United States
Environmental Protection
Agency
Environmental Monitoring
and Support Laboratory
PO Box 15027
Las Vegas NV89114
Research and Development
Phytoplankton
Water Quality
Relationships in
U.S. Lakes, Part
Genera
Acanthosphaera
Through Cystodinium
Collected from
Eastern and
Southeastern Lakes
Working
Paper 706
-------�
PHYTOPLANKTON WATER QUALITY RELATIONSHIPS IN U.S. LAKES, PART II:
Genera Acanthosphaera through Cystodiniw
Collected from Eastern and Southeastern Lakes
by
L. R. Williams, S. C. Hern, V. W. Lambou,
F. A. Morris*, M. K. Morris*, and W. D. Taylor
Water and Land Quality Branch
Monitoring Operations Division
Environmental Monitoring and Support Laboratory
Las Vegas, Nevada 89114
*Department of Biological Sciences
The University of Nevada, Las Vegas
Las Vegas, Nevada 89154
Working Paper No. 706
National Eutrophication Survey
Office of Research and Development
U.S. Environmental Protection Agency
June 1978
-------�
DISCLAIMER
This report has been reviewed by Che Environmental Monitoring and
Support Laboratory-Las Vegas, U.S. Environmental Protection Agency,
and approved for publication. Mention of trade names or commercial
products does not constitute endorsement or recommendation for use.
ii
-------�
FOREWORD
The National Eutrophication Survey (NES) was initiated in 1972 in
response to an Administration commitment to Investigate the nationwide
threat of accelerated eutrophlcatlon to freshwater lakes and reservoirs.
The survey was designed to develop, in conjunction with State environmental
agencies, information on nutrient sources, concentrations, and impact on
selected freshwater lakes as a basis for formulating comprehensive and
coordinated national, regional, and State management practices relating to
point-source discharge reduction and nonpoint-source pollution abatement in
lake watersheds.
The survey collected physical, chemical, and biological data from
815 lakes and reservoirs throughout the contiguous United States. To date,
the Survey has yielded about 2 1/2 million physical and chemical data points
and about 75,000 phytoplankton records. In-depth analyses are being made
to advance the rationale and data base for refinement of nutrient water
quality criteria for the Nation's freshwater lakes.
ill
-------�
ABSTRACT
Water quality relationships for about 180 genera and 700 species and
varieties of phytoplankton were determined based on National Eutrophication
Survey data collected in 17 eastern and southeastern states during 1973.
This report, Part II, presents environmental requirements and relative
abundance of 54 phytoplankton genera: Acanthoephaera through Cystodinium.
iv
-------�
TABLE OF CONTESTS
Foreword
Abstract
List of Abbreviations and Symbols
Introduction
Results ...............
References
Bibliography ........
Appendix; Phytoplankton Genera Water Quality Relationships
-------�
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 - data collected during the sampling year
DOM - (dominant occurrence) genus constituted 10 percent or more of the
numerical total cell concentration of each lake-date sample in
this category
NONDOM - (non-dominant occurrence) genus constituted less than 10 percent
of the numerical total cell concentration of each lake-date sample
in this category
OCC - (occurrence) genus was detected in each lake-date sample in this
category
NONOCC - (non-occurrence) genus was not detected in any of the lake-date
samples represented in this category
MIN - minimum value of a given parameter for the nature of occurrence
indicated
MAX - maximum value of a given parameter for the nature of occurrence
indicated
MEAN - mean value of a given parameter for the nature of occurrence indicated
STDV - standard deviation of the mean
N - sample size
vl
-------�
LIST OF ABBREVIATIONS AND SYMOBLS (CONTINUED)
N :
N < - number of lakes with values less than the minimum (MIN)
> - 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/11
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
-------�
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 data points were measured from these study lakes. Some 180 genera
and over 700 phytoplankton species and varieties were enumerated from the
694 water samples examined resulting in about 25,000 phytoplankton occurrence
records. In order to determine phytoplankton water quality relationships in
eastern states, the physical, chemical, and biological data collected were
merged. From this 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 by various categories of phytoplankton occurrence, e.g.,
numerical dominance, non-dominance, occurrence and non-occurrence. The
summaries provide knowledge of the specific requirements or environmental
limits for each taxon and are useful for the development of biological tools
for monitoring and prediction of water quality or trophic condition.
A report series is necessary to present the large volume of information
produced in this study. This report, Part II of the series Phytoplankton
Water Quality Relationships in U.S. Lakes, presents findings for the first
54 genera (alphabetically from Acanthosphaera to Cystodinium) of the phyto-
plankton detected in samples from 17 eastern and southeastern states (Table
1). Part I (Taylor et al., 1978) presents the methods used, rationale under
which the study was carried out, and limitations of the data. Parts III
through V of the series (Hern et al., 1978; Lambou et al., 1978; Morris et
al., 1978) present the findings for the other 126 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 relation-
ships 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.
-------�
TABLE 1. INDEX TO THE PHYTOPLANKTON GENERA ADDRESSED IN THIS REPORT AND
THEIR RESPECTIVE ALGAL UNIT FORMS
GENUS
Acanthosphaera
Achnanthes
Actinastrum
Amphipleura
Amphiphora
Amphora
Anabaena
Anabaenopsie
Ankis trodesmus
Anomoeoneis
Aphanizomenon
Aphanoaapsa
Aphanothece
Artkrodesmua
Arthrospira
Asooglena
Asterionella
Asterocoaaus
Attheya
Binucleapia
Botryococcus
Caloneis
Capartograma
Carteria
Centric diatoms*
Centritractua
Cerasterios
Ceratium
ALGAL UNITS
COUNTED
Cell
Colony
Colony
Cell
Cell
Cell
Filament
Filament
Cell
Cell
Filament
Colony
Colony
Cell
Filament
Cell
Cell
Colony
Cell
Cell
Colony
Cell
Cell
Cell
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
56
58
60
62
64
ALGAL UNITS
GENUS COUNTED
Chilomonaa
Chlamydomonos
Chlovello.
Chlorogonium
Chromulina
Chroococcua
Chroamonas
Chryaooapea
Chrysoaoaous
Closteridiwn
Closteriopsis
Cloaterium
Cocooneis
Coelastrum
Coe losphaeriwn
Coronas trton
Cosoinodisaus
Cosnoon-vm
Cruoigenia
Cryptomonas
CyanomoncLS
Cell
Cell
Cell
Cell
Cell
Colony
Cell
Cell
Cell
Cell
Cell
Cell
Cell
Colony
Colony
Colony
Cell
Cell
Colony
Cell
Cell
Cyanophytan* Cell, colony,
filament
Cyolotella
Cy lindrospermum
Cymatopleura
Cymbella
Cyatodinium
Cell
Filament
Cell
Cell
Cell
PAGE
66
68
70
72
74
76
78
80
82
84
86
88
90
92
94
96
98
100
102
104
106
108
110
112
114
116
118
^General categories summarized in the appendix
-------�
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 population 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. 1978).
The Appendix summarizes environmental'requirements of the 54 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 1 of this report series (Taylor et al., 1978). 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 print-out, 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 vl.
Table 2 summarizes all the physical and chemical data by seasonal sampling
round and total and partial depth values.
-------�
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
TURS
SECCHI
PH
DO
TEMP TOTALP ORTHOP
N02N03
NH3
KJEL
ALK
N/P
TOTAL DEPTH VALUES
K
0
U 1
N
0
R
0
U 2
N
0
R
0
U 1
N
0
•
0 A
U L
N L
D
M.1N
NU
MEAN
STOV
N
MIN
MAX
MEAN
STCV
N
HIM
MAX
MEAN
STDV
N
MIN
MAX
MEAN
STCV
N
0.3
35S.4
Zl.O
41.40
2*7
1.4
595.0
3*.*
6Z.58
2*7
o.e
2*1.*
23.2
3*. 27
2*7
0.3
595.8
2*. 2
47.43
741
6
100
69
20. 5
167
4
116
71
23. a
23 •
1
99
72
22.9
221
1
116
71
22.6
644
2
252
4*
36.2
249
1
222
49
35.8
241
6
IBS
50
33.0
2*6
1
2S2
48
35.7
736
5.2
10.6
7.6
0.74
2*9
4.1
10.6
7.6
0.91
247
5.2
10.3
7.5
0.63
2*5
4.1
10.6
7.7
0.64
741
0.7
19.2
8.7
2.16
245
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 1.299
16.9 0.124 0.058
5.35 0.2311 0.16*1
2*8 249 2*9
14.9 0.004 0.001
31.1 2.559 1.191
25.2 0.1*2 0.057
3.33 0.2809 0.1492
246 247 247
8.8 0.003 0.012
29.6 4.549 2.009
19.8 0.164 0.075
3.47 O.4083 0.2096
2*6 246 2*5
6.8 0.004 0.001
31.1 4.549 2.009
20.6 0.143 0.063
9.40 0.315* 0.1760
740 742 741
0.024
9.745
0.680
1.4755
2*9
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
0.1536
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
24«
0.199
8.199
1.083
1.0019
742
10
2*8
70
67.2
249
10
334
76
71.0
247
10
337
73
66.4
246
10
334
73
68.2
742
0.0
1*2.0
18.7
25.01
249
0.0
122.0
14.3
20.08
247
0.0
7A.O
9.7
12.65
244
0.0
142.0
14.3
20.28
742
PARTIAL DEPTH VALUES
*
f)
U 1
N
D
R
0
U I
N
D
R
0
U 3
N
0
t
0 A
U L
N L
0
MIN
MAX
MEAN
STOV
N
M|N
MAX
MEAN
STDV
N
M|N
MAX
MEAN
STOV
N
N|N
MAX
MEAN
STDV
M
0.3
395.6
21.0
*l.*0
2*7
I.+
595.0
3*.*
62.56
2*7
O.S
2*1.*
23.1
34.27
2*7
0.3
595.0
26.2
47.93
6
100
71
20.6
167
4
121
72
24.0
237
1
100
74
23.1
221
i
121
72
22.7
2
252
4*
36.2
249
1
222
49
35.6
241
6
165
SO
35.0
2*6
I
2S2
48
35.7
5.3
10.6
7.9
0.73
2*9
*. 1
10.6
7.0
0.69
2*7
4.7
10.3
7.6
0.84
2*9
4.1
10.6
7.0
0.63
0.7
19.2
9.0
2.02
245
3.0
17.8
7.0
1.98
246
1.6
13. »
7.3
1.61
241
0.7
19.2
7.8
2.07
6.8 0.004 0.091
26.9 1.719 1.209
17.5 0.123 0.057
5.59 0.2314 0.1642
2*8 249 2*9
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.O 0.004 O.001
29.6 4.549 2.009
20.4 0.155 0;070
3.25 0.4091 0.2086
246 246 245
6.8 0.004 0.001
32.2 4.349 2.009
21.9 0.137 0.060
9.49 0.3137 0.1753
^«. A «*.* 4^1
0.024
9.745
0.870
1.4754
249
0.025
6.837
0.*93
0.6836
247
0.017
4.469
0.342
0.5*77
246
0.017
9.7*5
0.569
1.0660
«A*
0.022
0.635
O. 107
0.0953
249
0.034
0.719
0.120
0.0876
247
0.020
3.024
0.122
0.2232
246
0.020
3.024
0.116
0.1*67
%&*
0.199
4.699
0.796
0.6975
249
0.213-
7.149
1.217
1.0778
247
0.199
8.199
1.1 IB
1.0972
246
0.199
6.199
1.043
0.97*9
VA.*
10
2*8
70
67.3
249
10
334
73
66.9
247
10
291
73
64.1
246
1O
334
72
66.7
TA*
0.0
142.0
18.6
25.14
249
0.0
210.0
14.1
23.74
247
. 0.0
90.0
9.6
14.87
246
0.0
210.0
14.1
22.04
1*1
741
649
-------�
REFERENCES
Hern, S. C., V. W. Larabou, F. A. Morris, M. K. Morris, W. D. Taylor, and
L. R. Williams. 1978. Phytoplankton Water Quality Relationships
in U.S. Lakes, Part III: Genera Dactylocoocopsis through Gyrosigma
collected from eastern and southeastern lakes. National Eutrophication
Survey Working Paper No.707. U.S. Environmental Protection Agency.
Environmental Monitoring and Support Laboratory, Las Vegas, Nevada.
vii + 8'5 pp.
Larabou, V. W., F. A. Morris, M. K. Morris, W. D. Taylor, L. R. Williams,
and S. C. Hern. 1978. Phytoplankton Water Quality Relationships in
U.S. Lakes, Part IV: Genera Hantzsohia through Pteromonas collected
from eastern and southeastern lakes. National Eutrophication Survey
Working Paper No.708. U.S. Environmental Monitoring and Support
Laboratory, Las Vegas, Nevada, vii + 105 pp.
Morris, M. K., W. D. Taylor, L. R. Williams, S. C. Hern, V. W. Lambou,
F. A. Morris. 1978. Phytoplankton Water Quality Relationships in
U.S. Lakes, Part V: Genera Quadrigula through Zygnema collected from
eastern and southeastern lakes. Working Paper No.709 . U.S. Environ-
mental Protection Agency. Environmental Monitoring and Support
Laboratory, Las Vegas, Nevada, vii + 99 pp.
Taylor, W. D., L. R. Williams, S. C. Hern, V. W. Lambou, F. A. Morris,
and M. K. Morris. 1978. Phytoplankton Water Quality Relationships in
U.S. Lakes, Part I: Methods, rationale, and data limitations.
National Eutrophication Survey Working Paper No.705. U.S. Environmental
Protection Agency, Environmental Monitoring and Support Laboratory,
Las Vegas, Nevada, vii + 67 pp.
-------�
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. Hlatt. 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 + 67 pp. (WP No. 691)
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., R. W. Thomas, M. K. Morris, L. R. Williams, W. D. Taylor,
F. A. Hiatt, S. C. Hern, J. W. Hilgert, and V. W. Lambou. 1977.
Distribution of Phytoplankton in Indiana Lakes. U.S. EPA National
Eutrophication Survey Working Paper No. 682. Hi + 73 pp.
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. V. Lambou, F. A. Morris, and R. W. Thomas. 1977,
Distribution of Phytoplankton in Illinois Lakes. U.S. EPA National
Eutrophication Survey Working Paper No. 681. ill + 131 pp.
Morris, M. K., L. R. Williams, W. D. Taylor, F. A. Hiatt, S. C. Hern,
J. W. Hilgert, V. W. Lambou, F. A. Morris, and R. W. Thomas. 1977.
Distribution of Phytoplankton in North Carolina Lakes. U.S. EPA
National Eutrophication Survey Working Paper No. 687. ill + 75 pp.
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, R. W. Thomas, M. K. Morris, and L. R. Williams. 1977.
Distribution of Phytoplankton in Florida Lakes. U.S. EPA National
Eutrophication Survey Working Paper No. 679. ill + 113 pp.
Taylor, W. D., F. A. Hiatt, S. C. Hem, 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
Computer generated summary of physical, chemical and biological
conditions associated with occurrence (OCC), non-occurrence (NONOCC),
dominance (DOM) and non-dominance (NONDOM) of 54 genera of phytoplankton
(Acanthoaphaera to Cystodinium) from 250 eastern and southeastern lakes
sampled during 1973.
-------�
GENUS:ACANTHQSPHtERA
CMLi
TURB
SECCHI
PARTIAL DEPTH VALUES
DO TEMP TOTAL? OUTMOP N02N03 NM3
KJEL ALK
N/P
CONC PERC
R
C 0
u i c
N C
0
• N
O 0
U 1 N
N 0
0 C
C
R
0 0
U 2 C
N C
0
• N
O O
U 2 N
N O
0 C
c
•
O 0
use
N C
0
R N
0 0
U 3 N
N 0
0 C
c
9
O A 0
0 L C
N t C
O
« N
•J A O
U L N
N L 0
D C
C
MIN
MAX
MEAN
STOV
N
O/MR
MIN
MAX
MEAN
STOV
N
C/HR
NIN
MAX
MEAN
STOV
N
O/MR
MIN
MAX
MEAN
STOV
N
O/MR
HIN
MAX
MEAN
STOV
N
O/MR
MIN
•AX
MEAN
STOV
N
O/MR
NIN
MAX
MEAN
STOV
N
O/MR
MIN
MAX
MEAN
STOV
N
O/MR
0.1
355.6
21. 0
41. *0
O/ 0
2*7/2*7
l.»
595.0
3*.*
62. IS
If 0
2*7/2*7
56.8
56.8
56.8
O.30
219/ 26
I/ 2
0.8
2*1.*
23.1
3*.27
O/ 0
2*6/2*7
56.8
56.8
56.8
0.00
6S8/ 81
I/ 2
0.3
595.0
26.2
*T.9»
O/ 0
7*0/7*1
6 2 5.3 0.7 6.8 0.004
100 252 10.6 14.2 28.9 1.719
71 ** 7.9 9.0 17.5 0.123
20.6 36.2 0.73 2.02 5.59 0.231*
0/0 0/0 0/0 0/0 0/0 0/0
167/187 2*9/2*9 249/2*9 2*5/2*5 2*8/2*8 2*9/2*9
« 1 4.1 3.0 17.3 0.03*
121 222 10.6 17. 8 32.2 2.559
72 «9 7.8 7.0 26.6 0.13*
24.0 3S.8 0.89 1.98 2.35 0.2811
0/0 0/0 0/0 0/0 0/0 O/ 0
237/237 2*1/2*1 2*7/2*7 2*6/2*6 2*6/2*6 2*7/2*7
85 32 6.9 5.7 22.9 O.9O9
85 32 6.9 5.7 22.9 O.909
85 32 6.9 S.T 22.9 O.9O6
0.0 0.0 0.00 O.OO O.OO O.OOOO
123/ 94 75/166 56/181 29/207 182/ 60 237/ 8
1/7 1/5 1/8 1/5 I/ * 1/1
1 6 *.7 1.6 9.0 0.00*
100 185 10.3 13.5 Z9.6 *.5*9
7* 50 7.6 7.3 20.* 0.151
23.1 31.0 0.8* 1.61 3.25 0.40TO
0/0 0/0 0/0 0/0 0/0 0/0
223/221 2*5/2*6 2*4/2*5 2*0/2*1 2*5/2*6 2*5/2*6
85 32 6.9 5.7 22.9 O.9O9
65 32 6.9 5.7 22.9 0.909
85 32 6.9 5.7 22.9 0.908
0.0 0.0 0.00 0.00 0.00 0.0000
399/226 285/436 110/61* 92/627 382/352 717/ 2*
I/ 20 I/ IS It 17 I/ 13 1/6 I/ 1
1 1 4.1 0.7 6.8 0.004
121 252 10.6 19.2 32.2 4.549
72 48 7.8 7.8 21.5 0.136
22.7 35.7 0.83 2.07 5.50 0.31*6
0/0 0/0 0/0 0/0 0/0 0/0
644/645 735/736 7*0/741 731/732 739/7*0 7*1/7*2
0.001
1.209
0.057
0.16*2
O/ 0
2*9/2*9
0.001
1.191
0.053
0.1*79
O/ 0
2*7/2*7
0.78*
0.78*
0.783
0.0000
239/ 5
I/ 1
0.001
2.009
0.067
0.20*1
O/ 0
2*4/245
0.78*
O.TB4
0.783
0.0000
727/ 13
I/ 1
0.001
2.009
0.059
0.173*
O/ 0
7*0/741
0.024
9.7*5
0.870
l.*75*
O/ 0
2*9/2*9
0.025
6.857
0.493
0.8836
O/ 0
2*7/2*7
0.27*
0.27*
0.27*
0.0000
ITS/ 71
I/ 2
0.017
4.469
0.3*2
0.5*88
O/ 0
2*5/2*6
0.27*
0.27*
0.27*
0.0000
446/293
I/ 3-
0.017
9.7*5
3.570
1.0667
O/ 0
7*1/7*2
0.022
0.635
0.107
0.0953
O/ 0
249/2*9
0.034
0.719
0.120
0.0878
O/ 0
2*7/2*7
0.279
0.279
0.279
0.0000
231/ 14
I/ 1
O.020
3.02*
0.122
0.223*
O/ 0
2*5/2*6
0.279
0.279
0.279
0.0000
69«/ *1
I/ 2
0.020
3.02*
0.116
0.1*87
O/ 0
7*1/7*2
0.199
4.699
0.796
0.6975
O/ 0
2*9/249
0.215
7.1*9
1.217
1.0778
O/ 0
2*7/2*7
2.299
2.299
2.299
O.OOOO
22«/ 21
I/ 1
0.199
8.199
1.113
1.0567
O/ O
2*5/2*6
2.299
2.299
2.299
0.0000
676/ 6*
I/ 2
0.199
8.199
I.O*1
0.97*5
O/ 0
7*1/7*2
10
2*8
70
67.3
O/ 0
2*9/2*9
10
33*
73
68.9
O/ 0
2*7/2*7
3*
3*
34
0.0
95/148
I/ 3
10
291
73
6*. 1
O/ 0
2*5/2*6
3*
34
3*
0.0
300/435
I/ 7
10
33*
72
66.8
O/ O
7*1/7*2
0.0
1*2.0
18.6
25.1*
O/ 0
2*9/2*9
0.0
210.0
14.1
21.76
O/ 0
2*7/2*7
1.0
1.0
1.0
O.OO
13/2O4
I/ 29
0.0
90.0
9.6
1*.89
O/ 0
2*5/2*6
1.0
1.0
1.0
0.00
32/6*7
I/ 63
0.0
210.0
14.1
22.01
O/ 0
7*1/7*2
0
0
0
0.0
0
0
0
0.0
79
79
79
O.O
0
0
0
0.0
79
79
79
0.0
0
0
0
0.0
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
0.3
0.3
0.3
0.00
0.0
0.0
0.0
0.00
0.3
0.3
0.3
0.00
0.0
0.0
0.0
0.00
-------�
cm.*
TURB SECCMI
PM 00
TOT»LP ORTMOP NC2N03
HH3
KJEl
Pf"C
• KIN
0 0 "«
u i o «e»N
N N STOV
0 N
C/HR
I N H1N
0 0 MX
U I N HE*N
N 0 STOV
D 0 N
N 0/M
• HIM
0 0 M«X
U 2 0 HC»N
N • STOV
0 M
0/MR
II N MIN
0 0 MM
U 2 N PE»N
N 0 STOV
0 C M
t 0/hR
R HIN
C 0 MH
U 3 0 «t*N
N « STOV
0 M
0/MR
MIN
R
• MIN
0 » 0 N4X
u L c HCAN
ML" STOV
0 N
C/MR
5.7
22.9 O.*09
.78* 0.27* 0.2T9 2.299
3*
1.0
J9
O.3
N L 0 STOV
O 0 H
• 0/M
_- .* «.« • 7 99 o 0.909 0.784 0*274 0*279 2*299 34 1»0
2f*2 II 32 6*9 il? »I9 fcW O.TB* «.27» 0.279 2.299 3* !-•
S6-a J5 JJ J , j 7 HIS ol90S P.TS3 P.27» P.2T9 2.299 3* I-P
.„;•!; ^K «a „.!-.?; ^ -» *« ,;sr, ^s .srs .;.rs,..;;;, ^
-------�
GENUSrtCHNiNTMES
PARTIAL DEPTH VALUES
em. A
TURB SECCHl
00
TEMP TOTALP ORTHOP N02N03
NM3
KJEL «LK
CONC PERC
R
0 0
u i c
N C
0
R N
0 0
U 1 N
N a
0 C
c
a
o a
0 2 C
N C
0
a tt
9 0
U 2 N
N P
0 C
c
R
o a
v>c
« c
0
R N
a a
U 1 N
H 0
9 C
C
P
0 t P
U L C
•1 L C
0
R N
010
U L N
N L 0
0 C
C
HIM
MAX
NEAN
STOV
N
0/HR
MIN
MAX
MEAN
STOV
N
a/uR
KIN
MM
MEAN
STOV
N
C/WR
HIM
MAX
MEAN
STOV
*
C/WR
MIN
•AX
«E*N
STOV
N
0/WR
MIN
MIX
MEAN
STOV
N
n/K«
Mf U
nin
«AX
MEAN
STDV
!»
0/MR
MIN
MIX
MS IN
STOV
H
C/WR
0.1
100.*
13.8
17.66
I/ 9
41/217
0.1
3*5.6
22.4
44.5*
O/ 0
M6/247
2.0
141.2
Z1.7
30 .at
}/ 10
49/234
1.4
ws.o
37.6
67.97
O/ 0
198/2*7
l.Z
Z3T.O
19.1
33.92
4/ 1
54/2*2
0.6
2*1.4
24.3
34. 3«
O/ 0
193/Z47
081
• 3
217.0
II. 5
28.7!
I/ 9
1*4/731
0.3
191.0
28.9
S1.34
O/ 0
597/741
6 Z 6.8 1.2 7.Z 0.012
96 108 10.1 1Z.B 28.9 1.184
61 37 7.9 9.1 16.5 0.110
20.2 22.9 0. 58 1.79 6. OS 0.20*7
O/ 4 O/ 18 9/ 1 10/ 21/3 16/ 4
IS/183 41/211 41/239 41/233 41/247 41/229
8 3 9.3 0.7 6.8 0.004
100 212 10.6 19.2 28.8 1.719
72 45 7.9 8.9 17.7 0.12!
20.6 38. 2 0.71 2.06 1.49 0.2364
\t 0 I/ 0 O/ 0 O/ 0 O/ 1 0/0
1*2/186 208/248 208/249 204/241 2O7/247 2O8/Z49
14 12 6.2 3.3 21.7 O.O13
107 123 9.0 9.9 30.1 O.Z07
76 49 7.8 6.8 Z6.7 O.OS1
22.4 21.0 0.64 I.?! 1.99 0.0459
8/ 1 13/ 9 If 12 4/ 12 11 6 26/ 32
47/228 46/219 44/228 49/21O 49/Z13 49/189
4 1 4.1 3.0 17.3 0.004
121 222 10.6 17.8 32. Z 2.539
71 49 7.7 7.1 26.6 0.155
24.1 37.6 O.94 2.12 2.43 0.3099
O/ O 0/0 0/0 0/0 O/ 0 0/0
190/237 191/241 198/247 197/246 197/246 198/247
19 19 5.9 3.1 19.7 0.006
9T 134 10.3 9.5 27.0 0.396
79 51 T.7 6.8 20.9 0.067
It. 3 29.8 O.70 1.16 2.91 O.O681
9/ 2 IB/ 10 Z/ 0 If 14 3/ 5 Z/ 17
49/210 It/218 54/Z43 53/224 54/238 54/227
1 6 4.7 1.6 9.0 0.004
100 18* 10.0 13.1 29.6 4.149
73 10 7.6 7.3 20.3 0.179
24. T 36.4 0.87 1.69 3.33 0.4589
0/00/0 0/1 0/0 0/0 0/0
17Z/221 192/246 191/244 188/241 192/246 192/246
107 134 10.3 12. » 30.1 1.184
74 46 7.8 T.I 21.6 O.074
20.1 27.1 0.65 1.79 5.18 0.1222
!/ 1 It 21 ll/ Z 10/ 9 1/6 7/ 14
111/639 141/714 144/7Z8 143/713 144/733 I44/7ZI
1 1 4.1 0.7 6.8 0.004
171 212 10.6 19.2 12.2 4.149
72 48 7.7 T.8 21.1 O.152
23.4 17.4 0.87 2.11 5.48 0.3449
0/0 0/0 0/0 0/0 0/0 0/0
514/645 591/736 197/741 589/732 596/740 598/742
0.001
1.032
0.061
0.1784
Of 3
41/246
0.001
1.209
0.016
0.1617
a/ o
208/249
0.002
0.069
O.O11
0.0128
3/ 29
49/211
0.001
1.191
0.063
0.1631
O/ 0
198/247
0.001
0.253
O.021
0.0154
2/ 14
14/229
0.001
2.009
0.083
0.2340
O/ 0
191/241
0. 001
1.012
0.029
0.0994
Of 8
144/733
0.001
2.009
0.067
0.1884
Of 0
197/741
0.016
1.846
0.691
1.0769
14/ 6
41/229
0.024
9.74}
0.901
I.S411
Of 0
208/249
0.027
3.111
0.471
0.7784
If 7
49/219
0.021
6.857
0.499
O.9095
O/ 0
198/247
0.024
1.866
0.262
0. 3842
6/ 1
14/211
0.017
4.469
0.364
0.1844
Of 0
192/246
0.024
1.846
0.416
0.7326
6/ T
144/729
0.017
9.741
0.197
1.1221
Of 0
598/742
0.022
0.114
0.091
0.0908
Of I
41/248
0.024
0.63!
0.109
0.0962
If 0
208/248
0.036
0.325
0.106
0.0160
If 7
49/219
0.034
0.719
0.123
0.0938
Of 0
198/247
0.031
0.567
0.096
0.0806
if 5
54/236
0.020
3.024
0. 129
0.2488
Of 0
192/246
0.022
0.36T
0.10O
0.0760
It 7
144/714
0.020
3.024
0.120
0.1612
Of 0
198/742
0.199
2.611
0.633
0.5674
Of 9
41/24O
0.207
4.699
0.828
O.T172
If O
208/248
O.26S
3.799
0.914
0.7428
3/ 7
49/237
O. 215
7.149
1.292
1.1348
Of 0
198/247
0.221
4.399
0.8T2
0.7402
4/ 4
54/218
0.199
8.199
1.188
1.1223
Of 0
192/246
0. 199
4.399
0.818
0.7017
Of 10
144/732
0.199
8.199
1.097
1.0211
O/ 0
598/742
10
202
12
49. Z
Of 12
41/237
10
248
74
69.9
O/ 0
208/249
10
268
70
58.6
a/ 6
49/241
10
334
74
71.3
Of 0
198/247
1O
197
78
53.8
Of 14
14/232
10
291
71
66.7
Of 0
192/246
10
268
68
34.9
Of 8
144/734
10
334
71
69.1
Of o
598/742
0.0
112.0
16.7
21.66
Of 4
41/245
0.0
142.0
19.0
21.80
Of 0
208/249
2.0
101.0
13.7
17.91
28/ 4
49/215
O.O
210.0
14.2
25.03
Of 0
198/247
1.0
37.0
7.6
6.42
ll/ 14
14/219
O.O
90.0
10.2
16.46
Of 0
192/246
0.0
112. O
12.3
16.39
Of 7
144/735
0.0
210.0
14.6
23.18
Of 0
398/742
0
207
12
16.9
O
0
0
0.0
O
13300
135
1961.9
O
0
0
0.0
o
5198
159
721.3
0
0
0
0.0
0
13900
245
1238.9
0
0
0
0.0
0.0
7.1
0.4
1.14
0.0
0.0
0.0
0.00
O.O
24.1
2.9
5.76
O.O
O.O
0.0
0.00
0.0
12.7
l.O
2.11
0.0
0.0
O.O
0.00
O.O
24.1
J.I
3.79
0.0
0.0
0.0
0.00
-------�
GENUS : KHNANTHES
CHI*
TURS SCCCHl
PM
TEMP
PMTUL OtPTM VMUCS
O«THO» N02M33
WHS
KJEL
W/P
CONC PESC
• KIN
0 0 M»X
u i 3 MEAW
N H STOV
o «
C/"R
• N «IN
0 O MAX
U 1 N MEAN
N o STOV
0 0 tt
1 0/HH
• MI*
0 0 MX
U Z 0 MEAN
N M STOV
0 «K/>
0/M*
* N N1M
C 0 MAX
U 2 H MEAN
N 9 STOV
0 0 N
» 0/««
• MIN
0 D MAX
U 3 0 MEAN
N H STOV
0 N
C/u*
« N «IN
0 O MAX
U 1 N CEAN
N D STTV
0 0 *
1 0/MH
• DIN
0*0 MAX
U L 0 MEAN
NIX STOV
D N
Of UK
* N HIM
0*0 MAX
u L N ME«N
N L 0 STOV
0 0 N
1 0/*R
0.3 6 2 6.8
108.9 96 1*8 10.1
11.1 63 JT T.9
17.46 20.2 22.9 0.18
1/9 0/4 •/ 18 9/ 1
41/237 35/183 41/231 41/299
6.9 80 61 T.T
16.1 9« 95 8.4
11.6 92 7T 8.0
9.90 4.1 14.6 0.26
99/ ST 172/ 3 JS1/ 16 104/ 45
5/109 5/ 62 */ 16 S/ 98
2.0 14 12 6.2
141.2 10T 123 9.6
ZZ.6 T4 4T T.f
11.49 23.0 26. S 0.67
3/ 16 8/ 1 13/ 9 7/ 12
44/Z1* 42/228 42/219 44/228
ia.8 aa IT a.4
I P. a 88 ST 8.4
10.8 88 ST 8.4
o.oo 0.8 0.0 a.oo
126/120 I46/ 48 1T5/ 69 199/ 37
I/ 1 1/7 I/ Z 1/9
1.2 19 15 9.9
237.0 17 134 10.3
19.1 T9 91 T.T
34.22 19.4 10.0 3.70
4/1 «/ 2 18/ 10 2/ 0
93/242 48/210 93/218 91/24?
6.9 S8 ST T.T
18.1 90 99 8.4
11.9 91 T3 0.1
9.28 4.1 19.6 «.;a
29C/2Z9 461/ 7 93 O/ 79 118/127
6/262 A/179 9/12T 6/296
0.9 « 2 9.9
231.0 107 134 10.3
1«.8 74 49 7.0
29.32 20.2 27.1 0.66
1/9 I/ 1 I/ 21 It/ 2
HO/ Til 123/619 116/114 lle/TZa
3.2
12.8
9.3
1.79
Ifl/ 2
41/211
4.9
T.O
6.1
1.09
13/101
9/132
3.1
9.9
6.9
1.26
V 12
44/233
7.3
7.9
7.9
0.00
122/110
I/ 9
1.3
9.9
6.8
1.17
3/ 14
92/224
4.9
7.9
6.3
1.12
10/388
6/314
1.1
ia.a
7.6
1.T9
10/ 9
11T/M1
T.2
20.9
16.9
6.09
I/ O
41/247
23.2
28.1
26.3
2.02
i*/ ao
3/132
21.7
30.1
Z».T
2.01
7/ 6
44/233
19.9
19.9
19.9
0.00
114/129
I/ 3
13.1
2T.8
21.P
2.94
I/ 3
31/21a
19.9
ZO.l
23.2
3.17
282/ 83
6/373
T.2
30.1
21.3
3.62
I/ 6
138/713
0.012
1.184
0.110
0.2067
167 4
41/229
0.016
0.931
0.»29
0.0139
39/116
9/ 92
0.013
0.20T
0.093
O.O4TT
26/ 32
44/109
0.833
0.031
0.033
0.0000
79/163
I/ Z
0.036
0.196
0.06T
0.0686
2/ IT
33/227
0.016
O.091
0.029
0.9121
9T/1B1
6/297
0.006
1.104
O.OT6
0.1249
T/ 14
138/721
0.001
1.032
0.061
O.I 789
O/ 3
41/246
0.004
0.023
O.Oli
O.OPI6
22/ 76
9/144
0.032
0.069
O.PU
0.0134
I/ 29
44/219
0.011
3.011
0.011
0.0000
90/147
i/ a
0.0)1
0.293
0.022
0.0397
2/ 14
91/229
0.084
3,923
0.008
9.00 6O
69/268
6/404
0.001
1.032
0.030
0.1019
a/ o
in/113 :
0.056
9.846
0.691
1.0769
I*/ 6
41/229
0.072
3.191
0.175
1.1336
4B/ 7
5/192
0.027
2.694
0.430
0.7065
I/ 10
44/236
0.042
0.342
O.O42
0.0000
55/188
If 3
0.324
1.866
O.266
0.3866
6/ 5
93/235
0.842
3.191
0.693
1.2298
T6/ 29
6/641
0.024
5.846
0.447
0.7631
»/ 7
I38/T29
0.022
0.554
0.099
0.090 a
O/ 1
41/248
0.064
0.080
8.075
O.0065
47/198
I/ 42
0.036
0.329
0.109
0.0581
I/ 7
44/239
0.062
0.062
0.062
O.OOOO
93/191
I/ 2
0.019
0.967
0.099
0.0812
9/ 9
93/116
0.062
0.080
0.073
0.0080
216/J76
ft/ 1 90
0.022
0.567
0.101
9.0779
a/. T
136/714
0.199
2.611
0.633
0.9674
O/ 9
41/240
0.132
3.935
0.667
0.2645
12/115
3/120
0.265
3.799
0.94Z
0.7156
3/ 7
44/237
1.065
1.065
1.065
o.oroo
158/ 85
I/ 3
0.221
4.399
0.868
0.7468
4/ 4
93/238
0.332
1.069
0.734
0.2867
83/226
6/433
0.199
4.399
0.822
0.7146
O/ 10
118/732
10
2O2
52
49.2
a/ 12
41/237
61
182
114
92.4
140/ 17
9/ 90
10
268
69
97,7
O/ 6
44/241
166
166
166
0.0
219/ 25
I/ 2
10
19T
77
92.9
•/ 14
53/212
61
102
123
51.4
4Z3/ 63
«/296
to
268
66
94.0
O/ B
118/714
0.0
112.0
16.7
21.66
O/ 4
41/249
3.0
101.0
28.B
40.88
44/ 4
9/199
2.0
65.0
11.9
13.17
28/ B
44/211
3.0
9.0
3.0
o.oc
68/193
I/ 25
1.0
3T.B
7.7
6.45
I3/ 14
53/219
3.O
101.0
24.5
38.09
146/ 9
6/9BT
0.1
112.0
11.7
14.06
O/ T
130/739
O
20T
12
36.9
363
310B
106*
1171.0
O
13300
415
2033.2
1099
1099
1099
C.O
0
3198
141
716.2
363
31 98
1066
104T.5
a
13300
209
1237.4
0.0
7.1
O.4
1.34
12.3
24.1
18.1
4.81
0.0
9.2
1.2
Z.Z1
12. T
12.7
12.7
0.00
0.0
5.3
o.a
1.39
12.3
24.1
IT. 2
4.83
0.0
9.2
0.8
1.6B
-------�
GENUS:ACT|N»STPUM
CMLA
TURB SECCNI
00
PARTIAL DEPTH VAIUES
TEMP TOTAIP ORTMOP NO2N03
NMS
KJEL ALK
M/P
CONC PERC
0 0
u i c
N C
Q
R N
0 0
U 1 N
N 0
D 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
0
R N
0 0
U 3 N
N 0
0 C
C
R
0 A 0
u i c
NIC
0
g t|
0 A 0
U L N
N I 0
D C
C
MIN
WAX
MEAN
STOV
O/HR
NIN
MAX
MEAN
STOV
O/HR
MIN
MAX
MEAN
STOV
O/HR
MIN
MAX
MEAN
STOV
O/HR
MIN
MAX
MEAN
STOV
0/MR
MIN
•AX
MEAN
STOV
0/MR
MIN
MAX
MEAN
STOV
0/MR
NIN
MAX
MEAN
STOV
O/HR
2.7
188.6
36.9
43.20
28/ 4
28/215
0.3
355.6
18.9
40.81
3f 0
219/247
3.4
595.0
81.0
1 13. 34
15/ 0
29/232
1.4
456.6
28.2
49.34
Of 1
218/246
2.9
198.0
41.6
48.42
18/ 2
38/227
O.8
241.4
19.8
29.97
Of 0
209/247
2.7
395.0
52.3
75.20
52/ 0
95/689
0.3
456.6
22.4
41.19
Of 1
646/740
6 3
95 35
62 28
21.6 12.6
0/9 2/63
20/178 28/184
8 2
100 252
72 46
20.3 37.7
1/0 0/0
167/186 221/249
4 6
103 95
58 31
31.0 21.8
Of 2 I/ 26
26/235 29/214
5 1
121 222
74 51
22.5 36.7
1/0 0/0
211/236 212/241
I 6
97 69
65 30
27.5 14.5
Of 2 Of 54
31/219 38/192
3 7
1OO 185
76 54
22.0 36.3
1/0 1/0
190/220 238/245
1 3
103 95
62 30
27.2 16.3
Of 2 3/ 79
77/643 93/654
3 1
121 252
74 50
21.7 37.0
1/0 0/0
368/644 641/736
6.6
9.7
8.1
0.63
4/ 2
28/243
5.3
10.6
7.9
0.73
Of 0
221/249
7.2
10.3
8.2
0.73
55/ 1
29/191
4.1
10.6
7.7
0.90
Of 0
218/247
6.4
8.9
7.8
0.68
12/ 8
37/225
4.7
10.3
7.6
0.86
Of 0
208/245
6.4
10.3
8.0
0.69
SO/ 2
94/709
4.1
10.6
7.7
0.84
Of 0
647/741
6.3 10.7
15.5 28.7
9.5 18.1
1.86 4.83
18/ 1 17/ 2
27/226 28/229
0.7 6.8
19.2 28.9
8.9 17.4
2.04 3.69
0/0 0/0
218/245 220/248
4.5 23.8
16.0 30.5
7.7 27.2
2.98 2.13
13/ 1 21/ 3
28/232 29/222
3.0 17.3
17.8 32.2
6.9 26.5
1.80 2.37
0/0 0/0
218/246 217/246
2.8 14.8
13.5 29.6
7.5 21.1
2.18 3.10
2/0 5/0
36/239 37/241
1.6 9.0
11.4 29.0
7.3 20.3
1.49 3.26
0/2 0/1
203/239 209/243
2.8 10.7
16.0 30.)
8.1 22.1
2.50 5.01
4/ 2 18/ 3
91/726 94/719
0.7 6.8
19.2 32.2
7.7 21.4
2.00 3.56
0/0 0/0
641/732 646/740
0.030
1.159
0.142
0.2220
68/ 5
28/176
0.004
1.719
0.120
0.2330
Of 0
221/249
0.021
1.399
0.356
0.4736
55/ 1
29/191
0.004
2.559
0.105
0.2307
Of 0
218/247
O.022
3.084
0.339
0.3904
51/ 1
38/194
0.004
4.549
0.121
0.3582
Of 0
208/246
0.021
3.084
0.287
0.4765
147/ 1
95/594
0.004
4.549
0.115
0.2784
Of 0
647/742
0.093
0.851
0.058
0.1580
27/ 4
28/218
0.001
1.209
0.057
0.1654
Of 0
221/249
0.003
1.191
0.180
0.3325
9/ 0
29/238
0.001
0.594
0.036
0.0899
Of 4
218/243
0.005
2.009
0.191
0.4120
IS/ 0
38/230
0.001
1.255
O.O48
0.1339
Of I
207/244
0.003
2.009
0.149
0.3323
38/ 0
95/703
0.001
1.235
O.O47
0.1336
Of 1
646/740
0.054 0.045 0.348 20
7.357 0.524 3.000 227
1.337 0.127 1.042 99
2.2471 0.1238 0.7983 64.2
ll/ 2 30/ 3 45/ 4 86/ 3
28/236 28/216 28/200 28/160
0.024 0.022 0.199 10
9.745 0.635 4.699 248
0.811 0.104 0.765 66
1.3427 0.0911 0.6794 67.0
0/0 0/0 0/0 0/0
221/249 221/249 221/249 221/249
0.027 0.041 0.332 10
4.274 0.719 3.699 240
0.746 0.135 1.780 82
1.1881 0.1214 1.2424 68.5
1/2 9/0 12/ 30/9
29/244 29/238 29/232 29/238
0.025 O.034 0.21S 10
6.857 0.565 7.149 334
0.460 0.117 1.142 72
0.8327 0.0825 1.0342 69.0
0/0 Of 1 Of 0 Of O
218/247 218/246 218/247 218/247
0.027 0.020 O.243 14
1.959 3.024 8.199 241
0.442 O.196 1.680 81
0.5230 0.5012 1.6639 57.0
17/ 4 0/0 8/0 32/ 3
38/225 38/246 38/238 38/211
0.017 0.031 0.199 10
4.469 0.974 6.000 291
0.323 0.109 1.O16 71
0.3513 0.1134 0.8715 65.3
0/0 1/2 0/1 Of O
208/246 208/243 208/245 238/246
0.027 0.020 O.243 10
7.557 3.024 8.199 241
0.799 O.I57 1.523 86
1.4550 0.3297 1.3534 62.7
20/ 20/0 18/ 0 Of 13
95/720 95/742 99/724 95/729
0.017 0.022 0.199 10
9.745 0.974 7.149 334
0.536 0.110 0.972 73
0.9933 0.0962 0.8859 67.1
Of O 1/2 0/1 0/0
647/742 647/739 647/741 647/742
0.0
84.0
17.3
22.34
Of 9
28/240
0.0
142.0
18.8
25.51
Of 0
221/249
0.0
34.0
6.6
8.27
Of 26
29/221
0.0
210.0
15.1
24.95
O/ 0
218/247
O.O
21.0
4.6
4.66
Of 21
38/225
0.0
90.0
10.5
15.89
Of 0
208/246
0.0
84 .O
8.9
14.24
Of 19
95/723
0.0
210.0
14.9
22.87
Of 0
647/742
0
1294
181
304.8
0
0
0
0.0
0
2646
269
579.8
0
0
O
0.0
0
1600
154
376.0
0
0
0
0.0
0
2646
197
430.0
0
0
0
0.0
0.0
3«.2
2.6
7.70
0.0
0.0
0.0
O.OO
O.O
9.4
1.0
1.91
0.0
0.0
0.0
O.30
0.0
5.8
0.7
1.24
0.0
O.O
O.O
o.oo
O.O
39.2
1.9
4.41
O.O
O.O
0.0
0.00
-------�
GENUS:«CTINA STRUM
CMIA
TURB SECCHI
00
PARTIAL DEPTH VALUES
TEMP TOTALP ORTHOP N02N03
NH3
KJEL «LK
N/P
CONC PERC
II
0 0
u i o
H N
0
• N
0 0
U 1 N
N 0
0 0
N
II
0 0
U Z 0
N N
D
II N
0 0
U 2 N
N 0
0 9
1
II
O 0
U 3 0
N M
0
• N
0 0
U 3 N
N 0
0 0
N
•
0 » 0
U L 0
N L *
O
• N
0*0
U L N
N L D
D 0
n
riN
MAX
MEAN
STOV
N
0/MR
HIN
MM
MEAN
STOV
M
0/M*
MIN
MM
MEAN
STOV
N
0/M II
NIN
MAX
MEAN
STOV
N
O/M*
MIN
MAX
MEAN
STOV
N
0/MR
MIN
MAX
MEAN
STOV
N
0/MR
MIN
MAX
MEAN
STOV
N
0/MR
NIN
MAX
MEAN
STDV
N
0/MR
Z.T
4.4
3.5
1.20
28/182
2/ 37
9.2
188.6
39.9
43.82
61/ 4
26/162
3.4
595. •
81. P
113.34
IS/ •
29/232
Z.9
19S.O
41.6
4S.42
IS/ 2
38/22T
2.T
4.4
3.5
1.20
52/606
2/ 83
Z.9
595.0
53.3
7S.6T
6Z/ 0
93/679
67
79
73
8.5
67/ 79
2/ 41
6
95
61
22.4
O/ 9
18/178
4
1*3
ft
31.0
• / 2
26/235
1
97
65
27.9
O/ 2
31/219
67
79
73
8.5
190/333
2/122
1
133
61
27.5
O/ 2
75/643
26
30
28
2.8
94/130
2/ 25
5
55
28
13.1
Z/ 63
Z6/184
6
95
31
21.8
I/ 26
29/214
6
69
38
14.9
O/ 54
38/192
Z6
30
ZS
2.8
208/461
11 67
5
95
30
16.7
3/ 79
93/614
6.6
6.8
6.7
0.14
4/232
Z/ 13
7.5
9.7
8.2
•.58
59/ Z
26/188
7.Z
10.3
8.2
0.73
55/ 1
29/191
6.4
8.9
7.8
0.68
12/ 8
37/225
6.6
6.8
6.7
0.14
46/631
2/ 64
6.4
10.3
8.1
0.67
SO/ 2
92/709
6.3
6.7
6.5
0.28
18/215
2/ 12
6.7
15.5
9. T
1.72
26/ 1
25/218
4.5
16.0
7.7
2.98
IS/ 1
28/232
2.8
13.5
7.5
2.18
2/ 0
36/239
6.3
6.7
6.5
0.28
152/501
2/ 79
2.8
16.0
a.z
2.52
*/ 2
89/726
23.5
23.7
23.6
0.14
189/ 55
2/ 4
10.7
28.7
17.7
4.75
17/ 1
26/229
23.8
30.3
27.Z
2.13
21/ 3
29/222
14.8
29.6
21.1
3.10
9/ 0
37/241
23.5
23.7
23.6
•.14
406/322
Z/ 12
10.7
30.9
Z2.1
9.06
IB/ 3
92/719
9.041
(.872
O.P36
0.0219
•9/100
Z/ 60
0.038
1.159
0.149
O.2293
68/ 5
26/176
0.021
1.599
0.356
0.4736
55/ I
29/191
0.022
3.084
0.339
0.5904
SI/ 1
30/194
0.841
0.072
0.056
•••219
294/292
2/196
0.021
3.084
O.Z91
0.4804
147/ 1
93/994
0.309
•.012
P.P10
O.OOZ1
102/113
2/ 34
•.883
0.851
0.062
0.1636
27/ 4
26/218
0.003
1.191
0.180
0.3329
9/ 0
29/238
0.009
2.009
0.191
0.4120
IS/ 0
38/230
8.809
O.C12
0.010
0.8021
279/361
2/109
0.003
2.009
0.192
0.3352
38/ 0
93/703
0.486
0.631
0.558
0.1025
156/ 82
Z/ 11
0.054
7.557
1.397
2.3240
ll/ 2
26/236
O.027
4.274
0.746
1.1881
It 2
29/244
0.027
1.959
O.442
0.9230
17/ 4
38/225
0.486
0.631
0.558
0.1*29
939/169
2/ 34
0.027
7.997
•.804
1.4703
201 2
93/720
0.199
0.299
0.248
0.0707
2Z7/ 13
Z/ 9
0.049
0.924
0,118
0.1228
30/ 3
26/216
O.O41
0.719
0.13S
0.1214
11 0
29/238
0.020
3.024
0.196
0.9012
O/ •
38/246
0.199
0.299
0.248
0.07*7
664/ 35
Z/ 43
0.020
3.024
0.155
0.3329
O/ 0
93/742
0.440
0.73*
0.594
0.2192
S9/ 86
2/ 74
0.348
3.000
1.077
0.8180
43/ 4
26/288
0.332
5.699
1.780
1.2424
1Z/ 3
29/Z32
0.243
8.199
1.600
1.6639
•/ •
31/238
0.448
P.73P
0.994
0.2192
183/362
2/197
0.243
8.199
1.543
1.3608
!•/ •
93/724
20
23
22
2.1
86/133
2/ 10
20
227
185
62.7
86/ 3
26/168
10
240
82
68.5
C/ 9
29/238
14
241
81
57.0
32/ 3
38/211
20
23
22
Z.I
208/490
Z/ 44
10
241
88
62.7
O/ 13
93/729
16.0
21.0
18.5
3.54
163/ 60
2/ 26
0.0
84.0
17.2
23.21
O/ 9
26/24*
0.0
34.0
6.6
• .27
O/ 26
29/221
0.0
21. •
*.«•
4.66
•/ 21
38/Z2J
16.0
21.0
16.5
3.94
576/114
V 92
0.0
84.0
8.7
14.31
O/ 19
93/723
234
554
394
226.3
0
1294
165
307.3
0
Z646
269
579.8
0
160*
194
376.0
234
354
394
2Z6.3
0
2646
193
433.0
14.4
39.2
26.8
17.55
0.0
3.7
8.7
1.08
0.0
9.4
1.0
1.91
0.0
3.8
0.7
1.24
14.4
39.2
Z6.8
17.99
0.0
9.4
0.8
1.44
-------�
GENUS: ANPHIPLEURA
CHI*
TURB SECCHI
00
TE«P
PARTIAL DEPTH V4LUES
TOTAIP ORTHOP N02N03
NH3
KJEL ALK
H/P
CONC PERC
R
0 0
U 1 C
N C
0
• N
0 0
U 1 N
N O
0 C
c
R
0 1
U 2 C
N C
D
R N
0 0
U 2 N
N O
0 C
C
R
0 0
U 3 C
N C
D
a N
0 O
U 3 N
N 0
D C
C
P
0*0
U L C
N L C
0
4 N
0 » 0
U 1 N
N L 0
D C
C
NIN
NIX
MEAN
STOV
N
0/M4
NIN
NAX
MEAN
STDV
N
0/HR
NIN
NAX
MEAN
STDV
N
O/HR
NIN
MAX
MEAN
STDV
M
0/UR
MIN
NAX
NEAN
STDV
N
0/m
NIN
OAK
MEAN
STOV
N
0/UR
NIN
(•AX
NEAN
STDV
N
0/WR
0.3
3SS.6
21.0
41.40
O/ O
247/2*7
I.*
59S.O
3*.*
62.58
O/ 0
2*7/2*7
0.8
O.B
O.8
0.30
0/245
I/ 2
0.8
2*1.4
23.3
34.31
O/ 0
246/2*7
0.8
0.8
0.8
0.00
6/732
I/ 3
0.3
595.0
26.2
*7.9S
O/ 0
7*3/7*1
6
100
71
20.6
O/ 0
187/187
*
121
72
2*. 0
O/ 0
237/237
91
91
91
0.0
no/ «2
I/ 1
1
100
7*
23.1
O/ 0
220/221
91
91
91
0.0
117/104
I/ 2*
1
121
72
22.7
O/ 0
6*4/6*}
2
252
44
36.2
O/ O
2*9/249
1
222
49
31. 8
O/ O
2*1/241
63
63
63
0.0
188/ 57
I/ 1
6
185
SO
33.0
O/ 0
2*5/246
63
63
63
0.0
576/155
I/ 3
1
212
48
31.7
O/ 0
735/736
5.3
10.6
7.9
0.73
O/ 0
2*9/244
4.1
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
0.84
or o
2*4/245
6.8
6.8
6.8
0.00
80/631
If 30
4.1
10.6
7.8
0.83
O/ 0
7*0/7*1
0.7 6.8 0.004 0.001 0.024 0.022
19.2 28.9 1.719 1.209 9.745 0.635
9.0 17.5 0.123 0.057 0.870 0.1O7
2.02 5.59 0.231* 0.1642 1.475* O.O9S3
0/0 0/0 0/0 0/0 0/0 0/0
2*5/2*5 2*8/2*8 2*9/2*9 2*9/2*9 2*9/2*9 2*9/2*9
3.0 17.3 0.004 0.001 O.02S 0.034
17.8 32.2 2.S59 1.191 6.857 0.719
7.0 26.6 0.134 0.053 0.493 0.12O
1.98 2.35 0.2811 0.1479 0.8836 0.0878
0/0 0/0 0/0 0/0 0/0 0/0
246/246 246/246 247/247 247/247 247/247 247/247
5.7 21.6 0.016 0.005 0.800 O.OS9
5.7 21.6 0.016 0.035 0.800 0.059
5.7 21.6 0.019 0.005 0.800 O.O58
0.00 0.00 O.OOOO O.OOOO O.OOOO O.OOOO
29/207 161/ 82 30/211 19/217 209/ 36 78/159
1/5 1/3 1/5 I/ 13 I/ I 1/9
1.6 9.0 0.004 O.OO1 O.O17 0.020
13.5 29.6 4.549 2.009 4.469 3.02*
7.3 20.* 0.155 3.070 0.340 0.123
1.61 3.25 0.4098 0.2092 0.5481 0.2236
0/0 0/0 0/0 0/0 0/0 0/0
240/241 245/2*6 245/246 244/245 245/246 245/246
5.7 21.6 O.OI6 0.005 O.80O 0.059
5.7 21.6 0.016 0.005 0.800 0.059
5.7 21.6 0.015 O.005 0.800 0.058
0.00 0.00 0.0000 0.0000 0.0000 0.0000
92/627 3*8/389 97/632 106/583 597/1** 184/537
I/ 13 I/ 3 I/ 13 I/ 52 I/ 1 I/ 21
0.7 6.8 0.004 0.001 0.017 0.020
19.2 32.2 4.549 2.009 9.745 3.024
7.8 21.5 0.137 0.060 0.569 0.116
2.07 5.50 0.3159 0.1754 1.0*47 0.1*88
0/0 0/0 O/ O 0/0 O/ 0 0/0
731/732 739/7*0 7*1/7*2 7*0/7*1 7*1/7*2 7*1/742
0.199
4.699
0.796
0.6975
O/ 0
2*9/2*9
0.215
7.1*9
1.217
1.0778
O/ 0
247/247
0.357
0.357
O.356
0.0000
39/2O5
I/ 2
0.199
8.199
1.121
1.0583
O/ 0
245/246
0.357
0.357
0.356
0.0000
108/630
I/ 4
0.199
8.199
1.044
0.9753
O/ 0
7*1/7*2
10
248
70
67.3
O/ 0
249/2*9
10
33*
73
68.9
O/ 0
247/247
20
20
2O
0.0
64/176
I/ 6
10
291
73
64.1
O/ 0
245/246
20
20
20
0.0
208/520
I/ 14
10
334
72
66. T
O/ 3
741/742
0.0
142.0
18.6
25.1*
O/ O
2*9/2*9
0.0
210.0
14.1
23.76
O/ 0
247/247
SI.O
91.0
91.0
0.00
23S/ 10
I/ 1
0.0
90.0
9.4
14.67
O/ 0
249/246
51.0
51.0
91.0
o.oo
691/ SO
I/ 1
0.0
210.0
14.1
22.01
O/ 0
741/7*2
0
0
0
O.O
0
0
0
0.0
0
0
0
0.0
0
0
0
0.0
0
0
0
0.0
0
0
0
0.0
0.0
0.0
O.O
0.00
O.O
0.0
O.O
o.oo
0.0
0.0
0.0
0.00
0.0
0.0
0.0
o.oo
O.O
O.O
O.O
0.00
0.0
0.0
O.O
0.00
-------�
GENUS:AMPHIPLEURA
CHI*
TURS SECCH!
00
TEMP
PARTIAL DEPTH VALUES
TOTALP ORTHOP SOZN03
NH3
KJEL ALK
N/P
CONC PEP.C
•
0
U
N
0
R
0
U
N
0
ft
•J
U
N
0
R
0
U
N
D
R
0
U
M
0
R
0
U
n
0
t
e
u
k
0
R
0
u
N
0
1
1
Z
2
3
3
A
I
L
A
t
0
0
M
N
0
N
0
o
N
0
0
M
*
0
N
0
0
N
0
0
M
N
0
N
0
0
N
D
0
N
N
0
N
0
0
1
MIN
MAX
»t»H
STOV
N
C/MR
MIN
MAI
MEM
STOV
N
0/HR
MIN
MAX
MEAN
STOV
*t
0/MR
NIN
MAX
MEAN
STOV
N
0/MR
NIN
PAX
MEAN
STOV
N
0/HR
MIN 0.8 91 63 6.0 9.7 21.6 O.O16 0.009 0.800 0.099 0.397 2O 91.0
MAX 0.8 91 63 6.8 9.7 21.6 O.016 8.909 0.899 0.099 0.397 2O 91. 0
MEAN 0.8 91 63 6.0 9.7 21.6 0.019 3.009 0.899 0.090 0.396 20 91.0
S70V 0.00 0.0 0,0 0.00 O.OO O.OO 0.0000 0.0000 O.OOOO 0.0000 0.000* 0.0 0.00
N 0/249 170/ 42 18B/ 97 39/189 24/207 161/ 82 30/211 13/217 209/ 36 78/199 3*/fft 64/176 239/ to
O/M 1/2 1/9 1/1 If n 1/9 1/3 1/9 If 11 1/1 1/9 1/2 1/6 1/1
MIN
MAX
MEAN
STOV
*
O/M«
MIN O.S 91 63 6.8 9.7 21.6 0.016 0.005 0.800 0.099 0.397 20 91.0
MAX 0.8 91 63 6.8 9.7 21.6 9.016 O.OJS 0.800 0.099 0.397 20 91.0
MEAN o.e 91 63 6. a 9.T 21.6 0.819 8.009 0.809 o.osa 4.1*6 20 91.0
STDV 0.00 0.0 0.0 0.00 0.00 O.OO O.OOOO 0.0000 0.0090 0.9000 0.0300 0.0 0.00
N 6/732 917/104 976/1*9 SO/631 92/627 149/389 97/632 106/983 997/144 184/S1T 1OO/630 206/920 691 / 90
0/HR I/ 3 I/ 24 I/ 3 1/30 I/ 13 I/ 3 I/ 13 I/ 92 I/ 1 I/ 21 I/ 4 I/ 14 I/ 1
0 0.0
0 0.0
0 0.0
0.9 0.09
0 0.0
0 0.0
0 0.0
9.9 0.09
-------�
GENUSlAMPHIPPORA
CHI A
TUPB SKCNI
PH
00
TEMP
PARTIAL DEPTH VALUES
TOTALP OSTHOP N02N03
NM3
KJEL ALK
N/P
oo
CONC PERC
p
0 0
U 1 C
N C
0
• M
0 0
U 1 N
N 0
0 C
C
•
0 0
U 2 C
N C
0
R H
0 0
U 2 N
N 0
0 C
C
R
0 0
U 3 C
N C
o
• N
0 0
DIN
N 0
0 C
C
•
0 A 0
U I C
NIC
0
R N
0*O
U 1 N
N I O
0 C
C
MIN
MAX
MEAN
STOV
N
0/MR
MIN
MAX
MEAN
STPV
N
0/MR
HIM
MAX
MEAN
STOV
N
0/MR
MIN
MAX
MEAN
STOV
N
0/MR
MIN
MAX
MEAN
STOV
N
O/HR
NIN
MAX
MEAN
STOV
N
0/MR
NIN
MIX
MEAN
STOV
N
P/MR
NIN
MAX
MEAN
STOV
N
0/MR
5. 2
49.1
22. 5
1T.TS
ei/ 20
7/1*6
0.3
355.6
20.9
41.90
O/ 0
2*0/2*7
112.1
112.1
112.1
0.00
230/ 16
I/ 1
1.*
595.0
34.1
62.51
O/ 0
2*6/247
6.6
198. O
66.2
TT.62
7T/ 2
5/168
0.8
2*1.4
22.3
32.55
O/ 0
2*2/2*7
5.2
198.0
46.2
54.98
I68/ 11
13/5*2
0. 3
395.0
25.8
*T.T6
O/ 0
728/7*1
63 6
96 108
80 »5
23.3 *1.9
*9/ * */ 18
2/13* T/227
6 2
100 252
70 **
20.6 36.1
0/0 0/0
185/187 2*2/2*9
51 9
51 9
51 9
O.O O.O
45/190 7/229
1/2 1/5
* 1
121 222
T2 *9
24.0 35.8
0/0 0/0
236/237 2*0/241
23 12
86 58
S3 26
27.7 19.3
12/ 84 7/ 67
S/ 125 S/172
1 6
100 185
75 51
22. 8 35. 1
0/0 0/0
216/221 241/246
23 6
«6 108
59 35
26.0 34.0
33/ 18 !/ 59
8/59* 1 1/672
1 1
121 252
72 *8
22.7 35.7
0/0 0/0
637/645 725/736
7.6 8.2
8.4 10.1
8.2 9.3
0.29 0.71
72/ *5 6*/ 57
7/132 7/124
5.3 0.7
10.6 19.2
7.9 9.0
0.73 2.05
0/0 0/0
2*2/2*9 238/2*5
8.7 8.0
8.7 8.0
8.7 8.0
0.00 0.00
219/ 22 187/ 55
1/6 1/4
4.1 3.0
10.6 17.8
7.8 7.0
0.19 1.98
0/0 0/0
246/2*7 245/246
6.5 8.0
8.8 13.5
8.0 9.7
0.94 2.23
19/ 12 160/ 0
5/214 5/ 81
4.7 1.6
10.3 12.7
7.6 7.3
0.83 1.56
0/0 0/1
240/2*5 236/240
6.5 8.0
8.8 13.5
8.2 9.4
0.61 1.46
«0/ 49 404/ 7
13/612 13/321
4.1 0.7
10.6 19.2
7.7 7.7
0.83 2.07
0/0 0/0
728/7*1 719/732
12.2
15.1
14.0
1.00
39/135
7/ 74
6.8
28.9
17.6
5.64
O/ 0
241/248
25.0
25.0
25.0
O.OO
66/173
I/ 7
17.3
32.2
26.6
2.35
O/ 0
245/246
12.6
18.8
15.4
2.24
1/165
5/ 80
9.0
29.6
20.5
3.18
O/ 0
241/246
12.2
25.0
15.4
3.32
40/231
13/469
6.8
32.2
21.6
5.46
O/ 0
727/740
0.022 0.002
0.259 0.098
0.108 0.036
0.0817 0.0353
*3/ 18 10/ 21
7/188 7/218
0.004 0.001
1.719 1.209
0.123 0.058
0.2344 0.1663
0/0 0/0
242/249 242/249
0.270 0.092
0.270 0.092
0.270 0.092
0.0000 0.0000
22 1/ 25 22 1/ 25
1/1 1/1
0.004 0.001
2.559 1.191
0.134 0.053
0.2816 0.1482
0/0 0/0
246/247 246/247
O.013 0.011
0.422 0.132
0.214 0.061
0.1829 0.0536
22/ 16 90/ 21
5/206 5/13*
0.00* 0.001
4.549 2.009
0.153 0.070
0.4125 0.2108
0/0 0/0
241/2*6 240/24$
0.013 O.OO*
0.422 0.132
0.161 0.050
0.1352 0.0434
67/ 47 I*/ 59
13/628 13/668
0.004 0.001
4.5*9 2.009
0.137 0.060
0.3180 0.1768
0/0 0/0
729/7*2 728/7*1
0.21* 0.035
2.096 0.229
0.697 O. 102
0.6784 0.0703
91/ 27 16/ 17
7/131 7/216
0.024 0.022
9.745 0.635
0.875 0.107
1.4926 0.0960
0/0 0/0
242/249 242/249
0.159 0.119
0.159 0.119
0.158 O.119
0.0000 0.0000
126/120 162/ 82
1/1 1/3
0.025 0.034
6.857 0.719
0.495 0.120
0.8852 0.0880
Of O 0/0
246/247 246/247
0.034 0.036
0.409 0.107
0.370 0.067
0.3629 0.0255
35/ 30 9/ 70
5/181 5/167
O.O17 0.020
4.469 3.024
0.341 0.123
0.5514 0.2253
O/ 0 0/0
241/246 241/246
0.014 O.035
2.096 0.229
O.S30 0.090
0.5590 0.0553
48/ 45 22/ 57
13/649 13/663
0.017 O.O20
9.745 3.024
0.570 O.117
1.0731 0.1498
0/0 0/0
729/742 729/742
0.418 11
1.074 248
0.852 178
0.2559 76.1
78/ 4O 35/ 0
7/131 7/214
0.199 10
4.699 240
0.794 67
0.7064 64.6
0/0 O/ 1
242/249 242/248
2.875 280
2.875 280
2.875 280
O.OOOO 0.0
229/ 17 2*3/ 3
1/1 1/1
0.215 10
7. 149 J34
1.210 73
1.0748 67.7
-------�
GENUSlAHPHIPRQPA
CHLA
TURB SECCHI
PARTIAL DEPTH VALUES
oo TEHP TOTALS ORTHOP N02N03
NM3
KJEL ALK
N/P
CONC PBRC
M
O 0
U 1 0
N H
O
II N
0 0
U 1 1
N 0
0 0
N
«
0 0
U 2 0
tt H
0
H N
0 0
U 2 N
N D
0 O
N
*
O 0
U 3 0
N «
0
P N
0 0
U 1 M
N 0
0 C
N
R
0*0
U L 0
N L N
0
It N
0*0
U L N
H L 0
0 0
f
NIN
MAX
»EAN
STOV
N
0/MR
NIN
N«X
MEAN
STOV
N
0/MR
HIN
MAX
MEAN
STOV
M
0/MR
MIN
MAX
MAN
STOV
N
0/MR
MIN
MAX
MEAN
STOV
N
C/MR
MIM
MAX
MEAN
STOV
N
0/HR
MIN
MAX
MEAN
STOV
N
C/MR
MIN
MAX
MEAN
STOV
N
0/MR
J.2
49.1
22.3
17.75
81X 20
7/1*6
112.1
112.1
112.1
0.00
230/ 16
I/ 1
6.6
148.0
66.2
77.62
7T/ 2
3/168
3.2
198.0
46.2
34.98
16 8/ 11
11/362
69
96
80
23. 3
49/ 4
2/134
31
51
31
0.0
43/190
I/ 2
23
86
53
27. 7
12/ 84
3/123
23
96
39
26.0
33/ 18
S/594
6
108
45
41.9
4/ 18
T/22T
9
9
9
0.0
7/229
I/ 5
12
58
26
19.3
T/ 67
3/172
6
108
35
34.0
3/ 59
IS/672
7.6
8.4
8.2
0.29
72/ 45
7/132
8.7
8.7
8.7
O.OO
21W 22
I/ 6
6.5
8.8
8.0
0.94
19/ 12
3/214
6.5
8.8
8.2
0.61
40/ 49
13/652
8.2
10.1
9.3
0.71
64/ 57
7/124
8.0
8.0
8.9
O.OP
187/ 55
I/ 4
a.o
13. f
9.7
2.23
160/ 0
5/ 81
8.3
13.5
9.4
1.46
404/ T
13/321
12.2
15.1
14.0
1.00
39/133
7/ 74
25.0
25.0
25.0
O.OO
66/173
I/ 7
12.6
18.8
15.4
2.24
1/165
5/ 80
12.2
25.0
15.4
3.32
49/231
11/469
C.022
0.259
0.108
0.0817
43/ 18
7/188
0.270
0.270
8.27*
0.0000
22 1/ 25
I/ 1
0.013
C<.»22
0.214
8.1829
22/ 16
3/208
0.313
0.422
0.161
3.1352
67/ 47
13/628
0.002
0.898
0.036
0.0353
10/21
7/218
0.092
0.092
•.092
O.OOOO
221/ 25
I/ 1
(.811
0.132
0.061
0.0336
90/ 21
3/134
0.032
0.132
0.050
0.0434
I*/ 59
13/668
0.214
2.896
0.697
0.6784
91/ 27
7/131
0.159
0.159
8.158
0.0000
126/120
I/ 1
0.034
P.P09
0.370
8.3629
IS/ 30
5/181
3.334
2.096
0.330
0.3590
48/ 43
13/649
0.035
0.229
0.102
0.0703
16/ 17
7/216
0.119
0.119
8.119
O.OOOO
162/ 82
I/ 3
8.836
f. 107
0.067
8.0255
9/ 70
5/167
0.035
0.229
0.090
0.0553
22/ 57
13/663
0.418
1.874
O.CJ2
0.2539
78/ 48
7/131
2.875
2.875
2.875
0.0000
229/ 17
I/ 1
8.284
1.974
1.340
O.T167
I/ 29
5/216
0.20*
2.875
1.195
0.7252
2/ 48
13/700
11
248
178
76.1
35/ 8
7/214
280
280
268
3.0
243/ 3
I/ 1
18
241
152
107.7
O/ 3
3/243
10
280
IT*
88.9
f/ 5
13/737
3.0
42. •
13.4
15.67
34/ 3*
7/163
1.0
1.0
!-•
0.30
12/219
I/ 16
1.0
7.0
3.2
2.49
137 83
5/158
1.3
42.*
s.;
12.4T
32/ 64
13/6*4
0
11
2
4.2
0
0
•
0.0
•
0
o
o.o
0
11
1
3.1
0.0
•.3
0.0
0.10
0.0
o.o
0.0
0.30
8.0
o.a
o.o
0.00
o.o
8.3
0.0
0.07
-------�
GENUS:AM»HO»A
PARTIAL DEPTH VALUES
CHLA
TURB SECCHI
DO
TEMP TOTALP ORTMOP N02NO1
NH1
KJEL AlK
N/P
COMC PERC
to
O
0 MtN
0 0 MAX
U 1 C MEAN
N C STOV
0 N
0/WS
R N M]N
0 0 MAX
u l N MEAN
N 0 STOV
D C N
C 0/Nft
• HIM
O 0 MAX
U Z C HEANJ
N C STOV
0 N
O/MR
R N NIN
O 0 "AX
u z N MEAN
ft 3 STDV
0 C N
C 0/KR
• "JIN
O 0 MAX
use MEAN
1 C STOV
O N
O/tlR
R N HIM
a a HAX
U 3 N MEAN
N O STOV
0 C N
C 0/WR
4 MIN
0 A 0 MAX
U L C "EAN
s t e STOV
0 N
0/WR
R H N[N
0 A 0 MAX
U L N NEAN
N L 0 STOV
0 C N
C 0/WR
1.6
49.0
21.9
24. *l
US 21
3/219
0.3
3)5.6
20.9
41.59
O/ 0
2*4/2*7
7.8
Z5S.7
TZ.T
124.03
7»/ 3
4/169
1.4
5»S.O
33.8
61.37
O/ 0
243/2«T
S.T
99. S
33.5
39.60
30/ 8
S/Z09
o.a
Z41.4
23.0
34.20
O/ 0
242/2*7
1.6
2*8.7
43.6
73.23
22/ 4
12/715
0.3
595.0
21.9
47.42
O/ 0
7Z9/74I
53
95
74
29.7
JJ/ 9
2/I4S
6
100
71
20.6
O/ 0
IBS/ 187
5
92
65
40. Z
I/ 29
4/20T
4
1Z1
7Z
23.7
O/ 0
233/Z37
50
96
80
17.8
3l/ 7
5/183
1
too
74
23.2
O/ 0
216/221
5
96
73
Z7.4
3/ 18
11/624
1
121
72
22.7
O/ 0
614/6*5
18 T.S
34 8.6
24 7.9
8.5 0.59
43/117 59/ 26
3/ 89 3/164
2 5.3
252 10.6
44 7.9
36.3 0.73
0/0 0/0
246/249 2*6/249
10 T.9
98 9.4
48 8.4
36.6 0.69
12/ 24 126/ 6
4/205 4/115
1 4.1
2ZZ 10.6
49 7.8
35.9 0.89
0/0 0/0
237/2*1 243/247
ZZ 7.5
78 8.9
51 7.9
ZZ. 4 0.57
*8/ 41 106/ 8
5/157 5/131
6 4.7
18* 10.3
50 7.6
3*. t 0.8*
0/0 0/0
2*1/2*6 2*0/2**
10 7.5
98 9.4
44 8.1
26.* 0.60
JO/ 7J 24*/ 17
12/631 12/479
1 *.l
252 10.6
48 7.7
35.9 0.81
0/0 0/0
724/736 729/7*1
6.7 12.3
8.9 Z6.8
7.8 20.1
1.56 7.31
26/140 *t/ 15
Z/ 79 3/19Z
0.7 6.8
19. Z 28.9
9.0 17. S
Z.02 5.58
0/0 0/0
2*3/245 2*5/2*8
S.5 Z4.9
8.6 29.0
7.3 27.3
1.4Z 1.81
36/ 29 SB/ 38
4/181 4/150
3.0 17.3
17.8 32. 2
7.0 26.6
1.99 2.36
Of 0 0/0
2*2/2*6 2*2/2*6
3.5 16.7
10.8 20.6
6.T 18.5
2.86 1.77
3/ 4 24/10*
5/23* 5/lie
1.6 9.0
13.5 29.6
7.3 20.5
1.58 3.26
0/0 0/0
236/2*1 Z4I/246
3.5 12.3
10.8 29.0
7.1 21.8
2.08 5.33
1Z/ 42 42/ 39
11/678 12/6*9
O.T 6.8
19.2 32.2
7.8 21.5
2.07 5. SO
0/0 0/0
721/732 72€/7*0
0.062 0.012
0.545 0.123
0.23T 0.064
0.2673 0.0557
133/ 10 126/ 18
3/106 3/105
0.004 0.001
1.719 1.209
0.121 0.057
0.2313 0.1652
0/0 0/0
246/249 246/249
O.OI3 0.034
0.254 0.024
0.088 0.011
0.1118 0.00(8
26/ 27 2Z/ 64
4/194 4/161
0.004 0.001
Z.S59 1.191
0.139 O.054
0.2831 O. 1490
Of 0 O/ 0
243/247 243/247
0.042 0.010
0.262 0.199
0.132 3.068
O.0867 O.0793
94/ 2* 77/ 16
5/127 5/152
O.004 0.001
4.5*9 2.009
0.1*5 0.070
O.*13l 0.2197
0/0 0/0
241/2*6 2*0/2*5
0.013 0.004
0.545 0.199
0.1*4 0.048
0.1506 0.0602
67/ 39 69/ 47
1Z/616 12/625
0.004 0.001
4.549 2.009
0.137 0.060
0.3178 0.1766
0/0 O/ O
730/742 729/741
0.054
0.265
0.127
0.1190
11/141
3/ 97
0.024
9.74S
0.879
1.4821
O/ 0
246/249
0.116
0.772
0.325
0.3030
94 / 40
4/113
O.OZ5
6.8*7
0.496
O.«9OO
O/ 0
243/247
O.034
1.261
0.495
0.4*68
3>/ 16
5/195
0.017
4.469
0.339
0.5498
O/ O
241/2*6
0.03*
1.261
0.3*6
O.3561
48/ 85
12/609
0.017
9.74*
0.573
1.073*
O/ 0
730/742
0.089
0.129
0.102
0.0225
153/ 56
3/ 40
0.022
0.635
0.107
0.0959
O/ 0
246/249
O.042
0.179
0.119
0.0648
10/ 36
4/201
0.034
O.719
0.120
0.088Z
O/ 0
243/247
0.047
0.974
0.3*2
0.3999
39 / 2
5/201
0.020
3.024
0.118
0.2169
O/ 0
241/246
0.042
0.974
0.212
0.2732
56/ I
12/684
0.020
3.024
0.115
0.1456
O/ O
730/742
0.382 10
3.000 93
1.480 52
1.3589 41.5
60/ 4 O/ 72
3/185 3/177
0.199 10
4.699 248
0.788 70
0.6867 67.6
0/0 0/0
246/249 246/249
0.432 20
4.299 79
1.611 56
1.809T 27.1
37/ 5 58/ 80
4/209 4/109
0.215 10
7.149 334
1.210 74
1.0666 69.3
0/0 0/0
243/247 243/247
0.281 61
3.349 241
1.422 128
1.2121 69.9
19/ 13 134/ 3
5/Z14 5/109
0.199 10
8. 199 291
1.112 72
1.0S57 63.6
O/ O O/ O
241/246 241/246
0.281 10
4.299 241
1.500 85
1.3306 61.1
45 / 12 O/ 13
12/68* 12/729
0.199 19
8.199 334
1.035 72
0.9674 66.8
0/0 0/0
730/742 730/74Z
0.0
6.0
Z.3
3.21
0/149
3/100
0.0
142.0
IB. 8
25.22
O/ 0
246/249
2.0
16.0
9.3
5.85
28/ 43
4/176
0.0
210. 0
14.2
23.94
O/ 0
243/247
1.0
14.0
a. 2
5.89
13/ 37
5/196
0.0
9O. 0
9.6
15.01
O/ 0
241/246
0.0
16.0
7.1
5.64
0/153
12/589
0.0
210.0
14.2
22.19
O/ 0
730/742
0
15
S
8.7
0
0
0
0.0
0
188
66
84.5
O
0
O
0.0
0
0
0
0.0
0
0
0
0.0
0
188
23
S4.3
0
O
0
0.0
3.0
1.6
0.5
0.93
0.0
0.3
0.0
0.00
0.0
0.4
0.2
0.1*
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
1.6
0.2
0.46
0.0
0.0
0.0
0.00
-------�
GENUS:APPHORA
CHLA
TUBS SECCH1
PARTIAL DEPTH VALUES
00 TEMP TOTAL' OPTMOP N02N03 NH3
KJEL «LK
N/P
CONC PERC
•
o o
U 1 0
N N
0
* N
C 0
U 1 N
M 0
0 0
I*
*
0 D
U 2 0
N N
0
R N
0 0
U 2 N
N 0
0 0
N
R
0 D
U 3 0
N M
0
P. M
C 0
U 3 M
N D
0 0
N
*
0*0
u L a
N L N
0
II N
C * 0
U L N
* L 0
0 0
N
M1N
WAX
MEAN
STOV
N
O/MR
MIN
MM
MEAN
STOV
N
C/MR
MIN
MAX
MEAN
STOV
N
O/MR
MIN
MAX
MEAN
STOV
N
C/uR
MIN
MAX
MEAN
STOV
N
0/M«
MIN
MAX
MEAN
STOV
N
O/MR
MIN
MAX
MEAN
STOV
*
O/MR
MIN
MAX
MEAN
STOV
N
O/MR
1.6
49.0
21.9
24.41
ll/ 21
3/215
7.8
298.7
72. T
124.93
75/ 1
4/169
3.7
99.5
33.5
39.80
30/ 8
5/209
1.6
238.7
43.6
73.23
121 4
12/715
S3
95
74
29.7
33/ 9
2/145
5
92
65
40.2
I/ 29
4/207
50
96
80
17.8
31/ 7
5/183
5
96
73
27.4
3/ 18
11/624
18
34
24
B.S
43/117
3/ 89
10
98
48
36.6
12/ 24
4/205
22
78
51
22.4
48/ 41
5/157
10
98
44
26.4
30/ 75
12/631
7.5
8.6
7.9
0.59
59/ 26
3/164
7.9
9.4
8.4
0.69
126/ 6
4/115
7.5
8.9
7.9
0.57
106/ 8
5/131
7. 3
9.4
8.1
0.60
245/ 17
12/479
6.7
8.9
7.8
1.56
26/140
2/ 79
5.5
8.6
7.3
1.42
36/ 29
4/181
3.5
10. 8
6.7
2.86
3/ 4
5/234
3.5
10.8
7.1
2.08
12/ 42
11/678
12.3 O.062 0.012
26.8 0.545 0.123
20.1 0.237 0.064
7.31 0.2673 0.0557
41/ 15 133/ 10 126/ 18
3/192 3/186 3/105
24.9
29.0
27.3
1.81
SB/ 38
4/150
16.7
20.6
18.5
1.77
24/104
5/118
12.3
29.0
21.8
S.33
42 / 39
12/659
0.013
0..-5*
0.088
0.1118
26/ 27
4/144
0.042
0.262
0.132
0.0867
94/ 25
«/127
0.013
0.345
0.144
0.1506
67/ 39
12/636
4.004
P. 024
0.011
8.8088
2Z/ 64
4/161
0.010
0.199
0.068
0.0793
77/ 16
5/152
0.004
0.199
0.048
0.0602
69/ 47
12/625
0.054 0.089
0.265 0.129
0.127 0.102
0.1190 0.0225
11/141 I53/ 56
3/ 97 3/ 40
0.116
0.772
0.325
8.3038
94/ 40
4/113
0.034
1.261
0.495
0.4568
35/ 16
5/195
0.034
1.261
0.346
0.3561
48/ 85
12/609
0.042
P. 179
0.119
0.0648
10/ 36
4/201
0.047
0.974
0.352
0. 3999
39 / 2
5/205
0.042
0.974
0.212
0.2732
96/ 2
12/684
0.382
2.000
1.480
1.3589
60/ 4
3/185
0.432
4.299
1.611
1.8097
37/ 5
4/205
0.281
3.349
1.422
1.2121
I*/ 13
5/214
0.281
4.299
1.500
1.3306
45/ 12
12/685
10
93
52
41.5
O/ 72
3/177
28
79
56
27.1
58/ 80
4/109
61
241
128
69.9
134/ 3
S/109
10
241
05
61.1
O/ 13
12/729
0.0
6.0
2.3
3.21
0/149
3/100
2.0
16.0
9.3
5.85
28/ 43
4/176
1.0
14.0
0.2
5.89
13/ 37
5/196
0.0
16.0
7.1
5.60
0/153
12/589
0
15
5
8.7
0
188
66
84.5
O
0
0
0.0
0
108
23
54.3
0.0
1.6
0.5
0.93
0.0
0.*
0.2
C.1S
0.0
0.0
0.0
0.00
0.0
1.6
0,2
0.46
-------�
G?»IUS:ANA8AENA
to
M
CMIA
TUBS S6CCHI
00
TE«P
PARTIAL DEPTH VALUES
TOTALP OKTHQP N02N03
NH3
KJEL ALK
N/P
CQNC PERC
R
o
u
N
0
R
Q
u
N
D
R
0
(I
N
0
R
O
u
N
o
R
o
u
N
0
R.
o
u
N
o
R
O
u
N
o
R
0
u
N
0
I
I
t
z
3
3
A
L
L
A
L
L
n
c
C
N
0
N
0
c
c
0
c
c
II
n
N
0
e
c
o
c
r
N
(J
N
0
c
c
n
I
c
1^
o
N
0
c
c
M|N
WAX
MEAN
STOV
N
C/WR
M|N
MAX
MEAN
STDV
N
O/UR
MIN
"AX
MEAN
STDV
N
C/HR
MIN
"AX
MEAN
STOV
N
0/W»
MIN
MAX
MEAN
STPV
N
C/WR
KIN
MAX
MEAN
STOV
N
0/u«
M]M
MAX
MEAN
?TDV
n
0/WR
H IN
MAX
MEAN
STDV
N
0/WR
1.2
247.1
20. 3
36. *9
7/ Z
67/238
0.3
355.6
21.2
43.17
O/ 0
180/2*7
1.4
595. 0
37. 9
64.74
O/ 0
147/247
I. 5
456. 6
29.3
59.21
I/ 1
103/2*5
1.2
171. S
22.6
27.79
4/ 3
1*2/2*0
Oi8
2*1.4
23.9
41.58
O/ 0
10S/2*7
1.2
595.0
28.5
48.39
ll/ 0
356/730
0.3
456.6
24. 1
47.4}
O/ 1
38S/740
26
100
77
16.1
a/ o
60/179
6
100
68
21.9
O/ O
127/187
s
98
71
23.3
I/ 3
143/233
4
121
73
25. 1
O/ O
94/237
1 3
99
77
19.2
6/ 1
125/214
1
10O
70
26.8
O/ O
96/221
s
too
7S
20.8
3/ 3
328/639
I
121
70
24.4
O/ 0
317/645
7
252
49
42.8
8/ 0
67/2*1
2
185
42
33.4
Of I
182/248
6
222
47
34.8
I/ 0
1*2/240
1
216
52
37.1
O/ 1
99/240
1 1
157
52
32.8
?/ 3
1*2/238
6
185
49
37.9
3/ 0
104/246
6
252
49
35.6
S/ 0
351/731
1
216
46
35.8
O/ 2
385/734
6.6
10.1
7.9
0.79
*/ 1
67/2*4
5.3
10.6
7.9
0.70
O/ O
182/2*9
6.2
10.3
7.9
0.76
7/ 1
147/239
4.1
1O.6
7.6
1.03
O/ 0
100/2*7
9.4
7.6
0.81
I/ 2
1*0/2*2
4.7
10.)
7.6
0.87
O/ O
105/245
5.6
10.3
7.8
0.80
8/ 2
354/731
4.1
10.6
7.7
0.85
O/ 0
387/741
4.2
15.5
8.1
1.82
7/ 1
66/237
0.7
19.2
9.3
1.99
O/ O
179/245
3.1
16.0
7.1
1.82
I/ 1
1*6/244
3.0
17.8
6.9
2.20
01 O
100/246
12.7
7.4
1.47
I/ 1
139/239
1.6
13.5
7.2
1.78
O/ 0
102/241
1.9
16.0
7.4
1.72
2/ 2
351/728
0.7
19.2
8.1
2.29
01 0
381/732
7.2
28.9
22.3
4.87
I/ 0
67/2*7
6.8
27.4
15.7
4.7*
O/ 8
181/2*0
20.1
32.2
26.7
2.28
I/ 0
147/245
17.3
31.4
26.4
2.45
O/ 2
99/244
29.6
20.5
3.47
O/ 0
141/2*6
14.8
29.0
20.*
2.93
5/ I
105/240
7.2
32.2
23.4
4.43
I/ 0
355/739
(.8
31.4
19.7
5.79
01 2
385/738
0.008
1.18*
0.141
0.2333
a/ *
67/237
0.004
1.719
0. 116
0.2311
01 0
182/249
O.007
1.599
0.120
0.2275
*/ 1
147/242
O.O04
2.559
0.155
0.3455
O/ 0
100/247
3.084
0.127
0.3149
5/ 1
141/2*0
0.00*
4.549
0.191
O.SO82
O/ 3
105/2*6
0.007
3.084
0.127
0.2660
I*/ 1
355/727
O.OO*
4.549
0.147
0.3553
O/ 0
387/742
O.OO1
1.032
0.075
0.1890
01 3
67/246
0.001
1.2O9
0.053
0.1542
01 0
182/249
0.001
0.969
0.047
0.1321
O/ 1
147/246
0.001
1.191
0.063
0.1687
3/ 3
100/247
0* 093
2.009
0.062
0.21O6
2/ 0
141/243
0.001
1.255
0.083
0.2069
a/ i
104/244
0.001
2.009
0.058
0.1775
01 0
355/741
0.001
1.255
0.062
0.1735
01 1
386/740
0.024
9.745
0.542
1.5481
or o
67/249
O.O3S
8.089
0.990
1.4333
3/ 1
182/2*5
O.027
3.157
0.320
0.5320
I/ 6
147/240
0.025
6.857
0.749
1.1884
01 0
100/2*7
0. 017
2.688
0.294
0.4901
O/ 1
141/2*5
O.O20
4.469
0.406
O.6132
2/ 0
105/2*4
3.317
9.745
0.351
0.8168
O/ 0
355/7*2
0.020
8.389
0.769
1.2189
2/ 1
387/739
0.030
0.55*
0.118
0.1002
2/ 1
67/246
0.022
0.635
0.102
O.O934
01 0
182/249
0.034
0.565
0.115
0.0740
O/ 1
1*7/246
0.039
0.719
0.126
O.IO49
3/ 0
100/244
0.032
3.024
0.123
0.2599
2/ 0
141/244
0.020
0.979
0.121
0.162*
01 1
105/245
0.030
3.024
0.119
0.1757
3/ 0
355/739
0.020
0.979
0.114
0.1189
Of 1
387/741
0.242
3.199
0.885
0.7402
7/ 3
67/239
0. 199
4.699
0.763
O.6803
O/ O
182/249
0.261
6.349
1.273
1.0681
2/ 1
147/244
0.215
7.149
1.134
1.0920
O/ 0
100/247
0. 199
8.199
1.118
1.0183
01 O
141/246
0.210
6.000
1.119
1.1122
2/ 1
105/243
0.199
8.199
1.138
1.0013
O/ 0
355/742
0.199
7. 149
0.956
0.9429
01 1
387/741
10
215
51
52.8
01 7
67/242
10
248
77
70.8
O/ 0
182/249
10
281
73
62.9
01 2
147/245
10
334
73
77.2
01 3
100/2*7
10
283
70
62.*
01 1
141/2*5
10
291
77
66.3
Of 0
105/246
10
283
68
61.3
O/ 3
355/739
10
334
76
71.2
O/ 0
387/742
0.0
81. 0
9. 7
13.04
O/ 10
67/239
0.0
142.0
21.9
27.64
01 0
182/249
0.0
130.0
11.0
20.28
Of I
147/246
0.0
210.0
18.6
27.60
01 0
100/247
0.0
90.0
8.7
15.25
O/ 0
141/246
0.0
71.0
10.9
14.33
O/ 3
105/243
0.0
130.0
9.8
17.16
Of 4
355/738
0.0
210.0
18.0
25.10
O/ 0
387/742
0
1363
160
298.6
0
0
0
O.O
0
22330
511
1963.1
0
0
0
O.O
a
40425
688
3651.1
0
0
0
O.O
0
40425
SI6
2632.9
0
0
0
0.0
0.0
46.7
3.3
8.32
0.0
0.0
0.0
O.OO
0.3
50.3
3.9
7.76
0.0
0.0
0.0
0.00
0.0
38.6
3.7
7.15
0.0
0.0
O.O
0.00
0.0
50.3
3.7
7.61
0.0
0.0
0.0
0.00
-------�
GENUSr
CHLA
TURB SECCHI
90
PARTIAL DEPTH VALUES
TEMP TOTALP ORTMQP N02N03
NM3
KJEL ALK
H/f
CONC
V MIN
0 D *AX
U 1 0 MEAN
N H STOV
0 N
0/MR
* N MIN
0 0 MAX
U 1 N «E*N
N 0 STOV
D 0 N
M Q/MR
K KIN
0 0 MM
U 2 O MEAN
N H STOV
0 N
0/W
I N MIN
0 0 "AX
u 2 N MEAN
M D STOV
0 O N
N 0/MR
R KIN
0 O MAX
u 3 o MEAN
N >t STOV
0 »
OSWR
R N MIN
0 t> MAX
U 3 N ME«K
N 0 STOV
D 0 N
N 0/WR
R MIN
0 A 0 MAX
U L O MEAN
N L « STOV
0 N
0/M«
• N MIS
Q A O MAX
U L N MEAN
N L 0 STOV
0 0 N
« a/v*
6.8
14.8
11.3
4.0*
HZ/ T5
9/ 60
1.2
2*7.1
21.0
37. 8S
T/ 2
62/238
1.9
1*7.4
23.2
37.99
2/ 8
14/237
1.4
595.0
39. S
66.89
Of 0
133/2*7
».T
126.8
19.1
31.37
47/ 6
14/194
1.2
171.5
23. 0
27.48
4/ 3
128/240
1.9
147.4
19.7
31.65
30/ IB
33/693
1.2
995. 0
29.4
49.73
U/ 0
323/730
68
89
82
9.0
69/ 29
S/ 89
26
100
76
16.6
a/ o
55/179
39
92
81
14.8
31/ 29
14/177
5
98
70
23.9
I/ 3
129/233
60
99
82
11. 1
48/ 16
14/157
13
99
77
20.0
6/ 1
111/214
39
99
81
12.3
T4/ 39
33/936
9
100
74
21.4
3/ 3
295/639
(2
73
48
24.8
19/ 39
5/191
7
232
49
44. «
e/ o
62/241
15
102
52
28.0
20/ 22
14/199
6
2Z2
46
35.5
I/ 0
128/240
11
144
60
33.4
5/ 6
14/235
11
157
91
32.7
5/ 3
128/238
11
144
35
2«.5
377 15
33/684
6
252
46
36.2
M 0
318/731
7.0
8.5
7.8
0.62
23/ 34
5/192
6.6
10.1
7.9
0.81
4/ 1
62/244
6.8
10.3
7.8
0.86
32/ I
14/214
6.2
10.2
7.9
• .73
7/ 2
133/238
6.5
8.5
7.2
0.68
19/ 30
14/196
9.6
9.9
7.7
0.81
I/ 2
126/242
6.5
10.3
7.9
0.83
40/ 2
33/699
5.6
10.2
7.8
0.79
8/ 4
321/729
5.8 16.3
9.1 27.8
7.4 24.9
1.39 4.86
13/125 127/ 6
5/137 5/115
4.2 7.2
15.9 28.9
8. 1 22. 1
1.89 4.85
7/1 1/0
61/237 62/247
3.1 21. S
16.0 30.2
7.5 26.8
3.21 2.56
1/1 5/4
14/244 14/237
3.1 28.1
13.8 32.2
7.0 26.7
1.62 2.26
1/4 1/0
132/241 133/245
2.8 14.9
8.8 26.8
6.6 20.6
1.71 3.68
2/38 6/6
14/209 14/234
1.9 9.0
12.7 29.6
7.5 20.4
1.42 3.46
1/1 0/0
125/239 127/246
2.8 14.9
16. 0 30.2
7.1 23.9
2.41 4.42
4/ 2 11 7/ 4
33/726 33/619
1.9 7.2
15.5 32.2
7.4 23.4
1.64 4.44
2/3 I/O
318/727 322/739
0.017
0.112
0.065
0.0442
32/ 60
5/157
0.198
1.184
0.147
0.241*
61 *
62/237
0.010
1.474
0.149
0.3827
14/ 1
14/231
0.817
l.?99
0.117
0.2067
4/ 1
133/2*2
0.313
3.084
0.259
0.8132
22/ 1
14/223
0.008
1.6O9
0.113
0.1996
9/ 2
127/239
0.010
3.08*
0.183
0.5776
3T/ 1
33/704
0.007
1.609
0.121
0.2108
14/ 4
322/724
0.102
0.044
P.P16
0.0173
10/ 45
J/194
8.001
1.032
0.080
0.1958
O/ 3
62/246
0.093
0.689
(•.0*7
0.1598
9/ 3
14/235
0.0*1
0.?«9
O.O45
0.129S
O/ 1
133/246
0.039
2.009
0.154
0.533T
IV 0
14/230
0.003
1.189
0.052
0.1373
21 2
127/241
0.002
2.009
0.092
0.3999
I*/ 0
33/727
0.001
1.189
0.055
0.1474
O/ 4
322/737
0.071
3.429
0.832
1.4590
31/ IS
5/233
0.82*
9.7*5
0.519
1.56*2
O/ 0
62/249
0.035
1.181
0.181
0.2968
12/ 31
14/204
0.027
3.157
0.334
0.5*96
I/ 6
133/240
0.020
0.809
0.116
3.2056
2/ 35
14/239
0.017
2.688
0.313
0.9086
O/ 1
12T/245
0.020
3.429
0.252
0.6167
2/ 22
33/718
0.017
9.7*5
0.362
0.8347
O/ 0
322/7*2
O.O78 0.360
0.369 0.832
P.1B1 0.570
0.1211 0.1793
I2*/ 8 50/ 73
5/117 5/12*
0.830 0.242
0.55* 3.199
0.113 0.910
0.0977 0.7628
2/1 7/3
62/246 62/239
0.041 0.399
0.219 3.699
P. 099 0.896
0.0489 O.8467
9/ 22 25/ 1
14/216 14/214
0.034 8.261
0.565 6.349
0.117 1.313
O.O761 1.0838
0/1 2/1
133/246 133/244
0.035 0.204
3.024 8.199
0.328 1.294
0.7791 2.0153
5/0 1/0
14/241 14/2*5
0.032 0.199
0.569 4.099
0.100 1.098
0.0653 0.85*0
2/4 O/ 6
127/240 127/2*0
0.033 0.204
3.024 8.199
0.208 1.015
0.5109 1.4200
22/ 02/0
33/720 33/740
0.030 0.194
0. 569 6. 349
0.110 1.131
0.0843 0.9503
3/6 0/2
322/733 322/740
10
199
51
82.8
O/ 15
5/23*
10
215
51
50.7
O/ 7
62/242
10
275
59
69.9
O/ 5
l*/242
1*
281
75
62.1
O/ 2
133/245
10
138
45
40.3
O/ 47
14/199
10
283
72
63.9
O/ 1
127/2*5
10
275
50
99.4
O/ T
33/735
10
283
69
61.3
O/ 3
322/739
5.0
44.8
1*.6
16.53
66/ 28
5/15S
0.0
81.0
9.4
12.80
O/ 10
62/239
0.0
21.0
6.4
5.53
• / 33
14/21*
0.0
130.0
11.5
21.20
O/ 1
133/246
1.0
7.0
9.0
1.96
13/ 83
14/153
0.0
90.0
9.1
16.01
O/ 0
127/246
0.0
44.0
T.I
7.68
O/ 60
33/682
0.0
130.0
10.1
17.83
O/ 4
322/738
267 13.1
953 *6.7
512 27.9
276.3 16.4*
0 0.0
1363 9.6
132 1.3
283.7 1.91
50 10.5
4033 38.3
996 24.2
1084.6 11.67
0 O.O
22330 9.T
460 1.8
2029.6 2.23
29 10.*
40425 38.6
3213 22.0
10713.2 9.92
O 0.0
1*73* 9.8
412 1.7
15O7.3 2.39
29 10.4
40429 50.3
1863 23.8
6466.0 11.94
0 O.O
22330 9.8
378 1.7
1617.1 2.24
-------�
GENUS:ANtBAENOPSIS
PARMAl DEPTH VALUES
CHLA
TURB SECCHI
00
TEPP T(JTALI> ORTHOP N02N03
NH3
KJEL ALK
M/P
COHC PE«C
NJ
R
n o
U I C
1 C
0
R N
0 0
U 1 N
N 0
0 C
C
R
0 0
U 2 C
N C
0
* N
0 0
U 2 N
N 0
D C
C
R
0 0
U3C
N C
0
R N
0 0
U 9 N
N •)
0 C
C
R
0*0
U L C
N 1 C
0
R 1
0 ft O
U L N
N L 0
0 C
C
• IN
M1JC
MEAN
STDV
N
0/MR
HIM
MIX
NEIH
STOV
N
0/WR
KIN
MIX
MEAN
STOV
H
0/WR
NtN
fax
MEAN
STOV
N
0/UR
KIN
MAX
MEAH
STOV
N
C/MR
HIN
XIX
MEAN
STOV
N
0/MP
HIN
MAX
MEAN
STOV
N
0/W»
M1N
MIX
MEAN
SIOV
N
C/WP
15.2
100.1
36. T
if. 11
\12t 10
lOt 65
0.3
355.6
20.}
»l. 84
O/ 0
237/247
1.9
258.7
58.7
61.25
2/ 3
40/2*2
1.4
595.0
29.7
61.89
O/ 0
207/2*7
5.1
171. J
49.1
37.95
52/ ]
33/192
0.8
241.*
19.8
32. *7
O/ 0
214/247
1.9
258.7
*0.6
49.86
33/ *
83/707
0.3
595.0
23.1
46.82
O/ 0
658/7*1
63
95
7T
11.7
*9/ 9
9/129
&
100
70
20.9
Of 0
178/187
5
91
59
28.0
I/ *l
40/195
*
121
75
22.2
O/ 0
197/237
11
97
64
23.5
5/ 2
29/21*
1
100
T6
22.7
O/ 0
192/221
5
97
63
25.*
)/ 12
78/430
1
121
7*
22.1
O/ 0
567/6*5
IS
*8
1*
11. 1
2»/ 71
10/1*9
2
252
**
36.8
of a
239/2*9
*
171
36
28.*
If 3
*0/2J7
I
222
SI
36.6
O/ 0
201/2*1
T
109
30
20. O
I/ 20
33/225
6
185
53
35.8
O/ 0
213/2*6
6
171
33
23.6
3/ 7
83/72*
1
252
*9
36.6
O/ 0
653/736
7.6 6.* 20.8 0.031
10. 1 11.6 27.2 1.18*
8.7 8.3 2*. 2 0.323
0.89 1.99 2.27 0.3769
72/ 1 2l/ 13 173/ 11 T2/ *
10/176 10/211 tO/ 6* 10/17)
5.3 O.T 6.8 0.00*
10.6 19.2 28.9 1.719
T.9 9.O 17.2 0.11*
O.70 2.02 S.S1 0.2206
O/ O Of O Of 0 0/0
239/2*9 235/2*5 238/2*8 239/2*9
6.3 3.1 23.8 O.O10
10.2 10.6 30.2 1.259
8.1 6. a 27. 7 0.221
0.82 1.73 1.86 0.2869
11/2 1/8 2 1/ * I*/ 3
40/234 *O/ZJ7 4,0/221 4,0/230
4.1 3.0 17.) 0.004
10.6 17.8 32.2 2.559
T.7 T.O 26.* 0.118
0.89 2.03 2.38 0.2776
0/0 0/0 Of 0 Of 0
207/247 206/246 206/2*6 207/2*7
6.7 4.5 15.8 0.038
9.9 11.* 26.8 1.609
8.1 7.T 21.7 0.212
0.82 1.50 2.71 0.3275
33/ 29/2 16/ 6 ST/ 2
33/213 33/230 33/22* 33/1S7
4.7 1.6 9.0 0.00*
10.3 13.5 29.6 *.5*9
7.5 7.3 20.2 0.143
0.81 1.62 3.28 0.4197
0/0 0/0 0/0 0/0
212/245 238/241 213/246 213/246
6.3 3.1 15.8 0.010
10.2 11.6 30.2 1.639
8.2 7.3 24.9 0.238
0.84 1.T3 3.60 0.3121
22/ 4 7/ 23 139/ * 37/ 4
83/715 B3/7O2 83/597 83/701
4.1 O.T 6.8 0.004
10.6 19.2 32.2 4.549
7.7 7.8 21.1 0.125
O.B1 2.10 5.54 0.3141
0/0 0/0 O/ 0 0/0
656/741 649/732 657/7*0 659/7*2
0.003
1.032
0.231
0.3*77
2T/ 3
10/219
0. OOI
1.209
O.O50
0.1*91
Of 0
239/2*9
O.OO2
1.191
O.O99
0.2210
3/ 0
*0/Z*4
0.001
0.969
0.0**
0.1280
Of 1
207/2*6
0.006
1.189
0.09T
0.228*
28/ 2
33/215
0.001
2.009
0.066
0.2058
O/ 0
212/2*5
0.002
1.191
0.11*
0.2424
I*/ 3
83/724
0.001
2.009
0.053
0.1619
O/ 0
658/7*1
0.0*1
0.207
a. 136
0.0560
6/159
10/ 84
0.024
9.7*5
0.902
1.4976
O/ 0
239/249
O.O29
1.201
0.220
0.25*4
4/ 28
*0/Z15
0.025
6.857
0.5*6
0.9502
at o
297/2*7
0.019
1.709
0.195
0.3340
If 8
33/237
0.017
*.*69
0.364
0.5710
O/ 0
213/246
0.019
1.709
0.197
0.2715
If 58
83/683
0.017
9.745
0.616
1.1183
Of 0
659/742
0.045
0.167
0.098
0.0402
3O/ 35
10/184
0.022
0.635
0.107
0.097O
Of O
239/249
O.O*0
0.250
O. 112
0.05*2
4/15
40/228
0.034
O.719
0.121
0.0929
Of 0
207/247
0.034
0.974
0.116
O.L623
4/ 2
33/240
0.020
3.024
0.123
0.2313
O/ 0
213/246
0.034
0.974
0.112
0.1090
13/ 2
83/727
0.020
3.024
0.117
0.1530
O/ 0
659/7*2
0.521
3.199
1.530
0.7153
113/ 3
10/133
0.199
4.699
0.765
0.6812
Of 0
239/249
0.281
6.349
1.705
1.344O
5/ 1
4X1/241
0.215
7.1*9
1.122
O.9950
Of O
207/247
0.321
5.399
1.738
1.2774
27/ 2
33/2L7
0.199
8.199
1.322
O.98B1
Of 0
213/246
0.281
6.349
1.697
1.2475
45/ 2
83/695
0. 199
8.199
0.960
0.9031
O/ 0
659/742
16
129
62
39.9
66/ 5*
10/129
10
248
10
68.3
Of 0
239/2*9
11
141
66
40.9
IB/ 38
40/191
10
33*
75
73.0
Of 0
207/247
14
168
78
44.6
32/ 22
33/192
10
291
72
66.6
O/ 0
213/246
11
166
70
42.4
7*/ 85
83/583
10
334
72
69.2
Of 0
659/742
0.0
7.0
2.5
2.72
0/133
10/116
0.0
142.0
19.3
25.43
O/ 0
239/249
0.0
16.0
3.8
3.26
O/ 43
40/ZO*
0.0
210.0
16.1
25.45
Of 0
237/247
0.0
14.0
2.9
3.39
Of 37
33/209
0.0
90.0
10.6
15.68
Of 0
213/246
O.O
16.0
3.3
3.26
0/153
83/589
0.0
210.0
IS. 5
23.00
O/ 0
659/7*2
0
3054*
4006
9*21.7
0
0
O
0.0
0
12685
1722
2881.8
0
0
0
0.0
0
4989
6*1
1088.2
0
0
0
O.O
O
305**
1567
3903.5
0
0
0
0.0
0.0
27.4
6.3
9.90
0.0
0.0
0.0
0.00
0.0
19.1
3.8
*. *a
0.0
0.0
0.0
0.00
O.O
11. i
1.6
2.31
0.0
O.O
0.0
0.00
0.0
27. 4
3.2
4.96
O.O
0.0
0.0
0.00
-------�
GENUS: ANAS «NCPS IS
CHLA
TUR8 SECCHI
00
PARTIAL DEPTH VALUES
TEMP TOTALP ORTHOP N02N03
NH3
KJEL ALK
N/P
CQNC PERC
R
0 0
0 1 0
N H
0
R H
0 O
U 1 N
N 0
D 0
H
H
0 0
U Z O
N H
0
H N
0 0
U 2 N
N 0
0 0
*
P
O 0
u 3 a
N H
0
R N
C 0
U 3 N
N 0
D 0
N
I
0 * D
U L 0
N L M
D
R N
0*0
U L N
N L 0
o a
H
Mil
MAX
MEAN
STOV
N
0/NR
MIN
MIX
MEAN
STDV
N
O/HR
HIM
MAX
MEAN
STDV
N
0/HR
MIN
MAX
MEAN
STOV
N
0/HR
MIN
MM
MEAN
STOV
N
C/KR
MIN
MAX
«EAN
STCV
N
P/tIR
MIN
MAX
MEAN
STOV
N
0/HR
MIN
MAX
MEAN
STDV
N
0/dR
15.9
28.5
zz. 2
8.91
ITS/ 44
If 28
15.2
100.1
40. *
27.46
172/ 10
8/ 65
1.9
82.1
44.5
31.18
2/27
4/218
4.7
258.7
60. 1
63. TO
28/ 1
16/216
8.O
8.O
8.0
o.oa
96/148
If 3
5.1
171.5
46. Z
37.96
52/ 3
32/192
1.9
82.1
32.9
28.56
30/ SO
7/461
4.7
258.7
S2.3
11.14
144C 4
74/593
66
72
64
4.2
65/1O7
2/ 11
63
95
79
12.9
49/ 4
7/129
39
78
60
IB. 6
11/130
4/ T6
5
91
59
29.1
I/ 41
36/195
90
90
90
0.0
158/ 51
If 12
11
97
61
23.4
5/ 2
28/214
39
90
67
17.2
74/12*
7/443
5
97
62
26.1
3/ 12
71/630
27
37
12
T.I
95/ 98
2t 56
15
49
14
12.3
29 f 71
8/149
18
35
27
9.3
28/131
4/ 82
6
171
31
29.7
It 3
36/237
45
45
45
0.0
143/131
It 2
7
109
30
20.1
I/ 20
32/225
18
45
31
9.T
99/271
7/166
6
171
34
24.5
S/ 7
76/724
7.6
9.1
8.3
1.06
72/ 12
2/165
7.7
10.1
8.8
0.90
87/ 1
8/161
6.8
8.9
7.8
O.8B
32/ 16
4/199
6.3
10. Z
8.1
0.82
ll/ 2
36/234
8.1
8.1
8.1
0.00
166/ 71
I/ 8
6.7
9.9
8.1
3.83
33/ 2
32/213
6.8
9.1
8.0
0.80
83/ 30
7/631
6.3
10.2
8.2
0.85
22/ 4
76/71S
7.4
19.3
8.7
1.84
36/ 62
2/147
6.4
11.6
a. z
2.02
2I/ 11
8/211
3.1
7.7
5.8
2.23
If 67
4/178
3.1
10.6
6.9
1.67
If 8
36/237
7.8
7.8
7.8
0.00
141/ 89
If 11
4.5
11.4
T.T
1.53
11 2
32/230
3.1
10.0
6.9
2.2!
11 »4
7/641
3.1
11.6
7.4
1.69
7/ 23
16/702
24.1
26.5
25.3
1.70
195/ 19
2/ 34
20.8
27. 2
24.0
2.40
173/ 11
8/ 64
23.8
28.9
26.3
2.48
21/ 45
4/180
23.8
30.2
27.8
1.76
Zl/ 4
36/221
21.9
Z1.9
21.9
0.00
167/ 75
If 4
15.8
26.8
21.7
2.75
16/ 6
32/224
21.4
28.9
25.4
Z.48
156/ 47
7/337
15.8
30.2
24.8
1.69
139/ 4
76/597
0.011
0.0*5
0.037
0 . 0098
72/146
U 31
0.039
1.184
0.395
0.3917
84/ 4
8/161
0.040
0.134
0.093
0.0444
112/ 47
4/ 88
0.010
1.259
0.235
0.2991
14/ 3
36/230
0.041
0.043
0.042
0.0000
99/145
I/ Z
0.038
1.609
0.238
0.3309
87/ 2
32/157
0.011
0.134
0.010
0.0428
231/144
7/367
9.313
1.609
0.253
0.3221
IT/ 4
It/701
0.003
0. OO7
0. 005
0.0028
27/153
11 69
0.004
1.012
9.287
0.3704
19/ 3
8/207
0.006
0.065
9.02!
0.0267
62/ 31
4/154
0.002
1.191
3.107
0.2317
I/ 0
36/244
0.020
9.0ZO
0.019
O.OOOO
111/ 98
I/ 6
0.006
1.189
0.100
0.2116
28/ 2
12/215
9.003
0.065
0.018
0.0213
38/ 99
7/604
0.092
1.191
0.123
0.2515
14/ 3
76/724
0.066
0.164
0.115
0.9692
29/169
21 51
O.041
0.20T
0.104
0.3577
6/159
8/ 84
O.093
0.199
0.138
0.0455
72/ 99
4/ 76
O.O29
1.201
3.229
0.2666
4/ 28
36/215
0.241
O.241
0.241
0.0000
166/ 79
If 1
0.019
1.709
O.194
0.3393
if a
32/217
0.066
0.241
O.I 46
0.0608
160/320
7/262
0.019
1.T09
0.201
0.2871
If 58
76/683
0.077
0.164
0.120
3.0*15
121/ 37
2/ 91
0.045
O. 167
0.093
0.0369
10/ 35
8/184
0.106
O. 116
0.113
0.0048
141/ 86
4/ 20
O.O4O
0.250
0.111
0.0572
4/ IS
36/228
O.O4S
O.O45
0.044
0.0000
31/212
I/ 3
0.014
0.974
0.118
0.1643
4/ Z
3Z/240
O.O45
0.164
0.105
0.0369
77/123
7/542
0.034
0.974
0.112
0.1115
ll/ 2
76/72T
1.161
1.549
1.154
9.2743
213/ 26
2/ 10
0.521
3.199
1.574
0.7975
111/ 3
8/133
0.765
2.099
1.671
0.6156
104/ 34
4/189
0.281
6.349
1.739
1.4071
5/ 1
36/241
O.l*9
0.349
0.348
0.0000
36/ZO9
I/ 1
0.121
5.399
1.T81
1.2729
27/ 2
32/217
0.349
2.099
1.393
0.6607
99/ 74
7/569
0.281
6.349
1.725
1.2873
45/ 2
76/695
23
37
29
12.0
86/130
2/ 31
16
129
7J
40.4
66/ 54
8/129
11
92
44
36.8
18/ 68
4/161
12
141
68
41.1
27/ 38
36/182
59
59
59
0.0
129/114
If 3
14
168
79
45.2
32/ 22
32/192
11
•n
42
20.5
T4/212
7/456
12
168
TJ
42.6
93/ 85
76/564
5.0
7.0
6.0
1.41
66/133
2/ 50
0.0
6.0
1.6
2.20
0/149
8/100
2.0
6.0
3.5
1.91
28/130
4/ 89
0.0
16.0
3.8
3.40
Of 43
36/204
6.0
6.0
6.0
0.00
116/ 97
I/ 11
O.O
14.0
2.8
3.40
O/ 37
32/249
2.0
7.0
4.6
1.99
95/325
7/322
0.0
16.0
3.1
3.33
0/153
76/589
4048
3054*
17296
18735.5
0
271O
684
953.0
49
9757
5293
4307.8
O
L26B5
1326
2501.7
3512
3512
3512
0.0
0
4989
55 L
973.7
49*
30544
8468
1OI6S.O
0
12685
932
1881.5
22.1
27.4
24.7
3.74
0.0
3.8
1.7
1.64
12. A
19.1
14.5
3.08
O.O
9.8
2.6
2.68
11.5
11.5
11.5
O.OD
0.0
5.8
1.3
1.49
11.5
27.4
11. O
6.04
0.0
t.e
2.3
2.22
-------�
NJ
GfNUS:ANKIST«ODESMUS PARTIAL Of,* v.luo
0
0
U
N
0
R
C
U
N
0
a
0
u
N
0
a
0
u
N
0
R
0
U
N
0
o
0
U
N
0
0
0
u
N
0
0
n
u
N
1
0
I C
C
s
0
1 N
C
c
0
2 C
C
N
0
2 N
0
C
C
o
3 C
C
N
n
3 N
p
C
C
A n
L C
I C
N
A n
L N
L 0
C
C
MIN
MEAN
stov
0/WB
MIN
MAX
MEAN
STOV
O/M«
MIN
MAX
MEAN
STOV
O/UR
MIN
MAX
MEAN
STDV
C/UR
MIN
MAX
MEAN
JTOV
C/MK
MIN
MAX
M£AN
STOV
C/WK
MIN
MAX
MEAN
STOV
C/WR
M|N
MAX
MEAN
STOV
0/HR
CHLA
0.6
IBB. 6
21.2
4/' *
75/239
0.3
355.6
20.1
46.38
Of 0
172/247
1.4
595.0
46.1
78. 0)
Of 0
85/247
2.4
456.6
28.3
51.95
6/ 1
162/240
0.8
241.4
24.4
35.88
Of 0
94/247
0.8
237.3
22.4
33.33
Of 1
153/246
0.6
595.0
30.7
53.18
*/ 0
254/737
0.3
456.6
23.8
44.82
Of 1
487/7*0
TUR8
6
95
66
21.2
O/ 9
62/178
8
100
73
20.0
It 0
125/186
5
103
65
26.2
I/ 2
80/234
4
121
76
22.0
3/ 3
157/237
8
97
74
21.5
)/ 2
93/216
I
130
74
24.0
Of 0
138/221
5
103
69
23.5
3/ 2
225/t*0
1
121
7*
22.1
Of 0
42 Of 64 5
SECCH1
5
125
33
21.1
2/ 11
76/236
2
252
48
40.2
O/ 0
173/2*9
6
222
42
35.3
I/ 0
83/2*0
I
216
52
35.6
3/ 1
158/240
7
185
43
28.6
If 0
94/2*5
6
169
55
37.8
O/ 1
152/2*5
5
222
40
29.3
3/ I
253/732
1
252
52
38.0
Of 0
483/736
PH
6.2
9.7
8.0
0.71
2/ 2
76/245
5.3
10.6
7.9
0.73
Of 0
173/249
6.2
9.7
7.8
0.80
7/ 3
85/237
4.1
10.6
7.7
O.94
Of 0
162/247
5.9
10.0
7.6
0.82
2/ 1
94/2*2
*.7
13.3
7.6
0.85
Of 0
151/2*5
5.9
10.0
7.8
0.79
ll/ 6
255/724
4.1
10.6
7.7
0.85
O/ 0
486/7*1
00
4.8
12.8
9.2
1.69
9/ 2
76/234
0.7
19.2
8.9
2.15
Of 3
169/245
3.1
17.8
7.3
2.20
If 0
84/245
3.0
16.3
6.9
1.85
Of 1
162/245
1.9
11.4
7.3
1.64
If 2
93/238
1.6
13.5
7.3
1.60
Of 0
148/241
1.9
17.8
7.8
2.05
2/ t
253/729
0.7
19.2
7.7
2.08
Of 0
479/732
TEMP
6.B
28.0
17.3
5.66
Of 3
76/2*5
7.2
28.9
17.6
5.57
If 0
172/2*7
20.1
30.1
26.4
2.27
I/ 6
85/239
17.3
32.2
26.7
2.39
Of 0
161/2*6
9.0
29.6
20.2
3.37
Of 0
94/246
12.6
29.0
20.5
3.17
I/ 1
152/2**
6.8
30.1
21.4
5.4|
Of 6
255/734
7.2
32.2
21.5
5.54
If 0
485/739
TOTALP
0.037
0.701
O.O94
0.1041
6/ 9
76/234
0.004
1.719
0.135
0.2683
ot a
173/249
0.004
1.599
0.155
0.2751
Of 1
85/246
O.O04
2.559
0.123
0.28*5
Of O
162/2*7
O.O05
1.479
0.133
0.2369
I/ 3
94/2*2
O.004
4.549
0.168
3.4863
Of 0
152/246
O.O04
1.599
0.129
0.2222
Of 5
255/737
0.004
4.549
0.142
0.3551
Of 0
487/742
OPT HOP
0.032
0.616
0.036
0.0847
10/ 5
76/234
0.001
1.209
0.066
0.1884
Of 0
173/249
o.ooi
1.191
0.068
0.2023
Of 0
85/247
O.OOI
0.609
0.045
0.1091
Of 3
162/244
0.003
1.099
3.060
O.1631
2/ 3
93/240
0.001
2.009
0.076
0.2326
Of 0
152/2*5
o.oot
1.191
0.056
0.1599
O/ 3
254/738
0.001
2.009
0.062
0.1830
Of 0
487/741
102N03
0.334
7.557
0.798
1.3329
2/ 2
76/245
0.024
9.745
0.901
1.5365
Of 0
173/249
0.029
4.099
0.488
0.8056
*/ 3
85/240
0.025
6.857
0.496
0.92*3
Of 0
162/2*7
0.020
2.569
0.291
0.4513
2f 2
94/242
0.017
4.469
0.373
0.5989
O/ 0
152/246
0.020
7.557
0.508
0.9254
Zf 2
255/738
0.017
9.745
0.602
1.1323
Of o
487/742
NH3
0.022
0.539
0.102
0.0839
Of 2
76/247
0.024
0.635
0.109
0.1001
If 0
173/248
0.039
0.306
0.118
0.0579
3/ 9
85/235
0.034
0.719
O.I20
0.1001
Of 0
162/247
0.034
0.974
0.119
0.1269
4/ 2
94/240
0.020
3.024
0.125
0.2662
Of 0
152/246
0.022
0.974
0.113
O.0956
If 2
255/739
0.020
3.024
0.117
0.1701
O/ 0
487/742
KJEL
0.199
3.199
0.822
0.6258
Of 3
76/246
0.207
4.699
0.785
0.7282
I/ 0
173/248
0.226
5.699
1.265
1.0220
If 3
85/243
0.215
7.149
1.191
1.1082
Of O
162/247
0.210
6.000
1.141
1.0377
2/ 1
94/243
0.199
8. 199
1.105
1.0723
Of 0
152/246
0.199
6.000
1.087
0.9424
Of 4
255/738
0.199
8.199
1.020
0.9917
O/ 0
487/742
ALK
10
248
72
67.0
Of 0
76/249
10
240
69
67.7
Of 1
173/248
10
280
64
59.7
Of 3
85/24*
10
334
78
72.9
Of 0
162/247
10
291
75
64.3
Of 0
94/246
10
283
72
64.1
Of I
152/245
10
291
7O
63.5
Of 2
255/740
10
334
T3
68.4
Of 0
487/742
N/P
0.0
81. O
15.4
19.04
Of 10
76/239
0.0
142.0
20.0
27.32
Of 0
173/249
O.O
65.0
10.5
13.27
Ot 8
85/239
0.0
210. O
15.9
27.58
Ot 0
162/247
0.0
85.0
8.5
13.71
Of 2
94/244
0.0
9O.O
10.3
15.56
Ot 0
152/246
0.0
85.0
11.3
15.56
Of 17
255/725
3.0
210.0
15.6
24.64
Of 0
487/742
CONC
0
337*
19)
511.0
0
0
0
0.0
O
4027
206
55*. 3
0
O
0
0.0
0
4248
243
568.6
0
O
O
O.O
0
4248
216
545.5
0
0
0
0.0
PE«C
0.0
14.9
2.4
3.51
0.0
0.0
0.0
0.00
O.O
16.8
1.5
2.34
0.0
0.0
0.0
0.00
0.0
21.9
1.8
3.21
0.0
0.0
0.0
0.30
0.0
21.9
1.9
3.06
0.0
0.0
0.0
o.oo
-------�
GENUS: ANKISTRODESMUS
CMLA
rune SECCHI
PARTIAL DEPTH VALUES
TEMP TOTALP ORTHOP N02N03 NH3
KJEL ALK
N/P
CONC PE»C
e
0 0
U 1 0
N H
0
R N
0 0
U 1 N
N 0
0 0
H
I
0 0
U 2 0
N «
0
It N
C 0
U 2 N
N 0
0 0
M
II
0 0
U 3 0
N M
0
* N
C 0
U 3 N
N 0
0 0
M
R
0 * C
U L 9
N L t
O
« N
0*0
U L N
N L 0
0 0
*
NIN
MAX
MEAN
STOV
N
e/MR
• IN
MM
MEAN
STOV
N
0/MR
MIN
MAX
MEAN
STOV
N
0/MR
KIN
I'M
MEAN
STOV
N
0/UR
NIN
MAX
MEAN
STOV
N
0/UR
M!N
MM
MEAN
STOV
N
C/MR
HIN
MAX
MEAN
STOV
N
0/MR
"IN
MAX
MEAN
STOV
*
0/MR
1.8
63.5
27.0
29.13
14/ 13
5/220
0.6
188.6
20.8
26.95
4/ 4
70/239
1.5
1.5
1.5
o.oo
1/245
I/ 1
1.4
595.0
46.6
78.34
O/ 0
84/247
5.8
9.7
8.2
2.10
68/130
3/ 49
0.8
241.4
25.0
36.35
O/ 0
91/247
1.5
63.5
17.9
23.50
16/ 73
9/652
0.6
599.0
31.2
53.92
4/ 3
245/737
32
72
43
16.5
12/107
5/ 68
6
95
68
20.5
O/ 9
57/178
93
93
93
0.0
20 8/ 22
I/ 7
5
103
65
26.1
I/ 2
79/234
89
91
90
1.2
153/ 42
3/ 26
8
97
74
21.7
3/ 2
83/216
32
93
65
Z7.7
54/ 67
9/524
5
103
69
23.3
3/ 2
216/640
10
41
25
13.3
IS/ 86
5/148
5
125
33
21.5
2/ 11
71/236
126
126
126
0.0
233/ 7
It 1
6
222
41
34.3
I/ 0
82/240
41
54
46
6.8
I26/ 74
3/ 46
7
18S
43
29.0
I/ 0
91/245
10
126
43
34.1
JO/ 32
9/674
9
222
40
29.2
3/ 1
244/732
7.3
8.7
7.9
0.64
45/ 19
5/185
6.2
9.7
8.0
0.72
2/ 2
71/245
6.5
6.5
6.5
0.00
18/228
I/ 1
6.2
9.7
7.8
0.79
7/ 3
84/237
6.7
7.9
7.2
0.64
30/ 88
3/127
5.9
13.0
7.6
0.82
2/ 1
91/242
6.5
8.7
7.5
0.77
40/ 58
9/643
5.9
10.0
7.8
0.79
ll/ 6
246/724
9.3
11.9
10.6
1.07
132/ 11
5/102
4. a
12.8
9.1
1.68
9/ 2
71/234
7.6
7.6
7.6
0.00
172/ 70
I/ 4
3.1
17.8
7.3
2.22
I/ 0
83/245
T.I
8.9
8.2
0.95
100/ 26
3/115
1.9
11.4
7.3
1.65
I/ 2
90/238
7.1
11.9
9.3
1.65
279/ 19
9/434
1.9
17.8
7.8
2.04
2/ 1
244/729
11.2
14.8
13.0
1.40
22/137
5/ 89
6.8
28.0
17.6
5.73
O/ 3
71/245
26.8
26.8
Z6.B
0.00
126/114
I/ 6
20.1
30.1
26.4
2.28
I/ 6
84/231
13.5
23.0
16.8
5.37
2/ 55
3/189
9.0
29.6
20.3
3.27
O/ 0
91/246
11.2
26.8
15.8
5.35
23/135
9/582
6.8
30.1
21.6
5.32
O/ 6
246/734
o.oi<;
0.131
0.060
0.0418
3 a/ 45
5/166
0.007
O. 701
0.096
3.1369
6/ 9
71/234
0.004
0.004
0.033
9.00JJ
0/245
If 2
0.008
1.599
0.157
0.2762
6/ 1
84/240
0.031
0.291
0.124
0.1441
76/ 20
3/150
0.005
1.479
0.134
0.2399
I/ 3
91/242
0.004
0.291
0.375
0.0881
O/ 59
9/683
0.005
1.599
0.131
0.2255
it 5
246/732
0.002
0.022
0.009
0.0084
ID/ 90
5/149
3.002
0.616
0.038
0.0873
10/ 5
71/234
0.001
O.OO1
9.030
0.0000
0/244
I/ 3
0.002
1.191
3.064
0.2334
3/ 0
84/244
0.008
0.204
0.074
0.1123
62/ 15
3/168
0.003
1.099
0.360
0.1650
2/ 3
fO/240
0.001
0.204
3.033
0.0654
O/ 46
9/695
0.002
1.191
0.056
0.1623
14/ 3
245/724
0.1 IS
0.792
0.462
0.3259
56/ 70
5/123
0.034
7.557
0.821
1.3743
21 2
71/2*5
0.265
0.265
0.264
0.0000
163/ 83
I/ 1
0.029
4.O99
0.490
0.8130
4/ 3
84/240
0.055
0.587
3.270
3.2799
77/ 42
3/127
0.020
2.569
0.292
0.4569
2/ 2
91/242
0.055
0.792
0.376
0.2882
122/148
9/472
0.020
7.557
0.513
0.9405
2/ 2
246/738
0.047
0.154
0.079
0.0427
40/ 43
5/166
0.022
0.539
0.104
3.0863
O/ 2
71/247
0.042
O.042
0.042
0.0000
10/234
I/ 3
0.039
O.3O6
0.119
0.0577
3/ 9
84/235
0.035
0.184
0.133
0.0751
5/ 34
3/2O7
0.034
0.974
0.119
0.1284
4/ 2
41/240
0.035
0.184
0.083
O.OS20
22/ 97
9/623
0.022
0.974
0.115
0.0967
It Z
246/739
0.269
0.982
0.634
0.2996
16/ 57
5/176
0.199
3.199
0.835
0.6416
O/ 3
71/246
0.226
0.226
0.225
0.0000
1/245
I/ 1
0.265
5.699
1.277
1.0217
3/ 3
84/241
0.515
0.712
0.587
0.1079
70/142
3/ 34
0.210
6.000
1.159
1.0497
2/ 1
91/243
0.226
0.482
0.573
0.2553
12/264
9/466
0.199
6.300
1.106
0.9531
O/ 4
246/736
10
154
66
71.5
O/ 43
5/206
10
248
72
67.2
O/ 3
71/249
13
13
13
0.0
32/210
I/ 5
10
280
65
59.8
O/ 3
84/244
20
78
41
32.4
64/ 86
3/ 96
10
291
76
64.8
Of 0
91/246
10
154
52
56.3
0/109
9/633
10
291
71
63.8
O/ 2
246/740
4.0
16.0
10.2
5.76
5l/ 80
5/118
0.0
81.0
15.8
19.61
O/ 10
71/239
62.0
62.0
62.0
0.00
236/ 10
I/ 1
0.3
65.0
9.9
12.07
O/ 8
84/239
3.0
7.0
4.3
2.31
68 / 63
3/ 95
0.0
85.0
• .7
13.91
Of 2
91/244
3.0
62.0
14.0
18.71
146/ 33
9/563
0.0
85.0
11.2
15.47
O/ 17
246/72S
106 11.2
3374 14.9
1311 13.1
1432.6 1.1$
0 0.0
1829 8.8
115 1.6
228.4 2.08
35 16.8
35 16.8
35 16.8
0.0 0.33
0 0.0
4027 7.8
208 1.3
557.3 1.64
115 11.6
1145 21.4
549 16.3
533.6 5.17
0 0.0
4248 8.3
233 1.3
569.7 1.68
35 11.2
3S74 21.4
915 14.6
1158.6 3.27
o o.o
4248 8.8
190 1.4
496.0 1.79
-------�
N)
00
GENUS-ANOMOEONEIS
CHI A
TURB SECCMI
PARTIAL DEPTH
TEMP TOTALP ORTHOP N02NO3
NH3
CONC PERC
II
r o
U I C
N C
0
R N
0 0
U 1 N
N 0
0 C
C
It
C O
U 2 C
H r
0
R N
0 0
U 2 N
N 1
0 C
C
R
0 0
U 3 C
N C
0
R N
n a
U 1 N
N 0
0 C
c
a
0*0
U L C
NIC
0
R M
P A 0
U 1 N
N L 0
D C
C
M.1N
MAX
MEAN
STOV
N
O/UR
KIN
MM
MEAN
STDV
N
0/MR
HIM
MM
MEAN
STDV
N
O/UR
MIN
MAX
MEAN
STOV
N
P/WR
MIN
MAX
MEAN
STOV
N
O/WR
NIV
M«
MEtM
STOV
N
O/WR.
KIN
MAX
MEAN
STBV
N
O/WR
MIN
MAX
MEAN
STOV
N
O/UR
5.5
5.5
5.5
0.00
89/153
I/ 5
0.3
355.6
21.0
*1.*7
O/ 0
2*6/247
6.*
T.I
6.T
0.49
49/185
Z/ 13
I.*
595.0
3*. 7
62.79
O/ 0
2*5/2*7
1.5
8.2
*.l
3.59
7/143
3/ 97
0.8
2*1.*
23.*
3*.*l
O/ 0
2**/2*7
l.S
8.2
5.2
2.63
16/*31
6/294
0.3
595.0
26.*
48.08
Of 0
735/7*1
81
81
81
0.0
ll*/ 66
t/ 7
6
100
71
20.6
O/ 0
186/187
87
95
91
5.7
159/ 10
21 68
*
121
72
24.0
O/ O
235/237
86
96
89
5.8
12 1/ 7
M 87
1
100
7*
23.2
Of 0
218/221
81
96
89
5.8
324/ 18
6/303
1
121
72
22.8
O/ 0
639/6*5
38
38
38
0.0
151/ 9*
I/ 4
2
252
**
36.2
Of 0
246/2*9
62
125
9*
44.5
111/ 8
2/ SO
1
222
48
35.6
Of 0
239/241
37
134
89
49.0
104/ 10
3/132
6
185
50
34.6
Of 0
2*3/2*6
37
13*
82
42.8
367/ 21
6/348
1
252
*7
35.6
31 3
730/736
7.7
7.7
7.7
0.00
87/147
I/ IS
5.3
10.6
7.9
0.73
O/ 0
Z4B/249
7.3
7.7
7.5
0.28
62/13*
2/51
4.1
10.6
7.8
0.89
O/ 0
2*5/2*7
7.*
7.7
7.6
0.15
93/107
3/ 45
4.7
10.3
7.6
0.8*
O/ 0
242/2*5
7.3
7.7
7.6
0.18
192/388
6/161
4.1
10.6
7.8
0.83
O/ 0
735/7*1
8.6
8.6
8.6
0.00
81/153
I/ 11
3.7
19.2
9.0
2.02
O/ 0
244/245
7.9
8.2
8.O
0.21
184/ 45
2/ 17
3.0
17.8
7.0
1.99
O/ 0
2*4/246
6.6
7.9
7.3
0.65
61/ 81
3/ 93
1.6
13.5
7.3
1.62
Of 0
238/2*1
6.6
8.6
7.7
0.71
194/218
6/320
0.7
19.2
7.8
2.08
Of 0
726/732
18.4
18.4
18.4
0.00
152/ 95
I/ 1
6.8
28.9
17.5
5.60
Of 0
247/248
27.3
Z8.4
Z7.8
0.78
141/ 68
if 37
17.3
32.2
26.6
2.35
Of 0
2*4/246
20.3
21.7
20.9
0.71
132/ 80
3/ 34
9.0
29.6
20.4
3.27
Of 0
243/246
18.*
28.*
zz.e
4.06
22 O/ 73
6/447
6.8
32.2
21.5
5.50
Of 0
734/7*0
0.028
0.328
0.327
O.OOOO
60/184
If 5
0.00*
1.719
0.123
0.2318
Of 0
2*8/2*9
0.009
0.012
0.010
0.0021
9/221
2/ 17
0.00*
2. 559
0.135
0.2821
Of 0
2*5/2*7
0.006
0.069
0.028
0.0350
2/101
3/143
0.00*
4.5*9
0.156
O.*113
Of 0
2*3/2*6
0.006
0.069
0.022
0.02*0
7/303
6/432
O.O04
*.5*9
0.138
0.3168
Of 0
736/742
0.011
0.011
0.011
0.0000
115/123
I/ 11
0.001
1.209
0.057
0.1646
Of 0
248/Z49
0.005
3.006
0.005
O.0007
38/168
2/ 41
0.001
1.191
3.054
0.1484
Of 0
2*5/2*7
0.00*
0.021
0.010
0.0090
8/ 93
3/1*4
0.001
2.009
0.071
0.2100
Of 0
242/2*5
0.00*
0.021
0.009
0.0063
69/259
6/413
0.001
2.009
0.060
0.1760
Of 0
735/7*1
O.443
O. 443
0.4*2
O.OOOO
145/133
I/ 1
0.024
9.7*5
0.871
1.478Z
Of 0
2*8/2*9
0.070
0.119
0.09*
0.03*6
45/1*8
2/ 54
0.025
6.857
0.497
0.8865
Of 0
245/2*7
0.058
0.226
0.133
0.0853
79/ 82
3/ 85
0.017
*.*69
0.344
0.5506
Of 0
2*3/2*6
0.058
0.4*3
0.171
0.1453
125/216
6/401
0.017
9.7*5
0.573
1.0697
Of 0
736/7*2
0.061
0.061
0.060
0.0000
76/168
It 5
0.022
0.635
0.107
0.095*
Of 0
248/2*9
0.050
O.058
0.054
0.0056
23/209
21 15
0.034
0.719
0.120
0.0879
Of 0
2*5/2*7
0.0*0
O.O58
0.0*8
O.OO90
I*/ 168
3/ 6*
0.020
3.02*
0.1Z3
0.22**
Of 0
2*3/246
0.0*0
0.061
0.052
0.0080
*Z/526
6/17*
0.020
3.02*
0.117
0.1*92
Of 0
736/742
0.353
0.353
0.352
0.0000
47/201
If 1
0.199
4.699
0.798
0.698*
Of 0
2*8/2*9
0.356
0.*1S
0.385
0.0*17
19/212
21 16
0.219
7.1*9
1.Z2*
1.0795
O/ O
2*5/2*7
0.221
0.322
0.287
0.0580
4/21*
3/ 28
0.199
8.199
1.129
1.0597
Of 0
2*3/246
0.221
0.415
0.331
0.0639
8/579
6/155
0.199
8.199
1.0*9
0.9767
Of 0
736/7*2
62
62
62
0.0
ISO/ 98
If 1
10
2*8
70
67.5
Of O
2*8/2*9
39
6*
52
17.7
102/ 99
21 46
10
33*
7*
69.1
Of 3
2*5/2*7
39
63
SO
12.1
1O6/IO7
3/ 33
10
291
73
6*.*
Of 3
2* 3/ 2*6
39
6*
S3
12.0
330/298
6/11*
10
31*
72
6T.O
Of 0
736/7*2
18.0
18.0
18.0
0.00
17*/ 71
If *
0.0
1*2.0
18.6
25.19
Of 0
2*8/2*9
12.0
15.0
13.5
2.12
179/ 48
2f 20
0.0
210.0
14.1
23.86
Of 0
245/2*7
*.o
16.0
11.0
6.2*
937 30
3/123
0.0
90.0
9.6
14.95
Of 0
2*3/2*6
4.0
18.0
13.0
4.90
208/133
6/401
0.0
210.0
1*. 1
22.12
O/ 0
736/7*2
0 0.0
0 O.O
0 0.0
0.0 0.00
0 0.0
0 0.0
0 0.0
0.0 0.00
817 C3.2
5132 81.3
2975 72.2
3051.2 12.80
0 0.0
0 0.0
O 0.0
O.O 0.00
0 0.0
628 54.7
226 20.7
3*9.3 29.70
0 0.0
0 0.0
0 0.0
O.O 0.00
0 0.0
5132 81.3
110* 3*.*
200*. 2 36.17
0 0.0
0 0.0
0 0.0
0.0 0.00
-------�
GENUS:ANOMOEONEIS
CHLA
TURB SECCHI
00
TEMP
PARTIAL DEPTH VALUES
TOTALP ORTHOP N02N03
NH3
KJEL ALK
N/P
CONC P6RC
R
0 0
U 1 0
N M
0
R N
O 0
U 1 N
N 0
0 0
N
R
0 D
U 2 0
N N
0
R N
0 0
U 2 N
N 0
0 0
II
R
0 0
U 3 0
N X
D
• N
0 0
U 3 N
N 0
0 0
M
,
0 A 9
O L 0
N L M
0
• N
O A 0
U L N
N L 0
0 0
M
MIN
MAX
MEAN
STDV
0/MR
MIN
MAX
MEAN
STDV
0/MR
MIN
MAX
MEAN
STOV
0/MR
MIN
MAX
MEAN
STOV
N
0/MR
MIN
MAX
MEAN
STOV
0/MR
MIN
"AX
MEAN
STDV
C/WR
MIN
MAX
MEAN
STOV
O/MB
MIN
MAX
MEAN
STOV
O/UR
5.5
5.5
5.5
O.OO
89/153
I/ 5
6.4
7.1
6.7
0.49
49/185
Z/ 13
2.6
2.6
2.6
o.oo
14/232
I/ I
1.5
8.2
4.8
4.74
7/143
2/ 97
2.6
7.1
3.4
2.42
48/472
3/221
1.5
8.2
5.1
3.37
16/431
3/294
81
81
81
0.0
114/ 66
11 7
87
95
91
5.7
1S9/ 10
2/ 68
86
86
86
0.0
127/ 84
I/ 10
86
96
91
7.1
127/ 7
2/ 87
86
95
89
4.9
419/ 35
3/191
81
96
88
7.6
324/ 18
3/303
38
38
38
- o.o
15I/ 94
I/ 4
62
125
94
44.5
183/ 8
2/ 50
97
97
97
0.0
219/ 26
I/ 1
37
134
86
68.6
104/ 10
2/132
62
125
95
31.6
573/ 33
3/130
37
134
70
55.7
367/ 21
3/346
7.7
7.7
7.7
0.00
87/147
I/ 13
7.3
7.7
7.5
0.28
62/134
2/ 51
7.4
7.4
T.4
O.OO
93/139
I/ 13
7.6
7.7
7.6
0.07
116/137
21 22
7.3
7.7
T.5
0.21
192/388
3/161
7.6
7.7
7.7
3.06
284/388
3/ 69
8.6
8.6
8.6
0.00
81/153
I/ 11
7.9
8.2
8.0
0.21
184/ 45
2/17
6.6
6.6
6.6
0.00
67/168
I/ 6
7.3
7.9
7.6
0.42
HO/ 81
2/ 50
6.6
8.2
7.6
0.85
194/275
3/263
7.3
8.6
7.9
0.65
305/218
3/209
18.4
18.4
18.4
0.00
152/ 95
I/ 1
27.3
28.4
27.8
0.78
141/ 68
2/ 37
21.7
21.7
21.7
o.oo
164/ 80
It 2
20.3
20.8
20.5
0.35
132/ 99
21 15
21.7
28.4
25.8
3.59
3S1/ 73
3/316
18.4
20.8
19.8
1.27
220/416
3/104
0.028
0.028
0.027
O.OOOO
60/18*
I/ 5
0.009
0.01Z
0.010
0.0021
9/221
If 17
0.011
0.011
0.011
O.OOOO
15/227
I/ *
0.006
0.069
0.037
0.0445
2/131
2/143
0.009
0.012
0.010
0.0015
29/675
3/ 38
0.306
3.069
0.034
0.0319
7/333
3/432
0.011
0.011
3.011
0.0000
115/123
I/ 11
O.OO 5
0.006
0.003
0.0007
38/168
2/ 41
0.007
0.007
0.037
0.0000
42/183
I/ 20
0.004
0.321
0.012
0.0120
S/ 9)
2/144
0.005
0.007
0.005
0.0009
106/486
3/149
0.034
0.021
0.011
0.0085
69/259
3/413
0.443
0.443
0.442
0.0000
145/103
I/ 1
O.O70
0.119
0.094
0.03*6
45/148
2/ 54
0.116
0.116
0.116
0.0000
125/120
If I
0.058
0.226
0.142
0.1187
79/ 82
2/ 85
0.070
0.119
0.101
0.02 74
171/459
3/112
0.058
0.443
0.242
0.1930
123/216
3/401
0.061
0.061
0.060
O.OOOO
76/168
I/ 5
0.050
0.358
O.054
0.0056
23/209
2/ 15
O.040
O.040
0.939
0.0000
14/229
I/ 3
O.047
0.358
0.052
0.0077
39/168
2/ 39
0.040
0.058
0.049
0.0090
42/558
3/142
O.O47
0.061
0.055
0.0073
98/526
3/118
0.353 62 18.0
0.353 62 18.0
0.352 62 18.0
0.0300 0.0 0.00
47/201 150/ 98 174/ 71
1/1 1/1 1/4
0.356 39 12.0
0.415 64 15.0
0.385 52 13.5
0.0417 17.7 2.12
19/212 102/ 99 179/ 48
Z/ 16 Z/ 46 Z/ 20
0.322 39 13.0
0.322 39 13.0
0.321 39 13.0
O.OOOO 0.0 0.00
31/214 1O6/139 199/ 42
I/ 1 1/1 1/5
0.221 48 4.0
0.321 63 16.0
0.2T1 56 10.0
0.0707 10.6 8.49
4/215 114/107 93/ 30
Zf 27 2/ 25 2/123
0.322 39 12.0
0.415 6* 15.0
0.364 47 13.3
0.0470 14.4 1.53
78/379 330/298 521/166
3/ 85 3/114 3/ 53
0.221 48 4.0
0.353 63 18.0
0.298 58 1Z.7
0.0688 8.4 7.57
8/637 364/306 208/133
3/ 97 3/ 72 3/401
0
0
0
0.0
817
5132
2975
3351.2
628
628
628
0.0
0
49
25
34.6
628
5132
2192
2547.6
0
49
16
28.3
0.0
0.0
0.0
O.JO
63.2
ei.3
72.2
12.83
54.7
54.7
54.7
0.30
O.O
7.3
3.6
5.15
54.7
81.3
66.4
13.58
0.0
7.3
Z.4
4.20
-------�
CO
o
GENUS:APHANIZCMENON
CHI*
TURB SECCHI
00
TEMP
PARTIAL DEPTH VALUES
TOTALP OUTHOP N02NO3
NH3
KJEL ALK
N/P
CONC PERC
R
0 0
U 1 C
N C
0
R N
0 0
U 1 N
N 0
0 C
C
It
0 0
u 2 e
N C
0
R N
a o
U 2 N
N 0
0 C
C
R
C 0
U J C
N C
0
R N
0 0
U 3 N
N 1
0 C
C
•
0 1 0
U L C
H t C
0
p
O/WR
HIM
MiX
MEAN
STOV
N
0/UR
MIX
MAX
MEAN
STOV
N
0/MR
KIN
H»
«-E»N
STOW
N
O/*'
N1N
N»X
ME««
STOV
N
Of**
MIN
MIX
MEAN
STOV
N
n/wR
•MN
"A»
MEAN
STOV
N
0/Wfl
M[N
MIX
MEAN
STOV
N
0/MR
o. e
188. t
20.4
36.8*
6/ 4
26/237
0.3
355. 6
21.0
41.98
O/ 0
221/247
2.3
312.0
33.7
50.71
It 2
64/240
1.4
595- 0
34. T
66.31
O/ 0
183/247
3.4
241.4
30.8
•43.83
22/ 0
64/225
0.8
237.0
20. S
29.91
O/ 1
183/246
0.8
312.0
30.2
45.84
6/ 3
194/732
0.3
595.0
29.1
48.44
O/ 0
58T/741
S3 2
96 IBS
79 51
11.8 4O. 9
33/4 0/1
18/150 26/248
6 3
100 252
TO 43
21.2 35.6
0/0 I/O
169/187 223/248
18 8
103 222
Tl 49
22. 5 38. 1
ll/ 2 4/0
63/224 59/237
4 1
121 216
72 49
24.5 35. 1
O/O O/ I
174/237 1B2/240
8 11
9T 157
72 »2
25.0 36.7
3/2 5/3
54/216 64/238
1 6
100 185
75 5O
22.5 34.4
0/0 0/0
167/221 1B2/246
8 2
103 222
7J 51
22.5 37.8
9/2 I/ 1
135/635 149/73*
1 t
121 252
72 47
22.8 35. 2
9/0 0/0
513/645 587/736
6.9 4.8
9.3 10.5
8.0 8.5
0.6T 1.49
17/8 If 39
26/224 26/197
5.3 0.7
19.6 19.2
7.9 9.0
0.73 2.07
O/ O 0/0
223/249 219/245
6.2 3.0
9.4 13.5
8.3 6.9
0.63 1.74
7/6 0/5
64/234 64/241
•4.1 3.1
10.6 17. g
7.7 T.O
0.96 2.06
0/0 1/0
183/247 182/245
6.4 1.9
9.2 11.5
7.9 7.6
0.70 1.82
12/ 51/0
63/228 63/240
4.7 1.6
10.) 11.4
7.5 7.2
0.85 1.52
0/0 0/2
182/245 17B/Z39
6.2 1.9
9.4 13.5
8.0 T.5
0.66 1.82
16/ 17 2/ 7
153/708 153/723
4.1 O.T
10.6 19.2
7.7 T.9
0. 86 2.13
0/0 0/0
588/741 579/732
11.6
28.8
19.1
6.46
26/ 1
26/221
6.8
28.9
17.3
5.46
Of 0
222/248
17.3
30.1
25.4
2.44
Of 6
64/240
21.2
32.2
27.0
2.18
3/ 0
182/243
13.7
27.2
19.2
2.*7
3/ 3
64/24O
9.0
29.6
20.8
3.33
o/ a
182/246
11.6
30.1
21.8
4.66
27/ 6
154/707
6.8
32.2
21.4
5.69
O/ 0
586/740
0.004
0.285
0.072
O.O623
O/ 17
24/232
0.004
1.719
0.129
0.2430
O/ 0
223/249
0.008
0.881
0.100
0.1534
6/ a
64/233
0.004
2.559
O. 146
0.3133
or o
183/247
0.010
1.129
0.118
0.1965
ll/ 5
63/230
0.004
4.549
0. 167
0.4599
Of 0
183/246
O.OO4
1.329
O.103
0.1625
Of 1
153/733
0.004
4.549
0.146
O. 3441
Of 0
589/T42
0.001 O.O34
0.172 4.389
O.021 0.469
0.0352 0.8585
Of 15 2/ 9
26/234 26/238
O.OO! O.O24
1.209 9.745
O.061 0.916
0.1727 1.5257
o/ a o/o
223/249 223/249
O.OO1 0.029
0.433 4.295
0.036 0.559
0.0770 O.9641
0/8 4/1
64/239 64/242
0.001 0.025
1.191 6.857
0.059 0.471
3.1654 0.8553
O/O O/O
183/247 183/247
0.004 0.017
0.847 2.688
0.047 0.364
O.1200 0.5668
8/4 0/1
63/233 63/245
0.001 0.020
2.009 4.469
0.078 0.334
0.2315 0.5424
0/0 2/0
182/245 1B3/244
0.001 0.017
0.847 4.389
0.038 0.464
O.0928 O.8034
Of 12 0/11
153/729 153/731
0.001 0.020
2.009 9.745
0.066 0.597
0.1907 1.1232
0/0 2/0
588/741 589/740
O.O44 0.232
0.554 2.665
0.133 0. 946
0.1228 0.6039
Z8/ 1 5/ 7
26/220 26/237
O.022 O.199
0.635 4.699
0.104 0.776
0.0914 0.7068
0/0 O/O
223/249 223/249
0.036 0.299
0.405 6.250
0.123 1.264
O.O687 0.9165
1/4 6/2
64/242 64/239
0.034 0.215
0.719 7.149
0.118 1.20O
0.0937 1.1306
O/O O/O
183/247 183/247
0.032 O.264
0.569 6.000
0.123 1.179
0.1124 O.8958
if 4 12 / I
63/240 63/233
0.020 0.199
3.024 8.199
0.122 1.097
0.2505 1.10B9
0/0 O/O
183/246 183/246
O.032 0.232
0.569 6.250
0.124 1.175
0.0480 O.8647
11 6 I3/ 3
153/729 15V 726
0.020 0. 199
3.024 8.199
0.114 1.309
0.1592 0.9994
0/0 0/0
589/742 589/742
10
206
97
77. 9
Of 10
26/239
10
248
67
65.5
Of a
223/249
11
293
120
87.6
IB/ 1
64/228
10
334
5T
52.1
O/ 0
183/247
10
283
10*
75.1
at i
63/245
10
291
61
55.5
O/ 0
183/246
10
293
111
81.0
Of I
153/741
10
394
62
58.6
Of 0
589/742
1.0
120.0
15.6
25.11
7/ 3
26/239
O.O
142.0
19.0
25.17
O/ 0
223/249
o. a
130.0
13.4
21.47
O/ I
64/246
0.0
210.0
14.3
24.56
O/ 0
183/247
0.0
88.0
9.5
15.53
Of 1
63/245
0.0
90.0
9.7
14.68
Of 0
1B3/246
0.0
130.0
12.2
19.97
O/ 4
153/738
0.0
210.0
14.6
22.53
at a
589/742
0 0.0
6168 48.4
425 8.2
1199.2 11.60
0 0.0
O O.O
0 0.0
0.0 0.00
O 0.0
2833.8 91.5
1013 11.0
3770.9 18.58
0 0.0
O O.O
0 O.O
0.0 O.OO
0 0.0
17189 90.1
682 10.5
2233.4 18.54
0 0.0
0 0.0
O 0.0
O.O O.OO
O 0.0
28338 91.5
776 10.1
2862.2 17.51
0 0.0
0 0.0
0 0.0
0.0 O.OO
-------�
GENUSitPHANIZC'ENON
PARTIAL DEPTH VALUES
CHLA
TURB SECCHI
oo
TEMP TOTALP ORTHOP N02N03
NH3
KJEL ALK
CCNC PEPC
1
0 0
U 1 0
N N
0
* N
0 0
U 1 N
M 0
0 0
M
R
1) D
U 2 0
N N
D
R 4
C 0
U 2 N
N 0
o a
M
R
0 0
U 3 0
N M
D
• N
0 0
U 3 N
N 0
0 0
M
•
0 A 0
U I 0
It L M
0
• N
c * a
U I N
N L 0
5 0
M
HIN
MAX
MEAN
STDV
N
0/WR
MIN
MIX
MEAN
STOV
N
0/UR
MIN
MAX
MEAN
STOV
N
0/UR
MIN
MAX
MEAN
STDV
N
P/HR
MIN
MAX
MEAN
STDV
N
0/WR
KIN
MtX
MEAN
STOV
N
C/MR
MIN
MAX
MEAN
STOV
«
0/MR
MIN
MAX
MEAN
STDV
N
0/WR
2.4
28.0
9.0
9.47
Z2/ 45
7/L80
0.9
188.6
24.6
42.27
6/ 4
19/23T
6.3
312.0
47.5
73.66
47/ 2
19/198
2.3
170.5
27.8
3T.06
}/ 5
45/237
3.6
241.4
38.3
39.89
26/ 0
15/221
3.4
198.3
28. 5
18.11
Z2/ 2
49/223
2.4
312.0
JT.6
62. 45
42/ 3
41/696
0.8
198.0
27.6
38.09
6/ 11
113/72*
81
90
84
*.o
114/ 2S
*/ 48
93
96
77
12.9
33/ 4
14/150
25
92
71
20.4
16/ 29
19/192
18
133
72
23. »
ll/ 2
44/224
8
97
68
30.7
}/ 2
13/216
17
97
74
22.7
It I
39/212
8
97
71
24.2
a/ 12
38/625
17
133
T3
21.9
2 1/ 2
97/622
2
114
53
36.5
it IS
7/234
16
185
51
41. 4
33/ 1
19/215
8
222
*5
99.4
4/ 0
17/237
12
123
46
25.5
13/ 9
42/219
12
109
51
33.7
If 20
15/219
11
157
91
37.9
5/ 3
49/238
2
222
51
46.0
I/ 1
39/734
11
189
50
34.6
17/ 3
110/696
6.9
8.3
7.6
0.38
17/ 59
7/173
6.9
9.3
8.2
0.64
IT/ 8
19/224
6.6
9.4
8.2
a. 75
19/ 6
19/222
6.2
8.9
7.9
0.97
If 16
45/224
6.4
9.2
a. 2
O.69
12/ 5
14/228
6.6
9.1
7.8
0.68
23/ 7
49/215
6.4
9.4
e.i
O.T2
30/ 17
40/694
6.2
9.1
7.9
0.64
16/ 20
111/705
6.0
10.3
8.0
1.46
14/ »9
7/182
4.8
10.5
8.7
1.53
9/ 39
19/197
4.4
13.5
T.3
1.89
ll/ 5
19/230
3.0
11.7
6.8
1.67
O/ 6
45/240
1.9
9.6
7.4
1.98
I/ 12
14/228
4.0
13.5
7.6
1.79
5/ 0
49/236
1.9
13.5
T.4
I.B3
2/ 7
49/723
3.3
13.5
T.5
1.82
5/ 7
111/720
12.9
27.4
19.3
6.66
56/ 8
7/184
11.6
28.8
19.1
6.57
26/ 1
19/221
20.1
29.5
24.5
1.98
If 20
19/225
17.3
30.1
25.8
2.53
O/ 6
45/240
19.7
24.3
18.6
2.98
I2/ 28
19/236
13.T
27.2
19.4
2.58
3/ 3
49/240
12.9
29.5
21.5
4.45
58/ 21
41/661
11.6
30.1
21. 9
4.74
27/ 6
113/707
0.020
0.166
0.064
0.0534
J9/ 35
7/175
0.094
0.285
0.075
0.0664
O/ 17
19/232
o.ooa
0.881
0.162
0.2484
6/ S
19/233
0.009
0.377
0.074
0.9783
9/ 19
45/219
0.018
1.329
0.168
3.3426
3B/ 5
14/203
0.010
0.791
0.1 J4
0.1109
ll/ 10
49/225
O.OOB
1.329
0.147
Q.2637
19/ 9
40/714
0.004
3.791
0.087
0.1033
O/ 28
113/714
0.003
0.060
0.017
0.0206
27/ 37
7/1B5
0.001
0.1 T2
0.021
0.3396
O/ 15
19/234
0.002
0.431
0.063
0.1255
I/ 8
19/236
0.001
0.176
0.024
3.3396
O/ 17
45/230
0.006
0.847
3.087
0.2212
28/ 4
14/213
0.004
0.450
0.036
0.0690
a/ 9
49/228
0.002
0.847
0.063
0.1557
14/ 12
40/715
0.001
0.450
0.02S
0.0543
0/23
111/716
0.034
0.597
0.231
0.1885
2/ 85
7/162
0.054
4.389
0.557
0.9938
ll/ 9
19/229
O.O49
2.556
0.355
0.6066
19/ 12
19/216
0.029
4.295
0.645
1.3747
4/ 1
45/242
0.017
1.731
0.292
3.5478
Of 7
14/239
0.024
2.688
0.385
3.5763
6/ 1
49/239
0.017
2.956
0.311
0.526B
O/ 39
40/703
0.024
4.389
0.517
0.8764
6/ 11
113/725
0.050
3.232
0.117
0.0642
48/ 15
7/186
0.044
0.554
0.138
0.1394
28/ 1
19/220
O.O56
0.235
0.112
0.0507
32/ 19
19/196
0.336
0.409
0.127
3.075O
I/ 4
45/242
0.044
O.285
0.110
0.0722
27/ 13
14/206
0.032
O.569
0.127
3.1219
if 4
49/24O
0.044
0.285
0.112
0.059T
68/ 40
40/634
0.032
3.969
0.129
0.1083
7/ 6
113/729
0.392
1.074
0.720
0.2400
65 / 40
7/144
0.212
2.665
1.029
0.6785
S/ 7
19/217
0.299
6.250
1.651
1.3708
6/ 2
19/219
0.328
2.8S4
1.101
0.5851
ll/ 16
43/220
0.399
6.000
1.534
1.3723
44/ 1
14/201
O.Z64
3.449
1.086
0.6976
12/ 11
49/ 223
0.299
6.250
1.417
1.2727
55/ 3
40/684
0.212
3.449
1.082
0.«463
13/ 27
113/702
13
198
64
79.6
Of 17
7/232
11
206
109
75.7
15/ 10
19/234
16
291
159
91.0
4O/ 1
19/206
tl
281
104
80.8
L8/ 2
45/227
20
214
148
63.5
64/ 13
14/172
10
283
95
74.5
Of 1
49/245
10
291
138
86. 9
Of I
4O/741
10
28!
101
76.8
Of 3
113/719
3.0
30.0
8.7
9.67
14/ 44
7/171
1.0
120.0
18.2
28.62
7/ 3
19/239
0.0
21.0
7.9
6.62
Of 33
19/214
1.0
130.0
15.7
24.98
12/ 1
45/234
0.0
21.0
6.4
6.56
at 21
14/225
0.0
88.0
10.3
17.22
Of 1
49/245
0.0
10.0
7.5
7.05
Of 91
40/651
0.0
130.0
13.8
22.66
Of 4
113/738
57 12.4
6166 48.4
1133 23.5
2239.8 12.96
0 0.0
916 7.4
165 2.5
241.8 2.53
176 12.4
28338 91.5
3140 32.2
6532.7 22.62
0 0.3
2303 9.6
115 2.0
349.3 2.77
185 11.5
17189 90.1
2401 3C.4
4236.2 23.93
3 3.0
1638 9.9
159 2.6
325.3 3.31
37 11.9
28338 91.9
2527 32.2
9173.2 21.81
0 0.0
2303 9.9
141 2.3
321.3 2.97
-------�
U)
GENUS:APHlNOCAPSA
CHLA
TURB SECCHI
00
PARTIAL DEPTH VALUES
TEMP TOTALP ORTHOP N02N03
NH3
KJEL
(.one
PERC
a HIN
0 ? "»«
U 1 r NEAN
1 C STPV
0 N
0/MR
R N M|N
0 n MAX
U 1 N "FAN
N T STDV
9 C N
C O/MR
R HIN
O O VAX
U 2 C NEAN
N C STOV
g N
0/MR
R N HIN
0 0 "AX
U 2 N I"EAN
N a STOV
0 C N
C 0/MR
• HIN
0 0 «x
u 3 C MEAN
M C STOV
0 N
r/w»
B N HIN
0 n MAX
u 3 N MEAN
N (] STOV
0 C N
C 0/MR
• MIN
0 A 0 "AX
U L C MEAN
1 L C STDV
9 N
0/MR
R N HIN
0 A 0 f
C 0/"R
1.2
49.3
29.6
18.16
7/ 19
9/221
0.3
355.6
20.6
42.01
O/ 0
238/247
2.5
141.6
37.7
38. 49
T/ 9
23/271
1.4
595.0
34. 1
64.60
O/ 3
224/247
2.8
85. 0
24.1
23.92
16/ 9
19/222
0.8
241.4
23.1
35.33
Of 0
228/247
1.2
141.6
31.2
30.81
ll/ 20
51/710
0.3
595.0
25.8
48.95
O/ 0
690/741
53
93
74
14.5
33/ 17
7/137
6
100
70
20.8
O/ 0
180/187
26
98
73
21.7
18/ 3
23/216
4
121
72
24.2
if 0
214/237
32
97
81
16.9
I8/ 2
19/2T1
1
100
73
23.5
3t 0
202/221
26
98
76
19.1
39/ 7
49/599
1
121
72
23.0
O/ 0
596/645
15
132
34
37.5
29/ 4
9/216
2
252
44
36.2
O/ 0
240/249
12
184
58
48.1
13/ 2
23/226
1
222
48
34.2
Of 0
218/241
17
157
53
38.3
23/ 3
19/220
6
185
50
34.8
O/ 0
227/246
12
184
52
42.9
39/ 5
SI/692
1
252
47
35.1
Of 0
615/736
7.2
9.7
8.4
0.83
3T/ 2
9/210
5.3
10.6
7.9
O. 71
O/ 0
240/249
6.2
10.6
8.0
1.02
7/ 0
23/240
4.1
10.3
7.7
0.87
O/ 1
224/246
6.5
9.9
7.9
1.02
19/ 2
19/224
4.7
10.3
7.6
0.82
Of 0
226/245
6.2
10.6
8.0
0.99
16/ 0
51/725
4.1
10.6
7.7
0.81
O/ 0
690/741
6.4
10.6
8.4
1.79
2lf 36
8/188
0.7
19.2
9.0
2.03
01 0
237/245
5.3
14.2
7.9
1.75
31/ 3
23/212
3.0
17.8
6.9
1.98
Of 0
223/246
5.6
10.1
7.8
1.14
25/ 10
19/236
1.6
13.5
7.3
1.64
3f 0
222/241
5.3
14.2
8.3
1.54
617 5
50/666
0.7
19.2
7.8
2.10
O/ 0
682/732
14.3
28.0
23.1
4.78
98/ 3
9/147
6.8
28.9
17.3
5.52
O/ 0
239/248
23.9
30.2
27.4
2.27
25/ 4
23/217
17.3
32.2
26.5
2.34
Of 0
223/246
17.5
25.3
21.9
2.21
41/ 18
19/187
9.0
29.6
20.3
3.29
O/ 0
227/246
14.3
30.2
24.6
3.82
10 3/ 4
51/633
6.8
32.2
21.3
5.53
Of 0
689/740
0.012
0.701
0.228
0.2391
16/ 9
9/224
O.O04
1.719
0.119
0.2307
O/ 0
240/249
0.006
0.659
0.095
0.1509
2/ 12
23/233
0.004
2.559
0.138
0.2912
01 3
224/247
0.013
0.921
0.163
0.2759
22/ 7
19/217
0.004
4.549
0.154
0.4187
01 0
227/246
0.006
0.921
0.144
0.2215
7/ 23
51/712
0.004
4.549
0.137
0.3217
Of 0
691/742
0.004
0.616
0.111
0.1984
39/ 5
9/205
O.OO1
1.209
0.055
0.1630
O/ 0
240/249
0.003
0.292
0.036
0.0743
9/ 12
23/226
0.001
1.191
0.055
0.1535
3f 0
224/247
0.004
0.609
0.093
0.1786
8/ 7
19/230
0.001
2.009
0.068
0.2114
Of 0
226/245
0.003
0.616
0.070
0.1456
38/ 15
51/688
0.001
2.009
0.059
0.1774
Of 0
690/741
0.024
0.344
0.159
0.1052
0/122
9/127
O.025
9.745
0.896
1.4963
If 0
240/248
0.027
0.251
0.098
0.0647
I/ 85
23/161
0.025
6.857
O.534
0.9182
Of 0
224/247
0.024
0.131
0.060
0.0338
6/112
19/128
0.017
4.469
0.365
0.5638
Of 0
227/246
0.024
0.344
0.094
0.0724
6/257
51/479
0.017
9.745
0.604
I.O964
O/ 0
691/742
0.045
0.55*
0.149
0.1565
30/ 1
9/218
0.022
0.635
0.105
0.0924
O/ 0
240/249
O.034
0.189
0.082
O.O399
O/ 32
23/215
O.O36
0.719
0.123
0.0905
If 0
224/246
0.035
0.169
0.078
0.0386
5/ 37
19/204
0.020
3.024
O.126
0.2317
Of 0
227/246
0.034
0.554
0.092
0.0765
13/ 9
51/720
O.020
3.024
0.118
0.1S26
Of 0
691/742
0.443
3.199
1.788
1.0755
91/ 3
9/155
0.199
4.699
0.759
0.6540
O/ 0
240/249
0.261
4.849
1.668
1.3144
2/ 4
23/241
0.215
7.149
1.170
1.0430
Of 0
224/247
0.301
4.099
1.587
1.O813
22/ 6
19/218
0.199
8.199
1.079
1.0481
O/ 0
227/246
0.261
4.849
1.659
1.1710
27/ 8
51/707
0.199
8.199
0.997
0.9440
of a
691/742
10
196
85
57.4
Of 20
9/229
10
248
69
67.7
O/ 0
240/249
10
136
59
42.1
O/ 40
23/207
10
334
75
70.9
O/ 0
224/247
10
IBS
58
47.3
O/ 15
19/231
IO
291
74
65.2
Of O
227/246
10
196
63
47. 1
0/51
51/691
10
334
73
67.9
01 O
691/742
0.0
9.0
3.6
3.09
O/117
9/132
0.0
142.0
19.2
25.43
Of 0
240/249
0.0
26.0
5.3
5.31
0/31
23/216
0.0
210.0
15.0
24.73
Of 0
224/247
0.0
11. O
3.2
2.74
O/ 5O
19/196
0.0
90.0
10.1
15.35
Of 0
227/246
0.0
26.0
4.2
4.20
O/101
SI/641
0.0
210.0
14.8
22.64
O/ 0
691/742
0
5915
1407
2163.3
0
0
0
O.O
O
4550
741
1171.9
0
0
0
0.0
0
26665
2198
6033.4
0
0
0
0.0
0
26665
1402
3860.0
0
0
0
0.0
0.0
11. I
5.3
4.39
0.0
0.0
0.0
0.00
0.0
35.4
2.9
7.27
0.0
0.0
0.0
o.oo
0.0
15.1
3.1
4.20
0.0
0.0
0.0
0.00
O.O
35.4
3.4
5.78
0.0
0.0
0.0
0.00
-------�
GENUS:*PHANOC*PSA
PARTIAL DEPTH VALUES
CHL»
TURB SECCHI
00
TEMP TOTtLP ORTHOP N02N03
NH3
KJEL ALK
N/P
CONC PERC
LJ
U)
4
O D
U 1 0
N H
0
R N
0 0
U 1 N
N 0
O 0
N
R
0 0
U 2 0
N H
0
R N
0 0
O 2 N
N 0
0 0
N
R
O 0
U 3 0
N I*
D
R N
0 0
U 3 N
N 0
D 0
N
P
0*0
U L 0
N L N
0
R N
o * o
U L N
N L D
D 0
N
MIN
MAX
MEAN
STDV
N
C/WR
MIN
MAX
MEAN
STOV
N
0/MR
MIN
MAX
MEAN
STDV
N
0/MR
MIN
MAX
MEAN
STOV
N
a/Hft
MIN
• AX
MEAN
STPV
N
P/MR
MIN
MAX
MEAN
STPV
N
0/UR
MIN
MAX
MEAN
STDV
N
0/MR
MIN
MAX
MEAN
STOV
N
0/MR
1.2
1.2
1.2
0.00
7/239
I/ 1
4.9
49.3
33.2
15.72
73/ 19
8/155
2.9
2.5
2.5
0.33
7/239
I/ 1
3.0
141.6
39.3
38.60
12/ 9
22/226
2.8
7S.O
40.4
51.18
16/ 12
2/219
4.2
85.0
22.2
20.73
37/ 9
17/291
1.2
78.0
21.1
37.92
lit 54
4/676
3.0
141.6
32.1
30.47
69 / 20
47/652
93
93
93
0.0
168/ 17
I/ 2
53
91
71
13.0
33/ 21
6/133
89
89
89
0.0
176/ 54
I/ 7
26
98
72
22.0
18/ 3
22/216
32
81
57
34.6
18/119
2/ 84
45
97
84
12.8
Z8/ 2
17/191
32
93
74
28.3
S4/ 67
4/524
26
98
77
18.5
39/ 7
45/599
132
132
132
0.0
242/ 4
I/ 3
15
36
22
8.2
29/111
8/119
42
42
42
0.0
136/100
I/ 5
12
184
58
49.2
13/ 2
22/226
17
76
47
41.7
23/ 43
2/180
17
157
54
39.1
23/ 3
17/220
IT
132
67
49.8
B6/ 22
4/628
12
184
51
42.7
39/ 5
47/692
7.6
7.6
T.6
0.00
72/162
I/ 15
7.2
9.7
8.5
0.82
37/ 2
8/210
7.2
7.2
7.2
0.39
55/185
I/ 7
6.2
10.6
e.o
1.03
11 3
22/240
6.5
9.9
8.2
2.43
19/ 2
2/224
6.6
9.4
7.8
0.89
23/ 3
17/219
6.5
9.9
7.8
1.47
40/ 7
4/694
t.2
10.6
8.1
0.96
16/ O
47/725
8.3
8.3
8.3
0.00
68/174
It 3
6.4
13.6
8.4
1.93
21/ 36
7/188
6.7
6.7
6.7
0.33
111/127
I/ 8
5.3
14.2
8.0
1.77
31/ 3
22/212
8.1
10.1
9.1
1.41
168/ 10
21 63
J.6
9.5
7.7
1.05
25/ 14
17/202
6.7
10.1
8.3
1.40
210/ 77
4/445
5.3
14.2
7.9
1.96
61/ 5
46/666
2S.2
25.2
25.2
0.00
210/ 34
I/ 4
14.3
28.3
22.9
5.04
98/ 3
8/147
29.8
29.8
29.8
0.03
231/ 11
I/ 4
23.9
30.2
27.3
2.26
25/ 4
22/217
22.7
29.3
24.0
1.84
178/ 18
2f SO
17.5
24.2
21.6
2.16
41/ 30
17/175
22.7
29.8
25.7
2.96
376/ 11
4/353
14.3
30.2
24.5
3.89
103/ 4
47/633
0.012
0.012
0.011
0.0000
16/230
I/ 3
0.050
0.701
0.255
0.2*05
11 3/ 9
8/127
0.015
0.015
0.015
O.OOOO
31/208
I/ 8
0.006
0.659
0.099
0.1534
2/ 12
22/233
0.322
0.921
0.471
0.6356
SI/ 7
2/188
0.313
0.823
0.127
3.2172
22/ 9
17/215
0.012
0.921
0.242
0.4523
S9/ 23
4/660
0.006
0.823
0.135
0.1977
7/ 27
47/708
0.004
0.004
0.003
0.0000
39/196
I/ 14
0.008
0.616
0.124
0.2077
96/ 5
8/148
0.033
0.003
0.003
0.0000
9/225
I/ 13
3.005
0.292
O. 038
0.0757
38/ 12
22/197
0.339
0.493
0.250
9.3422
68/ 8
2/169
0.004
0.609
0.074
0.1583
8/ 7
17/230
0.003
0.493
0.127
0.2438
38/ 24
4/679
0.004
0.616
3.066
0.1374
69/ 15
47/457
0.024
0.024
0.323
0.0000
0/248
It 1
0.041
0.344
0.176
0.0984
6/122
8/121
0.051
0.051
0.050
O.OOOO
25/220
I/ 2
0.327
0.251
0.100
0.3654
I/ 85
22/161
3.027
0.104
0.065
3.3544
17/125
2/104
O. 024
0.131
0.059
O.3331
6/112
17/128
0.324
0.104
0.051
3.0370
6/482
4/254
0.024
0.344
O.O98
0.3737
6/257
47/479
0.046
0.046
0.046
0.0000
34/209
I/ 6
0.045
0.554
0.162
0.1621
30/ 1
8/218
0.076
0.076
0.075
O.OOOO
7V/167
I/ 3
0.034
9.189
0.082
0.0408
O/ 32
22/215
0.040
0.089
0.064
0.0346
14/ 89
2/143
0.035
0.169
0.080
O.0396
S/ 37
17/204
0.040
0.089
0.062
0.0235
42/316
4/384
0.034
0.554
0.095
0.0790
!.»/ 9
47/720
0.443
0.443
3.442
0.0000
91/157
I/ 1
0.479
3.199
1.957
1.0153
lilt 3
8/145
0.625
0.625
0.625
O.OOOO
87/159
I/ 1
0.261
4.849
1.716
1.3251
2/ 4
22/241
3.543
4.399
2.320
2.5144
74/ 6
2/166
0.301
3.557
1.501
0.9193
121 13
17/214
0.443
4.099
1.427
1.7825
186/ 14
4/542
0.261
4.849
1.679
1.1305
27/ 8
47/707
10
10
13
0.0
0/214
I/ 35
24
196
94
53.5
96/ 20
8/133
11
11
11
O.O
18/220
I/ 9
10
136
61
41.7
a/ 40
22/207
10
92
51
58.0
O/ 71
2/175
10
185
59
48.0
O/ 15
17/231
13
92
31
40.8
0/212
4/53O
10
196
66
46.9
O/ 51
47/691
5.0
5.0
5.0
0.00
66/164
I/ 19
0.0
9.0
3.4
3.25
0/117
8/132
8.0
8.0
8.0
O.OO
I38/ 99
I/ 10
0.0
26.3
5.2
5.40
O/ 31
22/216
0.0
3.0
1.5
2.12
0/153
21 93
«.o
11.0
3.4
2.79
O/ SO
17/196
0.0
8.0
4.0
3.37
0/302
4/440
0.0
26.0
4.2
4.29
0/101
47/641
35
35
35
0.0
0
5915
1579
2246.2
92T
927
927
O.O
0
4550
733
1198.8
962
26665
13814
18174.8
0
4465
832
1207.4
35
26665
7147
13018.9
0
5915
913
1423.4
11.1
11. 1
11. 1
0.00
0.0
8.8
4.5
4.06
35.4
35.4
35.4
0.00
0.0
5.9
i.:
1.68
11.7
15.1
13.4
2.39
0.0
6.4
1.9
2.19
11.1
35.4
18.3
11.52
0.0
8.8
2.1
2.59
-------�
GENUSIAPHANQTHECE
CHI A
TU«B SECCHI
00
PARTIAL DEPTH VALUES
TEMP TOT4LP ORTHOP N02N03
HJEL
ALK
CONC PERC
J
_
U 1
N
o
ft
o
U 1
N
o
o
U 2
N
D
R
o
U 2
N
Q
R
g
U 3
II
R
o
U 3
N
o
R
0 A
U L
N L
Q
R
C A
U L
N L
Q
Q
c
N
0
0
C
o
c
N
o
n
Q
c
o
c
c
N
o
N
o
c
o
c
c
N
o
o
MIN
MAX
MEAN
STDV
O/UR
M|N
MAX
MEAN
STDV
0/MB
MIN
MAX
MEAN
STOV
0/MR
MIN
MAX
MEAN
STOV
O/WR
MIN
MAX
MEAN
STOV
0/W1
M IN
MAX
MEAN
STDV
O/WR
MIN
MAX
MEAN
STDV
0/HR
M IN
MAX
MEAN
STOV
3.6
53.8
30. 1
15.63
47/ 15
12/185
0. 3
355.6
20.5
42.26
Of 0
235/247
2.5
135.8
39.9
40.87
7/ 12
20/228
t 4
595.0
34.0
64.19
Of 0
22T/247
2.8
99.5
33.6
27.76
16/ 8
25/223
0. 8
241.4
22.0
34.78
Of 0
222/247
2.5
135.8
35.1
30.98
46/ 23
57/672
0.3
595.0
25.5
49.02
O/ 0
tl
96
69
15. I
20/ 4
11/163
6
100
71
20.9
Of 0
176/187
3O
107
75
19.4
22/ 1
20/214
4
121
72
24.4
Of Q
217/237
32
96
72
IB. 2
IS/ 7
24/196
,
100
74
23.6
O/ 0
197/221
30
107
73
17.9
50/ 1
55/594
1
121
72
23.1
Of 0
15
127
36
31.2
29/ 10
12/210
252
44
36.4
Of 0
237/249
15
171
46
37.0
20/ 3
18/218
1
222
49
35.8
Of 0
223/241
14
144
41
29.2
14/ 6
25/226
6
185
51
35.5
Of 0
221/246
14
171
42
32.0
sa/ 7
55/671
1
252
48
36.0
Of 0
7.8
9.T
8.7
0.60
102/ 2
12/145
10.6
7.9
O.T1
Of O
237/249
6.7
9.O
8.1
0.64
25/ 12
20/210
4.1
10.6
7.7
0.91
Of O
227/247
6.5
9.9
8.1
0.92
19/ 2
25/224
4.7
10.3
7.5
0.81
O/ 0
220/245
6.5
9.9
8.2
0.80
40/ 7
57/694
4. 1
10.6
7.7
0.82
Of 0
6.4
12.8
9.5
1.78
21/ 2
11/222
19.2
9.0
2.03
Of 0
234/245
3.1
9.5
7.3
1.46
If 18
20/227
3.0
17.8
7.0
2.02
Of 0
226/246
5.4
10.8
8.2
1.4O
23/ 4
25/214
1.6
13.5
7.2
1.60
Of 0
216/241
3.1
12.8
8.2
1.66
7/ 9
56/716
0.7
19.2
7.7
2.10
Of 0
11.9
28.8
21.5
6.47
3 1/ 1
12/216
28.9
17.3
5.48
Of 0
236/248
23.7
29.8
27.6
2.06
lit 11
20/217
17.3
32.2
26.5
2.36
Of 0
226/246
17.4
25.3
21.8
2.28
37/ 18
25/191
9.0
29.6
20.3
3.30
Of 0
221/246
11.9
29.8
23.8
4.45
32/ 11
57/697
6.8
32.2
21.3
5.53
Of 0
O.OO6
0.545
0.105
0.1427
3/ 10
12/236
1.719
0.124
0.2352
Of 0
237/249
0.009
1.109
0.114
0.2497
9/ 5
20/233
O.OO4
2.559
0.136
0.2842
Of O
227/247
0.010
0.921
O. 174
0.2525
ll/ 7
25/228
0.004
4.549
0.152
0.4235
Of 0
221/246
0.006
1.109
0.138
0.2313
7/ IB
57/717
0.004
4.549
0.137
0.3219
Of 0
0.002
0.123
0.018
0.0333
lOt 18
12/221
0. 001
1.209
0.059
0.1680
Of 0
237/249
O.OO2
0.969
0.069
0.2153
3/ 1
20/243
O.OOI
1.191
0.052
0.1410
Of 0
227/247
0.004
0.784
0.099
0.1876
8/ 5
25/232
O.OOI
2.009
0.066
0.2112
Of 0
220/245
0.002
0.969
0.071
0.1788
14/ 9
57/718
0.001
2.009
0.059
0.1751
Of 0
0.064
0.810
0.295
0.2618
25/ 64
12/160
0.024
9.745
0.899
1.5056
Of 0
237/249
O.OS1
0.226
0.118
0.0486
2S/ 92
20/130
O.025
6.857
0.527
0.9144
Of O
227/247
0.027
1.824
0.251
0.4346
17/ 6
25/223
0.017
4.469
0.352
0.5590
Of 0
221/246
0.027
1.824
0.214
0.3171
20/ 54
57/668
0.017
9.745
0.599
1.1007
Of 0
0.022
0.554
O. 139
0.1387
Of 1
12/248
0.024
0.635
0.105
0.0927
If 0
237/248
0.050
0.178
0.092
0.0315
23/ 37
20/187
0.034
O.719
0.122
O.0907
Of 0
227/247
0.040
0.974
0.129
0.1825
14/ 2
25/230
0.020
3.024
0.121
0.2276
Of 0
221/246
0.022
0.974
0.118
0.1370
If 2
57/739
0.020
3.024
0. 116
0.1497
Of 0
0.315
3.199
1.673
1.0627
35/ 3
12/211
0.199
4.699
0.752
0.6462
Of 0
237/249
0.332
3.799
1.605
1.1011
12/ 7
2O/228
0.215
7.149
1.182
1.0714
Of 0
227/247
0.543
4.099
1.794
1.0199
74/ 6
25/166
0.199
8.199
1.042
1.0361
Of 0
221/246
0.315
4.099
1.702
1.0422
69/ 14
57/659
0.199
8.199
0.988
0.9495
Of 0
16
154
87
47.5
66/ 43
12/140
1O
248
69
68.2
Of 0
237/249
10
174
69
51.5
Of 22
20/225
10
334
74
70.3
Of 0
227/247
1O
142
65
45.2
Of 40
25/206
10
291
74
65.9
Of 0
221/246
10
174
71
47.8
Of 71
57/671
10
334
72
66.1
Of O
* B • 1 » A *
0.0
87.0
14.6
24.66
Of 7
12/242
O.O
142.0
18.8
25.20
Of O
237/249
0.0
18.0
7.3
4.92
Of 37
2O/210
0.0
21O.O
14.7
24.66
Of 0
227/247
0.0
44.0
6.4
9.33
Of 12
25/234
0.0
90.0
10.0
15.35
. Of 0
221/246
0.0
87.0
8.4
13.24
Of 15
57/727
0.0
210.0
14.6
22.56
Of 0
A.aKS^4. »
0
11716
2653
4215.5
0
0
0
0.0
0
3081
472
800.9
0
0
0
0.0
0
23450
1440
4653.5
0
0
0
0.0
0
23450
1356
3692.1
0
0
0
0.0
0.0
46.3
6.7
13.28
O.O
0.0
0.0
0.00
0.0
5.7
1.1
1.43
O.O
O.O
0.0
0.00
O.O
22.3
1.8
4.57
0.0
0.0
O.O
0.00
O.O
46. 3
2.6
7.00
0.0
3.0
0.0
O.OO
C 0/HR
-------�
GENUS:APHANOTHECE
PARTIAL DEPTH VALUES
CHLA
TURB SECCHI
PH
00
TE"P TOTALP ORTHOP N02N03
NH3
KJEL AlK
N/P
CCNC PE«C
U)
Ul
R
0 •)
U I 0
N H
0
R N
0 0
U 1 N
N 0
0 0
H
R
O o
U 2 0
N N
0
R N
0 0
U 2 N
1 0
0 0
1
t
0 0
U 3 0
N 1
0
• N
0 0
U 3 N
N 0
0
0/MR
MIN
MAX
MEAN
STOV
N
0/MR
MIN
MAX
MEAN
STOV
N
0/MR
MIN
MAX
MEAN
STOV
N
O/HR
MIN
MAX
MEAN
STDV
*
C/MR
NIN
MAX
MEAN
STOV
N
0/MR
MIN
MAX
MEAN
STOV
*
O/WR
NIN
MAX
MEAN
STOV
•!
0/MR
J3. T
3T.O
31.3
2.33
210/ 3*
2/ 3
3.6
13.8
29.0
17.05
47/ If
10/185
2.5
135.8
39.9
40.87
T/ 12
20/228
26.5
26.5
26.5
0.00
184/ 62
I/ 1
2.8
99.5
33.9
28.12
16/ 8
24/223
26.1
37.0
32.4
3.37
156/142
3/ 43
2.5
131.8
35.2
31.82
46/ 23
34/672
63
68
66
3.1
49/114
2/ 24
41
96
TO
16.8
201 4
9/163
30
107
71
19.4
22/ 1
20/214
99999
-99999
0
0.0
22 I/ 0
01 0
32
96
T2
18.2
IB/ 7
24/196
63
68
66
3.1
119/441
2/ 41
30
107
73
18.2
SO/ 1
13/194
11
41
30
21.2
29/ 77
2/143
15
127
37
33.6
29/ 10
10/210
11
171
46
37.0
20/ 3
18/218
40
40
40
0.0
lie/ 120
I/ 8
14
144
41
29.9
14/ 6
24/226
11
41
33
16.1
67/271
3/398
14
171
42
32. T
I8/ 7
12/671
8.6
9.1
9.0
0.64
215/ 7
2/ 27
7.8
9.7
8.6
0.60
102/ 2
10/141
6.7
9.0
8.1
0.64
25/ 12
20/210
7.8
7.8
7.8
0.00
118/100
I/ 7
6.1
9.9
8.1
0.94
19/ 2
24/224
7.8
9.1
8.6
0.81
313/ 14
3/374
6.5
9.9
8.2
0.80
40/ T
14/694
10.4
12.8
11.6
1.73
196/ 2
2/ 47
6.4
19.9
9.3
1.49
21/ 27
9/197
3.1
9.1
7.3
1.46
I/ 18
20/227
9.0
9.0
9.0
0.00
211/ 22
I/ 4
5.4
10.8
8.2
1.42
23/ 4
24/214
9.0
12.8
10.7
1.92
143/ 9
3/183
1.1
10.9
8.0
1.14
11 39
13/686
11.9
21.7
18.8
9.76
31/ 25
2/192
12.1
28.8
22.1
6.21
37/ 1
10/210
23.7
29.8
27.6
2.36
18/ 11
20/217
20.4
20.4
20.4
0.00
134/110
I/ 2
17.4
21.3
21.9
2.39
37/ 18
24/191
11.9
21.7
19.3
6.96
32/191
3/117
12.1
29.8
24.0
4.23
38/ 11
14/691
0.023
0.104
0.063
0.0572
SO/ 70
2/129
0.006
0.141
0.113
0.1111
3/ 10
10/236
0.009
1.109
0.114
3.2497
If 1
20/233
0.069
0.069
0.068
0.0000
141/101
I/ 4
0.010
0.921
0.178
0.2169
ll/ 7
24/228
0.023
0.104
9.061
9.0496
168/198
3/376
0.006
1.109
0.142
0.2369
7/ IB
14/717
0.001
0.013
0.009
O.0016
11/110
2/ 86
0.002
0.123
0.020
0.0364
10/ 18
10/221
3.002
0.969
0.069
0.2113
3/ I
20/243
0.023
0.023
0.023
0.0000
114/ 89
I/ 2
0.304
0.784
0.102
0.1910
I/ 1
24/232
0.001
0.023
3.013
0.0090
106/244
3/391
0.002
0.969
0.074
0.1833
14/ 9
14/718
0.207
0.810
0.108
0.4263
B9/ 64
2f 96
0.064
0.792
0.213
0.2269
2S/ 70
10/154
0.011
0.226
0.118
3.0486
21/ 92
20/130
0.872
0.872
0.872
0.0000
213/ 32
I/ 1
9. 92 7
1.824
0.221
0.4238
17/ 6
24/223
0.207
0.872
0.629
0.3673
396/130
3/216
0.027
1.824
0.191
9.3014
20/ 14
14/668
0.022
0,167
0.094
0.1025
O/ 31
2/214
0.041
0.114
0.148
0.1476
30 / 1
10/218
3.050
0.178
0.092
9.0311
23/ 37
20/187
0.079
0.079
0.079
0.0000
133/108
I/ 5
0.040
0.974
0.131
0.1861
14 / 2
24/230
0.022
0.167
0.009
0.0730
1/119
3/622
0.040
0.974
0.120
0.1399
42/ 2
14/698
0.311
3.199
1.716
2.9392
31/ 3
2/211
0.121
3.000
1.616
0.9173
113' 4
10/132
0.332
3.79»
1.605
1.1011
12/ 7
20/228
0.961
0.961
0.961
0.0000
144/190
I/ 2
0.143
4.099
1.829
1.0267
T4/ 6
24/166
0.31!
3.199
1.493
1.1127
69/ 32
3/641
0.332
4.099
1.714
1.02*0
83/ 14
14/641
135
120
113
10.6
183/ 17
2/ 9
16
114
82
10.8
66/ 43
10/140
10
174
69
11.1
O/ 22
20/221
12
12
12
0.0
21/218
I/ 3
10
142
68
44.8
01 4O
24/206
12
120
79
98.9
93/168
3/481
10
174
Tl
47.8
O/ 71
14/671
4.0
31.0
19.5
21.92
ll/ 37
2/161
0.0
87.0
13.6
26.11
O/ 7
10/242
0.0
18.0
7.3
4.92
O/ 37
20/210
14.0
14.0
14.0
0.00
204/ 37
I/ 5
4.0
44.0
6.1
9.39
O/ 12
24/234
4.0
31.0
17.7
19.82
208/ 77
3/417
0.0
87.0
7.9
13.07
O/ 1!
14/72T
8274
11716
9991
2433.9
0
8239
1181
2181.8
0
3081
472
800.9
2077
2077
2077
0.0
0
23410
1414
4711.7
2077
11714
T316
4884.7
0
23410
1022
3369.3
16.2
46.3
31.3
21.30
0.0
7.4
1.6
2.23
0.0
1.7
1.1
1.43
22.3
22.3
22.3
0.00
0.0
6.8
1.0
1.67
16.2
46.3
28.3
19.93
0.0
7.4
1.2
1.70
-------�
GENUS'ABTMROOESMUS
f HLA
TURB SECCHI
00
PARTIAL DEPTH VALUES
TQTALP ORTHOP N02N03
NM3
KJEL
ALK
CONC PE«C
0 HIM
o r> *AX
U I C PEA*
H r STDV
0 N
0/MR
R 1 MIN
O O HAX
u i N MEAN
N 0 STDV
O C N
C 0/W1
4 MIN
o o *«x
U 2 C MEAN
•4 c STOV
D N
C/WR
R N MIN
O 0 »iX
U 2 N «EAS
N 0 STOV
0 C N
C 0/*«
a BIN
O 0 MAX
U J C "SAN
N C STOV
0 N
n/HR
B n MIN
0 0 ««
U 3 N MfAN
N P STC-V
0 C N
e O/WR
q MIN
CAT "AX
U L C MEAN
NIC STOV
0 N
O/WR
0 N HIM
0 A 0 MAX
U L N MEAN
N L 0 STOV
n r N
C P/««
5.3
22.5
11.5
9.58
84/ 5".
3/179
0.3
355.6
21.1
41.63
O/ 0
244/2*7
2.2
106. B
19.2
33.23
4/ 18
9/225
1.4
595.3
35.0
63.39
O/ 0
238/247
4.3
30.2
12.0
9.43
41/ 51
6/155
0.8
241.4
23.5
34.62
O/ 0
241/247
2.2
106.8
15. 5
23.95
39 / 35
18/667
0.3
595.0
26.5
48.35
O/ 0
723/741
73 33
91 88
84 56
9.6 28.4
80/ 21 12T/ 28
3/ 36 3/ 94
6 2
130 252
70 *3
20.7 36.3
0/0 0/0
184/187 246/249
29 23
9S 73
79 43
11. 5 15.2
>l/ 10 46/ 43
9/2O6 9/152
4 I
121 222
72 49
24.1 36.4
0/0 O/ O
228/237 232/241
79 40
94 122
87 69
5.4 30.7
88/ 20 118/ 14
5/113 6/114
1 6
100 185
74 SO
23.2 35.0
3/0 0/0
216/221 240/246
29 23
95 122
82 54
14.9 25.1
47/ 35 183/ 36
17/563 18/520
1 1
121 252
72 47
22.9 35.9
0/0 0/0
628/645 718/736
6.2
8.0
7.3
0.99
2/103
3/144
5.3
10.6
7.9
0.72
O/ 0
246/249
5.5
8.4
6.8
1.02
2/ 45
9/203
4.1
10.6
7.8
0.87
01 0
238/247
6.0
7.5
6.5
0.63
3/129
6/113
4.7
10.3
7.6
0.83
O/ 0
239/245
5.5
8.4
6.8
O.89
5/127
18/609
4.1
10.6
7.8
0.81
O/ 0
723/741
5.2
11.3
8.4
3.06
10/ 19
3/216
0.7
19.2
9.0
2.01
Of 0
242/245
5.4
8.6
6.6
1.23
35/ 29
9/182
3.0
17.8
7.0
2.00
O/ 0
237/246
6.8
8.2
7.6
0.52
82/ 53
6/136
1.6
13.5
7.3
1.63
Of 0
235/241
5.2
11.3
7.2
1.54
59/ 31
18/642
0.7
19.2
7.8
2.08
Of 0
7l*/732
9.8
21.0
15.6
5.61
9/ 73
3f 166
6.8
28.9
17.5
5.60
Of 0
245/248
21.2
31.4
27.5
3.38
3/ 2
9/241
17.3
32.2
26.6
2.39
O/ 0
237/246
17.1
29.0
21.3
4.58
32/ 1
6/213
9.0
29.6
20.4
3.22
Of 0
240/246
9.8
31.4
23.4
6.09
10/ 2
18/728
6.8
32.2
21.4
5.47
O/ O
7ZZ/749
0.007
0.716
0.244
O.4084
6/ 8
3/235
0.004
1.719
0.121
0.2295
O/ 0
246/249
0.015
O.182
O.O46
O.0534
31/ 40
9/176
0.004
2.559
0.138
0.2857
Of 0
238/247
0.008
0.097
0.037
0.0398
5/ 70
6/171
0.334
4.549
0.157
0.4137
Of 0
240/246
0.007
0.716
0.076
0.1656
14/ 31
18/697
0.004
4.549
0.139
0.3185
Of 0
724/742
0.002
0.541
O. 181
0.3111
lOt 7
3/232
0.001
1.209
0.055
0.1623
O/ 0
246/249
0.004
0.041
0.015
0.0130
22/ 44
9/181
0.001
1.191
0.055
3.1505
O/ 0
238/247
0.003
0.051
0.019
0.0212
2/ 45
6/198
0.001
2.009
0.071
0.2112
Of 0
239/245
0.002
0.541
O.O44
0.1248
|4/ 23
18/704
0.001
2.009
0.060
0.1764
Of 0
723/741
0.174 0.037 0.334 10
0.680 0.171 1.824 34
0.439 0.095 0.855 18
0.2539 0.0684 0.8391 13.9
82/ 76 17/ 32 41/ 18 0/138
3/ 91 3/200 3/190 3/111
0.024 0.022 0.199 1O
9.745 0.635 4.699 248
0.8T5 0.107 0.795 71
1.4835 O.O957 0.6976 67.5
O/ O 0/0 0/0 Of O
246/249 246/249 246/249 246/249
O.027 0.045 0.410 10
0.308 0.137 2.326 59
0.109 0.093 0.950 21
0.0847 0.034O 0.6967 17.2
If 79 I6/ 63 29/ 28 0/1 1O
9/167 9/168 9/190 9/137
O.O25 0.034 0.215 10
6.857 0.719 7.149 334
0.508 0.121 1.227 75
3.8969 0.0891 1.0893 69.3
0/0 O/ O 0/0 0/0
238/247 238/247 238/247 238/247
0.029 0.049 0.399 10
1.564 0.120 0.899 17
0.322 0.084 0.660 11
0.61OO O.0301 0.1898 2.9
19/ 11 45/ 57 44/106 0/195
6/216 6/144 6/ 96 6/ 51
0.017 0.020 0.199 10
4.469 3.024 8.199 291
0.342 0.123 1.130 74
0.5475 0.2258 1.0675 64.1
0/0 0/0 0/0 Of 0
240/246 240/246 240/246 240/246
0.02T 0.037 0.334 1O
1.564 0.171 2.326 59
0.235 O.O90 0.838 17
0.3727 0.0371 O.5829 13.5
20/ 67 30/109 91/ 63 0/324
18/655 18/603 18/588 18/418
0.017 0.020 0.199 10
9.745 3.024 8.199 334
0.578 0.117 1.0*8 73
1.0764 0.1504 0.9824 66.9
0/0 Of O 0/0 0/0
724/742 724/742 724/742 724/7*2
1.0
65.0
42.0
35.59
7/ 16
3/226
0.0
142.0
18.3
24.95
Of 0
246/249
1.0
15.0
7.6
5.27
I2/ 48
9/187
0.0
210.0
14.3
24.15
O/ 0
238/247
1.0
30. O
13.8
1O.48
IS/ 17
6/216
0.0
90.0
9.5
14.97
O/ O
240/246
1.0
65.0
15.4
18.78
32/ 29
18/681
O.O
210.0
14.1
22.12
Of 0
724/742
0
139
46
80.3
0
0
0
0.0
0
223
43
74.5
0
0
0
0.0
O
218
49
85.9
0
O
o
0.0
0
223
46
74.5
0
0
0
0.0
0.0
1.9
0.6
1.07
0.0
0.0
O.O
0.00
0.0
5.5
0.8
1.78
0.0
0.0
0.0
0.39
0.0
2.9
1.1
1.35
0.0
0.0
0.0
o.oo
0.0
5.5
0.9
1.48
0.0
0.0
0.0
0.00
-------�
10
-J
GENUSlAPTHRODESNUS
CMLA
TUPS SECCHI
00
TEMP
PARTIAL DEPTH VALUES
TOTAIP ORTHQP N02N03
NH3
KJEL ALK
N/P
CONC
PERC
R
0
U 1
N
0
R
C
U 1
N
0
R
0
U 2
N
0
R
C
U 2
N
0
R
0
U 3
N
D
o
0
U 3
N
D
R
0 A
U L
N L
D
R
C *
U L
N L
0
0
0
•1
N
a
N
D
0
N
0
0
w
N
a
N
0
0
*
0
0
N
N
0
N
D
0
N
0
0
N
N
0
N
D
0
N
MIN
MAX
MEAN
STOV
N
C/MR
HIM
MAX
MEAN
STOV
N
0/MR
MIN
MAX
MEAN
STOV
N
0/MR
MIN
MAX
MJAN
5TOV
N
C/MR
MIN
MAX
MEAN
STOV
N
0/MR
MIN
WAX
MEAN
STOV
N
0/MR
MIN
•AX
MEAN
STDV
K
0/MR
PIN
MAX
MEAN
STDV
N
0/UR
5.3
22.1
11. 5
9.58
84/ 5*
3/109
2.2
106. 8
19.2
33.2}
4/ 18
9/225
4.3
30.2
12.0
9.93
41/ 51
4/155
2.2
106.8
IS. »
23.95
39/ 33
18/66?
73
91
84
9.6
8D/ 21
3/ 86
29
95
79
19.5
21/ 10
9/206
79
9*
87
5.4
86/ 20
5/113
29
99
82
14.9
«7/ 35
17/363
33
88
56
28.4
127/ 28
3/ 94
23
73
43
15.2
46/ 43
9/152
43
122
69
30.7
118/ 14
6/114
23
122
54
25.1
180/ 36
1 8/ 52 3
6.2
6.0
7.3
0.99
2/103
3/144
f.5
8.4
6.8
1.02
2/ 45
9/200
6.0
7.5
t.s
0.63
3/129
6/113
5.5
8.4
6.8
0.89
5/127
18/609
5.2
11.3
8.4
3.06
10/ 19
3/216
5.4
8.6
6.6
1.23
3S/ 29
9/182
6.8
8.2
7.6
0.52
B2/ S3
6/136
5.2
11.3
7.2
1.54
59/ 31
18/642
9.8
21.0
15.6
5.61
9/ 73
3/166
21.2
31.4
27.5
3.38
3/ 2
9/241
17.1
29.0
21.0
4.58
32 / 1
6/213
9.8
31.4
23.4
6.09
tO/ 2
It/728
0.007
0.716
0.244
0.4084
6/ 8
3/235
0.315
0.182
0.046
0.0934
Jl/ 40
9/176
O.OO8
0.097
0.037
0.0398
S/ 70
6/171
0.007
0.716
0.376
O.U56
I4/ 31
18/697
0.002
3. 541
0.181
0.3111
10/ 7
3/232
0.004
0.041
0.015
0.3131
22/ 44
9/181
0.003
O.OS1
0.019
0.0212
2/ 45
6/198
0.002
0.541
3.044
0.1248
14/ 23
18/734
0.174
0.680
3.439
0.2S39
82/ 76
3/ 91
0.027
0.308
0.109
0.3847
I/ 79
9/167
0.029
1.564
0.322
0.6100
19/ 11
6/216
0.02T
1.364
0.235
0.3727
20/ 67
18/655
0.037
0.171
0.095
0.0684
17/ 32
3/200
0.045
0.137
0.093
3.3340
16/ 63
9/168
O.O49
0.120
0.084
0.0301
45/ 57
6/144
0.037
0.171
0.090
0.0371
30/109
18/633
0.334
1.824
3.855
0.8391
41/ 18
3/190
0.410
2.326
0.950
0.6967
211 28
9/190
0.399
0.899
0.660
0.1898
44/106
6/ 96
0.334
2.326
9.838
0.5829
91/ 63
18/588
10
34
18
13.9
0/138
3/111
13
59
21
17.2
0/110
9/137
10
IT
11
2.9
0/195
6/ 51
10
39
17
13.5
0/324
18/418
1.0
65.0
42.0
35.59
7/ 16
3/226
1.0
15.3
7.6
5.27
12/ 48
9/1B7
1.0
30.0
13.8
10.48
13/ 17
6/216
1.0
65.0
1S.4
18.78
32/ 29
18/681
a
139
46
80.3
0
223
43
74.3
0
218
49
85.9
0
223
46
74.5
0.0
1.9
0.6
1.07
0.0
5.S
0.8
1.78
O.O
2.9
1.1
1.35
O.O
5.S
0.9
1.48
-------�
OJ
oo
CENUS:APTMROSPtRA
CHI A
SECCHI
PARTIAL DEPTH VALUES
TEMP TOTALP OR T HOP N02N03
NH3
KJEL «LK
N/P
CONC PCRC
p
c n
U 1 f.
* c
o
1 N
C 0
U 1 N
N 0
D C
C
R
C 0
U 2 C
N C
0
R N
0 0
U 2 N
H 0
0 C
r
Q
0 0
U 3 C
H C
o
R N
0 0
U 3 1
N 0
0 C
c
a
O A 0
U L C
N L C
P
0 A ?
U L N
H L 0
O C
c
MIN
M AX
MEAN
STOV
C/HR
MIN
MAX
MEAN
STOV
P/N4
MIN
MAX
MEAN
STDV
0/WR
M IN
MAX
MEAN
STOV
0/WR
MIN
MAX
MEAN
STOV
C/WR
M|N
• AX
MEAN
STOV
3/WR
MIN
MAX
•CAN
STOV
*
0/WR
H I N
MAX
STOV
0/WR
28.5
28.5
28.5
0.00
20 If **
I/ 1
0. 3
355.6
20.9
41.48
O/ 0
2*6/2*7
13.9
44.7
24.8
12.67
1*3/ 52
5/ 52
t ^
595.0
3*. 6
63.19
3/ 0
2*2/2*7
126.
126.
126.
0.0
2*0/
I/
0.
2*1.
22.
33.69
3/ 0
2*6/2*7
13.9
126.8
39.9
39.71
*56/ 27
7/258
0.3
595.3
26.1
48.30
Of 0
73*/7*l
66
66
66
0.0
65/120
If 2
6
100
71
20.6
Of 0
186/187
7*
91
8*
6.3
87/ 41
5/109
4
121
72
24.2
9/ 0
232/237
60
60
60
0.0
48/171
If 2
1
130
7*
23.1
3/ 0
220/221
60
91
78
11.*
144/104
7/397
t
121
72
22.8
O/ 0
*38/t*5
27
27
27
0.0
95/1*8
I/ 6
2
252
**
36.2
Of 0
2*8/2*9
39
72
55
11.7
121/ **
9f 76
1
222
*9
36.1
Of 0
236/2*1
11
11
11
0.0
5/239
I/ 2
6
185
51
35.0
Of 0
2*5/2*6
11
72
45
20.6
37/130
7/569
1
252
*8
35.8
Of 0
729/736
9.1
9.1
9. 1
0.00
23*/ 12
I/ 3
5.3
10.6
7.9
0.72
Of 0
2*8/2*9
7.7
8.*
8.1
0.30
10*/ *5
5/ 98
*. 1
10.6
7.8
0.90
3t 0
2*2/2*7
8.5
8.5
8.5
0.00
208/ 30
It 7
4.7
10.3
7.6
0.84
Of 3
244/2*5
7.7
9. 1
8.3
0.**
JIB/ 3O
7/393
4 j
10.* A
7.7
0.83
Of 0
734/741
19.0 26.5
10.0 26.5
10.0 2t.S
0.00 0.03
175/ 62 228/ 19
1/8 If 1
0.7 6.8
19.2 28.9
9.3 17.5
2.02 5.57
0/0 Of O
244/2*5 2*7/2*8
3.8 23.9
8.0 28.8
5.5 25.7
1.63 2.O6
6/ 55 25/ 5*
5/185 5/167
3.O 17.3
17.8 32.2
7.0 26.6
1.98 2.35
0/0 0/0
2*1/2*6 2*1/2*6
2.8 19.9
2.8 19.9
2.8 19.9
0.00 0.00
2/238 114/129
I/ I 1/3
1.6 9.0
13.5 29.6
7.3 20.*
1.59 3.25
O/ O 0/0
2*0/2*1 2*5/2*6
2.8 19.9
10.0 28.8
5.8 25.3
2.51 2.81
*/ 8* 282/ 57
7/6*4 7/401
0.7 6.8
19.2 32.2
7.8 21.5
2.06 5.50
0/0 0/0
725/7)2 733/7*0
0.045
0.045
0.04*
0.0000
99/1*6
If *
0.00*
1.719
0.123
0.2319
Of 0
2*8/2*9
0.019
0.072
0.039
0.0197
*6/ 92
5/109
0.00*
2.559
O.I 36
0.2837
O/ 0
2*2/2*7
3.08*
3.08*
3.083
0.0000
2**/ 1
If 1
O.004
4.549
0.143
0.3643
Of 0
2*5/2*6
0.019
3.08*
0.475
1.1503
123/ 1
7/618
0.00*
4.5*9
0.13*
0.2978
O/ 0
735/7*2
0.007
0.007
0.007
0.0000
8*/15)
If 12
0.001
1.209
0.057
0.16*5
Of 0
2*8/249
0.00*
0.027
0.013
0.3O89
22/ 59
5/166
0.001
1.191
0.05*
0.1*93
Of 0
2*2/2*7
2.009
2.009
2.009
0.0000
2**/ 0
I/ 1
O.OO1
1.255
0.062
O.I 680
Of 1
2**/2**
0.00*
2.009
0.297
0.75*7
69/ 0
7/672
0.001
1.255
0.058
0.1607
Of 1
734/740
0.16* 0.16* 1.5*9 37 7.0
0.164 0.164 1.549 37 7.0
0.163 0.163 1.549 37 7.0
0.0000 0.0033 0.0000 O.O 0.00
79/169 210/ 37 222/ 26 115/130 100/133
I/ I 1/2 1/1 If * I/ 16
O.O24 0.022 0.199 10 0.0
9.7*5 0.635 *.699 2*8 1*2.0
0.873 0.106 0.793 70 18.7
1.4777 0.095* 0.6973 67.* 25.18
0/0 0/0 0/0 0/0 0/0
2*8/2*9 2*8/2*9 2*8/2*9 2*8/2*9 2*8/2*9
0.066 0.06* 0.5*9 ** 5.0
0.131 0.232 1.632 172 9.0
O.O92 .0.155 1.069 9* 6.6
0.0280 0.0777 O.«096 56.6 1.67
40/14* *7/ 20 71/ 54 112/ 23 82/ 86
S/ 63 5/180 5/122 5/112 5/ 79
0.025 0.034 0.215 10 0.0
6.857 0.719 7.149 334 210.0
0.502 0.119 1.220 73 14.2
0.8908 0.0880 1.0874 69.1 23.98
0/0 0/0 0/0 Of O Of 0
242/247 242/247 242/247 2*2/247 242/247
0.809 3.024 8.199 107 1.0
0.809 3.024 8.199 107 1.0
0.809 3.023 8.199 107 1.0
O.OOOO O.OOOO O.OOOO O.O O.OO
2IO/ 35 245/ 0 245/ 0 181/ 6* I3/2O*
1/1 1/1 1/1 1/1 I/ 29
0.017 0.020 0.199 10 O.O
*.*69 0.979 6.000 291 90.0
0.3*0 0.110 1.089 73 9.6
0.5*80 0.12*0 0.9571 64.2 14.89
0/0 0/1 0/1 0/0 0/0
245/2*6 2*5/2*5 2*5/2*5 2*5/246 245/246
O.066 O.O64 0.549 3T 1.0
0.809 3.024 8.199 172 9.0
0.2O5 0.566 2.156 88 5.9
0.268* 1.0854 2.6913 51.6 2.54
160/141 228/ 0 265/ 0 319/ 78 32/269
7/441 7/514 7/477 7/J45 7/441
0.017 0.020 0.199 10 0.0
9.745 0.979 7.149 334 210.0
0.573 0.112 1.032 72 14.2
1.0702 0.1037 0.9426 66.9 22.13
0/0 0/1 0/1 0/0 0/0
735/742 735/7*1 735/7*1 735/7*2 735/7*2
0
0
0
0.3
a
0
0
0.0
0
3551
953
1537.2
0
0
0
0.0
0
0
0
O.O
0
0
0
0.0
0
3551
681
1338.5
0
0
0
0.0
0.0
0.0
0.0
0.00
0.0
0 .0
0.0
O.OO
0.0
68.1
16.2
29.45
0.0
0.0
0.0
O.OO
0.0
O.O
0.0
0.00
0.0
0.0
O.O
0.03
0.0
68.1
11.6
25.31-
0.3
0.0
0.0
0.00
-------�
GENUS:ARTMROSPIRA
CHLA
TUPS SECCHI
PARTIAL DEPTH VALUES
00 TEKP TOTALP ORTHOP N02N03
NH3
KJEL ALK
N/P
CONC PEPC
CO
SO
R PIN
O 0 MAX
U 1 0 MEAN
N N STOV
0 N
0/WR
R N Mil
C 1 MAX
u l N MEAN
N 0 STOV
0 O N
N 0/WR
P NIN
0 0 MAX
u 2 o MEAN
N M STOV
O N
D/UR
R N MIN
0 O PAX
U 2 N MEAN
N 0 JTOV
0 O N
N o/m
R KIN
0 0 MAX
u 3 o *EAN
N M JT9V
0 N
0/WR
• H MIN
0 0 MAX
u 3 N MEAN
N D STOV
0 0 "
H 0/NR
» MIN
0 A D MAX
u L o MEAN
N L N STDV
0 N
C/H«
R N MIN
0 A 0 MAX
U 1 N MEAN
M I 0 STOV
0 0 N
N C/MP
28.5
26.9
28.9
0.00
202/ *4
It I
14.1
28.9
21.0
9. S3
144/ 71
21 32
13.9
44.7
27.3
15.78
143/ 92
3/ 52
126.6
126.8
126.8
0.00
2497 6
I/ 1
14.1
28.0
21.0
9.83
494/173
2/109
13.9
126.8
47.4
45.T5
4S6/ 27
5/258
66
66
66
0.0
45/120
I/ 2
74
85
80
7.8
8T/ 84
2/ 66
82
91
86
4.5
121/ 41
3/ 7S
60
60
60
0.0
48/171
I/ 2
74
83
80
7.8
244/226
2/175
60
91
77
13.3
144/104
9/397
27 9.1 10.0 24.5
27 4.1 10.0 .26-5
27 9.1 10.0 26.S
o.o o.oo o.oo o.oa
99/1*8 23*/ 12 17S/ 62 228/ 19
1/6 1/3 1/8 I/ 1
94 7.7
97 8.2
96 7.9
2.1 0.39
199/ 66 1047 79
2/ 16 2/ 68
39 8.0
72 8.4
95 8.3
16.5 0.23
121/ *4 137/ 49
3/ 76 3/ 69
11 8.9
11 8.9
11 8.9
O.O O.OO
9/239 208/ 30
1/2 1/7
94 7.7
57 8.2
56 7.9
2.1 0.35
510/196 318/209
2/ 30 2/214
11 8.0
72 9.1
41 8.5
23. 6 0.40
37/130 42 T/ 30
5/569 5/284
4.4
6.0
5.2
1.13
11/1T9
2/ 60
3.8
8.0
5.7
2.13
*/ 55
3/185
2.8
2.8
2.8
0.00
2/238
I/ 1
4.4
6.0
5.2
1.13
28/602
2/102
2.8
10.0
6.0
2.98
4/ 84
5/644
24.0
26.6
25.3
1.84
28/122
2/ 96
23.9
28.8
25.9
2.57
2S/ 54
3/167
19.9
19.9
19.9
0.00
114/129
I/ 3
24.0
26.6
25.3
1.84
433/151
2/156
19.9
28.8
24.8
3.31
282/ 5T
5/401
0.045
0.045
0.044
0.0000
99/146
11 4
0.032
0.072
0.051
0.0262
87/ 92
2/ 68
0.019
3.041
0.031
0.0113
46/131
3/ 70
3.084
3.084
3.083
0.0000
244/ 1
I/ 1
0.032
0.072
0.091
0.0282
238/292
2/212
0.019
3.084
0.6*4
1.3633
123/ 1
5/618
0.007
0.007
0.007
O.OOOO
84/193
I/ 12
0.007
0.027
3.017
0.0141
79/ 59
2/199
0.004
0.015
0.011
0.0060
22/ 91
3/134
2.009
2.009
2.009
0.0000
244/ 0
I/ 1
0.007
0.027
0.017
0.0141
209/213
2/323
0.004
2.009
0.4O9
0.8939
69/ 0
5/672
0.164 0.164 1.349 37
0.164 0.164 1.549 37
0.163 0.163 1.549 37
O.OOOO 0.0000 0.9000 0.0
79/169 210/ 37 222/ 26 115/130
I/ 1 1/2 1/1 1/4
0.066 0.086
0.112 0.232
0.088 0.138
0.0323 0.1032
40/133 101/ 20
2/ 54 2/126
O.069 0.064
0.131 0.225
0.095 0.153
0.0318 O.O820
42/144 47/ 21
3/ 61 3/179
0.809 3.024
0.809 3.024
0.899 3.023
0.0000 0.0000
210/ 35 24S/ 0
1/1 I/ I
0.066 0.086
0.112 0.232
0.088 0.158
0.0325 0.1032
160/469 400/ 54
2/113 2/288
0.069 0.064
0.809 3.024
0.251 0.729
0.3135 1.2838
167/141 228/ 0
5/434 5/514
0.824 49
1.632 172
1.227 111
0.5713 87.0
114/ 54 116/ 23
2/ 79 2/138
0.549 44
1.210 135
0.963 83
0.3612 46.7
71/ 80 112/ 41
3/ 96 3/ 94
8.199 107
8.199 107
8.199 107
0.0000 0.0
243/ 0 181/ 64
1/1 1/1
0.824 49
1.632 172
1.227 111
0.5713 87.0
413/121 366/ 78
2/208 2/298
0.549 37
8. 199 135
2.527 79
3.1906 41.8
265/ 0 319/142
5/477 5/281
7.0
7.0
7.0
0.00
100/133
I/ 16
5.0
5.0
5.0
0.00
82/141
2/ 24
7.0
9.0
7.7
1.15
117/ 86
3/ 44
1.0
1.0
1.0
0.00
13/204
I/ 29
5.0
5.0
5.0
0.00
264/415
2/ 63
1.0
9.0
6.2
3.03
32/269
5/441
0 0.0
o o.o
0 0.0
0.0 0.00
1175 11.9
3551 68.1
2363 40.0
16BO. 1 3S.72
0 0.0
38 0.9
13 0.3
21.9 0.5*
0 0.0
O O.O
0 3.0
0.0 O.JO
1175 11.9
3551 68.1
2363 40.0
1680.1 39.72
0 0.0
38 0.9
8 0.2
17.0 0.42
-------�
G€NJS:»SCOO(.FNi
CHL1
TURB SECCHI
DEPTH VALUES
TEPP TOTtLP ORTHOP f02N03
NH3
KJEl »LK
CONC
R
0 0
U I C
H C
O
> M
O 0
U 1 H
N 0
D C
C
R
C 0
U 2 C
N C
D
• N
0 <}
U 2 1
H 0
0 C
C
R
0 0
U 3 C
N C
0
• N
0 0
U 3 t
N 0
0 C
C
0
n » n
U L C
NIC
D
Q ft
ota
U I N
N I 0
0 C
C
•Mil
"»»
•
O/XO
BIN
H»X
MEAN
STDV
N
O/UR
H!N
MM
KE»N
STOW
N
0/WR
MIN
MIX
MEAN
STOV
N
t?/VI»
M[N
MIX
ME»N
STOV
N
0/MR
1IN
MIX
**F«N
STOV
N
0/UR
HJN
MIX
fflU
STOV
N
0/wR
6.8
6.8
6.6
0.30
117/132
I/ 3
0.3
355.6
21.0
41.47
O/ O
246/247
1.4
595.0
34.4
62.58
Of 0
247/2*7
0* B
241.4
23.2
34.27
01 0
247/247
6.8
6.8
6.8
0.30
246/441
I/ 4
0.3
595.0
26.2
47.95
O/ 0
749/741
SB
88
B8
0.0
145/ 37
I/ 5
6
10O
70
20.6
01 0
186/187
4
121
72
24.0
O/ O
237/237
1
too
74
23. 1
Ol 0
221/221
88
88
88
0.0
463/166
I/ 16
I
121
7Z
22.7
Of O
644/64 S
6$
65
65
0.0
205/ 43
I/ 1
2
292
43
36.2
O/ 0
2«.S/ 249
1
222
49
35. 8
O/ 0
241/241
185
50
35. 3
O/ 0
246/246
65
45
65
0.0
563/15L
I/ 2
1
252
48
35.7
O/ 0
735/736
7.3
7.3
7.3
0.00
45/197
I/ 7
5.3
IO.6
7.9
0.73
O/ 0
248/249
4.1
10.6
7.8
0.89
O/ 0
247/247
10.3
7.6
0.84
O/ 0
245/245
7.3
7.3
T.3
0.00
192/526
I/ 21
4.1
10.6
7.8
0.83
O/ 0
749/741
5.8
5.8
5.8
0.00
13/231
I/ 1
0.7
19.2
9.0
2.01
O/ 0
244/245
3.0
17.8
7.0
1.98
O/ 0
246/246
13.5
7.3
1.61
O/ 0
241/241
S.B
5.6
5.8
O.OO
105/616
I/ 11
0.7
19.2
7.8
2.07
O/ 0
731/732
26.7
26.7
26.7
0.00
229/ 17
I/ 2
6. a
28.9
17.5
5.57
01 0
247/248
17.3
32.2
26.6
2.35
O/ 0
246/246
29.6
20.4
3.25
Of 0
246/246
26.7
26.7
26.7
0.00
569/145
I/ 6
6.B
32.2
21.5
5.49
O/ 0
739/740
0.020
0.020
O.019
0.0000
39/236
I/ 4
0.034
1.719
0.123
0.2318
O/ 0
248/249
O.OO*
2.559
0.134
0.2811
O/ 0
247/247
0 00*V
4!s49
0.155
0.4091
O/ 0
246/246
0.02O
0.020
O.019
0.0000
137/595
I/ 10
0.004
4.549
0.137
0.3159
O/ 0
741/742
0.002
0.002
O.OOI
0.0000
10/222
I/ 17
O.OOI
1.209
0.057
0.1645
O/ O
248/249
3.0O1
1.191
0.053
0.1479
O/ 0
247/247
0. 001
2.009
0.070
0.2068
O/ 0
245/245
O.002
3.002
O.OOI
O.OOOO
14/733
I/ 24
0.001
Z.009
0.06O
0.17*4
O/ 0
740/741
0.099
0.099
0.098
O.OOOO
47/200
If 2
0.024
9.745
0.873
1.4776
O/ 0
248/249
0.025
6.857
0.493
0.8836
O/ 0
247/247
0.017
4.469
O.342
0.5477
O/ 0
246/246
0.099
0.099
0.098
O.OOOO
247/490
I/ 5
0.017
9.745
0.570
1.0666
O/ 0
741/742
0.087
0.087
0.087
0.0000
ISO/ 96
I/ 3
0.022
O.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
O.O87
0.087
0.087
0.0000
404/332
I/ 6
0.020
3.024
3.116
0.1488
O/ 0
741/742
0.453
0.453
0.452
0.0000
95/153
I/ 1
0.199
4.699
0.797
0.6986
O/ 0
24A/249
0.215
7.149
1.217
1.0778
at o
247/247
0. 199
8.199
1.118
1.0572
O/ 0
246/246
0.453
0.453
0.452
0.0000
192/549
I/ 1
0.199
8.199
1.044
0.9753
O/ 0
741/742
16
16
16
0.0
66/176
I/ 7
10
248
70
67.4
O/ 0
248/249
10
334
73
68.9
O/ 0
247/247
10
291
73
64.1
Of 0
246/246
16
16
16
0.0
149/578
I/ IS
10
334
72
66.7
O/ 0
741/742
9.0
9.0
9.0
0.00
120/117
I/ 12
0.0
142. O
18.7
25.18
O/ 0
248/249
O.O
210.0
14.1
23.76
Of 0
247/247
0.0
90.0
9.6
14. B7
Of 0
246/246
9.0
9.0
9.0
0.00
440/269
I/ 33
0.0
210.0
14.1
22.05
O/ 0
741/742
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
o
0.0
0.0
0.0
0.0
0.00
0.0
0.0
0.0
O.OO
0.0
0.0
0.0
0.00
0.0
0.0
0.0
O.OO
0.0
0.3
O.O
9.39
O.O
0.0
0.0
0.00
-------�
GENUS: ASCOGIENA
PARTIAL DEPTH VALUES
CHI*
TURB SiCCHI
DO
TEMP TOTALP ORTHOP N02N03
KJEl ALK
h/P
CONC PERC
H
0 0
U 1 0
N N
0
R N
0 0
U 1 N
N 0
0 0
N
R
0 0
U 2 0
N M
0
II N
0 0
U 2 N
N 0
o a
N
R
O D
via
N «
0
R N
a o
U 1 N
N D
D 0
N
R
0*0
U L 0
HIM
0
R N
0*0
U 1 N
N L 0
o a
N
MIN
MIX
HE«N
STOV
N
0/MR
"IN «.e 88 65 7.3 5.8 2«.T 0.020 0.002 0.099 0.087 0.493 16 9.0
MIX 6.6 88 65 T.3 5.8 Zt.T 9.020 0.00? 0.099 8.087 0.451 16 9.0
•E»N 6.8 88 65 T.3 5.8 26.7 0.019 0.001 0.098 0.087 0.452 16 9.0
STDV O.OO 0.0 0.0 0.00 O.OO 0.00 0.0000 O.OOOO O.OOOO O.OOOO O.OOOO O.O 0.00
N 112/132 14S/ 3T 205/ 41 4S/19T 13/211 229/ IT 39/206 10/222 4T/200 ISO/ 96 95/153 44/176 120/117
0/H* 1/3 1/5 1/1 I/ T 1/1 1/2 1/4 I/ 17 1/2 1/3 1/1 1/7 I/ 12
KIN
nu
MEtN
STOV
N
0/M
HIN
MAX
• FAN
STOV
H
0/HR
MIN
M»X
MEAN
STOV
H
O/UR
MIN
»*X
Mf IN
STOV
H
C/MR
MIN
»*X
MEAN
STOV
M
0/NR
KIN 6.8 8« 65 7.3 5.8 26.7 0.423 O.OOZ O.J99 0.047 0. 453 16 9,0
MAX 6.8 BO «5 T.3 5.8 26.7 0.020 O.OO2 O.099 0.087 0.453 16 9.0
NEtN 6.8 88 65 T.3 5.8 26. 7 0.019 0.001 0.098 0.087 0.452 16 9.0
STDV 0.30 0.0 0.0 0.00 0.00 0.30 0.0033 0.0000 9.0000 0.0000 3.000O 0.0 0.00
N 246/491 463/166 583/151 192/526 105/616 5B9M4I 137/595 14/701 247/490 404/332 l<2/«49 149/578 444/269
0/UH I/ 4 I/ 16 I/ 2 I/ 23 I/ 11 I/ 6 I/ 10 I/ 24 1/5 1/6 1/1 I/ 15 I/ 33
0 0.0
0 0.0
0 0.0
0.0 0.00
0 0.0
o o.o
o o.o
0.0 0.00
-------�
GENUS-ASTEKIONEllt
PARTIAL DEPTH VALUES
CHI. A
15CCHI
TEMP TOTALP ORTHOP N02N03
NH3
KJEL
CONC PERC
Q
T
U 1
N
0
R
n
u l
N
0
R
0
U 2
N
0
»
0
U 2
N
0
4
C
U 3
0
,
0
U 3
N
9
D
0 t
U L
N I
0
o
C A
U L
N L
0
n
C
C
N
0
n
n
C
C
1
r
c
N
0
•i
n
r
C
n
C
r
•1
n
N
**
r
C
n
C
f
s
H
N
O
r
C
"IN
•IX
"SAN
STDV
N
C/WR
HIM
MEAN
STPV
N
C/WR
NIN
MIX
MEAN
STDV
N
C/WR
NIN
MAX
•EAN
STOV
M
P/UR
WIN
VAX
MEAN
STDV
M
0/WR
• IN
VAX
"BAN
STDV
*
e/w«
"IN
VAX
P«¥AN
STPV
N
0/WR
•MN
MAX
MEAN
STOV
0/WR
1.5
63.5
12.2
12.95
8/ 13
114/226
0.3
355.6
28.5
5*. 10
Of 0
133/2*7
1.4
7ol6
14.1
15.56
3/ 34
44/213
1.5
545.0
38.8
67.88
If 0
203/246
1.2
134.4
15.9
24.39
*/ *
40/239
0.8
241.4
24.6
35.74
Of 0
257/2*7
1.2
134.4
13.4
16.40
ll/ 24
198/796
0.3
595.0
30.9
54.37
01 0
543/741
19 2 6.2 3.9
100 252 9.7 12.8
T3 50 7.8 9.5
18.8 40.8 0.58 1.38
*/ 0 O/ 0 2/2 6/2
86/163 115/2*9 115/2*5 115/237
6 3 5.3 0.7
100 168 10.6 19.2
69 38 8.0 8.5
21.9 30.6 0.83 2.35
0/0 1/3 0/0 0/0
101/187 13*/2*5 134/2*9 130/2*5
35 20 5.2 4.3
98 222 8.7 9.9
81 66 7.2 7.1
13.5 46.9 0.86 1.17
27/ 3 35/ 3 I/ 22 If 12
43/207 43/2O6 44/224 44/225
4 1 4.1 3.0
121 216 10.6 17.8
7O 45 7.9 7.0
25.3 31.8 0.86 2.12
0/0 0/1 0/0 0/0
194/237 198/249 233/2*7 232/246
13 12 5.9 1.6
130 185 8.8 12.7
79 68 '.1 7.7
21.5 42.3 0.82 1.87
6/0 7/0 2/ 12 Of 1
31/215 40/239 38/231 39/2*0
1 6 4.7 1.9
99 159 1O.3 13.5
73 47 7.7 7.2
23.3 32.4 O.BI 1.55
0/1 0/2 0/0 I/O
190/220 206/2** 207/2*5 2O2/240
13 2 5.2 1.6
100 252 9.7 12.8
76 57 7.5 8.6
18.4 43.3 0.7T 1.81
IS/ 3 1/0 2/8 1/9
160/627 198/735 197/731 198/722
1 1 4.1 0.7
121 216 10.6 19.2
Tl 44 T.8 7.5
23.9 31.9 0.84 2.07
0/3 3/2 0/0 0/0
445/6*5 538/734 544/741 534/732
6.8
28.8
15.6
4.70
Of 1
115/2*7
8.5
29.9
19.2
5.78
2/ 0
133/2*6
20.1
31.4
25.5
2.62
I/ 2
44/243
17.3
32.2
26.8
2.22
Of 0
202/246
9.0
29.6
19.2
4.16
O/ 0
39/246
13.5
27. a
20.7
3.00
if 2
207/242
6.8
31.4
18.5
5.79
Of Z
198/738
8.5
32.2
22.6
4.95
2/ 0
542/738
0.006
0.259
0.061
0.0516
3/ 18
115/228
0.004
1.719
0.176
0.302*
Of 0
134/249
0.008
0.126
0.040
0.0326
6/ 49
44/192
0.004
2.559
0.155
0.3O6O
Of 0
203/247
0.005
0.369
0.062
0.0827
I/ 18
39/227
O.OO4
4.549
0.172
0.4425
Of 0
207/2*6
0.005
0.369
0.056
0.0563
S/ 55
198/682
0.004
4.549
0.167
0.3628
Of 0
544/742
0.001
0. 171
0.018
0.0256
Of 16
115/233
0.001
1.204
0. O90
0.2176
Of 0
134/244
O.O02
0.069
0.009
0.0111
3/ 29
44/215
0.001
1.191
0.063
O.1615
Of 0
233/247
0.003
0.199
0.024
0.0425
2/ 16
38/227
O.O01
2.009
0.378
0.2255
Of 0
207/2*5
0.001
0.199
0.017
0.0278
Of 47
197/694
0.001
2.009
0.075
0.2018
Of 0
544/741
0.034
7.557
0.843
1.2229
2/ 2
115/2*5
O.O24
4.745
0.893
1.6662
Of 0
134/2*9
0.024
1.364
0.239
0.2760
*/ 24
44/214
0.025
6.857
0.5*9
3. 45 78
Of 0
2O3/2*7
0.020
1.454
0.318
3.4482
2/ 4
34/240
0.017
4.469
0.346
0.5576
Of 0
207/2*6
0.020
7.557
0.605
1.0046
if 2
198/738
0.017
9.745
0.556
1.0881
Of 0
544/742
0.022
0.539
0.092
0.0764
Of 2
115/247
0.031
0.635
0.119
0.1077
3/ 0
134/246
0.034
0.235
0.097
0.0472
Of 19
44/228
0.036
0.719
0.124
0.0937
I/ 0
203/246
0.032
0.831
0.108
0.1435
2/ 3
39/241
0.020
3.024
0.125
0.2353
Of 0
207/246
0.022
0.831
0.096
0.0887
I/ 3
198/738
0.020
3.024
0.123
0.1647
Of 0
544/742
0.225
2.110
0.553
0.2898
*/ 14
115/231
0.199
4.699
1.005
0.8604
Of 0
134/249
0.261
1.865
0.683
0.4032
2/ 40
44/205
0.215
7.149
1.332
1.1422
Of 0
203/247
0.210
2.236
0.782
0.5386
2/ 22
39/222
0.199
8.199
1.182
1.1182
Of 0
20T/246
0.210
2.236
0.627
0.3856
S/ 68
198/669
0.199
8.199
1.194
1.0756
Of 0
544/742
10
248
72
69.8
Of 0
115/249
10
24O
68
65.4
Of I
134/248
10
198
37
40.8
Of 15
44/232
10
334
81
71.2
Of 0
203/247
10
241
46
57.0
Of 3
39/243
10
291
78
64.2
Of 0
207/2*6
10
2*8
59
63.6
Of 12
198/730
10
334
77
67.2
Of 0
544/742
1.0
137.0
21.1
23.89
7/ 1
115/241
0.0
142.0
16.5
26.07
Of 0
134/2*9
1.0
76.0
11.4
12.75
12/ 7
*4/228
0.0
210. O
14.6
25.53
Of 0
203/247
1.0
58.0
10.3
11.78
13/ 8
39/225
O.O
90.0
9.5
15.41
O/ 0
207/246
1.0
137.0
16.9
20.42
32/ 2
198/708
0.0
210. 0
13.1
22.53
Of 0
544/ 742
0
I If. 5
497
1463.7
0
0
0
0.0
0
5572
184
841.6
0
0
0
0.0
0
1587
86
260.9
0
0
0
0.0
0
11445
345
1197.3
0
0
0
0.0
0.0
86.3
8.9
15.88
0.0
0.0
0.0
0.00
O.O
88.1
5.5
15.08
0.0
O.O
0.0
0.00
0.0
66.4
3.3
10.77
0.0
0.0
O.O
0.00
0.0
88.1
7.0
14.93
0.0
0.0
0.0
0.00
-------�
GENUSSASTERICNELLA
CHL»
TURB SECCH1
PARTIAL DEPTH VALUES
00 TEMP TOTALP ORTMOP N02N03 NH3
KJEL ALK
N/P
CONC PERC
R
0 0
U 1 Q
N «
D
R N
0 C
U 1 N
N 0
0 0
M
R
O 0
U 2 0
N N
0
• N
0 0
U 2 N
N 0
0 0
N
R
O 0
U 3 Q
N 1
0
P N
0 0
U 3 N
N 9
0 0
N
P
0 A 0
U L 0
N L t
0
R N
0*0
U L N
N L 9
0 0
il
1|N
MAX
MEAN
STDV
N
0/BR
HIM
"AX
MEAN
STOV
N
0/K*
HIN
MM
WEAN
STPV
N
C/MR
"IN
MM
MEAN
STDV
•)
C/MR
UN
MAX
»EAN
STOV
N
3/HR
MIN
MAX
MEAN
STDV
N
0/WR
i«m
MAX
MEAN
STOV
N
0/WR
HIM
MAX
MEAN
STOV
N
0/HO
2.9
49.3
11.2
9.1S
33/ 23
2T/191
1.5
63.5
12.5
13.95
a/ 13
87/226
1.*
6.9
4.4
2.62
0/199
6/ 58
Z.O
TO. 6
1S.6
16.22
3/ 34
38/210
l.T
9.3
3.1
2.55
9/188
2/ 50
1.2
134.4
16.6
24.86
4/ 4
38/239
1.4
45. J
9.6
8.61
14/110
35/617
1.2
134.4
14.2
17.55
11/ 24
163/706
43
100
80
14.4
21/ 0
20/166
19
98
71
19.5
4/ 2
66/181
61
98
89
13.0
S3/ 3
6/181
35
96
80
13.7
27/ 7
37/203
86
86
86
O.O
127/ 84
2/ 10
13
100
79
22.2
6/ 0
29/215
43
100
81
13,5
82/ 3
28/560
13
100
75
19.2
15/ 3
132/627
10
185
67
40.9
IV 1
28/213
2
252
45
34.6
a/ o
87/249
27
118
65
41.2
63/ 10
6/168
20
222
67
48.2
3S/ 0
37/206
115
185
150
49.5
2Z8/ 0
2/ 18
12
169
63
37.8
7/ I
38/238
10
185
71
44.5
30/ 3
36/703
2
252
54
42.2
I/ 0
162/735
6.7
9.7
8.1
0.58
6/ 2
28/241
6.2
9.2
7.7
0.56
2/ 11
87/236
5.5
7.3
6.5
0.75
2/177
6/ 68
5.2
8.7
7.4
0.82
I/ 22
38/224
6.4
6.8
6.6
0.28
12/189
2/ 44
5.9
8.8
7.1
0.83
11 12
36/231
5.5
9.7
T.7
0.88
S/ 8
36/728
5.2
4.2
7.5
0.74
11 26
161/713
8.0
12.7
10.3
U40
57/ 3
28/185
3.9
12.8
9.3
1.27
6/ 2
87/237
5.4
7.6
6.5
0.83
35/ 70
6/141
4.3
9.9
7.1
1.20
9/ 12
38/225
6.7
T.8
7.2
3.78
13/ 89
2/ 79
1.6
12. 7
7.7
1.92
O/ 1
37/240
5.4
12.7
9.5
2.01
70/ 10
36/652
1.6
12.8
8.4
1.70
I/ 9
162/722
6.8
23.5
12.7
3.77
O/ 57
28/191
9.7
28.8
16.5
4.62
7/ 1
87/240
21.2
31.4
25.3
4.11
3/ 2
6/241
20.1
29.8
25.5
2.39
I/ 11
38/234
15.4
19.5
17.4
2.90
8/145
2/ 93
9.0
29.6
19.3
4.23
O/ 0
37/246
6.8
31.4
l».l
6.03
O/ 2
36/738
4.0
29.8
19.2
5.48
3/ 11
162/726
0.007
a. 137
0.041
0.0378
4/ 43
28/200
0.006
0.259
0.067
O.OS3S
S/ 18
87/228
0.010
0.071
0.025
0.3229
14/ 94
6/139
O.008
0.126
0.042
0.0336
6/ 49
38/192
0.005
0.010
0.007
0.0035
1/231
2/ 14
0.048
0.369
9.065
0.0839
5/ 18
37/223
0.005
0.137
0.036
0.0355
5/141
36/596
0.006
0.369
0.061
0.0591
7/ 55
162/680
3.001
0.369
0.012
0.0177
O/ 30
28/219
o.oai
0.171
0.020
0.0275
O/ 16
87/233
0.004
0.010
0.005
0.0020
22/127
6/ 98
0.032
O.O69
0.009
0.3119
3/ 29
28/215
0.010
0.010
0.009
3.3013
77/135
I/ 13
0.003
0.199
0.024
0.0431
2/ 16
?T/227
0.001
0.069
0.011
0.0160
C/ 93
35/648
0.001
0.199
3.019
0.029T
O/ 47
162/694
3.054
3.429
0.758
O.9266
11/ IS
28/223
0.034
7.557
0.870
1.3076
11 2
87/245
0.079
0.493
0.179
0.1568
57/ 56
6/134
0.929
1.364
0.248
0.2908
4/ 24
38/219
0.320
0.037
0.028
3.0120
2/292
2/ 42
0.022
1.959
0.333
0.5070
5/ 4
37/237
0.023
3.429
0.621
0.8570
2/ 22
36/718
0.022
7.537
0.632
1.0369
5/ 2
162/735
0.024
0.369
0.074
0.0700
I/ 8
28/240
0.022
3.539
0.098
0.0778
O/ 2
87/247
9.051
J. 129
0.082
0.0271
24/ 70
6/153
0.034
0.235
O.O99
0.0495
Of 19
38/228
0.044
0.045
O.O44
1.0037
27/212
2/ 7
0.032
0.831
0.111
0.1466
It 3
37/241
0.024
0.369
0.074
0.3628
2/ 26
36/714
0.022
0.831
3.131
0.0929
I/ 3
162/738
0.250
1. 374
0.530
0.2347
9/ 40
28/290
0.22!
2.110
0.560
0.3063
*/ 14
87/231
0.276
0.474
0.403
0.0715
4/195
6/ 48
0.261
1.865
0.72T
0.4166
11 43
38/205
0.210
0.225
0.217
0.0106
2/240
2/ *
0.210
2.236
0.812
O.S362
2/ 22
37/222
0.213
1.074
0.491
0.2236
5/223
36/514
0.210
2.236
0.657
0.4075
5/ 68
162/669
10
236
83
78.4
O/ 10
28/239
10
248
69
67.1
O/ 0
87/249
10
20
12
4.0
0/184
6/ 63
10
198
41
42.7
O/ 15
38/232
10
10
10
0.0
0/225
Zl 21
10
241
48
58.0
O/ 3
37/243
13
206
69
74.6
O/ 37
36/705
10
248
98
61.1
O/ 12
162/730
3.0
112.0
24.7
24.29
34/ 4
28/211
1.0
137.0
19.9
23.78
11 1
87/241
4.0
48.0
16.3
16.06
64/ 17
6/166
1.0
76.0
11.2
12.26
12/ 7
38/228
8.0
11.0
9.5
2.12
163/ 50
2/ 33
1.0
58.3
10.3
12.09
IS/ 8
57/225
3.0
112.0
22.4
22.63
14«/ T
M/989
1.0
13T.O
-19.7
19.76
32/ 2
162/70*
48 10.6
11445 86.3
1721 29.6
2601.2 21.37
0 0.0
2056 9.9
103 2.3
265. S 2.71
28 12.7
5572 88.1
1179 33.9
2166.4 28.37
0 0.0
312 7.6
27 1.0
57.4 1.81
121 14.6
1587 66.9
854 4C.8
1036.6 36.98
0 0.0
457 9.8
46 1.3
95.5 2.33
28 10.6
11445 88.1
1583 30.9
2448.4 22.69
0 0.0
2056 9.9
72 1.8
203.4 2.49
-------�
GENUS:ASTEROCOCCUS
CHIA
TURB SECCHI
PH 00
TEM»
PARTIAL DEPTH VALUES
TOTALP ORTHOP NO2S03
NH3
KJEL ALK
CONC PERC
*
0 0
U 1 C
N C
0
R N
f 0
U t N
M 0
0 C
C
R
0 0
U 2 C
N C
D
R N
0 T
U 2 N
N O
D C
C
R
0 0
use
* C
0
R N
0 0
U 3 N
N 0
0 C
C
•
O*0
U L C
N L C
O
0 N
O A 0
U L N
N L 0
0 C
C
M!N
MAX
MEAN
STDV
N
0/WR
MIN
MIX
MEAN
STOV
N
0/UR
PIN
MM
MEAN
STOV
N
O/MR
HIM
MAX
IEAN
STOV
N
O/MR
HIN
MAX
MEAN
STOV
N
0/M>
MIN
MiX
MEAN
STOV
N
0/HR
MIX
MAX
MEAN
STPV
M
0/w»
MIN
MtX
MEAN
STOV
N
0/HR
0.3
355.6
21. 0
41.40
O/ 0
2*7/2*7
U*
595.0
34.*
62.58
O/ 3
2*7/2*7
40.9
40.9
40.9
0.00
206/ *0
I/ 1
0.8
241.*
23.1
34.32
O/ 0
2*t/2*7
*0.9
40.9
40.9
0.00
615/125
I/ 1
0.3
595.0
26.2
47.96
O/ 0
740/7*1
6
100
71
20.6
O/ 0
187/187
4
121
72
24.0
3/ 0
237/237
79
79
79
0.0
88/128
I/ t
1
100
74
23.1
3/ 0
220/221
79
79
79
0.0
301/333
I/ 11
1
121
72
22.8
o/ o
6**/e*5
2
252
**
36.2
O/ 0
2*9/2*9
1
222
«9
35.8
O/ 0
241/2*1
57
57
57
3.0
ITS/ 69
I/ Z
6
185
50
35.0
Of 0
2*5/2*6
57
57
57
0.0
530/196
It 10
1
252
*B
35.7
O/ 0
715/736
5.3
10.6
7.9
0.73
O/ 0
2*9/249
*.l
10.6
7.8
0.89
0/ 3
2*7/2*7
7.7
7.7
7.7
0.00
127/107
I/ 11
4.7
10.3
7.6
O.84
O/ 3
2*4/2*5
'.7
7.7
7.7
0.00
318/388
I/ 35
4.1
10.6
7.8
0.83
O/ 0
740/741
0.7 6.8
19.2 28.9
9.0 17.5
2.02 S.S9
0/0 0/0
2*5/245 248/2*8
3.0 17.3
17.8 32.2
7.0 26.6
1.98 2.35
0/0 0/0
246/2*6 2*6/2*6
7.8 17.6
7.8 17.6
7.8 17.6
0.00 0.00
1*1/ 89 *4/196
1/11 1/6
1.6 9.0
13.5 29.6
7.3 20.4
1.6( 3.25
0/0 0/0
2*0/2*1 245/2*6
7.8 17.6
7.8 17.6
7.8 17.6
0.00 0.00
367/344 190/5*2
11 21 I/ 8
0.7 6.8
19.2 32.2
7.8 21.5
2.07 5.50
0/0 0/0
731/732 739/7*0
0.00* O.OOk O.024 O.O22 0.199
1.719 1.209 9.7*5 0.635 4.699
0.123 0.057 0.870 0.107 0.796
0.2314 0.1642 1.4754 0.0953 0.6975
0/0 0/0 0/0 0/0 0/0
249/249 249/249 249/249 2*9/249 249/249
0.004 0.001 0.025 0.034 0.215
2.559 1.191 6.857 0.719 7.1*9
0.134 0.053 0.493 0.120 1.217
0.2811 0.1479 0.8836 0.0878 1.0778
0/3 0/0 0/0 0/0 0/0
247/247 247/247 2*7/247 2*7/247 24T/247
0.176 0.089 1.261 O. 154 l.OOO
0.176 0.089 1.261 O.1S* 1.000
0.176 0.089 1.260 O.15* l.OOO
O.OOOO O.OOOO O.OOOO O.OOOO 0.0000
206/ 38 Z16/ 28 229/ 16 201/ 43 148/ 93
1/2 I/ I I/ 1 1/2 1/5
0.004 0.001 0.017 O.020 0.199
4.5*9 2.009 «.*69 3.02* 8.199
0.15* 0.070 0.338 0.122 1.119
O.«099 0.2092 0.5*57 0.2236 1.0594
0/0 0/0 0/0 0/0 0/0
245/2*6 244/245 245/246 245/246 245/2*6
0.176 0.089 1.261 0.15* 1.000
0.176 0.089 1.261 0.15* 1.000
0.176 0.089 1.260 0.15* 1.000
0.0000 0.0000 0.0090 O.OOOO 0.0000
628/112 660/ 79 656/ 85 603/135 48O/2S*
1/2 1/2 1/1 It * 1/8
0.004 0.001 0.017 0.020 0.199
4.549 2.009 9.745 3.024 8.199
0.137 0.060 0.568 0.116 1.043
0.3159 0.1754 1.0664 0.1*88 0.9756
0/0 O/ O O/ O 0/0 Of 0
7*1/7*2 7*0/7*1 7*1/742 741/742 7*1/7*2
10
2*8
70
67.3
O/ 0
249/2*9
10
334
73
68.9
O/ 0
2*7/2*7
142
142
1*2
0.0
204/ 4O
I/ 2
10
291
73
64.3
01 0
245/246
142
142
1*2
O.O
614/126
I/ 2
10
334
72
66.7
O/ 0
7*1/7*2
0.0
142.0
18.6
25.1*
O/ 0
249/249
0.0
210.0
1*. 1
23.76
O/ O
2*7/2*7
13.0
13.0
13.0
0.00
199/ 42
I/ 5
0.0
9O.O
9.6
14.90
O/ 0
245/246
13.0
13. O
13.3
0.00
530/198
I/ 14
0.0
210.0
14.1
22.05
O/ 0
741/742
0
0
0
0.0
0
0
0
0.0
6
6
6
0.0
0
0
0
0.0
6
6
6
0.0
0
0
0
0.0
0.0
0.0
0.0
0.00
O.O
0.0
0.0
0.00
0.7
0.7
0.7
0.00
0.0
O.O
0.0
0.00
0.7
0.7
0.7
0.00
0.0
0.0
0.0
0.00
-------�
eENUS:ASTEROCOCCUS
CHLA
TURB SECCH1
00
TE«P
PARTIAL DEPTH VALUES
TOTALP CRTHOP NC2N03
KJEL ALK
CONG PCRC
8
0
u
N
9
•
C
U
N
0
R
0
u
•
0
R
C
U
II
0
R
a
u
H
D
*
0
u
N
0
*
o
u
N
0
•
1
u
N
0
1
1
2
2
3
3
A
I
I
*
I
I
0
a
M
N
a
N
0
0
M
0
0
M
N
a
N
0
0
•
0
0
q
N
0
N
0
C
M
0
0
M
N
0
N
0
0
N
«IN
MAX
MEAN
STOV
N
0/MR
KIN
MAX
MEAN
STPV
N
0/M»
KIN
PAX
MEAN
STOV
M
0/MR
PIN
MAX
•FAN
STOV
N
0/MR
PUN
MM
MEAN
STOV
N
0/MR
PIN *3.9 79 91 7.7 7. 6 17.6 0.176 0.089 1.261 0.15* 1.000 1*2 13.0
MAX 40.9 79 57 7.7 7.8 17.6 0.176 0.089 1.261 0.15* 1.000 1*2 13. 0
MEAN «0.9 79 57 7.7 7.8 17.6 0.176 0.989 1.260 0.15* 1.000 1*2 13.0
STOV O.OO O.O 0.0 O.OO O.OO 0.00 0.0000 O.OOOO O.OOOO 0.0000 0.0030 0.0 O.OO
N 2J6/ *0 88/128 175/ 69 127/107 l*l/ 89 »*/196 206/ 38 216/ 28 229/ 16 2CI/ *3 1*8/ 93 20«/ *0 199/ *2
0/MR I/ 1 1/5 1/2 I/ 11 I/ 11 1/6 I/ 2 I/ 1 1/1 I/ Z 1/5 1/2 1/5
H!N
MAX
MEAN
STOV
N
o/wn
MIN *0.9 79 57 7.7 7.8 17.6 0.176 0.089 1.261 0.15* 1.000 1*2 13. 0
MAX *0.9 79 57 7.7 7.8 17.6 9.176 0.089 1.261 3.15* l.OOO 1*2 13.0
MEAN *0.9 79 57 7.7 7.8 17.6 0.176 0.089 1.260 0.15* 1.000 1*2 13.0
STDV 0 OO 0.0 0.0 0.00 0.00 0.00 0.0000 0.0000 0.0000 0.0000 0.0330 0.3 3.33
N 615/125 JJ1/333 530/196 318/181 367/3** 190/5*2 628/112 660/ 79 656/ 85 603/135 *BO/25* 61*/1Z6 53O/198
0/MR 1/1 1/11 I/ IB I/ 35 I/ 21 If 8 It 1 1/2 I/ 1 I/ * I/ 8 1/2 It 1*
6 0.7
6 0.7
6 0. 7
0.0 O.OO
6 0.7
6 0.7
6 0.7
3.0 0.30
-------�
GENUS:ATTMEYA
CMIA
oo
PARTIAL DEPTH VALUES
TEMP TOTALP ORTMOP N02N03
NN3
KJEL
N/P
CONC PERC
p
0 n
u l C
N
0
H t^
C 0
U 1 N
N n
D C
c
R
0 0
u z c
« c
0
R N
0 0
O 2 N
N 0
0 f.
C
a
0 0
0 3 C
N C
0
0 N
0 0
U 1 1
N n
0 C
c
4
•J 4 0
U L C
N L C
n
a N
9*0
U L N
HIP
n •:
r
MIN
•IX
MEAN
STOV
N
O/WR
H IN
MAX
MFAN
STOV
N
0/HR
M|N
MAX
MEAN
STOV
N
0/UB
MIN
**AX
MEAN
STOV
•!
0/NR
MIN
MAX
MEAN
STOV
N
n/MD
MIN
MAX
• Cf|
;T"v
N
P/W»
MIN
MAX
MEAN
STOV
N
0/WR
M|N
MAX
MEAN
STOV
N
C/WR
2.3
5.9
4.7
2.00
21/1**
3/ 82
0.3
355.6
21.2
»1.61
D/ 0
2**/2*7
1.*
38.1
12.2
9.99
O/ 58
12/189
1.5
595.3
35.6
43.92
I/ 0
235/2*4
2. T
13*. *
2*. 3
40.91
IS/ *
11/228
0.6
241.4
23.1
34.03
Of 0
236/2*7
1.4
114.4
16.5
27. 1 8
14/ 24
26/701
0.3
595.0
26.5
48.48
01 0
715/7*1
81
90
84
4.9
ll*/ 25
}/ 48
6
130
TO
20.7
3f 0
is*/ie7
45
94
79
15.3
36/ 19
12/182
4
121
72
24.3
3/ 0
225/237
11
96
7S
30.5
6/ 7
9/208
I
100
74
22. 8
tf 0
212/221
13
96
78
21.2
15/ 18
24/612
1
121
72
22.8
O/ 0
621/645
24
128
60
58.7
82/ 7
3/160
z
252
43
36.0
O/ 3
2*6/ 2*9
27
91
55
23.8
IS/ 28
12/150
1
222
49
36.3
O/ 0
229/241
12
157
74
47.3
7/ 3
11/236
6
185
49
34.0
O/ 0
235/246
12
157
64
38.9
39/ 11
26/686
1
252
47
15.5
O/ 0
713/736
6.7
e.9
6.8
0.10
6/226
3f 17
5.3
10.6
7.9
0.72
O/ 0
2*6/2*9
6.2
8.4
7.0
0.69
7/ 45
12/195
4.1
10.6
7.8
0.88
O/ 0
235/247
6.4
8.8
6.9
0.70
I2/ 12
10/221
4.7
10.3
7.6
0.83
O/ 0
235/245
6.2
8.8
7.0
0.64
16/ 49
25/676
4.1
10.6
7.8
0.82
O/ 0
716/741
3.9
6. 1
4.9
1.11
6/2Z7
3/ 12
0.7
19.2
9.0
1.98
O/ 0
2*2/2*5
4.3
7.9
6.3
1.11
9/ 59
12/178
1.0
17.8
7.0
2.31
O/ 0
214/246
4.0
9.6
7.3
1.65
5/ 12
10/224
1.6
11.5
7.1
1.61
O/ 0
231/241
1.9
9.6
6.4
1.46
18/114
25/600
0.7
19.2
7.8
2.07
O/ 0
737/712
23.8
27.9
26.3
2.19
I93/ 5
I/ 50
6.8
28.9
17.4
5.53
O/ 0
2*5/2*8
21.4
29.8
26.5
2.57
*/ 11
12/231
17.3
12.2
26.6
2.34
O/ 0
234/246
15.7
21.8
20.5
2.29
12/ 17
10/197
9.0
29.6
20.4
1.28
Of 0
216/246
15.7
29.8
24.1
1.80
135/ 11
25/59*
6.8
12.2
21.4
5.52
O/ 0
715/740
0.318
0.122
0.070
0.0520
35/ 51
3/163
0.00*
1.719
0.123
0.2327
O/ 0
246/2*9
0.007
0.099
0.046
0.0132
4/ 66
12/177
0.004
2.559
0.119
0.2874
O/ 0
215/247
0.008
0.269
0.064
0.0898
5/ 24
11/217
0.034
4.549
0.159
0.4177
O/ 0
235/246
O.007
0.269
0.057
0.0635
I*/ 68
26/660
0.004
4.549
0.140
0.1208
Of 0
716/742
0.033
0.036
0.017
0.0170
27/ 55
3/167
0.001
1.209
O.OS7
0.1652
O/ 0
2*6/249
0.003
0.031
0.009
0.0082
9/ 51
12/187
0.001
1.191
0.055
0.1511
O/ 0
215/247
0.004
0.142
0.021
0.0411
8/ 18
11/219
0.001
2.009
0.072
0.2112
O/ 0
234/245
0.003
0.142
0.015
0.0276
38/ 55
26/648
3.001
2.0O9
0.062
0.1782
Of 0
715/741
0.106 0.081 0.296 12
0.1*2 0.197 0.824 13
0.124 0.156 0.599 13
0.0180 0.0653 0.2726 0.6
51/181 136/ 22 26/ 76 41/193
I/ 17 I/ 91 1/147 I/ 15
0.024 0.022 0.199 10
9.745 0.615 4.699 248
O.879 0.106 0.798 71
1.4821 0.0955 0.7010 67.5
0/0 0/0 0/0 0/0
246/2*9 246/249 246/249 246/249
0.010 0.040 0.362 11
1.164 0.219 1.212 40
0.159 0.122 0.716 22
0.3768 0.0629 0.272S 8.9
7/ 24 4/ 18 21/ 77 IB/140
12/216 12/225 12/149 12/ 89
0.025 0.014 0.215 10
6.857 0.719 7.149 134
0.500 0.119 1.241 76
3.9018 0.0890 1.0978 69.6
0/0 0/0 0/0 O/ 0
215/247 215/247 215/247 235/247
0.020 0.015 0.264 10
1.959 0.399 1.699 2O8
0.395 0.111 0.833 IT
0.5896 0.1090 0.4969 57.6
2/4 5/7 12/ 36 Of 12
11/240 11/214 11/198 11/234
0.317 O.020 0.199 10
4.469 3.02* 8.199 241
0.319 0.121 1.112 75
3.5469 0.2272 1.075O 64.0
0/0 0/0 0/0 0/0
235/246 235/246 235/246 235/246
0.020 0.035 0.264 10
1.959 0.199 1.699 248
O.347 0.121 0.761 27
0.4567 0.0838 0.3783 18. O
2f 50 22/ 19 28/108 O/ 36
26/699 26/701 26/606 26/706
0.017 0.020 0.199 1O
9.7*5 3.02* 8.199 314
O.S7T 0.116 1.053 74
1.0810 0.1506 0.9885 67.0
Of 0 0/0 0/0 0/0
716/742 716/742 716/742 716/7*2
1.0
10.0
6.0
1.61
14/107
1/108
0.0
142.0
18.8
25.25
O/ 0
246/2*9
1.0
101. 0
21.5
11.14
*4/ 1
12/200
0.0
210.0
11.6
23.16
Of 0
215/247
l.O
85.0
19.4
29.49
13/ 2
11/231
0.0
9O. 0
9.1
11.78
O/ 0
235/246
1.0
191.0
19.7
29.45
32/ 8
26/702
0.0
210.0
13.9
21.72
O/ 0
716/742
11
42
24
15.5
0
0
0
0.0
0
621
61
177.8
0
O
0
0.0
O
166
23
50.4
0
0
0
0.0
0
621
41
123.7
0
0
0
0.0
0.8
2.6
1.6
0.89
0.0
O.O
0.0
0.00
0.0
It. 2
2.3
5.17
0.0
0.0
0.0
3.00
0.0
2.3
0.4
0.72
3.0
0.0
O.O
0.00
0.0
16.2
1.4
3.58
0.0
0.0
0.0
o.oo
-------�
GENUS:ATTHEYA
CHl»
TURB SECCMI
PH
00
PARTIAL DEPTH VALUES
TEMP TCTAtP ORTHOP N02N03
NH3
KJEL ALK
M/P
CONC PERC
•
0 D
U I 0
N 4
D
R N
0 0
U 1 N
N 0
0 0
M
•
O 0
U 2 0
N H
0
* N
o o
U 2 H
N 0
0 0
H
R
0 0
U 3 0
N M
0
* N
0 0
U J N
1 0
0 0
M
•
O A 0
U L C
N L N
D
II N
0 A 0
U L N
N L 0
0 0
N
MIN
MAX
MEAN
STOV
N
O/HR
KIN
MAX
MEAN
STOV
N
O/HR
MIN
MAX
HEAN
STOV
N
O/UR
KIN
MAX
MEAN
STDV
N
0/MR
HIM
K»X
MEAN
STOV
N
0/M«
MIN
MAX
MEAN
STOV
K
O/M«
MIN
MAX
MEAN
STOV
N
0/MR
MIN
MAX
MEAN
STOV
N
0/MR
2.3 ai
5.9 90
4.7 84
2.08 4.9
21/144 U4/ 25
3/ 82 3/ 48
1.4
1.4
1.4
0.00
0/246
\J 1
3.0
38.1
13.2
9.85
12/ 58
11/17T
2.7
134.4
24.3
40.91
IS/ 4
11/228
1.4
1.4
1.4
0.00
14/725
I/ 2
2.3
134.4
1T.1
28.08
40/ 24
25/677
61
61
61
0.0
53/182
I/ 2
45
94
81
14.9
36/ 19
11/182
13
96
75
30.5
6/ 7
9/208
61
61
61
0.0
148/491
I/ 6
13
96
79
21.3
15/ 18
23/612
24
128
60
58.7
82/ 7
3/160
27
27
27
0.0
63/iri
I/ 7
29
91
57
23.2
74/ 28
11/139
12
157
74
47.3
7/ 3
11/236
27
27
27
0.0
217/532
I/ 17
12
157
65
38.9
39/ 11
23/686
6.7
6.9
t.8
0.10
6/226
3/ 17
6.4
6.4
6.4
0.00
15/229
I/ 3
6.2
8.4
7.1
0.69
11 45
11/195
6.4
8.8
6.9
0.70
12/ 12
10/221
6.4
6.4
6.4
0.00
30/731
I/ 10
6.2
8.8
7.0
0.64
16/ 49
24/676
3.9 23.8
6.1 27.9
4.9 26.3
1.11 2.19
6/227 193/ 5
3/ 12 3/ 50
7.0
7.0
7.0
0.00
131/101
I/ 14
4.3
7.9
6.2
1.14
9/ 59
11/178
4.0
9.6
7.9
1.65
5/ 12
10/224
7.8
7.3
7.0
0.00
259/453
If 20
3.9
9.6
6.4
l.*9
18/114
24/600
21.4
21.4
21.4
0.00
4/241
I/ 1
23.7
29.8
27.0
2.09
18/ 11
11/217
15.7
23.8
20.5
2.29
12/ 37
10/197
21.4
21.4
21.4
0.00
343/396
I/ 1
15.7
29.8
24.2
3.84
135/ 11
24/594
0.018
0.122
0.070
0.0520
35/ 51
3/163
0.071
0.071
0.070
0.0000
152/ 94
I/ 1
0.907
0.399
0.044
0.0339
4/ 64
11/177
0.008
0.269
0.064
0.0898
5/ 24
11/217
0.071
0.071
0.070
0.0000
441/297
I/ 4
0.307
0.269
0.056
0.0647
14/ 68
25/660
0.003
0.036
0.017
0.0170
27/ 55
3/167
0.005
0.015
0.005
0.0000
38/185
I/ 24
0.003
0.033
0.009
O.OO8S
9/ 51
11/187
0.004
0.142
0.021
0.0411
8/ 18
11/219
0.005
0.009
0.005
0.0000
106/583
I/ 52
0.003
3.142
0.016
0.0281
38/ 55
23/648
0.106 0.081
0.142 0.197
0.124 0.156
O.O180 0.0653
51/181 136/ 22
3/ 17 3/ 91
0.139
0.139
0.138
0.0000
108/136
I/ 3
0.03O
1.364
0.379
0.3885
7/ 24
11/216
0.020
1.959
0.395
0.5896
2/ 4
11/240
0.139
0.139
0.138
0.0000
312/426
I/ 4
0.020
1.959
0.356
0.4641
2/ 50
25/690
0.069
0.069
0.068
0.0000
60/182
I/ 5
0.040
0.239
0.127
O.O636
4/ 18
11/225
0.035
0.399
0.111
0.1090
57 7
11/234
0.069
0.069
0.068
O.OOOO
272/456
I/ 14
0.033
0.399
0.123
0.0848
22/ 19
25/701
0.296
0.824
0.599
0.2726
26/ 76
3/147
0.474
0.474
0.473
0.0000
51/195
I/ 1
0.362
1.232
0.759
0.2724
21/ 77
11/149
0.264
1.699
0.833
0.4969
12/ 36
11/198
0.474
0.474
0.473
0.0000
211/330
I/ 1
0.264
1.699
0.773
0.3815
28/108
25/606
12
13
13
0.6
41/193
3/ 15
12
12
12
0.0
27/215
I/ 5
It
40
22
8.7
18/140
U/ 89
10
208
37
57.6
O/ 12
11/234
U
12
12
0.0
93/632
I/ 17
10
208
28
38.6
O/ 36
25/706
3.0
10.0
6.0
3.61
34/107
3/108
4.0
4.0
4.0
O.OO
64/165
I/ 18
3.0
103.0
25.3
34.37
44/ 3
11/ZOO
1.0
85.0
19.4
29.49
13/ 2
11/231
4.0
4.0
6.0
0.00
208/478
I/ 56
1.0
103.0
20.4
29.88
32/ 8
25/732
13
42
24
15.5
37
37
37
0.0
0
621
63
186.3
0
166
23
50.4
37
37
37
0.9
0
621
41
126.3
0.8
2.6
1.6
0.89
16.2
16.2
16.2
0.00
0.0
9.5
1.1
2.88
0.0
2.3
0.4
0.72
16.2
16.2
16.2
0.03
0.0
9.5
0.8
1.98
-------�
•e-
oo
GENUS:BINUCLEAR|A
CHIA
TURB SECCHI
00
PARTIAL DEPTH VALUES
TEMP TOTALP ORTHOP NO2N03
NH3
KJEL
N/P
CONC PERC
0 0
U 1 C
N C
0
R N
O 0
U 1 N
N O
0 C
C
p
a o
U 2 C
N C
O
R N
0 O
U 2 N
N 0
0 C
C
o o
U 3 C
N C
0
R N
O 0
U 3 N
N 1
0 C
c
O A 0
U L C
N L C
0
B N
O A Q
U L N
N L 0
Of
I
C
HIN
MAX
MEAN
STOV
0/UR
MIN
MAX
MEAN
STOV
0/UR
HIN
MAX
HEAN
N
0/UR
M IN
MAX
MEAN
STDV
0/UR
HIN
MAX
MEAN
STOV
0/UR
M IN
MAX
MEAN
STDV
0/ua
HIN
MAX
MEAN
STDV
0/WR
M IN
MAX
MEAN
STOV
0/UR
0. 3
355.6
21.0
41.40
O/ 0
247/2*7
2.5
3.0
2.8
0.35
7/233
2/ 7
1.*
595.0
3*. 7
62.77
O/ 0
2*5/2*7
6.7
6.7
6.7
0.30
78/167
I/ 2
0.8
2*1.*
23.3
3*. 32
01 3
246/2*7
2.5
6.7
2.29
*6/*95
3/200
0.3
595.0
26.3
48.30
O/ 0
738/7*1
6 2 5.3 0.7
100 252 10.6 19.2
71 ** 7.9 9.0
20.6 36.2 0.73 2.02
0/0 0/0 0/0 0/0
1B7/187 2*9/2*9 2*9/2*9 2*5/2*5
89 *2 6.* 6.7
98 113 7.2 7.2
9* 78 6.8 6.9
6.* 50.2 0.57 0.35
1T6/ 3 I36/ 17 15/185 111/ 86
2/ 58 2/ 88 2/ 47 2/ 49
* I 4.1 3.0
121 222 10.6 17.8
72 *9 7.8 7.0
24.0 35.7 0.89 1.99
0/0 0/0 0/0 0/0
235/237 239/241 245/247 244/2*6
85 51 7.5 8.*
85 51 7.5 8.*
85 51 7.5 8.*
0.0 0.0 0.00 0.00
120/ 9* 160/ 82 106/129 192/ *3
1/7 I/ * I/ 10 I/ 6
1 6 4.7 1.6
100 IBS 10.3 13.5
7* 50 7.6 7.3
23.1 35.0 0.8* 1.61
3/0 0/0 0/0 0/0
220/221 245/246 244/2*5 2*0/2*1
85 *2 6.* 6.7
98 113 7.5 8.*
91 69 7.0 7.4
6.7 38.7 0.57 0.97
399/ 7 430/ 51 30/457 210/250
3/239 3/255 3/254 3/272
1 1 4.1 0.7
121 252 10.6 19.2
72 47 7.8 7.8
22.8 35.7 0.83 2.07
3/0 O/ O 0/0 0/0
642/645 733/736 738/7*1 729/732
6.8
28.9
17.5
5.59
O/ 0
2*8/2*8
2*. 3
29.8
27.0
3. 89
39/ 11
2/196
17.3
32.2
26.6
2.3*
O/ 0
244/244
19.4
19.4
19.4
0.00
94/148
I/ 4
9.0
29.6
20.4
3.25
O/ 0
245/246
19.4
29.8
24.5
5.20
255/ 11
3/474
6.8
32.2
21.5
S.*9
O/ 0
737/7*0
0.00*
1.719
0.123
0.231*
O/ 0
2*9/2*9
0.006
0.015
0.010
0.0063
2/208
2/ 37
0.00*
2.559
0.135
0.2821
O/ 0
2*5/2*7
0.0*2
O.O*2
0.0*2
0.0003
9*/l*7
I/ 5
O.OO*
*.S*9
0.155
0.4098
O/ O
245/2*6
0.006
0.042
0.020
0.0187
7/431
3/30*
0.00*
*.5*9
0.138
0.3163
O/ 0
739/7*2
0.001
1.209
0.057
0.16*2
O/ 0
2*9/2*9
0. OO3
O.OOS
O.OO3
0.001*
9/185
2/ S3
0.001
1.191
0.05*
0.1*84
O/ 0
2*5/2*7
0.017
0.017
0.017
0.0000
131/109
I/ 5
0.001
2.009
0.070
0.2092
O/ 0
2*4/245
0.003
0.017
0.008
0.007S
38/291
3/412
0.001
2.009
0.060
0.1756
O/ 0
738/7*1
O.02*
9.7*5
0.870
l.*75*
O/ 0
2*9/2*9
0.027
O.OS1
0.038
0.0169
1/220
2/ 26
0.025
6.857
0.*97
0.8863
Of 0
2*5/2*7
0.329
O.329
0.329
0.0000
ISO/ 65
I/ 1
O.O17
*.*69
O.342
0.5488
O/ 0
245/2*6
0.027
0.329
0.135
0.1678
20/263
3/*59
0.017
9.7*5
0.571
1.0678
O/ 0
739/7*2
0.022
0.635
0.107
0.0953
O/ 0
2*9/2*9
0.0*O
0.076
0.057
0.025*
4/167
2/ 76
0.03*
0.719
0.120
O.0880
Of a
2*5/2*7
0.051
0.051
0.050
0.0000
57/186
I/ 3
0.020
3.02*
0.123
0.2236
O/ 0
2*5/2*6
0.0*0
0.076
0.055
0.0184
42/409
3/291
O.O20
3.02*
0.116
0.1489
O/ 0
739/7*2
O. 199
4.699
0.796
0.6975
O/ 0
2*9/2*9
0.4*9
0.625
0.536
0.124*
39/159
2/ 49
0.215
7.149
1.222
1 .080*
O/ 0
2*5/2*7
0.*25
0.425
0.*25
0.0000
52/193
I/ 1
0.199
8.199
1.121
1.0584
O/ 0
2*5/2*6
0.*25
0.625
0.*99
0.1092
172/422
3/148
0.199
8.199
1.045
0.9763
O/ 0
739/742
10
248
70
67.3
Of 0
249/2*9
10
11
11
a. 7
0/220
2/ 27
10
33*
7*
68.9
O/ 0
2*5/2*7
55
55
55
0.0
123/122
I/ 1
10
291
73
6*. 2
O/ 0
2*5/2*6
10
55
25
25.7
0/3*3
3/399
10
33*
72
66.8
01 0
739/7*2
0.0
142.0
18.6
25.1*
O/ 0
2*9/2*9
8.0
9.0
8.5
0.71
138/ 86
2/ 23
0.0
210.0
14.1
23.85
O/ O
2*5/2*7
9.0
9.0
9.0
0.00
172/ 66
I/ 8
0.0
90.O
9.6
14.90
O/ 0
245/246
8.0
9.0
8.7
0.58
417/269
3/ 56
O.O
210.0
22.08
O/ 0
739/742
0
0
0
0.0
0
0
0
0.0
0
0
o
0.0
1107
1107
1107
0.0
0
0
O
0.0
0
1107
369
639.1
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
O.OO
18.8
18.8
18.8
0.00
0.0
0.0
0.0
0.00
0.0
18.8
6.3
10.83
0.0
0.0
0.0
0.00
-------�
GENUS :BiNitCLEARU
CHLA
TU«B SECCHI
oo
TEHP
PARTIAL DEPTH VALUES
TOTM.P CRTHOP M02NO3
KM3
KJEL
M/P
CONC PE«C
R
0 O
U 1 0
N H
0
• N
0 0
U 1 N
N 0
0 0
N
•
o o
U 2 0
N N
O
« N
O 0
U 2 N
N 0
o a
H
R
0 0
U 3 0
N •
0
• N
O 0
U 3 N
N 0
0 O
N
A
O A 0
U L 0
N L N
O
ft N
0 A 0
U L N
N L D
O 0
H
KIN
HtX
HEAN
STDV
0/MR
HIN
HAX
HEAN
STOV
0/Mft
HIN
HAX
MEAN
STOV
0/MR
HIN
WAX
MEAN
STOV
0/MR
HIN
HAX
HEAN
STOV
0/MR
•IN
•AX
PEAS
STOV
N
C/WR
MIN
P. AX
PEAN
STOV
0/MR
HIN
MAX
PEAN
STOV
0/MH
2.5
3.9
0.35
7/233
21 1
6.7
6.T
6.7
9.00
78/167
I/ 2
6.7
6.7
0.00
243/495
I/ 3
Z.9
3.8
2.*
46/668
2/ 27
89 42
98 113
94 78
6.4 50.2
176/ 3 136/ 17
Z/ 58 Z/ 86
as 5i
85 51
89 91
0,0 0.0
1Z8/ 94 168/ 82
1/7 1/4
85 51
as si
as si
O.O 0.0
399/2Z6 498/234
I/ ZO I/ 4
89 42
98 113
94 78
6.4 50. Z
479 / 7 43 8/ 51
Z/159 2/255
6.4
T.Z
6.8
0.57
15/185
2/ 47
7.5
T.5
7.5
O.OO
106/129
I/ 13
T.5
T.5
T.5
0.09
245/457
I/ 39
6.4
7.2
6.8
0.5T
38/549
2/162
6.T
T.2
6.9
0.35
111/ 86
Z/ 49
8.4
8.4
8.4
O.OO
192/ 43
I/ 6
8.4
8.4
8.4
0.00
467/250
I/ 15
6.7
7.2
6.9
0.35
218/427
11 95
24.3
29.8
27.0
3.89
39/ 11
2/196
19.4
19.4
19.4
O.OO
94/148
I/ 4
19.4
19.4
19.4
0.00
255/479
I/ 6
24.3
29.8
ZT.O
3.89
4S5/ 11
2/274
0.006
O.O15
0.810
0.00&3
ZS208
21 37
0.042
4.442
9.342
O.OOOO
94/147
If 5
O.O42
0.342
4.042
0.0000
303/431
I/ 8
0.006
8.815
0.013
O.O063
7/6*5
21 90
0.003
0.905
0.083
0.0014
9/185
21 53
O.O1T
4.417
0.017
0.0000
111/109
I/ 5
0.017
0.01T
4.017
O.OOOO
439/291
I/ U
0.003
0.885
3. 093
0.0014
16/583
7/123
O.OZT
0.051
8.838
O.0169
1/220
21 26
0.329
8.329
9.3Z9
0.0000
ISO/ 69
I/ 1
0.329
0.329
0.329
0.0000
477/263
I/ 2
0.021
8.051
9.318
0.0169
ZO/631
21 91
0.040
0.076
0.857
0.0254
4/167
21 76
0.051
4.451
0.050
0.0000
5T/I86
I/ 3
0.051
0.351
8.858
o.oeor
134/604
I/ 4
0.040
4.876
0.057
0.0254
42/409
Z/291
0.449
0.625
0.536
0.1Z44
39/159
21 49
0.425
4.425
0.425
o.oooo
52/193
I/ 1
0.425
0.4Z5
0.425
0.0330
172/568
I/ 2
0.449
0.625
0.536
0.1244
I87/4Z2
2/133
1O
11
11
3.7
4/22O
21 21
55
55
55
O.O
123/122
I/ 1
55-
55
55
9.0
396/343
I/ 3
10
11
U
0.7
C/649
Z/ 93
8.0
9.0
8.5
3.71
13 a/ 86
21 23
9.0
9.0
9.0
4.00
172/ 66
I/ 8
9.0
9.0
9.0
0.00
440/Z69
I/ 33
8.0
9.0
8.5
0.71
41T/Z69
Z/ 96
O
0
0
0.0
1107
1107
1107
O.O
HOT
HOT
1187
0.0
0
0
0
9.8
0.0
0.0
0.0
O.JO
18.8
18.8
16.8
4.80
18.8
18.8
18.6
9.10
0.0
0.0
a.o
4.86
-------�
GCNUS:90TBYOCOCCUS
PARTIAL OEP'H VALUES
CHJ.A
SECCMI
00
TE»P TOTAlP ORTMOP N02M03
NH3
KJEL AlK
COtC. PEHC
R
0 0
U 1 C
N C
0
• N
e o
U 1 N
N O
0 C
C
II
0 0
U 2 C
N C
0
• N
O 0
U 2 N
•( 0
9 C
C
9
0 0
U 1 C
N C
0
• N
g o
U 3 1
N 0
0 C
C
•
n > o
u L c
N L C
0
B N
OAT
U L N
N L 0
0 C
C
KIN
MAX
MEAN
STOV
N
0/M»
NIN
MAX
MEAN
STOV
N
0/MR
KIN
MAX
MEAN
STOV
N
OXUR
MIN
MAX
MEAN
STOV
N
0/HR
HIM
MAX
MEAN
STOW
M
9/WR
MIN
MAX
•EAN
STOV
N
0/MK
NIN
MAX
MEAN
STOV
«
O/WR
MIN
MIX
PE1N
STOV
«
P/Wfl
5.0
100.9
34.5
45.46
7S/ 9
4/163
09
• 3
355.6
20. T
41.39
O/ 0
243/2*7
10.3
595. 0
69. 8
158.82
I03/ 0
11/144
1.4
456.6
32.5
52.56
O/ 1
234/246
3.4
241.4
33.1
36.91
22f 0
18/ZZS
o.a
231.0
22.4
31.87
O/ 1
224/246
3.4
595. 0
41.0
IDS .10
62/ 0
35/659
0.3
456.6
25.2
43.09
O/ I
706/743
6
95
61
40.1
Of 4
4/178
O
100
71
20.1
I/ 0
193/186
11
93
74
21.2
«/ 22
12/209
4
121
T2
24.1
O/ O
22 5/Z1 T
8
95
74
23.0
3/ 16
17/232
1
100
74
23. 1
•)/ O
204/221
6
95
72
24.4
9/ 35
33/605
1
121
72
22.T
O/ 0
612/645
5 7.9 8.6 12.1
120 8. 4 9.6 16.3
55 8.2 9.1 14.1
93.6 0.22 0.41 1.65
2/ 12 117/ 45 8l/ 85 41/118
4/23S 4/ 87 4/ 79 4/ 89
252 10.6 19.2 28.9
43 7.9 9.0 17.5
35.9 O.T3 2.04 9.62
0/0 O/ O 0/0 0/0
245/249 249/249 241/249 244/248
12 6.6 3.8 23.6
56 8.6 8.6 29.7
33 7.9 6.5 26.6
11.0 0.64 1.12 2.15
13/ 72 19/ 28 6/ 29 17/ 15
11/156 13/2OO 12/211 12/214
1 4.1 I.O 17.3
222 10.6 1T.B 12.2
50 7.8 T.O 26.6
36.5 0.90 2.31 2.16
O/ O Of 0 0/0 Ot 0
228/241 234/247 234/246 234/246
12 6.1 5.6 16.4
120 9.2 9.5 26.7
52 7.B T.6 19.8
31.0 0.79 1.17 1.06
T/ IS 4/ S 25/ 14 22/ 8
18/224 18/236 16/202 18/216
6 4.7 1.6 9.0
185 10.3 13.5 29.6
50 7.6 7.3 20.5
35.3 0.84 1.64 3.26
0/0 0/0 0/0 Of 0
228/246 227/245 ZZ5/241 228/246
5 6.1 1.8 12.3
120 9.2 9.6 29.7
45 7.9 7.4 21.5
24.4 0.69 1.42 4.91
3/ 37 13/ 26 15/114 42/ IS
35/696 35/702 32/603 34/683
1 4.1 0.7 6.8
252 10.6 19.2 32.2
48 7.7 7.8 21.5
16.0 0.81 2.09 5.52
0/0 0/0 0/0 0/0
701/736 736/741 700/732 706/740
0.016
0.212
0.090
0.0920
28/ 27
4/194
1.719
0.121
0.2131
Of O
245/249
0.013
1.599
0.173
0.4289
89/ 1
13/157
0.004
2.559
0.132
0.2718
O/ 0
234/247
0.010
1.382
0.211
0.42O4
ll/ 4
18/231
0.004
4.549
0.150
0.4088
Of 0
228/246
0.010
1.549
0.183
0.3941
IT/ 5
15/700
0.004
4.549
0.135
0.1115
O/ 0
707/742
0.001
0.012
0.006
0.0060
a/113
4/136
A flAl
O* Ql*l
1.209
0.058
0.1655
O/ 0
245/249
0.007
0.449
0.084
0.2596
79/ 2
11/166
0.001
1.191
0.051
0.1199
Of 0
294/247
0.001
1.255
0.119
0.3197
2/ I
IB/242
0.001
Z.O09
0.064
0.1949
Of 0
22T/245
0.001
1.255
0.103
O.2B88
O/ 1
15/740
0.001
2.009
3.058
0.1677
O/ 0
706/7*1
0.054
0.218
0.147
0.0803
11/156
4/ ez
0 O24
9I74S
0.882
1.48*5
Of O
245/249
0.053
1.089
0.224
0.2981
27/ 34
13/186
0.025
6.857
0.508
0.4031
Of O
234/247
0.024
1.267
0.232
0.4037
6/ 15
18/225
0.017
4.469
0.150
0.5573
Of 0
228/246
0.024
1.267
0.214
3.3318
6/ 84
15/652
0.017
4.745
0.987
1 .0867
Of 0
707/742
0.044
0.554
0.193
0.2414
2B/ 1
4/220
0. 022
0^635
0.105
0.0416
Of 0
245 /Z49
0.069
0.405
0.140
0.0911
60/ 4
11/183
O.O14
0.719
0.118
0.0877
O/ 0
234/247
0.014
0.375
0.096
0.0829
12/ 9
18/225
0.020
3.024
0.124
0.2106
Ot 0
228/246
0.034
0.554
0.124
0.1120
3S/ 9
35/698
O.OZO
1.024
0.116
0.1503
O/ 0
707/742
0.536
2.611
1.588
1.0931
11T/ 9
4/123
0. 199
4.699
0.783
0.6851
O/ 0
245/249
0.899
5.699
1.716
1.2712
121/ 3
13/121
0.215
7.1.49
1.189
1.0623
Of 0
214/247
0.225
6.000
1.243
1.1053
5/ 1
18/240
O. 194
8.199
1.108
1.0380
Of 0
ZZ8/246
0.225
6.000
1.458
1.2569
IO/ 4
35/728
0.199
8.194
1.022
0.9553
Of 0
707/742
105
156
125
24.4
183/ 41
4/ 25
10
248
69
67.5
Of 0
245/249
10
198
82
66.6
Of 15
13/232
10
334
71
69.1
Of 0
234/247
10
214
89
67.6
Of 10
18/216
10
291
72
61.8
Of 0
228/246
10
214
91
63.8
O/ 12
15/710
10
114
71
66.8
O/ 0
707/742
1.0
12.0
6.5
4.51
If 99
4/143
0.0
142.0
13.8
25.29
Of O
245/249
0.0
41.0
7.5
10.47
Ot 21
11/226
0.0
210.0
14.4
24.25
Of O
234/247
0.0
45.0
6.6
10. SB
Ot 11
18/235
0.0
40.0
9.8
15.16
Of 0
ZZ8/Z46
0.0
45.0
7.0
9.BJ
Of 58
39/684
0.0
210.0
14.5
Z2.42
O/ 0
70T/142
0
15
4
7.5
0
0
a
o.o
0
3439
304
945.0
a
0
0
0.0
o
4940
278
1163.6
0
0
0
0.0
a
4440
258
1030.5
0
O
o
0.0
0.0
0.5
0.1
0.26
O.O
0.0
0.0
o.oo
0.0
54.5
4.5
15.03
0.0
O.O
0.0
0.00
O.O
64. B
3.6
15.25
0.0
0.0
0.3
0.00
0.0
64.8
3.5
14.06
0.0
0.0
O.O
0.00
-------�
GCNUSiBOTRVOCCCCUS
CHLA
TU«B SECCHI
PARTIAL DEPTH VALUES
DO TEMP TOTAL* ORTHOP N02N03
NH3
KJEl
N/P
CONC
PIRC
R HIN
0 0 ""AX
u i o MEAN
N « STDV
D N
0/MR
R N HIN
0 0 MAX
U 1 N MEAN
H 0 STOV
0 0 N
H 0/MR
« PIN
0 0 MAX
U 2 0 MEAN
N N STOV
0 N
e/MR
* N MIN
a o MAX
U 2 1 MEAN
N 0 STOV
0 0 N
N 0/MR
R MIN
P 0 «AX
U S 0 MEAN
N N STOV
0 *
0/WR
R N HIN
0 0 "AX
U 1 N MEAN
N 0 STOV
0 0 N
N 0/UR
R HIN
0 A D MAX
U L 0 MEAN
N t H STOV
0 M
0/MR
R N MIN
0 A 0 MAX
U L N HEAN
N L D STOV
0 0 M
N 0/MR
9.9
100.9
3*. 5
45.46
It/ 9
4/163
12.6
12.6
12.6
0.00
131/111
I/ 1
10.3
995.0
74.5
164.91
10S/ 3
12/144
e.i
8.1
8.1
9.00
99/145
I/ 3
3.4
241.4
34.8
58.38
22/ 3
IT/225
8.1
12.6
10.3
3.18
299/30 T
2/135
3.4
595.0
49.2
107.81
8.V 0
39/659
6 5
95 120
61 55
40.7 53.6
O/ 9 2/ 12
4/176 4/235
93 35
93 35
93 33
0.0 0.0
206/ 22 103/131
1/1 1/7
11 12
91 56
T2 33
21.3 11.5
6/ 41 13/ T2
11/190 12/156
79 40
79 40
79 40
0.0 0.0
88/12* 118/128
1/5 I/ t
8 12
95 120
73 53
23.7 31.8
3/16 7/15
16/202 17/224
79 35
93 40
86 38
9.9 3.5
301/ 67 323/319
2/277 2/ 94
6 5
95 120
71 46
24.8 30.2
9/ 35 3/ 37
31/605 33/696
7.9 8.6
8.4 9.6
8.2 9.1
O.22 0.41
117/ 45 81/ 85
4/ 87 4/ 79
7.6 8.6
7.6 B.6
7.6 8.6
0.00 0.00
96/143 2I2/ 29
1/8 1/5
6.6 3.8
8.6 8.1
7.9 6.3
0.66 1.20
19/ 28 6/ 49
12/20* 11/191
7.5 7.2
7.5 7.2
T.5 7.2
0.00 O.OO
L06/129 107/131
I/ 10 It 3
6.1 5.6
9.2 9.5
7.8 7.6
0.81 1.21
•>/ 5 25/ 14
17/236 15/202
7.5 7.2
7.6 8.6
7.5 7.9
0.37 0.99
245/423 294/218
11 73 2/220
6.1 3.8
9.2 9.6
7.9 7.3
*.71 1.43
13/ 26 15/114
33/702 30/603
12.3
16.3
14.1
1.61
41/118
4/ 89
29.7
29.7
29.7
0.00
22B/ IS
I/ 3
23.6
28.8
26.3
2.00
17/ 54
11/175
23.9
23.«
23.9
0.00
209/ 36
I/ I
16.4
26.7
19.6
2.98
22/ 8
17/216
23.9
29.7
26.8
4.10
428/ 13
2/297
12.3
28.8
21.2
4.82
42/ 57
32/C41
0.016 0.001
0.212 0.012
8.890 0.006
O.OV2P 0.0060
28/ 27 0/113
4/194 4/136
0.033 0.022
8.833 0.022
0.333 3.021
0.0000 O.OOOO
89/153 173/ 71
1/5 1/3
8.033 9.007
1.599 0.949
0.185 8.090
0.4458 0.270*
89/ I 79/ 2
12/157 12/166
0.080 3.051
(.088 0.051
(•.pec1 O.PSO
O.OOOO O.OOOO
153/ 91 198/ 45
1/2 1/2
O.*18 (.003
1.382 1.255
0.219 0.144
0.4320 0.349*
ll/ 42/1
17/231 17/242
0.033 3.022
0.080 «.*51
0.056 P.P36
0.0332 0.0205
243/271 482/127
2/228 2/132
0.010 9.081
l.«99 1.255
0.191 0.107
0.4051 8.2972
37/ 30/1
33/700 33/740
0.054
0.218
0.147
0.0803
11/156
4/ 82
O.OS9
0.059
0.358
O.OOOO
31/211
I/ 5
0.053
1.089
8.238
0.3070
27/ 34
12/186
0.029
8.829
P.P29
O.OOOO
19/218
I/ 9
0.024
1.267
0.244
0.4129
*/ 15
17/225
3.029
8.059
P. C>4 3
0.0212
25/606
2/111
0.024
1.267
0.230
0.3453
6/ 84
33/652
0.044 0.536 105
0.554 2.611 156
0.193 1.588 125
0.2414 1.0931 24.4
28/ 1 117/ 9 183/ 41
4/228 4/123 4/ 25
0.069 1.299
8.869 1.299
0.068 1.299
O.OOOO 0.0000
60/182 1T1/ 74
1/5 1/2
0.085 0.699
O.405 5.699
8.146 1.751
0.0926 1.3212
99/ 4 123/ 3
12/144 12/121
0.054 0.799
8.854 0.799
0.054 3.799
0.0000 0.0000
65/176 120/120
1/5 1/6
0.039 0.225
0.375 6.000
0.099 1.269
0.0844 1.3406
12/ 95/1
17/225 17/240
0.054 0.799
8.869 1.299
P.061 1.049
0.0106 0.3535
151/456 481/168
2/135 2/173
8.839 8.225
0.554 6.300
0.128 1.483
0.1143 1.2898
33/ » 10/ 4
33/698 33/728
1O
10
10
0.0
0/2.-9
I/ 18
IS
198
88
65.8
39/ 15
12/193
10
10
10
0.0
0/225
I/ 21
10
214
94
66.6
O/ 10
17/236
10
10
10
0.0
O/668
2/ 74
18
214
95
62.4
Of 32
33/71*
1.0
12.0
6.5
4.51
11 99
4/143
4.0
4.0
4.0
8.0*
64/1* .'
I/ 18
0.0
41.0
7.8
10.88
a/ 21
12/226
1.0
1.8
1.0
0.00
13/204
I/ 29
0.0 •
45.0
7.2
10.81
O/ 11
17/235
1.0
4.8
2.5
2.12
32/478
2/232
0.8
43.0
7.3
10.06
O/ 58
33/684
0
13
4
7.5
3439
3439
3439
8.0
0
308
49
98.1
494O
4940
4940
0.0
0
34
3
10.2
3439
494*
4190
1061.4
0
308
20
62.0
0.0
0.5
O.I
0.26
54.5
54.5
54.5
0.08
0.0
1.7
0.3
0.57
C4.8
64.8
64.8
0.00
0.0
3.4
8.8
0.1P
54.5
64.8
59.6
7.27
0.0
1.7
O.I
0.37
-------�
Ul
NJ
CMLA
TUPB SECCMI
PARTIAL OE»TH VALUES
TEMP TOTALP ORTHOP N02N03
NH3
KJEL AH
CONC
PERC
R
•)
U 1
N
0
R
0
U I
N
0
p
0
U 2
N
0
R
0
U 2
H
0
P
0
U 1
N
0
R
0
U 3
H
o
R
0 •
U L
N L
o
0
0 1
U L
N L
Q
0
c
c
H
0
N
O
c
c
o
c
c
N
0
N
1
c
c
a
c
c
N
n
N
O
c
c
o
c
c
fll
o
N
0
c
c
Him
•AX
•EAN
STOV
M
g/«R
NIK
MAX
• EAN
STDV
N
0/MR
HIN
• AX
MEAN
STOV
N
0/UR
HIN
MAX
M?AN
STOV
»
0/WR
HIM
•AX
MEAN
STOV
N
C/HH
HIN
•AX
MEAN
STOV
N
0/UR
NIN
MAX
MEAN
STOV
N
0/MR
MIN
MAX
MEAN
STOV
N
0/MR
4.5
4.5
4.5
0.30
65/178
I/ *
0.3
355.6
21.0
41. *7
O/ 0
2*6/2*7
1.4
595.0
34.4
62.58
O/ 0
247/2*7
46.2
46.2
46.2
0.73
211/ 35
I/ I
o.e
241.4
23. 1
34.30
3/ 0
246/247
4.5
46.2
25.3
24.49
135/108
2/448
0.3
545.3
26.2
47.48
Of 0
734/741
SB
58
58
0.0
38/146
I/ 3
6
100
71
20.6
Of 0
186/187
4
121
72
24.0
3/ 0
237/237
23
23
23
0.0
12/208
I/ I
1
100
74
22.9
3/ 0
220/221
23
58
41
24.7
33/505
2/107
1
121
72
22.7
O/ O
643/6*5
10
10
10
3.0
15/230
I/ 4
2
252
44
36.2
at o
2*8/2*9
1
222
44
35.8
O/ 0
241/241
12
12
12
3.0
7/233
I/ 6
6
185
51
35.0
9/ 3
245/ 246
13
12
11
1.4
30/681
Zf 25
1
252
48
35.7
Of 0
734/736
7.5
7.5
7.5
0.00
59/177
If 13
5.3
10.6
7.9
0.73
Of 0
2*8/244
4.1
10.6
7.8
0.89
Of 0
247/247
8.4
8.4
8.4
0.00
199/ 37
If 1
4.7
19.3
7.6
0.84
Of 0
244/245
7.5
8.4
7.9
0.64
245/127
2/364
4.1
10.6
7.8
0.83
O/ 0
734/741
9.5
9.5
9.5
0.33
142/ 93
It 10
0.7
19.2
4.0
2.02
01 0
2*4/2*5
3.0
17.8
7.0
1.48
O/ 3
246/2*6
9.5
9.5
9.5
0.00
224/ 14
I/ 3
1.6
13.5
7.3
1.61
Ot 0
240/241
9.5
9.5
9.5
0.00
593/125
2/ 14
0.7
19.2
7.8
2.07
Of 0
730/732
13.3
13.3
13.3
0.03
69/177
If 2
6.8
28.9
17.5
5.60
Ot 0
247/2*8
17.3
32.2
26.6
2.35
Of 0
246/246
12.6
12.6
12.6
0.00
1/2*4
If I
9.O
29.6
20.5
3.21
Of 0
245/2*6
12.6
13.3
12.9
0.49
48/667
11 25
6.8
32.2
21.5
5.48
Of 0
738/7*0
0.101
0.101
0.100
3.03OO
175/ 73
I/ 1
0.004
1.719
0.123
0.2319
01 0
248/249
0.004
2.559
0.134
0.2811
O/ 0
247/247
0.369
0.369
0.364
O.OOOO
227/ 18
I/ 1
0.004
4.549
0.154
0.4097
O/ 0
245/246
0.101
0.369
0.235
0.1845
53S/ 55
2/152
0.004
4.544
0.137
0.3160
Ot 0
740/742
0.023
0.023
0.023
0.0003
159/ 88
I/ 2
0.001
1.209
0.057
0.1646
Ot 0
2*8/249
0.001
1.191
0.053
0.1479
Of 0
247/247
0.105
0.105
0.104
0.0000
221/ 23
I/ 1
0.001
2.034
O.070
0.2042
O/ 0
244/245
0.023
0.105
3.063
0.0574
489/ 65
2/187
0.001
2.009
0.060
0.1755
Ot 0
739/741
0.532
0.532
O.531
0.3000
154/ 88
If 2
0.024
4.745
0.871
1.4782
Of 0
2*8/244
0.025
6.857
0.493
0.8836
Of 0
2*7/247
0.909
0.909
0.908
0.0000
2I4/ 30
It 2
0.017
4.469
0.339
0.5476
Of 0
245/246
0.532
0.909
0.720
0.2665
549/125
2/ 68
0.017
9.745
0.569
1.0674
Ot 0
7*0/742
0.188
0.188
0.187
0.0030
222/ 26
It I
0.022
0.635
0.106
0.0954
Ot 0
248/2*9
0.034
0.719
O.120
0.0878
Of 0
247/247
0.071
0.071
0.070
0.0000
120/123
If 3
0.020
3.024
0.122
0.2236
Ot 0
245/246
0.071
0.188
0.129
0.0827
290/ 93
2/354
0.020
3.024
0.116
0.1484
Of 0
7*0/742
0.415
0.415
0.414
0.0000
76/171
I/ 2
0.199
4.699
0.797
0.6985
O/ 0
248/249
0.215
7.149
1.217
1.0778
O/ 0
247/247
1.974
1.974
1.973
0.0000
216/ 29
I/ 1
0.199
8.194
1.115
1.0580
O/ 0
245/246
0.415
1.97*
1.194
1.1023
157/ 84
2/501
0.199
8.149
1.042
0.9754
O/ 0
740/7*2
12
12
12
0.0
41/149
I/ 9
10
248
70
67.4
Of 0
248/249
10
334
73
68.9
Of 0
247/247
237
237
237
O.O
240/ 5
I/ 1
10
291
72
63.3
Of 0
245/246
12
237
125
159.1
93/ 19
2/630
10
334
72
66.5
Of O
740/7*2
7.0
7.O
7.O
0.00
100/133
I/ 16
0.0
142.0
18.7
25.18
Of O
248/249
0.0
210.0
14.1
23.76
O/ O
247/247
3.0
3.0
3.0
0.00
68/153
I/ 25
0.0
90.0
9.6
14.90
O/ 0
245/246
3.0
7.0
5.0
2.83
146/325
2/271
0.0
210.0
14.1
22.06
O/ 0
740/742
0
0
0
O.O
0
0
0
0.0
0
0
0
O.O
0
0
0
O.O
0
0
0
0.0
0
0
o
O.O
0
0
0
O.O
0.0
0.0
O.O
O.O?
O.O
0.0
O.O
o.oo
O.O
0.3
O.O
0.00
0.3
O.O
0.0
o.oo
0.9
0.0
0.0
3.33
0.0
O.O
0.0
0*00
O.P
O.O
O.O
0.33
-------�
U)
GCNUS:C*ION*IS
R
0 0
u i a
N M
0
11 N
0 O
U 1 N
N 0
D 0
M
R
a o
U 2 O
M M
0
R N
0 0
U 2 N
N 0
0 0
H
•
0 0
u 3 a
N M
0
II N
0 0
U 1 N
M O
D O
M
«
0*0
U L 0
HIM
O
R N
0*0
U 1 N
N L 0
D 0
H
MIN
NtX
MEAN
STOV
N
0/VR
HIM
MAX
MEAN
STOV
N
a/MR
KIN
KAX
*E*N
STOV
H
O/MR
MIN
MAX
HEAN
STOV
N
0/HR
NIN
MAX
HEAN
STOW
N
O/M
KIN
MAX
MEAN
STDV
N
O/MR
1*1 N
MAX
HEAN
STDV
N
0/HR
CHLA
4.5
4.9
4.9
0.00
6S/IT8
I/ *
**. Z
46.2
4*. 2
0.00
21 1/ 39
U 1
4.9
46.2
29.3
29.49
11 V 108
2/498
TUB 9
98
58
it
0.0
18/146
I/ 3
21
23
23
0.9
12/208
I/ I
23
98
41
24. T
33/309
2/101
SECCHI
l«
10
10
0.0
IS/230
I/ 4
12
12
12
0.0
7/133
I/ 6
10
12
11
1.4
JO/681
2/ 23
PH
T.S
7.3
T.S
0.00
S9/1T7
I/ 13
8.*
8.4
8.4
0.00
H9/ 37
I/ 9
7.9
8.4
7.9
8.64
243/127
2/369
00
9.3
9.3
9.3
0.00
142/ 93
I/ 18
9.3
9.3
9.9
O.JO
224/ 14
I/ 3
9.3
9.3
9.9
8.0«
393/123
2/1*
TEMP
13.3
13.3
13.3
0.00
69/177
I/ 2
12.6
12.6
12.6
0.00
1/244
I/ 1
12.6
13.3
12.4
8.49
48/667
2/ 23
PARTIAL DEPTH VALUES
TOTALP
0.101
0.101
8.188
0.0000
ITS/ 73
I/ 1
9.369
0.369
0.369
0. 0000
22 T/ 18
11 1
8.191
0.369
0.219
8. 1899
33 S/ 39
I/1S2
ORTHOP N02N03
0.023 0.332
0.923 0.932
8.823 8.931
0.0900 0.0000
199/ 88 19«/ 88
1/2 1/2
0.103 9.939
9.109 0.909
0.104 0.908
0.0003 3.3303
221/ 23 214/ 30
I/ 1 1/2
«.823 0.332
9.109 0.909
9.043 0.720
8.0379 0.2*69
48«/ 69 949/129
2/187 2/ 68
NH3
0. 188
0.188
8.187
O.OOOO
222/ 26
I/ 1
0.071
0.071
0.070
9.0009
120/123
I/ 3
8.871
0.188
0.129
9.8827
290/ 93
2/339
KJEl
0.413
0.413
8.414
0.0000
76/171
I/ I
1.174
1.974
1.973
0.0000
2167 29
I/ I
8.413
1.974
1.194
1.1021
137/ 84
2/301
ALK N/P
12 7.0
12 7. a
12 7.8
3.0 3.00
41/199 10O/133
11 9 I/ 16
237 3.0 •
237 3.8
237 3.0
0.0 O.OO
240/ 3 68/133
I/ 1 I/ 29
12 3.0
23T 7.0
125 5.0
199.1 2. 81
93/ 19 14*7329
2/638 2/271
CONC PERC
0 0.0
0 0.0
8 8.8
0.3 0.30
0 O.O
8 9.0
a o.o
0.0 0.00
a 8.0
0 0.0
0 0.0
O.O 0.00
-------�
GFNUS:CAPA*TOCRANNA
CHLA
TURB SECCHI
00
TEMP
PARTIAL DEPTH VALUES
TOTALP ORTMOP N02NQ3
NM3
KJEL ALN
N/P
CONC
PERC
R
0 0
U I C
N C
0
ft 14
a a
U 1 N
N o
o c
c
•
C 0
U 2 C
N C
D
R N
0 0
U 2 1
N O
0 C
C
D
O 0
u s c
N C
0
R N
0 0
U 3 N
N 0
0 C
c
R
0*0
U L C
N L C
0
v N
0 » 0
U L N
N L 0
0 C
C
KIN
• M
MEAN
STOV
N
0/UR
HIM
MAX
MEAN
STDV
H
0/NR
KIN
DM
NEAN
siev
N
O/M*
KIN
NAX
MEAN
STOV
N
0/K1
MIX
MM
MEAN
STOV
N
e/uq
H|N
MAX
MEAN
STOV
N
p/wn
NIN
MM
MEAN
STDV
N
e/uo
Ml N
"•X
NEAt
STDV
N
0/K*
0.3
MS. 6
21.0
41. *0
O/ 0
247/247
1.*
595.0
34.4
62.98
9/ 9
24T/247
IB. I
IB. 1
IB.l
0.00
1(>6/ 70
I/ 3
0.8
241.4
23.2
34.33
O/ 0
246/247
IB. 1
18.1
18.1
0.00
501/229
I/ *
0.3
J95.0
26.2
47.96
O/ 0
T40/74I
6
100
71
20. *
•31 0
187/167
4
121
72
24.0
3/ 0
237/237
76
T6
76
0.0
77/142
U 2
I
100
74
23.1
O/ 0
220/221
76
76
76
0.0
258/373
I/ 14
1
121
72
22.8
O/ 0
644/64$
2
252
44
36.2
O/ 0
249/249
1
222
49
35.8
O/ O
241/241
35
35
35
o.o
8 9/ 152
I/ 6
6
185
5O
35.0
Of 0
24S/ 246
35
35
35
0.0
323/398
t/ IS
1
2S2
48
35.7
O/ 0
735/736
5.3
10.6
7.9
0.73
O/ 0
249/249
4.1
10.6
7.8
0.89
O/ 0
247/247
6.8
6.8
6.8
0.00
39/189
I/ 17
4.7
10.3
7.6
0.84
O/ 3
244/245
6.8
t. a
6.8
0.00
80/611
I/ 30
4.1
10.6
7.8
0.83
O/ 0
740/741
0.7
19.2
9.0
2.02
3/ 0
245/245
3.0
17. a
7.0
1.99
O/ 0
246/246
5.7
5.7
5.7
0.00
29/207
I/ 5
1.6
13.5
7.3
1.61
O/ 0
240/241
5.7
5.7
5.T
0.00
92/627
I/ 13
0.7
19.2
7.8
2.07
Of 0
731/732
6.B
26.9
17.5
5.59
O/ 0
248/248
17.3
32.2
26.6
2.35
O/ 0
246/246
23.6
Z3.6
23.6
0.00
203/ 42
I/ 1
9.0
29.6
20.4
3.25
O/ 0
245/246
23.6
23.6
23.6
0.00
41 1/326
I/ 3
6.8
32.2
21.5
s.so
O/ 0
739/740
0.004
1.719
0.123
0.2314
O/ 0
249/249
O.O04
2. 559
0.134
0.2811
O/ 0
247/247
O.O52
0.052
0.052
0.0000
107/132
I/ 7
0.004
4.549
0.154
0.4099
O/ 0
245/246
0.052
0.052
0.052
0.0000
354/377
1/11
0.004
4.S49
0.137
0.3159
O/ 0
741/742
0.001
1.209
O.OS7
O.I642
O/ 0
249/249
0.001
1.191
0.053
0.1479
Of 0
247/247
O.014
O.014
0.013
0 .0000
117/120
I/ 8
O.OO1
2.009
0.070
0.2092
O/ 0
244/245
O.OI4
0.014
0.013
0.0000
345/326
I/ 20
O. 001
2.009
0.060
0.1754
O/ 0
740/741
0.024
9.74i
0.870
1.4754
O/ 0
249/249
0.025
6.857
0.493
0.8836
Of 0
247/247
0.047
0.047
0.046
0.0000
65/179
I/ 2
0.017
4.469
0.343
0.5485
O/ 0
245/246
0.047
0.047
0.046
0.0000
92/647
I/ 3
0.017
9.745
0.570
1.9666
O/ 0
741/742
0.022
0.63S
0.107
0.0953
Of 0
249/ 249
O.034
0.719
0.120
O.O878
O/ 0
247/247
0.169
O.IA9
0.168
0.0000
207/ 37
I/ 2
0.02O
3.024
0.122
0.2236
O/ 0
245/246
O. 169
0.169
O. 168
0.0000
624/113
I/ S
0.020
3.024
0.116
0.1488
O/ O
741/742
0.199
4.699
0.796
0.6975
Of 0
249/249
0.211
7.149
1.217
1.0778
Of 0
247/247
0.865
0.865
0.865
0.0000
131/114
I/ I
0.199
8.199
1.119
1.0593
O/ 0
245/246
0.865
0.865
0.865
O.OOOO
428/312
I/ 2
0.199
8. 199
1.043
0.9756
O/ 0
741/742
10
248
70
67.3
Of 0
249/249
10
334
73
*8.9
Of 0
247/247
32
32
32
0.0
91/153
I/ 2
10
291
73
64.1
Of 0
245/246
32
32
32
0.0
289/446
I/ 7
10
334
72
66.7
O/ 0
741/742
0.0
142.0
18.6
25.14
O/ 0
249/249
0.0
210.0
14. 1
23.76
O/ 0
247/247
6.0
6.0
6.0
0.00
136/ 97
I/ 13
0.0
90.0
4.6
14.90
O/ 0
245/246
6.0
6.0
6.0
0.00
327/376
I/ 39
0.0
210.0
14.1
22.05
O/ 0
741/742
0
0
0
0.0
0
0
0
o.o
0
0
o
O.O
0
0
o
o.o
0
o
0
o.o
a
0
0
0.3
0.0
0.0
0.0
o.oo
0.0
0.0
0.0
a. oo
o.o
o.o
0.3
O.OO
0.0
0.0
0.0
0.00
0.0
0.0
o.o
0.00
0.0
0.0
0.0
0.30
-------�
GENUSlCAPARTOGRAUM*
em*
SECCHI
oo
PARTIAL DEPTH VALUES
75MP TOTAL? ORTHOP N02N03
HM3
KJEL ALK
N/P
CONC
L/I
l/l
R
0 0
U 1 0
N X
0
» N
0 0
U 1 N
N 0
0 0
N
R
0 0
U 2 0
N M
0
II N
0 0
U 2 N
N 0
0 0
4
»
O 0
U 3 0
N "
O
• N
C 0
U 3 N
N 0
o a
*
•
0*0
U L 0
N L N
0
ft N
0*0
U L 4
N L 0
0 0
N
MIN
MAX
MEAN
STOV
»
0/UB
HIM
MAX
MEAN
STOV
N
o/tiR
HIM
MAX
MEAN
STOV
N
0/114
MIN
MAX
MEAN
STOV
N
C/MR
MIN
MX
MEAN
STOV
N
O/KK
MIN 18.1 T6 31 6.6 ».T 23.6 0.091 0.01* 0.0*T 0.169 0. 065 12 6.0
M*X 10.1 T* 3» «.• 5.7 23.6 O.»i 0.01* 0.0*7 0.169 0.«65 U *.O
MEAN 18.1 T» 3» «.t 9.1 23.6 O.OSZ 4.013 0.0*6 0.160 0.«6» 12 *.0
STOV 0.00 0.0 0.0 0.00 0.00 0.00 0.0000 0.0000 0.0000 0.0000 0.0030 0.0 3.00
N 166/ T« 7T/l*2 60/152 3«/10« I9f20l tOit *2 107/132 117/120 65/179 207/ 37 131/11* 91/1*3 13*/ 97
0/MR 1/3 1/2 1/6 I/ IT 1/5 I/ 1 1/7 1/8 1/2 1/2 I/ 1 1/2 I/ 13
MIN
MX
MEAN
STOV
N
G/NR
.|N 1B.1 76 33 6.8 5.7 23.6 0.032 0.01* 0.0*7 0.169 0.665 32 6.0
MAX 18.1 76 35 6.8 9.7 23.6 0.052 0.014 0.047 0.169 0.669 32 6.0
MEAN Iflll 76 35 6.8 5.7 23.6 0.032 0.013 0.0*6 0.166 O.M5 32 A.O
STOV 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
3 90B/2M 258/371 1Z3/398 60/631 «2/627 611/326 354/377 393/326 92/6*7 624/113 426/312 209/4*6 327/376
0/MR I/ * I/ I* It 13 I/ 30 I/ 11 I/ 3 I/ 11 U 20 1/3 1/3 1/2 1/7 I/ 39
0 0.0
0 0.0
a a.o
o.o o.oo
0 0.0
0 0.0
0 0.0
0.0 0.30
-------�
GENUS :C»BTE!IU
\s>
CHll
TU«P SFCCHI
DO
P«RT|1L DEPTH VALUES
TEMP TOTALP OUTHOP MOZM03
NMJ
KJEL
N/P
CONC
B
0 1
U I C
N C
0
• N
0 0
U 1 N
N 0
0 C
C
0
0 O
U 2 C
N '.
0
• If
c e
U 2 N
N "
0 '.
c
g
0 0
U 1 C
•1 c
9
• 1
n ™
U 3 1
N ?
0 C
r
s
P 4 ?
U L C
«» i e
0
a s
C « ?
U L N
N L 0
D C
C
"!N
»»»
«*N
STCV
N
0/m
• IN
«M
«E«N
STOV
N
a/M«
•TB
• •I
"f«H
c/»»
•US
»««
"S»N
STTV
N
C/MR
• IN
»4X
«€«N
S'CV
N
C/*»
»T«i
»»X
«E»f
«Tny
N
C/ii*
"IV
»«
• ?tN
STOW
•!
C/KR
"IN
»*X
• 5»1
STOV
N
r/wn
2-3
1*6.8
29.8
43.32
2l/ 6
10/220
0.1
355.6
20.6
41.36
3t 3
237/2*7
9.4
1*7.4
65.9
48.9*
91/ »
11/14*
1.4
595.0
33.0
6Z.B5
O/ 0
236/2*7
8.0
126.8
38.4
34.21
96 / 6
18/145
0.8
241.4
22.0
34.36
O/ 0
229/247
2.3
147.4
43.9
4? .S3
4o/ ie
39/683
0.3
599.0
23. 2
48.04
Of 0
TOZ/741
64 14 6.8 3.9 14.2 0.038
00 55 0.3 19.5 28.7 1.159
7T 29 8.0 8.8 21.7 0.235
10.4 13.6 0.73 3.00 4.75 0.3S71
S6/ 25 25/ 63 9/8 6/1 96/ 2 SO/ 5
7/106 10/161 10/232 9/238 10/150 10/164
6 Z 5.3 0.7 6.8 O.OO4
100 252 10.6 19.2 28.9 1.719
70 44 7.9 9.0 17.3 0.118
20.9 36.7 0.73 1.98 9.56 0.2246
3/0 0/0 0/0 0/0 0/0 0/0
180/187 239/249 239/249 236/245 236/248 239/249
4 6 7.1 5.6 24.9 0.030
86 75 10.3 17.8 30.5 1.474
95 29 8.4 9.4 27.9 0.4T2
26.9 17.3 0.98 4.60 2.09 0.5496
O/ 78 I/ 40 48/ 1 44/ 0 *8/ 3 82/ 2
8/159 11/230 11/198 11/202 10/185 11/163
5 1 4.1 3.0 1T.3 0.004
121 222 10.6 14.2 32. 2 2.559
73 50 7.7 6.9 26.5 0.119
23.7 36.2 0.88 l.TL 2.35 0.2536
1/0 0/0 0/0 0/3 O/ O 0/0
229/236 230/241 236/247 235/243 236/246 236/247
6 8 6.9 2.8 17.3 0.033
90 72 9.9 11.4 25.3 3.084
64 30 8.1 7.5 19.9 0.392
27.7 18.7 0.71 2.13 2.40 0.7319
I/ SI 2/ 46 $6/ 2 Z/ 2 36/ 18 79/ 1
15/168 14/148 18/187 IB/237 18/192 18/166
1 6 4.7 1.6 9.0 0.004
100 185 10.3 13.5 29.6 4.549
73 52 7.6 7.3 20.5 0.136
22.6 35.5 0.83 1.57 3.30 O.3683
0/0 0/0 0/0 0/0 0/0 0/0
206/221 228/246 227/245 223/241 228/246 228/246
4 6 6.8 2.8 14.2 0.030
90 71 10.3 17.8 30. 5 3.064
65 29 8.2 8.4 22.5 0.375
25.1 16.7 0.79 3.Z5 4.51 O.3978
2/128 5/124 »0/ 24/1 101/ 3 222/ 1
30/913 39/607 39/659 38/727 38/636 39/519
1 1 4.1 0.7 6.8 0.004
121 252 1O.6 19.2 32.2 4.549
73 49 7.7 7.7 21.4 0.124
22.6 36.2 0.82 1.98 5.34 0.2873
O/ 0 0/0 0/0 O/ 0 O/ O 0/0
615/643 697/736 702/741 694/73Z 702/740 703/742
0.005
0.851
0.114
0.2611
53/ 4
10/192
O.OO1
1.209
0.035
0.1593
Of 0
239/249
O.OO7
0.969
0.2S8
0.3518
79/ 1
11/167
0. 001
1.191
O.O44
O.1248
Of 0
236/247
0.004
Z.OO9
0.206
0.4938
8/ 0
18/237
0.031
1.Z55
O.O59
0.164T
O/ L
227/244
0.004
2.039
0.197
0.4010
69/ 9
39/672
0.031
1.253
0. OS2
0.1904
a/ i
702/740
0.061
0.709
0.327
0.2300
ZO/ 73
10/136
0.024
9.743
0.892
1.5012
Of 0
239/249
0.033
4.099
0.932
1.2975
27/ 3
11/217
O.O25
6.857
0.473
3. 8581
Of O
236/Z47
0.040
1.Z23
0.424
0.4211
52/ 18
18/176
0.017
4.469
0.333
3.5567
Of 0
228/246
0.040
4.399
0.543
0.7710
7Z/ 16
39/654
0.017
9.745
0.571
1.0803
O/ 0
70 1/ 74 Z
0.047
0.524
0.139
0.1426
40 / 3
10/206
0.022
0.639
0.105
0.0930
Of 0
239/249
0.059
0.719
0. 16S
0.1906
3B/ 0
11/2O9
0.034
0.365
0.117
0.0801
Of 1
236/246
0.035
3.024
0.337
0.7129
5/ 0
18/241
0.020
0.979
0.105
0.1083
Of 1
228/245
0.035
3.024
0.238
0.5006
22/ a
39/720
0.020
0.979
0.109
0.0944
O/ 1
703/741
0. 348
3.000
1.101
1.0341
4S/ 4
10/200
O.I 99
4.699
0.783
0.6800
Of 0
239/249
0.349
3.699
1.825
1.1091
17/ 8
11/222
0.215
7. 149
1.188
1.0703
Of 0
236/247
0.349
S. 199,
Z. 176
2.0509
36/ 0
18/210
0.199
A.OOO
1.033
0.8921
Of 1
2Z8/243
0.348
0.199
1.801
1.6Z89
IS/ 0
39/644
0.199
T. 149
1.001
0.9088
Of I
703/741
12
94
55
31.0
41/ 70
10/138
10
248
71
68.4
Of 0
239/249
21
240
85
66.5
63/ 9
11/175
10
334
73
69.1
O/ O
236/247
34
222
98
46.«
95/ 6
18/145
10
291
71
44.9
O/ 0
228/246
1Z
Z40
83
$1.9
93/ 13
34/634
10
334
71
67.4
O/ 0
733/74Z
0.0
24.0
6.9
7.84
Of 35
10/194
0.0
142. 0
19.1
25.50
01 0
239/249
0.0
41.0
9.8
15.17
Of 21
11/226
0.0
Z10.0
14.3
24.09
Of 0
236/247
0.0
19.0
5.7
3.57
Of 22
18/224
0.0
90.0
9.9
15.33
Of 0
228/246
0.0
41.0
T.Z
9.60
Of 66
39/676
0.0
210.0
14.5
2Z.47
Of 0
703/742
0
684
127
220.2
0
0
0
0.0
0
4362
553
1331.7
0
0
O
0.0
0
439
52
107.9
3
0
0
0.0
0
4362
Z12
728.9
0
0
0
O.O
0.0
3.7
0.9
1.46
O.O
0.0
0.0
3.03
0.0
16. I
3.0
6.09
0.0
0.0
0.0
0.00
0.0
2.9
0.4
0.83
0.3
0.0
0.0
0.03
0.0
16.1
1.3
3.44
0.0
0.0
0.0
0.00
-------�
GENUS:CARTER It
CNLA
TURB SECCH]
PH
DO
TEKP
PARTIAL DEPTH VALUES
TOTALP CRTHOP N02N03
NM3
KJEL ALK
N/P
CONC PER.C
L/i
•
C 0
U 1 0
N H
0
R N
0 O
U 1 N
N 0
o a
N
•
0 0
V I 0
N
C/MR
HIN
MAX
HEAN
STOV
N
0/MR
HIN
MAX
MEAN
STOV
N
D/MR
HIM
MAX
HEAN
STOV
N
0/MR
MIN
MAX
MVAN
STOV
N
0/MR
"It
MAX
MEAN
STDV
N
0/MR
H!N
HAX
HEAN
STOV
N
a/uR
MIN
*AX
MEAN
STOV
N
0/M«
2.3
1*6.8
29.8
43.52
21/ 6
10/220
29.*
59. T
**.5
21.43
1T6/ 37
2/ 3*
9.*
1*7.4
70.6
52.90
tit 8
9/14.8
8.0
126.8
36.*
14.21
96/ 6
18/1*5
29.*
59.7
**.»
21.*3
!7*/ 76
2/ 91
2.3
1*7.*
*3.9
*3.5S
*0/ 18
37/683
6*
90
77
10.4
56/ 2S
7/196
33
*8
*1
1O.6
25/194
2/ 18
*
86
60
29.6
O/ 78
6/199
6
90
6*
27.7
2/ SI
15/168
33
*e
41
10.6
60/5*3
2/ *0
4
90
66
15.0
2/128
28/519
14
55
29
13.6
2S/ 63
10/161
28
3*
31
4.2
70/138
21 33
6
75
29
19.3
If 40
9/200
8
72
30
18.7
2/ 46
18/198
28
3*
SI
6.2
234/413
If 89
6
75
2«
17.2
5/124
37/607
6.8
9.3
8.0
0.73
9/ B
10/232
7.5
8.3
7.8
0.35
BO/ 96
2/ 71
7.1
10.3
8.5
1.03
48/ 1
9/19B
6.9
9.9
8.1
0.71
56/ 2
18/187
7.5
8.0
7.B
O.35
2*5/278
2/21B
6.8
1X3
8.2
O.BO
• O/ 2
37/659
3.9
15.5
8.8
3.00
6/ I
9/238
5.6
5.7
5.6
O.07
**/18S
It 1*
6.0
17.8
10.3
4.69
67/ 0
9/179
2.8
11.4
7.5
2.13
2/ 2
18/237
5.6
5.7
5.6
0.07
81/627
2/ 2*
2.8
17.8
8.5
3.27
*/ 1
36/727
14.2 O.O38
28.7 1.199
21.7 0.235
4.75 0.3571
96/ 2 80/ 5
10/150 10/16*
28.2 0.064
28.8 0.955
2B.3 0.504
0.42 0.6300
166/ 54 144/ 7
2/ 26 2/ 96
24.9 X030
30.5 l.*74
27.7 0.44*
2.3* O.5723
S8/ 3 82/ 2
8/18S 9/163
17.3 0.033
25.3 1.08*
19.9 0.392
2.40 0.7319
36/ 18 79/ 1
18/192 IB/166
28.2 0.06*
28.8 0.955
28.5 0.509
0.*2 0.6300
695/ 57 41 »/ 21
If 2B 2/396
14.2 0.030
39.5 3.36*
22.1 0.367
*.*0 O.«0*2
101/ 3 22 2/ 1
36/636 37/519
0.005
0.851
3.114
0.2611
53/ 4
10/192
0.017
0.594
0.305
0.4080
159/ 4
2/ 8*
0.007
0.969
0.2*8
0.3651
79/ 1
9/167
0,004
2.009
0.206
0.4938
B/ 0
18/237
0.017
a. 59*
0.395
0.4080
*39/ 19
2/283
0.00*
2.039
0.191
0.4055
69/ 0
37/672
0.061
0.709
3.327
0.2300
20/ 73
10/156
0.104
0.165
0.13*
0.0*31
87/11*
2/ *6
0.053
*.09f
1.199
1.3819
27/ 3
9/217
0.040
1.225
0.42*
0.4211
52/ IB
IB/176
0.10*
0.165
0.13*
0.0*31
256/383
2/103
0.0*0
4.099
0.365
0.7880
72/ 16
37/65*
0.047
0.52*
3.139
0.1*26
*0/ 3
10/206
0.099
0.10*
0.101
0.0035
130/107
2/ 10
0.059
0.719
0.179
0.2101
3«/ 0
9/209
0.035
3.02*
0.337
0.7129
5/ 0
18/2*1
0.099
0.104
0.131
0.0035
*62/253
2/ 27
0.03S
3.02*
0.2*5
0.5132
22/ 0
37/720
0.3*8
3.000
1.101
1.03*1
*»/ *
10/20D
l.*2B
1.599
1.513
0.1209
181/ 97
2/ 9
0.3*9
3.699
1.894
1.2273
17/ 8
9/222
0.349
8.199
2.176
2.O535
36/ 0
18/210
l.*28
1.599
1.513
0.1209
589/127
2/ 26
0.348
t.199
1.817
1.6720
98/ 0
37/64*
12
9*
55
31.0
*!/ 70
10/138
73
130
102
*0.3
156/ *5
11 46
21
2*0
• 1
72.*
63/ 9
9/175
34
222
98
46.8
95/ 6
IB/145
73
130
132
40.3
465/152
2/125
12
243
82
52.7
93/ 15
37/634
0.0
24.0
6.9
7.8*
O/ 59
10/194
0.0
5.0
2.5
3.5*
0/1*1
2/106
0.0
41.0
11.4
16. *2
O/ 21
9/226
0.0
19.0
5.7
5.57
O/ 22
IB/22*
0.9
5.0
2.5
3.5*
O/« 15
2/327
O.O
*1.3
T.*
9.T8
O/ 66
37/676
0
684
127
220.2
1*28
4362
2899
207*. 7
0
176
S3
59.9
0
430
52
197.9
1*28
4362
2*9 S
2076.7
0
68*
67
1*0.7
0.0
3.7
0.9
1.46
14.5
16.1
15.3
1.13
0.0
1.3
0.3
0.4«
0.0
2.5
0.4
9.83
14.5
16.1
15.3
1.13
0.0
3.7
O.f
C.99
-------�
oo
GENUS-.CENTRIC DIATOM
CHI A
TURB SECCHI
oo
PARTIAL DEPTH VALUES
TOTALP ORTMOP N02NO3
NM3
KJEL
CONC
PERC
p
p
U 1
N
D
p
0
U 1
N
o
R
p
U 2
N
o
p
o
U 2
•I
g
p
o
U 3
N
Q
o
U 3
H
p
C A
U I
N L
p
C A
N L
0
c
M
9
0
r.
r
i)
c
C
N
0
o
r
~
f
c
^
N
0
r
C
o
c
c
II
1)
^
_
c
M 11
MAX
MEAN
STOV
0/HR
MIN
MAX
MEAN
STDV
0/MR
H IN
MAX
MEAN
STOV
O/HR
MIN
MAX
MEAN
STOV
0/rf*
MIN
MAX
MEAN
STCV
r/'«
H |N
MAX
MEAN
STPV
p/uq
MIN
MAX
MEAN
STPV
C/UR
M IN
MAX
MEAN
STDV
P/WR
1.5
100.1
14.5
17.98
8/10
41/229
0. 3
355.6
22.2
44.54
01 0
2O6/247
1.5
258.7
34.4
49.38
I/ 3
51/243
1.4
595.0
34.4
65.69
O/ 0
196/247
I.I
78.5
20.0
19.89
2/11
69/23*
0. 8
241.4
24.4
38.40
Of 0
178/247
1.1
258.7
23.2
32.78
9/ 4
161/728
0.3
595.0
27.0
51.34
O/ 0
580/741
19
100
73
19.7
4/ 0
33/183
6
98
70
20.8
O/ 2
154/185
J
95
71
20.9
1/10
49/226
4
121
72
24.8
O/ 0
188/237
1 7
97
75
22.9
7/ 2
62/212
1
100
74
23.2
O/ 0
159/221
5
100
73
21.4
3/ 3
144/6)9
1
121
72
23.1
O/ 0
501/645
2
252
45
41.8
O/ 0
41/249
3
185
43
35.1
If I
208/247
10
222
50
43.0
I2/ 0
49/229
1
216
49
33.8
Of 1
192/243
1O
185
49
35.0
3/ 0
69/243
6
169
51
35.0
O/ 1
177/245
2
252
48
39.2
I/ 0
159/735
1
216
47
34.7
O/ 2
577/7J4
6.6
10.1
7.8
0.75
4/ 1
41/244
5.3
10.6
7.9
0.72
Of O
208/249
6.2
10.6
7.9
0.89
If O
SI/240
4.1
10.3
7.7
0.89
O/ 1
196/246
6.3
9.9
7.7
0.79
8/ 2
69/235
4.7
10.3
7.6
0.85
Of 0
176/245
6.2
10.6
7.8
0.82
16/ 0
161/725
4.1
10.6
7.7
0.83
Of 0
580/741
5.3
12.1
8.7
1.72
ll/ 8
41/226
0.7
19.2
9.0
2.08
Of O
204/245
3.1
14.2
7.1
2.12
If 3
51/242
3.0
17.8
7.3
1.95
Of 0
195/246
4.5
10.1
7.4
1.15
9/ 1O
68/222
1.6
13.5
7.3
1.76
Of 0
173/241
3.1
14.2
7.7
1.77
7/ 5
160/720
0.7
19.2
7.8
2.15
Of 3
572/732
9.2
27.2
18.5
5.25
4/11
41/233
6.8
28.9
17.3
5.65
Of O
237/248
20.1
29.9
26.9
2.25
It 10
51/235
17.3
32.2
26.5
2.37
Of 0
195/246
12.6
26.8
20.8
3.96
If 6
69/239
9.0
29.6
23.3
3.31
Of 0
177/246
9.2
29.9
22.2
4.88
5/ 10
161/725
6.8
32.2
21.3
5.64
Of 3
579/740
0.008
1.184
0.124
0.2164
8/ 4
41/237
0.004
1.719
0.122
0.2348
Of O
208/249
0.004
1.109
0.103
0.1802
Of 5
51/242
O.004
2.559
0.143
0.3O18
O/ 0
196/247
0.004
0.921
0.123
0.1883
Of 7
69/239
0.006
4.549
0.167
0.4677
2t 0
177/244
0.004
1.184
0.117
0.1924
Of 14
161/728
0.004
4.549
0.143
0.3420
Of i
581/742
0.002
1.032
0.069
0.1900
10/ 3
41/236
0.001
1.209
0.054
0.1591
Of 0
208/249
0.001
0.969
0.044
0.1418
Of 1
51/246
0.001
1.191
0.056
0.1497
Of 0
196/247
0.003
0.784
0.057
0.1318
2/ 5
68/238
0.001
2.009
0.075
0.2318
O/ 3
177/245
0.001
1.032
0.056
3.1510
Of 8
160/733
0.001
2.039
0.061
0.1815
3f 0
581/741
0.025
6.425
0.902
1.4697
If 5
41/243
0.024
9.745
0.863
1.4800
Of O
208/249
0.029
6.857
0.486
1.1265
4/ O
51/243
0.025
4.295
0.495
0.8122
Of 1
196/246
0.020
1.564
0.211
0.2947
2/ 11
69/233
0.017
4.469
0.393
0.6122
Of 0
177/246
0.020
6.857
0.474
1.3248
2/ »
161/735
0.017
9.745
0.596
1.0765
3/ 0
581/742
0.032
0.299
O.094
O.OS79
5/13
41/231
0.022
0.635
O.109
0.1010
Of 0
208/249
0.034
0.297
0.105
O.O552
Of 10
51/237
0.036
0.719
3.123
0.0942
If 0
196/246
O.034
0.373
0.087
0.0623
4/ 10
69/232
0.020
3.024
0.136
0.2591
Of 0
177/246
0.032
0.373
0.094
3.0591
7/ 24
161/711
0.020
3.024
0.122
0.1647
Of 0
581/742
0.256
1.832
0.671
0.4169
12 / 17
41/220
0. 199
4.699
0.821
0.7386
Of 0
208/249
O.226
4.299
1.180
0.9655
It 5
51/241
0.215
7.149
1.226
1.1072
Of 0
196/247
0.199
4.099
1.053
0.8290
Of 6
69/240
0.221
8.199
1.144
1.1349
4/ 0
177/242
0.199
4.299
0.996
0.8162
Of 12
161/730
0.199
8.199
1.056
1.0148
Of 0
581/742
1O
226
65
56.8
Of 4
41/245
10
248
71
69.3
Of 0
298/249
10
240
62
55.6
Of 9
51/238
10
334
76
71.8
Of 0
196/247
10
237
72
57.5
Of 5
69/241
10
291
73
66.6
Of 3
177/246
10
240
67
56.6
Of 15
161/727
10
334
73
69.3
Of 0
581/742
0.0
65.0
17.3
17.67
Of 16
41/233
0.0
142.0
18.9
26.39
Of 0
208/249
0.0
210.0
13.7
29.99
Of 0
51/247
0.0
130.0
14.2
21.95
Of 1
196/246
0.0
62.0
6.4
8.76
Of 5
69/ 24 1
0.0
90.0
10.9
16.51
Of 0
177/246
0.0
210.0
11.5
20.32
Of 0
161/742
0.0
142.0
14.8
22.45
Of 1
581/741
0
8153
444
1317.8
0
0
0
0.0
O
11605
817
2140.1
0
0
0
0.0
0
24784
1799
4448.1
0
0
0
0.0
0
24784
1143
3258.7
0
0
0
O.O
0.0
89.0
6.4
14.86
0.0
0.0
0.0
0.00
O.O
36.5
5.0
8.47
0.0
0.0
O.O
0.00
0.0
44.3
7.1
10.01
0.0
0.0
0.0
o.oo
0.0
89.0
6.3
11. OO
0.0
0.0
O.O
0.00
-------�
Ul
VO
GENUS :CENTRIC
ft
0 0
u i a
N M
D
P N
a o
U 1 N
N 0
0 0
N
•
0 0
u z o
N N
0
1 N
o a
u z N
N 0
D a
K
R
0 0
U 3 0
N N
D
R N
0 0
U 3 N
N 0
0 0
<<
R
0 A 0
u L a
NIX
0
II N
o A a
U L N
N L D
3 0
M
PIN
MAX
MEAN
STDV
N
0/MR
HIN
NAX
MEAN
STOV
N
0/MR
NIN
MAX
MEAN
STOV
N
0/MR
NIN
NAX
MEAN
STOV
N
0/MR
NtN
NAX
MEAN
STOV
N
O/M«
Ml"
MAX
MEAN
STOV
N
0/MR
NIN
NAX
MEAN
STOV
N
0/MR
NIN
MAX
MEAN
STOV
N
0/MR
DIATOM
CNLA
4.8
Z0.6
10.0
9.19
T9/ 11
•/118
1.5
100.1
13.6
19.80
•/ 10
33/229
l.S
9Z.9
30.9
33.57
I/ 2*
1/222
1.9
256.7
34.9
51.73
Z/ 3
44/Z42
l.S
T3.T
29.3
24.97
If 13
17/227
Ul
79.5
16.9
17.12
2/ 11
52/234
1.5
92.9
24.9
24.94
16/ 44
32/681
1.1
2*1.7
2Z.7
34.52
9/ 4
129/728
PARTIAL DEPTH VALUES
TURB
35
100
63
25.5
16/ 0
5/171
19
100
75
18. S
4/ 0
28/183
32
91
64
21.9
24/ 22
7/191
5
95
72
20.7
I/ 10
42/226
17
95
53
29.6
7/ 16
14/198
32
97
81
15.9
18/ 2
48/201
IT
100
58
26.5
21/ 3
26/621
5
100
77
18.6
3/ 3
118/C39
SECCHI
16
89
42
22.8
33/ 27
8/189
2
232
46
45.5
O/ 0
33/249
22
126
43
37. 0
43/ 7
7/191
10
ZZ2
31
44.2
12/ 0
42/229
10
140
35
33.1
3/ 9
17/234
14
185
54
34.7
14/ 0
32/232
10
140
38
31.0
30/ 20
32/686
2
252
51
40.7
I/ 0
127/733
PH
7.2
8.4
8.0
0.38
37/ 45
8/167
6.6
10.1
7.8
0.81
4/ 1
33/244
6.5
8.4
7.9
0.65
IB/ 45
7/154
6.2
10.6
7.9
3.93
T/ 0
44/240
6.3
8.8
7.6
0.81
B/ 12
17/225
6.4
9.9
7.7
0.79
12/ 2
52/231
6.3
8.8
7.7
0.70
22 / 49
32/670
6.2
10.6
7.8
0.83
16/ 0
129/725
00
8.5
10.7
9.4
0.76
77/ 32
8/136
5.3
12.1
8.6
1.86
III 8
33/226
5.6
8.6
7.1
1.26
44/ 29
7/173
3.1
14.2
T.I
2.24
I/ 3
44/242
5.1
9.7
7.5
1.27
18/ 11
17/212
4.5
10.1
7.4
1.12
9/ 10
51/222
S.I
10.7
7.9
1.44
ST/ 47
32/628
3.1
14.2
7.6
1.85
11 S
128/720
TEMP
12.6
22.2
16.0
3.12
47/ 63
8/138
9.2
27.2
19.1
3.52
4/11
33/233
24.3
Z9.5
26.6
1.86
39/ 20
7/187
20.1
29.9
26.9
2.32
I/ 10
44/235
12.6
26. 8
20.0
3.88
I/ 6
17/Z39
13.7
26.6
21.1
2.73
3/ 10
52/233
12.6
29.5
Z0.4
4.93
48/ 21
32/671
9.2
29.9
22. 6
4.79
S/ 10
129/723
TOTAIP
0.023
0.139
0.06S
0.0328
S3/ 64
8/135
0.008
1.164
0.139
0.2391
8/ 4
33/237
0.094
0.111
0.074
0.0397
O/ 59
7/188
0.008
1.109
0.108
0.1933
«/ S
44/236
0.008
0.909
0.207
0.2310
S/ 8
17/233
0.004
0.921
0.095
0.1S6Z
O/ 7
52/239
0.004
0.909
0.142
0. 1949
Of 24
32/718
0.004
1.184
0.111
0.1920
O/ 14
124/728
ORTHOP
0.003
3.062
0.023
0.0189
27/ 34
8/188
0.002
1.032
0.081
0.2106
IO/ 3
33/236
0.001
0.050
0.019
0.0165
O/ 38
7/209
0.092
0.969
O.O47
0.1524
3/ 1
44/243
0.003
0.784
0.092
0.2053
2/ 5
17/238
0.003
0.493
0.046
0.3959
2/ 8
51/235
0.001
0.784
3.059
0. 1524
O/ 13
52/728
0.002
1.032
0.053
0.1513
14/ 8
128/719
N02N03
0.025
5.846
1.736
1.8643
I/ 6
8/242
0.041
6.425
0.700
1.3129
6/ 5
33/238
0.02«
3.679
1.184
1.5457
4/ 5
7/238
0.031
6.837
0.373
1.0249
9/ 0
44/238
0.032
0.909
0.228
0.2801
31/ 30
17/185
0.020
1.564
0.206
0.3018
2/ 11
52/233
0.025
3.846
0.814
1.3140
13/ 7
32/722
0.020
6.857
0.390
0.9266
If S
129/735
NH3
0.038
0.09S
0.067
0.0189
19/ 83
8/147
0.032
0.299
0.100
0.0624
5/ 19
33/231
0.042
0.169
0.090
0.0429
13/ 42
7/195
0.034
0.297
0.107
0.0570
O/ 10
44/237
0.042
0.373
0.108
0.0927
20/ 10
17/216
0.034
0.242
0.080
3.0479
4/ 17
52/225
0.038
0.373
0.094
0.0718
33/ 24
3Z/685
0.032
0.299
0.094
0.0539
It 35
IZ9/700
KJEL
0.340
9.887
0.584
0.1925
44/ 66
8/137
9.256
1.832
0.692
0.4548
12/ 17
33/220
0.226
1.865
1.030
0.577*
L/ 49
7/206
0.261
4.299
1.204
1.0165
2/ 5
44/249
0.199
2.750
1.184
0.7321
O/ 17
17/229
0.204
4.099
1.010
0.8606
I/ 6
32/239
0.199
2.750
1.000
0.6426
O/ 43
32/699
0.204
4.299
0.993
0.8559
11 12
129/728
ALK
10
198
193
76.1
0/17
8/232
10
226
36
48.3
a/ 4
33/245
13
249
100
85.5
32/ 9
7/206
10
194
56
48.0
O/ 16
44/231
10
237
81
73.5
Of 5
17/241
10
197
69
53.9
Of 14
52/232
10
240
91
76.3
Of 15
32/7Z7
10
226
61
49.3
Of 23
129/719
N/P
1.0
65.0
31.3
23.77
7/ 16
8/226
0.0
49.0
13.9
14.36
O/ 23
33/226
1.0
62.0
22.4
21.59
12/ 10
7/225
0.0
210.0
12.4
31.08
Of 0
44/247
0.0
34.0
5.3
7.96
Of 16
17/230
0.0
62. O
6.8
9.35
Of 5
52/241
0.0
65. a
15.5
19.56
Of 29
92/713
0.0
210.0
ia.s
20.46
Of 0
129/742
CONC PERC
SI 10.3
8153 89.0
1744 26. 0
2708.3 26.33
0 0.0
691 9.0
128 1.6
203.3 2.04
34 10.4
11605 36. S
2914 23.4
4269.2 10.02
0 0.0
8470 7.3
484 2.1
1397.5 2.32
48 10.7
24784 44.3
6021 21.3
7553.3 10.78
9 O.O
3317 9.6
418 2.4
771.6 2.69
34 10.3
24784 89.0
4272 23. C
6194.8 13.49
0 0.0
8470 9.6
367 2.1
961.3 2.41
-------�
GfNUS:CENT«|TBACTUS
CHLA
TUR8 SfCCHt
PARTIAL DEPTH VALUES
TOT ALP ORT HOP N02N03
NH3
KJEL ALK
N/P
CONC PERC
0
0 0
U I C
N C
o
q |f
0 0
U 1 N
N 1
D C
C
H
O 0
U 2 C
N C
0
ft n
0 Q
U 2 N
N n
0 C
C
q
0 0
U 3 C
u c
t) tf
0 1
U 3 N
N 0
D f
e
Q
0 A 0
U L C
H L C
0
e N
0 A 0
U 1 N
H L 0
Of
l
C
•(IN
MAI
MEAN
STDV
0/MR
M IN
MAX
MEAN
STDV
O/UR
KIN
1AJI
STDV
0/WR
HIH
MAX
MEAN
STDV
0/Mfl
M IN
MAX
CCAN
STOV
C/U*
HIM
CAX
STOV
0/Wt
M|H
MAX
MEAN
STOV
M IN
n in
fl AX
MEAN
STOV
O/MR
7.0
7.0
7.0
0.00
118/127
I/ 2
0*3
355.6
21.0
41.47
O/ 0
246/247
8.1
8.1
6. I
0.00
77/169
If 1
1.4
595.0
14.5
Of 0
246/247
4. 6
4.8
4.8
0.00
48/197
If 2
0. 8
241.4
23.3
34.32
Of 0
246/247
4.8
8.1
6.6
1.68
147/415
3/159
0.3
595.0
2k. 3
48.01
O/ 0
738/741
99999
-99999
0
0.0
18T/ 0
Of 0
ft
100
Tl
20.6
01 0
187/187
83
83
83
0.0
128/ 99
I/ 10
*
121
72
24. O
O/ 0
236/237
95
95
95
0.0
2O1/ 16
If 4
l
100
74
23.1
Of 0
220/221
83
95
89
8.5
356/ 35
2/254
I
121
72
22.7
Of 0
643/645
33
33
J3
O. 0
12T/119
If 3
2
252
44
16.2
O/ 0
248/249
28
28
28
0.0
70/167
If 4
1
222
49
35.8
O/ 0
240/241
140
140
140
0.0
216/ 9
It I
fc
185
50
34.6
O/ 0
245/246
28
140
67
63.3
234/ 20
3/482
I
252
47
35.6
Of 0
733/736
7.7
7.7
7.7
O.OO
87/147
I/ 15
5.3
10.6
7.9
0.73
Of 0
248/249
7.4
7.4
7.4
0.00
70/167
I/ 10
4,1
10.6
7.8
0.89
O/ 0
246/247
6.7
6.7
6.7
0.00
30/206
If 1
4.7
IO. 3
7.6
O.B4
O/ 0
244/245
6.7
7.7
7.3
0.51
61/388
3/292
4.1
10.6
7.8
0.8)
O/ 0
738/741
8.0 19.7
8.0 19.7
8.0 19.7
O.OO O.OO
57/184 163/ 83
1/4 1/2
0.7 6.8
19.2 28.9
9.0 17.5
2.02 5.60
0/0 0/0
244/245 247/248
6.0 24.9
6.0 24.9
6.0 24.9
0.00 0.00
67/175 58/180
1/4 1/8
3.0 17.3
17.6 32.2
7.0 26.6
1.98 2.15
0/0 0/0
245/246 245/246
7.5 24.1
7.5 24.1
7.5 24.1
0.00 O.OO
122/110 2I2/ 32
1/9 1/2
1.6 9.0
13.5 29.6
7.3 20.4
1.61 3.24
0/0 0/0
240/241 245/246
6.0 19.7
0.0 24.9
7.2 22.9
1.04 2.80
120/312 268/241
3/300 3/231
0.7 6.8
19.2 32.2
7.8 21.5
2.07 9.50
0/0 0/0
729/732 717/740
0.069
O. 069
0.068
0.0000
141/106
I/ 2
0.004
1.719
0.123
0.2319
O/ O
248/249
0.187
0.187
0.187
0.0000
209/ 37
If 1
0.004
2.559
0.134
0.2817
Of a
246/247
0.011
O.011
0.011
0.0000
15/227
l/ 4
0.004
4.549
0.155
0.4O98
O/ 0
245/246
0.011
0.187
0.089
0.0896
51/103
3/588
0.004
4.549
0.137
0.3163
O/ 0
739/742
0.027
0.027
0.027
O.OOOO
17I/ 75
If 3
0.001
1.209
0.057
0.1646
Of 0
248/249
0.104
O. 104
0.103
0.0000
224/ 22
I/ 1
O.OOI
1.191
0.053
0.1482
Of 0
246/247
0.006
0.006
0.005
0.0000
28/233
If 14
0.001
2.009
0.070
0.2092
Of 0
244/245
0.006
0.104
0.045
O.O5I5
ISO/ 67
3/516
0.031
2.009
0.060
0.1756
O/ 0
738/741
0.469 0.076 0.336 51 8.0
0.469 0,076 0.336 51 8.0
0.468 0.075 0.336 51 8.0
0.0000 O.OOOO 0.0000 0.0 0.00
151/ 96 119/128 43/205 135/112 116/129
1/2 1/2 1/1 1/2 1/4
0.024 0.022 0.199 IO 0.0
9.745 0.635 4.699 248 142. O
0.871 0.107 0.798 70 18.7
1.4782 O.0955 0.6983 67.5 25.18
0/0 Of O Of O Of 0 Of 0
248/249 248/249 248/249 248/249 248/249
0.309 0.147 0.399 60 2.0
0.309 0.147 O.399 6O 2.O
0.339 0.147 0.399 6O 2.O
0.0000 O.OOOO 0.0000 0.0 O.OO
I6S/ 77 L95/ 31 25/219 137/107 28/203
1/2 If 1 1/3 1/3 I/ 16
0.025 0.034 0.215 10 0.0
6.857 0.719 7.149 334 210.0
0.494 0.119 1.220 73 14.1
3.8853 0.0880 1.0787 69.0 23. SO
0/0 O/ 0 0/0 0/0 0/0
246/247 246/247 246/247 246/247 246/247
O.360 O.045 0.340 11 34.0
0. 36O O.04S 0. 340 11 34. 0
0.360 0.044 0.340 U 34.0
O.OOOO O.OOOO O.OOOO 0.0 0.00
183/ 62 31/212 34/210 21/221 229/ 16
1/1 1/3 1/2 1/4 It 1
0.017 0.020 0.199 10 0.0
4.469 3.024 8.199 291 90.0
0.342 0.123 1.121 71 9.5
0.5488 0.2236 1.0582 64.1 14.82
Of O 0/0 Of 0 0/0 0/0
245/246 245/246 245/246 245/246 245/246
0.309 O.O45 0.136 11 2.0
0.469 0.147 0.399 60 34.0
0.379 0.089 0.358 41 14.7
0.0817 0.0322 O.O152 26.1 17.01
464/206 77/144 93/594 74/319 9S/ 81
3/ 72 3/521 V 55 3/349 3/566
0.017 0.020 O. 199 10 O.O
9.745 3.024 8.199 334 21O.O
0.570 0.116 1.046 72 14.1
1.0681 0.1490 0.9759 66.8 22.06
0/0 0/0 0/0 0/0 0/0
739/742 T39/742 719/742 719/742 719/7*2
0
0
0
0.0
0
0
0
0.0
17
17
17
0.0
O
O
0
0.0
O
0
o
0.0
0
0
0
0.0
0
17
6
9.8
0
0
0
0.0
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.30
0.4
0.4
O.4
O.OO
0.9
O. 0
0. 0
0.00
0.0
0.0
O.O
0.00
0.0
O.O
0.0
O.OO
0.0
0.4
0.1
0.20
0.0
0.0
O.O
0.00
-------�
BCNUS:CENTR1TRACTU5
CHIA
TUKB SECCHI
PH
DO
TEMP
PARTIAL OEPTH VALUES
TOTAIP OUT HOP N02N03
NH3
KJEL ALK
N/P
CONC PERC
p
0 0
U 1 0
N N
D
P N
0 0
U 1 N
N 0
o a
M
„
O 0
u 2 a
H *
0
* N
C 0
U 2 N
N 0
0 O
a
a o
u 3 e
N *
0
« N
O 0
U 3 N
H 0
0 0
M
,
0 A 0
U L 0
N L M
0
* N
q A o
U L N
N L 0
D 0
N
KIN
MAX
»E»N
STCV
0/HR
M1N
MAX
MEAN
STDV
0/HR
Mil
on
HEAN
STOV
N
0/NR
H!N
• AX
MEAN
STOV
0/WR
KIN
MAX
MEAN
STOV
0/i»
MI*
MAX
fEAN
STOV
0/HR.
MIN
MAX
HEAN
STOV
N
0/HR
"IN
MAX
MEAN
STDV
C/HR
T.O
T.O
T.O
118/127
It Z
B.1
8.1
8.1
0.00
77/169
It I
4.8
4.8
4.8
0.00
48/197
It 2
4.8
8.1
6.6
1.68
147/439
3/199
99444
-94944
0
0.8
187/ 0
O/ 0
83
81
83
o.o
1Z8/ 99
I/ 10
43
95
99
0.0
201/ 16
I/ 4
83
93
84
8.3
396 / 39
2/254
33
33
33
8.0
127/119
I/ 3
28
28
0.0
TO/ 167
I/ 4
140
140
140
0.0
236/ 4
I/ 1
28
140
6T
63.3
234/ 20
3/482
7.7
7.7
7.7
0.88
87/147
If It
T.4
ri*
0.00
70/167
If 10
6.7
6.7
6.7
0.03
30/206
I/ 4
4.7
T.T
7.3
0.91
61/388
3/242
B.t
8.0
8.0
0.08
57/184
It 4
6.0
6.8
6.0
O.OO
6T/1T9
It 4
7.9
T.9
T.9
0.00
122/110
If 9
6.0
8.0
T.2
1.84
120/312
3/300
14. T
19. T
14.T
8.88
163/ 83
I/ Z
24.4
24.9
24.9
O.OO
58/180
If 8
24.1
24.1
24.1
3.00
21Z/ 32
It 2
14.7
26.4
22.4
2.88
268/241
3/231
8.869
O.P64
0.068
0.88*0
141/106
It 2
0.187
0.187
0.187
O.OOOO
204/ 3T
It 1
3.311
0.011
0.011
0.0003
19/227
I/ 4
0.011
0.1S7
0.089
8.0896
51/133
3/981
8.827 0.469
0.027 0.464
0.027 0.468
8.8088 t.8888
171/ 79 151/ 96
1/3 1/2
0.104 0.309
0.10* 8.309
3.103 0.309
O.OOOO O.OOOO
22*/ 22 168/ 77
I/ I 1/2
3.036 0.360
0.006 0.360
0.005 0.360
3.0039 0.3300
28/203 l«3/ 62
It 14 I/ 1
8.806 0.304
0.104 P. 464
0.043 0.3T4
8.8919 0.9817
15 a/ 6T 464/236
3/316 3/ 72
0.076
0.076
0.075
8.6880
119/128
It t
0.14T
0.147
0.1*7
0.0000
149/ 91
It 1
0.045
0.045
0.044
0.0030
31/212
I/ 3
0.849
0.14T
0.089
8.0522
77/144
3/511
8.336
0.336
O.336
O.OOOO
43/299
I/ 1
0.344
0.399
0.349
0.8866
25/219
It 3
0.340
0.340
0.340
0.0000
34/218
\l 2
6.336
9.394
0.398
6.0392
93/394
3/ 55
51
51
51
0.0
135/112
It 2
6O
60
60
137/107
It 3
11
11
11
o.o
21/221
I/ 4
11
63
41
26.1
74/314
3/344
8.6
8.0
8.0
0.00
116/124
If 4
2.6
2.0
2.0
6.66
28/20?
I/ 16
34.0
34.6'
34.0
O.OO
224/ 16
It I
2.6
34.9
14.7
IT. 01
95 / 81
3/366
6
0
0
0.0
17
IT
IT
6.6
3
6
0
0.0
IT
6
9.8
6.0
0.0
0.0
O.OO
0.4
0.4
0.4
6.80
0.0
0.0
0.0
0.00
6.0
0.4
0.1
0.20
-------�
GENUS:CE»AST E
0/WR
HIM
MAX
MEAN
STOV
N
0/WR
KIN
MAX
MEAN
STOV
N
O/UR
MIN
MAX
MEAN
STOV
N
0/M4
• IN
MAX
MEAN
STOV
N
O/WR
MIN
MAX
MEAN
STOV
N
0/w«
MIN
MAX
MEAN
STOV
N
O/UR
MIN
MAX
MEAN
STOV
N
0/MR.
0. }
355.6
21.0
41. 40
O/ 0
2*7/2*7
37.5
37.5
37.*
0.00
186/ 60
I/ 1
1.4
595.0
34.4
62.71
O/ 0
2*6/2*7
0.8
2*1.*
23.2
3*. 27
01 0
2*7/2*7
37.5
37.5
37.5
0.00
602/137
I/ 2
0.3
595.0
26.2
47.96
O/ 0
7*0/7*1
6
100
71
20.6
O/ 0
187/187
78
78
78
O.O
101/130
I/ 6
4
121
72
24.0
O/ 0
236/237
1
130
7*
23.1
O/ 0
221/221
78
78
78
0.0
286/34*
I/ IS
1
121
72
22.8
O/ 0
6*4/645
2
252
**
36.2
O/ 0
2*9/2*9
35
35
35
0.0
103/131
I/ 7
1
222
49
35.9
O/ 0
2*0/2*1
6
185
50
35.0
O/ 0
246/2*6
35
35
35
0.0
323/398
I/ 15
I
252
*B
35.7
O/ 0
735/736
5.3
10.6
7.9
0.73
O/ 0
2*9/2*9
7.9
7.9
7.9
0.00
126/110
I/ LI
4.1
10.6
7.8
0.89
O/ 0
2*6/2*7
*. 7
10.3
7.6
0.8*
O/ 0
2*5/2*5
•».9
7.9
7.9
0.00
388/31*
I/ 39
*. 1
10.6
7.8
0.83
01 0
740/741
0.7
19.2
9.0
2.02
O/ 0
2*5/245
7.7
7.7
7.7
0.00
176/ 67
I/ 3
3.0
17.8
7.0
1.98
O/ 0
245/2*6
1.6
13.5
7.3
1.61
O/ 0
2*1/241
7.7
T. 7
7.7
o.oo
355/365
I/ 12
0.7
19.2
7.8
2.07
01 0
711/732
6.8
28.9
17.5
5.59
O/ 0
2*6/2*8
28.9
28.9
28.9
0.00
192/ 45
I/ 9
17.3
32.2
26.6
2.35
O/ 0
2*5/2*6
9.0
29.6
20.4
3.25
O/ 0
2*6/2*6
28.9
28.9
2*. 9
0.00
683/ *7
I/ 10
6.8
32.2
21.5
5.49
O/ 0
739/7*0
0.00*
1.719
0.123
0.231*
O/ 0
2*9/2*9
0.0*0
0.040
0.039
0.0000
112/134
I/ 1
0.004
2.559
0.135
0.2817
Of 0
246/247
0.00*
*.5*9
0.155
0.4091
01 0
246/246
0.040
0.0*0
0.039
0.0000
288/448
I/ 6
0.00*
4.5*9
0.137
0.3159
O/ 0
7*1/7*2
0.001
1.209
0.057
0.16*2
01 0
249/249
0.006
0.006
0.005
O.OOOO
62/168
I/ 17
0.001
1.191
0.053
0.1482
01 O
246/247
0.001
2.009
0.070
0.2088
01 0
2*5/245
0.006
0.006
0.005
0.0000
158/536
I/ 47
0.001
2.009
0.060
0.1754
01 0
740/741
0.02*
9.7*5
0.870
1.475*
O/ 0
2*9/2*9
0. 117
0.117
0.117
0.0000
96/150
I/ 1
0.025
6.857
0.495
0.8851
Of 0
2*6/247
0.017
4.469
0.342
0.5477
Of 0
2*6/2*6
0.117
0.117
0.117
0.0000
277/464
I/ I
0.017
9.745
0.570
1.0666
O/ 0
741/742
0.022
0.635
0.107
0.0953
Of 0
249/249
0.116
0.116
0.116
0.0000
154/ 86
If 7
0.034
0.719
0.120
0.0880
Of 0
246/247
0.020
3.024
0.122
0.2232
O/ 0
246/246
0.116
0.116
0.116
0.0000
521/212
I/ 9
0.020
3.024
0.116
0.1488
Of 0
741/742
0.199
4.699
0.796
0.697S
O/ 0
249/249
2.00O
2.000
2.OOO
O.OOOO
2O9/ 37
I/ 1
0.21S
7.149
1.214
1.0788
Of 0
2*6/2*7
0.199
8.199
1.118
1.0572
Of 0
246/2*6
2.OOO
2.000
2.000
0.0000
659/ 8O
I/ 3
0.199
8.199
1.0*2
0.97*9
O/ O
741/742
10
248
70
67.3
O/ 0
249/2*9
20
20
20
0.0
58/184
I/ S
10
334
74
68.9
O/ 3
246/2*7
10
291
73
64.1
Of O
2*6/2*6
20
20
20
0.0
2O8/52O
I/ 14
10
334
72
66.7
Of O
741/742
0.0
142.0
18.6
25.14
O/ 0
249/2*9
6.0
6.0
6.0
0.00
106/130
I/ 11
0.0
210.0
14.1
23. 8O
Of 0
246/247
0.0
90.0
9.6
14.87
Of 0
246/246
6.0
6.0
6.0
O.OO
327/376
I/ 39
0.0
210.0
14.1
22.35
O/ 0
741/742
0
0
0
0.0
154
154
IS*
0.0
0
0
0
0.0
0
0
o
0.0
IS*
15*
154
0.0
0
0
0
0.0
0.0
0.0
0.0
0.00
0.3
0.3
0.3
0.00
0.0
0.0
O.O
o.oo
0.0
0.0
0.0
0.00
0.3
O. 3
0.3
0.00
0.0
0.0
0.0
0.00
-------�
«NUS:CER»STEm«S PARTIAL DEPTH VALUES
CMLA TUPB SECCH1 PM 00 TEMP 'OTALP OKTHOP MC2N03 NH3 KJEl ALK N/P CONC P6RC
a flu
0 0 PM
U 1 0 "CAN
N M STOV
0 N
C/WR
* N NIN
a a MAX
u i N MEAN
N 0 STOV
o a N
N 0/HR
* DIM
0 0 "AX
U 2 0 MfAN
N « $TO»
0 N
0/WR
* N HIM 37.5 78 35 7.9 T.T 28.9 0.0*0 0.006 0.1IT O. 116 2. . IS* 0.3
n n KM 37.5 78 3S 7.9 T, 7 2S.9 0.0*0 3.006 0.117 O.116 2.000 ZO 6.0 IS* 0.3
U 2 N MEAN 7.« T.7 28.9 0.039 0.00* 0.117 0.116 2.000 20 6.0 15* 0.3
37.5
37.5
37.5
O.OO
1867 60
I/ 1
78
78
78
O.O
191/130
I/ 6
35
35
35
O.O
103/131
I/ T
7.9
7.9
7.9
O.OO
126/110
I/ 11
7.7
7,7
T.7
O.OO
176/ 67
I/ 3
28.9
28.9
28.9
0.00
192/ *S
I/ 9
0.0*0
0.0*0
0.039
0.0000
112/13*
I/ 1
0.006
3.006
0.005
0.0000
62/168
I/ 17
0.117 0.116
0.117 0.116
0.117 0.116
0.0000 0.0000
96/150 IS*/ 86
1/1 1/7
2.000
2.000
2.000
0.0300
209/ 37
I/ 1
20
ZO
20
0.0
58/18*
I/ 5
6.0
6.0
6.0
9.00
106/130
It 11
HO STOV OO 0.00 0.0000 0.0000 0.0000 0.0000 0.030 . . 0.0 0.00
00 M
N 0/H»
R NIN
0 0 M«X
U 3 0 MEAN
N M STOV
0 N
C/MR
R N Mil
0 0 MAX
U 3 N CCAN
N 0 STOV
0 0 N
N 0/WR
R »|N
0 A 0 P>*X
u L c MEAN
N L M STDV
0 N
0/WR
R N MIN 37.S 76 39 7.9 7.7 Z8.9 0.0*3 9.M6 3.117 0.116 2.300 ZJ t.O 15* 3.3
0*0 MAX 371? 78 39 7.9 7.7 28.9 0.0*0 O.O06 0.117 0.116 2.000 20 6.0 15* 0.3
UIK HFAN 37.S 78 39 7.9 T.T 28.9 0.039 O.OOS 0.117 0.116 2.000 20 6.O 15* 0.3
H t a "?o» o.oo o.o 9.0 0.00 a.al o.oo o.oojo 0.3000 0.0030 o.jooo 3.0000 o.o o.ao 0.0 0.00
00 N 60Z/13T 2«6/3** 323/S98 3B8/31* 355/365 483/ *T 288/4*8 IS8/536 277/*6* 5Z1/212 659/ 80 208/923 "7/376
•I 0/W* I/ Z I/ l» »' l» I/ 39 I/ 12 I/ 10 I/ 6 I/ »7 1/1 1/9 1/3 II I* L/ 39
-------�
GENUS:CERATIUM
CNLA
TURB SECCHI
PARTIAL OEPTM VALUES
TEMP TOTALP ORrHOP N02N03
NH3
KJEL ALK
N/P
CONC PEP.C
R
c
U 1
N
0
R
0
U 1
N
o
R
o
U 2
N
o
R
0
U 2
N
0
R
0
U 3
N
0
R
0
U 3
N
o
q
Q A
U L
N L
Q
n
0 A
U L
Q
O
e
e
N
0
N
0
c
c
o
e
e
N
0
N
O
c
c
o
c
c
N
0
N
n
c
c
Q
c
c
N
o
a
c
M|l|
MAX
MEAN
STOV
0/WR
MIN
MAX
MEAN
STOV
0/WR
M|N
MAX
MEAN
STOV
0/WR
MIN
MAX
MEAN
STOV
O/HR
M IN
MAX
MEAN
STOV
0/WR
MIN
MAX
MEAN
STOV
0/WR
M IN
MAX
MEAN
STDV
0/MR
N IN
MAX
MEAN
STOV
0/WR
1.8
22.8
1O.8
6.05
14/ 52
16/181
0.3
355.6
21.7
42.69
O/ 0
231/247
2.8
89.1
IT. 2
18.04
10/ 26
77/211
1.4
595.0
42.3
73.19
Of 0
170/247
1.9
84.7
17. 2
21.1O
ll/ 13
65/226
0. 8
241.4
25.3
37.70
O/ 0
182/247
1.8
89. 1
16.6
18.64
27/ 46
158/668
0.3
595.0
28.8
52.86
O/ 0
583/741
62
95
84
10.5
47/ 9
14/131
6
100
69
20.8
O/ 0
173/187
25
98
81
14.0
16/ 3
77/218
4
121
68
26.4
O/ 0
160/237
22
97
81
17.3
1 I/ 2
57/208
100
72
24.4
O/ 0
164/221
22
98
82
15.0
32/ 7
148/606
1
121
7O
23.9
O/ 0
497/645
21
252
72
56.6
67/ 0
16/182
2
185
42
33.6
Of 1
233/248
20
222
60
36.6
15/ 0
72/206
1
216
44
34.5
Of I
169/240
12
157
61
35.4
7/ 3
65/236
185
46
34. I
O/ 0
181/2*6
12
252
62
38.5
]9/ 0
153/697
1
216
44
34.0
Of 2
563/734
6.8
9.3
8.0
0.61
9/ 8
16/232
5.3
10.6
7.9
0.73
O/ O
233/249
6.2
9.0
7.9
O. 57
11 12
77/228
4.1
10.6
7.7
1.00
Of 0
170/247
6.3
8.9
7.7
0.68
8/ 8
65/229
10.3
7.6
0.89
Of 0
180/245
6.2
9.3
T.8
0.63
16/ 20
158/705
4.1
10.6
7.7
0.87
Of 0
583/741
5.2
9.6
8.1
1.31
10/ 85
16/150
0.7
19.2
9.1
2.05
Of 0
229/245
3.0
9.9
6.9
1.38
Of 12
77/234
3.1
17.8
7.0
2.20
It 0
169/245
1.6
10.8
7.1
1.43
3/ 4
64/237
13.5
7.4
1.68
I/ 0
177/240
1.6
10.8
7.1
1.41
If 42
157/689
0.7
19.2
7.9
2.19
O/ 0
575/732
13.9
28.0
22.5
4.35
84/ 3
16/161
6.8
28.9
17.1
5.51
O/ 0
232/248
17.3
29.8
25.7
2.22
O/ 11
77/235
20.6
32.2
27.0
2.30
21 0
169/244
13.9
26.1
19.9
2.75
4/ 12
65/230
29.6
20.6
3.40
Of 0
181/246
13.9
29.8
23.0
3.85
88/ 11
158/6*1
6.8
32.2
21.1
5.80
Of 0
582/74O
0.008
0.716
0.081
0.1724
8/ 8
16/233
0.004
1.719
0.126
O.2350
Of 0
233/249
0.008
0.750
0.052
0.0880
6/ 10
77/231
0.004
2.559
0.172
0.3272
Of 0
170/247
0.010
0.791
0.070
0.1064
ll/ 13
65/225
0 03%
4^549
0.185
0.4693
O/ 0
181/246
O.OO8
0.791
0.062
0.1064
19/ 28
158/695
0.004
4.549
0.157
O.3488
Of 0
584/742
0.001
0.541
0.044
0.1334
O/ 7
16/242
0.001
1.209
0.058
0.1664
Of 0
233/249
0.001
O.433
0.016
0.0494
Of 8
77/239
0.001
1.191
0.070
0.1727
Of O
170/247
O.OO3
3.450
0.029
0.3614
2/ 9
65/234
0. 001
2.O09
0.084
0.2393
3/ 0
183/245
0.001
3.541
0.024
0.0671
O/ 23
158/718
0.001
2.009
0.070
0.1935
Of 0
583/741
0.038
0.641
0.214
O. 1594
4/ 79
16/166
0.024
9.745
0.915
1.5145
O/ 0
233/249
0.029
6.857
0.516
1.0134
4/ 0
77/243
0.025
4.295
0.483
0.8212
Of 1
170/246
0.017
2.688
0.267
0.4292
Of 1
65/245
O.O 19
4.469
0.368
0.5832
It 0
181/245
0.017
6.857
0.383
0.7693
O/ 5
158/737
0.019
9.745
0.620
1.1283
It 0
584/741
0.032
0.171
0.085
0.0491
5/ 32
16/212
0.022
0.635
0.108
0.0976
Of 0
233/249
0.034
0.297
0.099
0.0487
O/ 10
77/237
0.036
0.719
0.129
O.O994
I/ 0
170/246
0.037
0.831
0.112
0.1304
10 f 3
65/233
0. 020
3.024
0.126
0.2484
O/ 0
181/246
0.032
0.831
0.103
0.0916
7/ 3
158/732
0.020
3.024
0.120
0.1606
O/ 0
584/742
0.242
2.665
0.683
0.6610
7/ 7
16/235
0.199
4.699
O.804
0.7006
Of 0
233/249
0.265
2.375
0. Ml
0.4881
3/ 25
77/219
0.215
7.149
1.387
1.2208
Of O
170/247
0.225
3.265
0.902
0.6373
5/ 14
65/227
0. 199
8.199
1.196
1.1636
O/ 0
181/246
0.225
3.265
0.850
0.5715
101 31
158/701
0.199
8.199
1.095
1.0523
O/ 0
584/742
11
198
61
54.2
35/ 17
16/197
10
248
71
68.2
O/ 0
233/249
10
277
90
70.6
O/ 4
77/243
10
334
66
66.9
Of O
170/247
10
283
85
69.7
Of I
65/245
10
291
68
61.5
Of O
181/246
10
283
85
68.9
O/ 3
156/739
10
334
69
65.7
Of O
584/742
1.0
29.0
11.2
8.12
T/ 45
16/197
0.0
142.0
19.1
25.83
O/ 0
233/249
O.O
210.0
20.6
34.76
Of 0
77/247
O.O
103.0
11.1
15.83
O/ 3
170/244
1.0
88.0
11.0
16.67
13/ 1
65/232
0.0
90. O
9.1
14.19
O/ O
181/246
0.0
210.0
15.7
26.97
O/ 0
158/742
0.0
142.0
13.7
2O. 51
Of 1
584/T4I
0
9
1
2.6
O
O
O
0.0
o
296
19
48.9
0
O
O
0.0
0
432
17
56.5
0
0
O
O.O
0
432
16
49.9
0
O
O
0.0
0.0
2.5
0.2
0.63
0.0
0.0
0.0
0.00
0.0
9.1
0.6
1.51
0.0
0.0
0.0
0.00
0.0
10.8
0.7
2.01
0.0
0.0
0.0
0. 00
0.0
10.8
0.6
1.68
0.0
0.0
0.0
0.00
-------�
SENDS:CERATtUN
PARTIAL DEPTH VALUES
CHLA
TlffB 5KCHI
00
TEHP TOTAIP 0»THOP N02N03
NH3
KJEl AUK
H/P
CONC
PERC
9
o c
U 1 3
N N
0
ft N
0 0
U 1 M
N 0
D 0
M
*
0 0
U 2 0
N »
0
R HI
0 0
U 2 N
N D
D 0
It
„
0 0
U 3 0
N M
0
R N
0 0
U 3 N
N D
D 0
W
R
0 A 0
U L 0
N L M
0
*. N
0 A 0
II 1 N
M (. 0
0 0
NIN
vn
"(AN
STDV
0/HR
HlN
MAX
MEAN
STOV
N
0/HR
HlN
MAX
MEAN
STOV
M
0/HR
HIM
MAX
MEAN
STOV
N
0/WR
NIN
MAX
MEAN
STOV
H
0/WR
NIN
MAX
MEAN
STOV
N
0/wft
KIN
MAX
MEAN
STOV
M
0/H»
M1N
HAX
MEAN
STDV
M
1.8
22.8
10.8
6.45
14/ 52
16/181
?. B
89.1
17.2
18.04
IO/ 26
77/211
5.1
5.3
3.2
0.14
92/188
If 7
1.4
84.7
17.6
21.33
ll/ 10
43/226
5.1
5.3
5.2
0.14
160/960
2/ 21
1.8
84.1
16.7
18.72
27/ 46
62
45
84
10.5
47/ 4
14/131
25
48
81
14.0
16/ 3
77/218
62
96
84
9.4
102/ 7
2/112
22
47
81
17. S
ll/ 2
55/238
82
46
89
9.4
34*/ 18
2/263
22
48
81
15.1
32/ 7
21
252
72
56.6
67/ 0
16/182
20
222
60
36.6
39/ 0
72/206
78
144
111
46.7
204/ 6
It 36
12
157
60
34.3
T/ 3
63/236
78
144
111
46.7
61 7/ 15
2/134
12
252
61
38.2
39/ 0
6.8
4.3
8.0
0.61
9/ 8
16/232
6.2
9.0
7.9
9.57
7/ 12
77/228
6.7
7.9
7.3
0.85
JO/ 88
2/127
6.3
8.9
7.7
0.68
B/ 8
63/229
6.7
7.4
7.3
O.85
61/314
2/366
6.2
4.3
7.8
0.63
I6/ 20
5.2
9.6
8.1
1.31
IO/ 85
16/150
3.3
9.9
6.9
1.38
Of 12
77/234
3.5
6.7
5.1
2.26
3/159
It 79
1.6
10.8
7.2
1.34
O/ 4
62/237
3.5
6.7
5.1
2.26
12/501
2/219
1.6
10.8
7.2
1.39
I/ 42
13.4
28.0
22. 5
4.35
84/ 3
16/161
17.3
29.8
25.7
2.22
a/ 11
77/235
16.7
16.7
16.7
0.03
24/218
2/ 4
13.4
26.1
20.0
2.73
4/ 12
63/230
16.7
16.7
16.7
3.03
154/577
2/ 4
13.4
29.8
23.1
3.81
88/ 11
0.008
0.716
0.081
0.1724
6/ 8
16/233
0.008
0.750
0.052
9.0883
6/ 10
77/231
0.019
0.262
0.140
0.1718
39/ 25
2/182
0.01C
0.741
0.368
9.1351
ll/ 10
63/225
O.OI9
0.262
3.143
0.1716
123/ 64
2/550
0.008
0.741
0.06!
0.1058
I9/ 28
0.001
0.541
0.044
0.1334
O/ 7
16/242
0.931
0.433
0.016
3.3444
O/ 8
77/234
0.007
0.194
0.102
0.1357
*2/ 16
2/187
0.993
0.450
0.027
3.3584
2/ 9
63/234
0.007
0.199
0.102
0.1357
205/ »7
2/484
0.00 1
0.541
0.023
a. 3660
O/ 23
0.038
0.641
0.214
0.1594
4/ 74
16/166
0.324
6.897
O.516
1.0134
4/ a
77/243
0.056
0.372
0.214
3.2234
78/ 59
2/104
0.317
2.688
0.269
3.4359
O/ 1
63/245
0.056
0.372
9.214
9.2234
123/244
2/375
0.017
6.897
0.385
3.7738
O/ 5
0.032
0.171
0.085
0.0441
S/ 32
16/212
0.934
0.247
0.044
0.0467
Of 10
77/237
0.063
0.532
0.247
0.3316
95 / 6
2/145
0.937
0.831
0.106
0.1210
I9/ 3
63/233
0.063
0.532
0.297
0.3316
223/ 11
2/508
0.032
0.831
0.101
0.0854
7/ 3
0.242
2.665
0.683
0.6610
7/ 7
16/239
0.265
2.375
0.841
0.4881
3/ 25
77/219
0.294
1.744
1.046
1.0641
21/ 34
2/141
0.225
3.265
0.848
0.6327
5/ 14
63/227
0.244
1.799
1.046
1.0641
SI/ 96
2/595
0.225
3.265
0.848
•. 5683
IO/ 31
11
198
61
94.2
3S/ 17
16/197
19
2T7
90
70.6
O/ 4
77/243
20
241
131
156.3
64/ 3
2/179
10
283
84
67.5
O/ 1
63/245
20
241
131
156.3
208/ 13
2/521
10
283
as
6«.U
O/ 3
1.0
29.0
11.2
8.12
7/ 45
16/197
0.0
210.0
20.6
34.76
O/ 0
77/247
3.9
6.0
4.5
2.12
68/ 97
2/ 81
1.0
88. O
11.2
16.90
13/ 1
63/232
3.0
6.0
4.5
2.12
146/376
2/220
0.0
210.0
15.6
27.11
O/ 0
0
9
1
2.6
0
296
19
48.9
25
48
37
16.3
a
432
16
ST. 3
25
46
37
16.3
3
432
16
59.1
0.0
2.5
0.2
9.63
0.0
9.1
0.6
1.51
10.5
10. 8
10.7
0.17
O.O
5.1
0.4
0.43
10.5
IO.B
10.7
0.17
0.0
9.1
0.5
1.24
156/668 146/696 151/647 156/705 US/689 156/641 156/645 156/7IB 156/737 156/732 154/701 156/734 156/742
-------�
GENUS: CMILOHON«S
CHL»
00
PARTIAL DEPTH VALUES
TOTALP ORTHOP N02U03
KJEL
CQMC
PERC
R
0 0
U 1 C
H C
0
P N
C 0
U 1 N
N 0
0 C
c
o
0 0
U 2 C
H C
rj
R N
C 0
U 2 N
N 0
0 C
C
Q
O 0
U 3 C
N C
o
p n
C 0
U 3 N
N 0
0 C
c
q
C A 0
Ul f
h V
N L C
0
R N
C* A 0
Ul H
L *t
N L 0
D C
C
MIN
*AX
STOV
O/WB
MIN
MAX
STOV
Of**
M|N
MAX
ST3V
O/HR
M IN
MAX
MEAN
STOV
O/M4
MIN
MAX
MEAN
STOV
0/NR
MIN
MAX
MEAN
STOV
0/KR
MIN
MAX
STOV
C/MR
VAX
STOV
0/wa
6.8
33.9
19.0
10.72
11 2/ 35
5/100
0. 3
355.6
21.0
41.80
Of 0
242/247
6. 7
92.9
32.6
35.56
53/ 24
5/170
l ^
595.0
34.5
63.36
O/ O
2*2/2*7
5.4
13.5
9.5
4.05
59/ 99
3/ 89
0.8
241.4
23.4
34.4*
3f 0
24*/2«7
5.4
92.9
22. 3
23.50
181/ 44
13/516
0.3
595.0
26.3
48.25
O/ 0
728/741
43
88
69
23.5
21/ 37
3/129
6
100
7 I
20.6
Of 0
18*/187
26
96
60
30.*
IB/ 7
5/21 Z
^
121
72
23.8
3f 0
232/237
77
91
86
7.8
79/ 42
3/103
1
100
74
23.2
Of 0
216/221
26
96
70
24.9
39/ IB
11/588
I
121
72
22.7
Of 0
634/645
16
65
3*
18.*
33/ *3
5/173
2
252
44
36.4
Of 0
2*4/2*9
21
100
47
31.6
*O/ 23
•5/178
1
222
49
35.9
3f 3
236/2*1
28
41
36
7.2
63/115
3/ 68
6
185
51
35. 1
or o
2*3/2*6
16
100
*0
22. 1
75/ 73
13/588
252
*a
35. 1
Of 0
723/736
7.3
8.5
8.0
0.**
*5/ 34
5/170
5.3
10.6
7.9
0.73
Of 0
244/249
6.9
8.3
7.7
0.54
37/ 62
3/148
4. 1
10.6
7.8
0.9O
Of O
242/247
6.9
7.8
7.2
0.52
56/100
3/ 89
4.7
10.3
7.6
0.84
Of 0
242/245
6.9
8.5
7.7
0.56
110/102
13/529
4.1
10.6
7.8
0.83
Of 0
728/741
5.8
9.5
8.0
1.54
13/ 93
5/139
0.7
19.2
9.0
2.03
Of 0
240/245
5.3
T.4
6.5
0.80
31/ 76
5/139
3.O
17.8
7.0
2.OO
Of 0
241/246
7.3
8.9
8.1
0.80
I10/ 26
3/135
1.6
13.5
7.3
1.62
Of 0
238/241
5.3
9.5
7.4
1.31
61/125
13/546
0.7
19.2
T.8
2.38
Of 0
719/732
14.1
27.8
20.3
6.45
111 6
5/150
6.8
28.9
17.4
5.57
O/ 0
243/248
27.2
31.5
28.8
1.66
138/ 1
5/IOT
17.3
32.2
26.5
2.34
O/ 0
241/246
13.5
18. 8
16.9
2.93
2/165
3/ 79
9.0
29.6
20.5
3.23
O/ 0
243/246
13.5
31.5
22.8
6.51
77/ 1
13/662
6. a
32.2
21.5
5.48
O/ 0
727/740
0.020
0.127
0.092
0.0445
39/ 48
5/162
0.004
1.719
0.123
0.2337
O/ 0
244/249
0.016
0.115
0.063
0.0466
39/ 56
5/152
0.004
2.559
O. 136
O.2838
Of 0
242/247
0.052
0.291
0.154
0.1230
107/ 20
3/119
0.00*
4.5*9
0.155
O.*ll*
Of 0
243/246
0.016
0.291
0.095
0.0722
97/ 59
13/586
0.00*
4.549
0.138
0.3183
Of 0
729/742
0.002
0.085
0.042
0.0384
10/ 26
5/213
0.001
1.209
0.057
0.1658
Of 0
244/2*9
0.003
0.027
0. O13
0.0103
9/ 59
5/179
O.O01
1.191
0.05*
O.1493
Of 0
242/247
0.021
0.204
0.097
0.0948
l*7/ 15
3/ 83
O.031
2.009
O.069
0.2099
Of O
242/245
0.002
O.204
0.044
0.0560
I*/ 46
13/681
0.001
2.009
0.060
0.1767
Of 0
728/741
0.061
7.244
1.699
3.1131
20/ 4
5/225
0.024
9. 745
0.853
1.4310
Of 0
244/249
0.029
3.679
0.815
1.6017
*/ 5
5/238
0.025
6.857
0.487
0.8673
Of 0
242/247
0.112
0.599
0.432
0.2777
I24/ 40
3/ 82
0.017
4.469
0.341
3.5504
Of 0
243/2*6
0.029
7.2**
1.O66
2.0957
25/ 4
13/713
0.017
9.745
0.561
1.0391
O/ 0
729/742
0.034
0.143
0.089
0.0390
9/ 46
5/194
0.022
0.635
0.107
0.0961
Of 0
244/249
0.044
0.1S9
0.094
O.O553
13/ 32
5/232
0.034
0.719
0.120
0.0883
Of 0
242/247
0.107
0.184
0.132
0.0444
174/ 34
3/ 38
0.020
3.024
0.122
0.2245
Of 0
243/2*6
0.034
0.189
0.101
O.0466
13/ 89
13/640
0.020
3.024
0.116
0.1499
Of 0
729/742
0.453
1.099
0.677
0.2563
95/ 37
5/117
0.199
4.699
0.798
0.7037
Of 0
244/249
O.469
1.757
0.995
0.5030
SO/ 45
5/152
0.215
7.149
1.221
1.0B65
Of 0
242/247
0.340
1.000
0.683
0.330B
34/ 93
3/119
0.199
8. 199
1.124
1.0622
Of 0
243/ 246
0.340
1.757
o. aoi
0.3873
95/101
13/546
0.199
8.199
1.047
0.9818
O/ 0
729/742
16
212
96
98.6
66/ 8
5/175
10
248
69
66.7
Of 0
244/249
11
240
89
93.2
18/ 9
5/220
10
334
73
68.5
Of 0
242/247
18
63
39
24.4
51/107
3/ 88
10
291
73
64.3
Of 0
2*3/246
11
240
79
82.9
74/ 15
13/653
10
334
72
66.5
O/ 0
729/742
2.0
60.0
16.4
24.50
25/ 18
5/206
0.0
142.0
18.7
25.20
01 0
244/249
3.0
34.0
10.6
13.24
*4/ 26
5/177
0.0
210.0
14. 1
23.94
Of 0
242/247
3.0
6.0
4.3
1.53
68/ 97
3/ 81
0.0
90. O
9.7
14.95
Of 0
243/246
2.0
60.0
11.4
16.80
95/ 37
13/610
0.0
210.0
14.2
22.13
Of 0
729/742
0
382
117
161.5
0
0
0
0.0
0
229
46
102.4
0
0
0
0.0
o
46
20
23.5
0
0
0
0.0
0
382
6T
118.5
3
0
0
0.0
0.0
2.4
1.2
1.17
0.0
0.0
0.0
0.00
0.0
0."
O.2
0.39
0.0
0.0
0*0
0.30
0.0
1.4
0.6
0.69
0.0
0.0
0.0
0.00
0.0
2.4
0.7
0.91
0.0
0.0
0.0
0.00
-------�
CT«
-J
CCNUS-.CHILOMCNAS
CHI*
TURB SECCHI
PARTIAL DEPTH VALUES
oo TEMP TOTALP OR*HOP NOZNO?
NH3
KJEL ALK
•t/f
CONC PEBC
R
0 D
U 1 0
X H
0
R N
0 0
U 1 N
N 0
0 0
N
It
0 0
U I 0
N "
D
R N
C 0
U 2 N
N 0
0 C
H
•
0 0
U 3 0
1 n
0
R N
o a
U 3 N
N g
0 0
N
1
0*0
u i i
Nil
0
• N
0*0
U 1 N
N L 0
0 0
N
HIN
MIX
MEAN
STDV
N
C/MR
KIN
K»X
MEAN
STDV
H
0/MR
MIH
MM
PEAK
STDV
N
0/MR
HIN
MAX
MEAN
srrv
N
0/MR
NIN
MAX
NEAN
STDV
N
0/WR
HIN
vu
MEAN
STDV
N
O/HR
KIN
«*x
KEAN
STDV
N
C/MR
HIM
MAX
MEAN
STDV
N
0/MR
«.B
33.9
14.0
10.12
11 11 35
s/iao
6.T
92.9
32.6
35.56
S3/ 2*
3/170
5.4
13.5
4.5
4.05
59/ 99
3/ 99
5.*
92.9
22.0
23.50
I81S 44
13/516
43
88
69
23.5
2I/ 37
3/129
26
96
69
30.4
IB/ 7
1/212
TT
91
86
T.B
T9/ *2
3/l»0
26
96
TO
24.9
39/ IS
11/588
16
65
3*
IB.*
33/ 43
S/1T3
21
100
47
31.6
40/ 23
5/178
28
41
36
7.2
63/115
3/ 68
16
1*0
40
22.1
75/ 73
11/588
T.3
8.5
8.0
0.44
45/ 34
5/170
6.9
8.3
7.7
3.54
37/ 62
5/148
6.9
7. 8
7.2
0.52
56/130
3/ 89
6.9
8.5
T.7
0.56
114/102
13/529
5.8
9.5
8.3
1.S4
13/ 93
5/139
5.3
7.4
6.5
3.80
3 I/ 76
5/139
T.3
8.9
8.1
0.80
113/ 26
3/105
5.3
9.5
7.4
1.11
61/129
13/546
14.1
27.8
20.1
6.45
92/ 6
5/150
27.2
31.5
29.8
1.66
138/ 1
5/1 07
13.5
18.8
16.9
2.93
2/165
3/79
13.5
31.5
22.8
6. SI
77/ 1
13/662
0.020
O. 127
0.042
0.0445
39/ 48
5/142
3.316
0.115
0.063
0.0466
39/ 56
5/152
0.052
0.291
«. 134
0.1230
I07/ 2O
3/119
0.016
0.291
0.395
0.0722
97/ 59
13/586
0.002
a. os 5
3.042
0.0394
10/ 26
5/213
3.033
0.027
O.O13
9.9133
11 59
5/179
0.021
3.234
0.097
0.0948
147/ 15
3/ 83
0.002
1.204
9.044
0.0560
I*/ *«
11/681
0.061
7.244
1.699
3.1131
20/ 4
5/225
O.J29
3.679
0.815
1.6O17
4/ 5
5/238
0.112
0.599
0.432
O.2T77
124/ 40
I/ 82
0.029
7.244
1.066
2.09ST
2V 4
13/713
0.034
0.143
0.089
0.0340
9/ 46
5/194
3.344
0.189
O.094
fl. 3553
13/ 32
5/202
0. 107
0.184
0.132
0.0444
174/ 34
3/ 38
O.O34
0.189
9.141
0.0466
I3/ 89
13/643
0.453
1.099
0.677
0.2563
95/ 37
5/117
3.469
1.757
0.995
0.5030
5»/ 45
5/152
0.340
1.000
8.683
0.33J8
34/ 93
3/119
0.340
1.157
j.eoi
0.3673
VJ/101
13/546
16
212
96
98.6
66/ 8
5/175
U
24>
89
93.2
IB/ 9
5/22J
11
63
35
24.4
51/107
3/ 88
11
240
79
82.4
7»/ 15
11/653
2.0
6O.O
16.4
24.50
25/ 18
5/206
3.0
34.8
1O.<-
13.24
44 / 26
S/177
3.0
6.0
4.3
1.53
68/ 97
3/ 81
2.0
60.0
11.4
16.81
95/ 37
13/610
0
382
117
161.5
0
229
46
102.4
0
46
Z»
23.5
0
382
67
118.5
0.0
2.4
1.2
1.17
3.0
J.S
0.2
0.39
0.0
1.4
9.6
3.69
0.0
2.6
0. T
0.91
-------�
00
SENUS-
a
P 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
0 0
U 2 N
N 0
0 C
C
R
C T
U 3 C
N C
D
R N
0 O
U 3 N
N O
0 C
C
R
0 A P
U L C
NIC
0
R N
0 A 0
U L N
N L 0
D C
C
CHLAMVOOHPNAS
"IN
«E»N
STOV
N
0/WR
"IN
M4X
"EAN
ST3V
N
0/WR
"IN
"AX
"EAN
STPV
N
0/HR
"IN
H AX
•EAN
STOV
N
0/MP
"IN
"AX
"EAN
STPV
0/WR
"IN
"AX
MC»«|
STPV
N
0/tfR
"IN
"AX
"EAN
STPV
P/WR
"IN
"AX
"E»N
STPV
C/UR
CHLA
2.5
247*1
32.3
52.10
25/ 2
33/220
0.3
355.6
19.2
39.35
O/ 0
214/247
2.5
206.7
36.3
47.57
11 4
46/236
1.4
595.0
34.0
65.63
O/ 0
201/247
0.8
237.0
31.2
42.50
O/ 1
61/2*6
0.8
241.4
20.6
30.78
O/ 0
186/2*7
0.8
247.1
33.1
46.29
6/ 6
140/729
0.3
595.0
24.6
48.19
O/ 0
601/741
ruRB SECCHI PM
8 5 i.8
95 168 9.7
67 36 8.1
23.3 31.8 0.70
1/9 2/3 9/2
25/177 33/24* 33/238
6 2 5.3
100 252 1O.6
71 45 7.9
20.2 36.7 0.73
0/0 0/0 0/0
162/187 2L6/249 216/249
4 6 5.2
96 123 10.6
72 43 7.8
24.1 24.5 1.09
3/7 1/9 1/0
43/230 *4/231 46/246
5 1 4.1
121 222 10.2
72 50 7.8
24. 0 37.8 0.84
1/00/0 0/2
194/236 197/241 201/245
1 6 6.1
99 152 10.3
71 41 7.8
26.0 27.9 0.76
0/1 0/4 */ O
58/220 61/242 61/241
3 7 4.7
ISO 185 10.0
75 53 7.5
21.9 36.6 0.85
I/O I/O 0/1
161/220 185/245 184/244
1 5 5.2
99 166 10.6
71 40 7.9
24.8 27.8 0.67
0/6 3/9 2/0
126/639 138/724 140/739
3 I 4.1
121 252 1O. 6
73 49 7.7
22.2 37.1 0.81
1/0 0/0 0/0
519/644 598/736 601/741
03
6.4
15.5
9.3
1.87
2 1 / 1
33/223
0.7
19.2
8.9
2.04
O/ 0
212/245
3.3
16.3
7.3
2.70
*/ 1
46/241
3.0
17.8
6.9
1.78
O/ 0
230/246
2.8
10.1
7.0
1.44
2/ 1O
59/229
1.6
13.5
7.4
1.65
O/ 3
192/241
2.8
16.0
7.7
2.23
4/ 2
138/726
0.7
19.2
7.8
2.03
O/ 0
594/732
TENP
10.9
28.8
18.3
5.50
18/ 1
33/229
6.8
28.9
17.4
5.61
O/ 0
215/248
22.7
30.5
27.1
2.22
1O/ 3
46/233
17.3
32.2
26.5
2.37
O/ 0
200/246
15.4
26.8
20.7
2.81
8/ 6
61/232
9.0
29.6
20.3
3.38
O/ 0
185/246
10.9
30.5
22.2
4.96
19/ 3
140/718
6.6
32.2
21.3
5.60
O/ 0
60 O/ 740
PARTIAL DEPTH VALUES
TOTALP
0.015
1.159
0.147
0.2283
26/ 5
33/216
0.004
1.719
0.119
0.2322
O/ 0
216/249
0.006
1.474
0.178
0.3251
6/ 2
46/239
0.004
2.559
0.125
0.2700
O/ 0
201/247
0.010
3.084
0.243
0.5011
ll/ 1
61/234
0.004
4.549
0.125
0.3708
O/ O
185/246
0.008
3.084
0.199
0.3953
19/ 1
140/722
0.004
4.549
0.123
0.2927
O/ 0
602/742
ORTHOP
0.001
0.851
0.076
0.1839
O/ 4
33/2*5
0.001
1.209
0.054
0.1613
O/ 0
216/249
0.002
0.969
0.074
0.1863
3/ 1
46/243
0.001
1.191
0.048
0.1377
O/ 0
201/247
0.004
2.009
0.143
0.3594
8/ 0
61/237
0.001
0.847
0.045
0.1157
9/ 4
184/241
0.001
2.009
0.105
0.2755
O/ O
140/741
0.001
1.209
0.049
O.1405
O/ 2
601/739
N02N03
0.038
7.557
1.041
1.9S76
4/ 2
33/243
0.024
9.745
0.844
1.3912
O/ 0
216/249
0.027
3.836
0.504
0.8174
I/ 4
46/242
0.025
6.857
0.491
0.9000
O/ 0
201/247
0.017
2.569
0.359
3.5347
O/ 2
61/244
0.019
4.469
0.336
0.5532
I/ 0
185/245
0.017
7.557
0.568
1.1382
O/ 2
1*0/740
O.019
9.745
O.570
1.O495
I/ 0
602/741
NH3
0.022
0.524
O.090
0.0864
O/ 3
33/246
O.024
0.635
0.109
0.0965
I/ 0
216/246
0.036
O.T19
0.117
0.1076
I/ 0
46/246
O.034
0.565
0.120
0.0829
O/ 1
201/246
0.020
3.024
0.166
0.3989
O/ 0
61/246
O.O31
O.974
0.108
O.1166
I/ 2
185/243
0.020
3.024
0.132
0.2741
Of 0
14O/742
0.024
0.974
0.112
0.0990
2/ 2
602/738
KJEL
0.282
2.949
0.938
0.6850
21/ 6
33/222
0. 199
4.699
0.774
0.6984
O/ 0
216/249
0.265
4.000
1.187
0.9724
3/ 6
46/238
O.21S
7.149
1.223
1.1026
O/ 0
201/247
0.243
8.199
1.425
1.3527
8/ 0
61/238
O.199
6.000
1.017
0.9220
Of 1
185/245
0.243
8.199
1.232
1.1142
IB/ 0
140/724
0.199
7.149
0.999
0.9351
O/ 1
602/7*1
ALK
10
215
85
66.1
Of 7
33/2*2
10
248
68
67.4
Of 0
216/249
10
240
61
57.8
O/ 9
46/238
10
334
76
71.0
Of 0
201/247
10
291
89
69.7
O/ O
61/246
10
283
68
61.4
Of 1
185/245
10
291
79
65.9
Of 2
140/740
10
334
70
66.9
O/ 0
602/742
N/P
0.0
81.0
13.7
19.92
O/ 10
33/239
0.0
142.0
19.4
25.80
O/ 0
216/249
0.0
61.0
10.5
13.57
Of 11
46/236
0.0
210.0
14.9
25.48
O/ 0
201/247
0.0
35.0
5.4
6.17
0/15
61/231
0.0
90.0
11.0
16.57
O/ 0
185/246
0.0
81.0
9.1
13.38
Of 2O
140/722
0.0
210.0
15.3
23.45
O/ 0
602/742
CONC
0
1554
169
366.8
0
0
0
0.0
0
6614
297
1073.6
0
O
0
0.0
0
11422
485
1818.5
0
0
0
0.0
0
11422
349
1359.5
O
0
0
O.O
PERC
0.0
9.1
1.5
2.35
0.0
0.0
0.0
0.00
0.0
19.5
1.6
3.59
O.O
O.O
0.0
0.00
0.0
43.5
2.0
5.87
0.0
0.0
0.0
0.00
0.0
43.5
1.8
4.51
0.0
0.3
0.0
0.00
-------�
GENUS :CHLAMVCCMQNAS
CHI*
TU»B SECCHI
00
Itff
PARTIAL DEPTH VALUES
TOTtLP OKTHOP S02NQ3
NH3
KJEL ALK
N/P
CONC
PERC
q
O 0
U 1 C
N M
0
R N
0 0
U 1 N
N D
0 0
M
R
O D
U 2 O
N M
D
R N
C 0
U 2 N
N 0
0 0
R
O 0
U 3 0
N 1
0
• N
O O
U 3 N
N 0
0 0
M
R
O A 0
U L C
N L N
0
R N
0 A 0
U L N
N L D
D 0
M
MIN
MAX
MEAN
STCV
o/«
• IN
MAX
MEAN
STOV
0/UR
MIN
MAX
MEAN
STOV
o/ua
MIN
MAX
• EAN
STOV
0/WR
MIN
• AX
MEAN
STOV
o/wa
MIN
•AX
MEAN
5TOV
0/MR
MIN
MAX
MEAN
STOV
0/NR
MIN
• AX
MEAN
STOV
0/HP
2.5
247.1
32.3
52.10
25/ 2
33/226
29.4
58.6
43. ••
20.22
176/ 38
2/ 33
2.5
206.7
36.0
48.53
7/ 4
44/236
6.1
126.8
66.4
85.35
727 6
2/169
0.8
237.0
30.0
41.22
Of 1
59/246
6.1
126.8
55.1
52.32
220/ 27
4/494
0.8
247.1
32.5
46.16
67 6
136/729
8
95
67
23.3
I/ 9
25/177
48
48
48
0.0
417194
17 2
4
96
72
24.2
97 7
42/230
60
84
72
17.0
48/101
2/ 72
1
99
71
26.4
O/ 1
56/220
41
84
64
18.3
96/246
3/303
1
99
71
24.4
O/ 6
123/639
5
168
36
31.8
27 3
33/244
34
39
37
3.5
97/114
2f 30
6
123
43
25.0
If 9
42/231
11
21
16
7.1
5/198
2/ 43
6
152
42
28.6
Of 4
59/242
11
39
26
12.7
37/335
4/364
5
168
41
28.0
I/ P
134/724
6.8
9.7
8.1
0.70
97 2
33/238
7.5
8.T
8.1
0.85
807 22
2/145
5.2
10.6
7.8
1.10
17 0
44/246
7.3
8.5
7.9
0.85
857 30
2/130
6.1
10.3
7.8
0.77
4/ 0
597241
7.3
6.7
8.0
0.70
1927 58
47491
5.2
10.6
7.9
0.88
27 0
136/739
6.4
15.5
9.3
1.87
217 1
337223
5.6
9.2
7.4
2.55
447 19
2/183
3.3
16.0
7.3
2.73
4/ 1
44/ 24 1
2.8
5.4
4.1
1.84
27216
2/ 23
3.5
10.1
7.1
1.33
37 10
57/228
2.8
9.2
5.7
2.63
47151
47577
3.3
16.0
7.7
2.26
>07 2
134/720
10.9
28.8
18.3
5.50
18/ 1
33/229
28.2
28.2
28.2
0.04
1667 74
27 6
22.7
30.5
27.1
2.26
107 3
447233
19.9
22.5
21.2
1.84
1147 70
27 62
15.4
26.8
20.6
2.85
87 6
597232
19.9
28.2
24.7
4.18
2827 79
47379
10.9
30.5
22.2
4.97
197 3
136/718
0.015
1.159
0.147
0.2283
267 5
337218
0.064
0.693
0.078
0.0205
1447 71
27 32
6.668
1.474
0.182
0.3318
67 2
44/239
0.149
3.884
1.M6
2.0753
199/ 1
27 46
0.010
1.609
0.196
0.3439
117 2
59/233
3.064
3.084
0.147
1.4914
4157 1
47326
6.«88
1.609
0.160
0.3140
197 4
136/719
0.001
0.851
0.876
0.1*39
01 4
33/245
0.009
6.017
9.013
0.0056
105/ 84
11 58
0.002
0.969
0.077
0.1901
3/ 1
44/243
0.093
2.009
1.050
1.3548
2L7/ 0
2/ 28
6.604
1.255
0.112
0.2695
8/ 1
59/236
3.009
2.009
0.531
9.9853
275/ 0
4/46*
8.001
1.755
0.092
1.2259
O/ 1
136/740
0.038
T.557
1.041
1.9J76
4/ 2
33/243
0.074
0.165
9.119
0.0643
50/114
2/ 83
0.027
3.83*
0.521
0.8318
If 4
447242
0.170
0.809
0.489
0.4518
1467 35
27 65
0.017
2.564
0.355
0.5400
07 2
54/244
0.374
0.809
0.304
9.3392
1827141
47419
0. t!7
7.557
0.575
1.1529
07 2
1367740
0.022
0.524
8.046
O.OP64
Of 3
33/246
0.054
8.164
3.079
0.0353
28/107
27112
0.036
0.719
0.119
0.1096
17 O
447246
0.126
3.624
1.574
2.0491
191/ 0
2/ 55
0.020
0.979
0.118
0.1467
3/ 1
59/245
0.354
3.024
0.826
1.4649
151/ 8
4/591
0.020
O.979
0.112
0.1224
Of I
136/741
0.202
2.949
0.938
0.6850
217 6
337222
1.099
1.421
1.263
0.2326
1497 65
27 33
0.26!
4.0OO
1.184
0.9940
37 6
447236
1.849
8.199
5.023
4.4901
2147 6
27 32
0.243
4.399
1.303
1.0410
87 4
597234
1.399
8.199
3.143
3.3841
5227 0
47220
0.243
4.399
1.176
0.9552
187 10
1367714
10
215
85
66.1
07 7
337242
23
T3
46
35.4
737 87
27 87
10
240
61
56.8
07 9
447238
37
107
72
49.5
1027 64
27 63
10
291
9O
70.5
07 3
5*7246
29
107
Ml
37.8
2417188
47313
10
291
79
66.6
07 2
1367740
0.0
61.0
13.7
19.92
07 10
33/239
1.0
5.0
3.0
2.83
127141
27 94
0.0
61.0
10.9
13.78
07 11
447236
1.0
2.0
1.5
0.71
13/178
21 55
0.0
35.0
5.6
6.23
07 15
597231
1.0
5.0
2.?
1.89
32/419
4/295
0.0
61.3
9.3
13.52
97 20
136/722
0
1554
169
366.8
1124
6614
3869
3882.6
0
3057
135
465.2
1754
11422
6591
6832.8
O
6579
278
1134.5
1124
11422
5230
4801.5
0
8579
206
814.9
0.0
4.1
1.5
2.35
12.7
19.5
16.1
4.83
0.0
9.0
1.0
1.66
10.9
43.5
27.2
23.04
0.0
8.0
1.2
1.98
10.9
43.5
21.6
15.03
0.J
9.1
1.2
1.98
-------�
GENUS:CHLQREILA PAR
R
c n
u i c
N C
0
P N
0 0
U 1 N
N 0
0 C
c
R
0 0
U 2 C
N C
0
R N
O 0
U 2 N
N 0
0 C
C
R
P 0
U 3 C
N C
0
R N
0 0
U 3 N
1 0
0 C
C
R
O A 0
U L C
N L C
9
R N
0 A 0
U L N
M L 3
0 C
C
Mil
MAX
MEAN
STOV
N
0/HR
M I M
n i ft
MAX
MEAN
STOV
N
O/MR
MIN
MAX
MEAN
STOV
N
0/HR
MIN
MAX
MEAN
STOV
n
O/HR
MIN
MAX
MEAN
STOV
C/H9
MIN
MAX
MEAN
STOV
N
0/HR
MIN
MAX
MEAN
STOV
N
0/HR
MIN
VAX
MEAN
STOV
0/HR
CH.A
*.9
150.0
38.3
S7.23
73/ 5
6/169
0*
. 3
355. i
20.5
41.30
O/ 0
2*1/2*7
2.5
21.*
11.0
6.65
7/ 78
6/162
1.*
595.0
35.0
63.2*
O/ 0
2*1/2*7
4.7
5*. 4
13.*
16.33
*7/ 29
9/171
0.8
241.4
21.6
34.73
O/ 0
238/2*7
2.5
150.0
19.8
32.81
*6/ 17
21/678
0.3
595.0
26.*
48.30
O/ 0
720/7*1
TUIB seccHi PH
8 5 6.8
95 168 8.6
65 51 7.8
39.1 61.0 0.65
1/9 2/3 9/ 26
4/177 6/2** 6/21*
100 252 10.6
71 *3 7.9
20.2 35.5 0.73
0/00/0 0/0
183/187 243/2*9 2*3/2*9
*5 29 7.2
92 75 8.7
77 46 7.7
17.1 18.0 0.56
36/ 29 7*/ 40 5S/ 22
6/172 6/127 6/170
4 1 4.1
121 222 10.6
72 49 7.8
24.1 36.2 0.13
0/00/0 O/ O
231/237 235/241 241/2*7
54 26 6.1
91 1*4 9.1
82 60 7.1
10.9 37.0 0.93
39/ 42 57/ 6 */ 7
9/1*0 9/183 9/23*
1 6 *.7
1OO 185 10.3
7* 50 7.6
23.* 3*. 9 0.83
0/0 0/0 0/0
212/221 237/2*6 236/2*5
8 5 6.1
95 168 9.1
77 51 7.5
20.7 39.9 0.80
8/15 I/ 9 13/30
19/602 21/72* 21/698
1 I 4.1
121 252 10.6
72 47 7.8
22.8 35.6 0.83
0/0 0/0 0/0
626/645 715/736 720/7*1
00
3.8
9.7
7.5
2.24
*/ 75
6/166
19.2
9.0
2.01
O/ 0
239/2*5
5.7
9.8
7.0
1.46
SI/ 1*
6/181
1.0
17.8
7.0
1.99
01 0
2*0/2*6
1.9
9.4
6.2
2.29
I/ 17
9/223
1.6
13.5
7.4
1.57
O/ 0
212/2*1
1.9
9.8
6.8
2.05
2/ 97
21/633
0.7
19.2
7.8
2.07
O/ 0
711/732
TEMP
12.3
27.4
19.*
5.97
«!/ 8
6/199
28.9
17.*
5.59
O/ 0
2*2/2*8
25.5
29.8
27.7
1.71
a*/ u
6/151
17.1
32.2
26.6
2.36
O/ 0
2*0/2*6
15.6
27.2
21.5
4.50
1 1/ 3
9/232
9.0
29.6
20.*
3.19
O/ 0
237/246
12.3
29.8
22.7
5.40
42/ 11
21/487
A. 8
32.2
21.5
5.50
O/ 0
719/7*0
TOTALP
0.015
0.2*6
0.110
0.0950
26/ 19
6/20*
1.719
0.123
0.2339
O/ 0
2*3/2*9
O.015
0.370
O.1O2
0.13*8
31/ 20
6/196
0.00*
2.559
0.135
0.2839
O/ 0
2*1/2*7
0.012
0.192
0.0*7
0.0571
19/ 35
9/192
0.00*
4.549
O.159
0.4161
O/ 0
237/246
0.012
0.370
0.081
0.0948
59/ 5*
21/629
O.OO*
4.549
0.139
0.1197
O/ 0
721/7*2
TIAL DEPTH VALUES
ORTHQP
0.003
0.066
0.022
0.0260
27/ 31
6/191
OOft 1
• UU L
1.209
0.058
0.1661
O/ 0
2*3/2*9
O.O03
0.122
0.01*
0.0*65
9/ 20
6/218
0.001
1.191
O. 054
0.1*95
O/ 0
2*1/2*7
0.003
0.031
0.013
0.0101
2/ 72
9/171
3.001
2.009
O. 072
0.212*
O/ 0
236/2*5
0.003
0.122
0.022
0.0287
38/ 61
21/6*2
0.001
2.009
0.061
0.1777
O/ 0
720/7*1
N02N03
0.083
2.021
0.557
0.7522
36/ 30
6/183
9!745
0.877
1.4688
O/ 0
2*3/2*9
O.O3*
0.604
0.311
0.2*9*
ll/ *9
6/187
0.025
6.857
O.*98
0.893*
O/ 0
2*1/2*7
0.025
0.125
0.058
0.0309
12/116
9/118
0.017
4.469
0.352
O.55J2
O/ 0
237/2*6
0.025
2.021
0.273
0.4503
13/ 48
21/681
0.017
9.7*5
0.578
1.0776
O/ 0
721/7*2
NH3
0.05*
0.216
0.118
0.0708
SB/ 18
6/173
Om 9
m UC £
0.635
0.106
0.0959
O/ O
2*3/2*9
O.O*2
0.183
0.108
O.O*77
10/ 35
6/202
0.03*
0.719
0.120
0.0886
O/ 0
2*1/2*7
0.032
0.208
0.092
0.0612
2/ 23
9/221
0.020
3.02*
0.123
0.2270
O/ 0
237/2*6
0.032
0.216
0.10*
O.O587
7/ 61
21/674
0.020
3.024
0.116
0.1505
01 0
721/742
KJEL
0.282
1.750
0.894
0.5351
21/ 21
6/207
01 OO
• ITT
4.699
0.793
0.7017
O/ O
2*3/2*9
0.417
0.843
0.651
0.1824
35/129
6/ 83
0.215-
7.149
1.231
1.0871
O/ 0
241/2*7
0.294
1.649
0.74S
0.4666
21/ 41
9/184
0. 199
8.199
1.132
1.0712
O/ 0
237/246
0.282
1.750
0.761
0.4195
47/102
21/593
0. 199
8.199
1.051
0.9854
O/ 0
721/742
ALK
10
194
78
77.9
O/ 23
6/226
I ft
1 U
2*8
70
67.2
O/ O
243/249
11
95
14
3O.9
18/ 67
6/162
13
314
74
69.3
O/ 0
241/247
10
261
50
82.6
O/ 2
9/244
10
291
74
61.3
O/ O
237/246
10
261
53
69.2
0/11
21/711
1O
334
73
66.6
O/ 0
721/742
N/P
3.0
11.0
6.8
3.19
34/103
6/112
On
. w
142.0
18.9
25.37
Of 0
243/249
3.0
14.0
7.3
3.72
**/ 55
6/1*8
0.0
210.0
14.2
24.03
O/ 0
2*1/2*7
1.0
11.0
5.0
2.7*
13/ 50
9/183
0.0
90.0
9.8
IS. 12
O/ 0
237/246
l.O
14.0
6.2
3.19
32/180
21/530
0.0
210.0
14.3
22.31
O/ 0
721/742
CONC
0
8312
1398
3387.5
Q
0
0
0.0
0
383
223
136.8
0
0
0
0.0
0
5216
683
1711.2
0
0
0
O.O
0
8312
756
2063.0
0
0
0
0.0
PERC
0.0
IT.O
3.2
6.79
0.0
0.0
0.0
0.00
0.0
11.5
3.6
4.34
0.0
0.0
O.O
0.00
0.0
90.6
13.6
29.18
O.O
0.0
O.O
0.00
0.0
90.6
7.8
19.59
0.0
0.0
0.3
0.00
-------�
cfius :
c
0 0
u i a
N M
0
P N
C 0
U 1 N
N 0
C 0
•1
a
0 D
U Z 0
N M
0
R N
0 0
U Z N
N C
0 0
M
ft
0 C
U 3) O
N H
D
R N
0 0
U 3 N
N 0
0 0
H
11
0 A 0
U L 0
N L M
0
R N
0 A 0
U L N
NIC
0 0
H
•<10«LI» PAI1IAI OE»TM VALUES
MM
MAX
MEAN
STOV
0/WR
HIM
MAX
STPV
0/hR
KIN
1AX
MEAN
STDV
0/WR
MIN
MAX
MEAfc
STPV
0/WP
MIN
MAX
MFAK
STOV
O/WR
MIN
MIX
MEAti
0/WR
HIN
MAX
MEAN
STOV
0/WR
MIN
M»X
MEAN
STCV
0/WR
'HL«
153
150.)
15J. ?
J. ) 3
2«i/ 5
I/ 1
4.9
49. 1
I'. 9
le.to
73/ !)
5/S54
2. 5
J.5
3.33
7/239
I/ 1
7.1
12! s
S.77
59/ 78
5/113
6.7
t.7
t.7
7 e i \ 1 7
I/ 2
4.7
54. 4
14.]
16.92
47/ 29
8/171
2.5
153.3
?3.l
13. 11
46/ 17
2/i'S
4.7
54.4
14.3
14.47
l«4/ 88
18/539
TUB*
8
8
8
3.3
I/ 1
,t
95
84
10.5
36/ 9
if 92
39
89
99
3.0
1't/ I*
I/ 7
45
92
74
17.S
36/ 29
5/172
86
86
86
0.3
12 7/ 84
I/ 10
91
81
11.5
39/ 42
8/143
8
39
61
3/146
45
95
80
13.3
87/ 35
16/521
SE'CMl
5
5
5
3.3
2/245
I/ 2
9
163
63
63.4
ll/ 3
5/2?5
42
42
42
3.3
136/190
It i
29
75
47
Zi. 0
74/ *,->
S/127
33
33
33
3. 3
30/162
t/ 4
26
144
63
35.1
57/ 6
8/183
42
27
19.3
3/417
168
58
41.0
2 If 9
18/736
PH
8.6
8.6
8.6
3.33
2I5Y 24
i/ a
6.8
6.4
7.6
o.se
9/ -5
7.2
7.2
7.2
3.33
59/185
If 7
7.2
8.7
7.8
0.-6
55/ 22
5/-.70
6. 1
6.1
6.1
3.33
4/238
I/ 3
6.4
9. I
7.2
0.91
I2/ 7
S/226
6.1
8.6
7.3
1.25
13/ 72
3/655
6.4
7^5
0.75
3O/ 30
18/681
00
9. 1
e.l
9. 1
3. 10
1 1 31 1 3 E
I/ 1 3
3.9
9.7
7.2
4/*75
t.7
t.7
3.33
111/12''
i/ a
5.7
9.9
->. 3
1.62
5/1 Cl
8.e
a. a
9.9
3. 11
207/ >•!
I/ 4
9l4
5.9
2.22
I/ 17
J/2J3
6.7
9. 1
9.2
1.31
1.9
t.9
6.6
2.09
2/ 97
TCUD
12.3
12.3
12.3
a. 10
41/203
I/ 4
14.6
27.4
20.8
5/135
2S.8
29.9
2«.8
3. 33
231/ 11
If 4
25.5
29.1
27.2
1.56
5/128
17.1
17.1
17.1
1.33
32/211
I/ 3
15.6
27.2
22.1
4.48
ll/ 3
8/252
12.3
29.8
IS. 7
9. 34
42 / II
3/687
14.6
29. |
23.2
4.78
UO/ 35
18/345
TQTALO
3.164
0.164
0.134
0.0030
217/ 31
I/ 1
0.015
3.246
0. 095
0.0052
26/ 19
5/>14
3.315
0.015
o.oi 5
3.33)1
31/238
I/ 8
O.J15
0.370
0. 123
J.14J6
5/196
0.314
0.014
0.013
3.33)3
2t/21'
I/ 3
0.012
0.192
3.3S1
0.0595
19/ 35
8/192
O.CI4
0.194
0.37J
0.3979
77/104
3/559
0.012
C.370
3. 382
0.3971
59/ 54
18/629
r.TMCO
3.315,
a.ai:
0.015
3.0003
143/1 j;
I/ 4
J.JJ3
3. 3S6
0.023
C.3288
27/ 31
5/1 = 1
3.333
3.093
1.1O1S
c/225
I/ 13
0.335
0.122
0.340
'.B/ 23
5/189
9.333
0.032
0.003
3.3313
2/237
I/ 6
3.034
.'.CM
1.Q15
28/ 72
8/145
0.002
3.015
3. J37
3.3369
33/315
0. 00;
0.122
3.324
0.33J3
38/ 1-1
18/642
NC2N03
2.321
2.321
2..V1
3.0->39
21B/ 30
I/ 1
J. 383
3.664
C.214
3.25-6
36/ 77
5/131
3.551
0.351
O.3330
25/223
It 2
3.334
S.634
0.363
3.2397
ll/ 49
5/18T
3.329
0.029
O.029
).1J33
I/ 9
0.025
P. 125
0.062
3.1339
12/1 16
e/ite
C.029
2.021
0.700
1.1437
25/ 48
3/669
0.325
0.664
3.232
13/161
1 8/566
NH3
J.354
0.054
.-.054
O.O009
5S/l?S
t/ 3
0.073
3.216
0 . 1 1- I
J.0709
\ 15/ 18
5/Ut
3.376
3.376
0.0030
77/167
I/ 3
0.042
3.163
0.114
O.0504
13/ 35
5/232
3.349
0.049
0. C*8
3.3333
45/l°0
I/ U
0.032
0..-08
0.097
0.0610
21 23
8/221
3.349
O.076
0.059
3.3143
109/409
3/224
0.032
0.216
3.111
0.0602
18/674
KJEL
I. 750
1.750
1.753
0.30OO
227/ 21
I/ 1
0.282
1. J93
0.'22
0.371 8
111 39
S/199
3.625
0.625
T. 625
O.0300
87/15S
It I
3.417
3.843
0.656
0.2334
35/129
V 93
3.599
O.590
O. 598
3.3333
I/ 6
0.254
1 . 649
O.762
0.4953
21/ 41
8/184
3.599
1.750
0.991
3.6571
287/132
3/353
O.262
1.649
3.722
9. 3812
47/115
18/580
AL*
155
155
155
0.0
20t/ 42
I/ 1
10
194
62
76.1
3/ 23
5/226
11
11
II
1.0
19/223
If 9
IS
95
38
32.2
53/ 67
5/127
13
10
IP
0.0
3/225
I/ l\
13
261
56
86.8
28/ 2
8/216
10
155
59
63.4
0/1J8
3/A34
10
261
53
69.3
O/ 11
18/731
N/P
11.0
1 1.0
11.3
O.OO
142/103
I/ 4
3.0
13. 3
4.0
2.71
34/117
5/108
8.0
8.9
8.0
0.00
138/ 99
I/ 13
3.8
14.3
7.2
4.15
44/ 55
*/!48
5.3
9.0
5.0
0.00
116/110
I/ 23
1.0
11.0
5.0
2.C3
13/50
8/183
5.0
11.0
8.0
3.30
264/221
3/257
1.0
14.0
5.9
3.20
32/180
18/530
CCNC
6:12
8312
8312
0.0
0
52
1 5
22.8
202
302
302
0.3
0
383
207
146.6
5236
5236
5236
0.0
a
366
114
122.9
992
8312
4617
4343.6
0
383
112
129.8
0£»C
I J. C
1 7. 0
1 1.1
c.oo
0.0
1.8
0. 4
C.77
11.5
11^5
O.OC
0.0
5.1
2.0
2.10
10.6
9P.6
C. 1C
0.0
10.3
4.0
4.46
11. S
90.6
39.7
44.19
0.0
If.O
2.4
3.43
-------�
5ECCM1
00
PARTIAL DEPTH VALUES
TEMP IOTALP ORTHQO N02M03
UH3
K.JEL AI.K
HI?
CONC PERC
p
0 1
U 1 C
N C
0
P N
0 0
U 1 N
N 0
O C
C
«
0 O
U 2 C
N r.
0
• N
0 0
U 2 N
H •}
9 C
C
R
O O
U 3 C
N C
0
D N
a o
U 3 N
N Q
3 C
C
a
C * 0
U L C
NIC
0
4 N
Oil
U L N
N 1 O
O C
C
*[»•
KAX
M5AN
STDV
H
0/wa
HIN
»AX
HE«N
STBtf
N
C/N"
HIN
>t»X
"EAN
STDV
«
0/u<
C]N
"AX
MEAN
STV
N
0/w«
HIN
fax
MEAN
STOV
*
C/««
MIN
«A»
«EAN
SIDV
*
0/u*
H|N
MIX
MEAN
STOV
N
0/*1
H IN
••AX
ff AN
STOV
N
C/W
2. «
150.0
13. 2
43.T7
26/ 3
11/216
0.3
355.6
20.4
41.24
O/ 0
236/247
3.0
595.0
80.9
111.95
12/ 0
29/235
1.4
456.6
28.3
49.44
O/ 1
218/246
2.0
IT1.5
39.4
38.02
13/ 3
36/231
0.6
2*1.4
2O. 3
32.04
O/ 0
211/247
2.0
595.0
54.6
77.76
36/ 0
76/705
0. 3
456.6
22.4
42.12
O/ 1
665/740
8
96
63
30.2
It *
7/182
6
100
71
20.2
O/ 0
190/187
5
92
54
28. 5
I/ 29
28/297
4
121
75
22.2
O/ 0
209/237
6
92
69
22.6
2/ 36
11/183
1
100
75
23. 1
O/ 0
190/221
5
96
62
26.6
3/ IB
66/624
t
121
74
22.0
O/ 0
579/645
5
127
44
35.1
2/ 10
11/237
2
252
44
36.3
O/ 0
2JB/249
6
63
2B
I*. 5
I/ 54
29/186
1
222
5!
36.4
O/ 0
212/241
8
78
30
11.9
2/ 46
36/148
6
185
54.
36. 3
O/ 0
213/246
5
127
32
14.2
3/ 31
76/702
1
252
49
36. 7
Of 0
660/736
7.2
9.6
8.2
0.66
J7/ 5
11/207
S.I
1O.6
7.9
3.73
91 0
238/249
6.4
1O.6
B.I
o.es
IS/ 0
29/232
4.1
10.3
7.7
0. 84
O/ I
218/246
6.8
10.0
a. a
0.76
39/ 1
36/205
4.7
10. J
7.S
0.83
O/ 0
239/245
6.4
10.6
8. 1
O.TT
30/ O
76/711
4.1
10.6
7.7
0.81
O/ 0
665/741
7.7
10.9
4.2
1.02
*2/ 27
11/176
0.7
14.2
9.0
2.06
O/ 0
234/2*5
3.1
14.2
7.0
2.11
It 3
28/242
3.0
17.8
7.0
1.47
Of 0
218/246
5.6
11.4
7.4
1.39
25/ 2
36/214
1.6
13.5
7.3
1.65
i>/ o
205/2*1
3.1
14. Z
7.S
1.79
11 S
75/720
0.7
19.2
7.8
2.1O
O/ 0
657/732
11.8
23.9
16.1
4.11
30/ 53
11/165
6.8
28.9
17.6
5.65
O/ 0
237/248
23.8
30.1
27. 6
2.0«
21/ 6
29/219
17.3
32.2
26.5
2.36
o/ a
217/246
17.6
26.8
21.4
2.50
**/ 6
36/196
9.0
29.6
20.3
3.33
Of 0
210/246
11.8
30.1
23.0
*.8l
3I/ 6
76/703
6.8
32.2
21.3
J.5*
O/ 0
664/740
0.006
O.529
9.113
0.1476
3/ 11
1 1/235
0.004
1.719
0.123
3.2348
O/ 0
238/249
0.007
1.599
O.335
0.4328
*/ 1
24/242
0.004
2.559
0.108
0.2436
O/ 0
218/247
0.028
1.609
0.268
0.3824
68/ 2
36/176
0.004
4.544
0.135
0.4,111
O/ 0
210/246
0.006
1.639
0.271
0.3827
7/ 4
76/T31
0.004
4.549
0.122
0.3031
Of 0
666/742
O.O02
0.380
3.051
0.1115
ID/ 9
11/230
0.001
1.204
0.057
0.1664
O/ 0
238/2*9
0.003
1.191
0.181
0.33**
9/ 0
24/238
0.001
0.609
0.036
0.0888
O/ 3
218/244
O.O04
1.255
0.149
0.3104
8/ 1
36/236
O.OOI
2.009
3.O56
0.1835
O/ 0
209/2*5
0.002
1.255
0.147
O. SO 93
I4/ 1
76/726
0.001
2.004
0.050
0.1520
O/ 0
665/741
0.072
5.745
1.260
1.7224
33/ 7
11/209
O.024
9.74.5
0.852
1.4647
O/ 0
238/249
0.050
2.644
0.327
O.5280
21/ 10
29/216
0.025
6.857
0.516
0.4192
a/ o
218/247
O.O24
1.709
0.3O7
0.4027
6/ 8
36/232
O.OI7
4.4.69
0.348
0.5694
01 0
210/246
0.024
5.745
0.453
3.8290
6/ 8
76/728
0.017
9.7*5
0.583
1.0895
O/ 0
666/742
0.034
0.161
0.070
O.0360
If 4O
11/200
0.022
0.635
0.1O8
0.0469
01 O
238/249
0.04.1
0.376
0.117
O.0686
9/ 6
29/232
0.034
0.719
0.120
0.0902
O/ O
218/247
0.041
0.567
0.113
O.0481
17/ S
36/224
O. 02O
3.024
0.124
O.2382
D/ O
210/246
0.034
0.567
0.108
0.0817
IS/ 7
76/722
0.020
3.024
0.117
0.1545
at a
666/742
0.386
1.832
0.894
0.5360
64/ 17
11/168
O. 194
4.644
O.791
0.7046
01 0
238/244
0.424
5.644
1. 796
1.2040
36/ 3
29/208
0.215
7.149
1.140
1.0388
O/ 0
218/247
0.242
S.394
1.642
1.2703
7/ 2
36/237
0. 199
8.149
1.324
0.9923
Of O
210/246
0.242
5.699
1.592
1.1922
16/ S
76/721
0.194
8.199
0.980
0.9276
O/ 0
666/742
Ib
216
123
70.5
66/ 6
11/177
10
248
68
66.3
01 0
23B/2V9
10
180
77
44.5
O/ 20
29/227
10
334
73
71.5
O/ 0
218/24-7
14
222
3*
48.4
32/ 6
36/208
10
291
71
66.3
01 0
210/246
10
222
87
52.2
O/ 25
76/717
10
334
7O
68.0
Of 0
666/742
0.0
87.0
28.3
34.51
01 7
11/242
0.0
142.0
18.2
24.63
o/ a
238/249
0.0
103.0
8.6
21.69
01 3
24/2*4,
0.0
210.0
14.8
23.48
01 0
218/2*7
0.0
3S.O
5.0
6.90
Of 15
36/231
0.0
90.0
10.4
1S.T2
01 0
210/2*6
O.O
103.0
9.7
20.45
O/ 8
76/73*
0.0
210.0
1*.6
22.17
O/ 9
666/742
0
132
28
42.5
0
0
0
0.0
0
3080
312
620.7
O
O
a
0.0
0
2SB7
S3*
6S5.0
O
0
O
0.0
O
3080
281
596.2
0
O
0
0.0
0.0
1.7
O.4
0.61
0.0
O.O
0.0
O.OO
0.0
5.5
0.7
1.14
0.0
0.0
0.3
0.00
0.0
3.9
0.6
0.89
0.0
0.0
0.0
O.OO
0.0
5.5
0.6
0.96
0.0
O.O
O.O
O.OO
-------�
GENUSiCHLOROCCNIUM
CHLA
TURB SECCHI
00
TEMP
PARTIAL DEP7H VALUES
TOTAL? ORTHOP NQ2N03
NH3
KJEL
CONC PERC
*
0 D
U 1 0
N H
0
R N
0 0
U 1 N
N 0
0 0
1
*
a o
U 2 0
k N
D
R N
0 0
U Z N
N 0
0 0
M
*
O D
U 3 0
N M
D
R N
0 0
U 1 N
N 0
0 0
M
R
0*0
U L 0
N L K
0
• N
C * 0
U L N
N L D
0 0
N
MIN
MAX
MEAN
STDV
N
0/WR
MIN
MAX
MEAN
STDV
N
0/WR
HIN
MAX
MEAN
STDV
N
0/WR
MIN
MAX
MEAN
STOV
N
0/MR
HIN
MAX
MEAN
STOW
H
C/MR
NIN
MAX
MEAN
STDV
N
0/WR
HIN
MAX
MEAN
STOV
N
0/HR
MIN
MAX
MEAN
STOV
N
0/MR
2.6
150.0
33. Z
*3.77
26S 5
11/216
3.0
595.0
80.9
111.95
12/ t
29/23 5
Z.O
171.5
39.9
38.02
13/ 3
36/231
2.0
595.0
54.6
TT.76
36/ 0
76/70)
a
96
63
30.2
I/ 4
7/182
9
92
5*
28. S
I/ 29
28/207
6
92
69
22.6
2/ 36
31/183
5
96
62
26.6
3/ 18
66/*Z4
S
127
44
35.9
2/ 10
11/237
6
63
28
I*.*
I/ 5*
29/186
8
72
39
13.9
2/ 46
36/198
5
127
32
19.2
3/ 31
76/702
7.2
9.6
8.2
0.66
37/ 5
11/207
6.*
10.6
8.1
0.85
IS/ 0
29/232
6.8
10.0
8.0
0.76
39/ 1
36/205
6.4
10.6
8.1
0.77
JO/ 0
76/711
7.7
10.9
9.2
1.02
42/ 27
11/176
3.1
14.2
7.0
2. If
I/ 3
2B/24Z
5.6
11. *
7.4
1.39
25/ 2
36/21*
3.1
I*. 2
7.5
1.79
7/ 5
75/720
11.8
23.9
16.1
*.ll
3t/ 53
11/165
23.8
30.1
27.6
2.04
21/ 6
2S/219
17.6
26.8
21.4
2.50
44/ 6
36/196
11.8
30.1
23.0
4.81
31/ 6
76/703
0.336
0.529
O.113
0.147k
3/ 11
11/235
0.007
1.599
0.335
0.4328
4/ I
29/242
0.028
1.609
0.268
0.3829
68/ 2
36/176
0.036
1.609
0.271
9.1827
11 »
76/731
0.092
0.380
0.051
0.1115
IO/ 9
11/230
0.003
1.191
0.181
0.3344
9/ 0
29/238
0.004
l..'F5
0.149
0.3104
8/ I
36/236
0.002
1.255
0.147
0.3903
14/ 1
76/726
0.072
5.795
I.Z6C
1.7224
33/ 7
11/209
0.050
2.694
0.327
0.5280
21/ 10
29/216
0.024
1.709
0.307
9.4027
6/ 8
36/222
0.024
5.795
0.453
0.8290
6/ 8
76/728
0.034
0.161
0.070
0.0360
9/ 40
ii/2op
0.041
3.376
0.117
0.0686
9/ 6
29/232
0.041
0.567
0.113
0.0981
17/ 5
36/224
0.034
0.567
0.108
0.0817
13/ 7
76/722
0.386
1.832
0.894
0.5360
64/ 17
11/168
0.424
5.699
1.796
1.2940
36/ 3
29/208
0.242
5.399
1.642
1.2703
7/ 2
36/237
0.242
5.699
1.592
1.1922
16/ 5
76/721
16
216
123
70.5
66/ 6
11/177
10
180
77
44.5
O/ 20
29/227
14
222
84
48.4
32/ 6
36/298
10
222
87
52.2
I/ 25
76/717
0.0
87.0
28.3
34.51
O/ 7
11/242
0.0
103.0
8.6
21.69
01 3
29/244
0.0
35.0
5.0
6.90
0/15
36/231
0.0
183.0
9.7
20.45
O/ 8
76/734
0
132
28
42.5
0
3080
312
620.7
a
2587
334
655.0
0
3O80
281
596.2
0.0
1.7
0.4
0.61
0.0
5.5
0.7
1.14
0.0
3.9
O.t
0.89
0.0
5.5
0.6
0.96
-------�
GENUSiCHRCNUMNl
CHLA
TUR!« SECCMT
00
PAPTTAL DEPTH VALUES
TOT4LP ORTMOP N02N03
NH3
KJEL
N/P
CONC
f
a
U 1
N
D
e
0
U 1
N
0
•
0
U 2
N
0
R
0
U 2
N
D
II
0
U 3
•1
D
q
0
U 1
N
0
II
g *
U L
N L
0
a
0 »
U L
N L
0
0
c
c
N
0
N
0
c
c
0
c
c
•1
a
N
p
e
c
0
r
C
0
11
fl
c
e
o
c
c
N
n
N
0
C
c
"IN
• II
MEAN
STBV
M
0/W«
"IN
MAX
"E«N
5TDV
w
G/*«
KIN
«»X
WE*N
STOV
N
0/WP
"IN
MIX
ME AH
STOV
•«
0/riR
M1N
• U
«E»S
S'?V
H
"/«•
Nl •*
1 •«
»AX
"'AN
ST->V
N
0/rfO
HIN
fax
WE«N
STBV
*
0/M«
"IN
«
n/wi
O. }
155.6
21. 0
41.40
O/ 0
2*7/2*'
10.0
10.0
10.0
0.00
91/1*5
I/ 3
1.4
S9S.O
3*. 5
62.69
»/ O
246/2*7
27. 0
27. 0
27.0
0.00
187/ 59
I/ 1
Op
• a
241.4
23.2
34. 33
O/ 0
24t/247
10.0
27.0
18.5
12.92
357/160
2/204
0.3
595.0
26.2
AT. 99
O/ 0
739/7*1
6
100
71
20. 6
O/ 0
187/117
96
96
96
0. O
22 7/ 7
I/ 3
*
121
72
24.0
O/ 0
236/237
6
6
6
0.0
2/218
I/ 1
130
7*
22.7
O/ 0
220/221
6
96
51
63.6
5/18
Z/622
1
121
72
Z2.6
O/ 0
643/6*5
2 5.3 0.7 4.8 0.00* 0.001 0.02*
252 10.6 19.2 26.9 1.719 1.209 9.745
44 7.9 9.O 17.5 0.123 0.057 0.870
36.2 0.73 2.02 5.59 0.2314 0.1642 1.4754
o/o o/o o/o o/o o/o o/o a/ o
2*9/249 249/249 245/245 248/241 249/249 249/249 749/249
96 6.2 7.0 26.7 O.O08 0.002 0.029
96 t.Z 7.0 26.7 O.O08 O.002 0.029
96 6.2 7.0 26.7 0.007 0.001 0.029
3.0 0.00 0.00 0.00 O.OOOO 0.0000 O.OOOO
215/ 25 7/236 I31/1OI 124/120 6/231 3/218 4/24O
1/1 1/4 I/ 14 1/2 1/3 1/6 1/3
1 4.1 3.0 17.3 0.004 0.001 0.025
222 13.6 17.8 32.2 2.559 1.191 6.B57
49 7.8 7.0 26.6 0.135 0.053 0.495
)5.7 0.89 1.99 2.35 0.2816 0.1482 O.B849
0/3 3/0 D/ 0 O/O 0/0 0/0 O/O
240/241 246/247 245/246 245/246 246/247 246/Z47 246/247
14 8.1 5.9 18.2 0.116 O.O53 1.202
14 8.1 5.9 18.2 0.116 0.053 1.2O2
14 8.1 5.9 18.2 0.116 0.052 1.202
0.0 0.00 0.00 0.00 0.0000 0.0000 0.0000
14/228 166/ 71 38/202 60/182 186/ 59 202/ 41 22S/ 20
1/4 I/ 3 1/1 1/4 I/ 1 1/2 1/1
185 10.3 13.5 29.6 4.549 2.009 4.469
51 7.6 7.3 20.4 0.155 0.070 0.338
35.0 0.84 1.61 3.25 0.4099 0.2092 0.5461
0/0 0/0 0/0 0/0 0/0 0/0 0/0
245/246 244/245 240/241 2*5/2*6 245/246 2*4/2*5 245/246
14 6.2 5.9 IB. 2 0.008 0.002 0.029
96 8.1 7.0 26.7 0.116 0.053 1.202
55 7.1 6.4 22.4 0.061 0.027 0.615
58.0 1.34 0.78 6.OI 0.0763 0.0360 0.8294
58/ 77 16/242 116/453 213/145 19/168 14/121 25/ 91
2/60L 2/483 2/163 2/382 2/555 2/606 2/626
1 4.1 0.7 6.8 0.004 0.001 0.317
2S2 10.6 19.2 32.2 4.549 2.004 9.745
48 7.8 7.8 21.5 0.137 O.060 0.569
35.7 O.B3 2.07 5.50 0.3161 0.1755 1.06TO
0/0 0/0 0/0 0/0 O/O 0/0 0/0
734/736 739/741 730/732 738/740 740/742 739/741 740/742
0.022
0.635
O.107
0.0953
O/ 0
249/249
0.039
0.039
0.039
0.0000
1/2*3
I/ 1
0.034
0.719
0.120
0.0878
O/ 0
246/247
O.O92
0.092
0.092
0.0000
159/ 84
I/ 3
0*020
3.O24
0.122
3.2236
O/ 0
245/2*6
0.039
0.092
0.065
O.O37*
35/303
2/404
0.020
3.024
0.116
0.1489
O/ O
740/742
0.199
4.699
0.796
0.6975
O/ 0
249/249
0.349
0.349
0.348
O.OOOO
17/228
I/ 2
0.215
7.149
1.220
1.0785
O/ 0
246/747
0.832
0.832
0.832
0.0000
128/117
I/ 1
0. 199
8.199
1.119
1.0592
O/ 0
245/246
0.349
0.832
0.590
0.3415
99/322
2/321
3.199
8.199
1.044
0.9759
o/ o
740/742
10
248
70
67.3
O/ 0
249/249
10
10
10
0.0
O/229
I/ 18
10
334
74
68.9
Of 0
246/247
222
222
222
0.0
239/ 6
I/ 1
10
291
72
63.5
O/ 0
245/246
10
222
116
149.9
O/ 25
2/717
13
334
72
66.5
01 0
740/742
0.0
142.0
18.6
25.14
O/ O
249/249
8.0
8.0
8.0
a. oa
138/ 99
I/ 10
0.0
210.0
14.1
23.81
O/ 0
246/247
11.0
11.0
11.0
0.00
187/ 50
I/ 9
OH
• U
90.0
9.6
14.90
01 0
245/246
•.0
11.0
9.5
2.12
417/221
2/104
0.0
210.0
14.1
22.07
O/ 0
740/742
0
0
0
0.0
1O37
1037
1037
0.0
0
0
0
0.0
0
0
0
0.0
g
0
0
0.0
0
1037
519
733.1
0
o
0
0.0
0.0
0.0
0.0
0.00
20.1
20.1
20.1
a.oo
0.0
0.0
0.0
0.00
0.0
0.0
0.0
o.oo
On
• u
0.0
0.0
O.JO
o.a
20.1
10.0
14.21
0.0
O. 0
0.0
0.00
-------�
GENUStCHPOMULINA
CHI A
TURB SECCHI
00
PARTI it DEPTH VALUES
TQTALP ORTHQP -102N03 "H3
KJEL ALK
CONC
R
0
U
N
0
R
0
u
N
0
R
0
U
N
0
R
3
U
N
g
R
O
U
N
0
R
0
u
N
0
«
0
u
n
0
a
0
u
N
0
0
1 1
*
N
0
1 N
0
a
M
0
2 0
i|
1
a
2 N
0
0
M
0
3 0
M
N
0
3 N
0
n
M
• 0
L 0
L «
N
* 0
L N
L D
C
<•
MIN
••AX
MEAN
STBV
N
O/WR
MIN
MAX
MEAN
STOV
N
0/W«
HIM
MAX
MEAN
STOV
N
(?/*«
KIN
• AX
WEAN
STOV
N
O/MR
KIN
MAI
MEAN
STOV
N
C/HR
MIN
MAX
MEAH
STOV
N
C/WR
HIM
MAX
MEAN
STOV
N
O/WR
"IN
X»K
MEAN
srcv
N
O/WR
10.0
10.0
10.0
0.»D
99/1*5
I/ 3
27.0
27.0
27. 0
0.33
11 T/ 59
I/ 1
10.0
10.0
to. a
0.00
357/390
I/ 4
ZT.O
Z7.0
27.0
0.00
559/180
I/ 2
96
96
96
0.0
22 7/ 7
I/ 3
A
6
6
0.0
2/218
I/ 1
96
96
96
0.0
»10/ IB
I/ 17
*
6
6
0.0
5/638
I/ 2
96
9*
96
0.3
215/ 25
I/ I
14
1*
14
0.0
14/228
I/ *
96
96
96
0.3
6«7/ 77
I/ 2
14
14
14
3.3
58/669
I/ 9
6.2
6.2
6.2
0.00
7/236
I/ *
8.1
8.1
8.1
3.39
lit/ 71
I/ 8
6.2
6.2
6.2
0.00
16/719
I/ 6
8.1
8.1
8.1
0.00
46.9/242
I/ 36
7.3
7.0
7.0
3.00
131/101
ir 14
5.9
5.9
5.9
3.3)
38/232
I/ 1
7.0
7.0
7.0
0.33
259/453
I/ 20
5.9
5.9
S.9
3.00
116/612
I/ 4
26.7
26.7
26. T
9.30
124/120
I/ 2
18.2
18.2
18.2
0.00
60/182
I/ 4
26.7
26.7
26.7
0.00
589/145
I/ 6
18.2
IB.2
10.2
0.00
213/523
I/ 4
0.008
0.008
0.007
0.0000
6/238
I/ 3
3.116
0.116
0. 116
0.0390
186/ 59
I/ I
0.008
0.008
0.007
0.0000
19/713
11 10
3.116
0.116
0.116
0.0033
S71/168
I/ 3
O.OO 2
0.002
0.001
3.0393
3/236
I/ 6
3.053
0.353
0.052
O.3033
202/ 41
I/ 2
0.092
0.002
0.001
0.0000
14/703
I/ 24
0.353
0.053
0.052
3.3000
619/121
I/ 2
0.329
0.029
0.029
3.3303
4/240
I/ 3
1.232
1.232
1.202
3.OOOO
22!/ 20
I/ 1
0.324
O.O29
0.029
3.0000
25/705
I/ 12
1.232
1.Z02
1.202
3.0390
650/ 91
I/ 1
0.039
0.039
0.039
0.0030
3/243
I/ 1
3.092
0.092
O.O92
O.OOOO
159/ 84
If 3
0.039
0.039
0.039
0. 0000
35/733
I/ 7
0.392
0.092
O. 092
O.OOOO
433/303
L/ 6
0.349
0.349
O.346
O.OOOO
17/226
I/ 2
0.832
0.832
0.832
O.OOOO
128/117
I/ 1
3.349
3.349
0.348
0.0000
99/639
I/ 4
0.832
O.832
0.832
o.aaaa
416/322
I/ 4
10
10
10
0.0
0/229
I/ IS
222
222
222
0.0
23S/ 6
I/ 1
10
10
10
0.0
0/668
I/ 74
222
222
222
7.3
716/ 25
I/ 1
8.0
8.0
e.o
O.OO
138/ 19
11 1O
11.0
11.0
11.0
0.00
187/ 50
I/ •)
8.0
8.0
8.0
0.00
417/332
I/ 23
11.0
11.0
11.0
0.00
500/221
I/ 21
1037
1037
1037
0.0
0
0
3
0.0
1037
1337
1037
0.0
0
a
0
0.0
20.1
20.1
20.1
0.00
0.0
0.0
0.3
O.OO
20.1
20.1
20.1
0.00
0.0
0.0
0.0
0.00
-------�
GfNUS:CHROOCOrCUS
CHI A
TUP9 SECCHI
PARTIAL DEPTH VALUES
T?MP TOTAV.P ORTHOP N02N03
NH3
KJEL ALK
N/P
CONC PERC
Q
U I
H
o
o
0
U I
N
o
a
0
U 2
9
q
c
U 2
N
a
0
U )
N
q
e
0
U 3
N
o
o
0 A
U L
•1 L
3
A
U L
N L
0
0
c
c
M
0
N
0
c
c
0
c
e
^
o
N
3
C
o
c
c
N
o
N
o
c
c
.J
c
c
Jj
N
o
MIN
MAX
MEAN
STOV
0/WR
MIN
MAX
MEAN
STOV
0/WR
MIN
MAX
MEAN
STOV
O/WR
MIN
MAX
MEAN
STOV
0/WR
H1N
MAX
MEAN
STOV
0/WR
MIN
MAX
MEAN
STOV
0/WR
MIN
MAX
MEAN
STPV
0/WR
MIN
MAX
MEAN
STOV
1.2
247.1
35.6
54.1*
7/ 2
30/238
0.3
355.6
18.9
39.34
Of 0
217/247
2.5
595.0
59.0
93.87
T/ 0
74/2*0
1.4
312.9
23.9
38.63
Of 2
173/245
0.8
171.5
28.8
33.65
Of 3
75/2**
0.8
241.*
20.8
3*. 3*
Of 0
172/2*7
0.8
595.0
42.4
69.01
6/ 0
179/735
0.3
3*5. b
21.0
3T.53
O/ 2
6
95
73
20.3
3/ 9
26/178
a
100
70
20.7
I/ 0
161/186
^
107
68
26.5
3/ 1
72/236
5
121
74
22.6
If 0
165/236
I
97
75
21. 8
Of 2
72/219
3
100
T3
23.7
I/ O
1*9/220
1
107
72
23.8
Of 1
170/6*4
3
121
'3
22.4
I/ 0
5
132
41
31.9
2/ 4
30/243
2
252
44
36.8
Of 0
219/249
6
222
43
33.2
If 0
73/2*0
1
216
51
36.7
Of 1
168/240
4
157
45
30.2
Of 3
75/243
7
185
53
36.7
I/ 0
171/245
5
222
44
31.5
if 1
178/732
1
252
49
36.9
Of 0
6.8
9.7
8.1
0.74
9/ 2
30/238
5.3
10.6
7.9
0.72
Of 0
219/249
6.2
10.6
8.0
0.89
7/ O
74/2*0
*. 1
10.3
7.7
0.87
Of I
173/2*6
6.5
10.0
7.8
0.88
19/ 1
75/225
*. 7
10.3
7.5
0.81
Of O
170/2*5
6.2
10.6
7.9
0.87
16/ 0
179/725
*. 1
10.6
7.7
0.81
O/ 0
5.3
12.3
8.3
1.77
ll/ 6
29/228
0.7
19.2
9.1
2.0*
Of 0
216/2*5
3.1
1*.2
7.1
1.66
If 3
73/2*2
3.0
17.8
7.0
2.11
Of 0
173/2*6
*.O
11.4
7.8
1.31
5/ 2
72/234
1.6
13.5
7.1
1.69
Of 0
169/241
3.1
14.2
7.6
1.60
7/ 5
174/720
0.7
19.2
7.8
2.20
Of 0
9.3
28.9
21.2
5.80
5/ 0
30/2*3
6.8
28.8
17.0
5.38
O/ 1
218/2*7
20.1
30.5
27.6
2.08
If 3
73/2*2
17.3
32.2
26.2
2.34
Of 0
173/2*6
15.7
27.8
21.7
3.11
12/ 2
75/232
9.0
29.6
19.9
3.16
or o
171/2*6
9.3
30.5
24.0
4.49
6/ 3
178/731
6.8
32.2
20.7
5.54
or o
0.012
0.701
0.132
0.1731
16/ 9
30/22*
0.00*
1.719
0.121
0.2386
Of 0
219/2*9
0.008
1.599
0.196
0.3255
»/ 1
7*/240
0.00*
2.559
0.108
0.256*
Of 0
173/2*7
0.010
1.609
0.209
0.3531
ll/ 2
75/233
0.00*
4.549
0.131
0.4302
Of O
171/246
0.008
1.609
0.191
0.3176
19/ 4
179/719
0.00*
4.5*9
0.120
0.3135
Of 0
« 4. * I It- •»
0.001
0.616
0.056
0.1301
Of 5
30/2**
0.001
1.209
0.057
0.1686
Of 0
219/249
0.002
1.191
0.105
0.2331
3/ 0
74/244
0.001
0.609
0.031
0.0811
Of 3
173/244
0. DO*
1.255
0.130
0.2715
8/ 1
75/236
O.OO1
2.OO9
O.O*3
0.1683
Of 0
170/245
a. ooi
1.255
0.107
0.2373
Of 1
179/740
0.001
2.039
0.045
0.1474
Of 0
C A •• * •»*. 1
0.024
4.389
0.369
0.8456
O/ 9
30/240
0.025
9.745
0.938
1.5304
If 0
219/2*8
0.027
3.679
0.252
0.5026
If 5
7*/2*l
0.025
6.857
0.597
0.9868
Of 0
173/2*7
0.019
1.709
0.173
0.2907
I/ 8
75/237
0.017
*.*69
O.*16
O.614S
Of 0
171/246
0.019
4.389
0.239
0.5099
I/ II
179/730
0.017
9.745
0.675
1.1705
Of 0
Kd. » / TA. 5
0.034
O. 554
0.120
0.1168
9/ 1
30/239
0.022
0.635
0.105
0.0921
Of 0
219/249
0.036
0.719
O.125
0.1061
If 0
74/246
0.034
0.565
0.117
0.0789
Of 1
173/246
0.020
0.979
0.106
0.1617
Of I
75/245
0.031
3.02*
0. 129
0.24S4
If 0
171/245
0.020
0.979
0.116
0.1334
Of I
179/7*1
0.022
3.024
0.116
0.1534
If 0
«Jk1ST4. 1
0.304
3.199
1.198
0.9143
30/ 3
30/216
0.199
4.699
0.741
0.6457
Of 0
219/249
0.299
7.1*9
1.762
1.4140
6/ 0
74/241
0.215
6.250
0.984
0.7939
Of 2
173/245
0.260
4.299
1.431
1.1099
ll/ 5
75/23O
0.199
8.199
0.981
1.0063
O/ 0
171/246
0.260
7.149
1.529
1.2301
26/ 1
179/715
0.199
8.199
0.888
0.8215
O/ 0
44k*« T& 7
10
248
61
54.8
Of 0
30/2*9
10
240
71
68.9
O/ I
219/248
10
334
71
65.6
Of 0
74/247
10
293
74
70.4
Of 1
173/246
10
220
60
50.3
Of 7
75/239
10
291
78
68.6
Of 0
171/246
13
334
65
57.7
Of 0
179/742
10
293
74
69.2
Of 1
« A*S JU 1
O.O
41.0
7.6
9.77
Of 32
30/217
0.0
142.0
20.1
26.22
Of O
219/249
O.O
130.0
7.1
15.42
Of 1
74/246
0.0
210.0
17.1
26. Ol
Of 0
173/247
0.0
59.0
4.3
7.20
Of 7
75/239
0.0
90.0
11.9
16.68
Of 0
171/246
0.0
130.0
6.0
11.70
Of 4
179/738
0.0
210.0
16.7
23.86
Of 0
4A1/ 7fc?
0
3640
37*
812.7
0
0
0
0.0
0
2695O
1661
*076.l
0
0
0
O.O
0
15785
1506
3015.5
0
3
0
0.0
0
26950
1380
3303.3
0
0
0
0.0
O.O
5.0
0.9
1.21
0.0
0.0
0 .0
0.00
0.0
25.0
3.7
5.61
O.O
O.O
O.O
0.00
0.0
38.5
4.9
7.10
0.0
0.0
O.O
0.00
0.0
38.5
3.7
6.00
0.0
0.0
0.0
0.00
C 0/WB
-------�
GENUS ICMPOOCOCCUS
CHLA
TUBS SECCHI
DO
TEMP
PARTIAL DEPTH VALUES
TCTALP CRTHQP NQ2N03
NH3
KJEl ALK
CONC PERC
R
0
u
N
0
R
0
u
N
0
R
0
u
M
0
R
C
U
1
0
R
0
u
N
0
R
0
U
N
D
R
0
u
N
0
a
a
u
N
0
D
1 !
N
N
0
1 N
0
0
N
0
2 0
M
N
a
2 N
0
0
H
0
j a
•«
N
0
3 N
0
0
<«
A 0
I 0
L "
N
* 0
I 1
I 0
o
*
flU
»*X
MEAN
STDV
N
G/WR
Ml*
M«
MEAN
510V
N
0/WR
MIN
MAX
MEAN
STDV
N
0/HR
M1N
M»X
MfAN
STOV
N
O/WR
MIN
H«X
MEAN
STOV
N
C/W«
M!N
M»X
MEAN
STOV
N
0/WR
MIN
MAX
MEAN
STOV
•!
0/B«
HIN
MAX
MEAN
STO»
N
0/UR
1.2
2*7.1
35.6
S*. 1*
T/ 2
30/238
5.S
166. B
89. T
7T.*J
37/ 6
7/20*
2.5
595.0
55.9
95.3*
7/ 0
67/2*0
0.8
126.6
21.*
36.73
O/ 5
12/2*2
3.1
171. 5
30.2
33.17
It/ 3
63/225
0.8
166.8
46.6
62.17
6/ 15
19/720
1.2
595.0
«1.9
69.66
ll/ 0
163/730
6
95
73
20.3
3/ 9
26/178
T
107
62
40.8
3/ 1
7/233
*
96
68
24.9
O/ 7
65/230
37
9T
8*
16.6
21/ 2
12/198
1
97
7*
22.*
O/ 2
60/219
T
107
76
28.9
7/ 1
19/637
1
97
71
23.2
O/ 12
151/633
5
132
*1
31.9
2/ *
30/2*3
12
123
*6
*3.3
13/ 9
7/219
6
222
43
32.3
I/ 0
66/2*0
18
109
56
26.0
28/ 20
12/196
6
157
*2
30.6
3/ 3
63/2*3
12
123
53
32.*
39/ 35
19/662
5
222
42
31.4
3/ 1
159/732
6.8
9.7
8.1
0.7*
9/ 2
33/238
6.2
10.6
8.7
1.58
7/ 0
7/2*0
6.2
9.5
7.9
0.77
7/ *
67/236
6.5
1O.O
T.6
1.11
19/ 1
12/225
6.5
9.9
7.8
3.8*
19/ 2
63/224
6.2
10.6
8.0
1.36
16/ 0
19/725
6.2
9.9
7.9
0.80
It/ 7
160/718
5.3
12.3
6.3
1.77
ll/ 6
29/226
7.3
14.2
9. 1
2.65
13 1/ 3
7/112
3.1
9.5
6.9
l.*0
I/ 18
66/227
5.7
11.*
7.7
1.52
29/ 2
11/210
*.o
10.8
7.8
1.28
S/ *
61/232
5.7
14.2
8.2
2.07
92/ 5
18/635
3.1
12.3
7.5
1.52
11 1*
156/711
9.3
28.9
21.2
5.80
S/ 0
30/243
25.5
29.9
27.9
2.02
6*/ 10
7/152
20.1
30.5
27.5
2.10
I/ 3
66/2*2
15.6
27.8
22.1
*.l*
16/ 2
12/228
15.7
27.2
21.6
2.91
12/ 3
63/231
15.8
29.9
24.2
4.50
139/ 10
19/591
9.3
30.5
24.0
4.51
6/ 3
159/731
0.012
0.731
0.132
0.1731
16/ 9
30/224
0.015
0.659
0.273
0.2855
31/ 12
7/234
0.038
1.599
0.188
0.3303
6/ 1
67/240
0.316
0.518
0.099
0.1*15
30/ 14
12/232
0.010
1.609
0.229
0.3775
ll/ 2
63/233
0.315
0.659
0.16)
0.2163
86/ 35
19/621
0.008
1.609
0.19*
0.3280
19/ *
160/719
0.001
0.616
0.056
0.1301
O/ 5
30/2**
0.00*
0.292
0.099
0.1222
22 f 12
7/213
0.002
1.191
0.106
0.2*23
J/ 0
67/2*4
0.00*
0.325
O.C62
0.0917
8/ 13
12/22*
0.00*
1.255
0.1*3
0.2922
8/ 1
63/236
3.00*
0.325
0.076
0.1322
69/ 36
19/636
0.001
1.255
0.111
0.2465
O/ 1
160/7*0
0.02*
«.3B9
0.36S
0.8456
O/ 9
30/2*0
0.030
0.536
0.217
0.1927
7/ S3
7/187
0.027
3.679
0.256
0.5252
I/ 5
67/241
0.019
0.599
0.128
O.1619
I/ 40
12/235
0.020
1.739
0.182
O.3094
2/ 8
63/236
3.019
0.599
0.161
0.1741
1/175
19/566
0.020
4.389
0.2*8
0.5355
2/ 11
160/729
0.03*
O.SS*
0.120
0.1166
9/ 1
30/239
0.036
0.250
0.119
0.0767
I/ 15
7/231
0.039
3.719
0.125
0.1092
3/ 0
67/244
0.038
0.139
0.073
0.0352
ll/ 50
12/185
0.020
0.979
O. 112
0.1754
31 \
63/2*5
0.036
0.250
O.O90
0.0568
27/ 46
19/669
0.020
0.979
0.119
0.1395
O/ 1
160/7*1
0.30*
3.199
1.198
0.91*3
30/ 3
30/216
0.328
6.3*9
2.49*
2.1556
ll/ 1
7/235
0.299
7.1*9
1.685
1.3138
6/ 0
67/2*1
0.260
*.299
1.125
1.1919
ll/ 5
12/230
0.264
4.399
1.469
1.O939
12/ 6
63/228
0.260
6.3*9
1.630
1.6963
26/ 2
19/71*
0.264
7.1*9
1.517
1.1692
28/ 1
160/713
10
2*8
61
s*. a
at o
30/2*9
10
82
53
30.7
O/ 78
7/169
10
33*
73
68.1
O/ 0
67/2*7
10
138
*3
*0.8
O/ *7
12/199
10
223
64
51.5
O/ 7
63/239
19
138
47
36.9
0/135
19/637
10
33*
67
59.*
O/ 3
160/7*2
0.0
*1.0
7.6
9.77
O/ 32
30/217
O.O
14.0
4.1
4.74
O/ 55
7/192
0.0
130.0
7.4
16.12
O/ 1
67/246
0.0
11.0
4.3
3.37
O/ 50
12/196
0.0
59.0
4.3
7.74
3/ 7
63/239
3.0
14.0
4.3
3.80
0/180
19/562
0.0
130.0
6.2
12.29
O/ 4
160/738
0
36*0
374
812.7
590
26950
925*
9*66.8
O
11936
868
166*. 1
156
15785
3717
4844.2
0
15753
1085
2358.8
156
26953
5757
7193.5
0
15753
861
1946.6
0.0
5.0
0.9
1.21
11.1
25.0
18.5
5.57
0.0
9.4
2.2
2.52
11.5
36.5
18.7
7.69
0.0
8.*
2.3
2.36
11.1
38.5
16.7
6.82
0.0
«.*
2.0
2.31
-------�
GENUS:CHROO»ON«S
00
cm.»
TUR9 SECCMI
00
PARTIAL DEPTH VALUES
TEMP TOTALP ORTHOP N02N03
NH3
KJEL
AlK
CONC PERC
D
0
u
N
0
«
0
u
N
0
R
0
u
N
0
R
0
u
N
0
p
e
u
i
0
a
0
U
N
0
R
r
u
N
0
D
0
u
N
0
0
I C
c
N
0
1 N
o
c
c
o
2 C
C
N
0
2 N
0
c
c
o
3 C
C
H
P
3 N
n
r_
C
A *
L C
I C
N
A O
L N
L 0
C
C
NIN
MAX
MEAN
STOV
N
0/UR
HIM
MAX
HE>N
STDV
N
0/UR
NIN
WAX
MEAN
STOV
N
0/WR
NIN
MAX
MEAN
STDV
N
0/WR
NIN
NAI
NEAN
STOV
N
0/wo
BIN
"AX
MEAN
STOV
N
0/UR
NIN
MAX
MEAN
STOV
N
0/UR
N|N
MAX
MEAN
STOV
N
0/ue
4. a
33.9
14.3
20.58
TO/ 35
2/142
0.3
355.6
21.0
41.55
O/ 0
245/247
32.9
32.9
32.9
o.oo
17S/ 68
I/ 1
1.4
545.0
34.4
62.71
Of 0
246/247
5.5
198.0
83.2
101.45
63/ 2
3/185
0.8
241.4
22.5
3Z.54
O/ 0
244/247
4.8
198.0
53.5
72.69
147/ 11
6/583
0.3
595.0
26.0
47.68
O/ 0
735/741
99999
-94999
0
0.0
187/ 0
O/ 0
6
100
71
20.6
31 0
187/187
46
46
46
0.0
38/197
I/ 2
4
121
72
24.0
O/ 0
236/237
23
84
51
30.9
12/131
3/108
1
100
74
22.9
of a
218/221
23
84
50
25.3
33/246
4/366
1
121
72
22.7
O/ 0
641/645
27
54
41
19. 1
95/ 65
2/ 89
2
252
44
36.3
O/ 0
247/249
17
17
17
0.0
24/213
I/ 4
1
222
»9
35.8
O/ 0
240/241
12
38
23
13.6
7/132
3/107
6
185
51
35.0
•)/ 0
243/246
12
54
28
15.8
39/216
6/481
1
252
48
35.8
O/ 0
730/736
8. I
8.3
8.2
0.14
146/ 59
2/ 44
5.3
10.6
T.9
0.73
O/ 0
247/249
7.9
7.9
7.9
0.00
126/110
I/ 11
4.1
10.6
7.8
0.89
01 0
246/247
6.6
8.7
7.9
1.14
23/ 17
3/205
4.7
10.3
7.6
0.83
O/ 0
242/245
fr.6
8.7
8.0
0.74
46/ 58
6/637
4.1
10.6
7.8
0.83
O/ 0
735/741
9.4
9.5
9.4
0.07
138/ 93
2.1 14
0.7
19.2
9.0
2.03
O/ 0
243/245
6.2
6.2
6.2
0.00
75/163
I/ 8
3.0
17.8
7.0
1.98
O/ 0
245/246
7.5
13.5
10.2
3.06
122/ 0
3/119
1.6
12.7
7.3
1.56
O/ 1
238/240
6.2
13.5
9.3
2.47
141/ 7
6/584
0.7
19.2
7.8
2.06
O/ O
726/732
12.9 0.334 0.007 0.789 0.034 0.754 195
14.1 0.127 0.085 1.403 0.095 1.099 198
13.5 0.080 0.045 1.095 0.064 0.926 197
0.85 0.0657 0.0551 0.4341 0.0431 0.2439 2.1
St/152 75/ 48 84/ 26 177/ 40 9/ 83 164/ 37 226/ 17
2/ 40 2/126 2/139 2/ 32 2/157 2/ 48 2/ 6
6.8 0.004 0.001 0.024 0.022 0.199 10
28.9 1.719 1.209 9.7*5 0.635 4.699 2*8
17.5 0.123 0.057 0.868 0.107 0.795 69
5.60 0.2323 0.1649 1.4810 0.0956 0.7901 66.6
o/o o/o oi a o/o o/ o o/ o o/ o
246/248 247/249 247/249 247/249 2*7/249 247/2*9 247/249
24.5 0.116 0.013 0.817 O.171 1.421 114
24.5 0.116 0.013 0.817 0.171 1.421 114
24.5 0.116 0.013 0.816 0.170 1.421 114
0.00 0.0000 0.0000 0.0000 0.0000 0.0000 0.0
45/194 191/ 55 133/108 207/ 39 206/ 40 ISO/ 66 189/ 56
1/7 I/ I 1/6 I/ 1 I/ I I/ 1 \l Z
17.3 O.OO4 O.O01 0.025 O.O34 0.215 10
32.2 Z.559 1.191 6.857 0.719 7.149 334
26.6 0.135 0.053 0.492 O.119 1.216 73
2.35 0.2817 0.1482 0.88S2 0.0879 1.0799 69.0
0/0 0/0 O/O 0/0 0/0 0/0 0/0
245/246 246/2*7 2*6/247 246/247 246/247 2*6/2*7 246/247
12.6 0.046 0.008 0.038 0.036 1.153 10
22.7 0.422 0.132 0.909 O.O71 1.974 241
16.7 0.278 0.081 0.5O* 0.050 1.650 163
5.31 0.2035 0.0652 0.4387 0.0180 0.4371 132.2
I/ 65 103/ 16 62/ 21 44/ 33 9/123 168/ 29 O/ 3
3/180 3/127 3/162 3/172 3/114 3/ 49 3/243
9.0 0.304 0.001 0.017 0.020 0.199 10
29.6 4.549 2.009 4.469 3.024 8.199 291
20.5 0.153 0.070 0.340 0.123 1.112 72
3.20 0.4109 0.2100 0.5494 0.224* 1.0613 62.5
0/0 0/0 0/0 0/0 0/0 0/0 0/0
243/246 2*3/246 242/245 2*3/246 243/246 2*3/2*6 243/246
12.6 0.034 O.O07 0.038 O.O34 0.754 10
24.5 0.422 0.132 1.403 0.171 1.974 2*1
16.9 0.185 0.058 0.753 0.075 1.370 166
5.26 0.1674 0.0557 0.4468 0.0522 0.4633 89.0
48/26* 2S3/ 47 205/ 59 62/ 77 13/109 381/ 8* O/ 13
6/428 6/4*5 6/477 6/603 6/620 6/277 6/729
6.8 0.004 3.001 0.017 0.020 0.199 10
32.2 4.549 2.009 9.7*5 3.02* 8.199 33*
21.5 0.13T O.O60 0.568 0.116 1.3*0 71
5.48 0.3167 0.176O 1.0696 0.1492 0.9777 66.0
o/o o/o o/o o/o o/o o/o o/o
734/740 736/742 735/741 736/742 736/742 736/742 736/742
6.0
43.0
24.5
26.16
85/ 29
2/135
0.0
142.0
18.6
25.18
O/ 0
2*7/2*9
8.0
8.0
8.0
0.00
13B/ 99
I/ 1O
0.0
210.0
14.1
23.81
O/ 0
2*6/2*7
1.0
3.0
2.0
1.00
13/153
3/ 80
0.0
90.0
9.7
14.94
O/ 0
2*3/246
1.0
*3.0
10.5
16.13
32/ 62
6/6*8
O.O
210.0
14.1
22.08
O/ 0
736/742
0
0
0
0.0
0
o
0
0.0
1377
1377
1377
0.0
0
0
0
0.0
0
42
1*
2*. 2
0
O
0
O.O
0
1377
237
559.0
O
0
0
0.0
0.0
0.0
0.0
0.00
0.0
0.0
O.O
0.00
14.0
14.0
14.0
0.00
0.0
0.0
0.0
0.00
0.0
0.6
0.2
0.32
0.0
0.0
0.0
o.oo
0.0
14.0
2.4
S.69
0.0
0.0
0.0
0.00
-------�
SENDS •CH>OC*CN AS
CHLA
TURB SECCHI
PARTIAL DEPTH VALUES
00 TEMP TQTALP ORTHO? N02N03
NH3
KJEL ALK
N/P
CONC PERC
R
<3
u :
N
0
R
0
u
N
O
R
0
U
N
0
R
a
u
N
0
R
0
U
N
0
azcn »
R
C
U
K
0
R
C
U
N
0
0
1 C
M
•«
a
1 N
0
0
N
•>
2 0
N
N
0
2 N
0
C
it
o
3 0
H
N
1
3 N
0
Q
M
• 0
L a
L *
N
A 0
L N
L 0
0
«
KIN
M»X
HEAN
STOW
N
O/WR
WIN
• AX
MEAN
STOV
N
O/HR
•UN
MAX
MEAN
•TOV
H
0/HR
MIN
»AX
MEAN
STOV
N
o/wR
Nil
MAX
MEAN
STOV
N
C/fcR
• IN
»AX
MEAN
STCV
N
C/wP
MIN
•AX
MEAN
STPV
N
0/wR
MIN
MAX
MEAN
STOV
N
5/WR
4.8 99499
33.9 -99999
19.3 0
20.58 0.0
131 35 187/ 0
2/1*2 O/ 0
32.9
32.9
32.9
0.00
ITS/ 68
I/ 1
5.5
198.0
63.2
101.45
60/ 2
3/185
32.9
32.9
32.9
0.00
586/15*
I/ 1
4.8
198. 0
57.7
80.48
1*77 11
3/583
46
46
46
0.0
38/197
I/ 2
23
84
11
30.9
12/101
3/108
46
46
46
0.0
92/551
I/ 2
23
• 4
SI
30.9
33/246
3/366
27
54
41
19.1
9S/ 65
2/ 69
IT
17
IT
0.0
24/213
I/ 4
12
38
23
13.6
7/132
3/107
17
IT
IT
0.3
86/637
1/13
12
54
30
16.7
39/216
5/481
8.1 9-4
8.3 9.5
B.2 9.4
0.14 0.37
146/ 59 138/ 13
2/ 44 2/ 14
7.9
7.9
T.9
0.00
126/110
I/ 11
6.6
8.T
T.9
1.14
23/ IT
3/205
T.9
7.9
7.9
0.00
388/314
I/ 39
6.6
8.7
8.0
0.82
46/ 58
5/637
6.2
6.2
6.2
0.00
75/163
I/ 8
7.3
13.5
10.2
3.36
122/ 0
3/119
6.2
6.2
6.2
0.00
141/580
I/ 11
T.5
If. 5
9.9
2.20
331/ 7
5/394
12.9
14.1
13.5
0.85
56/152
11 40
24. 5
24.5
24.5
0.00
45/194
I/ 7
12.6
22. T
16.7
5.31
I/ 65
3/180
24.5
24.5
24.5
0.00
468/264
I/ 8
12.6
22.7
15.4
4.1T
48/360
5/332
0.034
0.127
0.080
0.0657
75/48
2/126
0.116
0.116
0.116
O.OOOO
I91/ 55
I/ 1
0.046
0.422
0.278
3.2035
1J3/ 16
3/127
0.116
0.116
0.116
O.OOJO
571/168
I/ 3
0.034
0.422
0.199
0.1833
250/ 47
5/445
O.OOT
0.085
0.045
0.0551
84/ 26
2/139
0.013
0.013
0.013
0.0000
133/108
I/ 6
9.908
0.132
0.081
3.0652
62/ 21
3/162
0.013
0.013
0.013
0.0000
380/346
I/ 15
0.037
0.132
0. 06 T
3.0571
205/ 59
J/4T7
O.TB9
1.403
1.095
0.4341
177/ 40
2/ 32
0.817
0.817
0.816
O.OOOO
207/ 39
I/ 1
0.038
0.909
0.504
0.4387
44/ 30
3/172
0.817
0.817
0.816
3.3000
603/137
I/ 2
O.338
1.403
0.740
3.4983
62/ 7T
5/603
0.034-
0.095
0.064
0.0431
9/ 83
2/157
0.171
0.171
0.170
O.OOOO
206/ 40
I/ 1
0.036
0.071
0.050
3.3180
9/123
3/114
0. 1T1
0.1T1
0.170
0.0000
631/109
I/ 2
3.334
0.095
0.036
0.3261
13/289
5/440
0.754
1.099
0.926
0.2439
164/ 37
2/ 48
1.421
1.421
1.421
O.OOOO
180/ 66
I/ 1
1.153
1.974
1.650
0.4371
168/ 29
3/ 49
1.421
1.421
1.421
0.0000
586/155
I/ 1
O.T54
1.974
1.360
3.5173
381/ 84
5/27T
195
198
19T
2.1
226/ IT
2/ 6
114
114
114
0.0
I89/ 56
I/ 2
10
241
163
132.2
O/ 3
3/243
114
114
114
0.0
560/179
I/ 3
10
241
176
95.3
01 13
5/T29
6.0
43.0
24.5
26.16
85/ 29
2/135
8.0
8.0
8.0
0.00
138/ 99
I/ 10
1.0
3.0
2.0
1.00
13/153
3/ 80
8.0
8.0
8.0
0.00
417/302
I/ 23
1.0
43.0
11.0
17.99
32/ 62
5/648
0 0.0
0 0.0
a o.o
0.3 0.03
1377 14.0
1377 14.0
1377 14.0
0.0 0.30
0 3.3
42 0.6
14 0.2
24.2 0.32
13TT 14.0
1377 14.0
1377 14.0
o.o o.oo
3 0.0
42 0.6
8 0.1
18.8 0.25
-------�
00
o
GENUS:CHRVSOCAPSA
CHI A
TURB SECCMI
PARTIAL OtfH VALUES
00 TEMP TOTAL P OR.TH9P NQ2N03
KJEL
N/P
CONC
PEP.C
R
0
U 1
N
D
H
0
U 1
N
0
R
0
U 2
H
0
9
a
11 2
M
0
ft
0
U 3
N
0
a
C
U 3
N
0
R
0 •
U L
1 L
0
p
0 *
U L
N L
0
C
C
e
N
n
N
o
c
e
0
c
c
N
o
N
0
c
c
0
c
c
N
o
N
n
c
c
0
c
c
N
0
N
0
c
c
Nil
• AX
"EAN
STOV
N
O/wa
KIN
»•>
MEAN
STCV
N
0/*0
HIM
MAX
MEAN
STOV
M
0/NR.
H|N
MAX
"FAN
STPV
N
n/UR
KIN
MiX
MEAN
STOV
N
0/«R
MIN
MAX
HE'S
STOV
N
0/KR
Ml*
MAX
MEAN
STDV
N
0/MR
MIN
PAX
MEAN
STOV
N
a/HR
0.3
355.6
21.0
41.40
O/ 0
247/24T
7.9
7.9
7.9
0.30
76/170
I/ 1
1.4
595.0
3*. 5
62. t9
O/ 0
246/247
5.3
5.3
5.3
0.00
56/188
If 3
0.8
2*1.4
23.3
34.32
3/ 0
2*6/247
5.3
7.9
6.6
1.6*
175/446
2/120
0.3
S9S.O
26.2
47.98
O/ 0
739/7*1
6
100
71
20.6
O/ O
187/167
95
95
95
0.0
21 R/ 10
I/ 9
4
121
72
24.0
Of 0
236/237
99999
-99999
O
0.0
221/ 0
O/ 0
1
100
74
23.1
V 0
221/221
95
95
95
0.0
593/ 35
I/ 17
1
121
72
22.7
O/ 0
644/645
2 5.3 0.7 6.8 0.004 0.001 0.024
2S2 10.6 19.2 28.9 1.719 1.209 9.745
44 7.9 9.0 17. S 0.123 0.057 0.870
36.2 0.73 2.02 5.59 0.2314 0.1642 1.4754
Of 0 O/ O 0/0 0/0 O/ 0 0/0 O/ O
2*9/249 249/2*9 2*5/2*5 2*8/2*6 249/249 2*9/2*9 249/249
144 6.6 8.1 23.9 O.010 O.OO5 0.251
144 6.6 8.1 23.9 0.01O 0.005 0.251
144 6.6 8.1 23.9 0.009 0.005 0.250
0.0 0.30 0.33 0.30 0.0900 3.3000 3.3000
234S 5 19/222 1<>1/ 49 25/218 14/227 38/185 159/ 85
1/2 1/6 1/6 1/3 1/6 I/ 24 I/ 3
1 4.1 3.0 17.3 0.004 O.OO1 O.O25
222 10.6 17.8 32.2 2.559 1.191 6.857
48 7.8 7.0 26.6 0.135 O.053 0.494
35.3 0.89 1.98 2.35 O.2816 0.1482 0.8853
0/0 0/0 0/3 0/0 3/0 0/0 0/0
2*0/241 246/247 245/2*6 245/246 246/247 246/247 246/247
122 6.2 7.7 19.1 0.012 O.OOS 0.089
122 6.2 7.T 19.1 0.012 O.OOS 0.089
122 6.2 7.7 19.1 O.OI1 0. O05 O.O89
0.0 0.00 0.00 0.00 0.0000 O.OOOO O.OOOO
23 1/ 14 7/237 137/100 88/157 19/224 15/217 112/132
1/1 I/ I 1/4 I/ I 1/3 I/ 13 I/ 2
6 4.7 1.6 9.0 0.004 9.001 0.017
185 10.3 13.5 29.6 4.549 2.009 4.469
5O 7.6 7.3 20.4 0.155 O.070 0.343
34.7 0.83 1.61 3.25 O.4098 0.2092 0.5*86
0/0 0/0 0/0 0/0 0/3 0/0 0/0
2*5/2*6 244/245 240/241 245/246 245/246 244/245 245/246
122 6.2 7.7 19.1 0.910 3.005 0.089
144 6.6 8.1 23.9 0.012 0.005 0.251
133 6.4 7.9 21.5 0.011 0.005 0.169
15.6 0.28 0.28 3.39 0.001* 0.0000 0.1145
699/ 15 16/680 355/292 2*9/307 37/675 106/583 220/310
2/ 22 2/ 45 2/ 85 2/184 2/ 30 2/ 52 2/212
I 4.1 0.7 6.8 0.094 0.001 0.017
252 10.6 19.2 32.2 4.5*9 2.009 9.745
47 7.8 7.8 21.5 0.137 0.060 0.570
35.5 0.83 2.07 5.50 0.3161 0.1755 1.0673
0/0 0/0 0/0 0/0 0/0 0/0 0/0
734/736 739/741 730/732 736/740 74O/T42 739/7*1 7*0/742
0.022
0.635
0.107
0.0953
O/ 0
249/249
0.040
0.040
0.039
0.0000
4/238
I/ 5
0.034
0.719
0.120
0.0878
O/ 0
246/247
0.120
0.12O
0.120
0.0000
188/ 57
I/ I
0.020
3.024
0.122
0.2236
O/ O
245/2*6
0.040
0.120
0.080
0.0565
42/201
2/499
O.O2O
3.02*
0.116
0.1489
O/ 0
740/742
0. 199
4.699
0.796
0.6975
O/ 0
249/249
0.261
0.261
0.260
0.0900
2/2*4
I/ 1
0.215
7.149
1.221
1.0782
O/ 0
246/247
0. SOO
0.500
0. SOO
0.0000
65/179
If 2
0.199
8.199
1.121
1.0586
Of 0
2*5/ 2*6
0.261
0.500
0.380
0.1689
27/506
2/209
0.199
8. 199
1.045
0.9756
Of 0
7*0/ 7*2
10
248
70
67.3
O/ 0
2*9/2*9
11
11
11
9.0
18/220
If 9
10
33*
7*
68.9
Of 0
2*6/2*7
10
10
10
0.0
0/225
If 21
10
291
73
64.1
Of O
245/246
10
11
11
0.7
0/6*9
2/ 93
10
334
72
66.7
Of 0
74O/742
0.0
142.0
18.6
25.14
Of 0
249/249
26.0
26.0
26.0
0.00
215/ 31
I/ 1
0.0
210.0
14.0
23.80
Of 0
246/247
19.0
19.0
19.0
O.OO
221/ 22
If 3
0.0
90.0
9.6
14.89
Of 0
245/246
19.0
26.0
22.5
4.95
609/101
2/ 32
0.0
210.0
14.1
22.06
Of 0
740/742
0
0
0
0.0
686
686
686
0.0
0
0
0
0.0
0
0
0
O.O
0
0
0
0.0
0
686
343
485.1
0
0
0
0.0
0.0
0.0
0.0
0.00
25.6
25.6
25.6
0.00
0.0
0.0
O.O
0.00
O.O
0.0
0.9
0.00
0.0
0.0
0.0
0.00
0.0
25.6
12.8
18.10
O.O
0.0
0.0
0.00
-------�
oo
GENUS-.CHRYSOCAPSA
CHIA
TURB SECCHT
DO
PARTIAL DEPTH VALUES
TEMP TOTALP OUTMOP N02N03
KJEL ALK
C/M<>
CONC
R
0
U 1
N
D
R
0
U 1
N
0
R
0
U 2
N
0
a
0
U 2
N
0
„
0
U 3
N
0
0
M
M
0
N
0
0
M
0
0
M
S
a
N
0
0
M
0
0
M
MIN
MAX
MEAN
STOV
O/UR
MIN
MAX
MEAN
STOV
0/NR
MIN
MAX
MEAN
STOV
C/HR
MIN
"AX
MEAN
STCV
K
O/WR
MIN
MAX
MEAN
STOV
7.9
7.9
7.9
0.03
76/170
I/ I
95 144
95 14*
95 14*
0.0 3.9
218/ 10 23*/ 5
1/9 1/2
6.6
6.6
6.6
O.O3
19/222
I/ 6
8.1
8.1
8.1
3.03
191/ 49
I/ 6
23.9
23.9
23.9
9.03
25/218
I/ 3
0.010
0.010
0.009
9.0000
14/227
I/ 6
0.035
0.005
O.OO5
0.0039
38/185
I/ 2*
0.251
0.251
0.250
O.OOOO
159/ 85
I/ 3
0.0*0
0.040
O.O39
O.OOOO
*/238
I/ 5
0.261
0.261
O.260
O.OOOO
2/244
If 1
11 26.0
11 26.0
11 26. 0
O.O O.OO
18/220 215/ 31
1/9 1/1
686 25.6
686 25.6
686 25.6
0.0 0.00
R N
0 0
U 3 N
N 0
0 0
a
0*0
U L 0
N L M
0
• <4
0 A 0
U L N
N L 0
0 Q
K
MIN
MAX
•EAN
STPV
a/MR
MIN
MAX
MEAN
STOV
C/WR
MIN
MAX
MEAN
STOV
0/HR
5.3
5.3
5.3
0.03
56/188
I/ 3
7.9
7.9
7.9
0.00
294/446
I/ I
5.3
5.3
5.3
0.00
175/560
I/ 6
99999
-99999
0
0.0
221/ 0
O/ 0
95
95
95
0.0
593/ 35
I/ 17
99999
-99999
0
0.0
645/ 0
O/ 0
122
122
122
0.0
231/ 14
I/ 1
1*4
1*4
l«*
0.0
716/ 15
I/ 5
122
122
122
0.0
699/ 36
I/ 1
6.2
6.2
6.2
0.33
7/237
I/ 1
6.6
6.6
6.6
O.30
46/680
I/ 15
6.2
6.2
6.2
a. ao
16/719
I/ 6
7.7
7.7
7.7
3.03
137/100
I/ *
8.1
8.1
8.1
0.00
420/292
I/ 20
7.7
7.7
7.7
3.33
355/365
I/ 12
19.1
19.1
19.1
0.03
88/157
I/ 1
23.9
23.9
23. 9
0.00
428/307
I/ 5
19.1
19.1
19.1
0.00
249/490
I/ 1
3.012
0.012
0.011
0.3030
19/22*
I/ 3
0.010
0.010
0.339
3.0000
37/691
I/ 1*
0.012
0.012
0.011
3.0030
59/675
I/ 8
3.005
0.005
O.OO5
3.3033
15/217
1/13
3.005
0.005
0.005
0.3000
106/583
I/ 52
0.005
0.005
3.005
3.0033
106/583
I/ 52
3.389
0.089
0.089
3.0330
112/132
I/ 2
0.251
0.251
0.250
9.0000
429/310
I/ 3
3.389
0.089
O.O89
3.0039
220/517
I/ 5
0.120
0.120
0.120
3.0000
188/ 57
I/ 1
0.043
0.0*0
0.039
0.0000
42/691
I/ 9
0.123
0.120
0.120
3.0030
539/201
I/ 2
0.533
0.500
0.500
9.0000
65/179
I/ 2
0.261
0.261
0.260
0.0900
27/714
I/ 1
3.530
0.500
O. 500
0.0030
227/596
I/ 9
10 19.0
10 19.0
10 19.0
0.0 0.00
0/225 221/ 22
I/ 21 I/ 3
11 26.0
11 26.0
11 26.0
0.0 0.00
74/649 640/101
I/ 19 I/ 1
13 19.0
10 19.0
10 19.0
3.3 3.30
0/668 609/12*
I/ 74 I/ 9
3
0
O
0.0
686
686
686
O.O
3
0
O
3.3
3.3
O.O
O.O
0.00
25.6
25.6
25.6
0.00
0.0
0.0
o.o
0.00
-------�
00
ro
GENUS-CHPYSOCOCCUS
CHLA
TUR9 5ECCM1
DO
PARTIAL DEPTH VALUES
TEMP TOTALP ORTHOP N02N03 NM3
KJEL >LK
N/P
CONC PERC
R
0
u
N
0
R
0
u
N
0
R
r
u
N
0
R
0
u
N
0
R
0
u
N
0
G
0
u
N
0
a
e
u
N
0
R
0
u
N
0
0
1 C
c
N
0
1 N
0
c
c
0
2 C
c
t
0
2 M
0
r
C
0
3 C
C
N
0
3 N
0
C
r
A 0
L C
L C
N
A 0
L N
L 0
C
C
MIN
MAX
MEAN
STOV
0/MR
MIN
MAX
MEAN
STOV
C/MR
"IN
MAX
MEAN
STOV
O/MR
MIN
"EAN
STOV
0/MR
MIN
MAX
MCAN
STOV
e/MR
MIN
MAX
MEAN
STOV
e/MR
MIN
MAX
• EAN
STOV
0/MR
MIN
MAX
MEAN
STOV
0/MR
0.3
355.6
21.0
41.40
Of 0
2*7/2*7
13.9
55.8
30.1
22.49
14 3/ 4)
3/ 61
1.4
595.0
3*. 5
62.93
Of 3
244/247
5.7
126.8
30.9
40.69
66/ 6
8/175
0.8
2*1.*
22.9
3*. 10
Of 0
239/2*7
5.7
126.8
30.7
15.50
198/ 27
11/516
0.3
595.0
26.1
48.10
O/ 0
730/741
6
100
71
20.6
O/ 0
187/187
71
91
8*
11.3
76/ 41
3/120
*
121
72
24.1
O/ 0
234/237
60
92
82
12.2
*f/ 36
7/137
1
100
7*
23.3
Of 0
214/221
60
92
83
11.3
I**/ 8*
10/417
1
121
72
22.8
Of 0
6)5/6*5
2
252
**
36.2
Of 0
2*9/2*9
27
39
34
6.4
63/11*
3/ 6*
1
222
49
36.0
Of 0
238/241
8
58
38
18.6
2/ 67
8/177
6
185
51
35.3
Of O
238/2*6
8
58
37
15.9
16/193
11/527
1
252
48
35.9
at 0
725/736
5.3
10.6
7.9
0.73
O/ 0
249/249
6.6
8.*
T.8
1.0*
19/ 45
3/183
4.1
10.6
7. B
0.89
O/ 0
2*4/247
6.7
8.6
7.5
0.75
30/ 19
8/196
4.7
IO. 3
7.6
0.8*
O/ 0
237/2*5
6.6
8.6
7.6
0.79
*6/ 73
11/622
4.1
10.6
7.8
0.83
O/ 0
730/7*1
0.7 6.8 0.00* 0.001 0.02* 0.022 O. 199
19.2 28.9 1.719 1.209 9.7*5 0.635 *.699
9.0 17.5 0.123 0.057 0.870 0.107 O.796
2.02 5.59 0.2314 0.1642 l.*75* 0.0953 0.6975
0/0 Of 0 0/0 0/0 0/0 0/0 0/0
2*5/2*5 2*8/248 2*9/2*9 2*9/2*9 2*9/2*9 2*9/2*9 2*9/2*9
3.8 25.9 0.0*1 0.01* O.131 0.11* 0.799
8.5 29.0 0.108 0.033 0.676 0.225 1.615
5.9 27.9 0.076 0.020 0.333 0.16* 1.207
2.38 1.7* 0.0336 0.0109 0.2979 0.0560 0.4080
6/ 3* 98/ 38 I13/ 60 139/ 51 102/ ** 151/ 21 III/ 56
3/206 3/110 3/ 7* 3/ 57 3/101 3/ 75 3/ 80
3.0 17.3 0.00* O.OOl O.025 0.03* 0.215
17.8 32.2 2.559 1.191 6.857 0.719 7.1*9
7.0 26.6 0.135 0.05* 0.*95 0.119 1.217
1.98 2.35 0.2828 0.1*87 0.8885 0.0880 1.0838
0/0 Of 0 Of O Of 0 Of O Of 0 Of 0
243/246 2*3/246 2*»/2»7 244/247 2**/247 2*4/2*7 2**/2*7
2.8 13.9 0.012 0.00* 0.030 0.063 0.*93
11.* 2*. 5 3.08* 2.009 0.809 3.02* 8.199
6.6 20.2 0.512 0.26* 0.216 0.»82 2.265
2.72 3.53 1.0637 0.7051 0.2*5* 1.0280 2.9020
If 2 */ 25 19/ 1 8/ J 28/ 35 102/ 0 6*/ 3
8/237 8/217 8/226 8/237 8/183 8/1** 8/182
1.6 9.0 0.00* O.OOl 0.017 0.020 0.199
13.5 29.6 *.S*9 1.255 *.*69 0.979 6.000
7.3 20.4 0.143 0.063 0.3*6 0.110 1.080
1.56 3.2* 0.3676 0.1703 0.55*8 0.1256 0.9278
0/0 0/0 0/0 0/1 0/0 O/ I 0/1
233/2*1 238/2*6 23B/2*6 237/2** 238/2*6 238/2*5 238/2*5
2.8 13.9 0.012 0.00* 0.030 0.065 0.493
ll!* 29.0 3.08* 2.009 0.809 3.02* 8.199
6.* 22.3 0.393 0.197 0.2*8 0.395 1.977
2 53 *.71 0.9131 O.60OB 0.2508 0.8731 2.*8*5
*/ 28 B8/ 39 59/ 1 69/ 0 37/1*1 2*2/ 0 226/ 0
11/700 11/613 11/682 11/672 11/56* 11/50O 11/516
0.7 6.8 0.00* 0.001 0.017 0.020 0.199
19.2 32.2 *.S*9 1.255 9.7*5 0.979 7.1*9
7.8 21.5 0.1)3 0.058 0.57* 0.112 1.029
2.06 5.51 0.2979 0.1611 1.0729 0.10*0 0.9311
0/0 0/0 0/0 0/1 0/0 0/1 0/1
721/7)2 729/7*0 731/7*2 730/7*0 731/7*2 731/741 731/7*1
10
248
70
67.3
Of O
2*9/2*9
13
172
85
80.5
32/ 23
3/192
10
33*
73
68.9
Of 0
244/247
15
116
5*
39.7
41/ 58
8/147
10
291
7*
64.7
Of 0
238/2*6
13
172
62
51.2
110/ 78
11/55*
10
33*
72
66.9
Of 0
7)1/742
0.0
1*2.0
18.6
25.1*
Of 0
2*9/2*9
5.0
13.0
9.0
4.0O
82/ 62
3/103
0.0
210.0
14.1
23.90
O/ 0
2**/2*7
0.0
15.0
5.6
5.13
01 32
8/21*
0.0
90.0
9.7
15. oa
Of 0
238/2*6
0.0
15.0
6.5
*.91
0/166
11/576
0.0
210.0
1*.2
22.18
Of O
731/7*2
0
O
O
0.0
0
385
1*1
212.2
0
0
0
0.0
o
12*48
2O49
438*. 6
0
0
0
O.O
0
12*48
1529
3776.*
0
0
0
0.0
0.0
0.0
0.0
0.03
0.0
2.6
1.2
1.30
0.0
0.0
0.0
0.00
0.0
12.6
3.5
5.**
0.0
0.0
3.0
0.00
0.0
12.6
2.9
4.71
0.0
0.0
0.0
0.00
-------�
00
Ul
GENUS:CHPYSOCOCCUS
CHI A
TURB SECCHI
DO
TEMP
PARTIAL DEPTH VALUES
TOTALP OUTHOP N02N03
NH3
KJEL ALK
N/P
CONC PERC
4
0 D
u i a
N N
0
R N
C 0
U 1 N
N 0
D 0
N
a
0 0
U 2 0
N H
D
* N
0 0
U 2 N
M 0
D 0
<*
R
0 0
u 3 e
M «
D
R N
0 0
U 3 N
N D
9 0
N
R
0*0
U L 0
N L H
D
V N
e * a
U L N
N L 0
D 0
N
HIN
MAX
MEAN
STOV
N
0/MR
MIN
MM
MEAN
STOV
N
0/MR
MIN
MAX
MEAN
STCW
N
O/HR
MTN
MM
MEAN
STOV
N
C/MR
KIN
MIX
MEAN
STOV
N
On*
M|N
MAX
MEAN
JTOV
N
O/HR
HIN
»M
MEAN
STDV
N
O/UR
NIK
MAX
MEAN
STOV
N
C/MR
13.9
53.8
30.1
22.49
143/ 43
3/ 61
23.2
126.8
75.0
T1.26
18 3/ 6
21 61
5.7
44. S
16.2
14.38
667 36
6/149
23.2
126.8
TS.O
73.26
54S/ 27
2/169
5.7
93.8
20.8
17.49
1987 89
9/458
71
91
84
11.3
76/ 41
3/120
68
87
74
19.1
48/ 75
2/ 98
72
92
86
8.7
&S/ 36
9/120
60
87
74
19.1
144/182
2/319
71
92
85
9.0
218/ 84
8/343
27
39
34
6.4
63/114
3/ 64
11
41
26
21.2
3/119
2/126
8
18
42
17.9
2/ 67
6/177
11
41
26
21.2
37/336
2/393
8
58
39
19.3
16/193
9/927
6.6
8.4
7.8
1.04
19/ 49
3/183
7.6
8.9
B.O
0.64
lit/ 39
21 99
6.7
8.6
7.4
0.76
JO/ 19
6/196
7.6
8.5
8.0
1.64
284/102
2/353
6.6
8.6
7.5
3.82
46/ 73
9/622
3.8
8.5
5.9
2.38
6/ 34
3/236
2.8
7.5
5.1
3.32
2/113
2/129
4.3
11.4
7.0
2.66
S/ 2
6/234
2.8
7.5
5.1
3.32
4/388
2/340
3.8
11.4
6.7
2.48
19/ 28
9/689
25.9 0.041
29.0 0.108
27.9 0.376
1.74 0.0336
98/ 38 113/ 60
3/113 3/ 74
18.2 0.078
19.9 3.384
19.0 1.980
1.20 2.1255
63/129 IS1/ 1
2t 97 2/ 94
13.9 0.312
24.5 0.731
20.6 0.156
4.O5 0.2683
4/ 25 19/ 12
6/217 6/215
18.2 0.078
19.9 3.384
19.0 1.580
1.20 2.1295
213/455 461/ 1
11 72 2/280
13.9 0.312
29.0 0.731
23.0 0.129
4.93 3.2165
88/ 39 59/ 33
9/613 9/650
0.014
0.933
3.920
0.0109
139/ 51
3/ 57
0.007
2.339
1.097
1.4156
42/ 0
2/233
3.034
3.041
0.016
0.0157
8/ 58
6/179
0.397
2.039
1.007
1.4156
205 / 0
2/536
3.034
3.041
0.017
0.0137
69/151
9/521
0.131
0.676
3.333
0.2979
102/ 44
3/1O1
0.174
3.809
0.491
O.4490
149/ 35
2/ 62
O.O30
0.206
0.125
0.0618
28/ 88
6/130
0.174
0.839
0.491
9.4490
368/141
2/233
3.030
0.676
0.194
0.1882
37/160
9/345
0.114
0.225
3.164
0.0560
151/ 21
3/ 75
0.084
3.324
1.954
2.0788
147/ 0
2/ 99
0.065
0.295
3.129
0.0526
102/ 26
6/118
0.084
3.024
1.334
2.0T88
3S3/ 3
2/359
0.365
0.229
0.138
0.0340
242 / 58
9/4*2
0.799
1.619
1.207
0.4380
111/ 56
3/ 89
1.065
8.199
4.631
3.0444
158/ 0
21 88
0.493
5.399
1.477
1.9275
64/ 2
6/180
1.065
8.199
4.631
3.0444
511/ 0
2/231
3.493
5.399
1.387
1.3433
226/ 6
9/510
13
172
85
83.5
32/ 23
3/192
62
137
85
31.8
135/ 64
21 47
15
116
43
38.7
41/ 58
6/147
62
137
89
31.8
427/188
2/127
13
172
37
54.7
HO/ 78
9/354
5.0
13.0
9.0
4.30
82/ 62
3/103
1.0
4.0
2.5
2.12
13/130
2/103
0.0
15.0
6.7
5.54
O/ 32
6/214
1.0
4.0
2.9
2.12
32/478
2/232
o.o
19.0
7.4
4.95
0/166
4/576
0
383
141
212.2
3630
12448
6039
6235.3
0
183
53
71.4
3630
12448
8039
6235.3
0
385
82
128.0
0.0
2.6
1.2
1.30
11.9
12.6
12.2
3.91
0.0
1.5
3.6
3.66
11.9
12. t
12.2
0.91
0.0
2.C
3.8
0.89
-------�
GFNUSlClOSTERIDIUM
CMIA
TURB SECCNI
PH
00
PARTIAL DEPTH VALUES
TEMP TOT ALP CRTHOP NO2N03
NH3
KJEL
ALK
M/P
00
CONC
PERC
B
o o
U 1 C
N C
0
R N
0 0
U 1 N
N O
0 C
c
•
0 0
U 2 C
N C
0
4 N
0 0
U 2 N
N 0
0 C
C
4
0 O
U3C
N C
D
R N
0 -3
U 3 N
N O
D C
C
R
O A 0
U L C
1 L C
0
P N
0*0
U L N
N L 0
D C
C
HIM
• IX
MEAN
STDV
N
0/HR
HIN
HU
MEAN
STOV
N
0/WR
HIN
MAX
MEAN
STDV
N
0/UR
MIN
NIX
MEAN
STOV
M
C/MR
HIN
MIX
MEAN
STOV
N
0/WR
HIN
MtX
MEAN
STOV
N
0/UR
KIN
M IX
NEAV
STOV
N
0/MR
NIN
PAX
MEAN
STDV
N
0/HR
17.5
17.5
17.5
0.00
179/ 66
I/ 2
O. 3
355.6
21.0
*1.»8
O/ O
2*6/2*7
1.*
595.0
34.4
62.58
Of 0
2*7/2*7
72.6
72.6
72. 6
0.00
232/ 1*
I/ 1
0.8
2*1.*
23.0
34.19
O/ 0
2*6/2*7
17.5
72.6
45.0
38.96
499/ 60
2/182
0.3
595.0
26.1
»7.96
Of 0
739/7*1
19
19
19
0.0
*/181
I/ 2
6
100
Tl
20.3
O/ O
186/187
*
121
72
24.0
O/ 0
237/237
29
29
29
O. 0
17/203
I/ 1
I
130
74
22.9
3/ 0
220/221
19
29
24
7. 1
26/595
21 24
1
121
72
22.6
O/ 0
643/645
12
12
12
0.0
19/225
I/ 5
2
252
4*
36.2
O/ 0
2*8/249
1
222
49
35.8
O/ 0
241/241
18
18
18
9.0
28/2O9
I/ 9
6
IBS
51
35.0
O/ 0
245/2*6
12
18
15
4.2
39/610
2/ 87
1
252
48
35.7
Of 0
734/736
7.1
7.1
7.1
0.00
30/212
I/ 7
5.3
10.6
7.9
0.72
Of 0
2*8/2*9
4.1
10.6
7.8
0.89
Of 0
2*7/247
7.6
7.6
7.6
0.00
116/118
I/ 11
4.7
10.3
7.6
0.8*
O/ 0
2*4/245
7.1
7.6
7.3
0.35
152/*23
2/166
*.l
10.6
7.8
0.83
Of 0
739/741
9.5
9.5
9.5
0.90
142/ 93
I/ 10
0.7
19.2
9.0
2.02
Of 0
244/2*5
3.0
17.8
7.0
1.98
a/ o
2*6/2*6
4.0
4.0
4.0
0.00
5/23}
I/ 3
1.6
13.5
7.3
1.60
Of 0
2*0/2*1
4.0
9.5
6.8
3.89
19/125
2/588
0.7
19.2
7.8
2.07
O/ 3
730/732
12.6 0.216 0.021 1.4*9 0.189 0.899
12.6 0.216 0.021 1.4*9 0.189 0.899
12.6 0.216 0.021 1.4*9 0.188 0.899
0.00 0.0000 0.0000 0.0000 0.0000 0.0000
47/198 223/ 25 155/ 92 210/ 37 223/ 25 181/ 66
1/3 1/1 1/2 1/2 1/1 1/2
6.8 O.OO* 0.001 0.02* O.O22 0.199
28.9 1.719 1.209 9.745 0.635 4.699
17.5 0.122 0.057 0.867 0.106 0.795
5.59 0.2318 0.1646 1.4779 0.0954 0.6989
0/0 Of O 0/0 0/0 0/0 0/0
247/2*8 248/249 2*8/249 2*8/249 248/2*9 248/249
17.3 0.004 0.001 O.02S O.034 0.215
32.2 2.559 1.191 6.857 O.719 7.149
26.6 0.134 0.053 0.493 O.120 1.217
2.35 0.2811 0.1479 O.8836 0.0878 1.0778
Of o of a of o of o of o of o
246/2*6 247/247 2*7/2*7 2*7/2*7 2*7/2*7 2*7/2*7
25.6 1.479 1.099 0.179 O.O69 4.000
25.6 1.479 1.099 0.179 O.O69 4.OOO
25.6 1.478 1.098 O. 179 0.068 4.000
O.OO O.OOOO 0.0000 0.0000 0.0000 0.0000
228/ 16 242/ 3 2*1 / 3 ISO/ 93 114/126 237/ 7
1/2 1/1 1/1 1/3 1/6 1/2
9.0 0.004 0.001 0.017 0.020 0.199
29.6 4.5*9 2.009 4.469 3.024 8.199
20.4 0.1*9 0.066 0.342 0.122 1.107
3.24 0.4010 0.1985 0.5487 0.2236 1.0431
0/0 0/0 0/0 0/0 Of 0 Of 0
245/2*6 245/2*6 244/245 245/246 2*5/246 2*5/2*6
12.6 0.216 0.021 0.179 0.069 0.899
25.6 1.479 1.099 1.449 0.189 4.000
19.1 0.847 0.559 0.813 0.128 2.449
9.19 O.8930 0.7622 0.8980 0.0848 2.1927
48/197 65 6/ 6 *73/ 5 371/ 7* 272/ 89 439/ 15
2/495 It 80 2/263 2/297 2/381 2/288
6.8 0.004 0.001 0.017 0.020 0.199
32.2 4.5*9 2.009 9.7*5 3.02* 8.199
21.5 0.135 0.059 0.569 0.116 1.039
5.*9 0.3122 0.1713 1.0669 0.1489 0.9701
O/ 0 0/0 0/0 0/0 0/0 0/0
738/7*0 7*0/7*2 739/7*1 740/742 7*0/742 740/742
20
20
20
3.0
86/160
I/ 3
10
248
70
67.4
O/ 0
248/2*9
10
33*
73
68.9
Of 0
2*7/2*7
134
134
134
0.0
193/ 51
I/ 2
10
291
73
64.1
Of 0
245/2*6
20
13*
77
•0.6
208/1*5
2/389
10
334
72
66.7
O/ 0
740/742
7.0
7.O
7.0
0.00
100/133
I/ 16
0.0
142.0
18.7
25.18
Of 0
248/249
0.0
210.0
14.1
23.76
Of O
247/247
0.0
0.0
O.O
0.00
0/233
I/ 13
0.0
90.0
9.6
14.89
Of 0
2*5/2*6
0.0
7.0
3.S
4. 99
0/325
2/417
0.0
Z10.0
14.1
22.06
O/ 0
740/742
0
0
0
O.O
0
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
0.00
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
O.O
0.0
0.03
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.00
-------�
GENU$:CLOSTEPICIUM
cm.*
TURB SECCMI
00
TE«P
PARTIAL DEPTH VALUES
TOTALP ORTMOP N02N03
NN3
KJEL ALK
N/P
CONC PERC
OO
R MIN
c o MAX
u i o MEAN
N M STOV
0 N
0/WR
R N MIN
I! 0 MAX
U 1 N MEAN
N 0 STOV
0 0 N
M 0/WR
R MIN
0 0 MAX
U 2 0 MEAN
N N STOV
0 N
0/WR
R N MIN
C 0 MAX
u 2 N MEAN
N 0 STCV
0 0 N
M 0/WR
4 PIN
0 0 PAX
U 3 0 MEAN
II » STDV
0 N
0/WR
R N MIN
0 O MAX
U 3 N M'AN
N 0 STOV
0 0 N
* 0/WR
R PIN
PAD HAX
U L 0 MEAN
N L M STOV
0 N
0/WR
R N HIN
0 A 0 1AX
U L N MEAN
N L C STDV
0 0 N
M 3/MR
1T.S
1T.S
17.5
0.00
IT9/ 66
I/ 2
19
19
19
0.0
4/181
I/ 2
12
12
12
0.0
19/225
I/ i
T.I
T.I
T.I
0.00
9.5
9.5
9.5
0.00
30/212 1*2/ 43
I/ T I/ 10
12.6
12.6
12.6
0.00
0.216
0.216
0.216
0.0030
0.021
0.021
0.021
0.0000
1.4*9
1.4*9
1.4*9
0.0000
0.164
0.189
0.168
0.0000
0.899
0.899
0.899
0.0000
2»
20
20
0.0
T.O
T.O
T.O
0.00
0
o
0
0.0
0.0
0.0
0.0
0.00
4T/198 223/ 25 155/ 92 210/ 37 223/ 25 1BU 66
1/3 1/1 1/2 1/2 1/1 1/2
86/163 10O/133
I/ 3 I/ 16
T2.6
T2.6
72.6
0.00
232/ 14
I/ 1
29
29
29
0.0
IT/233
I/ 1
16
18
18
0.0
T.6
T.6
T.6
0.00
28/239 116/118
I/ 9 I/ 11
6.0 25.6 1.4T9 1.099 0.1T9 O.O69 4.00O
4.3 25.6 1.479 1.099 3.179 0.369 4.0OO
4.0 25.6 1.478 1.098 0.179 0.068 4.900
0.00 0.00 0.0000 0.0000 0.0000 0.0000 0.3303
S/233 22B/ 16 242/ 3 241/ 3 ISO/ 93 114/126 23T/ T
1/3 1/2 1/1 1/1 1/3 1/6 1/2
13*
13*
134
0.0
193/ 51
I/ 2
0.0
0.0
0.0
3.00
0/233
I/ 13
0 0.0
0 0.0
0 0.0
3.3 0.30
1T.5
T2.6
45.O
38.96
499/ 60
2/162
19 12 T.I
2V 18 T.6
24 15 T.3
T.I 4.2 0.31
26/595 39/610 152/423
2/ 24 2/ 87 2/166
4.0
9.5
6.6
3.89
19/125
2/588
12.6 0.216
25.6 1.479
19.1 0.64T
9.19 0.8930
46/197 656/ 6
2/495 2/83
0.021 0.1T9 0.069 0.899 20 0.0
1.099 1.4*9 0.169 4.000 13* T.O
3.559 0.813 0.128 2.449 TT 3.5
O.T622 0.8960 0.0848 2.1927 80.6 4.95
»T3/ 5 3T1/ T4 2T2/ 69 439/ 15 2O8/145 0/325
2/263 2/29T 2/381 2/286 2/389 2/41T
0 0.0
0 O.O
0 0.0
O.i) 0.30
-------�
oo
GfNUS:CLOSTE«IOPSIS
CMLA
SECCHI
oo
PARTIAL DEPTH VALUES
TEMP TOTAIP ORTMOP N02NO3
KJEL
N/P
CONC
R KIN
0 0 MM
0 1 C *EAN
N C STOV
0 N
0/HR
R N HIN
0 0 NIX
U | N MEAN
N 0 STDV
0 C N
C 0/MR
R MIN
0 0 MAX
U 2 C MEAN
N C STOV
0 N
O/HR
a N MIN
0 0 MAX
U 2 N MEAN
N 0 STOV
0 C N
C P/WR
P MIN
0 0 MAX
U 3 C MFAN
N C STOV
0 N
O/WR
B N MIN
0 0 MAX
U 3 N M?AP»
N 0 STDV
0 C N
C O/WB.
R MIN
0*0 "AX
U I C MEAK
N L C STOV
0 N
0/MR
R N "IN
0 A o MM
u L N MEAN
N L 0 STOV
0 C N
C C/NR
5.1
S3. 9
13.2
13.81
76/ 35
4/136
0.3
355. 6
21.1
41.70
O/ O
243/2*7
26. 4
170.5
102.2
65.65
17 3/ 5
4/ 69
I.*
545.0
33.3
62.05
O/ O
2*3/2*7
9.7
70. 4
40.6
26.12
114/ 17
5/114
O.I
241.4
22.8
34.36
01 0
242/247
5.1
170.5
51.1
52.40
160/ 14
13/567
0.3
595.0
25.7
47.76
O/ 0
728/741
65 22
65 36
65 30
0.0 6.2
60/122 75/101
I/ 5 4/ 73
6 2
100 252
71 44
20.6 36.*
0/0 0/0
186/187 245/249
23 12
72 26
43 19
23.6 5.8
14/152 13/178
4/71 */ SO
4 1
121 222
73 49
23.7 35.9
o/ a o/o
233/237 237/241
1 6
86 43
48 25
43.3 15.8
O/ 84 0/108
4/13T 5/138
3 7
100 185
7» 51
22.5 35.1
1/0 1/0
217/220 241/245
1 6
86 43
48 25
31.0 11. 0
0/206 5/288
9/439 13/443
3 1
121 252
7) 48
22.4 35.9
1/0 0/0
636/644 723/736
7.1 8.0
8.5 9.7
7.8 9.2
0.60 0.80
30/ 34 57/ 75
4/185 4/113
5.3 0.7
10.6 19.2
7.9 9.0
0.73 2.93
0/0 0/0
245/249 2*1/245
7.7 6.9
8.9 11.7
8.4 8.5
0. 51 2.21
13*/ 16 125/ 6
4/127 4/115
4.1 3.0
1O.6 17.8
7.8 7.0
0.89 1.97
0/0 0/9
2*3/247 242/246
6.6 6.2
8.5 9.5
7.7 7.6
0.86 1.47
23/ 30 *8/ I*
5/192 4/179
4.7 1.6
10.3 13.5
7.6 7.3
0.84 1.61
0/0 0/0
2*3/245 237/2*1
6.6 6.2
8.9 11.7
8.0 8.4
0.70 1.59
46/ 40 141/ 21
13/655 12/570
4.1 0.7
10.6 19.2
7.7 7.8
0.83 2.08
0/0 0/0
728/741 720/732
13.1 0.028
19.7 0.127
16.5 0.066
3.36 0.0439
63/ 83 60/ 48
4/132 4/141
6.8 0.004
28.9 1.719
17.5 O.124
5.62 0.2332
0/0 0/0
2**/248 245/249
24.4 O.O66
26.5 0.305
25.3 0.156
0.91 0.1076
43/125 148/ 22
*/ 78 */ 77
17.3 0.004
32.2 2.559
26.6 0.134
2.36 0.2832
0/0 O/O
242/246 243/247
17.4 0.053
24.8 0.791
20.4 O. 309
3.62 0.32*6
37/ 23 114/ 10
5/186 5/122
9.0 0.004
29.6 4.549
20.4 0.151
3.25 0.4106
O/O 0/0
241/246 241/246
13.1 0.028
26.5 0.791
20.7 0.187
4.54 0.2235
65/155 208/ 28
13/520 13/506
6.8 0.004
32.2 4.549
21.5 0.136
5.51 0.3171
0/0 0/0
727/74O 729/742
0.002
0.085
0.029
0.0382
10/ 26
4/213
0.001
1.209
0.057
0.1655
O/ 0
245/249
O.O07
0.099
0.035
0.0426
79/ 23
4/145
0.001
1.191
0.053
0.1490
O/ 0
24V 247
0.007
0.450
0.168
0.2181
42/ 9
5/194
0.001
2.009
0.068
0.2086
O/ 0
240/245
0.002
0.450
0.085
0.1464
I*/ 25
13/702
0.001
2.009
0.059
0.1758
O/ 0
728/741
0.038 0.03*
0.789 0.076
0.392 0.055
0.3174 0.0228
*/ 71 9/128
4/174 4/112
0.024 0.022
9.745 0.635
0.878 0.107
1.4858 0.0958
0/0 0/0
245/249 245/249
0.093 0.090
1.132 0.190
0.473 0.123
0.4616 0.0462
72/ 32 112/ 30
4/143 4/105
0.025 0.034
6.857 0.719
0.494 O. 119
O.8894 O.OB84
0/0 0/0
243/247 243/247
O.029 O.OS9
1.199 0.979
0.418 0.351
0.5261 0.4123
19/ 21 78/ 1
5/206 5/167
0.017 0.020
4.469 3.024
0.340 0.118
0.5491 0.2166
0/0 0/0
241/246 241/246
0.029 0.034
1.199 0.979
0.427 0.190
0.4146 0.2751
25/ 93 13/ 1
13/624 13/728
0.017 0.020
9.745 3.024
0.572 0.115
1.0740 0.1455
0/0 0/0
729/742 729/7*2
0.254
1.099
0.578
0.3817
ll/ 37
4/201
0.199
4.699
0.799
0.7014
O/ 0
245/249
0.215
2.474
1.570
1.0354
O/ 24
4/223
0.226
7.149
1.211
1.0796
I/ 0
243/246
0.699
3.000
1.906
1.0284
101/ 15
5/130
0.199
8.199
1.102
1.0536
O/ 0
241/246
0.215
3.000
1.394
0.9992
7/ 33
13/702
0.199
8.199
1.037
O.974O
O/ 0
729/742
12
195
93
80.0
*!/ 22
4/186
10
248
70
67.2
O/ 0
245/249
41
281
113
112.9
107/ 2
4/138
10
334
73
68.1
O/ 0
243/247
26
220
98
91.1
B*/ 7
5/155
10
291
72
63.5
O/ 0
241/246
12
281
101
87.3
93/ 4
13/645
10
334
72
66.3
O/ 0
729/742
3.0
9.0
6.5
2.65
34/117
*/ 98
0.0
142.0
18.8
25.29
O/ 0
245/249
1.0
18.0
6.3
7.93
IZf 37
4/198
0.0
210.0
14.2
23.92
O/ 0
243/2%7
1.0
4.0
2.6
1.34
11/130
5/103
O.O
9O.O
9.8
14.99
O/ 0
241/246
1.0
18.0
4.9
4.66
32/133
13/577
0.0
210.0
14.3
22.19
O/ 0
729/742
0
0
0
0.0
0
0
0
0.0
0
74
35
30.3
0
0
0
0.0
0
84
22
36.5
0
0
a
0.0
0
84
19
29.7
0
0
0
0.0
0.0
0.0
0.0
0.00
0.0
0.0
0.0
o.oo
0.0
4.0
1.1
1.95
0.0
0.0
0.0
0.00
0.0
1.0
0.3
0.42
O.O
0.0
0.0
0.00
0.0
4.0
0.4
I. 10
0.0
O.O
0.0
0.00
-------�
do
GFNUS:C(.0:TERIOI>S1S
CHLA
TURB SECCH1
00
TEN"
PARTIAL DEPTH VALUES
TOTAIP ORTHOP N02N03
NH3
KJEL ALK
N/P
CONC PERC
R
0
u
N
0
R
C
U
M
0
9
0
u
k
0
p
0
u
N
D
D
0
U
N
0
R
0
u
•«
0
R
Q
U
N
D
R
C
U
N
D
D
1 0
N
N
0
1 N
0
0
M
0
2 0
M
q
0
2 N
0
0
0
3 0
N
N
3 N
0
0
H
A 0
L 0
L M
N
A 0
L N
L 0
0
M
N|N
MAX
MEAN
STOV
0/HR
KIN
MAX
MEAN
STOV
O/KR
MIN
MAX
MEAN
STOV
N
0/HR
MIN
MAX
MEAN
JTOV
0/HR
MIN
MAX
MEAN
STOV
N
0/UR
MIN
MAX
MEAN
STOV
0/MR
MIN
MAX
MEAN
STDV
N
0/HR
M|N
MAX
MEAN
STPV
0/UR
5.1
33.9
13.2
13.81
76/ 35
4/136
26.4
1T0.5
192.2
65.65
173/ 5
4/ 69
9.7
70.4
40.6
26.12
114/ 17
5/116
5.1
170.5
52.40
160/ 14
13/567
65
65
65
0.0
60/122
I/ 5
23
72
43
23.6
14/152
4/ 71
1
86
48
43.3
O/ 84
4/137
1
86
48
31.0
0/206
9/439
22
36
30
6.2
75/101
4/ 73
12
26
19
5.8
13/178
4/ 50
6
43
25
15.8
0/138
5/138
43
25
11.0
5/288
13/443
7.1
8.5
7.8
0.60
30/ 34
4/185
7.7
8.9
8.4
0.51
134/ 16
4/127
6.6
8.5
7.7
0.86
23/ 30
5/192
6.6
8.9
8.0
0.70
46/ 40
13/655
8.0
9.7
9.2
0.80
57/ 75
4/113
6.9
11.7
8.5
2.21
125/ 6
4/115
6.2
9.5
7.6
1.47
4B/ 14
4/179
6.2
11.7
8.4
1.59
141/ 21
12/570
13.1
19.7
16.5
3.36
63 / 83
4/102
24.4
26.5
25.3
9.91
43/125
4/ 78
17.4
24.8
20.4
3.62
37/ 23
5/186
13.1
26.5
20.7
4.54
65/155
13/520
0.028
0.127
0.066
0.0439
60/ 48
4/141
0.066
0.305
0.156
0.1076
148/ 22
4/ 77
0.053
0.791
0.339
0.3246
114/ 10
5/122
0.028
0.791
0.187
0.223S
208/ 28
13/536
0.002
0.085
0.029
0.0382
lOt 26
4/213
0.037
0.399
0.035
0.0426
79/ 23
4/145
0.007
3.450
0.168
0.2181
42/ 9
5/194
O.O02
0.450
0.085
0.1464
14/ 25
13/702
0.038
0.789
0.392
0.3174
4/ 71
4/174
0.093
1.132
0.473
0.4616
72/ 32
4/143
0.029
o!*18
0.5261
19/ 21
5/236
0.029
1.199
0.427
0.4146
25/ 93
13/624
0.034
0.076
3.055
0.0228
9/128
4/112
O.O90
0.190
0.123
0.0462
112/ 30
4/105
0.059
0.979
0.351
0.4123
78/ 1
5/167
0.034
0.979
0.190
0.2751
13/ 1
l?/728
0.254
1.O99
0.578
0.3817
lit 37
4/201
3.215
2.474
1.570
1.0354
3/ 24
4/223
0.699
3.000
1.936
1.0284
101/ 15
5/130
0.215
3.000
1.394
0.9992
11 33
I3/T02
12
195
93
80.3
41/ 22
4/186
41
281
113
112.9
137/ 2
4/138
26
220
98
fl. 1
B4/ 7
5/155
12
281
131
87.3
92/ 4
13/645
3.0
9.0
6.S
2.65
34/117
4/ 98
1.0
18.0
6.3
7.93
12/ 37
4/198
1.0
4.0
2.6
1.34
13/130
5/103
1.0
1B.O
4.9
4.66
32/133
13/577
0
0
0
0.0
0
74
35
30.3
0
84
22
36. 5
0
84
19
29.7
0.0
0.0
0.0
0.10
0.0
4.3
1.1
1.95
0.0
1.0
0.3
0.42
0.0
4.0
0.4
1.19
-------�
PARTIAL DEPTH VALUES
CHI a
TUBS SECCH1
TEMP TOTiLP ORTHOP V02NO3
NH3
CONC
PERC
OO
OO
p
0 0
U 1 C
N C
D
R N
f 0
U 1 N
N 0
0 C
C
P
0 0
U 2 C
N C
0
R N
c a
a 2 i
N 0
o c
c
9
C 0
U 3 C
N C
D
• H
O 0
U 1 N
N
0/W*
KIN
MAX
MEAN
STOV
N
0/HR
HIN
MIX
MEAN
STOV
N
0/«R
HIN
t*iX
WEAN
STDV
NC/>
0/MR
HIM
nut
MEAN
STOV
N
O/WR
MIN
»»X
MEAN
STOV
N
P/WR
KIN
MIX
MEAN
STOV
N
0/WR
HIN
MAX
MEAN
STOV
N
0/MR
0.5
1*6.8
23.)
29.55
I/ 6
45/2*0
0. I
155.6
20.*
43.6*
O/ 0
202/2*7
1.*
595.0
44.5
79.29
O/ 0
91/2*7
1.5
456.6
28. S
»9.71
I/ 1
156/2*5
0.8
2*1.*
26.7
3*. 3 6
O/ O
102/2*7
0.8
237.0
20. T
34.10
O/ 1
1*9/2*6
0.5
595.0
32.9
16.02
it a
238/740
0.3
456.6
23.0
43.28
O/ 1
103/7*0
6 5
95 1SS
73 37
20.3 29.5
O/ 9 2/1
31/178 45/2*6
8 2
100 2S2
70 t!
20.7 37.*
1/0 0/0
156/186 204/2*9
4 6
103 L**
66 *1
26.4 28.4
0/2 I/ 5
88/235 84/235
7 1
121 222
75 5*
21.8 38.8
3/0 0/0
149/234 152/2*1
8 a
99 157
71 40
21.8 26.1
3/1 2/3
95/217 152/2*1
1 6
100 IBS
76 56
23.8 38.5
0/0 0/0
126/221 l«*/2*6
* 5
10) ias
69 40
23.6 27.6
2/2 3/3
2L4/641 236/730
1 1
121 2S2
74 51
22.1 38.5
0/0 0/0
431/6*5 500/7)6
5.3
9.T
7.9
0.72
O/ 2
45/247
5.3
10.6
7.9
0.73
Of 0
204/249
5.5
9.4
7.8
0.75
21 6
91/23S
4.1
10.6
T.7
0.96
O/ 0
156/247
5.9
9.4
7.8
0.72
2/ 3
131/2*0
*.7
10.3
7.5
0.89
O/ 0
1*4/245
5.3
9.7
7.8
0.71
3/ 8
2)7/730
*.l
10.6
7.7
0.87
O/ 0
504/741
3.9
15.5
a. a
2.11
6/ 1
44/238
O. 7
19.2
9.0
2.OO
a/ a
201/245
3.0
13.5
6.9
1.6*
O/ 5
90/241
3.1
17. a
7.1
2.16
L/ 0
156/245
4.0
11. S
7.*
1.5*
S/ 0
131/236
1.6
12. T
7.1
1 .63
O/ 1
140/240
3.0
15.5
7.5
1.81
5/ 3
235/72*
0.7
1<9.2
7.9
2.16
01 0
497/712
10. T
28.9
19.0
5.35
IT/ 0
45/231
6.8
28.8
17.2
5.60
O/ 1
203/2*7
17.3
31.*
26.8
2.43
O/ 2
90/24*
20.1
32.2
26.5
2.30
I/ 0
156/2*5
13.5
29.6
20.1
3.12
11 0
102/2**
9.0
27.8
20.6
3.33
O/ 2
14*/2*«
10.7
31.4
22.5
4.86
ia/ 2
237/720
6.8
32.2
21.0
5.72
O/ 0
503/740
0.004
1.159
0.1)8
0.2025
O/ 5
45/2*4
0.00*
1.719
0.119
0.23T7
O/ 0
204/249
0.909
1.599
0.147
0.2573
•>/ 1
91/237
0.004
2.559
0.127
0.29*7
O/ 0
156/2*7
0.008
l.*79
O.171
0.2823
5/ 3
101/238
0.004
4.5*9
0.1*3
0.4786
O/ O
1*5/246
0.004
1.599
0.156
0.2566
O/ 5
237/737
0.034
4.5*9
0.128
0.3391
O/ O
505/742
0.001
0. 851
0.059
0.1*70
O/ *
4S/245
O.OOI
1.209
0.056
0.1682
01 0
204/249
0.002
O.949
0.058
O.1447
3/ 2
91/242
O.OOI
1.191
0.051
0.1501
O/ O
156/247
0.001
1.255
O. 089
0.216O
Z< 1
101/2*2
3.001
2.009
O.OS6
0.2033
O/ O
1*4/2*5
0.001
1.255
0.071
0.1789
O/ 1
237/74O
a. ooi
2.009
0.055
0.1735
O/ O
504/741
0.038
4.308
0.798
1.0868
*/ to
45/235
0.024
9.745
0.886
1.5498
O/ 0
204/249
0.027
6.857
0.532
1.0350
11 0
91/246
O.O25
4.295
0.471
0.7847
O/ 1
156/246
0.01T
4.469
0.366
0.6124
O/ O
101/246
0.019
2.569
0.325
0.4816
t/ 2
145/2*3
0.017
6.857
0.512
0.9OTZ
01 5
237/737
0.019
9.745
0.596
1.1327
I/ 0
505/741
0.022
0.52*
0.119
0.0975
01 3
45/246
0,O2*
0.635
0.10*
O.09*8
I/ 0
204/248
0.040
0.719
0.131
O.09B8
*/ 0
91/243
0.034
0.565
0.113
O.OB03
01 1
156/2*6
0.031
0.569
0.115
0.0989
I/ *
1O1/2*1
0.020
3.O2*
0.127
0.2791
O/ 0
145/246
0.022
0.719
0.122
0.0984
I/ 4
237/737
9.020
3.02*
0.113
0.1672
O/ 0
505/742
0.265
3.000
0.9*3
0.7005
13/ 4
45/232
0. 149
4.699
0.763
0.6944
a/ o
204/249
0.324
6.250
1.462
1.1690
IO/ 2
91/235
0.215
7.149
1.074
0.9971
a/ o
156/247
0.225
6.000
1.264
0.9689
S/ 1
101/2*0
0.199
8.199
1.017
1.1065
O/ 0
145/2*6
0.225
6.250
1.274
UOZ22
IO/ 3
2)7/729
0.199
8.194
0.932
0.9125
a/ o
505/742
10
248
88
64.3
Of 0
45/2*9
10
2*0
66
6T.5
O/ 1
204/248
10
3)4
42
82.1
O/ O
91/247
10
281
62
ST.*
at 2
156/2*5
10
283
9)
69.6
O/ 1
101/245
10
241
59
56.1
O/ O
1*5/246
10
3)4
42
73.5
or o
237/742
10
241
63
61.3
O/ 2
509/740
0.0
98.0
14.5
18.82
O/ 5
45/244
0.0
142.0
19.5
26.28
01 0
204/249
0.0
210. O
11.8
24.34
O/ 0
91/247
0.0
130. O
15.4
21.39
O/ 1
156/246
0.0
70.0
7.1
10.46
O/ 4
LO1'242
0.0
90.0
11.4
17.12
or o
149/246
0.0
210.0
10.)
18.62
or o
237/742
0.3
142.0
15.9
23.27
Of 1
505/741
a
762
16
119.)
0
0
0
0.0
0
1208
74
183.9
0
0
0
0.3
0
77*7
1)9
806.8
0
0
O
3.9
0
7747
94
542.7
0
0
0
O.O
0.3
19.6
0.1
1.08
0.0
0.3
0.0
a. oo
0.0
14.1
0.8
2.18
0.0
0.0
O.O
3. JO
0.0
86.3
1.5
8.61
0.0
0.0
0.0
3.30
O.O
86.)
1.1
5.94
0.0
o.o
0.0
0.00
-------�
00
CEN
O/MR
R N MIN
<9 0 MAX
U 1 N «AN
N 0 STOV
D 0 N
* P/M«
R MIN
a o MIX
U 2 0 MEAN
N M STOV
D N
0/«
R N KIN
0 0 "IX
U 2 N MEAN
N D STOV
D 0 N
N 0/HR
0 I»IN
0 0 M»X
U 3 0 MEAN
N N STOV
0 N
0/WB
D N MIN
0 9 M*K
U 3 N MEAN
N D STDV
0 0 M
M 0/W«
« HIN
0*0 »«
U L 0 MEAN
N I •» STDV
1 N
a/Mi
R N WIN
o a o w»x
U L N »E*N
N L 0 STOV
D 0 N
H O/MR
0.5
0.5
0.3
0.00
1/243
l/ 3
1.1
1*6.8
23.8
24.69
8/ 6
44/233
1.4
$.4
S.4
0.00
35/210
11 2
1.4
595.0
45.0
79.62
O/ 0
90/2*7
16.6
56.6
J6.7
28.43
119/ 26
2/ 62
0.8
241.4
26. 5
34.56
O/ 0
103/247
a.)
16. 8
14.8
25.55
If 81
4/699
0.8
191.3
33.1
16.40
6/ 9
Z34/731
88
88
88
0.0
141/ 37
L/ 9
6
95
72
20.5
O/ 9
30/118
91
91
9*
0.0
2IB/ 10
I/ »
4
103
66
26.4
Of 2
87/235
27
•6
ST
41. 7
14/ 84
2/123
8
99
71
21. S
3/ 1
93/217
27
91
74
31. «
43/ 3!
4/167
4
193
69
23.9
2/ 2
210/641
86
88
88
0.9
21 TV Z8
I/ 4
S
185
36
28.8
2/ 1
44/246
117
117
117
0.0
22«/ U
I/ 1
6
144
40
27.4
I/ S
88/23S
31
40
36
6.4
71/120
2f IS
8
117
40
26.4
2/ 3
130/241
31
117
69
40.6
27 9/ 43
4/418
S
IB!
39
27.2
3/ 3
232/731
1.3
1.3
1.3
0.00
0/247
I/ 2
6.8
9.7
8. a
a.bo
9/ 2
44/238
1.7
1.7
1.7
0.00
1/24O
I/ 2
1.1
9.4
7.8
0.72
2/ 6
90/239
6.1
8.1
7.3
1.70
4/ 30
2/211
;.9
9.4
7.8
0.70
2/ 3
99/240
5.3
8.1
6.4
t.44
3/102
4/636
9.1
9.7
7.8
0.69
I/ 8
233/728
9.4
9.4
9.4
0.00
138/103
I/ 4
3.9
11.5
8.8
2.13
6/ 1
43/238
6.6
6.6
6.6
0.03
102/131
I/ 9
3.0
13.1
6.9
1.61
3/ 1
89/241
6.8
7.6
T.2
0.17
82/104
Zf 19
4.0
13.1
7.4
1.60
I/ 0
99/236
6.6
9.4
7.6
1.28
194/139
4/199
3.0
11.5
7.9
1.84
I/ 3
231/72*
11.9
11.9
11.9
0.00
123/122
I/ 3
10.7
28.9
19.1
1.39
17/ 0
44/231
28.0
28.0
28.0
0.00
1S9/ 83
It 4
17.3
31.4
26.8
2.44
O/ 2
•9/244
19.0
29.0
24.0
7.07
82/ 1
2/163
11.1
29.6
20.1
3.02
Z/ 0
100/244
11.9
29.0
23.0
6.12
141/ 34
4/160
10.7
31.4
22.9
4.84
IB/ 2
233/720
0.004
0.004
0.003
0.0000
0/247
I/ 2
0.014
1.119
0.142
O.Z03S
22/ 1
44/222
0.021
0.021
0.021
0.0000
74/171
I/ Z
0.009
1.199
0.149
0.2184
9/ I
90/237
0.013
0.041
0.027
0.0197
22/112
11 72
0.008
1.479
0.174
0.2844
5/ 3
99/238
0.004
0.041
9.020
0.0160
0/439
t/303
0.008
1.199
3.118
0.2632
197 1
233/718
3.001 0.469
0.001 0.46«
0.000 0.468
O.OOOO 0.0000
0/239 111/ 96
I/ 10 If 2
0.032
0.811
0.061
0.1484
\0f 4
44/23!
0.015
0.015
0.015
9.0000
150/ 91
I/ 6
0.002
O.949
0.018
0.1414
3/ 2
90/242
3.012
0.017
0.014
0.9039
98/109
21 38
0.003
1.215
0.090
0.2179
Z/ 1
99/242
0.001
0.017
3.011
0.0071
0/291
4/410
0.002
1.211
3, 31 2
0.1803
14/ 1
Z33/7Z6
0.038
4.338
0.801
1.098Z
4/ 10
44/231
0.041
0.041
O.044
0.0000
It/230
I/ 1
0.027
6.85T
0.137
1.039$
I/ 0
90/246
0.361
2.688
1.377
1.8133
91/ 1
2/154
0.017
4.469
0.346
0.1931
Of 0
99/246
O.041
2.688
0.817
1.2623
«4/ 34
4/624
0.017
6.BI7
0.137
3. 402 8
O/ t
ZJ3/737
0.042
0.042
0.042
0.0000
26/222
It 1
0.022
0.124
0.121
0.0979
O/ 3
44/Z46
0.017
0.017
0.016
O.OOOO
34/210
I/ 3
0.040
0.719
0.132
0.0990
4/ 0
90/243
0.08O
0.116
0.097
0.9214
138/ 61
Z/ 47
0.031
0.169
0.111
0.0998
I/ 4
99/241
0.342
0.116
0.073
0.0322
16/212
4/474
0.022
0.719
0.123
0.0990
If 4
Z33/7J7
0.261
0.269
0.264
0.0000
13/233
I/ 3
0.299
3.000
0.938
0.7008
Z7/ 4
44/218
0.961
0.961
0.969
0.0000
131/111
If \
0.324
6.Z10
1.468
1.1743
13/ 2
90/231
3.110
0.811
0.782
0.0419
111/119
2/ 16
0.22!
6.000
1.274
0.9T62
!/ 1
99/240
0.261
0.961
0.698
0.3028
29/270
4/443
0.221
6.210
1.289
1.027!
10/ 3
233/724
10 98.0
10 48.0
10 48.0
0.0 0.00
0/214 243/ 1
I/ 3! I/ 1
11
248
90
63.9
33/ 0
44/Z14
10
10
10
0.0
Of 211
1/18
10
334
93
82.1
O/ 3
90/247
10
116
83
103. Z
a/ 31
2/215
13
283
93
69.9
Of 1
99/241
10
116
47
73.0
0/101
4/617
10
334
92
71.4
Of 0
233/742
O.O
13.0
12.6
14.01
Of 21
44/228
4.0
4.0
4.0
0.00
64/16!
If 18
0.0
213.0
11.8
24.47
Of 0
90/Z47
11.0
70.0
40.1
41.72
18TY 4
2/ 11
0.0
11.0
6.4
8.41
O/ 10
94/236
4.0
98.0
41.8
45.71
208/ 10
4/124
0.0
210.0
9.7
17.43
O/ 3
233/742
10
10
10
0.0
0
762
37
120.6
8OO
800
800
0.0
0
1208
61
168.0
2671
7747
1209
3189.3
O
289
37
64.7
10
7747
2807
3477.2
0
1208
48
124.2
19.6
19.6
19.6
a. oo
0.0
7.2
0.4
1.17
19.1
19.1
19.1
0.00
0.0
1.6
0.6
0.99
12.1
86.3
49.2
12.46
0.0
4.3
0.6
0.98
12.1
86.3
34.3
34.81
3.0
7.Z
0.1
1.02
-------�
GENUS:COCCONEIS
CML»
TUR9 SECCHI
00
PARTIAL DEPTH VALUES
TEMP TOTALP ORTHOP N02N03
NH3
KJEL M.K
CONC
PERC
R
0 0
u i c
N C
0
I N
0 0
U 1 N
N 0
0 C
C
R
g o
U 2 C
N C
0
0 H
0 0
U 2 N
N 0
D C
C
a
0 0
U 3 C
N C
0
• N
0 0
U J N
N 0
e c
c
t
C A 3
U I C
NIC
0
• N
0 A O
U 1 N
N I 0
0 C
c
KIN
MAX
MEAN
STOV
N
0/UR
M!N
M*X
HEAN
STOV
N
0/WR
N1N
MAX
NCAN
STOV
N
0/WR
HIN
MAX
MEAN
STOV
N
0/HR
MIN
MAX
MEAN
STCV
N
O/WB
MIN
MAX
HEAN
STOV
N
0/WR
NIN
MAX
MEAN
STOV
N
0/WR
HIN
MAX
MEAN
STOV
N
P/WR
1.5
54.1
14.7
IS. 38
B/ 14
45/225
0.3
355. 6
22.1
45.11
Of 0
202/2*7
2.8
312.3
34.3
ST. 31
10/ 2
39/235
1.4
S9S.O
3*. 5
63.65
Of 0
208/247
1.2
70.8
18.0
20.11
4/ 16
31/227
3.9
2*1.4
23.9
35.60
Of 0
216/2*7
1.2
312.0
22.3
37.0*
U/ 3
115/727
0.3
595.0
26.9
19.66
O/ 0
626/7*1
11
96
71
21.9
2/ *
36/181
6
100
70
20.3
of a
151/187
*
103
69
24.7
O/ 2
36/235
5
121
73
23.8
If 0
199/236
22
97
75
21.2
ll/ 2
27/208
1
1OO
7*
23.*
Of 0
194/221
*
113
71
22.7
2/ Z
101/641
1
121
72
22.8
O/ 0
544/645
13
185
46
37.3
24/ I
45/22*
2
252
43
36.0
Of 0
20*/2*4
6
123
44
27.6
I/ 9
38/231
1
222
SO
37.1
Of 0
203/241
12
157
SO
36.3
7/ 3
31/236
6
185
50
34.9
Of 0
215/246
6
185
46
33.9
S/ 3
114/728
1
2S2
48
36.1
Of 0
622/736
6.8
9.7
8.0
0.50
If 2
45/238
5.3
10.6
7.9
0.77
Of 0
2O4/249
5.5
9.5
7.9
0.79
2/ 4
39/241
4.1
10.6
7.7
0.91
Of 0
208/2*7
5.9
B.8
7.7
0.82
2/ 12
31/231
4.7
10.3
7.6
0.84
01 0
214/245
5.5
9.7
7.8
0.70
S/ 8
115/728
4.1
10.6
7.7
0.85
Of 0
626/741
6.0
12.7
9.3
1.60
I*/ 3
* 5/228
0.7
19.2
8.9
2.10
O/ O
20O/2*5
3.0
13.8
7.1
2.12
Of 4
39/242
3.1
17.8
7.0
1.96
If 0
207/245
3.5
12.7
7.5
1.76
3/ 1
31/237
1.6
13.5
7.3
1.59
Of 0
210/241
3.0
13.8
8.1
2.08
5/ 6
115/721
0.7
19.2
7.7
2.06
O/ 0
617/732
8.5
28.0
15.8
4.63
if 3
45/243
6.8
28.9
17.9
5.73
Of 0
2O 3/24 8
17.3
32.2
25.9
2.69
Of 0
39/246
20.1
31.5
26.7
2.26
If I
207/244
9.0
29.6
19.4
4.28
Of 0
31/2*6
13.5
29.0
20.6
3.06
if 1
215/243
8.5
32.2
20.2
S.8S
Zf 0
115/738
6.8
31.5
21.7
5.40
Of 1
625/739
0.006
0.701
0.090
0.1118
3/ 9
45/237
0.004
1.719
0.130
0.2499
Of 0
204/249
0.010
1.029
0.140
0.2469
I*/ 6
39/227
0.004
2.5S9
0.133
0.2876
Of 0
2O8/247
0.010
0.791
0.110
0.1586
U/ 10
31/225
0.004
4.549
0.161
0.4333
Of 0
215/246
0.006
1.029
0.112
0.1795
7/ 20
115/715
0.004
4.549
0.142
0.3346
Of 0
627/742
0.001 0.041 0.032 0.225
0.616 3.899 0.554 2.449
0.043 9.727 0.096 0.718
0.0968 1.0289 O.O961 0.4557
0/5 6/12 5/1 4/ 12
45/244 45/231 45/243 45/233
0.001 0.024 0.022 0.199
1.209 9.745 0.635 4.699
O.06O 0.901 0.109 O.813
0.1757 1.5571 0.0952 0.7401
0/0 0/0 0/0 0/0
204/249 204/249 204/249 204/249
0.003 0.033 0.036 0.265
0.594 2.556 O.719 6.25O
O.056 0.437 O.145 1.186
0.1368 O.5879 O.1315 1.0891
9/ 4 lOf 12 I/O 3/2
39/234 39/225 39/246 39/2*2
0.001 0.025 0.034 0.215
1.191 6.857 0.565 7.149
0.053 0.504 0.115 1.222
0.1502 0.9294 O.O764 1.0782
0/0 0/0 0/1 Of O
208/247 238/247 208/246 208/247
0.004 0.019 0.032 0.240
0.450 1.731 0.569 2.649
0.048 0.124 0.107 1.017
0.09O9 0.4624 0.0962 0.5900
8/9 1/7 2/4 6/18
31/228 31/238 31/240 31/222
0.001 0.017 0.020 0.199
2.009 4.469 3.024 8.199
0.073 0.344 O.12S 1.133
0.2206 O.S598 0.2360 1.1087
Of 0 Of 0 Of 0 0/0
214/245 215/246 215/246 215/246
0.001 0.019 0.032 0.225
0.616 3.899 0.719 6.250
0.049 0.520 0.115 0.958
0.1098 O.7809 0.1106 O.T801
Of 15 If 17 7/ 4 lOf 3
115/726 115/724 115/731 115/729
0.001 0.017 O.O20 0.199
2.009 9.745 3.024 8.199
0.062 0.578 0.116 1.059
0.1848 1.1107 0.1547 1.0063
0/0 0/0 0/0 0/0
626/741 627/742 627/742 627/742
10
206
96
70.0
Of 10
45/239
10
248
64
65.6
Of 0
204/249
10
293
92
84.1
Of 1
39/246
10
334
70
65.3
Of 0
208/247
10
261
97
76.1
Of 2
31/244
10
291
69
61.6
O/ O
215/246
10
293
95
76.0
O/ I
115/7*1
10
314
68
64.1
Of 0
627/7*2
0.0
112.0
15.9
21.29
01 4
45/245
0.0
142.0
19.2
25.92
Of 0
204/249
O.O
52. O
9.2
9.61
O/ 16
39/231
0.0
210.0
15.0
25.47
Of 0
208/247
1.0
21.0
5.9
4.69
13/ 21
31/212
0.0
90.0
10. I
15.74
Of 0
215/246
0.0
112.0
10.9
15.14
Of 7
115/735
0.0
210.0
14.7
23.04
Of 0
627/742
0
152
7
24.7
0
O
0
0.0
o
154
1O
27.0
O
O
0
0.0
0
199
IS
IT. 7
O
0
O
0.0
0
199
10
29.4
0
0
0
0.0
0.0
0.6
0.1
0.14
0.0
0.0
O.O
0.30
O.O
6.5
0.4
1.25
O.O
O.O
0.0
0.00
0.0
2.9
0.3
0.61
0.0
O.O
0.0
0.00
0.0
6.5
0.2
0.81
0.0
0.0
0.0
o.oo
-------�
GENUS:COCCCNEIS
CWLA
TURB SECCM1
00
TEMP
PARTIAL DEBTH VALUES
TOTALP OPT MOO NC2N03
NH3
HJEl ALK
N/P
COKC PERC
R
0 0
U I 0
N «
D
R N
C 0
U 1 N
N 0
0 0
N
8
0 0
U 2 0
N N
0
R N
o a
U 2 N
N 0
o a
M
R
o e
u i a
N «
0
R N
0 0
U 1 N
N 0
0 0
N
R
0 A 0
U L 0
N L M
0
R N
0 A 0
U L N
N L 0
0 •)
M
M1N
MAX
"EAN
STOV
N
0/HR
HIM
MAX
KEAN
STCV
N
0/rfR
HIM
MAX
MEAN
STDV
N
P/WR
MIN
MAX
MEAN
STOW
*
e/wR
MIN
MAX
WEAN
STOV
N
C/MR
MIN
MAX
MEAN
STDV
N
0/UR
M1H
MAX
MEAN
STDV
N
P/WR
MIN
MAX
Hf AN
STOV
N
0/HR
1. S
54.1
14.7
19.38
8/ 1*
45/225
2.8
312.0
3*. 3
ST. 31
10/ J
39/234
1.2
TO. 8
18.0
20.31
*/ 16
31/22T
1.2
312.9
22.3
JT.O*
ll/ 3
115/737
13
96
71
21.4
2/ *
36/181
»
103
64
24. T
O/ 2
38/239
22
IT
75
21.2
ll/ 2
27/236
4
1»3
Tl
22. T
II 2
1J 1/6*1
13
165
46
31.3
24/ 1
45/224
6
121
44
21.6
If 1
38/231
12
1ST
SO
36.3
T/ 3
31/236
6
185
46
33.9
S/ 3
114/728
6.8
9.7
8.0
0.50
9/ 2
45/238
!.5
9.5
7.9
0.79
2/ 4
39/241
S.9
8.B
7.7
0.82
2/ 12
31/211
5.J
9.7
T.6
0.70
S/ S
115/726
6.0
12.7
9.3
1.60
147 3
45/228
3.0
13. a
7.1
2.12
O/ 4
39/242
3.S
12.7
7.5
1.76
3/ 1
31/237
3.0
13.6
8.1
2.08
S/ 6
113/721
8.S
28.9
19.8
4.63
2/ 3
45/243
17.3
32.2
25.9
2.69
O/ 0
39/246
9.0
29.6
19.4
4.28
O/ 0
31/246
a.s
32.2
20.2
s.as
2/ 0
111/738
0.006
0.701
0.040
0.1116
3/ 9
45/237
0.010
1.029
a. 140
0.2469
!«./ 6
39/227
0.010
0.791
0.113
0.1586
ll/ 10
31/22S
0.006
1.329
0.112
0.1795
7/ 20
115/715
0.001
0.616
a. 0*3
0.0968
O/ 5
45/2**
3.003
0.594
0.056
a.isfce
9/ *
39/234
0.004
0.450
3.O4>8
0.0909
8/ 4
31/228
0.001
3.616
0. 04 ^
0.1098
O/ IS
US/726
0.041
3.899
0.727
1.0289
«/ 12
45/231
O.J33
2.5S6
0.437
0.5819
ll/ 12
39/225
0.019
1.731
0.32*
0.462*
I/ 7
31/238
0.019
3.899
O.S20
0.7809
I/ 17
1 IS/724
0.032
0.5S4
0.096
0.0961
5/ I
45/243
0.036
0.719
0.145
0.1115
If 0
39/246
0.032
0.569
9.1O7
0.0962
21 4
31/243
0.032
3.719
0.115
0.1106
7/ 4
119/731
0.225
2.449
0.718
0.4557
*/ 12
45/233
0.269
6. 2 SO
1.166
1.0S41
3/ 2
39/242
0.240
2.649
1.017
O.9900
6/ 18
31/222
0.225
6.250
0.958
0.7831
10/ 3
11V729
10
206
96
70.3
a/ 10
45/239
13
293
92
84.1
Of I
39/246
to
261
97
76.1
O/ 2
31/244
10
293
9»
76.0
O/ 1
115/741
0.0
112.0
13.9
21.29
a/ *
45/245
0.0
52.0
9.2
9.61
O/ 16
39/231
1.0
21.0
3.9
4.69
13/ 21
31/212
O.O
112.0
10.9
15.1*
Of 7
113/733
0
152
7
24.7
0
154
10
21.0
0
199
IS
37.7
0
199
10
29.4
0.0
0.6
O.I
a. 14
0.0
6.5
0.4
1.25
0.0
2.0
0.3
0.61
0.0
6.5
0.2
0.81
-------�
VO
to
GENUS:COEIASTRUM
CHI A
TURB SECCMI
00
PARTIAL DEPTH VALUES
TEMP TQTALP OUT HOP N02N03
NH3
KJEL ALK
N/P
CONC
PERC
R
0 0
U 1 C
N C
0
II N
0 0
U 1 N
N n
D C
C
R
0 0
u z c
N C
D
« N
0 0
U 2 N
N 0
9 C
C
4
0 0
U 3 C
N C
0
< N
0 0
U 3 N
N 0
0 C
C
1
0*0
U I C
N L C
D
0 N
0*0
U t N
N L 0
D C
C
HIN
MAX
MEAN
STOV
N
0/rfl
MIX
MAX
MEAN
STOV
N
0/HR
MIN
MAX
MEAN
STOV
N
0/WR
HIN
MAX
MFAN
STOV
M
0/HR
HIN
MAX
MEAN
STOV
N
0/W»
MIN
•«X
MEAN
STOV
N
C/WR
MIN
MIX
MEAN
STOV
N
0/WR
HIN
MAX
(•{AN
STDV
N
0/MO
1.5
2*7.1
36.3
51.53
8/ 2
47/237
0.3
355.6
17.*
37.40
Of 0
200/2*7
2.0
595.0
37.9
66. 38
3/ 0
123/24*
1.*
4S6.6
31.0
SB. 6*
3/ 1
124/2*6
0.8
237. 0
24.0
35.88
O/ 1
117/246
0.8
2*1.*
18.0
32.33
O/ 0
130/247
0.8
595.0
3*.0
51.36
6/ 0
287/735
0.3
456. 6
21.3
43. 4»
O/ 1
454/740
6
95
72
20.2
O/ 9
*0/178
13
100
70
20.7
if 0
1*7/185
*
107
71
23.3
O/ 1
116/236
5
121
73
2*. 6
I/ 0
121/236
1
96
72
22.8
Of 7
102/21*
3
130
76
23.3
If 0
119/220
1
137
72
22.6
Of 1
2*8/64*
3
121
73
22.8
I/ 0
387/6**
5
80
3*
17.0
Z/ 35
*7/212
2
292
*6
39.0
O/ 0
202/2*9
6
18*
**
28.0
I/ 2
120/238
1
222
54
*1.6
Of 0
121/241
6
159
**
27.9
O/ 2
117/2**
7
185
56
39.7
I/ 0
129/245
5
184
42
26.6
3/ 5
284/728
1
2S2
SI
*0.1
O/ 0
492/736
6.8
9.7
8.1
0.68
9/ 2
47/238
5.3
10.6
7.8
0.73
O/ 0
202/249
6.2
10.6
8.O
0.75
7/ 0
123/240
4.1
10.2
7.S
0.97
O/ 2
124/245
5.6
10.3
7.8
0.76
It 0
115/2*4
4.7
10. O
7.4
0.87
O/ 1
130/2**
9.6
10.6
7.9
0.75
8/ 0
285/733
4.1
10.6
7.6
0.86
Of 0
456/7*1
3.8
15.5
8.5
2. OS
*/ I
*7/Z*0
0.7
19.2
9.1
2.00
Of 0
198/245
3.2
17.8
7.2
2.24
3/ 0
122/2*3
3.0
13.5
6.8
1.68
O/ 5
124/2*1
2.8
13.5
7.5
1.75
11 O
ll*/239
1.6
11.4
7.2
l.*6
O/ 2
127/239
2.8
17.8
7.5
2.06
*/ 1
283/727
0.7
19.2
7.9
2.96
O/ 0
*49/732
11.9
28.1
20.6
5.32
31/ 0
47/217
t.8
28.8
U.a
5.41
O/ 1
201/2*7
21.7
30.5
26.7
2.04
11 3
122/236
17.3
32.2
26.5
2.62
Of 0
12*/246
12.6
29. O
20.6
3.10
If I
116/2*4
9.O
29.6
20.3
3.38
O/ 0
130/2*6
11.9
30.5
23.2
4.42
327 3
285/705
6.8
32.2
20.4
5.82
Of O
455/740
0.017
1.159
0.132
0.1975
32/ 5
47/212
0.00*
1.719
0.121
0.2390
Of a
202/249
0.007
1.S99
0.121
0.2289
*/ 1
123/242
0.004
2.559
0.148
0.3252
O/ 0
1247247
O.OO6
3.084
0.168
0.3458
Z/ I
116/243
0.004
4.549
0.143
0.4593
O/ 0
130/246
0.006
3.084
0.1*2
0.2783
7/ 1
286/734
0.004
4.549
0.134
0.3373
O/ 0
456/742
0.002 0.354 0.022 0.315
0.851 4.389 O.S54 2.949
0.059 0.46S O.118 1.072
0.1514 0.762* 0.1135 0.7229
10/ * ll/ 9 O/ 1 3S/ 6
47/235 *7/229 47/248 47/208
0.001 0.02* 0.024 0.199
1.209 9.745 0.635 4.699
O.OS6 0.964 0.104 0.732
0.1674 1.5829 0.0907 0.6773
0/0 0/0 1/0 0/0
202/249 202/249 202/248 202/249
0.002 0.029 0.034 0.215
0.949 6.857 0.719 S.699
0.045 0.578 0.124 1.219
0.1235 0.9887 0.0978 0.9199
3/2 4/0 0/0 Of 3
123/242 123/243 123/247 123/244
0.001 0.025 0.036 0.226
1.141 4.295 0.504 7.149
0.061 0.410 O.IIS 1.215
0.1688 0.7602 0.0767 1.2182
Of 0 0/1 1/2 1/0
124/247 124/246 124/244 124/246
0.001 0.020 0.031 0. ZS4
2.0O9 4.469 3.024 8.199
0.084 0.413 0.148 1.250
0.2442 0.6377 0.3086 1.0761
0/0 2/0 I/O 10/ 0
116/2*5 116/2** 116/245 116/236
0.002 0.017 O.020 0.199
1.189 Z.S69 0.831 6. OOO
0.057 0.278 0.100 l.OOl
0.1707 3.4*56 0.0926 1.0300
I/ Z 0/2 Of 3 Of 1
129/242 130/244 130/243 130/245
O.OO1 0.020 O.022 0.215
2.009 6.857 3.024 8.199
0.063 0.492 0.133 1.207
0.1861 0.82S9 0.2116 0.9580
0/0 2/5 1/0 7/0
286/741 286/735 286/741 286/735
0.031 0.017 0.020 0.199
1.209 9.745 0.831 7.149
0.058 0.618 0.106 0.940
0.1684 1.1905 0.0877 0.9724
0/2 0/0 0/3 0/1
4SS/739 416/742 456/739 456/741
11
227
77
61.7
35/ 3
47/211
10
248
68
68.6
O/ 0
202/249
10
334
77
68.2
Of 0
123/247
10
293
70
69.6
Of 1
124/246
1O
261
82
65.7
O/ 2
116/24*
10
291
65
61.6
O/ 0
130/246
10
334
79
66.0
O/ 3
286/742
10
293
68
66.9
O/ 1
456/741
0.0
43.0
9.4
11.86
Of 29
47/220
0.0
142.0
20.7
26.89
Of 0
202/249
0.0
210.0
14.7
26.54
O/ 0
123/247
0.0
130.0
13.5
20.73
Of 1
124/Z46
0.0
70.0
8.5
12.23
Of *
116/242
0.0
90.0
10.6
16.88
O/ 0
130/246
0.0
210.0
11.3
19.83
O/ 0
286/742
0.0
142.0
U.9
23.17
at i
456/741
0
1705
116
306.0
0
0
0
0.0
O
2926
135
374.9
0
0
0
0.0
0
2823
102
310.6
0
0
0
0.0
0
2926
119
338.2
9
0
0
0.0
0.0
9.3
0.9
2.03
0.0
0.0
o.o
o.oo
o.o
41.6
1.7
4.97
0.0
0.0
0.0
0.00
O.O
13.2
1.0
2.16
0.0
0.0
0.0
0.00
0.0
41.6
1.3
3.64
0.0
0.0
0.0
0.00
-------�
\0
UJ
GENUS:CO«.ASTRUN PARTIAL UBPIM »LU»
« HIM
0 0 MAX
u i o MEAN
N N STOV
0 N
0/MR
R N MIN
0 0 MAX
u i N MEAN
N 0 STOV
0 0 N
N 0/W*
» NIN
0 0 MAX
u 2 o NEAN
N M STOV
0 N
0/MR
R N NIN
0 0 NkX
U 2 N NFAN
N 0 STOV
0 0 N
N 0/MR
R NIN
0 0 "AX
u i 0 NEAN
N N STOV
9 N
O/Uft
R N HIN
0 9 MAX
U 3 "* NEAN
N 0 STOV
0 0 N
t 0/MR
R NIN
0 A 0 MAX
U I 0 MEAN
NIN STOV
0 N
0/WR
R N NIN
C A 0 MA«
U L N NEAN
H I 0 STOV
D O N
M C/MR
CHLA
1.5
247.1
36.3
51. S3
S/ 2
47/217
7.9
11.5
10.1
1.81
58/12*
S/ 65
2.9
595.0
39.1
67.51
I/ 3
118/24*
30.3
33.0
30.0
0.09
19*/ 52
If 1
O.B
237.0
28.9
36.04
O/ 1
116/246
7.0
30.0
13.4
8.29
298/163
6/320
0.8
595.0
34.4
13.83
6/ 0
281/735
TURB
6
95
72
20.2
O/ 9
40/178
67
81
76
5.9
64/ 99
5/ 74
*
107
71
23.8
3/ 1
40
40
40
0.4
ZS/191
If 3
1
96
73
22.7
Of 7
101/214
40
n
70
15.8
75/266
6/104
1
107
72
22. 8
O/ 1
252/644
seccm PH
S 6.B
60 9.7
34 8.1
17.0 0.68
tl 33 9/ 2
47/212 47/238
30 7.4
61 8.7
43 8.2
13.5 0.52
81/ 58 TO/ 22
1/102 5/155
6 6.2
184 10.6
44 8.0
28.1 0.76
1/2 7/0
111/238 118/24O
31 8.1
31 8.1
31 8.1
O.O 0.00
88/152 166/ 71
1/6 1/8
6 9.6
159 10.3
44 7.8
28.0 3.76
0/2 I/O
116/2*4 114/244
30 7.4
61 8.7
42 S.I
12.5 0.47
261/163 21 5/ 98
6/312 6/4«B
5 9.6
184 10.6
42 7.9
26.9 0.79
3/1 8/0
278/728 279/731
00
1.8
11.5
8.5
2.05
4/ 1
47/240
3.2
9.8
6.2
2.51
}/ 14
5/229
3.3
17.8
7.1
2.23
4/ O
117/242
6.8
6.8
6.8
0.00
82/152
I/ T
2.8
13.5
7.9
1.76
2/ 0
113/239
1.2
9.8
fc.3
2.26
9/ 97
6/626
2.8
17.8
7.5
2.35
*/ 1
277/727
TENP
11.9
28.9
20.4
5.32
31; o
47/217
24.8
26.6
25.6
0.72
54/122
S/ 70
21.7
10.5
26. 8
2.07
7/ 3
117/236
17.9
17.9
17.9
0.00
55/187
I/ 4
12.6
29.0
20.6
1.10
If I
115/2*4
17.9
26.6
24.1
3.21
235/151
6/384
11.4
30.5
23.2
4.44
32/ 3
279/705
TOTALP
0.017
1.159
0.112
0.1915
47/212
0.015
0.096
0.054
0.0240
97/ 7O
S/ 80
0.307
1.599
0.124
0.2133
*/ 1
118/242
0.091
0.091
0.091
0.0000
170/ 75
If 1
3.936
3.084
0.169
0.3472
21 \
115/2*3
0.019
0.096
0.060
0.0260
255/221
«/266
3.306
3. OB 4
0.144
0.2813
If 1
280/714
04THDP N02N01
0.002 0.054
0.851 4.389
0.099 0.469
0.1514 0.7624
10/ 4 tl/ 9
47/235 47/229
0.007 O.162
0.038 2.099
0.911 1.109
0.0127 0.7695
79/ 46 127/ 14
5/122 1/106
0.002 O.029
0.949 6.857
0.046 0.555
0.1260 0.9932
3/2 4/0
118/242 118/243
0.037 1.400
0.037 1.400
0.037 1.400
0.0000 0.0000
181/ 62 212/ 13
1/2 1/1
3.001 0.020
2.039 4.469
0.085 0.404
0.2*52 0.6337
0/3 2/0
115/245 111/244
0.007 0.162
0.038 2.399
0.019 1.198
0.01*1 0.6983
203/161 111/ 41
6/179 6/348
J.031 0.020
2.009 6.847
0.064 0.478
0.1879 0.82)6
0/0 2/5
280/741 280/735
NH1
0.022
0.554
0.118
0.1135
01 \
47/248
0.105
0.545
0.111
0.1815
140/ 1
5/106
O.034
0.719
0.116
0.0854
O/ O
118/247
0.285
0.285
O.284
0.0000
212' 11
If 1
0.031
3.024
0.146
0.3097
I/ 0
115/249
0.105
0.565
0.306
0.1627
4B9/ 8
6/241
3.322
3.024
0.129
0,2112
I/ 0
280/741
KJEL AL«
0.315 11
2.949 227
1.072 77
3.7229 61.7
IS/ 6 35/ 3
47/208 47/211
O. 699 15
2.949 163
1.213 102
0.5564 54.O
96/ 16 9B/ 28
5/115 1/121
0.215 10
S.699 314
1.219 75
0.9117 68.7
0/3 0/0
118/244 118/247
1.182 161
1.182 161
1.182 161
O.OOOO 0.0
171/ 74 217/ 28
1/1 1/1
0.29* 13
8.199 Z61
1.250 82
1.0808 61.6
10/ 00/2
115/216 115/244
0.699 31
2.349 163
i.zoe 112
0.4971 53.9
3S3/ It 307/ 93
6/31* t/342
0.219 13
8.199 334
1.207 7«
0.9699 66.2
7/ « 0/0
280/735 280/742
N/P
0.0
43.0
9.4
11.86
O/ 29
47/220
5.0
14.0
31.4
20.8*
82/ 15
5/150
0.0
210.0
14.0
26.59
Of 0
118/247
M.O
18.3
la.o
O.OO
218/ 25
I/ 1
0.0
70.4
a. 4
12.25
Of 4
115/242
9.0
14.0
29.2
19.41
264/ 45
6/413
3.0
210.0
10.9
19.70
Of 0
283/742
CONC PERC
0 0.0
1703 9.3
116 0.9
306.0 2.03
129 11.7
1541 41.6
800 22.2
667.4 11.59
0 0.0
2926 9.0
107 0.8
334.2 1.57
677 11.2
677 13.2
677 IS. 2
O.O O.OO
O 0.0
2823 9.6
97 0.9
307. 2 1. 85
129 11.7
1941 41.6
780 20.7
594.1 10.99
0 0.0
2S26 9.6
104 0.9
317.6 1.76
-------�
6ENUS:COfl.OSPMAEP|UM
PARTIAL DEPTH VALUES
CHLA
TURB SECCMI
00
TJ«P TOTALP OP.THOP N02N03
KJEL ALK
N/P
CONC
9
0 "
U 1 C
•1 C
D
t n
o a
U 1 1
N "
0 C
t
P
0 0
U 2 C
N C
D
• N
0 O
U 2 N
N 0
0 C
r
p
0 0
U 3 C
1 C
D
P N
T 0
U ) N
N 0
D C
C
p
0 A n
U I C
NIC
0
* N
0 A 0
U t N
N I 0
0 C
C
« IN
•AX
"EAN
STOV
N
0/MP.
HIM
MAX
N? AN
STOV
N
0/WP.
MIN
HAX
MEAN
STOV
N
0/MP.
"IN
»AX
•EAN
STPV
N
r/M"
HIM
•AX
• CAN
STCV
M
0/n»
••IN
HAX
• CAN
STOV
N
r/w*
»IN
• AX
MEAN
STOV
N
C/WP.
MIN
HAX
"FAN
STOV
N
0/W«
4.9
247.1
42.9
69.19
73/ 2
11/172
0.3
355.6
19.9
39. SB
Of 0
234/2*7
4.6
312.3
36.9
ST. 29
25/ 2
34/220
1.4
595.0
34.9
63.50
O/ O
213/247
2.8
8*. T
17.9
21.07
16/ 10
39/221
0.8
241.4
24. 2
36.16
O/ 0
208/247
2.8
312.3
28.9
46.84
57/ 3
84/681
0.3
595.0
25.8
48.99
»/ 0
657/741
26
95
70
23.2
8/ 9
9/170
6
100
71
20.5
O/ 0
178/197
18
94
76
18.7
It/ 19
32/207
4
121
72
24.7
O/ 0
235/237
26
100
81
18.2
13/ 0
31/298
I
99
73
23.6
Of 1
190/220
18
100
78
19.2
24/ 3
72/618
I
121
72
23.1
3/ 0
573/645
7
168
52
45.2
8/ 3
11/238
2
252
43
35.8
01 0
238/249
a
222
62
48.2
4/ 0
33/237
1
216
47
33. 1
O/ 1
238/240
14
169
71
43.6
14/ 1
39/231
6
185
47
31.8
O/ 0
207/246
7
222
65
45.6
13/ 1
83/722
1
252
45
33.7
3/ 0
653/736
6. a
9.7
8.4
0.78
If 2
11/238
5.3
10.6
7.9
0.72
01 0
238/249
6.7
9.5
a. i
0.61
25/ 4
34/218
4.1
10.6
7.7
0.92
or o
213/247
6.4
8.6
7.6
0.70
12/ 19
38/214
4.7
10.3
7.6
0.86
01 0
207/245
6.4
9.7
7.9
0.72
30/ 8
83/703
4.1
10.6
7.7
0.84
Of 0
658/741
5.2 7.2 0.012 0.001
11.6 25.7 0.716 0.541
9.3 17. O 0.144 0.07}
1.92 5. 89 0.2079 0.1627
10/ 13 I/ 25 16/ 8 01 7
11/222 11/222 11/225 11/242
0.7 6.8 0.004 0.001
19.2 28.9 1.719 1.209
9.0 17.5 0.122 0.056
2.03 5.59 0.2328 0.1646
0/0 0/0 0/0 0/0
234/245 237/248 238/249 238/249
3.8 20.1 O.O08 0.003
13.8 29.6 1.109 0.969
7.4 25.7 0.106 0.049
2.14 2.02 0.2308 0.1748
6/ 4 I/ 18 6/5 9/1
34/236 33/227 34/236 34/237
3.0 17.3 O.004 0.001
17. 8 32.2 2.559 1.191
7.0 26.7 3.139 3.054
1.95 2.37 0.2886 0.1436
Of 0 0/0 0/0 0/0
212/246 213/246 213/247 213/247
3.5 14.9 0.008 O.OO4
10.8 23.9 0.2T7 0.199
7.5 19.1 O.O67 0.023
1.46 2.22 3.0715 0.0389
3/ 4 6/ 36 5/ 21 8/ 16
39/234 39/204 38/220 38/221
1.6 9.0 0.004 0.001
13.5 29.6 4.549 2.009
7.3 20.7 0.170 0.078
1.64 3.35 0.4421 0.2256
0/9 0/3 0/3 0/0
202/241 207/246 208/246 207/245
3.5 7.2 0.308 0.001
13.8 29.6 1.109 0.969
7.7 21.4 0.093 O.O40
1.90 4.54 0.1724 0.1285
12/ 6 I/ 18 19/ IB O/ 9
84/714 83/721 83/735 83/732
0.7 6.9 0.004 0.001
19.2 32.2 4.549 2.009
T.8 21.5 0.143 0.062
2.09 5.60 O.3290 0.1803
3/3 O/ 3 0/9 0/0
648/732 657/740 659/742 658/741
O.054
1.349
0.293
0.3237
ll/ 46
11/192
0.024
9.745
0.896
1.5024
Ot 0
238/249
0.035
1.824
0.265
0.4139
12/ 16
34/219
O.O2S
6.857
0.530
0.9325
O/ 0
213/247
0.022
1.675
0.277
0.4040
5/ 9
38/232
0.017
4.469
0.353
0.5701
O/ 0
208/246
0.322
1.824
0.274
0.3943
5/ 54
83/683
O.O17
9.745
0.607
1.1171
O/ 0
659/742
0.030
0.171
0.080
0.0413
21 32
11/215
0.022
0.635
o.ioa
0.0969
O/ 0
238/249
0.044
0.405
O.lll
O.O745
13/ 4
34/230
0.034
O.719
0.121
0.0898
O/ O
213/247
0.037
0.532
O.109
0.9926
1O/ 6
38/23O
O.020
3.024
0.125
0.2395
Of 0
208/246
0.030
0.532
0.106
0.0801
3/ 11
83/728
0.020
3.024
O.117
0.1952
O/ 0
659/742
0.265
2.649
1.191
0.8677
13/ 8
11/228
0.199
4.699
0.778
0.6B54
Of 0
238/249
0.299
6.250
1.355
1.1249
6/ 2
34/239
0.215
7.149
1. 195
1.0712
O/ O
213/247
0.2O4
2. 236
0.947
3.5347
I/ 22
38/223
0.199
8.199
1.150
1.1249
O/ 0
208/246
0.294
6.250
1.146
0.8757
2/ 3
83/737
0.199
8.199
1.030
0.9866
Ot O
659/ 742
10
206
73
60.0
C/ 10
11/239
10
248
70
67.8
Of 0
238/249
14
293
84
68.3
37/ 1
34/209
10
334
72
69.0
O/ 0
213/247
10
241
77
63.7
Of 3
38/243
10
291
72
64.3
Of 0
208/246
10
293
79
64.5
Ot 1
83/741
10
334
71
67.0
Of 0
659/742
1.0
29.0
9.8
10.28
7/ 45
11/197
0.0
142.0
19.0
25.55
Ot 0
238/249
0.0
130.0
12.7
24.91
Ot I
34/246
O.O
210.0
14.3
23.63
Of 0
213/247
1.0
88.0
12.6
19.34
13/ 1
38/232
0.0
90.0
9.1
13.89
O/ 0
208/246
9.0
130.0
12.3
20.79
Of 4
83/738
0.0
210.0
14.4
22.19
Of 0
659/742
0
194
36
56.5
0
0
3
0.0
0
712
79
158.0
0
0
0
0.0
0
799
82
173.7
0
3
0
O.O
0
799
75
156.1
0
0
0
0.0
3.:
3.e
C.2
C.23
3.0
0.7
J.)
o.:*.
0.3
45.1
2.5
7.97
9.9
O.O
O.O
0.00
O-3
28.6
2.9
6.14
0.9
O.3
O.O
0.39
0.0
45.1
2.4
6.58
O.O
3.9
O.O
0.93
-------�
GENUS :COEIOSPHAE»!UN
B
0 C
U 1 1
N 1
0
R N
0 0
U 1 N
N 3
0 0
R
0 0
U 2 0
N •
C
R N
0 0
U 2 N
N 0
0 0
if
R
0 0
u 3 0
N M
0
0 0
U 3 N
N 1
0 0
M
R
0 A D
U L C
N I M
D
R N
0 A 0
U 1 N
M L D
0 0
MIN
MAX
MEAN
STOV
N
C/MR
KIN
MAX
MEAN
STOV
0/MR
MIN
MAX
MEAN
STDV
C/MR
M|N
MAX
MEAN
STOV
0/MR
MIN
MAX
MEAN
STOV
0/MR
MIN
MAX
MEAN
STOV
0/MR
MIN
MAX
MEAN
STOV
C/MR
MIN
MAX
MEAN
STDV
P/MR
CHLA
4.9
247.1
42.9
69.19
73/ 2
11/172
12.2
15.1
13. 6
2.05
133/ 98
2/ 19
4.6
312.0
38.4
58.79
25/ 2
32/220
4.2
19.9
10.7
7.44
37/ 72
4/138
2.8
84.7
18.7
22.31
16/ 10
35/221
4.2
19.9
11.7
6.03
119/214
6/406
2.8
312.0
30.2
48.35
57/ 3
78/681
TUR8
26
95
70
23.2
9/ 9
9/173
55
55
55
0.0
48/187
I/ 2
16
94
7T
18.6
ll/ 19
31/207
T7
93
86
7.3
79/ 28
4/114
26
100
61
19.3
13/ 9
27/206
55
93
T9
15.0
123/ 67
5/455
18
100
77
19.6
24/ 3
67/618
SECCH!
7
168
52
45.2
a/ 3
11/238
24
25
25
0.7
48/184
2/ 9
8
222
64
48.8
4/ 0
31/237
28
144
91
56.2
63/ 6
4/177
14
169
68
42.3
14/ 1
35/231
24
144
69
55.4
18V 15
6/537
7
222
64
45.1
13/ 1
77/722
PH
6.8
9.7
8.4
0.78
It 2
11/238
7.7
7.9
7.8
0.14
134/110
2/ 33
6.7
9.5
8.1
0.63
25/ 4
32/218
6.7
8.3
7.7
0.73
30/ 46
4/169
6.4
8.6
7.6
0.71
12/ 19
34/214
6.7
8.3
7.8
0.57
61/167
6/513
6.4
9.7
7.9
0.73
SO/ 8
77/703
DO
5.2
11.6
9.3
1.92
10/ 13
11/222
5.5
6.0
5.8
0.35
36/175
2/ 35
3.8
13.8
7.5
2.17
6/ 4
32/236
6.7
8.8
7.9
0.86
73/ 30
4/138
3.5
10.6
T.5
1.51
3/ 4
35/234
9.9
8.8
7.2
1.32
73/232
6/457
3.5
13.6
7.7
1.94
12/ 6
78/714
TEMP
7.2
25.7
17.0
5.89
I/ 25
11/222
26.9
26.9
26.9
0.00
132/110
I/ 4
20.1
29.6
25.6
2.04
I/ 18
32/227
16.0
18.6
17.2
1.19
19/165
4/ 62
14.9
23.9
19.3
2.21
t/ 36
35/234
16.0
26.9
19.1
4.46
145/131
5/464
7.2
29.6
21.6
4.53
I/ 18
78/721
PARTIAL DEPTH VALUES
TCTALP
0.012
0.716
0.144
0.2079
I*/ 8
11/225
0.033
0.131
0.066
0.0460
89/ 64
2/ 94
0.008
1.109
0.139
0.2377
6/ 5
32/236
0.011
0.352
0.033
0.0216
IS/132
4/ 99
0.338
0.277
0.071
0.0744
t/ 21
34/223
0.011
0.101
0.044
0.0322
51/234
6/487
0.038
1.109
0.097
0.1783
19/ 18
77/70J
ORTHOP
0.001
0.541
3.073
0.1627
Of 7
11/242
0.015
0.015
0.015
0.0000
ISO/ 91
2t 6
0.003
0.969
0.051
0.1801
9/ 1
32/237
0.007
0.021
O.O11
0.0062
42/ 93
4/110
0.034
0.199
0.025
0.0409
8/ 16
34/221
0.007
0.021
0.012
0.0050
205/259
6/277
3.031
0.969
0.042
3.1332
O/ 9
77/732
N02N03
0.054
1.049
3.293
0.3237
ll/ 46
11/192
0.059
0.103
0.081
0.0311
31/160
21 56
0.035
1.624
O.276
0.4243
12/ 16
32/219
0.040
1.034
0.310
0.4833
S2/ 25
4/169
3.022
1.675
0.273
0.4020
5/ 9
34/232
0.040
1.034
0.233
0.3929
72/109
6/561
3.322
1.824
0.277
0.3968
9f 54
77/683
NH3
0.030
0.171
0.083
O.O413
21 32
11/215
0.069
0.215
0.152
0.0890
108/ 23
2/116
0.044
0.405
0. 108
0.0745
I3/ 4
32/230
0.041
0.107
0.063
0.0304
17/ 70
4/159
0.037
0.532
0.114
0.0962
10/ 6
34/233
0.041
0.215
0.093
0.0649
SI/ 62
6/629
0.030
0.532
0.107
0.0814
3/ 11
77/728
KJEL
0.269
2.649
1.191
0.8677
13/ 6
11/226
1.215
1.599
1.406
0.271S
167/ 57
2/ 23
0.299
6.250
1.152
1.1595
&/ 2
32/239
0.294
1.000
9.629
0.2976
2 1/ 93
4/132
0.204
2.236
3.984
0.5466
I/ 22
34/223
0.294
1.599
0.688
0.4787
51/127
6/564
9.234
6.250
1.166
0.8981
2/ 3
77/737
ALK
10
206
73
6O.O
O/ 10
11/239
60
88
T4
19.6
137/ 72
2/ 38
14
293
85
70.3
37/ 1
32/209
20
163
84
6O.O
64/ 27
4/155
10
241
77
64.9
O/ 3
34/243
20
163
81
47.6
238/ 93
6/441
13
293
79
65.9
O/ 1
77/741
N/P
1.0
29.0
9.6
10.26
7/ 45
11/197
3.0
4.0
3.9
0.71
44/165
21 38
0.0
130.0
13.3
29.59
01 I
32/246
2.0
88.0
29.0
42.03
42/ 1
4/203
1.0
99.0
11.1
15.43
13/ 7
34/226
2.0
86.0
1T.8
34.40
99/ 14
6/633
0.0
130.0
11.6
19.65
O/ 4
77/736
CONC
0
184
36
56.5
357
712
935
251.3
0
471
50
101.6
50
799
411
406.5
0
332
45
70.7
SO
799
492
340.4
0
471
46
82.5
PERC
0.0
0.6
0. 2
0.23
13.6
45.1
29.4
22.32
O.O
5.3
C.6
1.41
10.9
26.6
16.7
7.83
0.0
6.6
1.1
2.02
10.9
45.1
22.3
12.91
0.0
6.8
9.9
1.65
-------�
vO
GENUS:CORONASTRUK
CHL1
TUB B
SECCMI
00
TEMP
PARTIAL DEPTH VALUES
TOTALP OUTHOP N02N03
NH3
KJEL
ALK
N/P
CGNC
PERC
•
0 0
U 1 C
N C
0
• N
0 0
U 1 N
N 0
0 C
C
«
9 0
U 2 C
N C
0
• N
0 O
U 2 N
N 0
0 C
C
•
0 0
U 3 C
N C
D
4 N
C O
U 3 N
N 0
0 C
r
B
0*O
U L C
N L C
0
• N
0*3
U L N
N L Q
0 C
C
MIN
NIX
MEAN
STDV
N
0/HR
MIN
MIX
MEAN
STDV
N
0/U4
MIN
• AX
WEAN
STDV
N
C/WR
KIN
MAX
MEAN
STOV
N
0/WK
M|N
M«X
"EAN
STDV
N
O/WR
MIN
• IX
MEAN
STOV
N
0/wR
NIN
MAX
MEAN
STDV
N
P/MR
MIN
MIX
MEAN
STOV
N
0/MR
0.3
355.6
21.0
41.40
01 0
247/247
5.0
5.0
5.0
o.oo
31/215
I/ 1
U*
595. 0
34.6
62.68
O/ 0
2*6/247
0.8
2*1.*
21.2
3*. 27
If 0
2*7/2*7
S.O
s.o
5.0
0.00
157/581
I/ 3
0.3
595.0
26.2
47.95
O/ 0
7*0/7*1
6
100
71
20.6
O/ 0
187/187
91
41
91
0.0
185/ *l
1/11
*
121
72
24.0
O/ 0
216/237
1
100
7*
23.1
O/ 3
221/221
91
91
91
0.0
517/10*
I/ 2*
1
121
72
22.7
O/ 0
644/6*5
2
252
*«
36.2
O/ 0
2*9/249
57
57
57
0.0
169/ 66
I/ 6
1
222
*9
35.9
O/ 0
2*0/2*1
6
185
50
35.0
01 0
246/2*6
57
57
57
0.0
530/196
I/ 10
1
252
48
35.7
01 0
735/736
5.3
10.6
7.9
0.73
O/ 0
2*9/249
6.8
6.8
6.8
0.00
32/2IO
I/ 5
4.1
10.6
7.8
0.89
O/ O
246/2*7
*.7
10.3
7.6
0.8*
O/ 0
2*5/2*5
6.8
6.8
6.8
0.00
80/631
I/ 30
*.l
10.6
7.8
0.81
O/ 0
T*0/7*t
0.7
19.2
9.0
2.02
O/ 0
2*5/2*5
S.O
5.0
S.O
0.30
2*/217
I/ 5
3.0
17.8
7.0
1.98
O/ 3
2*5/2*6
1.6
13.5
7. 3
1.61
O/ 3
2*1/2*1
S.O
5.0
S.O
0.00
*9/67S
It 8
0.7
19.2
7.8
2.07
O/ 0
731/732
6.8
28.9
17.5
5.59
O/ 0
2*8/2*8
29.2
29.2
29.2
0.00
212/ 28
I/ 6
17.3
32.2
26.6
2.35
Of 0
2*5/2*6
9.0
29.6
20.*
3.25
O/ 0
2*6/246
29.2
29.2
29.2
0.00
705/ 29
I/ 6
e.8
32.2
21.5
S.*9
O/ 0
739/740
0.004
1.719
0.123
0.2314
O/ 0
249/249
0.022
0.022
0.021
0.0000
60/184
I/ 3
0.004
2.559
0.135
0.2816
O/ 0
246/2*7
0.004
4.5*9
0.155
O.O91
O/ 0
246/246
0.022
0.022
0.021
0.0000
154/574
I/ 14
0.004
4.5*9
0.137
0.3159
O/ 0
741/742
0.001 0.024
1.209 9.7*5
0.057 0.870
0.1642 1.475*
0/0 0/0
2*9/2*9 2*9/2*9
0.006 0.495
0.006 0.495
0.005 0.495
O.OOOO O.OOOO
62/168 191/ 55
I/ 17 I/ 1
O.OO1 0.025
1.191 6.857
0.053 O.*93
0.1*82 0.885*
0/0 0/0
2*6/2*7 2*6/2*7
0.001 0.017
2.009 *.*69
O.O70 0.3*2
0.2088 0.5*77
0/0 3/0
2*5/2*5 2*6/2*6
0.006 0.*95
0.006 0.495
0.005 0.495
0.0000 0.0000
158/536 543/197
I/ 47 I/ 2
0.001 0.017
2.039 9.745
0.060 0.570
0.1754 1.0667
0/0 0/0
740/7*1 741/742
0.022
0.635
0.107
0.0953
O/ 0
249/249
0.239
0.239
0.239
0.0000
228/ 18
I/ I
0.034
0.719
0.119
0.0876
O/ 0
246/247
0.020
3.024
O.122
0.2232
O/ 0
2*6/2*6
0.239
0.239
0.239
O.OOOO
689/ 52
I/ 1
0.020
3.02*
0.116
0.1487
O/ 0
7*1/742
0. 199
4.699
0.796
0.6975
O/ 0
249/2*9
0.92*
0.92*
0.924
0.0000
129/116
I/ I
0.215
7.1*9
1.218
1.0798
O/ 0
2*6/2*7
0.199
8.199
1.118
1.0572
01 0
2*6/2*6
0.92*
0.924
0.92*
0.0000
45S/285
I/ 2
0.199
8.199
1.043
0.9756
O/ 0
7*1/7*2
10
2*8
70
67.3
01 0
2*9/249
2S
25
25
0.0
77/164
I/ 6
1O
334
7*
68.9
O/ 3
2*6/2*7
10
291
73
64.1
O/ 0
246/246
25
25
25
0.0
258/477
If 7
10
33*
72
66.7
Of 0
741/742
0.0
142.0
18.6
25.14
Of 0
249/2*9
45.0
45.0
45.0
0.00
227/ 19
I/ 1
0.0
210.0
14.0
23.73
Of 0
2*6/247
0.0
90.0
9.6
14.87
Of 0
246/246
45.0
45.0
45.0
0.00
682/ 58
It 2
0.0
210.0
14.1
22.02
Of 0
741/7*2
0
0
0
0.0
8
8
a
0.0
0
0
0
o.o
0
0
0
0.0
8
8
8
0.0
0
0
O
0.0
0.0
0.0
0.0
0.00
0.7
O.7
0.7
0.00
0.0
0.0
o.o
O. OO
0.0
0.0
0.0
0.00
0.7
0.7
0.7
0.00
0.0
0.0
0.0
0.00
-------�
GENUSiCCPOHASTPUM >*"'«• DEPTH VALUES
CHLA TURB SECCHI PH 00 TEMP TfTALP ORTHOP N02N03 NH3 KJEL ALK N/P CCNC PE«C
P NIN
0 C PAX
U 1 0 MEAN
N N STOV
0 N
C/WR
R N NIN
C 0 PAX
u i N MEAN
N 0 STOV
D 0 N
N 0/Mft
• PIN
0 0 PAX
U 2 0 PEAS
N H STOV
0 N
0/HR
s.ss. s s jj .§ .§ iJlAliiliJi 1 i J«
N 0 STOV 0.00 0.0 0.0 0.00 0.00 0.00 0.0000 0.0000 °-°°°° .29/116 7T/16*22T/
0 S 3tt •K"5liKti11^/^ MJ": 'S'1!^1: *K1-i "'/"!";>•; "r/-i "i>"i i/» ui
M PIN
0 0 PAX
U 3 0 "EAN
N N STPV
0/UR
« N KIN
0 0 PAX
U 3 N UfAN
N 0 STOV
0 0 N
M 0/WB
• PIN
CAD MAX
U L 0 PEAN
N L X STOV
0 M
0/NR
0.239 0.9Z* 2* «».0 • 0-!
!niJ.,jjJJJ.aillJi,.i-li J*
M C/WR I/ J H 2* I/ 10 »' « »' 8 " * l/ '* l/ *T l/ Z l/
-------�
vO
00
GENUS:CGSCINODISCUS P4"T
Or^
J
U 1 C
1 C
D
• N
0 0
U L N
N r?
0 C
c
p
0 0
U 2 C
•i r
0
B
0 0
U 2 N
N C
0 C
C
K
0 0
U 1 C
N C
0
• N
0 0
U 1 N
N "
0 C
c
0 » P
U L C
N L C
q
9 N
0*O
U L N
NIP
0 C
e
HIM
STOV
0/M*
HIM
STQV
C/WR
KIN
KM
MEAN
STDV
0/HI
M IN
MEAN
STPV
HI*
STOV
KIN
c/tn
STOV
0/riR
MIX
MEAN
STOW
0/MR
CHll TUBS SECCM!
1.5 61 14
*9.t 95 132
13.6 81 41
14.85 9.6 31.8
B/ 20 45/ 9 55/ 4
16/219 11/13) 16/140
0.3 6 2
355.6 100 252
21.5 70 44
42.69 21.0 16.4
or o 9/00/0
231/2*7 174/187 233/2*4
8.* 2* 18
170.5 87 171
57.0 68 50
61.26 22.1 50.5
74/ 5 IS/ 65 28/ 3
8/161 8/157 8/210
1.4 4 1
545.0 121 222
13.7 72 »4
62.55 24.1 35.3
0/0 Of 0 0/0
239/247 229/237 233/2*1
2.7 64 11
171.5 96 60
40.0 82 37
59.39 10.8 18.9
IS/ 3 53/ 7 5/ 59
7/229 6/161 7/182
0.8 1 6
241.4 100 IBS
22.7 7* 51
33.34 23.3 35.3
0/0 0/0 0/0
240/247 215/221 234/2*6
1.5 24 11
171.5 46 171
30.8 77 43
45.91 19.3 35.5
16/ 11 35/ 18 3T/ T
H/712 27/592 31/692
03 L I
595!o 121 252
26.0 72 48
48.01 23.0 15.7
0/0 0/0 0/0
710/741 619/645 795/716
PH
6.8
9.7
7.9
0.72
9/ 2
16/238
5.3
10.6
7.9
0.73
Of 0
231/249
6.7
9.O
8.0
0.81
25/ 12
8/210
4. I
10.6
7.8
0.89
Of 0
239/2*7
6.6
8. a
7.4
0.84
23/ 12
7/210
4.7
10. 1
7.6
0.84
Of 0
238/245
6.6
?! 8
0.78
46/ 8
31/687
4. 1
10.6
7.7
0.81
O/ 0
710/741
00
6.0
L2.7
8.9
1.84
I4/ 1
16/228
0.7
19.2
9.O
2.04
O/ 0
229/245
4.9
11.7
7.0
2.15
20/ 6
8/220
3.0
17.8
7.0
1.98
Of O
218/246
4.0
7.1
6.4
1.12
5/126
7/110
1.6
11.5
7.1
1.62
Of 0
234/241
4.0
12.7
7.8
2.07
I9/ 13
31/703
0.7
19.2
7.8
2.07
O/ 0
701/732
TEMP
6.8
26.0
17.3
S.07
Of 23
16/225
7.2
28.9
L7.5
5.63
11 0
232/247
24.2
29.5
27,6
1.61
34/ 2O
8/192
17.3
32.2
26.6
2.36
Of 0
238/246
20.2
27.8
22.4
2.54
125/ 2
7/119
9.0
24.6
20.3
3.24
O/ O
239/246
6.8
24.5
21.2
5.89
O/ 21
31/719
7.2
32.2
21.*
5.48
If 0
704/719
TOTtLP
0.006
0.23*
0.07*
0.0586
3f 22
16/224
0.00*
1.719
0.126
0.2385
O/ 0
233/249
O.O11
0.305
0.118
0.1016
20/ 22
8/205
0.004
2.559
0.135
0.2851
O/ 0
219/2*7
0.016
0.271
0.101
O.0918
30/ 23
7/193
0.004
4.549
0.156
0.41*7
Of 0
239/246
0.006
0.335
0.092
0.0786
7/ 57
31/678
0.004
4.549
0.139
O.1220
Of 0
711/742
[At DEPTH VALUES
OR'HOP
0.004
0.154
0.031
0.0376
39/ 17
16/193
0.001
1.209
0.059
0.169*
Of 0
233/2*9
0.005
0.099
0.03*
0.0317
IB/ 21
a/ 186
0.001
1.191
0.05*
0.1502
Of 0
239/2*7
0.00*
0.100
0.026
0.0140
8/ 2*
7/213
0.001
2.OD9
0.071
0.2116
O/ 0
233/245
0.004
0.15*
0.031
0.0144
69/ 54
31/618
0.001
2.009
0.061
0.1789
Of 0
710/741
N02N03
0.054
0.989
0.308
0.2574
ll/ 51
16/187
0.024
9.7*5
0.9O8
1.516*
Of 0
213/2*9
0.027
0.226
0.106
0.0698
If 92
8/15*
0.025
6.857
0.506
0.895*
Of 0
234/2*7
0.029
0.829
0.208
0.2827
I9/ 33
7/19*
0.017
*.469
0.3*6
9.5534
Of 0
239/246
0.027
0.484
0.234
0.2402
20/114
11/608
O.OI7
9.7*5
0.584
1.0856
O/ 0
T11/T42
NH3
0.040
0.139
0.097
0.0709
24/ 1O
16/215
0.022
0.635
0.107
0.0968
Of 0
233/249
O.O47
0.121
0.087
0.0283
19/ 78
8/150
0.034
0.719
O.121
0.0889
Of 0
234/247
0.038
0.349
0.154
0.1334
ll/ T
7/228
0.020
3.024
0.121
0.2254
Of 0
239/2*6
0.038
0.399
0.107
0.0833
33/ 19
31/690
0.020
3.024
0.116
0.1504
O/ 0
Tll/742
KJEl
0.232
1.643
O.770
0.4712
5/ 24
16/220
0.149
4.694
0.798
0.7110
O/ 0
233/249
0.132
2.57*
1.711
0.8*94
12/ 21
8/214
0.215
7.149
1.200
1.0821
O/ 0
219/247
0.471
3.449
1.295
1.0524
60/ 11
7/175
0.149
8.194
1.113
1.0591
Of 0
239/2*6
0.212
1.649
1.112
0.8171
ll/ 27
31/702
0.194
8.199
1.039
0.9815
Of O
711/742
«LK
10
196
64
60.4
Of 20
16/229
10
248
70
67.9
Of 0
233/2*9
17
281
88
88.6
45/ 2
8/200
10
33*
73
68.3
Of 0
234/2*7
17
168
55
54.2
*«/ 22
7/178
10
291
73
64.4
Of 0
239/246
10
281
68
66.1
O/ 4
11/738
10
314
72
66.8
O/ 0
711/742
N/P
1.0
117.0
15.3
12.94
7/ I
16/2*1
0.0
142.0
18.8
24.59
Of 0
233/249
1.0
9.0
1.5
3.30
12/ 86
8/149
0.0
21O.O
14.4
24.07
O/ 0
239/247
1.0
71.0
12.4
29.86
13/ 3
7/230
0.0
90.0
9.5
14.51
O/ O
239/246
1.0
137.0
11.6
26.52
32/ 2
31/708
0.0
ZIO.O
14.2
21.84
Of o
711/742
CONC
0
648
58
159.1
0
0
0
0.0
0
7048
1249
2464.7
O
0
0
0.0
o
1011
184
369.9
0
0
0
0.0
0
7098
407
1321.4
0
0
0
0.0
PERC
0.0
19.5
3.0
5.97
0.0
0.0
0.0
0.00
0.0
27.4
4.8
4.31
0.0
O. O
0.0
0.00
0.0
2.8
0.9
1.00
0.0
0.0
0.0
0.00
0.0
27.4
3.0
6.14
0.0
0.0
0.0
0.00
-------�
vO
VO
GENUStCOSCINOOISCUS
CHI A
7URB SECCHJ
00
PARTIAL DEPTH VALUES
TEHP TOTALP OBTHOP N02ND3
NH3
KJEI ALK
N/P
CONC PE«C
R
0 0
U 1 0
M N
0
R N
C D
OXC I
JOOZI
R
0 0
U Z 0
N P.
0
R N
0 0
U 2 M
N 0
C 0
*
a
0 0
U 3 O
N N
0
• N
c a
U 3 N
N 0
0 0
M
CAD
u L a
"1 L *
9
« N
o A a
U L N
H L 0
o a
4
HIM
MAX
PEAN
STOV
0/WR
PIN
MAX
MEAN
STOV
WIN
MAX
STDV
0/M
MIN
WAX
MEAN
STOV
O/WB
PIN
PAX
MEAN
STOV
O/CR
P-1N
PAX
MEAN
STOV
0/WR
PIN
(•AX
MEAN
STOV
C/WR
Nil
PAX
NEIN
STOV
O/WB
2.4
15.2
8.8
4.95
22/ 74
2/151
1.5
49.1
14.3
15.62
8/ 20
14/219
173.5
170.5
170.5
0.30
241/ 5
11 I
8.4
140.2
43.8
47.06
79/ 11
7/157
2.7
171.5
40.0
59.39
IS/ 3
7/229
2.4
170.5
62.7
93.58
42/ 14
3/685
1.3
171.5
27.4
39.61
16/ 13
28/712
89
45
92
4.Z
ISO/ 9
2/ 28
61
94
79
8.4
49/ 13
11/129
24
24
24
0.0
15/221
I/ 1
44
87
74
14.2
34/ 65
7/138
64
46
82
10.8
SJ/ 7
6/161
24
95
69
39.4
3/979
44
96
78
11.0
89/ 18
24/942
34
132
83
69.3
130/ 4
2/119
19
120
37
25.9
55/ 12
14/182
18
18
18
9.0
28/207
I/ 6
21
171
99
92.7
4]/ 3
7/198
11
60
37
18.9
S/ 59
7/182
18
132
61
61.7
99/ 22
3/615
11
171
41
32.9
37/ T
28/692
7.0
7.7
7.3
O.49
23/147
2/ 74
t.t
9.7
8.0
0.72
9/ 2
14/238
8.9
8.9
8.9
O.JO
Z27/ 16
If 4
6.7
9.0
7.4
3.78
25/ 12
7/210
6.6
8.8
7.4
0.84
23/ 12
7/210
7.3
8.9
7.4
0.96
127/ 40
3/974
6.6
9.7
7.8
0.77
28/687
6.7
10.9
8.8
2.47
26/ 27
2/192
6.0
12.7
8.9
1.80
14/ 3
14/228
11.7
11.7
11.7
0.90
238/ 6
I/ Z
4.9
8.1
6.3
1.10
29/ 49
7/177
4.0
7.3
6.4
1.12
5/126
7/113
6.7
11.7
4.8
2.69
210/ 21
3/501
4.0
12.7
7.6
1.95
19/ 10
28/703
12.8
21.1
16.9
5.87
54/ 69
2/129
6.8
26.0
17.3
5.20
O/ 23
14/225
26.9
26.5
26.9
O. 00
118/125
I/ 3
24.2
29.5
27.8
1.67
34/ 20
7/142
20. Z
27.8
22.9
2.59
125/ 2
7/119
12.8
24.5
20.1
6.90
56/155
3/529
6.9
29.9
11.3
9.40
a/ 21
28/714
0.936
9.135
0.055
0.070O
3/ 69
2/177
0.016
9.234
0.077
O.0593
28/ 22
14/194
9.305
0.395
0.305
0.0000
Z24/ 22
I/ 1
0.011
0.234
0.091
0.0737
20/ 29
7/198
0.016
0.273
0.193
0.0418
JO/ 23
7/193
0.006
0.335
0.138
0.1923
7/ 57
3/678
0.011
0.273
O.OB 7
0.0700
51/ 66
28/629
0.004
3.058
0.030
0.0381
39/ 34
2/171
0.005
3.154
0.031
0.0390
53/ 17
14/174
3.O94
0.099
0.098
O.OOOO
Z23/ 23
I/ 1
0.035
0.065
0.025
0.0197
38/ 31
7/178
0.004
3.100
0.326
0.9340
8/ 24
7/213
0.004
0.094
0.053
0.0476
64/ 70
3/632
3.034
0.194
0.028
0.0329
69/ 14
28/618
0.054
0.989
0.521
0.6611
U/ 51
2/187
O.056
0.695
0.278
0.1868
14/ 74
14/161
0.164
0.164
0.163
0.0000
130/116
I/ 1
0.327
3.226
0.098
0.0711
I/ 92
7/154
O.029
0.629
0.238
0.2827
I9/ 33
7/144
0.054
3.989
0.492
O.»110
115/114
3/513
0.027
3. 829
0.216
0.2032
20/134
28/588
0.064
0.091
0.077
0.019O
85/ 41
Z/ 73
0.040
0.331
0.099
0.07*6
24/ 10
14/219
0.121
0.121
0.121
O.OOOO
166/ 78
I/ 3
0.047
0.115
0.082
0.0268
19/ 93
7/115
0.036
0.394
3.154
0.1334
ll/ 7
7/228
0.064
9.121
3.041
0.0285
228/198
3/316
0.038
0.399
3.109
0.0873
33 / 19
28/690
0.269
1.054
0.663
0.5586
16/ 43
2/190
0.232
1.643
0.764
0.4621
5/ 24
14/229
2.474
2.474
2.473
0.0000
222/ 2«
I/ 1
0.332
2.974
1.604
0.8953
12/ 21
7/214
0.471
3.449
1.299
1.0524
tar 11
7/175
0.269
2.474
1.267
1.1171
34/ 97
3/691
0.232
3.449
1.118
0.8049
13/ 27
28/702
14
53
34
27.6
56/1 1O
Z/ 83
10
196
68
63.1
O/ 20
14/224
281
211
281
O.O
244/ 2
I/ 1
17
136
60
45.3
45/ 43
7/162
17
168
99
94.2
»«/ 22
7/178
14
281
116
144.2
I25/ 4
3/613
10
196
63
55.3
C/ 51
28/691
1.0
137.0
69.0
96.17
7/ 1
2/241
1.0
18.0
7.6
5.69
7/ 71
14/171
1.0
1.0
1.0
0.00
12/219
I/ 16
1.0
9.0
3.4
3.34
1Z/ 86
7/149
1.0
71.0
12.4
29.86
I3/ 3
7/230
1.0
137.0
46.3
78.92
32/ 2
3/708
1.0
71.0
T.4
13.28
32 / 29
28/685
46
648
347
425.7
0
76
17
24.1
7O98
7098
7098
0.0
0
2310
470
829.4
0
1011
184
364.9
46
7098
2597
3999.3
0
2310
172
464.6
15.2
19.5
17.4
3.0!
O.O
T. 5
0.9
2.01
27.4
27.4
27.4
0.00
O.O
6. 1
1.6
2.08
O.O
2.8
O.9
I.JO
15. Z
27.4
23.7
6.16
0.0
7.5
1.1
1.74
-------�
GFfJS:COSl*»IUK
PARTIAL OEPTH VALUES
o
o
CHL«
TUDB
SECCHI
TEMP TOTALP
N021O3
NM3
KJEL AlK
COSC
B
o
U I
1)
0
p
<3
U 1
N
g
p
Q
U 2
M
g
q
0
U 2
N
D
a
c
U 1
N
g
O
o
U J
•1
g
q
G A
U L
N I
o
B
0 *
U L
N L
Q
3
c
c
N
o
N
0
c
c
o
c
e
q
o
N
o
c
c
o
c
c
14
o
N
n
c
c
n
C
c
14
o
nj
p
£
C
MM
•AX
Hf»«i
STPV
N
0/MK
M IN
MAX
KeAN
STDV
N
0/«
N1M
PAK
MEAN
STBV
•K/ >
O/WV
|i IN
MAI
DEAN
STOV
N
0/KK
MIN
MAX
MEAN
STOV
N
C/wl
* IN
WAX
MEAN
STDV
N
0/W»
N |M
MAX
MEAN
STOV
N
e/wR
M1N
• AX
"EAN
STPV
H
0/»«
2.1
2*7,1
27. »
42.98
ZQ/ Z
35/225
0- 1
355. &
19.8
41.12
O/ 0
212/24T
1.4
312.0
*0.0
52.38
O/ 2
104/249
1.5
595.0
10.*
68.96
If 0
1*3/246
0.8
171. i
27. 3
20.69
O/ 3
97/2*4
0.8
241.4
20.5
37.28
Of 0
150/247
0. B
312.0
33.3
42.45
6/ 3
236/132
O.i
595.9
23.0
49.80
O/ 9
SOS/741
i4
95
75
19.9
11 9
31/171
6
100
70
20.7
O/ 0
156/187
s
107
71
23.2
I/ 1
97/235
4
121
73
24.!
O/ 0
140/237
13
96
74
20.2
6/ 7
86/208
1
190
74
24.1
O/ 0
135/221
5
107
73
21.5
3/ 1
214/641
1
121
72
23.3
O/ 0
431/645
7
168
44
35.4
B/ 3
35/238
252
44
36. 4
Of 0
214/249
6
118
43
25.2
I/ 10
101/230
1
722
53
41.5
O/ 3
140/241
g
159
41
24.7
Zf 2
97/242
A
185
57
39.1
O/ 3
149/246
6
168
42
26.7
5/ 9
233/722
I
252
50
39.0
O/ 0
503/736
6.2
9.7
8. 1
3.85
If 2
35/245
10.6
7.9
0.70
O/ 0
214/249
5.5
10.2
8.0
0.81
2/ 2
104/243
4.1
10.6
7.6
0.91
O/ 0
143/Z47
4.7
9.9
7.7
O.90
Of 2
95/243
5.6
10.3
7.6
0.79
I/ 0
150/244
4.7
10.2
7.9
O.87
I/ 4
234/736
4.1
10.6
7.7
0.80
a/ o
507/741
5.2
11.9
8.5
1.53
lOt 11
35/224
19.2
9.1
2.06
Of 3
210/245
3.1
17.8
7.2
I. 11
i/ a
104/245
3.0
16.0
6.9
l.«7
3/ 1
142/245
1.9
11.4
7.4
1.61
If 2
94/238
1.6
13.5
7.2
1.61
Of 0
147/241
1.4
17.8
7.5
I. 89
2/ 1
233/729
O.T
19.2
7.9
2.16
O/ 0
499/T32
13.1
28.9
21-5
4.90
63/ 0
35/185
24.7
16.8
5.43
Of 2
213/246
21.2
32.2
27.0
2.15
3/ O
103/243
17.3
30.5
26.3
2.45
Of 3
143/243
12.6
29. 0
21.2
3.39
If 1
96/244
9.0
29.6
19.9
3.05
Of O
HO/246
12.6
32.2
23.8
4.27
48/ 0
234/692
6.8
30.5
20.4
S.67
Of 3
506/737
0.010
O.7I6
0.125
0.1753
12/ 8
35/229
O* 004
1.719
0.122
0.2397
O/ 0
214/249
0.008
0.881
O.095
0 . 1 367
6/ S
1O4/233
O.OO4
2.559
0.163
O.J485
Of 0
143/247
0.306
1.479
0.156
0.2623
if 3
96/241
0.004
4.549
0.154
0.4809
O/ 0
150/246
0.006
1.479
0.125
0.2035
T/ 6
235/729
O.004
4.549
0.143
0.3559
Of 0
507/742
0. 001
0.616
0.061
0.1463
Of 5
35/244
0. OO1
1.209
0.056
O.1673
Of 0
214/249
0.002
0.403
0.028
0.0629
3/ 9
104/235
0.001
1.191
0.071
0.1850
O/ 0
143/247
0.001
1.255
0.076
0.1991
O/ 1
96/244
0.003
2.009
O.O66
0.2153
if 0
149/243
0.001
1.255
0.053
0.1465
01 1
235/740
0.001
2.009
0.063
0.1872
Of 0
506/741
0.041
0.680
O.L82
0.1525
(./ 76
35/167
O.O24
9.745
0.982
L.5622
Of 0
214/249
0.329
4.099
0.332
3.6300
4/ 3
134/240
0.025
6.8ST
0.611
1.0157
Of 0
143/247
0.024
4.469
0.276
0.5742
6/ 0
96/240
0.017
2.688
0.384
O.5277
O/ 1
150/245
0.024
4.469
9.2B7
0.5609
6/ 9
235/727
O.O17
9.745
0.701
1.2101
O/ 0
507/742
0.045
0.554
0.105
0.0852
30 / 1
35/218
0.022
0.635
0.107
0.097O
Of 0
214/249
0.039
0.565
0.111
0.0818
3/ 1
104/243
0.034
0.719
0.126
0.0916
O/ 0
143/247
0.031
0.569
0.114
0.1009
If 4
46/241
0.020
9.024
0.128
0.2745
Of 0
150/246
0.031
0.569
O.lll
0.0903
*/ 6
235/732
0.020
3.024
0.118
0.1691
Of 0
507/742
0. 199
3.199
1.127
0.8224
Of 3
35/246
0.207
4.699
0.742
0.6615
I/ 0
214/248
0.281
6.349
1.332
1. 1546
5/ 1
104/241
0.215
7.149
1.133
1.0142
01 0
143/247
0.225
5.399
1.291
0.9937
S/ 2
•96/239
0.199
8.199
1.008
1.0848
Of 0
150/246
0.199
6.349
L.285
1.0444
Of 2
235/740
0.149
8.199
0.931
0.9237
Of 0
507/T42
10
196
60
55.3
Of 20
35/229
10
248
72
69.1
Of 0
214/249
to
334
73
67.6
O/ 0
134/247
1O
277
73
70.0
O/ 4
143/243
10
237
66
56.6
O/ 5
96/241
1O
291
77
68.2
Of 0
150/246
10
334
68
61.5
O/ 3
235/742
10
291
74
69.0
O/ i
JOT/ 740
0.0
65.0
7.2
11.15
O/ 16
35/233
a.o
142.0
2O. 5
26.28
Of 0
214/249
0.0
61.0
9.0
11.29
Of 11
104/236
0.0
210.0
IT. 7
29.22
O/ 0
143/247
O.O
85.0
7.3
13.59
Of 2
96/244
0.0
90.0
11. I
15.51
O/ 0
150/246
0.0
85.0
•.1
12.24
O/ 17
Z33/725
9.0
210.0
16.9
24.84
a/ o
507/742
0
5116
252
885.6
0
0
0
O.O
0
1729
106
255.5
O
0
o
O.O
0
9951
233
1129.5
0
0
0
0.0
0
9951
ISO
817.0
0
0
0
O.O
0.0
95.8
3.6
16.10
O.O
0.0
0.0
0.00
o.o
16.4
0.9
1.92
O.C
O.O
O.O
o.oo
0.0
45.2
1.2
4.77
0.0
0.0
0.0
0.00
0.0
95.8
1.4
7.03
0.0
O.O
O.O
o.oo
-------�
GCNUSiCOSNARIUM
PARTIAL OE"TH VALUES
CM.A
TUB6 SfCCHI
TEMP TOTALP DRTHOP N02N03
NH3
KJEL ALK
N/P
CONC
PERC
R
0 0
U I 0
N M
D
R N
C 0
U 1 N
N 0
D a
M
R
0 0
U 2 0
N M
0
R N
C 0
U 2 N
N 0
9 0
M
„
O 0
u 3 a
N M
0
• N
C 1
U 3 N
1 D
o a
M
R
O A 0
o i a
N L H
D
R N
o A a
U I N
HID
o a
MIN
MAX
MEM
STDV
N
0/Ut
MIN
MAX
MEAN
STOV
N
0/MR
NtN
MAX
Mf AN
STOV
N
0/WR
MIN
"AX
MEAN
STOV
N
0/VB
KIN
MAX
MEAN
STOV
N
e/m
PIK
NAX
MEAN
STOV
N
0/K*
MIN
MH
MEA1
STOV
N
0/HR
MIN
•AX
HFAN
STDV
C/UR
6.6
6.6
6.6
0.00
108/135
If *
2.1
247.1
28.5
43.46
23/ 2
34/225
6.4
6.4
6.4
O.OO
49/195
I/ 3
1.4
312.0
40.3
52.53
3/ 2
103/243
16.6
16.6
16.6
0.03
159/ 87
I/ 1
3.8
171.5
27.5
26.82
O/ 3
96/244
6.4
16.6
9.9
9.83
232/290
3/259
0.8
312.0
33.3
43.14
«/ 3
233/ni
88
88
88
0.0
143/ 37
I/ 5
24
95
73
20.1
It 9
19/171
49444
-99994
0
0.0
237/ 0
Of 0
3
107
71
23.2
I/ 1
47/233
•6
•6
86
0.0
127/ 84
I/ 10
13
46
74
20.3
6/ 7
89/208
86
•8
• 7
1.4
419/166
2/ 60
3
107
72
21.6
3/ 1
212/641
48
48
48
0.0
173/ 71
I/ 5
7
16B
44
35.4
8/ 3
34/238
49949
-49999
O
0.0
241/ 0
Of 0
6
118
*3
25.2
It 10
131/230
40
4O
*0
3.9
118/120
I/ 8
•
159
41
24.9
21 2
96/242
40
48
44
5.7
431/249
21 86
6
168
42
26.8
3/ 9
231/722
6.2
6.2
6.2
0.00
2/2*6
I/ 1
6.8
9.7
8.2
0.79
9/ 2
34/238
6.8
6.8
6.8
0.00
32/210
I/ 3
5.5
10.2
8.0
0.81
i/ 2
103/243
6.1
6.1
6.1
0.00
4/238
I/ 3
4.7
4.9
7.7
0.89
O/ 2
9*/243
6.1
6.8
6.4
0.38
13/631
3/ 97
4.7
10.2
7.9
0.86
I/ 4
231/736
8.6
8.6
•. 6
0.00
81/153
It 11
3.2
11.9
8.5
1.52
10/ 11
34/224
9.7
9.7
9.7
0.00
22f/ 16
It I
3.1
17.8
7.2
2.11
I/ 3
133/245
6.8
6.8
6.8
O.OO
82/152
It 7
1.9
11.4
7.4
1.61
I/ 2
93/238
6.8
9.7
8.4
1.46
231/132
3/394
1.9
IT. 8
7.3
1.88
2/ 1
230/729
15.9
15.9
15.9
0.00
123/122
I/ 3
13.1
28. 9
21.7
4.87
63 / 0
34/1 US
28.7
28. T
28.7
0.00
187/ 57
I/ 2
21.2
32.2
27.0
2.13
3/ 0
132/243
24.0
24.0
29.0
0.00
2**/ 1
I/ 1
12.6
27.8
21.1
3.31
If 2
43/243
15.9
29.0
24.5
7.48
141/ )9
3/560
12.6
32.2
23.8
4.24
48/ 0
231/642
0.010
0.010
0.009
0.0000
12/233
It 4
0.013
0.716
0.128
0.1767
19/ a
34/222
0.021
0.021
0.021
0.0000
55/187
I/ 5
0.008
0.881
0.096
0.1372
6/ 8
103/233
0.013
3.013
0.013
O.OOOO
22/220
I/ 4
0.006
1.479
0.158
0.2633
2/ 3
95/241
0.010
0.021
0.014
3.0O56
37/588
3/117
0.006
1.479
0.126
0.2044
11 6
232/729
0.002 0.680 0.080 0.410
0.002 0.680 0.080 0.410
0.091 0.680 3.080 0.499
0.0000 3.0000 0.0000 j.9000
10/222 172/ 76 132/113 7*MT3
I/ 17 1/1 It * 1/2
0.001 0.0*1 0.0*5 0.199
9.616 0.641 0.554 3.149
0.062 3.168 0.196 1.148
0.1482 0.1275 0.386* 0.8251
O/ 5 6/ 79 30/ 1 O/ 3
34/244 34/16* 34/218 34/2*6
0.006 0.099 0.039 0.549
0.036 O.O99 0.059 3.599
3.305 0.098 0.058 0.598
O.OOOO O.OOOO O.OOOO O.OOOO
62/168 81/163 38/205 80/164
If 17 1/3 I/ * 1/3
O.O02 O.O24 O.034 0.281
3.433 *.O94 0.56S 6.3*9
0.028 0.334 O. Ill 1.339
0.0632 0.6327 0.0821 1.1580
3/9 4/3 3/1 5/1
103/235 1J3/240 103/2*3 103/2*1
0.012 0.067 0.000 O.7JO
3.012 0.067 0.080 0.750
0.01 1 3.066 3.080 3.750
O.OOOO O.OOOO 0.0000 0.0000
98/13* 41/1*3 138/105 111/132
I/ 13 1/2 1/3 1/3
0.001 0.024 0.031 0.225
1.255 *.*69 0.564 5.349
9.077 0.276 0.114 1.297
0.2000 0.5764 O.IOI* 0.997*
3/1 6/3 It * 5/2
45/2*4 45/240 43/241 45/234
3.032 0.067 O.O59 0.410
0.012 0.680 0.080 O.790
0.006 0.281 0.072 0.586
0.0050 O.3*50 0.0121 0.1703
14/361 164/158 164/376 151/362
3/366 3/420 3/182 3/224
0.031 3. 324 0.031 3.199
1.255 4.464 3.569 6.349
0.053 0.287 0.112 1.294
3.1473 0.5636 0.0907 1.0479
3/1 6/9 4/6 0/2
232/740 232/721 232/732 232/740
10
10
19
0.0
0/21*
I/ 35
10
146
61
55.1
Of 20
34/229
14
14
14
0.0
37/208
I/ 2
10
334
74
67.7
Of O
103/247
10
10
10
0.0
0/225
If 21
1O
237
67
36.6
Of 3
95/241
13
14
11
2.3
0/631
3/141
10
334
69
61.5
O/ 9
232/742
65.0
6S.O
63.0
0.00
231/ 16
It 2
0.0
21.0
5.5
4.87
O/ 60
14/189
7.0
7.0
7.0
0.00
117/109
I/ 21
0.0
*1.0
9.1
11.34
Of 11
103/236
11.0
11.0
11.0
0.00
187/ 50
I/ 9
0.0
•3.3
7.3
13.66
O/ 2
99/244
7.0
63.0
27.7
32.29
366/ 29
3/347
9.0
•9.0
7.8
11. 73
O/ 17
232/723
5116
5116
5116
0.0
0
1*74
104
264.8
238
258
258
0.0
0
1729
105
256.3
9931
4931
9931
0.0
0
5006
131
533.9
258
9991
9108
4*46.9
0
3336
116
394.4
S5.B
95.8
45. 8
0.30
0.0
8.5
1.1
1.74
16.4
16.*
16.*
0.30
0.0
6.3
0.7
1.15
43.2
*5.2
*5.2
O.JO
0.0
9.5
0.7
1.5*
16.*
99.8
92.5
40.22
0.0
9.5
o.e
1.42
-------�
GENUS:CRUCIGEN1A
CHI.*
TURB SECCHI
00
PARTIAL DEPTH VALUES
TEMP TOTAL? ORTHOP N02NO3
KJEL
ALK
CONC PERC
•
1 T
U I C
N C
0
a N
0 0
U 1 N
n a
0 C
c
R
o a
0 2 C
N C
0
._, • N
o o o
ro u z N
N 0
D C
e
a
0 0
U3C
N C
0
9 N
0 0
U 3 N
N 0
0 C
c
A
0*0
u i c
NIC
0
R N
0 A O
U L N
N L 0
0 C
C
HIM
M»X
M*»N
STDV
N
0/W4
MIN
MAX
MEAN
STOV
N
0/MR
NIN
MAX
HEIN
STOV
N
0/MR
KIN
MAX
HEIN
ST5V
N
0/WP
HIM
MAX
HE>N
STOV
N
0/NR
MIN
MAX
MEAN
STOV
N
P/WR
N|N
MAX
MEAN
STOV
N
0/HR
MIN
MAX
MEAN
STOV
N
0/UR
1.8
146.9
24.3
26.85
14/ 6
39/227
0.3
355. 6
20.3
43.38
O/ 0
208/247
2.5
595.0
42.7
71.92
77 0
104/2*0
1.4
456.6
28.4
54.29
O/ 1
143/246
1.1
134.4
21.5
23.54
2/ 4
99/241
0.8
241.4
24.3
39.90
01 0
148/247
1.1
595.0
31.1
51.68
11 0
242/732
0.3
456.6
23.8
45.87
O/ 1
499/740
32
91
74
14.0
12/ 21
32/15*
6
100
TO
21. T
O/ 0
155/187
4
98
70
24.5
O/ 3
99/234
7
121
74
23.5
3/ 0
138/234
1
100
75
23.3
O/ 0
89/221
3
99
74
23.0
If 1
132/219
1
100
72
22.8
O/ 3
220/642
3
121
72
22.7
I/ 0
425/644
14
110
36
19.4
25/ 16
39/208
2
252
45
38.3
O/ 0
210/249
6
184
41
27.4
I/ 2
100/238
1
222
54
39.9
O/ 0
141/241
6
169
46
33.2
O/ 1
99/245
10
185
S3
35.9
3/ 0
147/243
6
184
42
29.0
5/ 5
238/726
1
252
S3
38.3
O/ 0
498/736
6.2
9.7
7.9
0.73
2/ 2
39/245
5.3
10.6
T.9
0.73
Of 0
210/249
5.2
9.7
7.8
0.87
I/ 3
104/243
4.1
1O.6
7.7
0.9O
O/ 0
143/247
6.0
8.9
7.5
0.74
3/ 8
98/234
4.7
10.3
7.6
0.90
O/ 0
147/245
5.2
9.7
7.7
O.BI
2/ 8
241/731
4.1
10.6
7.8
0.84
O/ O
500/741
3.9
15.5
8.6
2.18
6/ I
38/238
0.7
19.2
9.1
1.98
O/ 0
207/245
3.1
17.8
7.0
2.09
I/ 0
103/245
3.0
16. O
7.0
1.91
O/ 1
143/245
4.0
11.4
7.3
1.37
S/ 2
96/234
1.6
13.5
7.3
1.76
01 0
145/241
3.1
17.8
7.4
1.91
7/ 1
237/724
0.7
19.2
a.o
2.12
O/ O
495/732
9.7
28.9
20.1
5.69
11 0
39/241
6.8
28.8
17.0
5.45
O/ 1
209/247
21.2
31.5
26.8
2.29
3/ 1
104/242
17.3
32.2
26.4
2.39
O/ O
142/246
9.0
29.6
20.4
3.22
O/ 0
98/246
12.6
29.0
20.5
3.27
I/ 1
148/244
9.0
31.5
23. 1
4.69
3/ 1
241/736
t.a
32.2
20.7
5.69
O/ 0
4997 74 O
0.008
1.159
0.146
0.2361
8/ 5
39/236
0.004
1.719
0.118
0.2309
O/ 0
210/249
0.007
1.599
0.132
0.2284
4/ 1
1O4/242
0.004
2.559
0.137
O.3148
O/ 0
143/247
O.OO6
1.479
0.129
0.2195
2/ 3
99/241
0.004
4.549
0.172
0.4977
O/ 0
147/246
0.006
1.599
0.133
0.2252
7/ 5
242/730
0.004
4.549
0.139
0.3514
O/ 0
5OO/742
O.OO1
0. 851
0.073
0.1815
O/ 4
39/245
0.001
1.209
0.054
0.1611
O/ 0
210/249
0.002
0.949
0.050
0.1305
3/ 2
104/242
0.001
1.191
0.056
0.1597
O/ O
143/247
O.OO1
1.099
0.059
0.1593
O/ 3
99/242
0.002
2.009
0.077
0.2368
11 0
146/244
0.001
1.099
0.057
0.1512
O/ 5
242/736
0.001
2.009
0.061
0.1860
O/ 0
499/ 74 1
0.038
5.795
0.584
1.O836
4/ 7
39/238
0.024
9.745
0.923
1.5335
O/ 0
210/249
0.027
6.857
0.531
1.0098
I/ 0
1O4/246
0.025
4.295
0.466
0.7818
O/ 1
.143/246
0.017
1.959
0.251
0.4077
Of 4
99/242
0.019
4.469
0.403
0.6185
If 0
147/245
0.017
6.857
0.425
0.8426
Of 5
242/737
0.019
9.745
0.639
1.1531
I/ 0
500/741
0.034
0.554
0.107
0.1092
9/ 1
39/239
0.022
0.635
0.107
0.0928
01 0
210/249
0.034
0.719
0.127
0.1032
O/ 0
104/247
O.036
O.5O4
O.114
0.0746
I/ 2
143/244
0.020
0.979
0.103
0.1215
Of 1
99/245
0.032
3.024
0.136
0.2706
Zf 0
147/244
0.020
0.979
0.114
0.1121
Of I
242/741
0.022
3.024
0.117
0.1636
If 0
500/741
0.242
3.000
0.946
0.7476
7/ 4
39/238
0. 199
4.699
0.768
0.6861
Of 0
210/249
0.261
5.699
1.3O4
0.9665
2/ 3
104/242
0.215
7.149
1.153
1.1512
Of 0
143/247
0.221
5.399
1.081
0.8520
4/ 2
99/260
0.199
8.199
1.143
1.1776
Of 0
147/246
0.221
5.699
1.155
0.8952
B/ 5
242/729
0.199
8.199
0.999
1.0076
O/ 0
50O/742
10
227
63
62.2
Of 3
39/246
10
248
71
68.3
Of 0
210/249
10
334
82
73.8
Of 0
104/247
10
293
67
64.7
Of 1
143/246
10
222
76
62.1
Of 6
99/240
10
291
Tl
65.5
O/ 0
147/246
10
334
76
67.4
Of 0
242/742
10
293
7O
6«.3
01 1
500/741
0.0
70.0
13.3
19.21
Of 14
39/235
0.0
142.0
19.6
26.01
Of 0
210/249
O.O
210.0
13.5
26.66
Of 0
1O4/247
0.0
130.0
14.5
21.50
Of 1
143/246
O.O
58.0
6.5
8.61
Of 8
99/238
0.0
90.0
11.7
17.62
Of 0
14T/246
0.0
210.0
10.6
20.09
Of 0
242/742
0.0
142.0
15.8
22.74
01 1
500/741
0
1021
70
183.6
0
0
0
0.0
0
1354
89
213.1
O
O
O
0.0
0
3315
143
360.3
0
O
O
0.0
O
3315
108
290.6
0
0
o
O.O
0.0
13.7
0.8
2.25
0.0
0.0
0.0
0.00
0.0
7.0
0.9
1.38
0.0
0.0
0.0
0.00
a.o
28.3
1.2
3.02
0.0
a.o
0.0
0.00
0.0
28.3
1.0
2.31
0.0
O.O
0.0
0.00
-------�
GENUS:CRUCICENU
CML»
TURB SECCHI
00
PARTIAL DEPTH VALUES
TEMP TOTALP ORTMOP N02N03
NH3
KJEL ALK
N/P
CONC
PERC
R
O 0
U 1 0
N N
0
R N
0 0
U 1 N
N O
0 0
N
R
0 0
U 2 0
N N
0
• N
0 0
U 2 N
N 0
0 0
n
R
0 0
U 3 0
N <*
0
R N
C 0
U 3 N
N 0
D 0
p
0 A 0
u L a
N L ^
o
• N
0 A 0
U L N
N L 0
0 0
H
MIN
MAX
MEAN
STOV
0/HR
MIN
MAX
MEAN
STOV
0/HR
MIN
MAX
MEAN
STOV
N
0/MR
MIN
MAX
MEAN
STDV
0/HR
MIN
MAX
MEAN
STOV
C/HR
MIN
MAX
•EAN
STOV
C/HR
KIN
MAX
MEAN
STOV
0/MR
MIN
MAX
MEAN
STOV
0/UR
22.5
22.3
22.5
0.00
192/ 54
I/ 1
1.8
146.8
24.3
29.23
I*/ 6
38/227
2.5
595.0
42.7
71.92
If 0
104/240
I.I
1.1
0.00
2/243
I/ 2
1.2
134.4
21.7
23.57
*/ 4
98/239
1.1
22.5
11.8
15.13
9/198
2/S34
1. 2
595.0
31.2
51.85
ll/ 0
249/739
91 33 7.8
91 33 7.6
91 33 7.8
0.0 0.0 0.00
162/ 21 127/119 102/132
1/4 1/3 I/ 15
32 14 6.2
91 110 9.7
73 36 7.9
13.9 19.7 0.74
I2/ 21 25/ 16 2/ 2
31/154 38/208 38/245
4 6 5.2
98 184 9.7
70 41 7.8
24.5 27.4 0.87
0/3 1/2 1/3
99/234 100/238 104/243
87 159 6.4
87 159 6.4
87 159 6.4
0.0 0.0 0.00
137/ 75 243/ 2 12/226
1/9 1/1 1/7
1 6 6.0
130 169 8.9
74 45 7.6
23.4 31.3 0.73
0/00/1 3/8
88/221 98/245 97/234
87 33 6.4
91 159 T.8
89 96 7.1
2.8 89.1 0.99
439/104 30 O/ 10 30/353
2/102 2/426 2/358
1 6 5.2
130 184 9.7
72 42 T.T
22.9 28.1 0.81
0/3 5/5 2/8
218/642 236/726 239/731
5.2
5.2
5.2
3.30
10/234
I/ 1
3.9
15.5
8.6
2.14
6/ 1
37/238
3.1
17.8
7.0
2.09
I/ 0
103/245
8.1
8.1
8.1
0.09
168/ 62
I/ 11
4.0
11.4
7.3
1.37
S/ 2
95/234
5.2
B.I
6.6
2.95
59/292
2/381
3.1
17.1
7.4
1.92
11 1
235/724
21.0
21.0
21.0
0.00
174/ 73
I/ I
9.7
28.9
20.1
3.77
11 0
38/241
21.2
31.5
26.8
2.29
3/ 1
104/2*2
16.8
16.8
16.8
0.00
2B/216
I/ 2
9.0
29.6
20.4
3.22
a/ o
97/246
16.8
21.0
18.9
2.97
163/409
2/168
9.0
31.5
27.1
4.69
3/ 1
239/736
0.716
0.716
0.716
3.0300
240/ 8
I/ 1
0.008
1.159
0.131
0.2197
8/ 5
38/236
0.307
1.599
0.132
9.2284
4/ 1
104/242
0.006
O.006
0.005
0.0900
2/242
I/ 2
0.006
1.479
0.131
9.2233
21 3
98/241
0.006
0.716
0.361
9.5020
11 31
2/704
O.O06
1.599
0.131
3.2228
11 5
240/730
9.541
9.541
0.540
0.0030
241/ 7
I/ 1
0.901
9.851
3.061
0.1666
O/ *
38/245
9.932
0.949
0.05C
0.1135
3/ 2
104/242
0.001
0.001
0.000
0.0303
3/244
I/ 1
0.003
1.099
9.069
9.1633
If 3
98/240
0.001
0.541
0.271
0.3818
O/ 23
2/718
0.001
1.099
P. 056
0.1485
O/ S
240/736
0.17*
0.17*
0.174
0.3000
82/166
I/ 1
0.038
5.795
0.595
1.0960
4/ 7
38/238
0.027
6.857
0.531
1.0098
I/ 0
104/246
0.039
0.039
0.039
0.0000
45/194
I/ 7
3.317
1.959
0.253
3.4992
O/ 4
98/242
0.039
0.174
0.136
3.0954
64/371
2/307
0.017
6.857
0.428
0.8456
O/ 5
240/737
0.171
0.171
0.170
0.0000
216/ 32
I/ 1
0.034
0.554
0.105
0.1192
11 1
38/239
0.034
0.719
0.127
0.1032
O/ 0
104/247
0.042
0.042
0.042
0.0000
20/222
I/ 4
0.020
O.979
0.103
0.1220
O/ 1
98/245
0.042
0.171
0.106
0.0912
56/109
2/577
0.020
0.979
0.114
0.1124
O/ 1
240/7*1
1.824
1.82*
1.82*
0.3000
230/ 18
I/ 1
0.242
3.OOO
0.923
0.7435
7/ 4
38/238
0.261
5.699
1.304
0.9665
2/ 3
104/242
0.274
0.274
0.274
0.0000
15/129
I/ 2
0.221
5.399
1.090
0.8524
*/ 2
98/2*0
0.274
1.824
1.048
1.0960
38/ 94
2/610
0.221
5.699
1.156
0.8961
•/ 5
240/729
34
34
34
0.0
109/138
I/ 2
10
227
64
62.9
O/ 3
38/246
10
334
82
73.8
O/ 9
104/247
12
12
12
3.0
25/218
I/ 3
10
222
77
t2.1
O/ 6
98/240
12
14
23
15.6
93/435
2/214
10
334
77
67.5
O/ 0
240/742
1.0
1.0
1.0
0.00
7/224
I/ 18
0.0
7O.O
13.6
19.36
O/ 14
38/233
9.0
210.0
13.5
26.66
O/ 0
104/247
11.0
11.9
11.0
O.OO
187/ 50
I/ 9
0.0
38.0
6.4
•.64
O/ 8
98/238
1.0
11.0
6.0
T.OT
32/221
2/489
0.0
210.0
10.6
20.17
91 0
240/742
1021
1321
1021
0.0
0
485
45
97.7
0
1354
89
213.1
17
17
17
0.0
9
3315
144
282.1
17
1021
519
709.9
0
3315
104
285.6
13.7
13.7
13.7
0.00
0.9
3.9
0.4
0.76
9.0
7.0
0.9
1.38
28.3
28.3
28.3
0.00
0.9
3.5
C.9
1.24
13.7
28.3
21.0
10.35
0.0
7.0
C.8
1.25
-------�
GENUS:CRYPTONONAS
CHLA
TURB SECCMI
oo
PARTIAL DEPTH VALUES
TEMP TOTALP ORTHOP NO2N03
NH3
KJEL
ALK
N/P
CONC PERC
p
n a
U 1 C
N f
0
R N
P 0
U 1 N
N 0
0 C
C
D
P 0
U I C
* c
0
R N
O 0
U 2 N
N O
o r.
c
R
0 0
U3C
N C
D
R N
0 0
U 3 N
N 0
0 C
C
R
r A o
U L C
H L C
0
P N
0 * 1
U L N
N L C
0 C
C
KIN
1AX
• E»N
STOV
N
e/MR
KIN
MAX
1EAN
STOV
N
O/MR
NIN
MAX
•CAN
STOV
N
0/MR
• IS
WAX
MEAN
STOV
N
0/M»
"IN
•IX
• EAU
STOV
N
o/wo
• IN
•AX
MEAN
STPV
•!
O/wo
HIN
MAX
• E»N
STOV
N
0/*»
HIN
"•X
MEAN
STOV
N
o/wR
1.2
247.1
19.9
33.3*
T/ 2
136/238
0.3
355.6
22.2
49.65
O/ 0
111/2*7
1.9
312.0
32.3
44.09
Z/ 2
128/2*3
1.*
515.0
36.8
76.60
O/ 0
119/2*7
0.8
237.0
24.1
35.62
O/ I
129/2*6
0.8
2*1.*
22.3
32.85
or o
118/2*7
0.8
312.0
29.3
38.88
6/ 3
393/732
0.3
595. 0
27.2
56.*7
Of 0
3*8/7*1
8 2
100 185
64 *1
21. 5 36.5
1/0 0/1
100/186 137/2*8
6 3
100 252
73 *7
19.5 35.6
0/0 I/O
87/187 112/2*8
* 6
98 222
71 *7
2*.* 35.0
0/3 I/O
124/23* 123/2*0
5 1
121 216
7* 51
23.5 36.6
1/0 0/1
113/236 118/2*0
1 6
99 152
73 *B
2*.B 33.6
O/ I O/ *
118/220 129/2*2
3 10
100 185
76 53
21.0 36.*
1/0 3/0
103/220 117/2*3
1 2
100 222
71 45
23.7 35.2
3/3 1/1
3*2/6*2 339/73*
3 1
121 252
7* 50
21.5 36.2
1/0 0/0
313/6*4 347/736
6.2 3.8
10.1 15.5
7.9 8.9
0.67 1.80
2/1 */ I
137/2*6 136/2*0
5.3 0.7
10.6 19.2
7.8 9.1
0.79 2.26
O/ 0 0/0
112/249 109/2*5
5.2 3.0
9.5 15.2
7.8 6.9
0.8* 1.83
I/ * 0/2
128/2*2 128/2**
*.l 3.1
10.6 17.8
7.8 7.1
0.95 2.13
0/0 I/O
119/2*7 118/2*5
6.0 1.9
10.3 13.5
7.7 7.3
O.76 1.6O
3/0 1/0
128/2*2 127/2*0
*.7 1.6
10.0 12.7
7.S 7.3
0.91 1.63
0/1 0/1
117/2** 114/2*0
5.2 1.9
10.3 IS. 5
7.8 7.7
0.76 1.19
2/2 2/3
393/737 391/727
*.l 0.7
10.6 19.2
7.7 T.8
0.69 2.21
O/ O 0/0
3*8/741 341/732
6.8 0.006
28.9 1.18*
17.9 0.113
5.68 0.1713
0/0 3/ *
137/248 137/2*2
9.2 0.00*
27.8 1.719
17.0 0.13*
5.47 0.2890
4/6 0/0
111/238 112/249
17.3 0.006
32.2 1.029
26.4 0.114
2.49 0.1911
O/ O 2/6
127/246 128/239
21.4 0.004
30.2 2.559
26.9 0.156
2.17 0.3529
*/ * O/ O
119/238 119/2*7
9.0 O.O10
27.2 1.609
19.3 0.121
3.10 0.20*0
O/ 3 1 I/ 2
129/2*3 128/233
1*.9 0.00*
29.6 4.5*9
21.6 0.191
2.97 0.5532
t/ 0 0/0
117/2*0 118/2*6
6.8 0.006
31.2 1.609
21.1 0.116
5. 48 0.18S*
O/ 0 7/4
393/740 393/731
9.2 0.00*
30.2 4.5*9
22.0 0.161
S.48 0.4138
5/4 0/0
347/711 3*9/7*2
0.001
1.032
0.0*9
0.1356
Of 3
137/2*6
0.001
1.209
O.066
0.1938
Of 0
112/2*9
O.OO1
0.59*
0.042
0.1051
Of 4
128/243
0.001
1.191
0.065
0.1828
Of 0
119/2*7
0.003
1.189
0.052
0.1387
2/ 2
128/241
0.001
2.009
0.089
O.2644
Of O
117/24S
0.001
1.189
0.048
0.1273
Of 4
393/737
0.001
2.009
0.07*
0.2165
O/ 0
348/7*1
0.024
9.7*5
1.075
1.8033
Of 0
137/2*9
0.035
5.8*6
0.619
0.87*0
3/ 6
112/2*0
0.027
6.857
0.572
1.021*
I/ 0
128/246
0.025
4.274
0.409
3.7OO7
Of 2
119/2*5
0.017
2.688
0.375
0.5104
Of 1
128/245
0.020
4.469
0.3O6
0.5856
2/ 0
118/24*
0.017
9.745
0.683
1.2804
Of 0
393/742-
0.020
5.8*6
0.441
0.7363
Z/ 7
349/733
0.022 0.199
0.55* 3.199
0.107 0.819
0.0909 0.6070
0/1 0/3
137/2*8 137/2*6
0.02* O.2O7
0.635 4.699
0.106 0.767
0.1009 0.7963
1/0 1/0
112/248 112/248
0.036 0.265
0.719 6.250
0.117 1.146
O.O873 0.853*
1/0 3/2
128/2*6 128/242
0.034 0.215
0.565 7.149
0.122 1.293
0.0866 1.275*
0/1 0/0
119/246 119/247
0.020 0.210
0.979 5.399
0.128 t. 050
0.1478 0.8802
0/1 2/2
128/245 128/242
0.03* 0.199
3.02* 8.199
0.116 1.193
0.2838 1.2202
*/ 0 0/0
118/2*2 118/246
0.020 0.199
0.979 6.250
0.117 1.001
0.1117 0.7962
0/1 0/3
393/7*1 393/739
0.024 0.199
3.024 8.199
0.115 1.090
0.1817 1.1426
2/0 0/0
349/740 349/742
10
2*8
79
69.8
Of 0
137/2*9
10
240
59
62.7
Of 1
112/2*8
10
33*
88
78.0
of a
128/2*7
10
27S
58
53.5
Of 5
119/2*2
10
283
91
72.0
Of 1
128/2*5
10
291
54
47.4
Of 0
118/246
10
334
86
73.2
Of 0
393/7*2
10
291
57
54.7
Of I
349/7*0
0.0
137.0
18.6
24.23
Of 1
137/248
0.0
142.0
18.7
26.32
Of 0
112/249
0.0
21O.O
14.9
27.84
O/ 0
128/247
0.0
91. O
13.2
18.48
Of 5
119/242
0.0
90.0
10.0
15.44
Of 3
128/2*6
O.O
85.0
9.2
14.30
O/ 2
118/244
0.0
210.0
14.6
23.33
Of 0
393/742
0.0
1*2.0
13.6
20.50
Of I
349/741
0 0.0
3251 59.5
376 8.8
559.1 11.28
0 0.0
0 0.0
O 0.0
0.0 0.00
O O.O
6846 48.2
367 4.5
821.8 7.03
0 0.0
0 0.0
O O.O
0.0 0.30
O 0.0
32206 89.9
738 7.1
2982.3 12.17
O 0.0
0 0.0
O 0.0
0.0 0.00
0 0.0
32206 89.9
492 6.8
18O3.6 10.55
0 0.0
0 0.0
0 0.0
O.O O.OO
-------�
PARTIAL DEPTH VAttrtS
ft
0 9
U 1 0
N N
0
R N
0 0
U 1 N
N D
0 C
H
R
O 0
U 2 0
N H
0
R II
0 0
U 2 M
N 0
o q
H
R
0 0
U 3 0
N X
D
H N
c q
U 3 N
H 0
o g
N
0 • 0
U L 0
N L M
0
Ik N
Q A 0
U L N
N L 0
0 0
H
• IN
PAX
HUH
STOV
W
0/«
HJH
HA)
MEAN
ITDV
N
0/««
fW
HUt
MEAN
STOV
NX/^
0/H«
HIM
PAX
NtAI
STOV
N
0/HR
N1N
MAX
MEAN
STOV
0/HR
MIN
MAX
MEAN
STOV
N
D/tfS
KIN
MEAN
srov
D/MR
BIN
MAX
iTOV
D/HR
CHLA
1.2
146.9
13.9
25.33
7/ ft
36/234
1.5
2*1.1
22.1
39.73
a/ 2
130/237
3.0
99.7
12.0
14.28
12/44
16/191
1.9
312.0
35.2
48.33
2/ 2
3.4
198.0
4S.9Z
22/ 2
19/223
0.8
237.0
23.8
33.78
O/ 1
119/2*6
1y
« £
198.0
16.3
30.48
1 1/ 11
71/719
0.8
312.0
27.2
49.29
&> 3
322/132
TUftB SECCHt PM
19 2 6.8
100 132 9.3
66 30 1.8
21.0 29.8 0.59
4/0 0/4 9/8
24/1B3 37/245 37/232
96 IBS 10. I
70 4S B. 0
21.7 38,1 0.72
1/4 2/1 2/1
76/182 100/246 IOO/246
25 1* 9.2
95 222 9.0
79 66 7.1
19.3 30.1 1.08
It/ 10 20/ 0 I/ 12
19/211 16/221 16/23*
4 6 5.5
98 171 4.5
69 44 7.9
24.9 31.5 0.76
0/3 1/3 2/4
IK/234 107/237 112/241
17 10 6.1
99 144 B.7
82 60 7.6
21.2 36.4 0.70
7/1 3/6 4/17
11/213 19/237 19/224
1 6 6.0
97 152 10.3
71 46 7.7
25.1 32.8 0.77
4/2 3/4 3/0
131/719 110/242 139/242
100 222 9.3
73 46 7.6
21.5 40.0 0.76
21/ 3 I/ I 2/ 20
96/621 72/734 72/719
1 * 9.5
98 18$ 10.3
70 45 7.9
24.1 34.0 0,75
0/7 3/3 3/2
286/638 317/7)1) 321/734
00
9.2
15.5
e.B
1.79
101 I
37/234
12.8
8.9
1.82
*/ 2
99/239
4.9
10.1
6.9
1.49
20/ 10
16/216
3.0
19.2
7.0
1.88
O/ 2
112/244
3.9
13.5
7.2
2.25
3/ 0
19/238
1.9
11.4
7.3
1.46
t/ 2
UB/21B
19.5
7.9
2.09
12/ 3
72/717
1.9
L5.2
7.7
1.92
I/ 4
319/726
Tf«P
8.5
28.7
IT. 3
9.21
21 2
31/244
28.9
16.1
5.86
Of 0
10O/248
20.1
29.5
26.0
2.99
I/ 20
16/225
17.3
32.2
26.4
2.42
Of 0
111/246
14.8
26.8
19.0
3.18
5/ 6
19/235
9.0
27.2
19.4
3.10
O/ 3
11 0/743
Z9.S
19.7
9.52
if 21
72/717
6.8
32.2
21.4
9.42
O/ O
321/7*0
TOT ALP
0.317
1.159
0.156
3.2398
6/ S
37/23*
O.O06
1.184
0.098
0.1328
3/ 4
100/242
C.OD7
0.247
0.044
0.0579
*/ ZB
16/219
0.006
1.029
0.124
0.2013
If 6
112/239
fl.Olt
0.4Z2
0.094
0.1058
15/ 16
19/215
0.010
1.609
0.126
0.2166
ll/ 2
139/233
U159
0.113
0.1673
14/ 15
72/713
0.096
1.639
0.116
0.1931
7/ 4
321/731
OHTHOP
0.002
O.SJ1
0.078
0.1990
10/ 4
37/235
0.03 1
1.032
0.039
0.1292
Of 3
100/2*6
0.003
0.174
0.017
3.0419
9/ It
16/220
0.001
O. 594
0.045
0.1109
Of 4
112/243
0.005
0.199
0.034
0.0488
IV 16
19/21*
0.003
1.189
0.096
0.14«9
Zf i
109/241
olasi
0.093
0.1204
14/ U
72/716
0.001
t. 189
0.041
0.1290
Of 4
321/737
NO2N03
O.D2*
9.745
I.5TZ
2.3978
O/ 0
37/2*9
Om 034
7.5*7
0.891
1.3000
2/ 2
1OO/245
0.035
3.836
0.394
0.9161
12/ 4
16/231
O.027
6.8*7
0.998
1.0344
If 0
112/246
O.O21
1.56*
0.281
47 11
19/231
0.017
2.688
0.391
0.5284
Of I
109/249
Q+02 1
•.749
0.970
1.8787
4/ 0
7Z/T3S
0.017
7.597
3.619
1.0965
Of 2
3Z1/T43
HH3
0.037
0.924
0. US
0.0883
17/ 3
37/229
0. 022
0.554
0.101
0.0914
O/ 1
100/248
D.O40
0.144
0.088
0.3367
4/ 33
16/190
0.036
0.119
0.122
0.0916
I/ 0
112/246
O.O31
0.932
0.1O9
0.1164
If «
19/239
0.020
0.979
0.131
0.1928
Of 1
109/245
0.031
0.532
0.112
0.0888
4/ 11
72 / 72 T
O.OZO
0.979
0.118
0.1143
Of 1
321/741
KJEL
0.243
2.949
0.808
0.5315
B/ 6
37/239
3.194
0.824
0.6333
O/ 3
1OO/246
9.299
1.432
0.682
3. II 76
6/ 64
16/177
0.265
6.240
1.212
0.8839
3/ 2
112/242
0.250
1.824
0.816
0.5186
If 33
19/204
0.210
5.399
1.380
0.9273
if 2
109/242
O. 243
2.949
0.798
0.4906
IB/ 36
72/688
0.199
6.250
l.t)4«
0.8437
O/ 3
321/739
UK
10
246
83
76.2
O/ 0
37/249
227
18
67.6
O/ 3
100/246
10
171
42
46.4
Of 29
16/222
10
334
94
79.6
O/ 0
112/247
10
261
89
86.6
O/ 2
19/244
10
283
91
69.3
O/ 1
199/245
10
261
7S
79.3
Of 11
72/731
10
334
88
72.8
Of 0
321/742
N/P
1.0
B6.0
17.9
22.27
7/ a
37/234
On
• "
137.0
18.8
25.01
Of I
100/248
3.0
103.0
13.6
24.20
44/ 3
16/200
0.0
210.0
19.0
28.41
Of 0
112/247
0.0
39.0
T.T
8.85
O/ 15
19/231
0.0
90.0
10.3
16.31
Of 0
109/246
0.0
103.0
14.2
20.33
Of *
72/734
0.0
21J.O
14.6
73.98
Of 0
321/142
CONC VCRC
20 10.2
3291 59.9
556 23.2
139.4 12.67
D 0« 0
2O64 9.9
310 3.4
462.7 3.13
61 10.2
2406 48.2
666 18.7
779.1 11.62
0 0.0
6846 8.9
327 1.5
823.3 2.23
»3 13.3
32206 89. f
2629 26.4
7351.6 23.4*,
0 0.0
7ZS6 9.9
411 3.8
887.9 2.69
20 10.2
22206 89.9
1123 23.1
3864.3 16.32
0 0.0
72*6 9.9
3*B 3.2
7SS.» 2.73
-------�
GfNUS:CVANOMCJNAS
CMLA
TURB SECCHI
00
TEMP
PARTIAL DEPTH VALUES
TOTALP ORTM9P N02M03
KJEL ALK
CQNC P6RC
B
p n
U 1 C
N C
D
P N
0 0
U 1 N
•1 1
0 C
c
R
0 9
U 2 C
H C
0
• N
0 0
U 2 N
N 0
0 C
C
R
p o
U 3 C
N C
0
R H
O 0
U 3 H
N O
n c
c
0
P A O
U I C
NIC
0
4 N
o « n
U L 1
N L 0
D C
C
Its
MEAN
STDV
0/HB
KIN
MAX
"EAN
STOV
C/WR
HIM
MAX
• EAN
STOV
O/wJ
WIN
M4X
PCAM
STPV
M
C/M»
HIN
MAX
HEAD
STDV
C/M1
KIN
KAX
KEAN
STOV
P
P/W1
HIM
MAX
STOV
NC/>
0/HR
HIM
MAX
MEAN
STDV
P/WR
0.3
355.6
21.0
*t.«0
Of 0
2*7/2*7
1.4
59 5. O
34.4
62.38
Of 0
2*7/2*7
3.6
3.6
3.6
0.00
26/217
If 4
9.8
241.4
23.3
34.31
Of 0
2*6/2*7
3.6
3.6
3.6
O.30
91/6*1
If 9
0.3
595.0
26.2
47.95
O/ O
7*0/741
4
100
71
20.6
O/ 0
187/187
4
121
72
24.0
Of 0
237/237
91
91
91
O.O
1T3/ *2
If 9
1
100
74
23.1
Of 0
229/221
91
91
91
0.0
517/104
If 24
1
121
72
22.7
O/ 0
644/6*5
2
252
**
36.2
Of 0
2*9/2*9
1
222
*9
35.8
O/ 0
2*1/2*1
109
109
109
0.0
223/ 20
I/ 3
6
185
30
34. R
01 0
2*5/2*6
109
109
109
0.0
677/ 56
I/ 3
1
252
47
35.7
Of 0
735/736
5.3 0.7 6.8 0.00*
10.6 19.2 28.9 1.719
7.9 9.0 17.5 0.123
0.73 2.02 3.59 0.231*
0/0 0/0 0/0 0/0
2*9/2*9 2*5/2*5 248/2*8 249/2*4
4.1 3.O 17.3 0.00*
10.6 17. B 32.2 2.554
7.8 7.0 26.6 0.13*
0.89 1.99 2.35 0.2811
O/ 0 Of O Of O Of O
2*7/2*7 2*6/246 2*6/2*6 2*7/2*T
8.2 6.5 19.5 0.018
8.2 6.5 19.5 0.018
8.2 6.5 19.5 0.017
0.00 0.03 O.OO 0.0000
I7*/ 60 59/174 98/1*5 38/207
I/ 11 1/8 1/3 I/ I
4.7 1.6 9.0 0.004
10.3 13.5 29.6 *.5*9
7.6 7.3 20.4 0.155
0.84 1.61 3.25 0.4048
O/ O Of O Of O Of 0
2*4/2*5 2*9/241 2*5/2*6 2*5/2*6
8.2 6.5 19.5 0.018
8.2 6.5 19.5 0.018
8.2 6.5 19.5 0.017
0.00 O.OO 0.00 O.OOOO
*99/209 180/538 261/*75 117/619
If 33 It 14 1/4 1/6
*. 1 0.7 6.8 0.00*
10.6 19.2 32.2 4.549
7.8 7.8 21.5 0.137
0.83 2.07 5.50 0.3159
0/0 0/0 0/0 0/0
7*0/7*1 731/712 739/7*0 741/7*2
0.031
1.209
0.057
0.16*2
Of 0
2*9/2*9
O.031
1.191
O.053
0.1479
Of 0
2*7/2*7
0.011
0.011
0.011
0.0000
90/1*7
If 8
0.001
2.039
0.070
0.2092
Of 0
2*4/245
O.01I
0.011
0.011
0.9030
325/390
I/ 26
0.001
2.009
0.060
0.175*
O/ 0
740/741
3.02*
9.7*5
0.870
1.475*
Of 0
2*9/2*9
0.025
6.857
0.*93
0.8836
Of 0
2*7/2*7
0.051
0.051
0.050
3.0000
70/172
If 4
0.317
4.469
0.343
3.5485
Of 0
2*5/2*6
0.051
0.051
0.050
3.3000
105/631
If 6
0.017
9.7*5
0.579
1.0666
Of 0
7*1/7*2
0.022
0.635
0.107
0.0953
O/ 0
2*9/249
0.03*
0.719
0.120
0.0878
Of 0
2*7/2*7
0.091
0.091
0.091
O.OOOO
157/ 87
I/ 2
0.020
3.024
0.122
0.2236
Of 0
2*5/2*6
0.041
0.091
O.O91
0.0000
428/309
If 3
0.020
3.02*
0.116
9.1*88
Of 0
741/7*2
0.199
4.699
0.796
0.6975
Of 0
249/249
0.215
7.149
1.217
1.0778
Of 0
247/2*7
0.932
0.932
0.932
O.OOOO
141/103
I/ 2
0. 199
8.199
1.119
1.0593
Of 0
245/246
O. 932
0.932
0.932
0. 0000
457/281
If 4
0.194
8.199
1.043
0.4756
O/ 0
741/742
10
248
70
67.3
Of 0
249/249
10
33*
73
6S.9
Of 0
2*7/247
168
168
168
0.0
22 2/ 22
If 2
10
291
72
63.9
Of 0
2*5/246
168
168
168
3.0
6S4/ 83
If 3
IO
334
72
66.7
Of 0
7*1/742
0.0
1*2.0
18.6
25.14
O/ 0
249/249
0.0
21O. 0
14.1
23.76
Of 0
247/2*7
T.O
7.0
T.O
0.00
149/ 83
If 14
0.0
90.0
9.6
14.90
Of 0
245/246
T.O
T.O
T.O
0.00
366/325
I/ 51
0.0
210.0
1*. 1
22.05
O/ 0
741/742
O
0
0
0.0
0
0
0
0.0
0
0
0
0.0
0
0
0
0.0
0
0
0
0.0
0
0
0
0.0
0.0
0.0
0.0
0.00
0.0
O.O
0.0
0.00
0.0
0.0
O.O
0.00
0.0
0.0
0.0
0.00
0.0
0,0
O.O
0.00
0.0
0.0
O.O
0.00
-------�
GENUS . P*"UL °EP™
CHL* TUM SECCMI PM 00 TEMP TOT4LP O.TKQP HC2N03 HH3 KJEL «JC N/P CONC PE«C
n MIN
0 D MAX
U 1 0 HEAN
N N STDV
D H
0/MR
• N HIN
0 O MAX
U 1 N MEAN
N 0 S10V
0 O N
N OSNR.
R MIN
O O MIX
u z o MEAN
N M STOV
0 N
0/ua
R N DIN
0 0 WAX
U 2 N MEAN
N 0 STOV
0 0 H
M 0/NM
R MIN
0 0 MX
U 3 0 MEAN
N M STOV
D N
a/M*
HI Jli
• MIN
0 A 0 MAX
U t 0 MEAN
N L t STOV
D N
G/VR
Itji
-------�
GENUS:CY|
MAX
MEAN
STOV
N
0/ua
IMN
MAX
MEAN
STOV
N
0/UR
HIM
• AX
MEAN
STOV
N
0/WR
MIN
MAX
HEAN
STDV
N
0/BR
HIN
• AX
MEAN
STOV
N
"/MO
"IN
HAK
MEAN
STOV
N
0/HR
MIN
MAX
MEAN
STOV
N
0/WK
MII»
MAX
MEAN
STOV
N
n/HR
CHI*
0.3
188.6
18.9
34.08
O/ *
38/2*3
0.5
355.6
21.1
*2.65
If 0
209/2*6
3.5
1*0.2
29.4
3*. 28
16/ 11
S*/220
t.*
593.0
33.9
48.**
Of 0
193/2*7
0.8
237.0
24.8
39.95
Of t
50/2*6
0.8
2*1.*
22.8
32.77
O/ 0
197/2*7
0.3
237.0
21.0
36.31
O/ 9
1*2/732
0.5
595.0
26.5
50.31
If 0
399/7*0
TURB SSCCMI
13 2
98 128
72 45
20.8 15.1
2/2 0/7
27/183 38/242
6 3
100 252
70 43
20.6 36.4
0/0 1/0
169/137 211/2*8
13 6
98 150
73 *8
21.7 32.7
7/3 I/ *
50/227 54/236
4 1
121 222
72 49
24.6 36.7
0/0 0/0
187/237 187/241
13 8
96 152
76 35
20.6 38.5
6/7 2/4
47/208 5O/2*0
1 6
100 185
73 49
23. T 34.0
0/0 0/0
174/221 196/246
13 2
98 152
7* 30
21.0 13.5
IS/ 7 I/ 12
124/A'l 14V723
1 I
121 232
72 47
23.1 35.8
0/0 0/0
521/645 194/736
PH
6.8
13.1
7.9
0.71
It 1
18/239
5.3
10.6
7.9
0.73
Of 0
211/2*9
5.2
9.2
7.7
0.87
I/ 10
54/236
*.l
10.6
7.8
0.9O
Of 0
193/247
6.3
10.3
7.6
0.89
8/ 0
49/237
4.7
10. O
7.6
0.82
Of I
196/244
5.2
10.3
7.7
0.8*
2/ 2
141/737
4.1
10.6
7.8
0.83
Of 0
600/7*1
DO TEMP
*. 2 6.8
12.8 28.8
8.1 18.4
1.79 6.11
7/2 0/1
38/2)6 38/247
0.7 7.2
19.2 28.9
9.0 17.3
2.06 5.49
0/0 I/O
207/2*3 210/247
3.1 20.6
15.2 30.2
7.1 26.7
1.84 2.02
1/2 2/4
54/243 54/2*0
3.0 17.3
17.8 32.2
7.0 26.6
2.02 2.43
0/0 0/0
192/246 192/246
1.6 15.7
11.4 27.2
7.* 21.3
1.55 2.98
O/ 2 12/ 3
47/239 49/231
1.9 9.0
13.5 29.6
T.3 20.L
1.63 3.26
1/0 0/0
194/240 197/246
1.6 6.8
15.2 30.2
7.6 12.7
1.83 5.12
I/ * 0/4
139/727 1*1/736
O.T 7.2
19. 2 32.2
7.8 21.2
2.12 5.35
0/9 1/0
391/732 399/739
TOTSLP
0.006
1.18*
0.127
0.2130
3f 4
38/242
0.00*
1.719
0.122
0.2331
Of 0
211/249
0.006
0.750
0.100
0.1284
2/ 10
54/235
0.00*
2.559
0.14*
0.31O3
Of 0
193/2*7
0.006
1.382
0.117
0.2358
2/ «
50/240
0.004
4.549
0.164
0.4*25
Of 0
196/2*6
0.006
1.382
0.113
0.1938
7/ 8
142/727
0.004
4.3*9
O. 1*3
0.3381
a/ o
600/7*2
ORTHOP N02N03
0.001 0.0*1
1.032 9.7*3
0.065 0.982
0.189* 2.0617
0/3 6/0
38/2*6 38/2*3
0.001 0.024
1.209 8.089
9.036 0.849
0.1398 1.348B
0/0 Of I
211/249 211/248
0.002 0.025
0.433 6.857
0.037 0.579
0.0736 1.2225
3/8 0/0
34/236 54/247
0.001 0.027
1.191 4.099
0.058 0.469
O.1626 0.7650
0/0 1/3
193/247 193/2*3
0.004 0.020
1.255 1.959
0.055 O.280
0.1850 0.4599
8/1 2/4
50/216 50/240
0.001 0.017
2.009 4.469
0.074 0.357
0.2147 0.5679
0/0 0/0
195/245 L96/246
0.001 0.020
1.253 9.7*5
0.051 0.582
0.1532 1.3313
0/1 2/0
142/740 142/7*0
0.001 0.017
2.009 8.089
0.062 0.566
0.1802 0.9879
0/0 0/1
399/741 600/7*1
NH3 KJEL
0.022 0.2*2
0.35* 2.665
0.121 0.790
0.1078 O.S801
0/1 7/7
38/248 38/235
0.02* 0. 199
0.635 4.699
0.10* 0.797
0.0929 0.7178
1/0 0/0
211/2*8 211/2*9
0.036 0.281
0.325 4.849
0.114 1.22*
0.0676 0.9235
1/7 3/4
34/239 34/238
0.03* 0.213
0.719 7.149
0.121 1.213
0.0927 1.1193
0/0 0/0
193/247 193/247
0.032 0.210
0.831 5.399
0.108 1.193
0.1323 1.0806
2/3 2/2
50/241 30/242
0.020 0.199
3.024 8.199
0.126 1.099
0.2411 1.0331
0/0 0/0
196/246 196/246
0.022 0.210
0.831 3.399
0.113 1.098
0.10*3 0.9218
1/3 5/6
142/738 1*2/711
0.020 0.199
3.024 8.199
O.L17 1.030
0.1573 0.9874
0/0 0/0
600/742 600/742
ALK
10
216
74
69.3
Of 6
38/243
10
248
69
67.1
Of 0
211/2*9
10
266
66
66.0
O/ 7
54/240
10
33*
75
69.7
Of 0
193/247
10
220
57
53.7
Of 7
30/239
10
291
77
66.0
Of O
196/2*6
10
266
65
62.8
Of 9
142/733
10
33*
7*
6T.6
O/ 0
60O/7«2
N/P
0.0
87.0
15.8
21.93
Of 7
38/242
0.0
1*2.0
19.1
23.69
Of 0
211/2*9
0.0
210.0
14.5
32.95
Of 0
54/247
0.0
130.0
14.0
20.58
Of I
193/246
0.0
90.0
10.4
18.06
Of 0
30/2*6
0.0
88.0
9.4
13.99
Of 1
196/243
0.0
210.0
13.4
25- »S
O/ 0
1*2/7*2
0.0
1*2.0
14.3
21.1*
O/ 1
600/7*1
CONC Pf«C
0 0.0
3288 L 44.2
986 5.0
5317.9 9.81
0 0.0
0 0.0
0 0.0
0. 0 0. 00
0 0.0
78070 86.9
2372 4.8
11118.5 12.41
0- 0.0
0 0.0
0 0.0
0.0 0.00
0 0.0
56122 93.9
2698 3.8
9806.7 14.84
0 0.0
0 0.0
0 0.0
0.0 O.OO
0 0.0
78070 93.9
2116 3.2
9370.1 12.65
0 0.0
o o.o
0 O.O
o.a o.oo
-------�
GENUS:CV«NOPHYTAN
PARTIAL DEPTH VALUES
CHLA
TURB SECCMI
PH
DO
TENP TOTALP ORTMOP N02N03
NH3
KJEL ALK
N/P
CONC PERC
O
vo
R
0 0
U 1 0
N M
0
R N
0 0
U 1 N
N 0
0 0
N
R
0 0
U 2 0
N N
0
R N
0 0
U Z N
N 0
0 0
N
R
0 0
U 3 0
N t
0
R N
0 0
U 3 N
N 0
0 C
N
R
0 A D
U L 0
N L N
0
R N
C A 0
U L N
H L 0
0 0
N
M1N
MAX
MEAN
STOV
N
O/MR
MIN
MAX
MEAN
STOV
N
O/MR
MIN
MAX
MEAN
STOV
N
0/HR
MIN
MAX
MEAN
STOV
N
O/MR
MIN
MAX
MEAN
STOV
N
O/MR
MIN
MAX
XEAN
STOV
N
O/MR
MIN
MAX
MEAN
STOV
N
O/MR
MIN
MAX
MEAN
STDV
N
O/MR
0.3
22.8
6.8
8.04
Of 52
6/155
2.4
188.6
21.1
36.64
22/ *
32/221
4.6
97.9
28.1
23.23
29/ 39
6/183
3.5
1*0.2
29.5
3S.60
16/ 11
48/223
1.9
29.4
13.8
11.82
ll/ 53
6/183
0.8
23T.O
26.3
42.23
O/ 1
44/246
9.3
97.9
16.2
1T.36
Of 79
18/662
0.8
237.0
26.2
38.17
6/ 9
124/726
31
88
60
22.3
ll/ 37
5/139
13
98
74
20.1
2/ 2
22/183
19
94
61
24.6
13/ 19
6/209
13
98
TS
21.0
If 3
44/227
73
93
81
7.2
6T/ 28
6/126
13
96
76
21.9
6/ 7
41/208
19
94
68
20.8
267 92
17/967
13
98
79
21.0
IS/ 7
107/623
7
76
26
23.5
8/ 38
6/203
2
128
49
36.0
O/ 7
32/242
8
114
38
38.4
4/ 16
6/221
6
150
90
32.1
I/ *
48/236
31
144
69
48.0
71/ 6
6/169
8
132
93
37.3
2/ 4
44/240
7
144
44
40.9
13/ 15
18/708
2
192
31
34.8
If 12
124/723
7.3
9.3
8.0
0.74
4S/ 8
6/196
6.8
10.1
7.9
0.71
9/ 1
32/239
6.7
8.6
7.6
0.66
25/ 28
6/194
9.2
9.2
7.7
0.90
If 10
48/236
6.7
8.9
7.4
0.85
so/ a
6/207
6.3
10.3
7.6
0.91
a/ o
43/237
6.7
9.3
7.7
0.75
61/ 20
18/660
3.2
10.3
7.7
0.86
if 2
123/737
4.2
10.6
8.7
2.29
7/ 36
6/202
3.7
12.8
8.7
1.73
12/ 2
32/231
4.1
7.4
6.1
1.19
7/ 76
6/163
3.1
19.2
7.2
1.8)8
If 2
46/243
1.6
8.8
6.3
2.51
Of 30
6/211
4.5
11.4
7.9
1.36
9/ 2
41/230
1.6
10.6
7.1
2.28
If 91
18/680
3.1
19.2
7.7
1.78
7/ 4
121/721
10.6
23.7
17.3
6.63
IS/ 25
6/208
6.8
28.8
18.6
6.10
Of 1
32/247
24.6
28.6
26.8
1.S2
S2/ 99
6/139
20.6
30.2
26.7
2.09
2/ 4
48/240
16.7
24.6
21.9
2.91
24/ 24
6/198
19.7
27.2
21.9
3.02
12/ 3
43/231
10.6
28.6
22.0
9.67
16/ 64
18/660
6.8
30.2
22.8
5.05
O/ 4
123/736
0.016
0.226
0.120
0.0748
28/ 23
6/198
0.006
1.184
0.128
0.2308
3/ 4
32/242
0.010
0.256
0.098
0.0951
14/ 26
6/207
0.006
0.790
0.130
0.1328
2/ 10
48/233
0.019
0.076
0.038
0.0230
39/ 99
6/112
0.006
1.382
0.128
O.Z496
21 4
44/240
0.010
0.256
O.086
0.0756
37/ 71
IB/634
O.O06
1.382
0.117
0.2352
If 8
124/727
0.001
0.091
0.032
0.0318
O/ 24
6/225
9.001
1.032
0.071
0.2060
O/ 3
32/246
0.005
0.058
0.022
0.0191
3«/ 33
6/176
0.002
0.433
0.038
0.0777
M 8
48/236
0.005
0.044
9.017
0.0164
IS/ 52
6/178
O.O04
1.255
0.060
0. 1969
B/ 1
44/236
0.031
0.091
0.024
0.0228
Of 78
18/663
0.031
1.255
0.059
0.1635
Of 1
124/740
0.054
9.745
1.911
3.8434
ll/ 0
6/238
0.041
7.244
0.808
1.9788
6/ 4
32/239
0.103
4.299
0.978
1.6995
86/ I
6/160
0.029
6.857
0.530
1.1708
Of 0
48/247
0.049
1.373
0.371
0.9263
67/ 14
6/169
0.020
1.999
0.268
0.4996
2/ 4
44/240
0.049
9.745
1.087
2.3784
95/ 0
18/647
0.920
7.244
O.S09
1.1264
2/ 4
124/736
0.044
0.185
0.141
0.0525
28/ 27
6/194
0.022
0.554
0.117
0.1154
O/ 1
32/248
0.102
0.306
0.191
0.0870
136/ 9
6/102
0.036
0.325
0.104
0.0590
I/ 7
48/239
0.063
0.831
0.214
0.3023
93/ 3
6/148
0.032
0.369
0.093
0.0867
2/ 4
44/240
O.O44
0.831
0.182
0.1758
68 / 3
18/671
0.022
0.569
0.103
0.0860
I/ 6
124/733
0.382
2.669
0.984
0.8967
60/ 7
6/182
0.242
2.449
9.753
0.9240
7/ 12
32/230
0.670
2.949
1.549
0.6164
94/ 22
6/131
0.281
4.849
1.183
0.9319
9/ 4
48/238
0.294
2.149
1.236
0.7949
21/ 23
6/232
0.210
3.399
1.189
1.1211
2/ 2
44/242
0.294
2.669
1.296
0. 7948
5 1/ 44
18/647
i. 210
5.399
1.074
0.9440
5/ 6
124/731
12
170
75
69.0
4 If 34
6/174
10
216
74
73.9
O/ 6
32/243
12
223
74
73.9
27/ 13
C/207
10
266
69
65.6
Of 7
48/240
16
64
39
17.7
43/103
6/1OO
10
220
60
56.3
O/ 7
44/239
12
223
61
59.4
93/ 24
18/625
10
266
66
63.5
Of 9
124/733
3.0
53.0
13.3
19.54
34/ 21
6/194
0.0
87.0
16.3
22.61
Of 7
32/242
3.0
59.0
19.0
20.79
44/ 13
6/190
0.0
210.0
13.9
34.29
Of 0
48/247
4.0
90.0
21.7
33.86
93/ O
6/153
0.0
85. O
8.9
14.77
O/ 2
44/244
3.0
90.0
18.0
24.27
146/ 13
18/983
0.0
210.0
12.8
29.76
Of 0
124/742
115 13.2
32881 44.2
5649 29.1
13341.5 10.67
0 0.0
793 a. a
111 1.3
218.9 2.10
244 10.7
78070 86.9
17518 28.0
31367.2 29.24
0 0.0
8400 9. 5
479 1.9
1337.6 2.24
25 10.5
56122 93.9
16422 35.5
24794.6 30.33
0 0.0
18900 8.4
826 1.8
2910.2 2.11
29 1C. 3
78070 93.9
13196 29.9
23501.9 24.00
0 0.0
18900 9.5
907 1.7
1932.3 2.16
-------�
GFNUS:CYCIOTELLA
CHI.*
TURB SECCMI
DO
TEMP
PARTIAL DEPTH VALUES
TOTALP ORTMOP N02N03
NH1
KJEL AlK
N/P
CONC PERC
R
0 0
U 1 C
N C
Q
ft N
0 0
U 1 N
H 0
0 C
C
q
0 0
0 2 C
N C
o
p N
0 0
U 2 N
N 0
0 C
C
g
0 0
U I C
N C
Q
9 N
0 0
U 1 N
N 0
0 C
C
ft
010
U L C
N L C
Q
H N
0*0
U L N
N L 0
D C
C
HIN
MIX
MEAN
STOV
N
0/MR
MI N
MIX
MEAN
STOV
N
0/WR
MIN
MAX
MEAN
STOV
N
0/WR
MIN
MAX
MEAN
STOV
N
0/WR
MIN
MAX
MEAN
STOV
N
C/Ufl
MIN
MAX
MEAN
STOV
N
0/M»
MIN
MAX
MEAN
STOV
N
0/MR
MIN
MAX
MEAN
STOV
N
0/WR
0.5
188.6
16. T
27.32
|/ *
123/2*2
0.3
355.6
25.2
SI. 49
O/ 0
124/247
1.4
91%. 0
35.6
64.90
Of 0
168/247
1.9
456.6
32.0
57. 6T
If 1
79/2*5
1.1
2*1.4
22.7
37.26
2/ 3
1SO/24S
0.8
198.0
24. 0
29.21
O/ 2
97/24S
0.5
19}. 0
29.9
48.36
If 0
441/740
0.3
4S6.6
26.6
4T.36
Of 1
300/740
6 5
97 252
71 44
19.8 39.2
0/3 2/0
9S/184 123/247
13 2
100 168
70 43
21.4 33.1
2/0 0/3
92/18$ 126/246
4 6
121 216
71 46
29.4 32.0
0/0 1/1
163/237 163/239
9 1
103 222
74 59
20. 6 42.4
4/2 O/ 0
74/231 78/241
1 6
10O 185
75 53
22.1 37.4
J/ 0 0/0
133/221 150/246
3 8
99 197
73 46
24. 5 30. 4
I/ 1 2/3
88/219 96/241
1 9
121 25Z
72 48
23.0 36.2
0/0 3/0
391/645 436/733
3 1
103 222
72 47
22.3 39.1
If 2 O/. 1
294/642 300/731
6.6 3.8
10.1 15.5
7.9 8.9
0.64 1.69
4/1 4/1
123/244 122/240
5.3 0.7
10.6 19.2
7.9 9.1
0.80 2.31
0/0 0/0
126/249 123/249
5.7 3.1
10.6 17.8
7.8 6.9
0.82 1.94
5/0 1/0
168/242 167/24S
4.1 3.0
10.3 16.0
7.7 7.1
1.03 2.07
0/1 0/1
79/246 79/249
5.9 2.8
10.3 12.7
7.6 7.2
0.76 1.49
2/0 2/1
148/243 146/238
4.7 1.6
10.0 13.9
7.6 7.9
0.95 1.77
0/1 0/0
97/244 99/241
5.7 2.8
10.6 17.8
7. 7 7. 6
0.76 1.91
9/0 4/1
439/732 439/727
4.1 O.7
10.6 19.2
7.8 8.1
0.92 2.25
0/0 0/0
302/741 297/732
6.8
28.9
18.3
9.75
Of 0
123/248
7.2
27.9
16.7
5.34
I/ S
125/242
21.2
32.2
26.8
2.18
3/ 0
168/243
17.3
31.4
26.1
2.61
01 2
78/244
9.0
29.6
20.2
3.30
Of 0
149/246
13.5
29.0
20.7
3.16
2/ 1
97/243
6.8
32.2
22.2
5.34
Of 0
440/740
7.2
31.4
20.4
5.56
If 2
300/737
0.004 0.001
1.184 1.032
0.101 0.044
0.1649 0.1315
0/4 0/3
123/245 123/246
0.004 0.001
1.719 1.209
0.144 0.070
0.2807 0.1906
0/0 0/0
126/249 126/249
0.006 O.O01
1.599 1.191
0.124 0.092
0.2259 0.1449
2/1 0/0
168/244 168/247
0.004 0.001
2.599 0.969
0.157 0.057
0.3732 0.1550
0/0 0/1
79/247 79/246
0.004 O.O01
3.084 2.009
0.149 O.082
0.3563 0.2927
0/1 0/0
149/245 148/245
0.006 0.002
4.549 0.784
0.164 0.052
0.4809 0.1117
2/0 1/5
97/244 97/239
0.004 0.001
3.084 2.009
0.126 0.060
0.2648 0.1898
Of I 0/0
440/741 439/741
0.004 0.001
4.949 1.209
0.154 0.060
0.3777 0.1992
0/0 0/2
302/742 302/739
0.038
9.745
0.986
1 .83O6
4/ 0
123/245
0.024
9.795
0.756
1.0107
Of 7
126/242
0.029
6.897
0.542
0.9711
Of 0
168/247
0.030
3.836
0.391
0.6542
7/ 4
79/236
0.017
4.469
0.381
0.6003
Of 0
149/246
0.020
2.569
0.282
0.4519
2/ 2
97/242
0.017
9.749
0.611
1.2128
Of 0
440/742
0.020
9.799
0.508
0.8037
2/ a
302/732
0.032 0.207
0.554 3.000
0.108 0.741
0.0959 0.5922
9/1 1/4
123/243 123/244
0.022 0.199
0.635 4.699
0.105 0.850
0.0951 0.7856
0/0 0/0
126/249 126/249
0.036 0.215
O.719 6.349
0.115 1.199
0.0793 1.0590
1/0 0/1
168/246 168/246
0.034 0.226
0.565 7.149
O.128 1.259
0.1036 1.1306
0/1 1/0
79/246 79/246
0.020 0.199
3.024 8.199
0.133 1.043
0.2726 1.1024
0/0 0/0
149/246 149/246
O.031 0.221
O.831 5.399
0.109 1.234
0.1101 0.9780
1/3 4/2
97/242 97/240
0.020 0.199
3.024 8.199
0.119 1.018
0.1735 0.9822
O/ 0 0/0
440/742 440/742
0.022 0.199
0.831 7.149
0.111 1.079
0.1025 O.9646
1/3 0/1
302/738 302/741
10
248
71
65.8
O/ 9
123/249
10
240
69
69.1
O/ 1
126/248
10
293
74
66.3
O/ 1
168/246
10
334
72
74.5
O/ 0
79/247
10
261
73
61.8
O/ 2
149/244
10
291
72
67.7
Of 0
97/246
10
293
73
64.5
Of 1
440/741
10
134
71
69.9
Of 0
302/742
0.0
120.0
18.2
23.37
Of 3
123/246
0.0
142.0
19.1
26.83
Of O
126/249
0.0
210.0
15.7
26.90
Of 0
168/247
0.0
85.0
10.7
14.63
Of 6
79/241
0.0
9O.O
11.2
16.77
Of 0
149/246
O.O
71.0
7.1
10.99
Of 3
97/243
0.0
210.0
14.9
23.02
O/ O
44O/742
0.0
142.0
13.0
2O. 51
Of I
302/741
0 O.O
12226 58.0
332 5.2
1204.7 9.20
0 0.0
O O.O
0 O.O
0.0 0.00
0 0.0
3*383 74.7
1076 7.3
4064.1 11.41
O O.O
O 0.0
o o.o
0.0 O.OO
0 0.0
18883 TO. 8
647 6.7
1929.9 10.34
O O.O
O O.O
O O.O
0.0 0.00
0 0.0
36383 74.7
723 6.5
2832.8 10.38
0 0.0
0 0.0
0 0.0
O.O O.OO
-------�
G*NUS:CYCLOTELLA
PARTIAL DEPTH VALUES
CHLA
TURB SECCHI
00
TEMP TOTALP ORTMOP N02N03
NH3
KJEL ALK
N/P
CONC PERC
R
0 0
U I 0
N N
D
H ||
0 0
U 1 N
N 0
0 0
N
R
0 0
U 2 0
N N
0
R N
C 0
U 2 N
N 0
0 0
N
R
0 0
U 1 0
N N
0
« N
0 0
U 3 N
N 0
0 0
N
R
0*0
U L 0
N L 1
0
R N
0 A 0
U L N
N L 0
0 0
N
HIN
MAX
MEAN
STDV
N
0/WR
HTM
^ in
MAX
MEAN
STOV
N
0/HR
MIN
MAX
MEAN
STOW
N
0/HR
NIN
MAX
MEAN
STOV
N
0/HR
MIN
MAX
MEAN
STOV
N
0/HR
MIN
MAX
MEAN
STOV
N
0/UR
MIN
MAX
MEAN
STOV
N
C/HR
MIN
MAX
MEAN
STDV
N
0/UR
2.3
1*6.8
21.8
34.41
21/ 6
IS/220
A_ S
vm 9
I8B.6
19.8
26.01
I/ 4
103/2*2
2.2
399.0
42.9
100.42
4/ 0
38/Z41
1.4
312.0
33.4
SO. 39
O/ 2
130/24*
1.1
116.4
1T.1
26.71
2/ T
27/238
1.2
241.4
23.9
34.18
4/ 0
123/243
1.1
515.0
29.9
71.89
9/ 0
83/732
0.5
312.0
25.0
41.12
I/ 3
358/737
43 14 6.8
96 127 9.3
78 52 8.0
16.5 40.8 0.66
21/ 4 25/ 10 9/ 8
15/162 18/214 18/232
97 212 10.1
70 42 7.9
20.2 39.0 0.64
0/3 2/0 4/1
80/184 1J5/247 103/244
4 6 6.2
98 116 9.3
72 47 7.6
27.1 31.6 0.7S
«/ 3 I/ 12 11 8
38/234 36/228 38/232
5 6 S.T
121 216 10.6
71 46 7.8
24.9 32.2 0.83
1/0 1/1 5/0
121/236 127/239 130/242
11 7 6.3
100 169 8.9
73 63 7.2
25.0 48.1 0.73
5/0 1/1 8/8
25/216 27/2*4 27/229
1 6 S.9
97 185 10.3
73 50 7.7
21.5 34.3 O.T3
3/2 0/0 2/0
108/219 123/246 121/243
4 6 6.2
100 169 9.3
73 54 7.S
24.6 43.1 0.78
2/3 3/8 16/ 20
71/640 81/723 83/705
1 9 3.7
121 252 10.6
72 46 7.8
22.7 33.1 0.75
0/0 3/0 9/0
313/443 353/733 356/732
3.9
15.5
1.9
2.32
6/ 1
18/238
12.3
ft. 9
1.37
»/ 6
104/235
4.1
11.7
6.7
1.31
7/ 6
37/233
3.1
17.8
7.0
2.04
I/ 0
130/245
4.0
9.3
6.9
1.32
S/ 14
27/222
2.8
12.7
7.3
1.33
2/ 1
119/238
3.9
15.5
7.2
1.88
18/ 3
82/711
2.8
17.8
7.6
1.91
4/ 1
353/727
10.9
28.7
19.5
3.57
18/ 2
18/228
28.9
18.1
5.78
O/ 0
103/2*8
22.4
30.5
26.9
2.15
B/ 3
38/235
21.2
32.2
26.8
2.19
3/ 0
130/243
12.6
27.0
20.2
3.63
I/ 3
27/240
9.0
29.6
20.2
3.24
O/ 3
122/246
10.9
30.3
23.1
3.01
19/ 3
83/718
6.8
32.2
22.0
5.40
O/ 0
357/740
0.006
1.159
0.13*
0.2602
3/ 5
18/241
Q Af) A
U*UU*t
1.184
0.095
0.1436
O/ 4
105/2*3
0.006
1.599
0.216
0.3807
2/ 1
38/2**
0.006
0.881
0.097
0.1459
2/ 8
130/237
0.006
1.6«9
0.17*
0.4025
2/ 2
27/2*2
6.00*
3. IB*
0.1*3
0.3*68
O/ 1
122/245
O.J06
1.609
0.185
0.3631
7/ *
83/731
0.004
3.384
0.112
0.2348
O/ 1
357/741
0.001
0.851
0.074
0.1938
O/ 4
18/2*5
OflO 1
• UU 1
1.032
A. 039
0.1176
O/ 3
10»/2*6
0.002
1.191
0.130
0.2729
3/ 0
38/2**
0.001
0.38*
0.028
0.0586
0/10
130/237
O.OO1
1.189
9.136
0.300*
O/ 2
27/2*3
0.003
2.009
0.076
0.2419
2/ 0
121/243
0.001
1.191
0.110
0.2658
O/ 3
83/738
0.001
2.009
0.048
0.1597
O/ 0
356/741
0.054
7.24*
0.913
1.7362
ll/ 4
18/234
0.038
9.745
0.949
1.89*0
*/ 0
105/2*3
0.027
4.295
0.630
0.9370
I/ 1
38/2*3
0.025
6.857
0.316
O.982B
O/ 0
130/2*7
0.030
1.709
0.310
0.*388
28/ 8
27/210
0.017
*.*69
0.396
0.6309
Of 0
122/2*6
0.027
7.2*4
0.587
I. 0638
20/ 4
83/718
0.017
9.743
0.617
1.2462
O/ 0
357/742
0.034
0.52*
O.113
J.1111
9/ 3
18/237
0.032
0.554
0.108
0.0936
5/ 1
105/243
0.040
0.719
O.133
0. 1IJ-8
4/ 0
38/243
0.036
0.405
0.110
0.0646
I/ 4
130/242
0.035
0.375
0.105
0.0744
3/ 9
27/232
0.020
3.024
0.139
0.2991
O/ 0
122/246
0.034
0.719
0.120
0.1026
13/ *
83/723
0.020
3.02*
0.119
0.1862
01 9
357/742
0.242
2.9*9
0.819
0.6277
7/ 6
16/236
0. 207
3.0OO
4.727
0.5880
I/ *
105/2*4
0.265
5.699
1.235
1.0894
3/ 3
38/241
0.215
6.3*9
1.188
1.0488
O/ 1
130/246
0.199
4.000
0.953
0.9954
O/ 7
27/239
0.204
8.199
1.063
1.1276
I/ 0
122/245
0.199
5.699
1.333
0.9808
O/ 5
83/737
0.204
8.199
1.010
O.9838
2/ 0
337/740
10
227
94
89.4
O/ 3
18/2*6
10
248
67
62.6
or o
105/2*9
10
281
81
73.6
O/ 2
38/2*3
10
293
72
6*. I
O/ 1
130/2*6
10
261
58
68.6
Of 2
27/2*4
10
241
77
60.0
O/ 3
122/243
10
281
76
74.0
O/ *
83/738
10
293
72
62.2
O/ 1
357/741
1.0
87.0
18.1
23.12
11 1
18/235
0.0
120.0
18.2
23.53
O/ 3
103/246
0.0
130.0
20.7
30.28
01 1
38/246
0.0
210.0
14.2
2S.78
O/ 0
130/247
0.0
85.0
13.1
19.13
O/ 2
27/244
0.0
90.0
10.8
16.26
O/ 0
122/246
0.0
130.0
17.7
29.32
O/ 4
83/738
O.O
210.0
16.2
22.38
O/ 0
397/742
38 10.7
12226 58.0
1446 23.1
2781.9 12.89
0 0.0
3579 9.0
141 2.1
430.8 2.72
47 10.1
36363 74.7
3611 23.2
7983.1 14.89
0 0.0
7281 9.9
333 2.6
804.6 2.77
9 10.0
18883 70.8
169B 22.6
3879.1 14.53
0 0.0
6288 9.9
417 3.2
1021.8 2.84
9 10.0
36383 74.7
2919 23.1
6014.5 14.18
0 0.0
7281 9.9
306 2.6
810.8 2.BO
-------�
GtNUS:CVllNDROSPERMUN
CML1
TUP8 SECCHI
DO
PARTIAL DEPTH VALUES
TEMP TOTALP ORTHOP N02N03 NH1
KJEL ALK
N/P
CONC
PCRC
Q
0 T
U I C
N C
o
Q N
C 1
U 1 N
N 0
o c
c
q
O T
U 2 C
N C
o
a N
C 0
•J 2 N
N a
0 t
c
,
a o
U 3 C
•i C
g
q N
0 3
U 3 N
N 0
0 r
C
D
r A o
U I C
i i :
.0
q u
0 A 0
U L N
N L 0
0 C
C
MIN
MAX
MEAN
STOV
O/UR
N IN
MAX
MEAN
STOV
0/WR
MIN
MAX
MEAN
STOV
O/WR
HIN
MAX
MSAN
STOV
O/WR
HIN
MAX
MEAN
STOV
N
C/WR
MIN
MAX
MEAN
STOV
O/WR
HIN
MAX
MEAN
STOV
O/WR
H IN
MAX
MEAN
STDV
O/WR
28.5
28.5
28.5
0.00
20 2/ **
If \
0. 1
155.6
20.4
«1.*8
Of 0
2*6/2*7
17.5
37.5
37.5
0.03
1B6/ 63
I/ I
1.*
595.0
34.4
62.71
Of 0
2*6/2*7
0.8
241.*
23.2
34.27
O/ 0
247/247
28.5
37.5
33. a
6.36
570/13T
2/ 3*
0« 3
595.3
26.2
47.99
O/ 3
739/7*1
66
66
66
0.0
65/120
I/ 2
6
130
71
20.6
O/ 0
186/187
78
78
78
0.0
1O1/130
If 6
*
121
72
24.0
O/ 3
216/237
1
100
7*
23.1
>/ a
221/221
66
78
72
8.5
187/3**
2/11*
j
121
72
22.8
O/ 0
6*3/6*5
27
27
27
0.0
95/1*8
I/ 6
2
252
**
36.2
O/ 0
2*8/2*9
35
35
35
0.0
10 3/ 13 1
If 7
1
222
*9
35.9
Of 0
2*0/2*1
6
185
50
35.0
3f 0
2*6/2*6
27
35
31
5.7
217/398
2/121
1
232
*8
35.8
O/ 0
73*/736
9.1
9.1
9.1
3.00
23*/ 12
I/ 1
5.3
1O.6
7.9
0.72
Of 0
2*8/249
7.9
7.9
7.9
0.00
126/110
I/ 11
4.1
10.6
7.8
0.89
Of 0
2*6/247
4.7
10.3
7.6
O.84
O/ 0
2*5/2*5
7.9
o.l
8.5
0.85
388/ 30
2/123
4 ,
Ifll6
7.8
0.83
O/ 0
739/7*1
10.0
10.0
10.0
3.30
175/ 62
I/ 8
0.7
19.2
9.0
2.02
O/ 0
2**/2*5
7.7
7.7
7.7
0.00
176/ 67
If 3
3.0
17.8
7.0
1.98
O/ 0
2*5/2*6
1.6
13.5
7.3
1.61
at o
2*1/2*1
7.7
10.0
8.8
1.63
355/ 8*
2/293
0.7
19.2
7.8
2.07
O/ 0
730/732
26.5
26.5
26.5
0.00
22B/ 19
I/ 1
6.8
28.9
17.5
5.57
O/ 0
2*7/2*8
28.9
28.9
28.9
0.00
192/ 45
I/ 9
17.3
32.2
26.6
2.35
O/ 0
2*5/2*6
9.0
29.6
20.*
3.25
Of 0
2*6/2*6
26.5
28.9
27.7
1.70
581/ *7
2/112
6.8
32.2
21.5
S.*9
Of 0
736/7*0
0.0*5
0.0*5
0.0*4
O.OOOO
99/1*6
I/ *
0.004
1.719
0.123
0.2319
Of 0
2*8/249
0.040
O.O*O
0.039
0.0000
112/13*
If 1
O.OO*
2.559
0.135
0.2817
Of 0
246/247
0.00*
*.5*9
0.155
O.*091
O/ O
2*6/2*6
0.0*0
0.0*5
0.3*2
0.0035
288/415
2/ 39
0.004
4.5*9
0.137
0.3161
O/ 0
7*0/742
0.007
O.OO7
0.007
0.0030
84/153
I/ 12
0.001
1.209
0.057
0.1645
Of 0
248/2*9
O. OO6
0.006
0.005
0.0000
62/168
If 17
O.O01
1.191
O.051
0.1*82
O/ 0
2*6/2*7
O.OO I
2.039
0.070
0.2088
3f 0
2*5/245
0.006
0.007
0.006
0.0007
158/*86
If 97
0.001
2.309
0.060
0.1755
Of 0
739/7*1
0. 16*
0.16*
O. 163
9.3000
79/169
I/ 1
O.02*
9.745
0.873
l.*777
Of 0
2*8/2*9
0.117
O.117
0.117
0.0000
96/150
If I
0.025
6.857
0.495
0.8851
O/ 0
246/2*7
0.017
*.*64
0.3*2
0.5*77
Of 0
2*6/2*6
0.117
0.16*
0.140
0.0332
277/385
2/ 80
0.017
9.745
0.571
1.0672
Of 0
740/742
0.164
0.16*
0.163
O.OOOO
210/ 37
I/ 2
0.022
0.635
0.106
0.0954
O/ 0
2*8/2*9
0.116
0.116
O.116
0.0000
IS*/ 86
If 1
0.01*
0.719
0.120
0.0880
O/ 0
2*6/2*7
O.O20
3.02*
0.122
0.2232
Of 0
2*6/2*6
0.116
0.164
0.139
0.0339
521/123
2/ 98
0.020
3.024
0.116
0.1*69
Of 0
7*O/7*2
1.5*9
1.5*9
1.549
0.0000
222/ 26
I/ 1
0.199
4.699
0.793
0.6973
Of 0
2*8/2*9
2.000
2.00O
2.030
O.OOOO
2O9/ 37
I/ 1
0.215
7.1*9
1.21*
1.0768
O/ 0
2*6/247
0.199
8.199
1.118
1.0572
Of 0
246/2*6
1.549
2.000
1.77*
0.3189
606/ 80
2/ 56
0.199
8.199
1.0*1
0.975*
Of 0
7*0/7*2
37
37
17
3.0
115/130
It *
10
2*8
70
67.*
Of 0
2*8/2*9
20
20
20
0.0
58/18*
I/ 5
10
33*
7*
68.9
O/ 0
2*6/2*7
10
291
73
6*.l
Of 0
2*6/2*6
20
37
29
12.0
208/*17
2/117
10
31*
72
66.8
Of 0
7*0/7*2
7.0
7.0
7.0
0.00
100/133
If 16
0.0
142.0
18.7
25.16
Of 0
2*6/249
6.0
6.0
6.0
O.OO
106/130
I/ 11
0.0
210.0
14.1
23.80
Of 0
2*6/2*7
0.0
90.0
9.6
14.87
O/ 0
2*6/246
6.0
7.0
6.5
O.TI
327/325
2/ 90
0.0
210.0
14.1
22.06
O/ 0
74O/742
O
O
0
0.0
0
0
0
0.0
0
0
0
o.o
0
0
0
0.3
o
0
o
o.o
0
o
0
o.o
o
o
o
o.o
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
0.30
0.0
0.0
0.0
0.00
0.0
0.0
3.0
O.OO
0.0
o.o
0.0
0.00
-------�
CCNUS:CYLINO»CSPERMUM PARTIAL DEPTH VALUES
CHLA TUPB SECCHt PM DO TEMP TOTAIP ORTHOP N02N03 NH3 KJEL ALK N/P CONC PERC
R M1N
0 0 MAX
u i o MEAN
N N STCV
0 N
0/HR
It N MIN 28.5 66 27 9.1 10.0 26.5 0.045 0.007 0.16* 0.164 1.549 37 7.0 0 0.0
0 0 MAX 28.5 66 27 9.1 10.0 26.5 0.045 0.007 0.164 0.164 1.949 37 7.0 0 O.O
U 1 N MEAN 28.5 66 27 9.1 19.0 26. S 0.044 0.007 0.161 0.163 1.549 37 7.0 0 0.0
N 0 STOV 0.00 0.0 0.0 0.00 O.OO 0.00 O.OOOO O.OOOO 0.0000 0.0000 0.0000 0.0 0.00 0.0 0.00
0 0 N 202/ 44 65/120 95/148 234/ 12 ITS/ 62 228/ 19 99/146 84/153 79/169 210/ 37 222/ 26 115/130 IOC/133
N 0/HR 1/1 1/2 1/6 1/3 1/8 1/1 1/4 I/ 12 1/1 1/2 1/1 1/4 I/ 16
R MIN
0 D MAX
U 2 0 MEAN
M H STOV
0 N
0/HR
R N MIN 37.5 78 35 7.9 7.7 28.9 0.040 3.006 0.117 0.116 2.000 20 6.0 0 0.0
0 0 MAX 37.5 78 35 7.9 7.7 28.9 0.040 O.OO6 0.117 0.116 2.000 20 6.0 0 0.0
U 2 N MEAN 37.5 78 35 7.9 7.7 28.9 0.039 O.OO5 O.11T 0.116 2.OOO 2O 6.0 O 0.0
NO STOV 0.00 O.O 3.0 0.00 0.39 O.OO 0.0000 0.3030 O.OOOO O.OOOO O.OOOO 0.0 0.00 O.O 0.00
0 0 N 186/ 60 101/130 103/131 126/110 176/ 67 192/ 45 112/134 62/168 96/150 154/ 86 209/ 37 58/184 106/130
N 0/HR 1/1 1/6 1/7 1/11 1/3 1/9 1/1 U IT 1/1 1/7 1/1 1/5 I/ 11
II MIN
0 0 MAX
U 3 0 MEAN
N • STOV
0 N
0/HR
R N MIN
C 0 MAX
u 3 N MEAN
N 0 STOV
D 0 N
M 0/HR
R MIN
0 A 0 MAX
U L 0 MEAN
N L M STDV
0 N
0/HR
R N MIN 28.5 66 27 7.9 7. T 26.5 0.040 0.006 0.117 0.116 1.549 20 6.0 0 0.0
0*0 MAX 37.5 78 IS 9.1 10.0 28.9 0.045 0.007 0.164 0.164 2.000 37 7.0 0 0.0
U L N MEAN 33.0 72 11 8.5 8.1 27.7 0.942 0.006 0.140 0.139 1.774 29 6.5 0 0.0
N L 0 STDV 6.36 8.5 5.7 0.85 1.63 1.70 0.0035 0.0007 0.0332 0.0339 0.3189 12.0 0.71 O.O 0.00
D 0 N 170/137 187/344 217/398 388/ 30 3S1/ 84 581/ 47 288/415 158/486 277/385 521/123 606/ 80 208/417 327/325
N 0/HR 2/ 34 2/114 2/121 2/323 2/29) 2/112 II 19 2/ 97 2/ 80 II 98 2/ 96 2/117 2/ 90
-------�
GfNUS:CYNATOPlEURA
CHLA
TURB SECCHI
PARTIAL DEPTH VALUES
TEMP TOTALP ORTH9P N02N03
KJEL »LK
CONC PEtC
«
0
U 1
N
0
o
C
U 1
N
0
R
0
U 2
N
O
B
O
U 2
N
0
a
C
U 3
N
0
B
n
U 3
*
0
a
a *
U L
N L
0
n
C *
U L
N L
D
0
C
r
N
C
N
0
C
C
0
C
C
N
a
s
n
c
C
•J
c
r
•1
0
•«
n
C
r
1
r
C
•1
a
N
o
c
c
HIM
• AX
MEAM
STOW
M
P/W4
H1N
MAX
MEAN
STPV
N
a/to
MIN
MAX
MEAN
STOV
«
C/MR
••IN
NIX
MEAN
STOV
N
0/W4
MIN
"«X
•SAN
STOV
N
C/WR
MIN
•AX
«EA«4
STOV
N
0/WP
HIM
1AX
MEAN
STOV
N
O/MR
MIN
MAX
MEAN
STDV
N
0/HR
8.3
100.4
16.0
33.61
lilt 1
7/111
0.3
355.6
20. 5
41.56
O/ 0
2*0/247
11.3
105.3
62.9
42 .5 5
lie/ is
4/110
1.4
595.0
34.0
62.81
O/ 0
243/247
46.2
66.5
16.3
14.35
ill/ 19
2/ 17
0.8
241.4
22.9
34.26
O/ 0
245/247
8.3
105.3
47.4
34.70
319/ 36
13/395
0.3
595.0
25.8
48.06
O/ 0
T28/741
6 5 7.6 8.2 12.3 0.071 0.010
66 57 8.4 12.2 It. 3 O.212 O.O6O
38 25 8.1 9.6 13.9 O.133 0.328
34.9 17.1 0.26 1.25 1.52 0.0494 0.0198
O/ 44 2/ 61 72/ 45 64/ 7 41/118 144/ 27 1O9/ 17
5/143 7/186 7/132 7/174 77 89 7/ 78 7/103
8 2 5.3 0.7 6.8 0.004 0.001
100 252 10.6 19.2 28.9 1.719 1.209
71 44 7.9 9.0 17.6 0.122 0.058
19.5 36.4 0.73 2.04 5.63 0.2346 0.1665
1/00/0 0/0 O/ O 0/0 0/0 0/0
182/186 242/249 24Z/249 238/245 241/248 242/249 242/249
14 16 7.5 4.3 23.8 O.O41 0.009
79 34 8.7 8.5 25.5 O.183 O.O29
42 24 8.3 6.6 24.6 0.124 O.O16
32.8 8.6 0.55 1.77 0.70 0.0604 O.OO87
8/126 23/138 80/ 22 9/ 34 21/158 1I3/ 39 105/ 56
4/103 4/ 80 4/145 4/203 4/ 67 4/ 95 4/ 86
4 1 4.1 3.0 17.3 0.004 0.001
121 222 10.6 IT. 8 32.2 2.559 1.191
73 49 7.8 T.O 26.6 0.135 0.054
23.5 35.9 0.89 1.99 2.35 0.2834 0.1490
0/0 0/9 0/0 0/0 0/0 0/0 O/ O
233/237 237/241 243/247 242/246 242/246 243/247 243/Z47
23 12 8.4 9.5 12.6 0.215 0.04O
32 12 8.8 9.6 15.7 0.369 0.105
28 12 8.6 9.5 14.1 0.291 0.072
6.4 0.0 0.28 0.07 2.19 0.1O88 O.O459
12/231 7/233 199/ 12 224/ 12 1/230 216/ 18 183/ 23
2/8 2/6 2/ 34 2/ 5 2/ 15 2/ 12 2/ 39
1 6 4.7 1.6 9.0 0.004 0.001
100 185 10.3 13.5 29.6 4.549 2.009
74 51 T.6 7.3 20.5 0.153 0.070
22.7 34.9 0.84 1.60 3.21 0.4105 0.2096
0/00/0 0/0 0/0 0/0 0/0 0/0
219/221 244/246 243/245 239/241 244/246 244/246 243/245
6 5 7.5 4.3 12.3 O.O41 0.009
?6 57 8.8 12.2 25.5 0.369 0.105
37 • 22 8.2 8.7 17.2 0.155 0.031
29.0 13.6 0.39 1.89 5.30 0.0826 O.O274
5/206 3/196 24S/ 49 26/ 15 42/207 294/ 55 2T5/ 65
11/434 13/537 13/447 13/691 13/491 13/393 13/401
1 1 4.1 0.7 6.8 0.004 0.001
121 252 10.6 19.2 32.2 4.549 2.O09
73 48 T.7 7.8 21.6 0.137 0.060
22.2 35.8 0.83 2.07 5. 47 0.3183 0.1768
0/00/0 O/ 0 0/0 0/0 0/0 0/0
634/645 723/736 728/741 719/732 727/740 729/742 728/741
0.107
3.899
1.733
1.8765
S2/ 12
7/185
0.024
9.745
0.845
1.4595
O/ 0
242/249
0.059
2.099
0.755
0.9256
3I/ 14
4/202
0.025
6.857
0.489
0.8843
O/ 0
243/247
0.234
0.909
0.571
0.4772
164/ 30
2/ 52
0.017
4.469
0.340
0.5487
O/ 0
244/246
0.059
3.899
1.253
1.5127
128/ 17
13/597
0.017
9.745
0.557
1.0538
O/ 0
729/742
0.046
0.369
0.132
0.1111
34/ 8
7/207
0.022
0.635
0.106
0.0950
O/ 0
242/249
0.087
0.376
0.195
0.1266
102/ 6
4/139
0.034
0.719
0.118
0.0868
O/ 0
243/247
0.064
O.071
0.067
O.0049
96/123
2/27
0.020
3.024
0.123
0.2240
O/ 0
244/246
0.046
0.376
O.141
0.1101
97/ 22
19/633
0.020
3.024
0.116
0.1493
O/ 0
729/742
0.418
2.611
1.119
0.6955
78/ 9
7/162
0.199
4.699
0.787
0.6968
01 0
242/249
0.699
2.615
1. 756
0.8928
96/ 20
4/131
0.215
7.149
1.208
1.0798
01 0
243/247
1.699
1.974
1.836
0.1944
20S/ 29
2/ 12
0.199
8.199
1.112
1.0595
O/ 0
244/246
0.418
2.615
1.425
0.7508
164/ 48
13/530
0.199
8.199
1.036
0.9775
O/ 0
729/742
11
199
153
70.6
35/ 15
7/199
10
248
68
65.9
O/ 0
242/249
62
160
105
47.3
142/ 30
4/ 75
10
334
73
69.1
O/ 0
243/247
208
237
223
20.5
233V 5
2/ 8
10
291
72
62.9
Of 0
244/246
11
237
149
68.1
74/ 19
13/649
10
314
71
69.9
O/ 0
729/742
1.0
44 .O
17.1
18.20
7/ 28
7/214
0.0
142.0
18.7
25.34
O/ 0
242/249
1.0
54.0
16.0
25.42
12/ 15
4/220
0.0
210.0
14.0
23.79
O/ 0
243/247
1.0
3.0
2.0
1.41
13/153
2/ 80
0.0
90.0
9.7
14.92
O/ 0
244/246
I.O
54.0
14.5
18.92
32 / 45
13/665
0.0
210.0
14.1
22.10
O/ 0
729/742
0
152
24
56.8
0
0
0
0.0
0
0
0
O.O
0
0
0
O.O
0
3
O
0.0
0
0
0
0.0
o
152
13
42. O
O
a
0
0.0
O.O
0.3
0.1
0.11
0.0
0.0
0.0
0.00
0.0
0.3
O.O
0.00
0.0
0.0
O.O
0.00
0.9
0.0
0.0
0.00
0.0
0.0
O.O
o. oo
0.0
0.3
0.0
O.09
O.O
0.0
O.O
0.00
-------�
GENUS ICVNATOPIEU*A
PARTIAL DEPTH VALUES
CW.A
TURB S tCC Ml
00
TEKP TOTAIP ORTnOP N02N03
KJEL »t«
H/f
CONC
•
0 0
U I 0
H •
0
H N
c o
U 1 N
1 0
0 0
1
R
0 D
U I O
N N
D
« N
0 0
U 2 N
N D
0 0
H
R
0 0
u 3 o
H M
0
R N
0 0
U 1 N
N 0
0 O
M
II
0*0
U I. C
" L "
D
It «
C A 0
U 1 N
MID
0 0
H
UN
MAX
MEAN
STOV
N
0/WP
MIN
MAX
«AH
STDV
N
O/MR
MIN
MAX
P>EAN
STOV
N
C/NR
Mtl
MAX
MEAN
STDV
M
O/HR
M|N
•MI
MEAN
STOV
H
C/WR
NIN
MAX
DEAN
STDV
H
o/wn
HIN
MAX
MEAN
STOV
N
C/M
HIM
MAX
•FAN
o/tm
8.3
100.9
36.0
33.61
12V 9
T/lll
11.1
10$. 1
62.9
42. 55
lie/ 19
4mo
44.2
66.5
16.3
14.35
21 1/ 19
2/17
1.3
105.3
41.*
3*.73
31 0/ 36
13/141
6
86
IB
14.9
a/ 44
3/143
14
T9
42
32. S
8/126
4/10 J
23
11
21
6.4
12/201
2/ a
6
96
37
n.y
9/Z06
11/414
5
57
25
IT. I
2/ 61
7/186
16
34
24
8.6
23/138
*/ 8O
12
12
12
0.0
T/iii
2/ 6
*
97
22
I3.«
3/196
1J/11T
7.6
8.4
8.1
0.26
72/ 4S
7/132
7.S
a. 7
8.3
o.»
ao/ 22
4/145
8.4
a.e
8.6
0.28
W9/ 12
it 34
7.S
8.8
a. 2
9.19
Z4«/ 49
11/441
a. z
12.2
V.6
1.25
64/ 7
7/174
4.3
B.5
6.6
1.17
9/ 34
4/203
9.9
4.6
9.1
0.07
224/ 12
if 9
4.3
17.2
».T
1.S9
26/ 15
13/691
12.3
16.3
13.9
1.52
41/118
T/ 89
23.8
2S.5
24.6
0.70
21/158
4/ 67
12.6
«.t
14.1
2.19
1/230
2/ 15
12.3
25.5
1T.Z
5.3J
42/207
13/491
0.071
0.212
0. 133
0.0494
144/ 27
T/ 78
O.«41
0.183
O.IZ4
0.0*04
113/ 39
4/ 95
0.215
0.164
0.241
0.1088
2i6/ ia
2/ 12
3,041
0.364
0,195
0. 0826
244/ 55
13/J9J
o.oio
a. 06 a
0.02B
0.0199
I09/ 37
7/103
0.009
0.024
a.oit
0.0087
105/ 54
4/ 86
0.040
O.\05
0.072
0.0454
18)/ 23
2/ 39
J.009
0.105
0.0 Jl
O.OZ74
275/ «1
13/401
0.107
3.894
1.733
1.8165
52/ 12
7/185
0.059
2.099
0.755
0.9256
3 1/ 14
4/202
0.234
0.409
3.571
0.4772
164/ 30
2/ 92
0.059
3.899
1.253
1.51Z7
128/ 17
13/597
0.046
0.369
0.132
0.1111
34/ 8
7/207
0.087
0.376
0.145
0.1266
132/ 6
4/134
0.064
0.071
0.067
0.0049
46/123
Zt 27
0.046
0.376
0.141
3.1101
87/ 22
13/613
0.418
2.611
1.119
3.64*5
70S 4
7/1*2
0.699
2.415
1.756
0.0428
96/ 20
4/131
1.699
1.974
1.816
0.1944
20V 24
2/ 12
a. 4ia
2.615
1.415
0.7508
164/ 48
13/530
U
199
153
TO. 6
35/ 15
T/l«4
62
160
1O5
47.3
142/ 33
4/ 75
208
237
2Z3
20.5
213/ 5
21 8
11
237
144
68.1
74/ 14
13/649
1,0
44,0
1T,1
18.20
11 28
7/214
1.0
54.0
16,0
25.42
12/ IS
4/220
1.0
3.0
2.0
1.41
13/153
2/ 80
1.0
54.0
14.3
10.92
32 / 45
13/669
0
152
24
S6.8
0
0
0
o.o
0
o
0
J.O
0
152
11
42.0
0.0
0.3
O.I
O.ll
0.0
0.0
0.0
0.00
0.0
0.0
0.0
0.30
0.3
0.3
4.0
C.09
-------�
GENUS: CVMBELH
PARTIAL DEPTH VALUES
CHLA
TUR9 «CCMI
00
TEMP TQTALP OUTHOP N02N03
KJEL »LK
N/P
CONC PERC
«
p 9
0 I r
N C
D
R N
0 0
U 1 N
N 0
0 C
C
p
0 0
U I C
N C
0
» N
0 0
U 2 N
N 0
D C
C
a
P 0
use
1 C
0
R N
P 0
U 3 N
N a
D C
c
R
0*0
U I C
N L C
0
« N
0 A 0
U L N
N L 0
0 C
C
UN
»»X
MEAN
STOV
N
0/WR
NIN
HAX
»S»H
STOV
N
0/Uft
"IN
MAX
MEAN
STOV
N
0/H4
NIN
HAX
NEA1
STOV
N
C/MR
NIN
««x
• CAN
STDV
N
0/W4
M1N
*>«X
MEAN
STDV
N
CVHR
NIN
"AX
MEAN
STOV
N
0/MR
HIM
MAX
MEAN
STDV
N
0/MR
0.3
2*7.1
16.0
31.25
Of 2
77/2*5
0.5
355.6
23.2
*5.16
I/ 0
170/2*6
2.3
170. S
20.5
24.6*
5/ 5
* 2/237
1.*
595.0
37.3
67.06
}/ 0
205/2*7
0.8
2*1.*
24.8
43. 96
Of 0
51/2*7
0.8
237.0
22.8
31.38
Of 1
196/2*6
0.3
2*7.1
19.8
35. ZO
Of 6
170/735
0.5
59S.O
28.1
50.97
If 0
571/7*0
6 2 6.2 5.2 8.5 0.005
100 252 9.7 12.8 28.9 0.716
68 *3 7.8 9.3 15.7 0.086
23.7 *1.8 0.58 1.58 *.99 0.0972
0/00/0 2/2 10/ 2 2/0 2/8
58/187 77/2*9 77/2*5 77/233 77/2*6 77/239
8 3 5.3 0.7 6.8 0.00*
100 172 10.6 19.2 28.7 1.719
72 «* 7.9 8.8 18.3 0.139
19.0 33.5 0.78 2.18 5.68 0.269*
1/0 1/2 0/0 0/0 0/2 0/0
129/186 172/2*6 172/2*9 168/2*5 171/2*6 172/2*9
1* 16 S.7 4.3 21.2 O.308
103 123 8.9 11.7 32.2 0.605
7* *7 7.7 7.1 26.0 0.069
21.* 25.1 O.T6 l.*6 2.18 0.1032
»f 2 23/ 9 5/ 16 9/6 3/0 6/ 1*
41/227 *0/209 *2/226 *2/231 42/243 * 2/22 7
* I *. 1 3.0 17.3 0.00*
121 222 10.6 17.8 31.5 2.559
72 *9 7.8 7.0 26.7 0.1*8
2*. 5 37.6 0.91 2.07 2.36 0.3035
0/00/0 O/ 0 9/0 0/1 0/0
196/237 201/2*1 205/247 20*/2*6 2O*/2*5 205/2*7
1 6 5.9 1.6 12.6 0.009
97 144 9.2 13.5 27.2 1.329
72 52 7.7 7.7 19.3 0.119
26.0 33.0 0.77 I.9O 3.28 0.226*
0/2 0/6 2/5 0/0 1/3 1O/ 5
47/219 51/240 50/238 49/2*1 51/242 50/231
3 7 4.7 1.9 9.0 0.00*
100 185 10.3 11.4 29.6 4.549
74 50 7.6 7.2 20.7 0.164
22.3 35.5 0.85 1.52 3.18 0.4438
1/0 1/0 0/0 1/2 0/0 0/0
174/220 195/245 195/245 192/238 195/246 196/246
1 . 2 5.7 1.6 8.5 0.005
103 252 9.7 13.5 32.2 1.329
71 47 T.7 8.3 19.3 0.091
23.9 35.8 0.69 1.91 5.69 0.1469
0/2 1/0 9/8 1/7 2/0 5/9
146/643 168/735 169/724 168/724 170/738 169/728
3 1 4.1 0.7 6.8 0.00*
121 222 10.6 19.2 31.5 4.549
73 48 T.8 7.6 22.1 0.151
22.4 35.7 0.87 2.10 5.27 0.3490
1/00/1 0/0 0/0 0/1 0/0
499/644 568/735 572/7*1 564/732 570/739 573/742
0.001
0.541
0.029
0.0651
O/ 7
77/242
0.001
1.209
O.069
0.1917
Of 0
172/249
0.002
0.403
0.024
0.0632
3/ 9
42/235
0.001
1.191
0.059
0.1592
Of 0
205/247
O.003
0.647
0.052
0.1402
21 4
50/239
0.001
2.009
0.074
0.2231
Of 0
195/245
0.001
0.8*7
0.034
0.0936
O/ 12
169/729
O.O01
2.009
0.067
0.1924
01 0
572/T41
0.046
9.7*5
0.876
l.*B*8
8/ 0
77/2*1
0.02*
8.089
O.867
l.*7S6
O/ 1
172/2*8
0.027
3.151
0.343
0.5193
I/ 7
42/239
0.025
6.857
0.524
0.939O
Of 0
205/247
0.02*
1.375
0.295
O.3*55
6/ I*
50/226
0.017
*.*69
0.354
3.5884
O/ 0
196/2*6
0.024
9.7*5
0.572
1.08*6
6/ 0
169/T36
0.017
8.089
0.569
1.0614
O/ 1
573/7*1
0.022
0.55*
0.101
0.0791
Of 1
77/248
0.024
0.635
0.109
0.1018
I/ 0
172/2*8
0.036
0.*84
0.117
0.0842
I/ 3
42/243
0.034
0.719
0.120
0.0887
O/ 0
205/247
0.020
0.979
0.126
O.1817
Of 1
50/245
0.032
3.024
0.121
0.2330
2/ 0
196/244
0.020
0.979
0.113
0.1196
O/ 1
169/741
0.024
3.024
0.117
0.1563
2/ 0
573/740
0.207
2.611
0.669
0.4907
I/ 9
77/239
0.199
4.699
0.853
0.7669
Of 0
172/249
0.265
2.649
0.833
0.5397
3/ 19
42/225
0.215
7.149
1.295
1.1427
a/ o
205/247
0.204
6.000
0.999
0.9578
I/ I
50/244
0.199
8.199
1.1*9
1.0813
Of 0
196/246
0.204
6.000
0.807
0.6837
2/ 4
169/736
0.199
8.199
1.112
1.0358
Of 0
573/742
10
248
75
70.4
O/ 0
77/249
10
240
68
66.0
Of 1
172/248
10
334
77
75.5
Of 0
42/247
10
293
73
67.6
Of 1
205/246
10
241
86
T1.5
O/ 3
50/243
10
291
69
61.8
O/ 0
196/246
10
334
79
T1.7
O/ 0
169/742
10
293
TO
65.1
O/ 1
573/741
1.0
112.0
18.7
22.67
T/ 4
77/238
O.O
142.0
18.6
26.23
O/ 0
172/249
1.0
101.0
12.3
19.37
I2/ 4
42/231
0.0
210.0
14.4
24.59
O/ 0
205/247
0.0
9O.O
10.5
16.14
Of 0
50/2*6
0.0
88.0
9.4
14.57
O/ 1
196/245
0.0
112.0
14.7
20.35
O/ 7
169/735
0.0
210.0
13.9
22.53
a/ o
571/T42
0
81
5
13.3
0
0
o
0.0
0
148
9
26.2
0
0
0
0.0
0
23
2
5.4
0
0
0
0.0
0
148
5
16.2
0
0
0
0.0
0.0
2.6
O.I
0.46
0.0
0.0
0.0
O.OO
0.0
3.3
0.4
0.86
0.0
0.0
0.0
0.00
0.0
t.O
O.I
0.21
0.0
0.0
0.0
0.30
0.0
3.3
0.2
0.55
0.0
0.0
o.o
0.00
-------�
GENUSlCYPEElLA PARTIAL DEPTH VALUES
CML» TURB SECCHI PH 00 TE«P TOTAL? ClfHOP NO2NQ3 NH3 KJEL ALK N/P CONC
R
0 0
U 1 0
N N
O
II N
0 O
U 1 N
N O
0 0
N
R
O 9
u z a
N M
D
« N
C 0
U 2 N
N 0
D 0
H
0 0
U 3 0
N M
D
R N
0 0
U 9 N
N D
0 0
q
0*0
U L 0
H L t
D
R N
0*0
U L t
X I 0
o a
M
MIN
MAX
MEAN
STOV
0/MR
MIN
MEAN
STOV
C/WR
MIN
MAX
MEAN
STOV
N
O/UR
MIN
MAX
MEAN
STOV
0/HR
KIN
MAX
MEAN
STDV
N
0/M*
PtN
M«X
MEAN
STOV
0/WR
(•in
HA>
NEAN
STOV
N
0/WR
MIN
MAX
MEAN
STCV
0/V*
0.3
247.1
16. a
31.25
a/ 2
77/245
2.3
170.9
20.9
24.68
V 9
42/237
0.8
241.4
24.8
O/ 9
SI/ 247
0.3
247.1
39.29
O/ 6
170/73 S
6
100
68
23.7
a/ o
58/187
14
103
74
21.4
8/ Z
41/227
1
97
72
26. «
O/ 2
47/219
1
103
71
23.9
O/ 2
146/643
2
252
43
41.8
O/ 0
77/249
16
1Z3
47
29.1
23/ 9
40/299
,
144
12
33.0
O/ 6
SI/240
2
292
47
39.8
I/ 0
168/735
6.2
9.7
7.8
0.98
2/ 2
77/249
S.7
8.9
T.T
0.76
H 16
42/Z26
9.9
9.2
T.T
0.7T
21 9
50/218
9.1
9.7
7.T
0.69
9/ 8
169/724
9.2
12.8
9.3
1.58
10/ Z
77/233
4.3
11.7
7.1
1.46
9/ 6
42/231
1.6
13.9
T.7
1.93
O/ 0
49/241
1.6
13.9
8.3
1.91
I/ 7
168/724
8.3
26.9
15.7
4.99
2/ 0
77/246
21.2
32.2
26. 3
2.18
3/ 0
42/243
12.6
27.2
19.3
3.28
It 3
SI/242
8.9
32.2
19.3
3.69
2/ 3
170/738
O.OOS
0.716
O.O86
9.0972
2/ 8
77/239
0.008
0.609
0.069
0.1032
6/ 14
42/227
0.039
1.329
0.119
9.2264
10/ t
SO/23L
O.JJS
1.329
0.091
9.1489
S/ 9
169/728
0.001
O.S4I
0.029
0.0651
O/ 7
77/242
0.002
0.403
0.024
0.0632
3/ 9
42/233
0.093
0.847
O.OS2
3.1402
2/ 4
SO/239
0.001
0.847
0.034
0.093*
)/ 12
169/729
0.046
9.T49
0.876
1.4848
8/ 0
77/Z41
0.027
3.191
0.343
0.3193
I/ 7
42/239
0.924
1.379
O.Z9S
3.3499
6/ 14
SO/226
0.024
9.745
0.572
1.9846
6/ 3
169/736
0.022
0.934
0.101
0.3791
9/ I
77/248
0.036
0.484
0.117
0.0842
I/ 3
42/243
0.020
0.979
0.126
3.1817
O/ 1
SO/249
0.020
0.979
0.113
0.1196
O/ 1
169/741
0.207
2.611
0.669
0.4907
I/ 9
77/239
0.269
2.649
0.833
0.9397
3/ 19
42/229
9.234
6.000
0.999
0.9978
I/ 1
SO/244
0.204
6.300
0.807
0.6837
V 4
169/736
10
248
73
70.4
o/ a
77/249
10
334
77
79.9
O/ 0
42/247
10
241
86
71.9
O/ 3
50/243
13
334
79
71.7
C/ 3
169/742
1.0
112.0
18.7
22.67
11 4
71/238
1.0
101.0
12.3
19.37
1Z/ 4
42/231
9.0
90.0
10.*
16.14
O/ 0
50/24*
0.0
112.3
14.1
20.35
O/ T
169/739
0
81
3
13.3
0
148
9
26.2
9
23
2
9.4
0
148
9
16.2
0.0
Z.o
0.1
0.46
0.0
3.3
0.4
0.8*
0.0
1.0
O.I
0.21
0.0
3.3
C.2
0.»9
-------�
oo
CENUSrCVSTOOINIUM
CNLA
TURB SECC«I
00
TEMP
PARTIAL DEPTH VALUES
TOT ALP ORTHOP NO2N03
KJEL
ALK
N/P
CONC PERC
• H|N
0 0 M»X
U 1 C MEAN
N C STOV
0 N
0/MR
R N MIN
C 0 MAX
U 1 N WEAN
N 0 STOV
0 C N
C 0/KR
• MIN
0 0 I>AX
u 2 c MEAN
N c STOV
D N
0/MR
R N MIN
0 0 »AX
U 2 N MEAN
N O STOV
0 C N
a MIN
f 0 MAX
U3C MEAN
N C STOV
0 N
C/MR
R N NIN
C 0 MAX
u 3 N MEAN
N 0 STOV
0 C "
> KIN
C • 0 MAX
U 1 C "FAN
N L C STOV
n *
a N MIN
0*0 MAX
U L N MEAN
t, L 0 STOV
0 C *
C 0/MR
0.3
395.6
21.0
41.40
O/ 0
2*7/247
1.4
599.0
34.4
62.58
O/ 0
247/2*7
4.9
4.9
4.9
0.00
90/196
I/ 1
0.8
241.4
23.3
34.32
o/ a
246/247
4.9
4.9
4.9
0.00
192/584
I/ 5
0.3
999.0
26.2
47.99
O/ 0
740/7*1
6 2
100 252
71 4*
20.6 36.2
0/0 O/ 0
187/187 2*9/2*9
4 1
121 222
72 49
24.0 35.8
0/0 0/3
237/237 2*1/241
79 46
79 46
79 46
0.0 0.0
88/128 1*5/ 97
1/5 1/4
1 6
100 189
74 90
23.1 35.0
o/o o/o
220/221 245/2*6
79 46
79 46
79 46
0. 0 0. 0
301/333 *69/264
I/ 11 I/ 7
1 1
121 252
72 48
22.8 35.7
o/o o/o
644/645 735/736
9.3
10.6
7.9
0.73
O/ 0
2*9/2*9
4. 1
10.6
7.8
0.89
Of 0
2*7/247
6.9
6.9
6.9
0.00
56/181
I/ 8
4.7
10.3
7.6
0.84
O/ 0
2*4/245
6.9
6.9
6.9
0.00
110/614
I/ 17
4.1
10.6
7.8
0.83
O/ 0
740/741
0.7
19.2
9.O
2.02
O/ 3
245/245
3.0
17.8
7.0
1.98
O/ 0
246/2*6
8.2
8.2
8.2
0.00
179/ 53
I/ 9
1.6
13.5
7.3
1.61
31 0
240/2*1
8.2
8.2
8.2
0.00
440/275
I/ 17
0.7
19.2
7.8
2.07
O/ 0
731/732
6.8 0.004
28.9 1.719
17.5 0.123
5.59 0.2314
0/0 0/3
248/248 249/2*9
17.3 0.004
32.2 2.559
26.6 0.134
2.35 0.2811
0/0 0/0
246/246 247/247
16.6 0.030
16.6 O.030
16.6 0.029
0.00 O.OOOO
23/222 72/170
I/ 1 1/4
9.0 0.004
29.6 4.549
20.4 0.195
3.24 0.4098
0/0 O/O
245/2*6 245/246
16.6 0.03O
16.6 0.030
16.6 0.029
0.00 0.0000
155/581 222/911
1/4 1/9
6.8 0.004
32.2 4.949
21.9 0.137
9.49 0.3199
0/0 0/0
739/740 741/742
0.001
1.209
0.097
0.1642
a/ o
249/249
O.OO1
1.191
0.093
0.1479
01 0
247/247
0.023
0.023
0.023
0.0000
194/ 89
I/ 2
0.001
2.039
0.070
0.2092
O/ 0
244/249
0.023
0.023
0.023
0.0000
489/244
I/ 8
0.001
2.009
0.060
0.1794
O/ 0
740/741
0.024
9.7*9
0.870
1.4754
Of 0
2*9/2*9
0.025
6.857
0.493
0.8836
O/ 0
2*7/247
0.058
0.098
0.058
O.OOOO
79/165
I/ 2
0.017
4.469
0.343
0.5485
Of 0
245/246
0.058
0.058
0.058
0.0000
125/614
!/ 3
0.017
9.745
0.570
1.0666
O/ 0
741/742
0.022 0.199
0.635 4.699
0.107 0.796
0.0953 0.6975
0/0 0/0
249/249 249/249
0.034 0.215
0.719 7.149
0.120 1.217
0.0878 1.0778
0/0 0/0
247/247 247/247
0.061 0.317
0.061 0.317
0.060 0.316
O.OOOO O.OOOO
91/153 29/220
1/2 1/1
0.020 0.199
3.024 8. 199
0.123 1.122
0.2236 1.0581
0/0 0/0
245/246 249/246
O.061 0.317
0.061 0.317
0.060 0.316
0.0000 0.0000
209/926 72/669
1/71/1
0.020 0.199
3.024 8. 199
0.116 1.044
0.1488 0.9752
O/' O O/O
741/742 741/742
10
248
70
67.3
O/ 0
249/249
10
334
73
68.9
Of 0
247/2*7
18
18
18
0.0
91/187
If 8
10
291
73
64.1
Of 0
249/246
18
18
18
0.0
178/947
If 17
10
334
72
66. T
O/ 0
741/742
0.0
142.0
18.6
29.14
Of 0
249/249
0.0
210.0
14.1
23.76
O/ 0
247/247
4.0
4.O
4.0
0.00
93/130
I/ 23
0.0
90.0
9.6
14.90
O/ 0
245/246
4.0
4.0
4.0
0.00
208/478
It 96
0.0
210.0
14.1
22.05
O/ 0
741/742
0
0
0
0.0
0
0
0
o.o
o
oooo
0
0
o
0.0
0
0
0
0.0
0
0
0
o.o
o.o
0.0
0.0
0.00
0.0
0.0
o.o
0.00
0.0
0.0
0.3
o.oo
0.0
o.o
0.0
0.00
0.0
0.0
o.o
0.00
0.0
0.0
0.0
0.00
-------�
6ENUS:CYSTOOINIim PARTIAL DEPTH VALUES
CHLA TUBS SECCH1 PH 00 TE»P TOTALP OUTHQP N02N03 NH3 KJEL ALK N/P CCNC PERC
R
0 0
U 1 O
N N
0
• N
C 0
U 1 N
N 0
0 0
M
•
0 0
U 2 0
N •
0
R N
C 0
U 2 N
N 0
9 0
N
R
0 D
030
N N
0
R N
e o
O 3 N
N 0
o o
•4
•
0 A 0
U L 0
N I H
0
H N
O A 0
U L N
N 1 D
0 1
>4
MIN
MIX
WEAN
STOV
N
0/WR
MIN
M«X
MEAN
STOV
N
0/WR
MIN
WAX
MFAN
STOV
N
0/HR
MIN
MAX
MEAN
STOV
N
0/hR
MIN
MAX
MfAN
STOV
N
0/WR
MIN
MAX
MEAN
STOV
N
0/u"
H|N
PAX
MEAN
STOV
N
C/MR
MIN
MAX
MEAN
STDV
N
0/m
4.9 79 «6 6.9 8.2 16.6 0.030 0.023 0.058 0.061 0.317 IB 4.0
4.9 T« 46 6.9 8.2 16.6 0.030 3.023 0.058 9.061 O.31T 18 4.0
»., T9 »6 6.9 8.2 16.6 0.029 0.023 3.358 0.360 0.316 18 4.0
0 00 O.O 0.0 0.00 0.00 0.00 0.0000 0.0000 0.0000 0.0000 0.0090 0.0 0.00
SJ/196 88/128 1»S/ 97 56/181 1T9/ 53 23/222 T2/ITO IS*/ 89 T9/165 91/153 25/220 51/187 93/130
1/1 1/5 1/4 1/8 1/9 I/ 1 1/4 1/2 1/2 1/2 1/1 I/ B I/ 23
4.9 79 46 6.9 8.2 16.6 0.030 0.023 0.058 0.061 0.317 18 4.0
49 79 46 6.9 8.2 16.6 0.313 3.023 3.358 9.061 0.317 18 4.0
4.9 79 46 6.9 8.2 16.6 0.029 0.023 O.OS8 0.060 0.316 18 4.0
0.00 0.0 0.0 0.00 0.00 0.00 0.0000 0.0000 0.0000 0.0000 0.0933 3.3 0.03
152/584 J31/333 465/264 113/614 443/275 155/581 222/511 4B9/244 125/614 209/526 72/669 178/547 208/478
I/ 5 I/ 11 I/ T I/ 17 I/ 17 1/4 1/9 1/8 I/ 1 1/7 I/ 1 I/ IT I/ 56
0 0.0
0 0.0
0 3.0
0.0 9.30
0 0.0
0 0.0
a o.o
3.0 0.00
-------� |