYNEOT*
PARTIAL DEPTH VALUES
CHLA
TURB SECCHI
PH
TEMP TOTAlP ORTHOP N02N03
NH3
KJEL ALK
N/P
CONC PERC
p
o n
U 1 C
N C
D
R N
0 0
U 1 N
N 0
D C
C
R
O 0
U 2 C
N C
0
R N
0 9
U 2 N
N 9
0 C
r-
R
P 0
0 3 C
N C
0
P N
P 0
U 3 N
N 0
r c
c
p
0 » n
U L C
N L C
0
R N
0 A 0
U 1 N
N L 0
o r
MIN
MAX
MEAN
STOV
N>
P/WR
MIN
MAX
MEAN
STPV
N>
0/WR
MIN
MAX
MEAN
STPV
N>
0/HR
MIN
H«X
MEAN
ST5V
!*>
0/WR
MIN
MAX
MEAN
STDV
N>
;/w»
MIN
MAX
MEAN
STOV
ft<>
T/WR
MIN
PAX
"EAM
STOV
f*>
0/WR
MIN
MAX
MEAN
STOV
N>
0.5
2*7.1
17.0
29.65
I/ 2
153/2**
0.3
355.6
27.*
55.03
O/ 3
94/247
1.9
312.3
27.1
44.43
2/ 2
165/2*3
1.*
595. O
*9.3
86.98
Of 3
82/2*7
1.1
2*1.*
19.5
33.3*
2/ 0
142/245
0.8
237. J
28.2
35.01
O/ 1
105/2*6
O.S
312.0
21.*
36.8*
If 3
*60/7J7
0.3
595.0
3*. I
61.20
Of 3
6
100
69
21.5
Of 0
122/187
15
96
73
18.6
3/ *
65/180
*
121
73
23.8
Of 0
160/237
7
98
70
2*.*
3/ 3
77/231
1
97
77
20.9
Of 2
129/219
6
130
69
25.1
2/ 0
92/219
L
121
73
22.*
Of 0
411/645
6
100
71
23.2
5/ 3
2
252
42
35.5
Of 0
155/2*9
3
185
46
37.3
If 1
9*/2*7
6
216
50
3*.*
If I
160/239
1
222
*7
38.5
Of 3
81/2*1
6
185
53
33.2
Of 0
1*1/246
8
169
46
37.0
2/ 1
105/2*3
2
252
48
3*. 7
I/ 0
*56/735
1
222
46
37.*
Of 1
5.3
9.7
7.8
9.6*
Of 2
155/2*7
5.3
10.6
8.0
0.8*
Of 0
9*/2*9
5.2
10.6
7.7
0.85
If 0
165/2*6
4.1
10.3
7.9
0.96
O/ 1
82/2*6
5.9
9.2
7.5
0.73
2/ 5
1*1/238
4.7
13.3
7.7
0.95
Of 0
104/24?
5.2
10.6
7.7
0.76
2/ 0
*61/739
4.1
10.6
7.9
0.92
Of 9
3.8
12.8
9.1
1.59
*/ 2
155/239
0.7
19.2
8.7
2.58
O/ 0
90/2*5
3.1
17.8
6.9
1.90
If 3
165/2*5
3.3
16.0
7.3
2.12
Of 1
81/2*5
1.6
13.5
7.2
1.62
O/ 0
140/241
2.8
11.4
7.5
1.58
2/ 2
101/237
1.6
17.8
7.7
1.99
I/ 1
460/730
0.7
19.2
7.8
2.2)
Of J
7.2 O.JD4 3.001 0.325 0.022 0.199
28.9 0.701 0.616 9.7*5 0.55* 2.665
17.0 O.076 O.O26 1.010 0.100 0.646
5.33 0.3754 0.95*6 1.71*6 0.08*2 0.4769
1/0 0/9 0/5 1/0 0/1 0/7
155/247 155/240 155/24* 155/2*8 155/2*8 155/2*2
6.8 0.095 0.001 0.02* 0.031 0.22*
28.7 1.719 1.299 4.449 9.635 4.699
18.3 0.200 0.109 0.639 0.118 1.0**
S.99 0.3517 0.250* 0.9221 0.1107 0.9062
0/2 2/3 0/0 0/8 3/0 3/0
93/2*6 9*/2*7 9*/2*9 9*/2*l 94/2*6 94/246
21.2 0.306 0.002 0.027 0.034 0.215
31.* 1.259 1.191 6.857 0.719 6.250
26.5 0.091 0.033 0.538 0.122 1.036
2.20 0.1685 0.109* 0.9557 0.0929 0.8927
3/2 2/3 3/0 1/0 0/0 0/2
165/2*1 165/2*2 165/2** 165/2*6 165/2*7 165/2*5
17.3 0.00* 0.001 0.025 0.0*0 0.226
32.2 2.559 0.969 3.679 0.484 7.149
26.7 0.221 0.39* 0.433 0.115 1.581
2.63 0.4138 0.1991 0.7138 0.0769 1.3089
0/0 0/0 0/1 0/5 4/3 1/0
81/2*6 82/2*7 82/2*6 82/2*2 82/2*0 82/2*6
9.0 0.005 3.003 0.017 0.020 0.199
29.6 *. 5*9 1.189 4.469 0.979 6.000
20.* 0.133 0.0*6 0.332 0.117 0.923
3.35 0.4287 0.1*99 0.5515 0.1446 0.8828
0/0 1/0 2/2 0/0 0/1 0/1
142/2*6 141/2*5 149/2*1 1*1/246 141/245 141/245
15.2 0.004 0.001 O.O19 0.031 0.2SO
29.0 3.08* 2.009 2.688 3.02* 8.199
20.5 3.188 0.101 0.355 3.130 1.380
3.11 3.3836 0.2655 3.5*49 0.2985 1.2397
7/1 0/1 0/0 1/1 1/0 9/0
104/238 105/245 105/2*5 105/2** 105/2*5 105/237
7.2 0.00* 0.001 0.017 0.023 3.199
31.* 4.5*9 1.191 9.7*5 0.979 6.250
21.4 3.998 0.93* 0.63* 0.113 0.870
5.55 9.2616 0.1132 1.2171 3.1091 0.7907
1/2 Of 0 3/3 Of 3 Of I Of 3
*62/737 461/742 460/738 461/742 461/7*1 *61/739
6.8 0.004 0.331 0.019 3.931 3.22*
32.2 3.08* 2.009 4.449 3.024 8.199
21.6 0.202 0.102 0.46* 0.122 1.326
5.41 3.3803 3.2419 0.7*56 3.1973 1.1657
0/0 9/1 9/0 1/10 */ 0 9/0
10
2*8
69
65.0
Of 0
155/2*9
10
240
71
71.5
O/ 1
9*/2*8
10
293
72
65.9
Of 1
165/2*6
10
33*
76
74.8
Of 0
82/2*7
10
2*1
68
58.0
Of 3
1*1/2*3
10
291
80
71.1
Of 3
105/2*6
10
293
70
63.1
Of I
461/741
10
33*
76
72.2
Of 3
•3.0
137.0
19.5
23.55
Of I
155/2*8
0.0
1*2.0
17.1
27.62
O/ 0
94/249
0.0
210.0
15.4
2*. 76
O/ 0
165/2*7
0.0
130.O
11.5
21.53
O/ 1
82/2*6
0.0
90.0
13.0
13.96
Of 0
1*1/2*6
a. a
88.0
9.1
16.37
Of I
105/2*5
0.0
210.0
15.1
21.87
Of 0
461/7*2
9.3
1*2.0
12.5
22.26
Of I
a
*0977
791
3815.6
0
0
0
0.0
0
17*98
*72
1618.*
0
0
9
0.9
0
10587
313
1099.7
0
0
0
9.3
3
40977
529
2490.8
9
0
0
0.0
0.0
55.6
4.2
7.9*
0.0
0.0
0.0
0.00
0.0
*3.7
4.2
7.01
0.0
O.O
0.0
0.30
0.0
26.4
2.7
4.10
0.3
0.0
O.O
9.30
0.0
55.6
3.8
6.65
9.0
0.0
0.0
0.00
P/WR 281/7*1 234/637 280/735 280/741 272/732 278/743 281/741 281/741 281/731 281/738 281/733 281/742 281/7*1
-------
CENUSsSVMEOftA
CHI*
TURB SECCHI
PH
DO
TEMP
PARTIAL DEPTH VALUES
TOTALP ORTHOP N02N03
NH3
KJEL ALK
N/P
CONC PERC
* MIN
0 0 MAX
U 1 O MEAN
N « STOV
0 N>
0/WR
It M NIN
0 C MAX
U 1 N MEAN
N 0 STOV
0 1 N>
•1 0/WR
« MIN
O O MAX
020 MEAN
N M STOV
D N>
0/WR
R N MIN
C 0 MAX
U 2 N NEAN
N r> JTOV
•* n N>
M n/wR
• MIN
C D MAX
o 3 o HEAN
N M STDV
0 N>
0/WR
C C MAX
U 3 N PEAN
N 0 STDV
0 0 N>
M 0/WB
R MIN
9AO "AX
U L 0 1EAN
N I H STOV
0 N>
P/WR
R N MIN
3 A 0 M«
U L N MEAN
N L ? STOV
D 0 N>
•1 0/WR
2.5
188.6
27.6
15.61
25/ 4
16/218
0.5
247.1
15.7
27.17
I/ 2
137/244
1.9
78.0
14.3
19.13
21 30
22/215
2.0
312.0
29.0
46.86
3/ 2
143/242
2.8
39.7
14.5
12.84
16/ 42
8/189
11
. i
241.4
19.7
34.18
21 0
134/245
1.9
188.6
19.3
30.31
30/ 12
46/699
0.5
312.0
21.6
37.50
I/ 3
19
85
59
23.2
4/ 48
13/135
6
100
70
21.1
O/ 0
109/187
25
103
81
17.6
16/ 2
22/219
4
121
72
24.5
or o
138/237
37
93
73
22.3
21/ 28
7/172
97
78
2C.9
O/ 2
122/219
19
103
73
22.0
26/ 2
42/617
1
121
73
22.5
O/ 0
72 8.6
30 7.9
20.0 0.46
4/ 40 30/ 26
18/20! 18/193
2 5.3
252 9.7
43 7.8
36.8 0.66
0/0 0/2
137/249 137/247
17 5.5
ISO 8.6
55 7.6
32.3 0.85
24/ 4 21 28
21/213 22/217
6 5.2
216 10.6
49 7.7
34. 8 0. 85
1/1 1/0
139/239 143/246
20 6.3
144 8.8
63 7.5
38.4 0.95
40/ 6 8/ 12
8/200 8/225
185 9.2
53 7.5
33.0 3.72
0/0 2/5
133/246 133/238
6 5.5
150 8.8
47 7.7
31.6 0.76
5/ 13 5/ 49
47/718 48/687
2 5.2
252 13.6
48 7.7
35.1 0.76
1/0 2/0
12.4
9.7
1.69
21/ 4
18/220
3.8
12.8
9.1
1.57
4/ 2
137/239
3.1
9.6
6.5
1.52
I/ 17
22/228
3.2
17.8
6.9
1.95
3/ 0
143/243
5.3
9.2
6.9
1.33
19/ 19
8/203
13.5
7.2
1.64
O/ 0
132/241
3.1
12.4
7.8
2.16
7/ 12
48/713
1.6
17.8
7.7
1.98
I/ 1
28.9
15.4
5.47
2/ 0
18/246
7.2
28.8
17.2
5.26
11 1
137/246
21.2
29.2
25.8
2.44
3/ 28
22/215
21.5
31.4
26.6
2.15
5/ 2
143/239
15.7
24.8
20.7
2.98
12/ 23
8/211
29.6
23.3
3.38
O/ 0
134/246
S.5
29.2
21.1
6.16
21 29
48/709
7.2
31.4
21.5
5.48
I/ 2
0.015
0.288
0.083
0.0720
26/ 16
18/207
0.334
0.701
0.075
0.0761
Of 9
137/243
0.007
1.259
0.096
0.2644
4/ 3
22/24O
0.036
1.029
0.091
0.1499
21 6
143/239
0.338
0.149
0.041
0.0455
5/ 44
8/197
4.549
0.135
0.4438
I/ 0
133/245
0.007
1.259
3.382
3.1838
14/ 10
48/718
0.004
4.549
0.133
3.2693
O/ 0
0.003
0.135
0.027
0.0286
27/ 20
18/202
0.001
0.616
0.025
0.0572
O/ 5
137/244
0.003
1.191
0.069
0.2530
9/ 3
22/238
0.002
0.555
0.027
0.3642
3/ 6
143/238
0.036
0.024
0.011
0.0062
28/ 86
8/131
3* 093
1.189
3.048
0.1541
21 2
132/241
0.003
1.191
3.343
3.1717
38/ 3
48/700
0.001
1.189
3.033
0.1039
or 4
0.060 0.024 0.243 10
8.089 0.554 2.449 215
1.580 0.143 0.724 66
2.4995 0.1452 0.5418 61.9
17/ 1 1/1 8/ 12 O/ 7
18/231 18/247 18/229 18/242
0.025 0.022 0.199 10
9.745 0.539 2.665 248
0.935 0.094 0.635 70
1.5809 0.0714 0.4690 65.5
1/0 0/2 0/7 0/0
137/248 137/247 137/242 137/249
0.049 0.042 0.304 10
3.836 0.245 1.724 182
0.622 0.100 0.772 69
0.9678 0.0532 0.4316 54.6
19/ 4 10 f 16 11 48 0/17
22/224 22/221 22/192 22/230
0.027 0.034 0.215 10
6.857 0.719 6.250 293
0.526 0.125 1.076 72
0.9566 0.0973 0.9383 67.6
1/0 0/0 0/2 0/1
143/246 143/247 143/245 143/246
O.OSS 0.354 0.210 10
0.545 0.244 2.049 173
0.165 0.119 1.032 64
0.1654 0.3735 0.7390 56.6
81/ 47 65/ 16 2/ 27 O/ 19
8/118 8/165 8/217 8/227
0.317 0.323 0.199 13
4.469 0.979 6.000 241
0.342 0.117 0.917 68
3.5651 3.1479 3.8940 58.3
0/0 0/1 0/1 0/3
133/246 133/245 133/245 133/243
0.049 3.024 3.210 13
8.089 0.554 2.449 215
0.935 0.120 0.797 67
1.7284 3.1034 0.5254 56.5
95/ 1 2/9 5/ 58 O/ 31
48/646 48/731 48/679 48/711
0.017 O.C20 0.199 13
9.745 0.979 6.250 293
3.602 0.112 0.879 70
1.1417 0.1131 3.8160 63.9
0/0 0/1 0/3 0/1
5.0
81.0
19.5
23.01
66/ 10
18/173
0.0
137.0
19.5
23.71
O/ 1
137/248
0.0
130.0
23.8
32.83
O/ 1
22/246
0.0
210.0
14.1
23.15
01 0
143/247
3.0
85.0
16.4
27.91
68/ 2
8/176
3. 0
90.3
9.6
12.76
O/ 0
133/246
0.0
130.0
21.0
28.23
3/ 4
48/738
0.0
210.0
14.4
23.94
Of 3
20
40977
4725
9801.5
0
16192
275
1469.7
49
17498
1916
3878.6
0
4722
250
6*3.8
177
13587
2405
3558.6
\
5256
185
579.6
20
«0977
:osi
6715.9
3
16192
237
983.8
10.5
55.6
22.3
11.84
0.0
9.8
1.9
2.31
10.2
43.7
18.8
9.41
0.0
9.8
2.0
2.41
10.0
26.4
15.6
5.35
9.3
2.0
2.42
10. J
55.6
19.6
10. Jl
1.3
s. e
2.0
2.36
414/737 369/645 439/735 413/739 412/733 414/7J7 413/742 412/737 413/742 413/741 413/739 413/741 413/742
-------
GEMISl SYMIRA
PARTIAL DEPTH VALUES
CHLA
TUR8 SECCHI
DO
TEMP TOTALP ORTHOP N02N03
NH3
KJEL ALK
N/P
CONC PEPC
R
0 0
U 1 C
•1 C
D
R N
0 0
U 1 N
N 0
D C
C
*
P 0
U 2 C
N C
D
P N
0 0
U 2 N
N 0
0 C
C
*
0 0
U 3 C
N C
D
* N
e o
U 3 N
N 0
D C
C
*
O A O
U I C
N L C
0
R ft
0*0
U L N
N L 0
D C
C
HIN
MAX
MEAN
STOV
N>
0/HR
NIN
MAX
MEAN
STDV
N>
0/HR
HIM
HAX
NEAN
STDV
N>
C/HR
NIN
HAX
MEAN
STDV
N>
0/MR
NIN
MAX
MEAN
STOV
N>
C/HR
KIN
MAX
MEAN
STOV
t>
0/UR
NIN
MAX
MEAN
STDV
N>
0/HR
KIN
MAX
MEAN
STDV
N>
0/UR
5.5
11.1
7.4
2.55
89/ 95
4/ 63
0.3
355.6
21.2
41.70
O/ 0
24V24T
7.2
7.9
7.5
0.49
62/170
2/ 15
1.4
595.0
34.7
62.79
O/ 0
245/247
4.2
26. •
12.9
9. 78
37/ 60
5/150
0.8
241.4
23.4
34.56
O/ 0
242/247
4.2
26.8
9.9
6.94
119/182
11/440
0.3
595.0
26.4
48.24
I/ 9
730/741
74
83
80
4.9
S6/ 57
3/ 44
6
100
70
20.7
O/ 0
184/187
87
95
91
5.7
1S9/ 10
If 68
4
121
72
24.0
O/ 0
235/237
90
96
92
3.2
158/ 7
3/ 56
1
100
74
23.1
O/ 0
218/221
74
96
87
7.4
244/ 18
ft/383
1
121
72
22.8
3/ o
637/645
29
S9
44
12.6
134/ 56
4/ 89
2
252
44
36.4
• O/ 0
245/249
70
144
107
52.3
189/ 5
2/ 47
1
222
48
35.4
o/ o
239/241
13
122
68
'49.9
13/ 14
5/219
6
185
59
34.7
O/ 0
241/246
13
144
66
42.9
55/ 15
11/666
1
252
47
35.6
O/ 0
725/736
6.9
*.8
7.8
0.78
17/ 17
4/215
5.3
10.6
7.9
0.73
9/ 0
245/249
6.6
8.9
7.7
1.63
19/ 16
2/212
4.1
10.6
7.8
0.89
O/ 0
245/247
6.2
8.6
7.0
0.95
7/ 19
5/219
4.7
10.3
7.6
0.83
O/ 0
240/245
6.2
8.9
7.4
0.98
16/ 40
11/685
4.1
10.6
7.8
0.82
I/ 0
730/7*1
3.8
11.6
7.3
3.65
4/ 13
4/228
0.7
19.2
9.0
1.98
O/ 0
241/245
8.1
8.4
8.2
0.21
191/ 39
2/ 16
3.0
17.8
7.9
1.99
O/ 0
244/246
1.9
8.6
6.1
2.68
I/ 36
5/204
1.6
13.5
7.3
1.58
O/ 0
236/241
1.9
11.6
6.9
2.76
2/ 23
11/707
0.7
19.2
7.8
2.06
O/ 0
721/732
7.2 0.012 0.004 0.116 0.030 0.265
27.9 0.971 9.012 9.234 9.291 9.824
20.0 0.038 O.OO7 0.148 0.125 0.540
9.19 0.0263 0.0034 0.0571 0.0869 0.3125
I/ 5 16/103 39/113 54/151 2/ 20 13/ 76
4/242 4/130 4/ 97 4/ 44 4/227 4/160
6.8 0.004 0.001 0.024 0.022 0.199
28.9 1.719 1.209 9.745 0.635 4.699
17.5 0.124 9.058 0.882 0.106 0.800
5.53 0.2331 0.1655 1.4845 0.0956 0.7016
0/0 0/0 0/0 0/0 0/0 0/0
244/248 245/249 245/249 245/249 245/249 245/249
23.9 O.O10 0.005 O.099 0.040 0.261
24.8 0.023 0.011 0.251 0.099 1.532
24.3 0.316 0.007 0.175 0.069 0.896
0.64 0.0091 0.0042 1.1374 0.0417 0.8987
25/188 14/178 38/120 81/ 85 4/112 2/ 61
2/ 33 2/ 55 2/ 89 2/ 81 2/131 2/184
17.3 0.004 0.001 0.025 0.034 0.215
32.2 2.559 1.191 6.857 0.719 7.149
26.6 0.135 0.054 0.496 0.120 1.219
2.35 3.2821 0.1484 9.8867 0.0880 1.0803
o/ o o/o o/o or o o/o o/ o
244/246 245/247 245/247 245/247 245/247 245/247
16.O 0.010 0.005 0.025 0.052 0.264
20.9 0.131 0.025 0.959 0.379 1.449
18.7 0.353 0.012 0.254 0.159 0.898
1.90 3.0533 0.0079 1.3952 0.1321 0.5365
19/ 97 ll/ 55 15/ 85 12/ 28 60/ 8 12/ 53
5/130 5/180 5/145 5/206 5/178 5/181
9.0 0.034 0.001 0.017 0.020 0.199
29.6 4.549 2.0O9 4.469 3.024 8.199
20.5 0.157 0.071 0.344 0.121 1.123
3.26 0.4130 0.2108 0.5539 0.2248 1.0654
0/3 0/0 3/9 0/9 0/0 0/0
241/246 241/246 240/245 241/246 241/246 241/246
7.2 0.319 0.304 9.025 0.030 0.261
27.9 0.131 0.025 0.959 0.379 1.532
20.2 0.041 0.009 0.201 0.130 0.768
5.61 0.0393 0.0061 0.2594 0.1030 0.5076
I/ 94 37/149 69/230 13/118 3/ 2O 27/137
11/645 11/556 11/442 11/611 11/719 11/578
6.8 9.004 9.001 0.017 0.020 0.199
32.2 4.549 2.039 9.745 3.024 8.199
21.5 0.139 0.061 0.575 0.116 1.047
5.49 0.3178 0.1765 1.0726 0.1493 0.9799
0/0 0/3 9/3 0/0 0/0 0/0
729/743 731/742 730/741 731/742 731/742 731/742
10
28
16
8.3
0/144
4/105
10
248
71
67.5
O/ 0
245/249
11
135
73
87.7
18/ 41
2/188
10
334
73
68.9
O/ 3
245/247
10
166
56
67.1
Of 25
5/221
10
291
73
64.1
Of 0
241/246
10
166
45
56.1
Of 90
11/652
10
334
72
66.8
O/ 0
731/742
5.0
20.0
10.3
6.70
66/ 65
4/118
0.0
142.0
18.8
25.31
O/ 0
245/249
8.0
26.0
17.0
12.73
138/ 31
2/ 78
0.0
210.0
14.1
23.84
O/ 0
245/247
1.0
19.0
11.2
6.72
13/ 22
5/211
0.0
90.0
9.6
15.00
O/ 0
241/246
1.0
26.0
11.9
7.37
32/101
11/609
0.0
210.0
14.2
22.18
Of 0
731/742
0
8*
29
39.6
0
0
0
0.0
0
35
18
24.7
0
O
0
9.0
8
147
64
65.7
0
0
0
0.0
0
1*7
43
52.0
O
3
0
0.0
0.0
1.6
0.6
0.77
0.0
O.O
0.0
0.00
0.0
2.9
1.4
2.03
0.0
O.O
0.0
O.OO
0.4
12.1
3.9
5.20
0.0
0.0
0.0
0.00
0.0
12.1
2.3
3.74
0.0
3.0
0.9
0.00
-------
GENUS:SVNURA
-vl
C*>
CHLA
TURB SECCHI
PH
DO
TEMP
PARTIAL DEPTH VALUES
TOTALP ORTHOP N02N03
NH3
KJEL ALK
N/P
CONC PERC
R MIN
c o *AX
U 1 O MM*
N M STOV
D "!>
0/MR
R N MI*
0 O MAX
U 1 N MEAN
N 0 STOV
0 0 N>
M 0/UR
R MIN
0 C MM
020 MEAN
N M STOV
0 N>
0/WR
P N MIN
0 0 MAX
U 2 N MEAN
N O STDV
0 0 N>
M 0/HR
I MIN
(7 0 «AX
0 3 0 MEAN
N * STOV
•) N>
»VWR
• N MIN
C 0 MAX
U 3 N x«A<<
N 3 STOV
0 0 N>
"t 9/K«
R 11 N
o A o MM
U t 0 MFAN
N L M STOV
P N>
«/HR
* M MIN
0 A 0 »«x
U L N Mf»N
N I 0 STOV
0 0 N>
X 0/MR
5.5 7*
11. t 83
7.4 80
Z.55 4.9
89/ 95 86/ 57
4/ 63 3/ 44
7.2 87
7.9 95
7.5 91
0.49 5.7
62/170 159/ 10
2/ 15 2/ 68
8.9 99999
8.9 -99999
8.9 0
0.00 0.0
113/136 22 I/ 0
1/1 0/0
4.2 90
26.8 96
13.9 92
13.99 3.2
37/ 60 158/ T
4/150 3/ 16
8.9 99999
8.9 -99999
8.9 0
0.99 3.0
329/410 6*5/ 0
1/2 0/0
4.2 • 74
26.6 96
10.0 87
7.31 7.4
29 6.9
59 8.8
44 7.8
12.6 0.78
104/ 56 17/ 17
4/ 89 4/215
70 6.6
144 8.9
107 7.7
52.3 1.63
189/ 5 19/ 16
2/ 47 2/212
13 7.1
13 7.1
13 7.1
0.0 0.00
13/232 74/166
1/1 I/ t
36 6.2
122 8.6
81 7.0
43.6 1.10
94/ 14 7/ 19
4/138 4/219
13 7.1
13 7.1
13 7.1
9.0 0.00
55/678 152/570
I/ 3 I/ 19
29 6.2
144 8.9
72 7.5
41.3 1.03
119/182 244/ 18 243/ 15 16/ 40
10/440 8/3(3
10/478 10/665
3.8
11.6
7.3
3.65
4/ 13
4/228
8.1
8.4
8.2
0.21
191/ 39
21 16
5.0
5.3
5.0
0.00
15/223
I/ 3
1.9
8.6
6.3
3.01
If 36
4/234
?.3
5.3
5.0
3.00
49/675
I/ 8
1.9
11.6
7.1
2.84
2/ 23
10/707
7.2
27.9
20.0
9.19
I/ 5
4/242
23.9
24.8
24.3
0.64
25/188
2/ 33
17.6
17.6
17.6
0.00
44/196
I/ 6
16.3
20.9
16.9
2.09
19/ 97
4/133
17.6
17.6
17.6
0.00
0.012
0.071
0.038
0.0263
16/103
4/130
0.010
0.023
0.316
0.0091
14/178
2/ 55
0.131
0.131
0.130
0.0000
189/ 55
I/ 2
9.013
0.186
0.033
0.0356
ll/ 82
4/153
0.131
3.131
0.130
0.0000
0.004
0.012
0.007
0.0034
39/113
4/ 97
0.005
0.011
0.007
0.0042
38/120
2/ 89
0.012
3.012
0.011
0.0000
98/134
If 13
3.305
0.025
0.012
0.0092
IV 85
4/145
0.012
3.312
0.011
0.0000
0.116 0.030
0.234 O.201
0.148 0.125
0.0571 0.0869
54/151 2/ 20
4/ 44 4/227
0.099 0.040
0.251 0.099
3.175 0.069
0.1074 0.0417
81/ 85 4/112
2/ 81 2/131
0.959 0.379
0.959 0.379
0.95f 0.378
0.0000 0.0000
217/ 28 237/ 8
1/1 1/1
0.025 0.052
0.125 0.179
9.378 0.104
0.0413 0.0571
12/116 60/ 35
4/118 4/151
0.959 0.379
0.959 0.379
0.959 0.378
0.0000 0.0000
0.265
0.824
0.540
0.3125
13/ 76
4/160
0.261
1.532
0.896
0.8987
21 61
2/184
1.449
1.449
1.449
0.0000
192/ 53
11 1
0.264
1.432
0.761
0.5076
12/ 55
4/179
1.4*9
1.449
1.449
O.OOOO
10
28
16
8.3
0/144
4/105
11
135
73
87.7
18/ 41
2/188
75
75
75
0.0
152/ 91
I/ 3
10
166
52
76.5
O/ 25
4/221
75
75
75
0.0
5.0
20.0
10.3
6.70
66/ 65
4/118
8.0
26.0
17.0
12.73
138/ 31
2/ 78
10.0
10.0
10.0
0.03
180/ 59
I/ 7
1.0
19.0
11.5
7.72
13/ 22
4/211
10.0
13.0
10.0
0.00
0 0.9
84 1.6
29 0.6
39.6 0.77
0 0.0
35 2.9
18 1.4
24.7 2.03
124 12.1
124 12.1
124 12.1
0.3 3.33
8 0.4
1*7 6.1
50 1.9
65.4 2.82
12* 12.1
12* 12.1
12* 12.1
0.0 0.00
193/542 590/149 351/361 623/118 72 O/ 20 595/145 475/263 473/242
I/ 8
7.2
27.9
20.4
5.6*
I/ 94
10/6*3
I/ 3
0.313
a. 386
0.032
9.0271
37/247
10/458
I/ 29
3.304
3.025
0.009
0.0063
69/230
13/4*2
1/1 1/2
0.025 0.030
0.251 0. 201
0.125 0.105
0.0685 0.0653
13/310 3/ 71
10/419 13/666
I/ 2
0.261
1.332
0.700
0.4792
27/137
13/578
I/ 4
10
166
*2
!8.2
O/ 93
10/652
I/ 27
1.0
26.0
12.1
T.7*
32/101
10/609
0 0.0
1*7 6.1
35 1.3
*6.9 1.91
-------
6?NUS: TABELLARIA
PARTIAL DEPTH VALUES
CHLA
TURB SECCHI
PN
TEMP TOTALP ORTHOP N02N03
NH3
KJEl ALK
N/P
CONC PERC
R
0 0
U 1 C
N C
D
R N
0 0
U 1 N
N 0
D C
C
R
0 0
U 2 C
N C
0
R N
0 O
U 2 N
N 0
D C
C
R
o a
U 3 C
N C
0
R N
0 0
U 3 N
N C
D C
C
R '
0 A 0
U L C
N L C
0
*u
n
0 A O
U L N
N L 0
0 C
C
MIN
MAX
MEAN
STOV
N>
0/H*
MIN
MAX
MEAN
STOV
N>
0/MR
MIN
MAX
MEAN
STOV
N>
C/MR
MIN
MAX
MEAN
STOV
N>
0/MR
MIN
MAX
MEAN
STPV
N>
0/MR
MIN
MAX
MEAN
STOV
*>
0/OT
MIN
MAX
' MEAN
STOV
N>
0/HR
H1W
nin
MAX
MEAN
STPV
0/HR
0.3
22.8
6.2
4.Z7
01 52
41/195
0.5
355.6
23.9
**.T3
I/ 0
2)6/2*6
2.3
112.7
16.9
2*.78
V 15
38/227
1.*
595.3
37.6
66.76
' Of 0
209/2*7
1.5
70.*
9.0
10.86
7/ 17
43/223
0.8
2*1.*
26.2
36.79
O/ 3
20*/2*7
0.3
112.7
10.5
15.96
9f 31
122/710
O 5
595^0
29.3
51.40
I/ 0
619/7*3
58
100
81
11.9
38/ 0
33/1*9
6
190
68
21.*
O/ 0
152/187
*
98
79
21.1
O/ 3
35/23*
5
121
71
2*. 3
I/ 0
202/236
73
100
88
6.3
67/ 0
36/15*
1
99
71
2*. 2
3/ I
185/220
*
100
83
14.8
11 3
136/6*3
f
121
70
23.5
O/ 0
539/6*5
10
185
68
47.2
15/ I
41/233
2
252
39
31.5
Of 0
238/2*9
6
171
67
39.5
I/ 3
37/237
1
222
45
34.1
Of 0
204/241
27
169
72
38.0
59/ 1
43/186
6
185
46
32.7
O/ 0
203/246
6
185
69
41.5
S/ 3
121/728
252
43
52.9
O/ 0
615/736
6.2
8.8
7.5
0.60
2/ 17
41/230
5.3
10.6
8.0
0.72
O/ 0
238/249
5.2
9.5
7.1
0.99
I/ 4
38/242
4.1
10.6
7.9
0.82
O/ 0
209/247
5.6
8.6
6.9
0.72
I/ 19
43/225
4.7
10.3
7.8
0.77
01 3
202/245
5.2
9.5
7.1
0.82
2/ 14
122/725
10.6
7.9
0.78
Of 0
619/741
3.8
12.3
9.3
1.92
*/ 6
41/235
0.7
19.2
8.9
2.0*
Of 0
20*/245
5.*
13.8
7.3
1.4*
3S/ *
38/207
3.0
17.8
7.0
2.06
Of 0
208/2*6
4.0
9.5
7.3
1.16
5/ 14
43/222
1.6
13.5
7.3
1.69
3/ 3
198/241
3.8
13.8
8.0
1.79
IS/ 6
122/711
19.2
7.7
2.12
Of 0
610/732
6.8 0.006 0.001 0.046 0.030 0.207
28.3 0.11* 0.0*1 2.982 0.299 0.799
16.7 0.03* 0.009 0. 467 0.083 0.408
6.83 0.0309 0.0109 0.6527 0.0557 0.1509
01 3 3/ 55 Of 49 8/ 17 2/ 13 I/ 78
41/245 41/191 41/200 41/22* 41/234 41/170
8.5 0.004 0.001 0.024 0.022 0.199
28.9 1.719 1.209 9.745 0.635 4.699
17.7 0.1*0 0.066 0.9*9 0.111 0.872
5.32 0.2*92 0.1782 1.5771 0.1008 0.7367
2/0 0/0 0/0 0/0 0/0 0/0
207/2*6 208/2*9 208/2*9 208/2*9 208/2*9 208/2*9
21.2 O.OO6 0.002 0.025 0.036 0.261
31.* 1.029 0.555 3.679 0.719 3.699
25.9 0.063 3.023 0.427 0.115 0.724
2.3* 0.1655 0.0890 0.7655 0.1299 0.6117
3/2 2/6 3/6 0/5 1/0 2/8
38/241 38/239 38/238 38/242 38/246 38/237
17.3 O.OO4 0.001 0.027 0.03* 0.215
32.2 2.559 1.191 6.857 0.565 7.1*9
26.7 0.1*7 0.059 0.505 0.120 1.306
2.33 0.2958 3.1558 0.9046 3.0782 1.1202
0/3 0/3 0/0 1/3 3/1 3/0
208/2*6 209/2*7 209/2*7 209/246 209/246 209/247
13.7 0.038 0.003 0.020 0.032 3.199
29. O 0.148 O.O69 1.375 0.399 2.236
20.0 0.032 0.010 0.207 0.090 0.621
3.83 0.0300 0.0105 0.3151 0.0704 0.3964
3/ 1 S/ 47 2/ 34 2/ 14 21 ^ 31 22
43/242 43/194 43/209 43/230 43/237 43/22*
9.3 0.334 0.331 0.317 0.020 0.210
29.6 4.5*9 2.009 4.469 3.02* 8.199
20.5 0.181 0.083 0.370 0.129 1.22*
3.11 0.4460 0.2280 0.5819 0.2*31 1.1222
0/0 0/0 0/0 0/0 0/0 2/0
203/2*6 203/2*6 202/245 233/246 233/246 203/244
6.8 0.0)6 0.001 0.020 0.030 0.199
31.4 1.029 3.555 3.679 0.719 3.699
20.7 0.0*2 0.014 0.363 0.095 0.582
6.02 0.0959 0.050* 0.6067 0.0900 0.4401
Of 2 If 20 Of 21 21 20 3/4 O/ 20
122/738 122/715 122/720 122/720 122/735 122/722
32.2 4.5*9 2.009 9.7*5 3.02* 8.199
21.6 0.156 0.069 0.610 0.120 1.13*
5.38 0.3397 0.1892 1.1307 0.157* 1.02*6
2/00/0 0/0 O/ 0 0/0 0/0
618/738 620/7*2 619/741 620/742 620/742 620/742
10
198
24
39.2
Of 17
41/232
10
248
79
68.1
Of 0
208/249
10
240
45
66.6
Of 9
38/238
10
33*
78
68.2
O/ 3
2)9/2*7
10
185
3*
49.3
O/ 15
*3/231
10
291
81
64.0
O/ 0
233/2*6
10
240
34
52.7
O/ 15
122/727
1O
334
80
66.7
Of 0
620/742
4.0
137.0
23.3
30.18
SI/ 1
41/197
0.0
142.0
17.7
23.99
O/ 0
208/249
2.0
76.0
15.5
17.10
28/ 7
38/212
0.0
210.0
13.8
24.81
3/ 0
239/247
1.0
93.0
15.1
22.00
13/ 0
43/233
0.0
88.0
8.4
12.64
Of 1
233/245
1.0
137.3
18.0
23.94
32/ 2
122/708
0.0
210.0
13.3
21.58
01 0
620/742
0
17979
551
2803.1
0
O
0
0.0
0
1769
214
*07.5
3
0
0
0.0
a
821
55
136.8
0
0
0
0.0
0
17979
271
1642.8
0
3
0.0
0.0
72.1
7.0
14.69
0.0
0.0
0.0
0.30
0.0
91.6
8.8
18.34
0.0
0.3
0.0
0.00
0.0
34.1
2.7
6.31
0.0
0.0
3.0
0.00
0.0
91.6
6.0
13.96
0.0
0.0
0.0
0.00
-------
GENUSiTAtELLARIA
CHLA
TURB SECCHI
PH
DO
PARTIAL DEPTH VALUES
TEMP TOTALP ORTHOP N02N03
NH3
KJEL ALK
N/P
CONC PE*C
R HIN
0 0 MAX
U I 0 »EAN
N M STOV
0 *>
0/OT
R N HIN
0 O MAX
U 1 N HFAN
N 0 STDV
0 0 N>
H O/M
R HIN
0 0 MM
U 2 0 MEAN
N H STOV
D N>
O/UR
* N HIN
0 0 MAX
U 2 S MEAN
N 5 STOV
0 1 N>
w C/hR
• MIS
? 0 MAX
u 3 ? MEAN
N M STOV
0 N>
C/KR
« N «IS
0 •? "«
U 3 N MEAN
N 0 STDV
0 0 N>
N "VhR
R "IN
0*9 "AX
U L T «"EAN
» L M STCV
0 N>
S/N»
5 N HIN
0 A 0 MAX
U L N Mf AN
S L 0 JTOV
0 0 S>
« 0/w»
3.1
22.8
8.6
6.55
49/ 52
T/155
0.3
14. O
5.7
3.57
3/ 80
34/167
4.6
11.2
8.2
2.23
25/129
10/ 93
2.3
112.7
29.0
28.31
5/ 15
28/227
3.6
5.3
4.3
3.89
26/188
3/ 33
1.5
70.4
9.4
11.19
7/17
40/223
3.1
22.8
7.7
4.27
73/196
23/472
04
. 3
112.7
11.1
17.32
O/ 31
192/719
76 73
100 172
92 126
7.7 36.8
92/ 0 207/ 2
7/ 95 7/ 40
58 10
97 185
78 56
11.3 40.0
387 3 IS/ 1
28/146 34/233
57 24
98 171
89 98
12.4 43.2
SO/ 3 48/ 3
10/184 10/19O
4 6
95 144
75 56
22.6 33.4
O/ 10 I/ 5
25/227 27/235
85 59
85 122
85 83
3.0 33.9
120/ 94 179/ 14
I/ 7 3/ 53
73 27
100 169
88 71
6.3 38.6
67/ 0 59/ 1
35/154 40/186
57 24
100 172
90 106
19.3 39.8
131/ 3 184/ 6
18/511 20/546
100 185
81 62
15.2 38.0
2/3 5/3
88/640 131/728 1
6.7
7.8
7.2
0.41
6/132
7/111
6.2
8.8
7.5
0.61
2/ 17
34/230
5.5
8.5
6.8
0.92
21 38
10/207
5.2
9.5
7.2
1.01
I/ 4
28/242
"6.2
6.5
6.3
9.15
7/222
3/ 16
5.6
8.6
6.9
0.73
I/ 19
40/225
5.5
8.5
6.9
0.73
5/102
20/634
9.5
7.2
0.82
2/ 14
32/725
6.1
12.1
9.1
2.23
*16/ 8
7/221
3.8
12.3
9.3
1.88
4/ 6
34/235
6.5
9.0
7.2
0.79
96/ 21
10/129
5.4
13.8
7.3
1.62
35/ 4
28/207
7.4
7.7
7.6
9.15
115/190
3/ 26
4.0
9.5
7.3
1.21
5/ 14
40/222
6.1
12.1
7.9
1.64
ISO/ 16
20/586
13.8
8.3
1.82
15/ 6
102/711
9.2 0.010
28.0 0.018
20.1 0.913
7.37 0.0029
4/ 3 12/211
7/241 7/ 26
6.8 0.006
27.6 0.114
16.0 0.038
6.62 0.0324
O/ 7 3/ 55
34/241 34/191
22.9 0.096
27.4 0.178
24.9 0.031
1.36 0.0522
11/101 2/ 41
10/134 10/234
21.2 0.039
31.4 1.029
26.2 0.075
2.55 0.1900
3/2 9/6
28/241 28/232
15.7 0.012
19.1 0.016
17.3 0.013
1.72 0.0319
12/157 19/211
3/ 77 3/ 16
13.7 0.038
29.0 0.148
20.2 0.033
3.87 0.0396
3/ 1 5/ 47
40/242 40/194
9.2 3.936
28.0 0.178
22.1 0.022
5.27 9.0373
5/ 88 7/111
20/647 20/624
31.4 1.029
20.5 0.346
6.14 3.1033
O/ 2 7/ 20
102/738 102/715
0.001
0.005
0.002
0.0012
0/181
7/ 68
0.001
0.041
0.010
0.0115
O/ 49
34/200
9.002
0.025
0.006
0.0066
3/ 63
13/181
0.003
3.555
0.029
0.1035
11 6
28/232
0.093
0.007
0.005
0.9019
2/183
3/ 60
0.033
0.069
0.010
0.0108
11 34
40/209
3.331
0.025
0.005
0.3353
0/233
20/511
0. 03 1
0.555
3.915
0.0549
0/21
102/720
0.058
0.106
0.079
0.0173
15/197
7/ 37
0.046
2.982
0.548
0.6912
8/ 17
34/224
0.025
0.974
0.192
0.3086
O/ 36
10/211
0.027
3.679
0.511
0.8622
I/ 5
28/241
0.352
0.089
0.066
9.0196
74/132
3/ 43
0.320
1.375
0.218
j.3245
2/ 14
40/230
9.325
0.974
. 0.133
9.2219
13/116
20/613
3. 320
3.679
0.408
3.6475
21 29
102/720
0.032
0.081
9.060
0.0197
5/110
7/134
0.030
0.299
0.088
0.0597
2/ 13
34/234
3.036
0.504
0.105
0.1411
I/ 2
1O/244
0.040
0.719
0.119
0.1283
4/ 0
28/243
0.060
0.120
0.086
0.0305
87/ 57
3/102
0.032
0.399
0.090
0.0727
2/ 7
40/237
0.332
0.504
0.086
0.1304
7/ 14
20/721
0.333
0.719
0.097
3.0882
3/ 4
102/735 1
0.282
0.395
0.327
0.0384
21/180
T/ 48
0.207
0.799
0.424
0.16O2
I/ 78
34/170
0.276
1.365
0.567
0.3870
4/ 70
10/173
0.261
3.699
0.781
0.6712
2/ 8
28/237
0.210
0.500
0.383
0.1530
2/179
3/ 65
0.199
2.236
0.639
0.4041
O/ 22
40/224
3.219
1.365
0.455
3.2957
5/162
20/575
0. 1C9
3.699
0.606
3.4603
3/ 20
02/722
10
16
12
2.2
0/176
7/ 73
10
198
26
42.8
O/ 17
34/232
10
194
31
57.5
O/ 16
10/231
10
243
50
69.8
O/ 9
28/238
10
14
12
2.1
0/205
3/ 41
10
185
36
50.7
O/ 15
40/231
10
194
21
43.8
O/ 54
2C/688
10
240
37
54.6
O/ 15
102/727
7.0
13.0
10.0
1.83
100 / 94
7/ 55
4.0
137.0
26.1
32.53
51/ 1
34/197
5.0
48.0
12.1
12.88
82/ 17
10/148
2.0
76.0
16.8
18.43
28/ 7
28/212
8.0
19.0
12.0
6.08
163/ 22
3/ 61
1.0
90.0
15.4
22.77
13/ 0
40/233
5.0
48.0
11.3
9.20
264/ 52
20/426
i n
1 » U
137.0
19.3
25.69
32/ 2
102/708
131 12.1
17979 72.1
3963 33.5
6591.0 20.41
0 0.0
606 8.8
33 1.5
105.0 2.39
36 10.9
1769 91.6
712 31.4
539.9 24.70
0 0.0
330 4.2
37 0.8
77.4 1.18
129 16.1
821 34.1
369 22.*
391.7 10.15
0 0.0
331 8.6
31 1.2
64.1 2.37
36 13.9
17979 SI. 6
1483 30.8
3911.7 21.11
J 0*0
606 8.8
33 1.2
82.4 2.12
-------
GENUS: TERPSINOE
CHLA
TURB SECCHI
PH
DO
TEMP
PARTIAL OEPTH VALUES
TOTALP ORTHOP N02NO3 NH»
KJEL ALK
N/P
CONC PE«C
•R
0 0
U 1 C
N C
D
R N
C 0
U 1 N
N 0
O C
C
ft
0 0
U 2 C
N C
0
0 N
O O
U 2 N
N 0
0 C
C
f
a o
U 3 C
N C
0
R N
0 0
U 3 N
N 0
0 C
C
R
0 A 0
U L C
N L C
O
• N
0 A 0
U L t
N L 0
D C
C
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
O/WR
MIN
MAX
MEAN
STDV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/WR
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
O/WR
NIN
MAX
MEAN
STOV
N>
0/WR
0.3
0.3
0.3
0.00
0/246
I/ 1
0.5
355.6
21.0
41.46
I/ 0
246/246
1.4
595.0
34.4
62.58
O/ 0
247/2*7
OH
*O
241.4
23.2
34.27
O/ 0
247/247
0.3
0.3
0.3
0.00
0/7*0
I/ 1
0.5
595.0
26.2
47.95
I/ 0
743/740
74
74
74
0.0
86 / 98
I/ 3
6
100
71
20.6
O/ 0
186/187
4
121
72
24.0
O/ 0
237/237
100
74
23.1
O/ 0
221/221
74
74
74
0.0
2*4/396
I/ 5
1
121
72
22.8
O/ 0
644/645
27
27
27
0.0
95/148
I/ 6
•2
252
44
36.2
O/ 0
248/249
1
222
49
35.8
O/ 0
241/241
185
50
35.0
O/ 0
246/246
27
27
27
0.0
217/502
I/ 17
1
252
48
35.7
O/ 0
735/736
7.5 10.0
7.5 13.0
7.5 10.3
0.00 . 0.33
59/177 175/ 62
It 13 I/ 8
5.3 0.7
10.6 19.2
7.9 9.0
0.73 2.32
O/ O 0/0
248/249 244/24S
4.1 2.0
10.6 17.8
7.8 7.0
0.89 1.98
O/ 0 0/0
247/247 246/246
10.3 13.5
7.6 7.3
3.84 1.61
0/0 3/0
245/245 241/241
7.5 10.0
7. 5 1 3. 3
7.5 10.0
0.00 0.00
245/457 63 9/ 84
I/ 39 I/ 9
4.1 0.7
10.6 19.2
7. 8 7. 8
0.83 2.07
O/ 00/0
740/741 731/732
10.6 0.114 0.041 0.637 0.132
10.6 0.114 0.041 0.637 0.132
10.6 0.114 0.041 0.636 0.131
0.03 0.0330 0.3030 3.0000 0.0000
19/231 192/ 55 199/ 49 168/ 80 195/ 53
1/2 1/2 1/1 1/1 1/1
6.8 0.004 0.001 0.324 0.022
28.9 1.719 1.209 9.745 0.635
17.5 0.123 0.057 0.871 0.107
5.58 0.2319 0.1646 1.4783 0.0955
0/0 0/0 0/0 0/0 0/0
247/248 248/249 248/249 248/249 248/249
17.3 0.004 0.001 0.025 0.034
32.2 2.559 1.191 6.857 0.719
26.6 0.134 0.353 0.493 0.120
2.35 0.2811 0.1479 0.8836 0.0878
O/ 0 0/0 O/ O O/ 0 0/0
246/246 247/247 247/247 247/247 247/247
29.6 4.549 2.009 4.469 3.024
20.4 0.155 0.070 0.342 0.122
3.25 0.4091 0.2088 0.5*77 0.2232
0/0 0/3 0/0 0/0 0/0
246/2*6 2*6/246 24S/245 246/246 246/246
10.6 0.114 0.041 0.637 0.132
10.6 0.114 0.041 0.637 0.132
10.6 0.114 0.041 0.636 0.131
0.00 0.0000 0.0000 0.0000 0.0000
16/722 566/172 586/151 574/167 567/172
1/2 1/4 It 4- I/ 1 I/ 3
6.8 0.004 0.001 0.017 O.O20
32.2 4.549 2.009 9.745 3.O24
21.5 0.137 0.060 0.569 0.116
5.48 0.3159 0.1754 1.0667 0.1488
0/0 0/0 O/ 0 O/ 0 0/0
739/7*3 741/742 740/741 741/742 741/742
0.382
0.382
3.381
0.0000
60/187
I/ 2
0.199
4.699
0.798
0.6984
O/ 0
248/249
0.215
7.149
1.217
1.0778
O/ O
247/247
01 QQ
• IV 7
8.199
1.118
1.0572
O/ 0
2*6/246
0.382
3.382
0.381
0.0000
126/613
I/ 3
0.199
8.199
1.044
0.9753
0/0
741/ 742
12
12
12
41/199
I/ 9
10
248
70
67.4
O/ 3
248/249
10
334
73
68.9
O/ 3
247/247
1 ft
1U
291
73
64.1
O/ 0
2*6/246
12
12
12
3.3
93/632
I/ 17
10
334
72
66.7
O/ 0
741/742
7.3
7.0
7.0
0.00
100/133
I/ 16
0.0
142.0
18.7
25.18
O/ 0
248/249
0.0
210.0
14.1
23.76
O/ 0
247/247
0 0
90.0
9.6
14.87
O/ 0
246/246
7.0
7.0
7.0
3.30
366/325
I/ 51
0.0
210.0
14.1
22.05
O/ 0
741/742
0
0
0
0.0
0
0
0
0.0
0
0
0
0.0
Q
0
3
0.0
0
0
3
0.0
0
0
3
0.0
0.0
0.0
0.0
0.00
0.0
0.0
o.o
0.00
0.0
0.0
0.0
0.00
0. 0
0.0
0.3
0.00
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
-------
CCNUSITEKPSIME
CH.A
rime SECCHI
00
TEMP
PARTIAL DEPTH VALUES
TOTALP OKTHOP NO2N03
NH3
K4EL ALK
N/P
CONC PERC
* HIM
0 D MAX
U 1 0 MEAN
N M STDV
0 N>
0/ttft
It N MIN
0 O MAX
U 1 N MEAN
N O STDV
0 0 N>
M O/WK
* MIN
0 0 MAX
U 2 0 MEAN
N H STDV
D N>
0/UR
• N MIN
0 0 MAX
u 2 N MEAN
N D STOV
0 0 N>
M 0/b*
* MIN
•5 0 MAX
u 3 o MEAN
N M STDV
D N>
0/MR
0.3
0.3
0.3
0.39
0/246
I/ 1
74
74
74
0.0
86/ 98
I/ 3
27
27
27
9.9
95/148
I/ 6
7.5
7.5
7.5
0.00
59/177
I/ 13
10.3
10.0
10.0
0.00
175/ 62
I/ 8
10.6
1O.6
10.6
9.00
15/231
I/ 2
0.114
0.114
0.114
0.0990
192/ 55
I/ 2
0.041
0.041
0.041
9.9990
199/ 49
I/ 1
0.637
O.637
0.636
0.0000
168/ 80
I/ 1
0.132
0.132
0.131
9.0030
195/ 53
I/ 1
0.382
0.382
0.381
0.0000
60/187
I/ 2
12 7.0
12 7.0
12 7.0
0.0 0.00
41/199 100/133
I/ 9 I/ 16
6 o.o
o o.o
0 0.0
0.0 0.00
R * 1IN
C 0 MAX
U 3 N MEAN
N C STCV
D r N>
«• 0/WR
• PIN
0 A 0 »AX
U L ? "CAM
NIX JTCV
D N>
0/W*
« N
C A 0
0 L N
N I P
9 0
«AX
MEAN
STDV
0.3 74 27 7.5 10.0-
3.3 74 27 7.5 13.3
0.3 74 27 7.5 10.3
0.00 0.0 0.0 0.00 0.00
0/743 244/396 217/532 245/457 639/ 84
1/1 1/5 I/ 17 I/ 39 I/ 9
10.6
13.6
10.6
0.00
16/722
I/ 2
0.114
0.114
0.114
0.0000
566/172
\l 4
0.041
3.041
9.041
0.0000
586/151
I/ 4
0.637
0.637
0.636
0.0000
574/167
If I
0.132
3.132
0.131
0.0000
567/172
I/ 3
0.382
0.382
0.381
0.0339
126/613
I/ 3
12
12
12
3.3
93/632
I/ 17
7.0
7.0
7.0
3.00
366/325
I/ 51
0 0.0
0 0.0
0 3.0
3.0 3. )3
-------
G*NUS: TETRADESNUS
PARTIAL DEPTH VALUES
CMtA
TU*B SECCHI
PH
DO
TEMP TOTALP ORTHOP N02N03
NH3
KJEL
ALK
N/P
CONC PERC
00
R
0 0
U 1 C
N C
D
R N
0 0
U 1 N
N 0
0 C
C
R
0 0
U 2 C
N C
0
R N
0 0
U Z N
N 0
D C
C
R
0 0
U 3 C
N C
0
* N
0 0
U 3 N
N 0
0 C
C
R
0 A 0
U L C
NIC
0
R N
0 A 0
U L N
N L 0
D C
C
KIN
HAX
MEAN
STDV
N>
0/NR
MIN
MAX
MEAN
STOV
N>
0/UR
HIM
MAX
MEAN
STOV
*>
0/WR
MIN
MAX
MEAN
STOV
«>
O/MR
MIW
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STDV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STDV
N>
C/HR
33.7
49.0
41.3
10.82
210/ 21
2/ 16
0.3
35 5. 6
20.8
41.52
O/ 0
245/2*7
4.7
166. S
84.0
sa.oi
28/ 6
6/213
1.4
595.0
33.2
62.33
O/ 0
241/247
54. 3
78.0
66.1
16.76
21 6/ 12
2/ 19
3.8
241.4
22.8
3+.17
O/ 0
245/247
4.7
166.8
71.9
47.18
144/ 15
10/582
0.3
595.3
25.6
. 47.66
a/ o
731/741
63
63
63
0.0
49/131
I/ 7
6
100
71
20.6
O/ 0
186/187
7
84
57
29.5
3/ 91
6/143
4
121
73
23.8
O/ 0
231/237
32
75
54
30.4
18/144
2/ 59
1
100
74
23.0
O/ 0
219/221
7
84
57
25.8
7/246
9/392
1
121
73
22.6
O/ 0
636/645
15 8.6 10.4 25.7 0.104 0.013
21 9.5 10.4 26.8 0.545 0.123
18 9.0 13.4 26.2 0.324 0.067
4.2 0.64 0.00 0.78 0.3118 0.0777
29/174 215/ 7 196/ 42 219/ 15 178/ 10 136/ 18
2/ 46 2/ 27 I/ 7 2/ 14 2/ 61 2/ 95
2 5.3 0.7 6.8 0.004 0.001
252 10.6 19.2 28.9 1.719 1.209
44 7.9 9.0 17.4 0.121 0.057
36.2 0.72 2.32 5.56 3.2308 0.1648
0/0 0/0 0/0 0/0 0/0 0/0
247/249 247/249 244/245 246/248 247/249 247/249
12 6.7 5.7 26.8 0.015 0.002
44 10.2 10.6 29.5 1.259 1.191
28 8.7 8.4 28.6 0.467 0.313
13.0 1.18 1.98 0.95 0.4477 0.4443
13/ 95 25/ 2 SI/ 8 126/ 20 31/ 33/0
6/133 6/220 6/187 6/100 6/213 6/244
I 4.1 3.9 17.3 0.034 0.001
222 10.6 17.8 32.2 2.559 0.969
49 7.7 7.0 26.5 0.126 0.047
36.0 0.87 1.97 2.35 0.272) 3.1287
0/0 0/0 0/0 0/0 0/3 0/1
235/241 241/247 240/246 240/246 241/247 241/246
17 9.2 7.6 23.5 0.518 0.325
34 9.9 10.1 25.3 0.921 3.493
26 9.5 8.8 24.4 0.719 0.408
12.0 0.49 1.77 1.27 0.2849 0.1187
23/158 238/ 2 131/ 13 203/ 18 231/ 7 231/ 8
2/ 65 2/ 5 2/103 2/ 28 2/8 2/6
6 4.7 1.6 9.0 0.334 3.331
185 10.3 13.5 29.6 4.549 2.009
51 7.6 7.3 20.4 O.15O O.O67
35.0 0.82 1.61 3.24 0.4071 0.2072
0/0 3/0 0/0 0/0 0/0 0/0
244/246 243/245 239/241 244/246 244/246 243/245
12 6.7 5.7 23.5 0.015 0.002
44 10.2 13.6 29.5 1.259 1.191
25 8.9 8.7 27.3 0.489 0.283
11.3 0.99 1.81 2.00 0.3863 0.3555
39/277 61/ 4 92/ 51 406/ 21 86/ 10 14/ 3
10/423 10/676 9/589 10/313 10/646 10/724
1 4.1 0.7 6.8 0.004 0.001
252 10.6 19.2 32.2 4.549 2.009
48 7.7 7.8 21.4 0.132 0.957
35.8 0.81 2.07 5.48 0.3122 0.1703
0/0 0/0 0/0 0/0 O/ 0 0/0
726/736 731/741 723/732 730/743 732/742 731/741
0.064
0.207
3.135
0.1011
25/159
2/ 65
0.024
9.745
0.876
1.4799
O/ 0
247/249
0.029
0.424
0.192
3.1371
4/ 58
6/185
0.025
6.857
0.501
3.8931
O/ 0
241/247
0.075
0.134
O.089
0.0205
101/125
2/ 23
0. 01 7
4.469
0.344
0.5495
O/ 0
244/246
0.029
3.424
0.160
0.1165
25/222
10/495
0.017
9.745
0.575
1.0721
Of 0
732/742
0.089
0.167
0.127
0.0551
153/ 35
2/ 61
0.022
0.635
0.106
0.0956
O/ 0
247/249
0.047
0.250
0.123
0.0814
19/ 15
6/213
0.034
0.719
0.119
0.0881
O/ 0
241/247
0.089
3.103
O.O9S
0.0098
152/ 74
2/ 20
0.020
3.024
0.122
0.2241
O/ 0
244/246
0.047
0.250
0.118
0.0646
98 / 46
10/598
0.020
3.024
0.116
0. 1495
O/ 0
732/742
3.000
3.199
3.099
0.1406
243/ 3
2/ 3
0.199
4.699
0.777
0.6685
at o
247/249
0.281
6.349
2.690
2.0656
5/ 1
6/241
0.215
7.149
1.180
1.0228
O/ 0
241/247
2.565
4.399
3.332
1.0846
?25/ 6
2/ IS
0.199
8.199
1.130
1.0399
O/ 0
244/ 246
0.281
6.349
2.900
1.6372
45/ 2
10/695
0.199
8.199
1.018
0.9401
O/ 0
732/742
93
120
137
19.1
176/ 57
2t 16
10
248
70
67.5
01 0
247/249
17
82
56
23.8
45/ 78
6/124
10
334
74
69.6
O/ 3
241/247
82
92
87
7.1
163/ 71
21 12
10
291
73
64.3
Of 0
244/246
17
120
72
29.1
164/168
10/410
10
334
72
67.1
Of 0
732/742
0.0
4.0
2.0
2.83
0/183
2/ 66
0.0
142.0
18.7
25.19
Of 0
247/249
0.0
16.0
3.2
6.31
Of 43
6/204
0.0
213.0
14.3
23.98
Of 0
241/247
0.0
0.0
3.0
0.00
0/233
21 13
0.0
90.0
9.7
14.91
Of 0
244/246
0.0
16.0
2.3
4.97
0/153
10/589
0.0
210.0
14.3
22.14
O/ 0
732/742
0
o
o
0.0
0
0
0
0.0
0
513
183
232.5
0
0
0
0.0
0
0
0
0.0
0
0
0
3.0
0
513
110
197.2
0
0
0
3.0
0.0
0.0
0.0
0.30
0.0
0.0
0.0
0.00
0.0
0.3
0.1
0.16
0.3
0.0
0.0
0.00
0.0
0.3
0.0
0.00
0.0
0.0
3.3
O.JO
0.0
0.3
0.1
0.14
0.0
o.o
0.0
0.00
-------
GCNUSiTETPAOESMUS
CHLA
TURB SKCHI
PH
DO
TEMP
PARTIAL DEPTH VALUES
TOTALP ORTHOP N02N03
NH3
KJEL ALK
N/P
CONC PERC
P MIN
? 0 MX
u i o *EAH
N M STOV
0 N>
O/MR
II N MIN
C 0 MAX
U 1 N MEAN
N 0 STOV
0 O NC/>
H C/W*.
0 D MAX
u 2 o HSAN
N M STOV
0 N>
0/M«
P N KIN
C 0 MAX
u 2 N MEAN
N 0 STOV
0 0 N>
1 0/HR
C 0 PAX
U 3 0 «EAN
•1 << STOV
0 •»>
0/WR
9 N »1H
0 T ««»X
u 3 s MEAN
N 0 STOV
0 0 >!>
M 7/W
0 * -5 «•«
U t ? MEAN
N L « STOV
0 N>
C/WR
o N "IN
O A 3 "IX
U L N «EAN
N L 0 STCV
0 0 S>
1 C/HK
33.7
49.0
41.3
10.82
21O/ 21
2/ 16
4.7
166.8
84.0
58.01
28/ 6
6/213
54.3
78.0
66.1
16.76
21 6/ 12
2/ 19
4.7
166.8
71.9
47.18
144/ 15
10/582
63
63
63
0.0
49/131
I/ 7
7
84
57
29.5
3/ 91
6/143
32
75
54
30.4
18/144
21 59
7
84
57
25.8
7/246
9/392
IS
21
18
4.2
29/174
2/ 46
12
44
28
13.0
13/ 95
6/133
17
34
26
12.3
23/158
2/ 65
12
44
25
11.3
39/277
10/420
8.6
9.5
9.0
0.64
21 S/ 7
21 27
6.7
13.2
8.7
1.18
25/ 2
6/220
9.2
9.9
9.5
0.49
238/ 2
11 5
6.7
10.2
8.9
3.99
61/ 4
10/676
10.4
10.4
10.4
0.00
196/ 42
I/ 7
5.7
13.6
8.4
1.98
51/ 8
6/187
7.6
10.1
8.8
1.77
131/ 10
2/100
5.7
10.6
8.7
1.81
25.7
26.8
26.2
3.78
219/ 15
2/ 14
26.8
29.5
28.6
0.95
126/ 20
6/100
23.5
25.3
24.4
1.27
233/ 18
2/ 28
23.5
29.5
27.3
2.33
92/ 51 406/ 21
9/589
10/313
0.134
0.545
0.324
0.3118
178/ 10
2/ 61
0.015
1.259
0.467
0.4477
^\l 3
6/213
0.518
0.921
0.719
0.2849
231/ 7
2/ 8
3.115
1.259
0.489
3.3863
8t/ 13
10/646
3.013
0.123
0.067
0.0777
136/ 18
2/ 95
0.002
1.191
0.313
0.4443
3/ 0
6/244
0.325
0.493
0.408
0.1187
231/ 8
21 6
3.332
1.191
0.283
3.3555
14/ 3
10/724
0.064
0.207
0.135
0.1011
25/159
2/ 65
0.029
3.424
0.192
0.1371
4/ 58
6/185
0.375
0.104
0.089
0.0239
131/125
2/ 20
3.329
0.424
0.160
3.1165
25/222
10/495
0.089
O.167
0.127
0.0551
153/ 35
2/ 61
O.O47
0.250
0.123
O.O814
19/ 15
6/213
0.089
0.103
0.095
0.0098
152/ 74
2/ 20
0.347
0.253
0.118
3.3646
It/ 46
10/598
3.000
3.199
3.099
0.1406
243/ 3
2/ 3
0.281
6.349
2.690
2.0656
5/ 1
6/241
2.565
4.399
3.332
1.0846
225/ 6
21 15
3.281
6.349
2.900
1.6072
45/ 2
10/695
93
120
107
19.1
176/ 57
21 16
17
82
56
23.8
45/ 78
6/124
92
92
87
7.1
163/ 71
21 12
17
123
72
29.1
164/168
10/413
0.0
4.0
2.0
2.83
0/183
21 66
0.0
16.0
3.2
6.31
O/ 43
6/204
0.0
3.3
0.0
0.00
0/233
21 13
3.3
16.3
2.3
4.97
0/153
10/585
3 0.0
0 0.0
0 0.0
0.0 0.00
o o.o
513 0.3
183 0.1
232.5 0.16
3 0.0
3 3.3
0 0.0
o.o o.oo
3 3.3
513 0.3
11C 0.1
197.2 C.14
-------
G'NUS: TETRAEDRON
PARTIAL DEPTH VALUES
CHLA
TUBS SECCHI
PH
DO
TEMP TOTALP ORTHOP N02N03
NH3
KJEL ALK
N/P
CONC PERC
R
0 P
0 1 C
N C
0
» N
0 0
U 1 N
N 0
D C
C
•
O 0
U 2 C
N C
D
R N
0 0
U 2 N
N P
D C
C
•
0 0
0 3 C
N C
0
R N
0 0
U 3 N
M 0
0 f
C
R
p A o
U L C
N L C
0
» N
DAP
U L N
N L 0
0 C
C
MIN
MAX
MEAN
STPV
N>
O/WR
HIM
MAX
MEAN
STPV
M>
0/MR
MIN
MAX
MEAN
STDV
N>
0/WR
NIN
«AX
MEAN
STOV
N>'
P/WR
MIN
MAX
MEAN
STPV
N>
0/WR
MIN
1AX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/W»
MIN
KAX
MEAN
STPV
N>
0/WR
0.5
247.1
34.9
47.58
I/ Z
•7/244
0.3
355.6
16.8
38.51
01 0
190/247
2. a
595.0
48.7
77.H
10/ 0
131/237
1.4
312.0
18.4
33.95
9/ 2
116/245
1.1
241.4
28.8
35.46
2/ 9
136/245
0.8
237.0
16.3
31.56
O/ 1
111/246
9.5
595.9
3T.9
58.30
It 0
324/740
0.3
355.6
17.1
35.45
O/ 2
417/739
6
130
69
20.6
O/ 0
52/117
13
100
71
20.6
2/ 0
135/185
5
107
69
24.1
I/ 1
123/235
4
121
75
23.6
O/ 3
114/237
1
99
74
21.5
O/ 1
123/220
3
no
74
25.0
I/ 0
98/220
1
137
71
22.5
O/ 1
298/644
3
121
73
22.9
I/ 0
347/644
5
125
37
24.2
2/ 11
57/236
2
252
45
38.9
O/ 0
192/249
6
184
43
28.4
I/ 2
129/238
1
222
56
41.8
O/ 0
112/241
6
157
43
27.4
O/ 3
136/243
7
185
59
40.9
I/ 0
110/245
5
184
42
27.3
3/ 5
322/728
1
252
52
40.6
O/ 0
414/736
6.8
9.7
8.1
0.73
9> 2
57/238
5.3
10.6
7.8
0.71
O/ 0
192/249
5.7
10.6
8.0
0.84
5/ 0
131/242
4.1
9.4
7.5
0.86
01 6
116/241
6.1
19.0
7.8
0.79
4/ 1
134/243
4.7
13.3
7.4
0.86
O/ 9
111/245
5.7
10.6
7.9
0.81
9/ 0
322/732
4.1
10.6
7.6
0.82
3/ 0
41«-/741
3.8
15.5
e.9
2.26
4/ 1
56/240
0.7
19.2
9.0
1.95
O/ 0
189/245
3.1
17.8
7.3
2.25
I/ 0
130/245
3.0
13.5
6.7
1.59
O/ 5
116/241
1.9
12.7
7.4
1.60
I/ 1
131/239
1.6
13.5
7.2
1.62
O/ 0
110/241
1.9
17.8
7.6
2.09
2/ 1
317/729
0.7
19.2
7.9
2.35
O/ 0
415/732
9.2 O.O1O O.001 O.034 O.O22 0.237
28.9 1.159 0.851 4.389 0.5S4 3.199
19.8 0.137 0.060 0.387 0. 116 1.095
6.05 0.2066 9.1579 0.6952 0.1212 0.8351
4/ 0 12/ 5 0/4 2/9 0/1 1/3
57/244 57/232 57/245 57/238 57/2*8 57/245
6.8 0.004 0.001 0.024 0.030 0.199
28.8 1.719 1.209 9.745 0.635 4.699
16.8 0.119 0.056 1.013 0.104 0.707
5.27 0.2387 0.1665 1.6108 0.0863 0.6266
0/1 0/9 0/9 0/0 2/9 0/0
191/247 192/249 192/249 192/249 192/247 192/249
21.2 0.038 0.001 0.027 0.034 0.215
31.5 1.599 1.191 4.099 0.565 7.149
27.2 0.159 0.071 0.373 0.112 1.432
2.03 0.2832 0.1860 0.6677 0.0689 1.2342
3/1 6/1 0/0 1/3 0/1 0/0
130/242 131/240 131/247 131/243 131/246 131/247
17.3 0.004 0.001 0.025 0.036 9.226
32.2 2.559 3.555 6.857 9.719 6.250
26.0 0.107 0.033 0.629 0.128 0.974
2.52 0.2774 0.0831 1.O635 O.1047 0.8066
0/9 0/3 9/6 O/ 3 1/9 1/2
116/246 116/247 116/241 116/247 116/246 116/244
13.9 0.038 3.033 0.320 0.020 0.225
29.6 3.384 2.099 4.469 3.024 8.199
21.2 O.183 O.10O 3.277 0.125 1.321
2.83 0.3832 0.2731 0.5348 0.2823 1.2347
4/9 5/1 2/0 2/0 0/0 5/0
135/242 135/243 135/243 135/244 135/246 135/241
9.0 0.004 O.001 O.017 0.031 0.199
29.0 4.549 9.459 2.688 9.831 5.999
19.4 0.129 0.033 0.421 0.119 0.872
3.44 0.4378 0.0584 0.5552 0.1177 0.7216
0/1 0/0 0/9 0/1 1/3 0/3
111/245 111/246 110/236 111/245 111/242 111/243
9.2 0.008 0.001 0.020 0.020 0.207
31.5 3.084 2.009 4.469 3.024 8.199
23.4 3.165 0.981 0.335 3.118 1.326
4.62 0.3181 0.2227 9.6299 0.1941 1.1767
5/ 1 19/ 1 O/ 0 2/9 0/0 37 O
322/734 323/722 323/741 323/731 222/742 323/739
6.8 0.004 0.001 0.017 0.030 0.199
32.2 4.549 1.209 9.745 0.891 6.250
20.9 0.116 0.044 0.750 0.115 0.825
5.67 0.3125 0.1250 1.2816 0.1009 0.7131
0/0 0/0 0/2 0/0 3/3 9/3
418/740 419/742 418/739 419/742 419/736 419/739
10
227
65
53.3
O/ 3
57/246
10
248
72
71.0
O/ 3
192/249
10
281
69
53.9
01 2
131/245
10
334
79
82.5
O/ 0
116/247
10
219
68
50.8
01 8
135/238
10
291
79
77.3
O/ 0
111/246
10
281
68
52.4
O/ 4
323/738
13
334
75
75.8
O/ 3
419/742
0.0
56.0
9.0
11.33
O/ 20
57/229
0.0
142.0
21.5
27.34
O/ 0
192/249
0.0
101.0
9.8
15.33
01 4
131/243
0.0
210.0
18.9
29.96
01 0
116/247
0.0
44.0
5.6
6.31
01 12
135/234
0.0
90.0
14.5
20.33
O/ 0
111/246
0.0
101.0
7.9
11.73
01 9
323/733
3.0
210.0
18.9
26.50
O/ 0
419/742
0
1753
171
359.2
0
9
0
0.0
3
2809
209
416.9
0
a
0
0.0
0
3742
278
595.9
0
0
O
3.3
0
3742
231
492.5
3
0
0
3.3
0.0
20.0
1.1
2.87
0.0
0.0
0,0
0.00
9.0
11.3
1.0
1.55
0.0
0.0
0.0
o.oo
0.0
29.9
1.3
3.11
0.0
0.0
0.0
0.33
0.0
29.9
1.2
2.54
0.3
0.0
0.0
9.30
-------
00
GWIU S i T ETH ASTRO*
R
C 0
U 1 0
N 1
0
• N
C P
U 1 N
N 0
0 0
M
«
0 0
U 2 C
N X
0
R N
0 0
0 2 N
* 0
0 0
*
R
0 0
U 3 C
N «<
0
P. N
C 0
0 3 N
N 0
? 0
M
,
n » o
U I 0
N L M
9
• N
r A o
U I S
S I 0
r o
M
HIM
MAX
MEAN
STOV
N>
o/w*
•UN
MAX
HEAN
STOV
N>
0/HR
MIN
MAX
MEAN
STOV
N>
0/UR
MIN
MAX
DEAN
STOV
N>
C/hR
"IN
MAX
MEAN
STCV
*'>
c/m
"IN
MAX
•EAN
STCV
*>
0/kR
MIN
MAX
"CAN
STDV
N>
0/W«
MIN
MAX
MEAN
STOV
N>
o/WR
CHLA TURB SECCHI PH
0.5 70 25 7.2
0.5 70 25 7.2
0.5 70 25 7.2
0.00 0.0 0.0 0.00
1/243 74/110 90/155 37/204
1/3 1/3 1/4 1/8
1.8 6 5 6.8
247.1 100 125 9.7
35.5 69 37 8.1
47.78 20.8 24.3 0.73
14/ 2 O/ 0 2/ 11 9/ 2
56/231 SI/187 56/236 56/238
7.7 94 95 8.0
7.7 94 95 8.0
7.7 94 95 8.0
0.00 0.0 0.0 0.00
73/172 21S/ 19 214/ 26 137/ 96
1/2 1/3 1/1 I/ 14
2.8 5 6 5.7
595.0 137 184 10.6
49.0 69 42 8.0
77.40 24.1 28.1 0.85
IV 0 I/ 1 I/ '2 5/ 0
133/237 122/235 128/238 130/242
3.4 87 71 7.2
9.7 97 129 7.9
5.9 92 92 7.6
3.36 7.1 32.4 0.36
22/130 137/ 2 192/ 13 79/ 88
3/ 95 2/ 82 3/ 41 3/ 78
1.1 1 6 6.1
241.4 99 157 13.3
29.3 74 42 7.8
35.69 21.6 26.5 0.80
2/0 3/1 0/3 4/1
133/245 121/220 133/243 131/240
0.5 70 25 7.2
9.7 97 129 8.0
5.2 87 79 7.6
3.62 12.1 37.9 0.38
1/388 210/ 12 198/ 27 171/278
5/352 4/423 5/511 5/292
1.1 1 5 5.7
595.0 107 184 10.6
38.4 71 41 7.9
58.61 22.6 26.8 0.82
9/3 3/1 3/5 9/0
OO
10.7
10.7
10.7
0.00
209/ 32
I/ 4
3.8
15.5
8.9
2.27
4/ 1
55/240
4.5
4.5
4.5
0.00
13/231
I/ 2
3.1
17.8
7.3
2.24
I/ 0
129/245
6.2
8.2
7.3
1.01
48/ 53
3/143
1.9
12.7
7.4
1.62
I/ 1
128/239
4.5
10.7
7.4
2.31
30/ 47
5/655
1.9
17.8
7.6
2.09
2/ 1
PARTIAL DEPTH VALUES
TENP TO»ALP
10.6 0.014
10.6 0.014
10.6 0.013
3.00 0.0000
15/231 22/223
1/2 1/4
9.2 0.010
28.9 1.159
20.0 0.139
5.97 0.2378
4/ 0 12/ 5
56/244 56/232
28.1 0.023
28.1 0.023
28.1 0.323
0.00 0.0000
163/ 80 63/178
1/3 1/6
21.2 0.008
31.5 1.599
27.1 0.160
2.04 0.2841
3/1 6/1
129/242 130/240
18.5 0.011
20.0 0.024
19.3 0.318
0.75 0.0066
71/126 15/185
3/ 49 3/ 46
13.9 0.008
29.6 3.384
21.3 0.186
2.85 0.3867
4/3 5/1
132/242 132/243
10.6 3.311
28.1 0.324
19.3 0.018
6.21 0.0056
16/ 85 51/554
5/639 5/137
«.2 3.308
31.5 3.384
23.4 0.167
4.58 0.3201
5/ I 19/ 1
ORTHOP
0.001
0.001
0.000
0.0030
0/239
I/ 10
0.002
0.851
0.061
0.1591
10/ 4
56/235
0.006
0.006
0.035
0.0000
62/168
I/ 17
0.001
1.191
0.071
0.1867
O/ 0
130/247
0.006
0.011
0.907
0.0026
28/147
3/ 70
0.003
2.039
0.102
0.2738
2/ 0
132/243
3.331
0.311
0.006
0.0035
0/390
5/351
0.031
2.039
0.082
0.2243
Of 3
N02N03 NH3
0.797 0.041
0.797 0.041
3.797 0.041
0.0003 0.0000
179/ 68 25/223
1/2 1/1
0.034 0.022
4.389 0.554
0.380 0.118
0.6993 0.1219
2/9 0/1
56/238 56/248
0.083 0.064
0.083 0.064
0.083 0.063
0.0300 0.0000
59/187 47/195
1/1 1/5
0.027 0.034
4.099 0.565
0.375 0.112
0.6698 0.0691
1/3 0/1
130/243 130/246
0.042 0.047
0.209 0.071
0.126 0.060
0.0835 0.0124
55/ 86 39/123
3/105 3/ 84
0.020 0.020
4.469 3.024
0.28C 0.126
0.5403 0.2853
2/0 0/0
132/244 132/246
0.042 0.041
0.797 0.071
0.251 0.357
0.3110 0.0128
76/145 51/4*5
5/521 5/246
0.020 0.020
4.469 3.324
0.336 0.119
0.6248 0.1954
2/9 3/0
KJEL
0.207
0.207
0.207
0.0000
1/246
I/ 2
0.250
3.199
1.111
0.8339
9/ 3
56/237
0.332
0.332
0.332
0.0000
12/231
I/ 4
0.215
7.149
1.440
1.2352
O/ 0
130/247
0.278
0.799
0.461
0.2927
17/120
3/109
0.225
8.199
1.340
1.2413
5/ 0
132/241
0.207
0.799
3.384
0.2363
3/332
5/407
0.215
8.199
1.341
1.1797
7/ 0
ALK
10
10
10
0.0
N/P
56.0
56.0
56.0
0.00
CONC
2J
20
20
0.0
PERC
20.0
23.3
20. C
0.00
0/214 228/ 20
I/ 35 11 1
10
227
66
53.2
O/ 3
56/246
61
61
61
0.0
140/105
I/ 2
10
281
69
54.1
O/ 2
13C/245
33
106
74
37.2
93/ 65
3/ 88
10
219
68
51.2
O/ 8
132/238
10
136
58
38.1
0/189
5/553
10
281
68
52.6
O/ 4
319/732 294/644 317/728 317/732 312/729 317/734 318/722 318/741 318/731 318/742 318/735 31C/738
0.0
42.0
8.2
9.47
O/ 30
56/219
6.0
6.0
6.0
0.00
106/130
I/ 11
0.0
101.0
9.8
15.39
O/ 4
130/243
4.0
24.0
12.7
10.26
93/ 19
3/134
0.0
44.0
5.5
6.16
O/ 12
132/234
4.0
56.0
20.0
21.59
208/ 42
5/492
0.0
131.0
7.7
11. *7
O/ 9
318/733
9
1753
174
361.9
228
228
228
0.0
3
2800
239
418.6
318
1290
662
545.0
0
3742
269
596.3
20
1290
4*7
*90.5
0
37*2
228
*92. 5
0.0
5.4
0.8
1.33
11.3
11.3
11.3
0.00
0.0
6.7
1.0
1.26
12.2
29.9
18.1
10.21
0.0
7.7
1.0
1.3*
11.3
29.9
17.1
7.97
0.0
7.7
O.f
1.31
-------
00
ro
GCNUS:
R
C ?
U 1 C
N C
D
* N
C 0
U 1 N
N 0
0 C
C
R
0 ?
U 2 C
N C
0
* N
0 n
U 2 N
N 0
D C
C
•
C< 0
0 3 C
1 C
0
» N
0 P
U 3 N
N 0
0 C
C
P
P A 0
U L C
NIC
O
• N
n t o
U I N
N I 0
0 C
C
TETRASTRUM
*IN
"AX
MEA *
STOV
N>
O/WR
.MJN
MM
MEAN
STCW
N>
O/WR
Kin
•UX
MEAN
STOV
N>
O/WR
•UN
I'M
KE»N
STOV
N>
D/WS
HIM
MAX
MEAN
STDV
N>
P/WR
NIN
MAX
MEAN
STCV
N>
0/MP
M1N
CM
"CAN
STOV
N>
P/WR
H:N
MAX
MEAN
STOV
N>
O/WR
CHLA
2.9
2*7.1
32.8
43.90
33/ 2
15/212
0.3
355.6
18.3
40.46
O/ 0
202/247
5.8
595.0
63.9
92.6%
3T/ 0
53/210
1.4
456.6
26.4
48.75
Of 1
194/246
0.8
171.5
29.0
30.77
O/ 3
69/2*4
0.8
241.4
20.9
35.35
O/ 0
178/247
0.8
595.3
41.1
61.90
&/ a
167/735
0.3
456.6
21.9
42.10
-O/ 1
574/740
TUPB
6
95
65
25.0
O/ 9
32/178
15
100
72
19.5
3/ 0
155/184
5
93
61
26.9
I/ 22
50/214
4
121
75
22.2
O/ 0
187/237
6
94
69
23.7
2/ 20
63/199
1
100
76
22.5
O/ 0
158/221
5
0
a
0.0
.,
PERC
0.0
14.9
0.8
2.33
0.0
0.0
o.o
0.00
0.0
5,6
0.6
0.94
0.0
0.0
0.0
0.00
o.o
4.3
0.5
0.71
0.0
0.0
0.0
3.30
0.0
14.9
0.6
1.39
0.0
O.O
o.o
p.oo
-------
CENUS:TET«ASTK(M
PARTIAL DEPTH VALUES
CHLA
TUftB SECCHI
PH
00
TEMP TOTALP ORTHOP N02N03
NH3
KJEL ALK
N/P
CONC
PERC
00
CO
• MIN
0 0 MAX
U 1 0 MEAN
N M STOV
O N>
O/MK
• N MIN
C 0 MAX
U I N MEAN
N D STOV
0 0 N>
M 0/H*
R MIN
0 0 MAX
U 2 0 «fAN
N M STOV
o r>
C/H*
• 1 MIN
0 0 "AX
u 2 N MEAN
N 0 STOV
0 0 N>
H 0/M«
1 0 MAX
u 3 o MEAN
•i X STOV
C/U*
« S -"IN
C 0 MAX
U 3 N MEAN
". 0 STOV
C " «>
» "/K*
c MIN
? » D "AX
U L 0 MFAN
K L « STCV
0 N>
0/W1
R N MIN
r A c "AX
u L N MEAN
N I 0 JTOV
0 0 N>
6.9
6.9
6.9
0.00
115/129
If 3
2.9
247.1
33.4
44.22
33/ 2
44/212
"
5.8
595.0
63.9
92.64
37/ 0
53/210
0.8
171.5
29.0
33.77
O/ 3
69/244
6.9
6.9
6.9
0.00
99999 36 8.5
-99999
0
0.0
187/ 0
O/ 0
6
95
65
25.0
O/ 9
32/178
5
93
61
26.9
I/ 22
59/214
6
94
69
23.7
2/ 20
63/199
99999
-99999
0
3.0
250/483 64 5/ 0
I/ 8
0.8
595.0
41.3
62.03
6/ 0
3/ 0
5
95
65
25.2
3/ »5
36 8.5
36 8.5
0.0 3.33
134/101 204/ 34
I/ 14 I/ 11
5 7.0
72 9.7
30 8.2
15.2 0.59
2/ 49 23/ 2
44/207 44/224
6 5.7
87 9.4
33 8.0
18.3 0.74
I/ 30 5/ 6
52/213 53/236
7 6.3
107 9.1
33 7.7
18.6 3.69
I/ 23 8/ 7
69/222 67/230
36 8.5
36 8.5
36 8.5
3.3 3.33
9.6 19.0
9.6
9.6
0.90
152/ 85
I/ 8
3.8
12.8
8.7
1.88
4/ 2
44/239
3.1
15.2
7.3
1.98
I/ 2
52/243
4.3
11.4
7.4
1.43
5/ 2
68/234
9.6
9.6
9.6
3.90
338/369 614/102 607/114
11 29 I/ 25
5 5.7
107 9.7
32 7.9
17.6 9.73
3/ 60 9/ 8
I/ 11
3.1
15.2
7.6
1.85
7/ 4
19.0
19.0
0.00
158/ 88
I/ 2
9.3
28.9
18.5
5.10
S/ 0
44/243
20.6
30.1
26.8
2.34
2/ 6
53/238
13.9
29.6
20.6
3.21
4/ 3
68/242
19.0
19.0
19.3
3.03
0.328
0.028
0.027
0.0000
40/184
I/ 5
0.016
0.716
0.133
0.1543
28/ 8
44/213
0.010
1.599
0.202
0.2968
14/ I
53/232
0.319
1.479
0.154
3.2267
39/ 3
68/204
3.328
0.028
0.327
0.3033
241/491 208/526
I/ 8
9.3
30.1
22.1
4.92
6/ 6
I/ 8
0.010
1.599
0.164
0.2365
37/ 5
3.032 0.038
3.002 0.338
0.001 0.037
0.0000 0.0000
10/222 4/244
I/ 17 I/ 1
0.003 0.041
0.616 6.425
0.059 0.715
0.1302 1.1960
27/ 56/5
44/217 44/238
0.001 0.027
3.969 2.694
3.386 0.330
0.1998 0.5450
O/ 1 I/ 10
53/246 53/236
-
3.095 0.317
1.099 1.959
0.064 0.311
3.1578 3.4766
15/3 0/4
68/227 68/242
3.032 0.338
0.002 0.038
0.001 0.037
3.3333 3.3330
14/733 62/678
I/ 24 I/ 2
0.001 0.317
1.099 6.425
3.970 0.425
3.1656 0.7699
0/5 0/6
3.037 0.625
0.037 0.625
0.037 0.625
0.0000 0.0000
17/230 138/139
1/2 1/2
0.022 0.315
0.339 3.199
0.099 1.054
0.0564 0.7005
O/ 10 35/ 3
44/239 44/211
0.041 0.399
0.376 5.699
0.117 1.626
0.0676 1.0466
9/ 6 25/ 3
53/232 53/219
3.332 3.254
0.974 5.399
0.116 1.344
0.1497 3.9582
2/ 2 10/ 2
68/242 68/234
0.037 0.625
0.037 0.625
0.037 0.625
0.3300 0.0330
30/739 317/422
1/3 1/3
3.322 3.254
0.974 5.699
0.112 1.357
9.1021 3.9482
I/ 2 23/ 5
115
115
115
0.0
190/ fa
I/ 1
12
227
84
57.3
41/ 3
44/205
10
281
84
71.9
O/ 2
53/245
13
222
81
59.4
O/ 6
68/243
115
115
115
3.3
563/174
I/ 5
1)
281
83
62.)
O/ 4
3.0
3.0
3.0
0.00
34/198
I/ 17
0.0
53.0
11.7
13.96
01 21
44/228
0.0
65.0
5.5
9.30
O/ 8
53/239
0.0
71.3
6.6
11.37
a/ 3
68/243
3.0
3.0
3.0
0.00
146/534
I/ 62
3.3
71.0
7.6
11.73
O/ 25
649
649
649
0.0
0
961
100
219.4
0
1540
117
239.2
J
1444
100
200.8
64S
649
649
C.O
3
154J
136
217.3
14.9
14.9
14.9
0.00
0.0
5.2
0.5
0.91
0.0
5.6
0.6
0.94
3.0
4.3
0.5
C. 71
14.9
14.9
14.9
0.00
3.3
5.6
0.5
C. 84
166/735 145/637 165/673 164/724 164/721 165/728 165/700 165/736 165/736 165/739 165/714 165/738 165/717
-------
GENUS: TRACHELOMONAS
CHLA
TURB SECCHI
PH
DO
PARTIAL DEPTH VALUES
TOTALP ORTHOP M02N03 NH3
KJEL ALK
N/P
CONC PERC
*
O 0
U 1 C
N C
0
R N
0 0
U 1 N
N 0
D C
C
R
0 0
U 2 C
« C
D
R N
0 0
U 2 N
N 0
0 C
C
R
0 0
U 3 C
N C
0
R N
0 0
U 3 N
* 0
0 C
C
R
0 A 0
U L C
NIC
n
• N
P A 0
U L N
N L 0
D C
C
*IN
MAX
MEAN
STDV
N>
0/WR
NIN
MAX
MEAN
STDV
N>
0/WR
MIN
MAX
MEAN
STOV
M>
P/WR
HIM
1AX
MEAN
STDV
N>
C/WR
MIN
MAX
MEAN
STfV
N>
O/W«
MIN
HAX
HEAN
sTrv
N>
0/WR
MIX
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MFAN
STPV
N>
0/WR
0.5
2*7.1
21.0
41.54
I/ 2
62/244
0.3
35S.6
20.9
41.46
a/ o
189/247
2.7
206.7
33.1
40.51
•>/ 4
86/234
1.4
595.5
35.2
71.73
}/ 0
161/247
1.9
171.5
24.4
26.07
ll/ 3
81/233
0.8
241.4
22.6
37.62
O/ 0
167/247
0.5
247.1
26.7
36.62
I/ 6
228/734
0.3
195.0
26.0
52.23
v o
513/741
6 2
95 85
62 30
21.6 29.4
O/ 9 O/ 32
45/178 62/217
13 3
100 252
73 48
19.5 39.1
2/0 1/0
142/185 187/248
4 6
96 123
65 38
26.0 23.3
0/7 1/9
82/230 85/231
5 1
121 222
76 55
21.9 39.9
1/0 0/0
135/236 156/241
1 6
97 129
65 35
25.4 21.1
O/ 2 O/ 13
71/219 85/233
3 10
100 185
78 58
20.7 38.0
1/0 3/0
150/220 166/243
1 2
97 129
64 35
24.8 21.9
O/ 12 I/ 27
198/633 227/708
3 1
121 252
76 33
20.8 39.1
1/0 0/0
447/644 509/736
6.6 3.8
9.3 15.5
7.8 8.7
0.55 1.98
4/8 4/1
62/237 62/240
5.3 0.7
10.6 19.2
7.9 9.1
0.77 2.03
0/0 0/0
187/249 183/245
5.2 3.1
9.7 17.8
7.7 6.7
0.84 2.21
1/3 1/0
86/243 86/245
4.1 3.0
10.6 16.0
7.8 7.2
0.92 1.84
O/ O 0/1
161/247 160/245
6. 1 1. 6
9.1 11.4
7. 7 7. 1
0.62 1.68
4/7 0/2
80/234 79/239
4.7 2.8
10.3 13.5
7.5 7.4
0.92 1.57
0/0 2/0
165/245 162/239
5.2 1.6
9.7 17.8
7. 7 7. 4
0.69 2.13
2/8 1/1
228/731 227/730
4.1 0.7
10.6 19.2
7.8 7.9
0.88 2.32
0/0 0/0
513/741 505/732
9.3 0.013
28.9 1.159
17.7 0.104
5.42 0.1482
5/ 0 19/ 5
62/243 62/22S
6.8 0.004
28.8 1.719
17.4 0.129
5.66 0.2531
0/1 0/0
186/247 187/249
21.2 0.008
32.2 1.109
26.5 9.119
2.18 0.1869
3/0 6/5
86/243 86/236
17.3 0.004
31.5 2.559
26.7 0.143
2.44 0.3206
0/1 0/0
160/245 161/247
12.6 0.011
29.0 0.929
19.8 0.127
2.89 0.1633
I/ 1 15/ 6
80/244 80/225
9.0 0.004
29.6 4.549
20.7 0.168
3.37 0.4849
0/0 0/0
166/246 166/246
9. 3 0. -108
32.2 1.159
21.7 0.118
5.18 0.1684
6/ 0 19/ 15
228/734 228/708
' 6.8 0.034
31.5 4.549
21.4 0.146
5.63 0.362Z
O/ 1 0/0
512/739 514/742
0.001 0.952
0.851 7.557
0.035 1.014
0.1073 1.6501
O/ 4 10/ 2
62/245 62/237
0.301 0.024
1.209 9.745
0.064 0.822
0.1788 1.4143
0/0 0/0
187/249 187/249
0.002 0.027
0.969 6.857
0.041 0.753
0.1235 1.2339
3/1 1/0
86/243 86/246
O.O01 0.025
1.191 3.679
0.060 0.355
0.1594 0.5798
0/0 0/5
161/247 161/242
0.004 0.024
0.632 2.688
0.045 0.402
3.0968 0.5186
8/6 6/1
83/231 80/239
0.001 0.017
2.009 4.469
0.082 0.313
1.2447 1.5605
3/0 0/0
165/245 166/246
0.301 0.324
0.969 7.557
0.041 0.701
9.1099 1.2062
0/9 6/2
228/732 228/734
0.091 0.117
2. 009 9. 745
0.069 0.511
0.1970 0.9933
O/. 0 O/ 0
513/741 514/742
0.032 0.207
0.524 2.949
0.115 0.680
0.0868 0.5345
5/3 1/6
62/241 62/242
0.022 0.199
0.635 4.699
0.104 0.834
0.0980 0.7410
0/0 0/0
187/249 187/249
0.036 0.328
0.719 3.699
0.123 1.147
0.0933 0.7273
I/ 0 ll/ 8
86/246 86/226
0.034 0.215
0.565 7.149
0.118 1.254
0.0850 1.2251
0/1 0/0
161/246 161/247
0.020 0.278
0.979 5.399
0.143 1.108
3.1623 0.8338
O/ 1 17/ 2
80/245 80/227
0.031 0.199
3.024 8.199
0.112 1.123
3.2470 1.1518
1/0 0/0
166/245 166/246
0.020 0.207
0.979 5.399
0.128 1.006
0.1208 0.7464
0/1 3/6
228/741 228/733
0.022 0.199
3.024 8.199
0.111 1.059
O.1593 1.0609
I/ 0 O/ 0
514/741 514/742
10
248
64
61.9
O/ 0
62/249
10
240
72
69.1
O/ 1
187/248
10
268
77
61.3
O/ 6
86/2*1
10
334
71
72.7
O/ 0
161/247
10
261
93
64.9
O/ 2
80/244
13
291
63
61.5
O/ 3
166/246
19
268
79
63.5
O/ 8
228/734
19
334
69
67.9
O/ 0
514/742
1.0
86.0
16.3
20.05
7/ 8
62/234
0.0
142.0
19.4
26.61
O/ 0
187/249.
0.0
210.0
13.9
26.06
O/ 0
86/247
O.O
130.0
14.2
22.52
O/ 1
161/2*6
0.0
70. O
8.0
9.99
O/ *
80/2*2
3.0
90.0
10.4
16.70
O/ 0
166/2*6
0.0
213.0
12.5
20.22
O/ 0
228/7*2
0.0
142.3
14.9
22.78
O/ 1
514/741
0
437
36
77.7
0
0
0
0.0
0
2014
97
256.7
0
0
0
0.0
9
2268
96
290.9
0
0
0
0.0
0
2268
80
237.6
0
0
9
0.0
0.0
21.4
1.5
3.37
0.0
0.0
0.0
0.00
0.0
15.6
1.2
2.45
O.O
0.0
0.0
0.09
0.0
7.3
0.9.
1.61
0.0
3.0
0.0
0.00
0.0
21.4
1.2
2.50
0.0
0.0
0.0
o.oo
-------
00
ai
GENUS :TF AC HELCMOMS
CHLA
TURB SECCMI
PH
DO
TEMP
PARTIAL DEPTH VALUES
TOTALP ORTHOP N02N03
NH3
KJEL AlK
N/P
CONC PERC
* NIN
0 D MM
U 1 1 MEA*
N N STOV
0 N>
o/m
R N NIK
0 0 MX
U 1 N MEAN
N 0 STDV
0 0 N>
M O/M*
* MIN
0 D MM
U 2 0 MEAN
N N STOV
0 N>
0/MR
• N NIN
o o *«x
U 2 N MEAN
N 0 STDV
0
M Q/ll«
• MIN
0 0 MAX
U 3 0 MEAN
N * STDV
C N>
O/M*
» N "IK
C 0 ««X
U 3 M MEAN
X ? STOV
9 n N>
>• P/W*
R MIK
? A D «AX
u L o MEAN
N L M ST9V
D N>
0/Ut
• N MIN
C A 0 MAX
U L N MEAN
N t 0 STrV
0 0 N>
N CVHR
4.5
5.2
4.8
0.49
65/163
2/ 19
0.5
247.1
21.5
42.13
I/ -2
60/244
4.9
9.6
7.2
3.32
29/151
2/ 67
2.T
206.7
33.7
40.79
9/ 4
•4/234
1.9
171.$
24.4
26.07
ll/ 3
80/233
4.5
9.6
6.0
2.38
135/391
4/215
0.5
247.1
27.1
36.84
I/ 6
58
58
58
0.0
38/146
I/ 3
6
95
62
21.8
O/ 9
44/178
69
76
73
4.9
69/142
2/ 26
4
96
65
26.3
Of 7
80/253
1
97
65
25.4
O/ 2
71/219
58
76
68
9.1
134/37]
3/138
1
97
64
24.9
01 12
10 7.5
12 7.5
11 7.5
1.4 0.00
15/225 59/177
2/ 9 2/ 13
2 6.6
85 9.3
31 7.8
20.4 0.56
O/ 32 4/ 8
60/217 60/237
25 6.2
35 6.8
30 6.5
7.1 0.42
52/131 7/210
2/ 58 2/ 30
6 $.2
123 9.7
38 7.6
23.6 0.82
1/9 1/3
83/231 84/243
6 6.1
129 9.1
35 7.7
21.1 0.62
O/ 13 4/ 7
80/233 80/234
10 6.2
35 7.5
21 7.0
11.7 0.63
30/398 16/457
4/308 4/268
2 5.2
129 9.7
35 7.8
22.0 0.69
I/ 27 2/ 8
7.8
9.5
8.6
1.20
47/ 93
2/105
3.8
15.5
8.7
2.00
4/ 1
60/240
4.2
4.3
4.2
0.07
8/235
2/ 3
3.1
17.8
6.8
2.20
I/ 0
84/245
1.6
11.4
7.1
1.68
O/ 2
79/239
4.2
9.5
6.4
2.63
24/125
4/583
1.6
17.8
7.4
2.12
I/ 1
13.3 0.101
17.8 0.142
15.5 0.121
3.18 0.0289
69/ 99 ITS/ 41
2/ 80 21 33
9.3 0.013
28.9 1.159
17.8 0.103
5.48 0.1506
5/ 0 19/ 5
60/243 60/22 5
23.7 0.056
28.5 0.090
26.1 0.072
3.39 0.0240
18/ 63 137/ 73
2/165 21 37
21.2 0.008
32.2 1.109
26.5 0.120
2.17 0.1890
3/0 6/5
84/243 84/236
12.6 0.011
29.0 0.929
19.8 0.127
2.89 0.1633
I/ 1 15/ 6
80/244 »0/229
13.3 9.056
28.5 0.142
20.8 0.097
6.66 0.0354
0.023
0.030
0.026
0.0049
159/ 64
21 26
0.001
0.851
0.035
0.1091
O/ 4
60/245
0.007
0.012
0.009
0.0035
79/114
21 54
0.002
0.969
0.041
0.1249
3/ 1
84/243
0.034
0.632
0.045
0.0968
8/ 6
80/231
0.037
0.030
0.017
3.0104
0.532 0.106 0.415
0.922 0.188 0.776
0.726 0.147 0.595
0.2757 0.0579 0.2552
159/ 55 177/ 26 76 / 80
2/ 35 2/ 46 2/ 93
0.052 0.032 0.207
7.557 0.524 2.949
1.024 0.114 0.683
1.6766 0.0877 0.5422
10/ 2 5/3 1/6
60/237 60/241 60/242
0.071 0.088 1.049
0.566 0.192 1.232
0.318 0.139 1.140
0.3500 0.0735 0.1293
46/ 51 105/ 29 143/ 77
2/150 2/113 21 27
0.027 0.036 0.328
6.857 0.719 3.699
0.763 0.123 1.147
1.2463 0.0940 0.7359
1/0 1/3 ll/ 8
84/246 84/246 84/228
3.024 0.320 0.278
2.688 0.979 5.399
0.402 0.143 1.108
3.5186 0.1623 0.8338
6/1 0/1 17/ 2
80/239 80/245 60/227
0.071 0.088 0.415
0.922 0.192 1.232
0.922 0.143 0.867
0. 3490 0.0542 3.3553
71/ 68 382/138 205/192 173/122 410/ 84 157/180
4/601 4/222
9.3 0.008
32.2 1.159
21.8 0.118
5.17 0.1698
«/ 0 19/ 15
4/344
0.331
0.969
3.041
0.1138
O/ 9
4/447 4/246 4/405
0.324 3.020 3.237
7.557 0.979 5.399
0.704 0.126 1.009
1.2160 0.1217 3.7517
6/2 0/1 3/6
12
91
52
55.9
41/ 73
2/135
10
248
64
62.5
O/ 0
60/249
11
26
19
10.6
18/163
21 66
10
266
78
61.3
O/ 6
84/241
13
261
93
64.9
O/ Z
SO/244
11
91
35
38.0
7.0
7.0
7.0
0.00
100/133
21 16
1.0
86.0
16.6
20.31
7/ 8
60/234
3.0
8.0
5.5
3.54
44 / 99
2/104
0.0
210.0
14.1
26.34
O/ 0
84/247
3.0
70.0
8.0
9.99
O/ 4
80/242
3.0
8.0
6.3
2.22
48
133
91
60.1
0
437
35
78.0
126
1019
573
631.4
0
2314
86
239.0
J
2268
96
290.9
48
1319
332
459.9
12.8
21.4
17.1
6.14
0.0
6.4
1.0
1.61
13.4
15.6
13.0
3.73
0.0
8.2
1.0
1.60
0.3
7.3
0.9
1.61
1J.4
21.4
15.1
4.78
74/216 146/332
*/452
13
268
80
63.6
O/ •
4/294
0.3
210.0
12.6
20.38
O/ 0
3
2268
76
231.3
3.3
8.2
l.C
1.60
224/734 195/633 223/708 224/731 223/730 224/734 224/708 224/732 224/734 224/741 224/733 224/734 224/742
-------
GENUS: TREUBARIA
PARTIAL DEPTH VALUES
CMLA
S5CCHI
00
T»MP TOTALP ORTHOP NO2N03
KJEl ALK
N/P
CONC PCRC
00
R
•3 C
U 1 C
N C
0
• N
n o
U 1 N
N 0
0 C
C
R
0 0
U 2 C
* C
0
R N
0 0
U 2 N
N O
D C
C
R
0 0
U 3 C
N C
0
R N
0 0
U 3 N
N 0
D C
C
R
0 A 0
U L C
NIC
0
R N
0 A 0
U L N
N L 0
n c
C
MIN
»AX
MEAN
STOV
N>
O/HR
MIN
MAX
MEAN
STOW
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/WP
MIN
MAX
MEAN
STOV
N>
0/MR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STDV
N>
0/WR
4.9
2*7.1
40.1
T*.78
73/ 2
10/IT2
0.3
355.4
20.1
39.46
O/ 0
237/2*7
*.9
595.0
53.7
92.*0
29/ 0
51/218
1.*
*S6.6
29.*
51.28
O/ 1
196/2*6
*.2
171.5
30.*
37.57
37/ 3
33/207
0.8
2*1.*
22.1
33.68
O/ 3
21*/2*7
*.2
595.0
**.!
7S.T*
U9/ 0
9*/622
0.3
*S6.6
23.6
*1.86
9/ I
6*7/7*0
26
89
7*
20.5
8/ 29
9/150
6
100
70
20.6
O/ 0
178/187
5
107
69
23.6
I/ 1
*6/235
*
121
73
2*.l
O/ 0
191/237
11
97
73
22.5
5/ 2
30/21*
1
100
7*
23.2
9/ 0
191/221
5
107
71
22.8
3/ 1
95/6*1
1
121
72
22.7
9/ 0
560/6*5
7
D*
*6
27.9
8/ 20
10/221
2
252
*3
36.5
O/ 0
239/2*9
6
95
39
20.9
I/ 26
51/21*
1
222
52
38.*
O/ 0
190/2*1
7
130
*9
22.*
I/ 12
33/233
6
185
52
36.3
a/ o
213/2*6
6
130
*0
22.1
5/ 26
9*/705
1
252
*9
37.2
O/ 0
6*2/736
7.1 6.* 13.* 0.01* 0.002
9.6 10.0 28.9 0.529 0.389
8.1 8.5 22.1 0.131 0.3*5
0.79 1.25 6.6* 0.1566 0.1177
SO/ 5 21/ 62 71/ 0 22/ 11 10/ 9
10/21* 10/162 10/177 10/216 1O/230
5.3 0.7 6.8 0.00* 0.001
10.6 19.2 28.7 1.719 1.209
7.9 9.0 17.3 0.12* 3.057
0.72 2.05 5.*7 0.23*2 0.1661
0/0 0/0 0/2 0/0 O/ O
239/2*9 235/2*5 238/2*6 239/2*9 239/2*9
5.2 *.2 22.9 0.010 0.003
9.5 15.2 31.5 1.599 0.9*9
8.0 7.3 27.5 0.13* 0.0*7
0.87 2.12 2.90 9.2329 9.1399
I/ * B/ 2 ll/ 1 I*/ 19/2
51/2*2 50/236 51/23* 51/232 51/236
*.l 3.0 17.3 0.00* 0.001
10.6 17.8 32.2 2.559 1.191
7.7 6.9 26.* 9.13* 0.055
0.89 1.9* 2.38 0.2929 0.150*
0/0 0/0 0/0 0/0 9/0
196/2*7 196/2*6 195/2*6 196/2*7 196/2*7
6.5 *.0 13.5 0.012 0.995
9.9 10.1 27.2 1.382 1.255
7.6 7.3 21.9 0.177 0.097
0.78 1.36 3.*6 0.2899 0.23*9
19/ 2 5/ 10 2t 3 19/ * 15/ 1
32/22* 31/226 32/2*1 33/223 33/229
*.7 1.6 9.1 0.99* 0.001
10.3 13.5 29.6 *.5*9 2.009
7.6 7.3 20.2 0.151 0.066
0.85 1.65 3.17 0.*259 0.20*7
0/0 0/0 O/ 9 0/9 0/9
213/2*5 210/2*1 21*/2*6 213/2*6 212/2*5
5.2 *. 0 13.* 0.010 9.992
9.9 15.2 31.5 1.599 1.255
7.9 7.5 25.0 0.1*6 0.06*
0.8* 1.8* *.27 0.2*35 0.1768
2/ 7 19/ * 73/ 1 37/ 5 I*/ 1
93/732 91/739 93/666 9*/700 9*/726
*.l 0.7 6.8 0.09* 0.001
13.6 19.2 32.2 *.5*9 2.009
7.7 7.8 21.0 0.136 0.359
0.82 2.10 5.*7 0.3250 0.1752
0/0 0/0 0/0 0/0 0/0
6*8/7*1 6*1/732 6*7/7*0 6*8/7*2 6*7/7*1
0.071
2.582
O.*19
0.765*
31/ 22
10/196
0.02*
9.7*5
0.889
l.*958
O/ 0
239/2*9
0.027
3.151
O.*0*
0.679*
I/ 7
51/239
0.025
6.857
0.517
0.9312
O/ 0
196/2*7
0.32*
1.959
0.30*
9.51*9
6/ *
33/236
0.017
*.*69
0.3*8
0.5535
o/ o
213/2*6
0.02*
3.151
0.371
0.6261
6/ 25
9*/711
0.017
9.7*5
0.598
1.1129
O/ 0
6*8/7*2
0.0*6
0.099
0.076
0.0155
3*/ 76
10/139
0.022
0.635
0.108
0.0970
01 0
239/2*9
O.O*0
0.199
0.102
0.0*68
*/ 2*
51/219
0.03*
0.719
0.12*
0.0952
9/ 0
196/2*7
0.032
0.373
0.102
0.0792
2/ 10
33/23*
0.029
3.02*
0.125
0.237B
o/ a
213/2*6
0.032
0.373
0.099
0.0585
7/ 2*
9*/711
0.020
3.02*
0.119
0.157*
O/ 0
6*8/7*2
0.305
2.5*9
0.819
0.7559
31/ 11
10/207
0.199
*.699
0.795
0.6967
O/ 0
239/2*9
0.332
5.699
l.*72
1.1903
12/ 3
51/232
9.215
7.1*9
1.150
1.9396
O/ 9
196/2*7
9.25*
*.099
1.180
0.8958
10/ 6
33/239
0.199
8.199
1.109
1.0816
O/ 0
213/2*6
0.25*
5.699
1.300
1.067*
23/ 5
9*/71*
0.199
8.199
1.306
0.9559
O/ 0
6*8/7*2
10
227
51
67.8
O/ 3
10/2*6
10
2*8
71
67.*
O/ O
239/2*9
10
180
59
**.*
0/29
51/227
10
33*
77
73.6
O/ 3
196/2*7
13
167
61
*5.9
28/ 2*
33/19*
10
291
75
66.3
O/ 0
213/2*6
10
227
59
*7.3
O/ 22
9»/723
10
33*
7*
68.9
O/ 0
6*8/7*2
0.0
*2.0
10.3
11.82
O/ 30
10/219
0.0
1*2.0
19.0
25.50
O/ 0
239/2*9
O.OT
101.0
9.2
18.23
O/ *
51/2*3
0.0
210.0
15.3
2*. 89
O/ 9
196/2*7
9.0
**.o
5.2
7.99
O/ 12
33/23*
9.9
90.0
10.3
15.58
01 9
213/2*6
0.0
101.9
7.9
1*.77
O/ 9
9*/733
0.0
210.0
15.0
22.77
O/ 0
6*8/7*2
0
162
29
51.5
0
0
0
0.0
0
3S5
*3
77.*
9
0
0
0.0
0
329
36
ft7. 7
0
3
0
0.0
0
385
39
71.3
0
0
0
0.0
0.0
1.5
0.*
9.57
0.0
0.0
0.0
0.00
0.0
1.5
0.2
0.33
0.0
0.0
0.0
0.00
0.0
0.7
0.2
0.2*
0.0
0.0
0.9
0.00
0.0
1.5
0.2
0.33
0.0
0.0
0.0
0.90
-------
CEMUS:T*EUBARtA
00
CHLA
TUR8 SECCHI
PH
00
TEMP
PARTIAL DEPTH VALUES
TOTALP ORTHOP N02N03
NH3
KJEL ALK
N/P
CONC PERC
0 0
0 1 0
N M
0
*
0
U 1
N
0
ft
O
U 2
N
D
R
o
U 2
V
0
•
0
U 3
X
0
,
c
U 3
M
9
a
0 A
U L
N L
5
B
'. A
U L
N L
0
N
0
N
0
0
M
-0
o
M.
N
0
N
0
0
M
0
0
M
N
0
N
5
0
M
0
0
M
N
0
N
0
•1
M
HIM
MAX
MEAN
STOV
0/M*
MIN
WAX
MEAN
STOV
N>
O/M*
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
ST"V
N>
0/MR.
MIN
MAX
MEAN
STCV
*>
MIN
MAX
MEAN
STOV
N>
0/t<>
"IN
"AX
MEAN
STOV
N>
C/WR
•MN
MAX
MEAN
STOV
N>
C/WR
4.9
247.1
40.1
74.78
73/ 2
13/172
4.9
595.0
53.7
92.40
29/ 0
51/218
4.2
171.5
30.4
37.57
37/ 3
33/237
4.2
595.3
44.1
75.7*
119/ 0
94/622
26
89
74
20.5
8/ 29
9/150
5
107
69
23.6
I/ 1
46/235
11
97
73
22.5
5/ 2
39/214
5
197
71
22.8
3/ 1
85/641
7
104
46
27.9
8/ 20
10/221
6
- 95
39
23.9
I/ 26
51/214
7
133
40
22.4
I/ 12
33/233
6
130
40
22.1
5/ 26
94/735
7.1
9.6
8.1
0.79
30/ 5
10/214
5.2
9.5
8.0
9.87
I/ 4
51/242
6.5
9.9
7.6
0.78
19/ 2
32/224
5.2
9.9
7.9
0.84
2/ 7
93/732
6.4
10.0
8.5
1.25
21/ 62
10/162
4.2
15.2
7.3
2.12
8/ 2
50/236
4.0
10.1
7.3
1.36
5/13
31/226
4.0
15.2
7.5
1.84
19/ 4
91/739
13.4
28.9
22.1
6.64
71/ 0
10/177
22.9
31.5
27.5
2.00
ll/ 1
51/234
13.5
27.2
21.9
3.46
2/ 3
32/241
12.4
31.5
25.3
4.27
73/ 1
93/666
0.014
0.529
0.131
0.1566
22/ 11
10/216
9.010
1.599
0.134
0.2329
14/ 1
51/232
0.012
1.382
0.177
0.2809
19/ 4
33/223
0.010
1.599
0.146
0.2435
37/ 5
94/730
0.002
0.380
0.045
0.1177
10/ 9
10/230
0.003
0.949
0.047
0.1390
9/ 2
51/236
0.005
1.255
0.397
0.2349
IS/ 1
33/229
0.002
1.255
3.064
0.1768
14/ 1
94/726
0.071
2.582
0.419
0.7654
3 1/ 22
10/196
0.027
3.151
0.404
3.6704
I/ 7
51/239
0.024
1.959
0.334
0.5149
6/ 4
33/236
0.024
3.151
0.371
0.6261
6/ 25
94/711
0.046
0.099
0.076
0.0155
34/ 76
10/139
0.340
0.199
0.102
3.0468
4/ 24
51/219
0.032
3.373
0.132
0.0792
2/ 10
33/23*
0.032
0.373
0.399
0.0585
11 2*
94/711
0.305
2.549
3.819
0.7559
31/ 11
10/207
3.332
5.699
1.472
1.1903
12/ 3
51/232
0.254
4.099
1.180
0.8958
10/ 6
33/230
0.254
5.699
1.330
1.0674
23/ 5
94/714
10
227
51
67.8
O/ 3
10/246
13
180
59
44.4
O/ 20
51/227
13
167
61
45.9
28/ 24
33/194
10
227
59
47.3
C/ 22
94/720
0.0
42.0
10.3
11.82
O/ 30
10/219
'
0.0
101.0
9.2
18.23
O/ 4
51/243
0.0
44.0
5.2
7.99
O/ 12
33/234
0.0
101.0
7.9
14.77
O/ 9
94/733
0 0.0
162 1.5
29 0.4
51.5 0.57
0 0.0
385 1.5
43 0.2
77.4 0.33
0 0.0
32S 0.7
36 0.2
67.7 3.24
0 C.O
385 1.5
1« 3.2
71.3 0.33
-------
GENUS: TRIBONEMA
CHLA
TURB SECCHI
PARTIAL DEPTH VALUES
DO TEMP TOT1LP ORTHOP N02NO3 NH3
KJEL AlK
CONC PERC
R
0 0
U 1 C
H C
0
R N
0 0
U 1 N
N 0
0 C
C
R
C D
0 I C
N C
0
» N
C 0
U 2 N
N 0
D C
C
R
r o
U3C
N f
D
R N
o o
U 3 N
N C
0 C
C
•
r i o
U I C
N L C
0
R N
'f A 0
0 L N
N L 0
0 C
C
"IN
MAX
MEAN
STOV
N>
C/HR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
CYWR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
*>
0/HR
MIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
C/HR
MIN
MAX
MEAN
STOV
N>
O/WR
0.3
355.6
21.0
41.40
O/ 0
247/2*7
2.5
2.5
2.5
0.00
7/239
I/ 1
1.4
595.0
34.6
62.68
O/ 0
246/247
0.8
241.4
23.2
34.27
3f 3
247/247
2.5
2.5
2.5
0.09
46/693
I/ 2
0.3
595.0
26.2
47.95
O/ 0
740/741
6
100
71
20.6
O/ 0
187/187
89
89
89
0.0
176/ 54
I/ 7
4
121
72
24.0
O/ 0
236/237
1
100
74
23.1
3/ 0
221/221
89
89
89
0.0
479/146
It 20
1
121
72
22,7
9/ 0
644/645
2 5.3 0.7 6.8
252 10.6 19.2 28.9
44 7.9 9.0 17.5
36.2 0.73 2.02 5.59
0/0 0/0 0/0 0/0
249/249 249/249 245/245 248/248
42 7.2 6.7 29.8
42 7.2 6.7 29.8
42 7.2 6.7 29.8
0.0 0.00 0.30 0.00
136/100 55/185 111/127 23 I/ 11
1/5 1/7 1/8 1/4
1 4.1 3.0 17.3
222 10.6 17.8 32.2
49 7.8 7.0 26.6
35.9 0.89 1.99 2.34
0/0 0/0 0/0 0/0
240/241 246/247 245/246 245/246
6 4.7 1.6 9.3
185 10.3 13.5 29.6
50 7.6 7.3 20.4
35.3 0.84 1.61 3.25
9/3 0/0 0/3 0/0
246/246 2*5/2*5 241/241 246/246
42 7.2 6.7 29.8
42 7.2 6.7 29.8
42 7.2 6.7 29.8
0.0 0.00 0.00 0.00
430/296 171/549 210/531 725/ 11
I/ 10 I/ 21 1/21 1/4
1 4.1 3.1 6.8
252 10.6 19.2 32.2
48 7.8 7.8 21.5
J5.7 0.83 2.07 5.49
3/0 0/0 0/0 0/0
735/736 740/741 731/732 739/740
0.004
1.719
0.123
0.2314
O/ 0
2*9/249
0.015
0.015
0.415
0.0000
31/208
I/ 8
0.004
2.559
0.135
0.2816
O/ 0
246/247
0.004
4.549
0.155
0.4091
O/ 3
246/246
0.015
0.315
0.015
0.0000
86/645
I/ 11
0.004
4.549
0.137
0.3159
o/ a
741/742
0.001
1.209
0.057
0.1642
O/ 0
249/249
0.003
0.003
0.033
0.0300
9/225
I/ 13
0.301
1.191
0.053
0.1482
O/ 0
246/247
3.031
2.009
0.070
0.2088
3/ 0
245/245
0.333
3.093
0.003
0.0000
38/672
I/ 31
0.001
2.099
0.060
0.1754
O/ 0
7*3/741
0.02*
9.745
0.870
1.4754
O/ 0
249/249
0.051
0.051
0.050
0.0000
25/220
I/ 2
0.925
6.857
0.495
0.8850
O/ 0
246/247
9.317
4.469
0.342
0.5*77
O/ 0
246/246
0.051
3.051
0.950
0.0000
105/631
\l 6
0.017
9.745
0.570
1 . 0666
O/ O
741/742
0.022
0.635
0.107
0.0953
O/ 0
249/249
0.076
0.076
0.075
0.0000
77/167
I/ 3
0.034
0.719
0.120
0.0879
O/ 0
246/247
0.020
3.024
0.122
0.2232
O/ 0
246/246
O.O76
0.076
0.075
0.0000
328/409
I/ 5
0.020
3.024
0.116
0.1488
O/ 0
741/742
0.199
4.699
0.796
0.6975
O/ O
249/249
0.625
0.625
0.625
0.0000
87/159
I/ 1
0.215
7.149
1.219
1.9793
O/ 0
246/247
0.199
8.199
1.118
1.0572
O/ 0
246/246
0.625
0.625
0.625
0.0000
317/422
I/ 3
0.199
8.199
1.043
0.9755
Of 0
741/742
10
248
70
67.3
01 3
249/249
11
11
11
0.0
18/220
If 9
10
334
74
68.9
Of 3
246/247
10
291
73
64.1
O/ 0
246/246
11
11
11
0.0
74/649
If 19
10
334
72
66.7
O/ O
741/742
0.0
142.0
18.6
25.14
O/ 0
249/249
8.0
8.0
8.0
0.93
138/ 99
I/ 10
3.0
210.0
14.1
23.81
9/ 0
246/247
0.0
90.0
9.6
14.87
01 0
246/2*6
8.0
6.0
8.0
0.00
417/302
I/ 23
0.0
210.0
14.1
22.05
O/ 0
7*1/742
0
0
0
0.3
20
20
20
0.0
3
0
0
0.0
0
3
0
0.0
20
20
20
O.J
0
0
0
3.3
0*0
0.0
0.0
0.00
9.8
0.8
0.8
0.00
0.0
0.3
0.0
O. 00
0.0
0.0
0.9
0.00
0.8
0.8
0.8
O.JO
0.0
0.0
0.0
0.00
-------
GENUS ITRIBONEMA
00
vo
CHLA
TUDB SECCHI
m
DO
PARTIAL DEPTH VALUES
TOTALP ORTHOP N02N03 NH3
KJEL ALK
N/P
CONC PERC
R "IN
0 0 MAX
u i o MEAN
N N STDV
0 N>
0/HR
* N HIM
C O MAX
U I N DEAN
N 0 STDV
0 0 H>
N O/MR
R MIN
O 0 MAX
U 2 0 MEAN
N * STDV
D N>
0/UR
• N MIN
0 0 MAX
U 2 N MEAN
N 0 STDV
0 0 N>
X 0/HR
R Mil
0 D MAX
U 3 0 MEAN
N <« STOV
0 N>
2.5 89 42
2.5 89 42
2.5 89 42
0.00 0.0 0.0
7/239 176/ 54 136/100
1/1 1/7 1/5
0
\t
,/
7.2
7.2
7.2
.00
185
7
6.7
6.7
6.7
0.00
111/127
I/ 8
29.8
29.8
29.8
0.00
231/ 11
I/ 4
0.015
0.015
0.315
0.0000
31/208
I/ 8
0.003
0.003
0.003
O.OOOO
9/225
I/ 13
0.051
0.051
0.050
0.0000
25/220
I/ 2
0.076
0.076
0.075
0.0000
T7/167
I/ 3
0.625
0.625
0.625
0.0000
87/159
I/ 1
11
11
11
0.0
18/220
I/ 9
0
138/
I/
8.0
8.0
8.0
.00
99
10
20 O.8
20 0.8
20 0.8
3.0 0.00
• N MIN
C 0 M4X
U 3 N MMN
N 0 STDV
D 0 N>
t C/WR
R MIN
0 A D MAX
U L C "FAN
N L «t STOV
0 N>
r/wft
t
0*
L N
L 0
0
MK
""AX
HEAN
STDV
0/WR
2.5 89
2.5 89
2.5 89
0.00 0.0
>/693 479/146
/ 2 1/20
42
42
42
0.0
430/296
I/ 10
7.2
7.2
7.2
0.00
171/549
I/ 21
6.7
6.7
6.7
0.00
210/501
I/ 21
2S.8
29.8
2f. 8
0.30
725/ 11
I/ 4
0.415
0.015
0.015
0.0000
86/645
1/11
0.003
0.003
0.003
0.0000
38/672
If 31
0.051
0.051
0.050
0.0300
105/631
I/ 6
0.076
0.076
0.075
0.0000
328/439
If 5
3.625
3.625
0.625
9.0000
317/422
I/ 3
11
11
11
0.0
74/649
If 11
8.0
8.3
8.0
0.00
417/302
I/ 23
23 O.e
23 3.8
20 0.6
0.0 0.00
-------
vo
o
CENUSi TKOCHISCU
CHLA
TURB SECCHI
PH
PARTIAL DEPTH VALUES
00 TSMP TOTALP ORTHOP N02N03 NH3
KJEL ALK
N/P
CONC PERC
(I
C 0
U 1 C
N C
D
* N
C 0
U 1 N
N 0
0 C
C
K
0 0
u 2 e
N C
D
• N
C 0
U 2 N
N 0
0 C
C
*
C 0
U 3 C
N C
0
*u
n
0 0
U 3 N
N 0
0 C
C
•
C » 0
U I C
NIC
D
* N
010
U L N
N L 0
D C
C
MIN
MAX
MEAN
STOV
N>
0/MR
MIN
MAX
MEAN
STOV
N>
0/M*
MIN
MAX
MEAN
STOV
N>
0/M*
MIN
MAX
MEAN
STOW
N>
0/M*
MIN
MAX
MEAN
STPV
N>
0/MR
MTM
^ in
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
0/M*
MIN
WAX
MEAN
STOV
N>
0/M*
0.3
355.6
21.0
*1.*0
01 0
2*7/2*7
1.*
595.0
3*.*
62.5*
O/ 0
2*7/ 2*7
10.8
198.9
78.9
103.50
126/ 2
3/119
Om
• O
2*1. *
22.5
37.58
O/ 0
244/2*7
10.8
196.0
78.9
103.50
383/ 11
3/3*7
0.3
595.0
26.0
47.60
O/ 0
738/7*1
6
100
71
20.6
O/ 0
187/187
*
121
72
2*.0
O/ 0
237/237
*5
91
75
25.7
28/ *2
3/151
*
100
7*
23.1
O/ 0
218/221
*S
91
75
25.7
87/10*
3/*5*
1
121
72
22.7
o/ e
6*2/6*5
2
252
**
36.2
O/ 0
2*9/2*9
1
222
*9
35.8
O/ 0
2*1/2*1
18
57
37
19.6
28/ 69
3/1*9
185
51
35.1
O/ 0
2*3/2*6
18
57
37
19.6
99/196
3/**l
1
252
*8
35.8
O/ 0
733/736
5.3 0.7 6.8 0.00* 0.001 0.02*
10.6 19.2 28.9 1.719 1.2O9 9.7*5
7.9 9.0 17.5 0.123 0.057 0.870
0.73 2.02 5.59 0.231* 0.16*2 l.*75*
0/0 0/0 0/0 0/0 0/0 0/0
2*9/2*9 2*5/2*5 2*8/2*8 2*9/2*9 2*9/2*9 2*9/2*9
4.1 3.0 17.3 0.00* O.O01 0.025
10.6 17.8 32.2 2.559 1.191 6.857
7.8 7.9 26.6 0.13* 0.053 9.*9S
0.89 1.98 2.35 0.2811 0.1*79 0.8836
0/0 0/0 0/0 0/0 0/0 0/0
2*7/2*7 2*6/2*6 2*6/2*6 2*7/2*7 2*7/2*7 2*7/2*7
8.* 6.9 14.8 0.033 0.011 0.039
8.7 13.5 19.9 0.422 0.132 0.566
8.6 9.3 17.9 0.209 0.067 9.215
0.15 3.65 2.70 0.1969 0.9608 9.333*
199/ 17 89/ 0 S/129 79/ 16 90/ 21 *5/ **
3/ 29 3/152 3/112 3/151 3/13* 3/157
10.3 12.7 29.6 4.549 2.009 4.469
7.6 7.3 20.5 0.15* 0.070 0.3*3
0.83 1.57 3.2* 0.4112 0.2190 9.5502
0/0 0/1 0/3 0/0 0/9 9/0
2*2/2*5 238/2*0 2*3/2*6 2*3/2*6 2*2/2*5 2*3/2*6
8.* 6.9 14. « 0.033 0.011 0.039
8.7 13.5 19.9 0.422 0.132 0.566
8.6 9.3 17.9 0.209 0.067 0.215
9.15 3.65 2.70 0.1969 0.9608 0.303*
57*/ 51 2*5/ 7 115/455 2*3/ *7 325/ 59 64/181
3/109 3/480 3/170 3/452 3/357 3/497
A.I 0.7 6.8 0.00* 0.001 0.017
10.6 19.2 32.2 4.549 2.099 9.7*5
7.7 7.8 21.5 0.137 0.060 0.571
0.83 2.06 5.50 0.3161 0.1756 1.0678
0/0 0/0 0/0 0/0 0/0 0/0
738/7*1 729/732 737/7*0 739/7*2 738/7*1 739/7*2
0.022
0.635
0.107
0.0953
01 0
2*9/2*9
0.03*
0.719
0.120
0.0878
O/ 0
2*7/2*7
0.036
0.1*9
0.082
0.0591
9/ 45
3/192
rt rt7/l
U* v£v
3.02*
0.123
0.22**
O/ 0
2*3/2*6
0.036
0.1*9
0.082
0.0591
27/1*0
3/575
0.020
3.02*
0.116
0.1*90
O/ 0
739/7*2
0.199
4.699
0.796
0.6975
O/ 0
2*9/2*9
0.215
7.1*9
1.217
1.0778
01 0
2*7/2*7
1.065
2.57*
1.820
0.75*5
158/ 19
3/ 69
01 QQ
. l^Tf
8.199
1.110
1.0586
O/ 0
2*3/2*6
1.065
2.57*
1.820
0.75*5
ill/ 51
3/180
0.199
8.199
1.0*0
0.97*8
O/ 0
739/7*2
10
248
73
67.3
O/ 9
2*9/2*9
10
33*
73
68.9
O/ 9
2*7/2*7
152
2*1
186
47.9
213/ 3
3/ 30
1 rt
1 I*
291
71
63.0
O/ 0
2*3/2*6
152
2*1
186
*7.9
628/ 13
3/101
10
33*
72
66.4
O/ 0
739/7*2
0.0
142.0
18.6
25.1*
Of 0
2*9/2*9
0.0
210.0
l*.l
23.76
O/ 0
2*7/2*7
1.0
3.0
1.7
1.15
13/153
3/ 80
On
. V
90.0
9.7
14.94
Of 0
2*3/2*6
1.0
5.0
1.7
1.15
32/53*
3/176
0.0
210.0
1*.2
22.07
O/ 0
739/7*2
0
0
0
0.0
0
0
0
0.0
9
0
o
0.0
0
0
0.0
0
0
0
0.0
0
0
0
0.0
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
Ort
. u
0.0
0.0
0.00
o.o
0.0
0.0
0.00
0.0
0.0
0.0
0.00
-------
«ENOSiT«OCHISCIA
CHLA
SECCHI
PARTIAL DEPTH VALUES
00 TEMP TOTALP ORTHOP NQ2N03
NH3
KJEL ALK
N/P
R NIN
0 D MAX
u i c MEAN
N N STOV
0 N>
0/MR
R N KIN
0 0 MAX
u i N MEAN
N 0 STDV
D 0 N>
N 0/MR
R MIN
0 0 MAX
u 2 o MEAN
N M STOV
0 N>
0/NR
• N MIN
C 0 MAX
o 2 i MEAN
N 0 STOV
0 0 *>
M 0/UR
« MIN
0 D MX
U 3 0 MEAN
K M STOV
0 N>
0/ta*
» N MIN 10.6 45 18 8.4 6.9 14.8 0.033 0.011
0 0 MAX 198.9 91 57 8.7 13.5 14.9 0.422 3.132
U 3 N MEAN 78.9 75 37 8.6 9.3 17.9 0.299 0.067
N 0 STOV 103.50 25.7 19.6 0.15 3.65 2.70 0.1969 0.0608
D 0 N> 126/ 2 28/ 42 28/ 69 199/ 17 89/ 0 5/129 79/ 16 90 / 21
M 0/*« 3/1W 3/151 3/149 3/ 29 3/152 3/112 3/151 3/134
C A 0 PAX
U L C MEAN
N L M $T-?V
0 N>
0/MR
* H MIN 13.8 45 18 8.4 6.9- 14.8 0.033 0.011
C A 0 MAX 198.3 91 57 8.7 13.5 19.9 0.422 0.132
U L N M5AN 78.9 75 37 8.6 9.3 17.9 0.239 3.067
N L 0 STDV 103.50 25.7 19.6 0.15 3.65 2.70 0.1969 0.0608
0 "• N> 38 3/ 11 87/104 99/196 574/ 58 245/ 7 115/455 243/ 47 325/ 59
S 0/WR 3/347 3/454 3/441 3/13* 3/480 3/173 3/452 3/357
0.039 0.036
0.566 0.149
0.215 0.082
0.3034 0.0591
4S/ 44 9/ 45
3/157 3/192
0,039 0.036
0.566 0.149
3.215 3.382
0.3034 0.0591
64/181 27/140
3/49T 3/375
1.065 152 1.0
2.574 241 3.0
1.820 186 1.7
0.7545 47.9 1.15
158/ 19 213/ 3 13/153
3/ 69 3/ 30 3/ 80
1.065 152
2.574 241
1.820 186
0.7545 47.9
ill/ 51 628/ 13
3/180 3/101
1.0
3.0
1.7
1.15
32/534
3/176
CONC PEKC
0 0.0
0 0.0
3 0.3
9.3 0.33
0 0.0
0 0.0
3 3.3
3.3 3.33
-------
GENUS: ULOTHRIX
VO
ro
CHLA
TUPB SECCHI
PARTIAL DEPTH VALUES
00 TE*P TOTALP ORTHOP N02N03 NH3
KJEL ALK
N/P
CONC PERC
*
C 0
U 1 C
M C
0
R N
0 O
U 1 N
N 0
P C
C
R
t> 1)
U 2 C
N C
D
R N
0 0
0 2 N
N n
0 C
C
•
o a
U 3 C
N C
0
R N
C 0
U 3 N
N 0
0 C
C
R
C * 0
U L C
N L C
0
» N
r A o
U L N
N L 0
D C
C
KIN
MAX
MEAN
STOV
N>
0/WR
HIM
HAX
MEAN
STPV
N>
O/WR
HIN
MAX
MEAN
STOV
N>
0/WR
MIN
MAX
MEAN
STDV
N>
0/WR
KIN
MAX
MEAN
STOV
N>
0/WR
HIN
MAX
MEAN
STOV
N>
C/WR
MIN
MAX
MEAN
STOV
N>
C/WR
MIN
MAX
MEAN
ITOV
N>
0/WR
0.5
8.1
*.3
5.37
1/121
2/125
0.3
355.*
21.1
41.5*
Of 0
2*5/2*7
2.7
2.7
2.7
0.00
9/237
I/ 1
1.*
595.0
34.6
62.66
O/ 0
2*6/2*7
0.8
2*1.*
23.2
3*. 27
O/ 0
2*7/2*7
0.5
8.1
3.8
3.91
l/*35
3/305
0.3
595.3
26.3
*6.90
o/ a
738/7*1
70 25 7.2 7.5 10.6 0.01*
78 *3 8.3 10.7 26.8 O.OS7
7* 3* 7.7 9.1 19.7 0.035
5.7 12.7 0.78 2.26 12.87 0.030*
7*/ 81 90/ 82 37/ 59 39/ 32 15/ 1 22/123
2/ 32 2/ 77 2/153 2/17* 2/232 2/10*
6 2 5.3 0.7 6.8 0.09*
100 252 10.6 19.2 28.9 1.719
71 ** 7.9 9.0 17.5 0.123
20.7 36.3 0.73 2.02 5.55 0.2322
0/0 0/0 0/0 0/0 0/0 0/0
185/187 2*7/2*9 2*7/2*9 2*3/2*5 2*6/2*8 2*7/2*9
85 36 5.5 5.8 31.* 0.015
85 36 5.5 5.1 31.* 0.015
85 36 5.5 5.8 31.* 0.015
0.0 0.0 0.00 0.00 0.00 O.OOOO
1*6/ 8* 110/126 2/2*2 58/182 2*3/ 2 31/208
1/7 1/5 1/3 1/6 1/1 1/8
* 1 *. 1 3.0 17.3 0.00*
121 222 10.6 17.8 32.2 2.559
72 *9 7.8 7.0 26.6 0.135
2*.0 35.9 0.88 1.98 2.33 0.2816
0/0 9/0 0/0 0/0 0/0 0/0
236/237 2*0/2*1 2*6/2*7 2*5/2*6 2*5/2*6 2*6/2*7
1 6 4.7 1.6 9.0 0.00*
100 185 10.3 13.5 29.6 *.5*9
7* SO 7.6 7.3 20.* 0.155
23.1 35.1 0.8* 1.61 3.25 0.4091
0/0 0/0 0/0 0/0 0/0 0/0
221/221 2*6/2*6 2*5/2*5 2*1/2*1 2*6/2*6 2*6/2*6
70 25 5.5 5.8 10.6 O.M*
85 43 8.3 10.7 31.* 0.057
78 35 7.0 8.0 23.6 0.028
7.5 9.1 1.41 2.49 11.33 0.02*5
210/226 198/288 5/167 105/ *7 16/ 2 77/352
3/299 3/250 3/569 '/SBO 3/722 3/313
1 1 4.1 0.7 6.8 0.004
121 252 10.6 19.2 32.2 4.5*9
72 48 7.8 7.8 21.5 0.138
22.8 35.8 0.82 2.07 5.47 0.3163
0/0 0/00/0 0/0 0/0 0/0
6*2/6*5 733/736 738/7*1 729/732 737/7*3 739/7*2
0.001
0.009
0.005
0.0056
0/1*0
2/109
0.001
1.209
0.057
0.16*6
O/ 0
2*7/2*9
0.006
0.006
0.005
0.0000
62/168
I/ 17
0.091
1.191
0.053
0.1*82
O/ 0
2*6/2*7
0.901
2.009
0.070
3.2088
O/ 0
2*5/2*5
3.001
3.009
9.005
O.00*0
0/440
3/301
0.001
2.039
0.060
0.1756
O/ 0
738/7*1
0.15*
0.797
0.*75
0.45*6
72/ 68
2/109
0.02*
9.7*5
0.873
1.4807
O/ 0
2*7/2*9
0.105
0.105
0.10*
O.OOOO
88/156
I/ 3
0.025
6.857
0.495
0.8851
O/ 0
246/2*7
0.017
*.*69
0.3*2
0.5*77
O/ 0
2*6/2*6
0.105
0.797
0.351
0.3861
260/1*5
3/337
0.017
9.7*5
0.570
1.0679
O/ 0
739/742
0.0*1
0.0(6
0.063
0.0318
25/ 99
2/125
0.022
0.635
0.107
0.09S6
O/ 0
2*7/2*9
0.129
0.129
0.128
0.0000
17*/ 70
I/ 3
0.03*
0.719
0.119
0.0880
O/ 0
2*6/2*7
0.020
3.02*
0.122
0.2232
O/ 0
2*6/2*6
0.0*1
0.129
0.065
0. 0*40
51/178
3/513
0.020
3.024
0.116
0.1*90
O/ 0
739/7*2
0.207
0.753
0.*79
0.3860
I/ 85
2/163
0.199
*.699
0.798
0.6993
Of 0
2*7/ 2*9
O.*10
0.410
0.409
O.OOOO
29/216
I/ 2
0.215
7.1*9
1.220
1.0787
O/ 0
2*6/2*7
0.199
8.199
1.118
1.0572
O/ 0
2*6/2*6
0.207
0.753
0.*56
0.2759
3/361
3/378
0.199
8.199
1.9*5
0.9761
O/ 0
739/7*2
10
18
1*
5.7
0/166
2/ 83
10
2*8
70
67.*
O/ 0
2*7/2*9
10
10
10
0.0
0/229
I/ 18
10
33*
7*
68.9
O/ 0
2*6/2*7
10
291
73
64.1
O/ 0
2*6/2*6
10
18
13
4.6
0/5*7
3/195
10
33*
72
66.7
O/ 0
739/7*2
4.0
56.0
30.0
36.77
SI/ 20
2/178
0.0
1*2.0
18.5
25.11
O/ 0
247/249
15.0
15.0
15.0
0.00
192/ 48
I/ 7
0.0
210.0
14.1
23.81
O/ 0
2*6/2*7
0.0
90.0
9.6
14.87
O/ 0
2*6/2*6
4.0
56.0
25.0
27.40
20 8/ 42
3/492
0.0
'210.0
l*.l
22.02
O/ 0
739/7*2
0
0
0
0.0
0
0
0
0.0
45
45
45
0.0
0
0
0
0.0
0
0
0
0.0
0
45
15
26.0
O
0
0
0.0
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.7
0.7
0.7
0.00
0.0
0.0
0.0
o.oj
0.0
0.9
0.0
0.00
0.0
0.7
0.2
0.41
0.0
0.0
0.0
9.00
-------
GtNUSlULOTHMX
CO
CHLA
TURB SGCCHI
m
DO
TEW
PARTIAL DEPTH VALUES
TOTALP OUT HOP N02N03
NH?
KJEL ALK
N/P
CONC PERC
R MIN
0 0 MAX
U 1 0 MEAN
N M STDV
0 N>
0/HR
• N MIN
0 0 MM
U 1 N MEAN
N 0 STOV
0 0 N>
M O/UR
R MIN
0 0 MAX
U 2 0 MEAN
N M~ STOV
0 N>
0/MR
R N MIN
0 0 MAX
U 2 N MEAN
N 0 STOV
0 O N>
M 0/NR
R MIN
0 0 MAX
U 3 0 MEAN
N M STDV
0 N>
O/UR
R N MIN
0 O MAX
u 3 N MEAN
N 0 STDV
0 0 N>
H C/W«
• MIN
0 A 0 MAX
U L 0 MEAN
N L •« STOV
0 N>
0/HR
• N MIN
0 A 0 "AX
U L N MEAN
N L 0 STDV
3 0 *>
•4 0/MR
0.3
8.1
4.3
5.37
1/121
2/129
2.1
2.1
2.7
0.00
9/237
I/ 1
0.5
6.1
3.8
3.91
1/435
3/305
70
78
74
5.7
74/ 81
2/ 32
85
85
85
0.0
146/ 84
I/ 7
70
85
78
7.5
219/226
3/209
25
43
34
12.7
90/ 82
2/ 77
36
36
.36
0.0
110/126
I/ 5
25
43
35
9.1
198/288
3/250
7.2
8.3
7.7
0.78
37/ 39
2/153
5.5
5.5
5.5
0.00
2/242
I/ 3
5.5
a. 3
7.0
1.41
5/167
3/569
7.5
10.-7
9.1
2.26
39/ 32
2/174
5.8
5.8
5.8
0.03
58/182
I/ 6
5.8
10.7
t.3
2.49
105/ 47
3/580
1O.6
28.8
19.7
12.87
15/ 1
2/232
31.4
31.4
31.4
0.00
243/ 2
I/ 1
10.6
31.4
23.6
11.33
16/ 2
3/722
0.014
0.057
0.03!
0.0304
22/123
2/104
0.015
0.015
0.015
3.0000
31/238
I/ 8
0.014
0.057
0.328
0.0245
77/352
3/313
0.001
0.009
0.005
0.0056
0/140
2/109
0.006
0.006
0.005
0.3000
62/168
I/ 17
0.001
0.039
0.005
0.0040
0/440
3/301
0.154
0.797
0.475
0.4546
72/ 68
2/109
0.105
0.105
0.104
3.0000
88/156
I/ 3
0.105
0.797
0.351
0.3861
260/145
3/337
0.041
0.086
0.063
0.0318
25/ 99
2/125
0.129
0.129
0.128
0.0000
174/ 70
I/ 3
0.041
3.129
0.08 5
0.0440
51/178
3/513
0.207
0.753
0.479
0.3860
I/ 85
2/163
0.410
0.410
0.409
0.0000
29/216
If 2
0.207
0.753
0.456
0.2759
3/361
3/378
10
18
14
5.7
0/166
2/ 83
10
10
10
0.0
0/229
I/ 18
10
18
13
4.6
0/547
3/195
4.0
56.0
30.0
36.77
SI/ 20
2/178
15.0
15.0
15.0
0.00
192/ 48
I/ 7
4.0
56.0
25.0
27.40
206/ 42
3/492
0 0.0
0 0.0
0 0.0
0.0 0.00
45 0.7
45 0.7
45 0.7
O.O 0.00
0 0.0
45 0.7
IS 0.2
26.9 3.41
-------
GENUS* VOLVOX
10
CHLA
TUP-B SECCHI
PH
DO
T«MP
PARTIAL DEPTH VALUES
TOTALP ORTHOP N02N03 NH3
KJEL ALK
N/P
CONC PERC
K
0 0
u i c
N C
0
ft N
0 0
U 1 N
N 0
0 C
C
II
c o
U 2 C
N C
D
ft N
0 0
U Z N
N 0
D C
C
ft
C 0
U 3 C
1 C
0
* N
r o
U 3 N
N P
D C
C
*
0 A 0
IT L C
N L C
D
ft N
0*0
U L N
N L 0
0 C
C
HIM
MAX
DEAN
STOV
N>
o/wt
HIM
MAX
MEAN
STDV
M>
0/MR
MIN
H«X
MEAN
STDV
N>
o/w*
MIN
MAX
MEAN
STOV
N>
0/MR
MIN
MAX
MCAS
STDV
N>
0/WR
MIN
MAX
MEAN
STDV
N>
0/H»
NIM
MAX
MEAN
STOV
N>
o/wi
MIH
KAX
MEAN
STOV
N>
0/Wft
0.3
355.6
21.0
41.40
O/ 0
2*7/2*7
20.1
20.1
20.1
0.00
US/ 81
I/ 1
1.*
505.0
3*. 5
£2.70
O/ 0
2*6/2*7
o.a
2*1.*
23.2
3*.27
at o
2*7/2*7
20.1
20.1
20.1
- 0.00
527/213
I/ 1
0.3
595.0
26.2
47.96
91 3
7*0/7*1
6
100
71
20.6
O/ 0
187/187
91
91
91
0.0
185/ *1
I/ 11
*
121
72
2*.0
O/ 0
236/237
1
100
7*
23.1
3/ 0
221/221
91
91
91
0.0
517/104
I/ 2*
1
121
72
22.7
O/ 9
6*4/6*5
2 5.3 0.7 6.( 0.00*
252 10.6 19.2 28.9 1.719
** 7.9 9.0 17.5 0.123
36.2 0.73 2.02 5.59 0.231*
0/0 0/0 0/0 0/0 0/0
2*9/2*9 2*9/2*9 2*5/2*5 2*8/2*1 2*9/2*9
72 8.1 9.8 27.0 0.080
72 8.1 9.8 27.0 0.080
72 8.1 9.8 27.0 0.080
0.0 0.00 O.OJ 0.00 0.0009
192/ ** 151/ 83 22 O/ 14 136/109 162/ 83
I/ 5 I/ 13 1/2 1/1 1/2
1 4.1 3.0 17.3 0.004
222 10.6 17.8 32.2 2.559
49 7.8 7.3 26.6 0.135
35.8 0.84 1.98 2.35 0.2817
0/0 0/0 0/0 0/0 0/0
240/2*1 2*6/2*7 2*5/2*6 2*5/2*6 246/2*7
6 4.7 1.6 9.0 0.00*
185 10.3 13.5 29.6 4.5*9
50 7.6 7.3 20.4 0.155
35.0 0.84 1.61 3.25 0.4091
9/9 0/0 0/0 0/0 0/9
246/246 245/245 241/241 246/246 246/246
T2 8.1 9.8 27.9 0.389
72 8.1 9.8 27.0 0.080
72 8.1 9.8 27.0 0.080
9.0 0.00 0.00 0.00 O.OOOO
593/130 463/242 630/ 97 609/127 467/271
I/ 13 I/ 36 I/ 5 I/ 41/4
1 4.1 .1.7 6.8 0.004
252 13.6 19.2 32.2 4.549
48 7.8 7.8 21.5 0.137
35.7 0.83 2.07 5.49 0.3159
0/0 0/0 0/0 0/0 0/0
735/736 740/741 731/732 739/740 741/742
0.001
1.209
0.057
0. 1642
O/ 0
249/2*9
0.021
0.021
0.021
0.0090
171/ 74
I/ 2
0.001
1.191
0.053
0.1482
O/ 0
246/247
0.001
2.009
0.070
0.2088
O/ 0
245/245
3.021
0.021
0.021
0.0000
473/259
I/ 9
0.001
2.009
0.060
0.1754
O/ 0
740/741
0.024
9. 745
0.870
1.4754
O/ 0
249/249
0.054
0.054
0.054
9.9930
28/216
I/ 3
0.025
6.857
0.495
3.8850
3/ 0
246/247
0.317
4.469
0.342
0.5477
O/ 0
246/246
0.054
0.354
0.054
O.OOOO
115/620
I/ 7
0.017
9.745
0.570
1.0666
Of 0
741/742
0.022
0.635
0.107
0.0953
O/ 0
249/249
0.084
0.084
0.084
0.0000
95/148
I/ 4
0.034
0.719
0.120
3.0879
O/ 0
2*6/247
0.020
3.024
0.122
0.2232
O/ 0
246/246
0.084
0.084
0.384
O.OOOO
383/350
I/ 9
0.020
3.024
0.116
0.1488
O/ 0
741/742
0.199 10
4.699 248
0.796 70
0.6975 67.3
0/0 0/0
249/249 249/249
1.000 34
1.000 34
1.000 34
0.0000 9.0
138/108 96/149
1/1 1/2
0.215 10
7.149 334
1.218 74
1.0799 69.0
0/0 0/3
246/247 246/247
0.199 10
8. 199 291
1.118 73
1.0572 64.1
0/0 0/0
246/246 246/246
1.000 34
1.300 34
1.000 34
O.OOOO O.O
480/254 300/435
1/8 1/7
0.199 10
8.199 334
1.343 72
0.9756 66.8
O/ 0 O/ 0
741/742 741/742
0.0
142.0
18.6
25.14
O/ 0
249/249.
2.0
2.0
2.0
0.00
28/293
I/ 16
0.0
210.0
14.1
23.80
9/ 0
246/247
0.0
90.0
9.6
14.87
O/ 0
246/2*6
2.0
2.0
2.0
o.oo
15/596
If 51
0.0
210.0
14.1
22.05
O/ 0
741/742
0
0
0
0.0
0
0
0
0.0
0
0
0
0.0
0
0
0
0.0
0
0
0
0.0
0
0
0
0.0
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.90
0.0
0.0
0.0
0.90
-------
CENUSIVOLVOX PARTIAL DEPTH VALUES
CHLA TW»B SECCHI PH DO TEMP TOT ALP ORTHOP N02N03 NH3 KJEL ALK N/P CONC PERC
* HTM
0 0 HAX
U 1 0 MEAN
N •< STOV
B tK/>
0/UK
ft N HIM
C 0 KAX
U 1 * HUM
N D STOV
C «! *>
« O/t««
P HIM
0 D MAX
U 2 0 MMN
•I " STOV
0
R N HIM 20.1 91 72 8.1 9.8 27.O O.OSO 0.021 O.054 0.084 1.000 34 2.0 0 0.0
0 0 ft* 20.1 91 72 8.1 9.8 27.9 0.080 0.021 0.054 0.084 1.000 34 2.0 0 0.0
U 2 N MEAN 20.1 91 72 8.1 9.8 27.0 0.080 0.021 O.OS4 0.084 1.000 34 2.0 3 0.0
N 0 STOV 0.00 0.0 0.0 0.00 0.00 0.00 0.0000 0.0000 0.0000 0.0000 0.0390 3.0 0.00 0. 3 3.30
J£ DO N> US/ 81 185/ 41 192/ 44 151/ 83 230/ 14 136/109 162/ 83 171/ 74 28/216 95/148 138/108 96/149 28/203
*** " C/W« I/ I I/ 11 I/ 5 I/ 13 1/2 1/1 1/2 1/2 1/3 1/4 I/ I 1/2 I/ 1«
f HW
0 0 NAX
U 3 0 •'CAN
N * JTDV
0 *>
0/wft
• N «IN
>• 1 "AX
U 3 M «f AN
N 0 STDV
0 0 N>
* Mil
0 A 0 "AX
OLD 'EAN
•I L 1 STOV
P N>
C/KM
R N HIM 20.1 91 12 8.1 9.8 27.0 0.089 3.021 0.35* 0.084 1.300 34 2.0 3 3.3
C A 0 MAX 20.1 91 72 8.1 9.8 27.0 0.080 0.021 O.OS4 0.084 1.030 34 2.0 3 3.0
0 L N MEAN 20.1 91 72 8.1 9.8 27.0 0.080 0.021 O.OS4 0.084 1.000 34 2.0 0 0.0
N L 0 STOV 0.33 3.0 3.0 0.09 0.03 3.30 0.0030 0.3090 3.0033 9.3000 0.0000 0.0 0.00 0.0 0.00
0 0 «K/>
-------
GENUS: XANTHtDIUM
CHLA
TURB SSCCHI
PH
PARTIAL DEPTH VALUES
00 TEMP TOT* IP ORTHOP N02N03 NH3
KJEL ALK
N/P
CONC PERC
p
0 0
U 1 C
N C
0
• N
O 0
U 1 N
N 0
D C
C
«
0 0
U 2 C
N C
0
» N
0 0
U 2 N
N 0
0 C
c
*
O 0
0 3 C
N C
0
• u
PI
C 0
U 3 N
N 0
0 C
C
It
C » 0
U L C
1 L C
5
* N
C » 1
U L N
N L 0
0 C
C
NIN
MAX
MEAN
STOV
N>
0/UR
MM
MAX
MEAN
STDV
N>
0/WR
MIN
MAX
MEAN
STOV
N>
P/MR
Mil
MAX
MEAN
STDV
N>
0/WR
MIN
MAX
MEAN
STOV
••>
0/WR
H TM
n i"i
MAX
MEAN
STOV
N>
P/WR
MIN
<4AX
MEAN
STOV
N>
o/u*
MIN
MAX
HEAN
STDV
N>
3/WR
0.3
355.6
21.0
41.40
O/ 0
247/2*7
2.7
2.7
2.7
0.00
9/297
I/ 1
1.4
595.0
34.6
62.68
O/ 0
246/247
1.7
12.8
6.5
4.7T
9/105
4/133
On
• D
241.4
23.5
34.48
O/ 0
243/247
1.7
12.8
5.8
4.48
24/339
5/417
0.3
595.0
26.3
48.06
O/ 0
736/741
6 2 5.3 0.7 6.8 0.004
100 252 19.6 19.2 28.9 1.719
71 44 7.9 9.0 17.5 0.123
20.6 36.2 0.73 2.02 5.59 0.2314
0/0 0/0 0/0 0/0 0/0 0/0
187/187 249/249 249/249 245/245 248/248 249/249
85 36 5.5 5.8 31.4 0.015
85 36 5.5 5.8 31.4 0.015
85 36 5.5 5.8 31.4 0.315
0.0 9.0 0.00 0.30 3. 00 0.0000
146/ 84 110/126 2/242 58/182 243/ 2 31/208
1/7 1/5 1/3 1/6 1/1 1/8
4 1 4.1 3.O 17.3 O.004
121 222 10.6 17.8 32.2 2.559
72 49 7.8 7.0 26.6 0.135
24.0 35.9 0.88 1.98 2.33 0.2816
0/0 0/0 0/0 0/9 0/0 0/9
236/237 240/241 246/247 245/246 245/246 246/247
87 60 4.7 7.5 17.1 0.037
94 87 6.7 8.2 22.2 0.019
91 79 5.9 7.9 18.7 0.012
3.8 12.6 9.87 3.32 2.37 0.0059
137/ 20 181/ J5 a/206 122/ 53 32/ 72 4/203
3/ 64 4/ 30 4/ 39 4/ 66 4/142 4/ 42
100 185 10.3 13.5 29.6 4.549
74 50 7.6 7.3 20.5 0.157
23.1 35.0 0.81 1.62 3.25 0.4120
3/0 0/0 1/0 0/0 0/3 3/0
218/221 242/246 241/244 237/241 242/246 242/246
85 36 4.7 5.8 17.1 0.007
94 87 6.7 8.2 31.4 0.31S
90 70 5.8 7.5 21.2 0.012
4.4 21.9 0.77 0.98 6.05 0.0052
399/ 52 338/ 97 1/661 135/275 171/ 2 14/605
4/194 5/3ai 5/ 79 5/352 5/567 5/123
1 1 4.1 0.7 6.8 0.004
121 252 10.6 19.2 32.2 4.549
72 47 7.8 7.8 21.5 0.138
22.8 35.8 0.81 2.06 5.49 0.3166
3/0 3/0 0/0 0/00/0 0/0
641/645 731/736 736/741 727/732 735/749 737/742
0.001
1.209
0.057
0.1642
O/ 0
249/249
0.006
0.006
9.095
0. 0000
62/168
I/ 17
9.001
1.191
0.053
0.1482
O/ 0
246/247
9.002
0.005
0.003
0.3014
1/217
4/ 27
Onnt
• \I\I L
2.009
0.071
0.2103
O/ 0
241/245
0.002
9.036
0.004
0.0016
14/536
5/191
0.001
2.339
0.060
0.1758
O/ 0
736/741
0.024
9.745
0.870
1.4754
O/ 0
249/249
0.105
0.105
0.1O4
3.0900
88/156
I/ 3
0.025
6.857
0.495
0.8851
O/ 0
246/247
0.026
0.297
0.127
0.1285
15/ 69
4/162
Oft 1 7
• U 1 f
4.469
0.345
0.5514
O/ 0
242/246
0.026
0.297
0.122
0.1118
18/282
5/442
0.017
9.745
0.572
1.0690
O/ 0
737/742
0.022
0.635
0.107
0.0953
O/ 0
249/249
0.129
0.129
0.128
0.0000
174/ 70
I/ 3
0.034
0.719
0.119
0.0880
01 0
246/247
0.049
0.194
0.108
O.0635
45/ 39
4/171
any i
*v£J
3.024
0.123
0.2249
O/ 0
242/246
0.049
0.194
0.112
0.0557
109/ 80
5/553
0.020
3.924
0.116
0.1491
O/ 0
737/742
0.199
4.699
0.796
0.6975
O/ 0
249/249
0.410
0.410
0.409
3.0090
29/216
I/ 2
0.215
7.149
1.220
1.3787
Of 0
246/247
0.399
0.761
0.576
0.1516
44/130
4/ 72
01 OO
• X W
8.199
1.127
1.0635
O/ 0
242/246
0.399
9.761
0.543
0.1510
138/354
5/250
0.199
8.199
1.346
3.9773
Of 0
737/742
10
248
70
67.3
O/ 0
249/249
10
10
10
3.0
0/229
I/ 18
10
334
74
68.9
O/ 3
246/247
10
18
12
4.0
0/187
4/ 59
1 n
IW
291
74
64.1
O/ 0
242/246
10
18
12
3.6
0/547
5/195
10
334
72
66.8
Of 0
737/742
0.0
142.0
18.6
25.14
01 0
249/249
15.0
15.0
15.0
3.00
192/ 48
I/ 7
0.0
210.0
14.1
23.81
O/ 0
246/247
5.0
61.0
25.3
26.59
116/ 6
4/124
On
• u
90.0
9.3
14.56
O/ 0
242/246
5.0
61.0
23.2
23.48
264/35
5/443
0.0
210.0
14.1
22.03
O/ 0
737/742
0
0
0
0.0
0
0
0
0.0
0
0
0
0.0
0
58
17
27. 7
g
0
0
0.0
0
58
14
25.2
0
0
0
0.0
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.0
2.6
1.0
1.26
On
. u
0.0
0.0
0.00
0.0
2.6
0.8
1.18
0.0
0.0
0.0
0.00
-------
CCNUS:XANTHIDTUM
CHLA
Time SCCCHI
DO
TEMP
PARTIAL DEPTH VALUES
TOTALP ORTHOP N02N03
NH3
KJEL ALK
N/F
CONC PERC
*
0
U 1
N
0
II
0
U 1
N
0
*
9
U 2
N
0
R
0
U 2
N
0
M
0
U 3
N
D
*
0
U 3
N
0
R
0 A
U L
N L
0
II
0 A
U L
N L
0
C
0
M
N
0
N
0
0
H
0
0
N
N
0
N
0
•3
M
0
0
H
N
0
N
0
0
M
D
0
M
N
0
H
0
0
*
MIN
MAX
MEAN
STDV
M>
0/H*
HIM
MX
MEAN
STOV
N>
0/UR
MIN
MAX
MEAN
STOV
H>
.0/KP
MIN
MAX
MEAN
STOV
N>
0/MK
MIN
MAX
MEAN
STOV
N>
O/WR
MIN
MAX
MEAN
STDV
N>
0/MR
KIN
MAX
MEAN
STDV
N>
0/MR
MIN
MAX
MEAN
STOV
«*>
0/HR
2.T
2.7
2.7
0.00
9/237
I/ 1
1.7
12.8
6.5
4.77
9/105
4/133
1.7
12.8
5.8
4.48
24/300
5/417
85
85
85
0.0
146/ 84
I/ 7
87
94
91
3.8
137/ 20
3/ 64
85
94
90
4.4
399/ 52
4/194
36
36
36
0.0
110/126
I/ 5
60
87
79
12.6
Itl/ 35
4/ 30
36
87
73
21.9
338/ 97
5/301
5.5
5.5
5.5
0.00
2/242
I/ 3
4.7
6.7
5.9
0.87
0/206
4/ 39
4.7
6.7
5.8
0.77
1/661
5/ 79
5.8
5.8
5.8
0.00
58/182
I/ 6
7.5
8.2
7.9
0.32
122/ 53
4/ 66
5.8
8.2
7.5
0.98
105/27J
5/352
31.4
31.4
31.4
0.00
243/ 2
I/ 1
17.1
22.2
18.7
2.37
32/ 72
4/142
17.1
31.4
21.2
6.05
171/ 2
5/567
0.015
0.915
0.015
0.0000
31/208
I/ 8
0.037
0.019
0.012
0.0059
4/200
4/ 42
0.007
0.019
0.012
O.OOS2
14/635
5/123
0.006
0.036
0.035
0.0000
62/168
I/ 17
3.032
0.005
0.003
0.0014
1/217
4/ 27
0.002
0.006
0.004
0.0316
14/536
5/191
0.105
0.105
0.104
0.0000
88/156
I/ 3
0.026
0.297
0.127
0.1285
15/ 69
4/162
0.026
0.297
0.122
3.1118
18/282
5/442
0.129
0.1Z9
0.128
0.0000
174/ 70
I/ 3
0.049
0.194
0.108
0.0635
45/ 30
4/171
3.049
0.194
0.112
0.0557
10S/ 80
5/553
0.410
0.410
0.409
O.O030
29/216
I/ 2
0.399
9.761
0.576
0.1516
44/130
4/ 72
0.399
3.761
0.543
0.1510
138/354
5/250
10
10
10
0.0
0/229
I/ 18
10
18
12
4.0
0/187
4/ 59
13
18
12
3.6
0/547
5/195
15.0
15.0
15.0
0.00
192/ 48
I/ 7
5.0
61.3
25.3
26.59
116/ 6
4/124
5.0
61.0
23.2
23.48
264/ 35
5/443
0
0
0
0.3
0
58
17
27.7
0
58
14
25.2
0.0
0.0
0.0
0.33
0.3
2.6
1.0
1.26
3.3
2.6
c.e
1.18
-------
GfNUS: ZVGNEMA
C»
CHLA
TURB S«CCHI
PH
DO
PARTIAL DEPTH VALUES
TEMP TOTALP ORTHOP N02N03
NH3
KJEL
ALK
N/P
CONC PERC
R
C 0
0 I C
1 C
D
R N
0 0
U I M
N O
D C
C
»
0 0
U 2 C
H C
D
R N
0 0
U 2 M
N n
D C
C
*
C 0
U 3 C
* C
0
R N
0 0
U 3 N
N 0
D C
C
•
C » 0
U I C
11C
0
H N
0 A 0
U 1 N
N I 9
0 C
C
HIM
HAX
M*«N
STCV
N>
0/WR
HIN
MX
MEAN
STDV
w«/>
O/H»
•UN
MAX
MEAN
STOV
N>
O/MR
HIN
MAX
NEAN
STDV
N>
O/WR
HIN
MAX
MEAN
STOV
N>
C/WR
MIN
PAX
MEAN
STDV
N>
O/MR
HIN
1AX
MEAN
STOV
N>
O/HR
MIN
MX
fEAN
STDV
N>
O/HR
13.*
13.*
13.*
0.00
16 1/ 85
I/ 1
0.3
355.6
21.0
*1.*8
O/ 0
2*6/2*7
1.*
595.0
3*.*
62.58
O/ 0
2*7/2*7
9.8
2*1.4
23.2
34.27
O/ 3
2*7/2*7
13.*
13.*
13.*
O.OO
446/292
If 3
0.3
59 J. 0
26.2
*7.96
Of 9
7*0/7*1
13
13
13
0.0
2/184
If 1
6
190
71
20.2
O/ 0
186/187
4
121
72
24.0
Of 0
237/237
1
100
74
23.1
3/ 0
221/221
13
13
13
0.0
15/627
If 3
1
121
72
22.6
Of 0
6**/6*5
13 R.I 9.5 12.7 C.175
13 8.1 9.5 12.7 0.175
13 8.1 9.5 12.7 0.175
0.0 0.00 O.OO O.OO 0.0090
24/224 146/ 88 1*2/ 93 50/194 216/ 32
If 1 If 15 If 10 1/4 If I
2 5.3 0.7 6.8 0.004
252 10.6 19.2 Z8.9 1.719
44 7.9 9.0 17.5 0.122
36.2 0.73 2.92 5.59 0.2319
0/0 0/0 0/0 0/0 0/0
2*8/2*9 248/249 244/245 247/248 2*8/2*9
1 4.1 3.0 17.3 0.00*
222 10.6 17.8 32.2 2.559
*9 7.8 7.0 26.6 0.13*
35.8 0.89 1.98 2.35 0.2811
0/0 0/0 0/0 0/0 0/0
2*1/2*1 2*7/247 246/246 246/246 247/247
6 *.7 1.6 9.3 0.03*
185 10.3 13.5 29.6 4.549
50 7.6 7.3 20.4 0.155
35.0 0.84 1.61 3.25 0.4091
0/0 0/3 3/3 0/0 0/0
246/246 245/245 241/241 246/246 246/2*6
13 8.1 9.5 12.7 0.175
13 8.1 9.5 12.7 0.175
13 8.1 9.5 12.7 0.175
0.0 0.00 0.00 0.00 0.0000
55/678 *63/242 593/125 52/684 627/114
If 3 1/36 I/ 14 1/4 1/1
1 *.l 0.7 6.8 0.00*
252 10.6 19.2 32.2 4.549
48 7.8 7.8 21.5 0.137
35.7 0.83 2.07 5.49 0.3159
0/0 0/0 0/0 0/0 0/0
735/736 740/741 731/732 739/7*0 7*1/7*2
0.0*3
0.0*3
0.0*2
0.9030
201/ 46
If 2
0.001
1.209
0.057
0.1646
Of 0
2*8/249
0.001
1.191
0.053
0.1479
Of 0
2*7/2*7
0.031
2.109
0.070
0.2088
Of 0
2*5/2*5
0.043
0.9*3
3.042
0.0000
594/144
I/ 3
0.001
2.009
0.060
0. 1754
O/ 0
7*0/741
3.865 0.093
3.865 0.093
3. 864 0. 093
0.0000 0.9300
235/13 161/ 87
1/1 1/1
0.024 0.022
9. 745 0. 635
0.858 0.107
1.4660 0.0955
0/3 0/0
248/249 248/2*9
0.025 0.03*
6.857 0.719
0.*93 0.120
0.8636 0.0878
Of O Of 0
247/247 247/247
3.317 0.020
4.469 3.924
O.3*2 0.122
0.5*77 0.2232
0/0 0/0
246/246 246/246
3.865 0.093
3.865 0.093
3.864 0.093
0.0000 0.0000
723 / 18 439/299
1/1 1/4
0.017 0.020
9.7*5 3.32*
0.565 0.116
1.0598 0.1488
O/ 00/0
741/742 741/742
0.821
0.821
0.820
0.0303
171/ 77
If I
0.199
4.699
0.796
0.6989
Of 0
248/ 249
0.215
7.149
1.217
1.0778
Of 0
247/247
0.199
8.199
1.118
1.0572
Of 0
246/246
0.821
0.821
0.820
0.0000
412/329
t/ 1
0.199
8.199
1.343
3.9755
01 0
741/742
18T
187
187
3.0
222/ 26
I/ 1
10
248
70
67.1
Of 0
2*8/2*9
10
33*
73
68.9
Of 0
2*7/2*7
10
291
73
6*.l
Of 0
2*6/2*6
187
187
187
0.0
683/ 58
If 1
10
33*
72
66.6
O/ 0
7*1/7*2
29.0
29.0
29.0
3.00
198/ *5
If 6
0.0
1*2.0
18.6
25.18
Of 0
2*8/249
0.0
210.0
14.1
23.76
Of 0
2*7/247
0.0
90.0
9.6
1*.87
Of 0
2*6/246
29.0
29.0
29.0
0.00
643 / 93
If 6
0.0
210.0
14.1
22.05
Of 0
7*1/7*2
3
0
0
0.0
0
0
0
0.0
0
0
0
0.0
0
0
0
0.0
0
0
0
0.3
0
0
0
0.3
0.0
0.0
0.0
0.03
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.0
0.3
0.0
0.00
0.0
0.0
0.0
0.30
0.0
0.0
o.o
0.30
-------
GENUStZYGNEM PARTIAL DEPTH VALUES
CHLA TW«e SECCHI PH 00 TEMP TOTALP ORTHOP N02N03 NH3 KJEL ALK N/P CONC PERC
ID
R MIN
0 D MAX
U 1 0 MEAN
N N STOV
0 N>
0/HR
R N MIN
0 0 MAX
U 1 N MEAN
N 0 STDV
0 0 «•>
N O/MR
R KIN
0 D MAX
U Z 0 If AN
N «T STOV
D N>
0/MR
P N MIN
-C O «AX
u 2 N MEAN
N D STCV
0 0 1>
" O/HR
* PIN
0 0 "AX
u 3 o MEAN
N M STOV
0 »!>
• N MIN
? ^ "AX
U 3 N «FAM
H D STOV
0 0 N>
M tvwR
e MIN
n « O MAX
U L C "EAN
N L «« STOV
0 N>
0/HR
• N MIN
C A 0 MAX
U L N MEAN
N L 0 STOV
D 0 N>
M 0/WR
13.4 13 13 8.1 9.5
13.4 13 13 8.1 9.9
13.4 13 13 8.1 9.5
0.00 0.0 0.0 0.00 O.OO
161/ 85 2/184 24/224 146/ 88 142/ 93
1/1 1/1 1/1 I/ 15 I/ 10
13.4 13 13 8.1 9.5
13.4 13 13 «. 1 9.5
13.4 13 13 8.1 9.5
0.90 0.0 3.0 0.00 0.03
446/292 15/627 55/678 463/242 593/125
1/3 1/3 1/3 I/ 36 I/ 14
12.7 0.175 0.043 3.865 0.093 0.821 187 29.0 0 0.0
12.7 0.17S 0.043 3.865 0.093 0.821 187 29.0 0 0.0
12.7 0.175 0.042 3.864 0.093 0.820 187 29.0 0 0.0
o.oo o.oooo o.oooo o.oooo o.oooo o.oooo g.o o.oo o.o o.oo
50/194 216/ 32 201/ 46 23S/ 13 161/ 87 171/ 77 222/ 26 198/ 45
1/41/11/21/11/11/11/11/6
12.7 0.175 3.043 3.865 0.093 0.821 187 29.3 3 3.0
12.7 0.175 0.043 3.865 0.093 0.821 187 29.3 3 3.0
12.7 0.175 0.042 3.864 0.093 0.820 187 29.0 0 0.0
9.09 3.0933 0.3030 3.0030 0.3330 0.0000 0.0 0.00 0.0 0.00
52/684 627/114 594/144 723/ 18 439/299 412/329 683/ 58 643/ 93
1/4 1/1 1/3 1/1 1/4 1/1 1/1 1/6
-------
TECHNICAL REPORT DATA
(Please read Instructions on the reverse before completing)
1. REPORT NO.
EPA-6QO/3-79-Q25
3. RECIPIENT'S ACCESSION NO.
4. TITLE AND SUBTITLE
PHYTOPLANKTON WATER QUALITY RELATIONSHIPS IN U.S. LAKES,
PART V: Genera Quadrigula through Zygnema Collected
from Eastern and Southeastern Lakes
5. REPORT DATE
EPA-600/3-79-025
6. PERFORMING ORGANIZATION CODE
7. AUTHOR(S)
M.K. Morris*, W.D. Taylor, L.R. Williams, S.C. Hern,
V.W. Lambou, and F.A. Morris*
8. PERFORMING ORGANIZATION REPORT NO.
9. PERFORMING ORGANIZATION NAME AND ADDRESS
Environmental Monitoring and Support Laboratory
Office of Research and Development
U.S. Environmental Protection Agency
Las Vegas, NV 89114
10. PROGRAM ELEMENT NO.
1HD620
11. CONTRACT/GRANT NO.
12. SPONSORING AGENCY NAME AND ADDRESS
U.S. Environmental Protection Agency-Las Vegas, NV
Office of Research and Development
Environmental Monitoring and Support Laboratory
Las Vegas, NV 89114
13. TYPE OF REPORT AND PERIOD COVERED
Task Completion
14. SPONSORING AGENCY CODE
EPA/600/07
15. SUPPLEMENTARY NOTES
*Department of Biological Sciences, University of Nevada, Las Vegas, NV 89154
16. ABSTRACT
Water quality relationships for about 180 genera and 700 species and varieties
of phytoplankton were determined from National Eutrophication Survey data collected
in 17 eastern and southeastern States during 1973. This report, Part V, presents
environmental requirements and relative abundance of 45 phytoplankton genera:
Quadrigula through Zygnema.
7.
KEY WORDS AND DOCUMENT ANALYSIS
DESCRIPTORS
b.lDENTIFIERS/OPEN ENDED TERMS
c. COSATI Field/Group
*aquatic microbiology
lakes
*phytoplankton
water quality
*freshwater biology
nutrients
environmental requirement!
lake eutrophication
water chemistry
growth conditions
plant nutrients
06 C, F, M
08 H
13 B
18. DISTRIBUTION STATEMENT
RELEASE TO PUBLIC
19. SECURITY CLASS (ThisReport)
UNCLASSIFIED
21. NO. OF PAGES
108
20. SECURITY CLASS (Thispage)
UNCLASSIFIED .... ....
22. PRICE
A06
EPA F»rm 2220-1 (R«v. 4-77) PREVIOUS EDITION i* OBSOLETE
-------
Reports published to date in the series "Phytoplankton Water Quality
Relationships in U.S. Lakes," U.S. Environmental Protection Agency,
Environmental Monitoring and Support Laboratory, Las Vegas, Nevada 89114,
are listed here. Additional reports in this series are planned for
publication in the near future.
Part I: Methods, rationale, and data limitations. EPA-600/3-79-021.
67 pp. March 1979.
Part II: Genera Acanthosphaera through Cystod.ini.wn collected from
eastern and southeastern lakes. EPA-600/3-79-022. 119 pp.
March 1979.
Part III: Genera Daotylocoocopsis through Gyrosigma collected from eastern
and southeastern lakes. EPA-600/3-79-023. 85 pp. March 1979.
Part IV: Genera Hantzschia through Pteromonas collected from eastern and
southeastern lakes. EPA-600/3-79-024. 105 pp. March 1979.
Part V: Genera Quadrigula through Zygnema collected from eastern and
southeastern lakes. EPA-600/3-79-025. 99 pp. March 1979:
------- |