U.S. ENVIRONMENTAL PROTECTION AGENCY
NATIONAL EUTROPHICATION SURVEY
WORKING PAPER SERIES
DISTRIBUTION OF PHYTOPLANKTON
IN SOUTH CAROLINA LAKES
WORKING PAPER NO. 690
CORVALLIS ENVIRONMENTAL RESEARCH LABORATORY - CORVALLIS, OREGON
and
ENVIRONMENTAL MONITORING & SUPPORT LABORATORY - LAS VEGAS, NEVADA
•&G.P.O. 699-440
-------�
-------�
DISTRIBUTION OF PHYTOPLANKTON IN SOUTH CAROLINA LAKES
by
Stephen C. Hern1, J. W. Hilgert2, V. W. Lambou1, F. A. Morris2,
R. W. Thomas1, M. K. Morris2, L. R. Williams1,
W. D. Taylor1, and F. A. Hiatt2.
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. 690
National Eutrophication Survey
Office of Research and Development
U.S. Environmental Protection Agency
March 1977
-------�
ii
Table of Contents
Foreword 111
Introduction 1
Materlals and Methods 3
Lake and Site Selection 3
Sample Preparation 4
Examination 5
Quality Control 5
Results 6
Nygaard's Trophic State Indices 6
Palmer's Organic Pollution Indices 8
Species Diversity and Abundance Indices 9
Species Occurrence and Abundance 11
Literature Cited 12
Appendix: Summary of Phytopiankton Data 13
-------�
111
FOREWORD
The National Eutrophication Survey was initiated in 1972 in
response to an Administration commitment to investigate the nationwide
threat of accelerated eutrophication to freshwater lakes and reservoirs.
The Survey was designed to develop, in conjunction with State environmental
agencies, information on nutrient sources, concentrations, and
impact on selected freshwater lakes as a basis for formulating
comprehensive and coordinated national, regional, and State management
practices relating to point source discharge reduction and nonpoint
source pollution abatement in lake watersheds.
The Survey collected physical, chemical, and biological data
from 815 lakes and reservoirs throughout the contiguous United
States. To date, the Survey has yielded more than two million
data points. In-depth analyses are being made to advance the rationale
and data base for refinement of nutrient water quality criteria
for the Nation's freshwater lakes.
-------�
INTRODUCTION
The collection and analysis of phytoplankton data were Included
in the National Eutrophication Survey in an effort to determine
relationships between algal characteristics and trophic status
of individual lakes.
During spring, summer, and fall of 1973, the Survey sampled
250 lakes in 17 states. Over 700 algal species and varieties
were identified and enumerated from the 743 water samples examined.
This report presents the species and abundance of phytoplankton
in the 13 lakes sampled in the State of South Carolina (Table 1).
The Nygaard's Trophic State (Nygaard 1949), Palmer's Organic Pollution
(Palmer 1969), and species diversity and abundance indices are
also included.
-------�
Table 1. Lakes Sampled 1n the State of South Carolina
STORET # LAKE NAME
4503 Fishing Creek Reservoir
4504 Lake Greenwood
4505 Lake Hartwell
4506 Lake Marlon
4507 Lake Murray
4508 Lake Robinson
4510 Lake Wateree
4511 Lake Wylle (Lake Catawba)
4512 Lake Moultrle
4513 Lake Keowee
4514 Lake Secession
4515 Saluda Lake
4516 Lake William C. Bowen
COUNTY
Lancaster, Chester
Laurens, Greewood, Newberry
Anderson, Oconee, Plckens
(Franklin, Hart 1n GA)
Berkeley, Clarendon, Sumter,
Calhoun, Orangeburg
Lexington, Saluda, Rlchland,
Newberry
Darlington, Chesterfield
Kershaw, Fa1rf1eld, Lancaster
York (Gaston, Mecklenburg 1n NC)
Berkeley
Oconee, Plckens
Abbeville, Anderson
Greenville, Plckens
Spartanburg
-------�
MATERIALS AND METHODS
LAKE AND SITE SELECTION
Lakes and reservoirs Included 1n the Survey were selected through
discussions with State water pollution agency personnel and U.S.
Environmental Protection Agency Regional Offices (U.S. EPA 1975).
Screening and selection strongly emphasized lakes with actual or
potential accelerated eutrophlcation problems. As a result, the
selection was limited to lakes:
(1) Impacted by one or more municipal sewage treatment plant
outfalls either directly Into the lake or by discharge to an
Inlet tributary within approximately 40 kilometers of the
lake;
(2) 40 hectares or larger 1n size; and
(3) With a mean hydraulic retention time of at least 30 days.
Specific selection criteria were waived for some lakes of particular
State Interest.
«
Sampling sites for a lake were selected based on available
Information on lake morphometry, potential major sources of nutrient
Input, and on-s1te judgment of the field Hmnologlst (U.S. EPA 1975).
Primary sampling sites were chosen to reflect the deepest portion of
each major basin in a test lake. Where many basins were present,
selection was guided by nutrient source Information on hand. At each
sampling site, a depth-Integrated phytoplankton sample was taken.
Depth-integrated samples were a uniform mixture of water from the
surface to a depth of 15 feet (4.6 meters) or from the surface to the
lower limit of the photic zone representing 1 percent of the incident
light, whichever was greater. If the depth at the sampling site was
less than 15 feet (4.6 meters), the sample was taken from just off the
bottom to the surface. Normally, a lake was sampled three times in 1
year, providing information on spring, summer, and fall conditions.
-------�
SAMPLE PREPARATION
Four mill inters (ml) of Ac1d-LugoTs solution (Prescott 1970)
were added to each 130-ml sample from each site at the time of
collection for preservation. The samples were shipped to the
Environmental Monitoring and Support Laboratory, Las Vegas, Nevada,
where equal volumes from each site were mixed to form two 130-ml
composite samples for a given lake. One composite sample was put Into
storage and the other was used for the examination.
Prior to examination, the composite samples were concentrated by
the settling method. Solids were allowed to settle for at least 24
hours prior to siphoning off the supernatant. The volume of the
removed supernatant and the volume of the remaining concentrate were
measured and concentrations determined. A small (8 ml) library
subsample of the concentrate was then taken. The remaining
concentrate was gently agitated to resuspend the plankton and poured
into a capped, graduated test tube. If a preliminary examination of a
sample Indicated the need for a more concentrated sample, the contents
of the test tube were further concentrated by repeating the settling
method. Final concentrations varied from 15 to 40 times the original.
Permanent slides were prepared from concentrated samples after
analysis was complete. A drop of superconcentrate from the bottom of
the test tube was placed 1n a ring of clear Karo Corn Syrup with
phenol (a few crystals of phenol were added to each 100 ml of syrup)
on a glass slide, thoroughly mixed, and topped with a coverglass.
After the syrup at the edges of the coverglass had hardened, the
excess was scraped away and the mount was sealed with clear fingernail
polish. Permanent diatom slides were prepared by drying sample
material on a coverglass, heating in a muffle furnace at 400 C for 45
minutes, and mounting 1n Hyrax. Finally, the mounts were sealed with
clear fingernail polish.
Backup samples, library samples, permanent sample slides, and
Hyrax-mounted diatom slides are being stored and maintained at the
U.S. EPA's Environmental Monitoring and Support Laboratory-Las Vegas.
-------�
EXAMINATION
The phytoplankton samples were examined with the aid of binocular
compound microscopes. A preliminary examination was performed to
precisely identify and 11st all forms encountered. The length of this
examination varied depending on the complexity of the sample. An
attempt was made to find and Identify all of the forms present 1n each
sample. Often forms were observed which could not be Identified to
species or to genus. Abbreviated descriptions were used to keep a
record of these forms (e.g., lunate cell, blue-green filament,
Navicula #1). Diatom slides were examined using a standard light
microscope. If greater resolution was essential to accurately
identify the diatoms, a phase-contrast microscope was used.
After the species list was compiled, phytoplankton were
enumerated using a Neubauer Counting Chamber with a 40x objective lens
and a lOx ocular lens. All forms within each field were counted. The
count was continued until a minimum of 100 fields had been viewed, or
until the dominant form had been observed a minimum of 100 times.
QUALITY CONTROL
Internal quality control checks on species identifications and
counts were performed on a regular basis between project phycologlsts
at the rate of 7 percent. Although an Individual had primary
responsibility for analyzing a sample, taxonomic problems were
discussed among the phycologlsts.
Additional quality control checks were performed on the Survey
samples by Dr. G. W. Prescott of the University of Montana at the rate
of 5 percent. Quality control checks were made on 75 percent of these
samples to verify species identifications while checks were made on
the remaining 25 percent of the samples to verify genus counts.
Presently, the agreement between quality control checks for species
identification and genus enumerations 1s satisfactory.
-------�
RESULTS
The Appendix summarizes all of the phytoplankton data collected
from the State by the Survey. It 1s organized by lake, Including an
alphabetical phytoplankton species 11st with concentrations for
Individual species given by sampling date. Results from the
application of several Indices are presented (Nygaard's Trophic State,
Palmer's Organic Pollution, and species diversity and abundance).
Each lake has been assigned a four-digit STORET number. [STORET
(STOrage and RETrieval) is the U.S. EPA's computer system which
processes and maintains water quality data.] The first two digits of
the STORET number identify the State; the last two digits Identify the
lake.
NYGAARD'S TROPHIC STATE INDICES
Five indices devised by Nygaard (1949) were proposed under the
assumption that certain algal groups are indicative of levels of
nutrient enrichment. These indices were calculated 1n order to aid 1n
determining the surveyed lakes' trophic status. As a general rule,
Cyanophyta, Euglenophyta, centric diatoms, and members of the
Chlorococcales are found 1n waters that are eutrophic (rich 1n
nutrients), while desmids and many pennate diatoms generally cannot
tolerate high nutrient levels and so are found in oligotrophic waters
(poor in nutrients).
In applying the indices to the Survey data, the number of taxa in
each major group was determined from the species list for each sample.
The ratios of these groups give numerical values which can be used as
a biological index of water richness. The five Indices and the ranges
of values established for Danish lakes by Nygaard for each trophic
state are presented 1n Table 2. The appropriate symbol, (E) eutrophic
and (0) oligotrophic, follows each calculated value in the tables in
the Appendix. A question mark (?) was entered in these tables when
the calculated value was within the range of both classifications.
-------�
Table 2. Nygaard's Trophic State Indices
adapted from HutcMnson (1967)
Index Calculation Ollgotrophic Eutrophic
Myxophycean Myxophyceae
Desmldeae
Chlorophycean Chlorococcales
besmi deae
Diatom Centric Diatoms
Pennate Diatoms
Euglenophyte Euglenophyta
Myxophyceae + Cnlorococcales
Compound Myxophyceae + Chlorococcales +
Centric Diatoms + Euglenophyta
0.0-0.4
0.0-0.7
0.0-0.3
0.0-0.2
0.0-1.0
0.1-3.0
0.2-9.0
0.0-1.75
0.0-1.0
1.2-25
Desmldeae
-------�
8
PALMER'S ORGANIC POLLUTION INDICES
Palmer (1969) analyzed reports from 165 authors and developed
algal pollution indices for use in rating water samples with high
organic pollution. Two lists of organic pollution-tolerant forms
were prepared, one containing 20 genera, the other, 20 species (Tables
3 and 4). Each form was assigned a pollution index number ranging
from 1 for moderately tolerant forms to 6 for extremely tolerant
forms. Palmer based the index numbers on occurrence records and/or
where emphasized by the authors as being especially tolerant of
organic pollution.
Table 3. Algal Genus Pollution Index (Palmer 1969)
Anaaystis
Ankistrodeamue
Chlamydomonas
Chlorella
Closterium
Cyalotella
Euglena
Gomphonema
Lepooinalis
Meloeira
Pollution
Index
1
2
4
3
1
1
5
1
1
1
Miaraetinium
Navicula
Nitzschia
Oscillatoria
Pandori.no.
Phacus
Phormidium
Scenedesmus
Stigeoclonium
Synedra
Pollution
Index
1
3
3
5
1
2
1
4
2
2
Table 4. Algal Species Pollution Index (Palmer 1969)
Ankistrodesmus falcatus
Arthrospira jenneri
Chlorella vulgaris
Cyalotella meneghiniana
Euglena gracilis
Euglena viridis
Gomphonema parvulum
Melosira varians
Navicula cryptooephala
Nitzeohia aciaularia
Pollution
Index
3
2
2
2
1
6
1
2
1
1
Pollution
Index
Nitzschia palea 5
Oscillatoria chlorina 2
Oecillatoria limosa 4
Oscillatoria prinaeps 1
Oscillatoria putrida 1
OBcillatoria tenuis 4
Pandorina morwn 3
SoenedesmuB quadricauda 4
Stigeoclonium tenue 3
Synedra ulna 3
-------�
In analyzing a water sample, any of the 20 genera or species of
algae present 1n concentrations of 50 per ml or more are
recorded. The pollution Index numbers of the algae present are
totaled, providing a genus score and a species score. Palmer
determined that a score of 20 or more for either Index can be taken as
evidence of high organic pollution, while a score of 15 to 19 1s taken
as probable evidence of high organic pollution. Lower figures suggest
that the organic pollution of the sample 1s not high, that the sample
is not representative, or that some substance or factor Interfering
with algal persistence 1s present and active.
SPECIES DIVERSITY AND ABUNDANCE INDICES
"Information content" of biological samples 1s being used
commonly by biologists as a measure of diversity. Diversity In this
connection means the degree of uncertainty attached to the specific
identity of any randomly selected Individual. The greater the number
of taxa and the more equal their proportions, the greater the
uncertainty, and hence, the diversity (Plelou 1966). There are
several methods of measuring diversity, e.g., the formulas given by
Brillouin (1962) and Shannon and Weaver (1962). The method which is
appropriate depends on the type of biological sample on hand.
Plelou (1966) classifies the types of biological samples and
gives the measure of diversity appropriate for each type. The Survey
phytoplankton samples are what she classifies as larger samples
(collections 1n Pielou's terminology) from which random subsamples can
be drawn. According to Plelou (1966), the average diversity per
individual for these types of samples can be estimated from the
Shannon-Wiener formula (Shannon and Weaver 1962):
S
H - -Z P, log P.,
1=1 1 x 1
where P is the proportion of the 1th taxon 1n the sample, which is
calculated from n^/N; n. 1s the number of Individuals per ml
of the 1th taxon, N 1s the total number of Individuals per ml and S 1s
the total number of taxa.
However, Basharln (1959) and Plelou (1966) have pointed out that
H calculated from the subsample 1s a biased estimator of the sample H,
and if this bias 1s to be accounted for, we must know the total number
of taxa present in the sample since the magnitude of this bias depends
on it.
-------�
10
Pielou (1966) suggests that 1f the number of taxa 1n the
subsample falls only slightly short of the number 1n the larger
sample, no appreciable error will result 1n considering S, estimated
from the subsample, as being equal to the sample value. Even though
considerable effort was made to find and identify all taxa, the Survey
samples undoubtedly contain a fair number of rare phytoplankton taxa
which were not encountered.
In the Shannon-Wiener formula, an increase in the number of taxa
and/or an increase in the evenness of the distribution of individuals
among taxa will increase the average diversity per individual from its
minimal value of zero. Sager and Hasler (1969) found that the
richness of taxa was of minor importance in determination of average
diversity per individual for phytoplankton and they concluded that
phytoplankton taxa in excess of the 10 to 15 most abundant ones have
little effect on H, which was verified by our own calculations. Our
counts are in number per ml and since logarithms to the base
2 were used in our calculations, H is expressed in units of bits per
individual. When Individuals of a taxon were so rare that they were
not counted, a value of 1/130 per ml or 0.008 per ml was used in the
calculations since at least one individual of the taxon must have been
present in the collection.
A Survey sample for a given lake represents a composite of all
phytoplankton collected at different sampling sites on a lake during a
given sampling period. Since the number of samples (M) making up a
composite is a function of both the complexity of the lake sampled and
its size, it should affect the richness of taxa component of the
diversity of our phytoplankton collections. The maximum diversity
(MaxH) (i.e., when the individuals are distributed among the taxa as
evenly as possible) was estimated from log« S, the total diversity (D)
was calculated from HN, and the evenness component of diversity (J)
was estimated from H/MaxH (Pielou 1966). Also given in the Appendix
are L (the mean number of Individuals per taxa per ml) and K
(the number of individuals per ml of the most abundant taxon in the
sample).
Zand (1976) suggests that diversity indices be expressed in units
of "sits", i.e., in logarithms to base S (where S is the total number
of taxa 1n the sample) instead of in "bits", I.e., in logarithms to
base 2. Zand points out that the diversity index in sits per individual
is a normalized number ranging from 1 for the most evenly distributed
samples to 0 for the least evenly distributed samples. Also, it can
be used to compare different samples, independent of the number of
-------�
11
taxa 1n each. The diversity 1n bits per Individual should not be used
in direct comparisons Involving various samples which have different
numbers of species. Since MaxH equals log S, the expression 1n sits
1s equal to log«> S or 1. Therefore diversity 1n sits per Individual
1s numerically equivalent to 0, the evenness component for the Shannon-
Wiener formula.
SPECIES OCCURRENCE AND ABUNDANCE
The alphabetic phytoplankton species 11st for each lake,
presented 1n the Appendix* gives the concentrations of Individual
species by sampling date. Concentrations are 1n cells, colonies, or
filaments (CEL, COL, FIL) per ml. An "X" after a species name
Indicates the presence of the species on that date 1n such a low
concentration that 1t did not show up 1n the count. A blank space
Indicates that the organism was not found 1n the sample collected on
that date. Column S 1s used to designate the examiner's subjective
opinion of the five dominant taxa 1n a sample, based upon relative
size and concentration of the organism. The percent column (5SC)
presents, by abundance, the percentage composition of each taxon.
-------�
12
LITERATURE CITED
Basharin, G. P. 1959. On a statistical estimate for the entrophy of a
sequence of Independent random variables, pp. 333-336. In N.
Artln (ed.), Theory of Probability and Its Applications
(translation of "Teoriya Veroyatnosel 1 ee Premenenlya") 4.
Society for Industrial and Applied Mathematics, Philadelphia.
Brillouln, L. 1962. Science and Information Theory (2nd ed.).
Academic Press, New York. 351 pp.
Hutchinson, G. E. 1967. A Treatise on Limnology. II. Introduction
to Lake Biology and the Llmnoplankton. John Wiley and Sons,
Inc., New York. 1,115 pp.
Nygaard, G. 1949. Hydrobiological studies of some Danish ponds and
lakes. II. (K danske Vidensk. Selsk.) B1ol. Sc1. 7:293.
Palmer, C. M. 1969. A composite rating of algae tolerating organic
pollution. J. Phycol. 5:78-82.
Plelou, E. C. 1966. The measurement of diversity 1n different types
of biological collections. J. Theor. Biol. 13:131-144.
Prescott, G. W. 1970. How to Know the Freshwater Algae. William C.
Brown Company, Dubuque. 348 pp.
Sager, P. E. and A. D. Hasler. 1969. Species diversity in laucustrine
phytoplankton. I. The components of the Index of diversity from
Shannon's formula. Amer. Natur. 103(929): 51-59
Shannon, C. E. and W. Weaver. 1962. The Mathematical Theory of
Communication. University of Illinois Press, Urbana. 117 pp.
U.S. Environmental Protection Agency. 1975. National Eutrophication
Survey Methods 1973-1976. Working Paper No. 175. Environmental
Monitoring and Support Laboratory. Las Vegas, Nevada, and
Corvallls Environmental Research Laboratory, CorvalUs, Oregon.
91 pp.
Zand, S. M. 1976. Indexes associated with information theory 1n water
quality. Journal WPCF. 48(8): 2026-2031.
-------�
13
APPENDIX
SUMMARY OF PHYTOPLANKTON DATA
The Appendix format was computer generated. Because 1t was only
possible to use upper case letters 1n the printout, all scientific
names are printed 1n upper case and are not Italicized.
The alphabetic phytoplankton lists Include taxa without species
names (e.g., EUNOTIA, EUNOTIA #1, EUNOTIA ?, FLAGELLATE, FLAGELLATES,
MICROSYSTIS INCERTA ?, CHLOROPHYTAN COCCOID CELLED COLONY)\ When
species determinations were not possible, symbols or descriptive
phrases were used to separate taxa for enumeration purposes. Each
name on a list, however, represents a unique species different from
any other name on the same 11st, unless otherwise noted, for counting
purposes.
Numbers were used to separate unidentified species of the same
genus. A generic name listed alone 1s also a unique species. A
question mark (?) 1s placed Immediately after the portion of a name
which was assigned with uncertainty. Numbered, questioned, or
otherwise designated taxa were established on a lake-by-lake basis;
therefore NAVICULA #2 from lake A cannot be compared to NAVICULA #2
from lake B. Pluralized categories (e.g., FLAGELLATES, CENTRIC
DIATOMS, SPP.) were used for counting purposes when taxa could not be
properly differentiated on the counting chamber.
-------�
LAKE NAME: FISHING CREEK RESo
STORET NUMBER: 4503
NYGAARD TROPHIC STATE INDICES
DATE 04 02 73 0? 07 73 09 22 73
MYXOPHYCEAN
CHLORCPHYCEAN
EUGLENOPHYTE
DIATOM
COMPOUND
03/0 E
0/0 0
0.33 E
0.37 E
10/0 E
03/0 E
06/0 E
0.22 E
0.67 E
19/0 E
0.75 E
2.75 E
0.14 ?
0.50 E
5.50 E
PALMER'S ORGANIC POLLUTION INDICES
DATE 04 02 73 07 07 73 09 22 73
GENUS
SPECIES
01
00
09
00
06
04
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
EVENESS COMPONENT
MEAN NUMBER OF INDIVIDUALS/TAXA
NUMBER/ML OF MOST ABUNDANT TAXON
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATE
04 02 73 07 07 73 09 22 73
H
S
M
M.AXH
D
N
J
L
K
2.13
29.00
3.00
4.86
611.31
287.00
0.44
9.90
115.00
3.32
35.00
3.00
5.13
2406.60
630.00
0.74
18.00
92.00
3.87
43.00
3.00
5.43
2325.87
601.00
0.71
13.98
105.00
-------�
LAKE NAME: FISHING CREEK RES,
STORET NUMBER: 4503
CONTINUED
04 02 73
07 07 73
09 22 73
LANCECLATA
LANCECLATA
TAXA
ACHNANTHES
ACHNANTHES
V. OU6IA
ACTINASTRUM HANTZSCHII
ANABAENA
ANKISTPCDESPUS FALCATUS
APHANIZCMENON ? FLOS-AQUAE
ASTERIONELLA FORMOSA
CENTRIC DIATOM
CLOSTERIUM
CLCSTEPIUM ACICULARE
COCCCNEIS FLUVIATILIS
COSMARIUM
CRYPTOMCNAS
CPYPTOMONAS #1
CPYPTOMONAS #2
CYAMOPHYTAN FILAMENT
CYCLOTELLA
CYCLOTELLA ATOMUS
CYCLOTELLA STELLIGEPA
CYMBELLA
CYMBELLA TUMIDA
CYMBELLA VENTRICOSA
DINOBRYON B0VARICUM
OINOFLAGELLATE
DINOFLAGELLATES
EUGLENA
EUGLENA #1
EUGLENA #2
FLAGELLATE
FRLSTULIA
GOLENKINIA RADIATA
FORM
CEL
CEL
CCL
FIL
CEL
FIL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
FIL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
S
3
1
*C
19.9
40.1
ALGAL
UNITS
PER ML
X
57
X
X
115
X
X
X
X
X
S
*C
2.1
2.1
6.2
6.2
2.1
2.1
14.6
4.3
ALGAL
UNITS
PER ML
X
13
13
X
39
39
13
13
X
92
27
S
*c
i;3
2.7
1.3
1.3
5.3
1.3
U.O
4.0
1.3
5.3
ALGAL
UNITS
PER ML
X
5
16
X
X
8
8
32
8
96
X
X
24
X
8
32
-------�
LAKE NAME:. FISHING CREEK RES,
STCRET NUMBER: 4503
CONTINUED
04 02 73
07 07 73
09 22 73
TAXA
GOMPHONEMA ANGUSTATUM
V. PROOUCTA
GYRCSIGfA
HANTZSCHIA
HANTZSCHIA #2
HYDROSERA
LEFOCINCLIS
LYNGBYA LIMNETICA
MELOSIRA
MELOSIRA #2
MELCSIRA DISTANS
MELOSIRA ITALICA
MELCSIPA VARIANS
MERISMOPEDIA TENUISSIMA
MICROSPORA ?
NAVICULA
NAVICULA #1
NAVICULA
NAVICULA
NAVICULA
NAVICULA
V. LEPTCCEPHALA
NAVICULA MUTICA
NITZSCHIA
NITZSCHIA #1
NITZSCHIA FILIFOPMIS ?
NITZSCHIA HUNGAPICA ?
NITZSCHIA SINUATA
CSCILLATORIA
PANDORINA MORUM
PEDIASTRUM BIRADIATUM
V. LONGECORNUTUM
#2
#3
GOTTLANDICA
HEUFLERI
FORM
CEL
CEL
CEL
CEL
CEL
CEL
FIL
CEL
CEL
CEL
CEL
CEL
COL
FIL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
FIL
COL
COL
s
2
4
5
*C
19.9
10.1
10.1
ALGAL
UNITS
PER ML
'
X
X
X
57
X
29
X
X
X
29
X
X
X
X
S
*C
14.6
4.3
6.2
2.1
4.3
12.5
ALGAL
UNITS
PER ML
X
X
92
X
27
39
X
X
13
27
79
X
X
X
S
?c
17.5
2.7
2.7
6.7
1.3
ALGAL
UNITS
PER ML
X
X
X
X
105
X
16
X
X
16
X
40
X
X
3
-------�
LAKE NAME: FISHING CREEK RESo
STCRET NUMBER: 4503
CONTINUED
04 02 73
07 07 73
09 22 73
TAXA
PEDIASTRUM CUPLEX
V. CLMHRATUM
PEDIASTRUM DUPLEX
V. RETICULATUM
PENNATE DIATOM
PINNUL*RIA
RHIZOSCLENIA ERIENSIS
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
V. LONGISPINA
STAURASTRUM
STEPHANOOISCUS
SURIRELLA ANGUSTATA
SUPIRELLA GVATA
SYNEDRA
SYNECRA #1
SYNEDRA ULNA
TETRAECRON
TETRASTPUM HETERACANTHUM
TRACHELCMONAS HISPICA
TOTAL
#2
ABUNOANS
BIJUGA
OENTICULATUS
QUADRICAUDA
QUADRICAUDA
FORM
COL
COL
CEL
CEL
CEL
COL
CCL
COL
COL
COL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
COL
CEL
S
*C
ALGAL
UNITS
PER ML
X
X
X
X
X
287
S
*C
6.2
2.1
6.2
2.1
ALGAL
UNITS
PER ML
X
39
X
X
13
39
X
X
13
X
630
S
*C
2.7
2.7
2.7
10.6
8.0
2.7
ALGAL
UNITS
PEP ML
X
16
16
X
16
X
64
48
X
16
X
X
601
-------�
LAKE NAME: LAKE GREENWOOD
STORE! NUMBER: 4504
NYGAARD TROPHIC STATE INDICES
DATE 03 28 ?3 Q7 09 73 09 19 73
MYXOPHYCEAN 2.00 E 5.50 E 2.67 E
CHLCROPHYCEAN 5.00 E 6.50 E i.67 E
EUGLENOPHYTE 0.71 E 0.08 ? 3.15 ?
DIATOM 1.25 E 0.83 E 0.75 E
COMPOUND 17.0 E 15.5 E 7.00 E
PALMER'S ORGANIC POLLUTION INDICES
DATE 03 28 73 07 09 73 09 19 73
GENUS 06 16 11
SPECIES 00 00 05
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATE 03 28 73 07 09 73 09 19 73
AVERAGE DIVERSITY H 3.05 3.58 2.16
NUMBER OF TAX A S 2 T.OO 45»00 34.00
NUMBER OF SAMPLES COMPOSITED M 4.00 4.00 4.00
PAXIMUM DIVERSITY MAXH 4.75 5.49 5.09
TOTAL DIVERSITY D 278A..65 24623.24 33356.88
TOTAL NUMBER OF INDIVIDUALS/ML N 913.00 6878.00 15443.00
EVENESS COMPONENT J 0.64 0.65 0.42
MEAN NUMBER OF INDIVIOUALS/TAXA L 33.31 152.84 454.21
NUMBER/ML OF MOST ABUNDANT TAXON K 273.00 2456.00 9263.00
oo
-------�
LAKE NAME: LAKE GREENWOOD
STCRET NUMBER: 4504
CONTINUED
03 28 73
07 09 73
09 19 73
TAXA
ACTINASTPUM HANTZSCHII
ANABAENA #1
ANABAENA #2
ANABAENA #3
ANABAENOPSIS
ANKISTRODESMUS ?
ANKISTPOOESMUS FALCATUS
ASTERIONELLA
ASTERICNELLA FORMOSA
CENTRIC DIATOM
CERATIUM
CGELASTRUM CAMBRICUM
V. INTERMEDIUM
COELASTRUM MICROPORUM
COELASTRUM MICROPORUM ?
COELASTRUM PROBOSCIDEUM
COSMARIUM
CCSMARIUM #1
COSMARIUM #2
CRUCIGENIA TETRAPEDIA
CRYPTOMCNAS #1
CRYPTOMCNAS #2
CRYPTOMCNAS EROS A
CYANOPHYTAN FILAMENT
CYCLOTELLA #2
CYCLOTELLA MENEGHNIAN A
CYCLOTELLA STELLIGERA
DACTYLOCOCCOPSIS
CACTYLCCCCCCPSIS IRREGULARIS
DINOFLAGELLATE
EUGLENA
EUGLENA #1
FORM
COL"
FIL
FIL
FIL
FIL
CEL
CEL
CEL
CEL
CEL
CEL
COL
COL
COL
COL
CEL
CEL
CEL
COL
CEL
CEL
CEL
FIL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
IS
5
2
1
*C
5.0
2.5
19.9
2.5
2.5
29.9
2.5
ALGAL
UNITS
PER ML
46
23
182
23
23
X
273
23
X
S
*c
1*3
0.4
0.4
0.8
0.8
3.8
4.6
2.1
9.7
1.3
1.3
ALGAL
UNITS
PER ML
X
87
X
X
X
X
29
X
29
58
58
58
318
X
144
665
87
87
X
S
*C
4.5
1.3
1.9
0*6
0.6
11.0
ALGAL
UNITS
PER ML
697
199
299
X
X
X
100
X
100
1693
X
-------�
LAKE NANE: LAKE GREENWGOD
STORE! NUMBER: 4504
CONTINUED
03 28 73
07 09 73
09 19 73
TAXA
EUGLENA #2
EUGLENA #3
FLAGELLATE
FRJGILARIA
LYNGBYA LIMNETICA
MALLCMCNAS ACAR01DES
MELCSIRA #2
#4
DISTANS
GRANULATA
ITALICA
MINIMA
TENUISSIMA
MELOSIRA
PELOSIRA
MELOSIPA
MELOSIRA
MERISMOPEDIA
MERISMOPEDIA
MICROCYSTIS INCERTA
NAVICULA #1
NAVICULA *2
NAVICULA ATOMUS
NITZSCHIA #1
NITZSCHIA #2
OSCILLATORIA
OSCILLATOPIA #1
OSCILLATORIA #2
CSCILLATORIA LIMNETICA
PAN'DORINA MORUM
PEDIASTRUM DUPLEX
V. CLATHRATUM
PEDIASTRUM DUPLEX
V. GRACILIMUM
PENNATE DIATOM #1
PENNATE DIATOM 04
PENNATE DIATOMS
PERIDINIUM INCONSPICUUM
FORM
CEL
CEL
CEL
CEL
FIL
CEL
CEL
CEL
CEL
CEL
CEL
COL
COL
COL
CEL
CEL
CEL
CEL
CEL
FIL
FIL
FIL
FIL
COL
COL
COL
CEL
CEL
CEL
CEL
S
4
3
*C
5.0
15.0
7.4
2.5
ALGAL
UNITS
PER ML
46
X
137
X
X
X
.
68
23
X
S
*c
6.3
1.7
35.7
2.5
1.3
2.1
0.4
9.8
0.4
0.4
6.. 7
6.3
0.4
ALGAL
UNITS
PER ML
X
433
116
2456
173
87
144
29
58
29
29
462
433
X
X
29
X
S
*C
0.6
2.6
0.6
1.3
11.6
1.3
1.3
ALGAL
UNITS
PER ML
X
100
399
X
100
X
X
199
X
1796
X
X
199
199
ro
o
-------�
LAKE NAME: LAKE GREENWOOD
.STORET NUMBER: 4504
CONTINUED
03 28 73
07 09 73
09 19 73
ACUMINATUS
BIJUC-A
DENTICULATUS
QUACRICAUDA
QUADRICAUDA
TAXA
PERIDINIUM VOLZII
PHACUS PYRUM ?
PTERCMCNAS ANGULCSA
RAPHIDIOPSIS
RHIZOSOLENIA ERIENSIS
SCENEPFSMUS ABUNCANS
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
V. LCNGISPINA
SCHROEDERIA SETIGERA
STAURASTRUM #2
STAURASTRUM TETRACERUM
STEPHANODISCUS
SYNEDRA #1
SYNEDRA #2
SYNEDRA ULNA
TPACHELCMONAS
TRACHELCMONAS
TRACHELCMCNAS
TREUBARIA
TOTAL
CAUDATA
HISPICA
FORM
cir
CEL
CEL
FIL
CEL
COL
COL
COL
COL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
s
%c
2.5
2.5
ALGAL
•JNITS
.PER ML
X
X
23
23
X
X
X
X
X
913
S
*c
6.3
0.4
0.4
3.4
0.8
• • y • • -•• — i
ALGAL
UNITS
PER ML
._ ^
433
29
X
X
29
X
231
X
58
6878
r— —
S
1
*c
60.0
0.6
ALGAL
UNITS
PER ML
9263
X
X
X
X
X
100
X
X
15443
-------�
LAKE NAME: LAKE HARTfcELL
STORET NUMBER: 4505
NYGAARD TRCPHIC STATS INCICES
DATE 06 26 73 09 15 73 11 13 73
MYXOPHYCEAN
CHLGROPHYCEAN
EUGLENQPHYTE
COMPOUND
05/0 E
04/0 E
0/09 ?
0.62 E
14/0 E
0.62 E
1.00 E
0/13 ?
0.40 E
2.12 E
4.00 E
12.0 E
0.12 ?
0.60 E
21.0 E
PALMER'S ORGANIC POLLUTION INDICES
DATE 06 26 73 09 15 73 11 13 73
GENUS
SPECIES
02
00
02
00
02
00
PO
ro
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATE 06 26 73 09 15 73 11 13 73
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
EVENESS COMPONENT
MEAN NUMBER OF INDIVIDUALS/TAXA
NUMBER/ML OF MOST ABUNDANT TAXON
H
S
M
MAXH
0
N
J
L
K
3.02
28.00
12.00
4.81
3832.33
1269.00
0.63
45.32
507.00
2.54
41.00
12.00
5.36
4457*70
1755.00
0.47
42.30
1045.00
3.23
34.00
12.00
5.09
2593.69
803.00
0.63
23.62
181.00
-------�
LAKE NAME: LAKE HARTfcELL
STORET NUMBER: 4505
CONT!NUED
06 26 73
09 15 73
11 13 73
TAXA
ANABAENA #1
ANABAENA #2
ANABAENOPS1S
ANKISTPODESMUS
ANKISTPOOESMUS FALCATUS
ASTERICNELLA
ASTER10NELLA FORMOSA
ATTHEYA
CEPATIUM HIRUNDINELLA
CHPOCCOCCUS
COSMARIUM #1
CCSMARIUM #2
CCSMAR1UM #3
COSMARIUM #4
CRUC1GENIA TETRAPEOIA
CPYPTOMCNAS #1
CRYFTOMONAS #2
CYCLOTELLA STELLIGERA
DACTYL OCOCCOPSIS
CINOBRYON
CINCBRYON BAVARICUM
DINOFLAGELLATE #1
CINOFLAGELLATE #2
DINCFLAGELLATE #3
EUGLENA
EUNOTIA FLEXUOSA
FLAGELLATES
FRANCEIA
GOLENKINIA RADIATA
LYNGBYA LIMNETICA
MALLOMCNAS
HALLCMCNAS PSEUCCCOPQN ATA
FORM
Fir
FIL
FIL
CEL
CEL
CEL
CEL
CEL
CEL
COL
CEL
CEL
CEL
CEL
COL
CEL
CEL
CFL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
FIL
CEL
CEL
S
sc
1.5|
1.51
'
0.7
7.4
3t 0
11.8
3.0
ALGAL I
UNITS
PER ML
19
19
9
X
X
X
X
94
X
38
150
38
-
S
*C
5.1
3.2
1.3
0.6
0.6
0.6
1.3
1.3
5.8
2.6
59.5
1.9
ALGAL
UNITS
PER ML
90
56
X
23
11
11
X
X
X
11
23
23
X
101
45
1045
34
S
*C
1.6
3.2
U6
11.3
3.2
3.2
3.2
1.6
ALGAL
UNITS
PER ML
X
X
13
X
26
13
91
26
X
X
26
X
26
X
X
13
-------�
LAKE NAME: LAKE HARTfcELL
STORE! NUMBER: 4505
CONTINUED
06 26 73
09 15 73
11 13 73
TAX A
MELOSIRA #2
MELOSIRA DISTANS
MELOSIRA VARIANS
MERISMOFEDIA MINIMA
MERISMOPEDIA TENUISSIMA
NAVICULA
NAVICULA #1
NAVICULA *3
NAVICULA NCTHA ?
NITZSCHIA
OOCYSTIS
CSCILLATORIA
OSCILLATORIA #1
PEOIASTRUM CUPLEX
V. CLATHRATUM
PEDIASTRUM TETRAS
V. TETRAODON
PENNATE DIATOM #4
PEPIDINIUM #2
PEPIDINIUM WISCCNSINENSE
PHACUS PYRUM
PINNULARIA
RHIZOSCLENIA ERIENSIS
SCENEDESMUS
SCENEDESMUS ABUNDANS
SCENEDESNUS ACUMINATUS
SCENEDESMUS ACUMINATUS
V. BERNARCII
SCENEDESMUS BIJUGA
SCENEDESMUS DISPAR
SCENEDESMUS QUADRICAUDA
SELENASTRUM ?
FORM
CEL
CEL
CEL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
FIL
FIL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
COL
COL
COL
COL
COL
COL
COL
COL
S
*C
9.6
3»9
0.7
0.7
3.0
'
3.0
ALGAL
UNITS
PER ML
122
113
9
9
X
X
X
X
39
38
X
X
S
*c
1.9
U9
ALGAL
UNITS
PER ML
X
X
X
X
34
X
X
X
34
X
X
X
X
X
X
S
*c
22.5
2C.9
.
1.6
1.6
4.9
ALGAL
UNITS
PER ML
181
168
X
X
X
13
13
X
39
X
X
X
X
-------�
LAKE NAME: LAKE HARTfcELL
STORE! NUMBER: 4505
CONTINUED
06 26 73
09 15 73
11 13 73
TAXA
STAURASTRUM #1
STAUPASTRUM CUSPIDATUM
V. DIVERGENS
STAURASTRUM PARACOXUP
V. PARVUM
STAURASTRUP TETPACERUM
SYNEDRA #1
SYNEDRA #2
TABELLARIA
TETRAEDRCN
TETRAEORCN
TETRAEOPCN
TREUBARIA
FENESTRATA
MINIMUM
PLANCTONICUM
TRIGONUM
FORM
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
S
*C
3.0
40.0
2.2
ALGAL
UNITS
PER ML
38
X
507
28
S
*C
1.3
4.5
3.2
0.6
2.6
ALGAL
UNITS
PER ML
23
X
79
X
56
11
45
X
X
S
*C
3.2
16.1
ALGAL
UNITS
PER ML
X
26
X
129
X
ro
en
TOTAL
1269
1755
803
-------�
LAKE NAME: LAKE MARICN
STCRET NUMBER: 4506
NYGAARD TROPHIC STATE INDICES
DATE 03 27 73 07 10 73 09 22 73
MYXOPHYCEAN
CHLOROPHYCEAN
EUGLENOPHYTE
DIATOM
COMPOUND
4.00 E
15.0 E
0.11 ?
0.47 E
3J.O E
3.00 E
8.50 E
0.17 ?
0.90 E
18.0 E
2.25 E
4.00 E
0.12 ?
3.62 E
9.25 E
PALMER'S ORGANIC POLLUTION INDICES
DATE 03 27 73 07 10 73 09 22 73
GENUS
SPECIES
0?
02
25
07
22
07
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATE 03 27 73 07 10 73 09 22 73
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
EVENESS COMPONENT
MEAN NUMBER OF INDIVIDUALS/TAXA
NUMBER/ML OF KOST ABUNDANT TAXON
H
S
M
MAXH
D
N
J
L
K
3.72
57.00
6.00
5.83
12863.76
3458.00
0.64
60.67
78-A.OO
4.12
54.00
6.00
5.75
23764.16
5768.00
0.72
106.81
1154.00
3.84
51.00
6.00
5.67
22475.52
5853.00
0.68
114.76
1485.00
-------�
LAKE NAME: LAKE MARICN
STCRET NUMBER: 4506
CONTINUED
03 27 73
07 10 73
09 22 73
LANCEGLATA
MICROCEPHALA
FALCATUS
TAXA
ACHNANTHES
ACHNANTHES
AMPHIPPGRA
ANABAENA #1
ANABAENA #2
ANABAENCPSIS
ANKISTROOESMUS
ANKISTRODESMUS
ASTERICNELLA
ASTERICNELLA FORMOSA
ASTERICNELLA FORMOSA
V. GRACILLIMA
ATTHEYA
BOTRYOCOCCUS BRAUNII
CHLAMYOCMONAS
CHLAMYDCMONAS
CHLANYDCMCNAS
CHROOCOCCUS
CLCSTERIUM
COCCCNEIS
COELASTRUM
COSMARIUM
CRIJCIGENIA
CRYPTOMONAS
CRYPTOMGNAS
CRYPTOMCNAS
CYANOPHYTAN
CYCLCTELLA
#1
#2
TETRAPEDIA
#1
EROSA
REFLEXA
FILAMENT
#1
CYCLOTELLA MENEGHINIANA
CYCLOTELLA STELLIGERA
CYMATCPLEURA ?
CYMBELLA
FORM
CEL
CEL
CEL
FIL
FIL
FIL
CEL
CEL
CEL
CEL
CEL
CEL
COL 1
CEL
CEL
CEL
COL
CEL
CEL
COL
CEL
COL
CEL
CEL
CEL
FIL
CEL
CEL
CEL
CEL
CEL
S
3
5
%C
5.5
3.6
0.5
5.0
0*5
'
0.9
ALGAL
UNITS
PER ML
X
X
189
X
126
X
16
X
X
173
16
31
X
X
S
'
*C
0.6
1.9
1.2
1.9
0.6
1.2
3.1
3.7
0.6
1.9
ALGAL
UNITS
PER ML
X
X
36
108
72
X
X
108
X
36
72
X
180
216
36
108
S
5
?C
0.7
5.8
2.2
1.5
1.5
2.9
0.7
'
ALGAL
UNITS
PER ML
42
>
X
339
127
85
X
X
85
X
170
X
42
X
ro
^j
-------�
LAKE NAME: LAKE MARION
STORE! NUMBER: 4506
CONTINUED
03 27 73
07 10 73
09 22 73
TAXA
DACTYLOCCCCOPSIS
DICTYOSPKAERIUM PULChELLUM
DINOBRYCN
DINOFLAGELLATE
CINOFLAGELLATE #1
DINOFLAGELLATE #2
EUASTRUM
EUGLENA
EUGLENA #1
EUGLENA #2
FLAGELLATE #1
FLAGELLATES
FRAGILARIA
FRAGILARIA CROTCNENSIS
FRANCEIA
FRLSTULIA
GLENODINIUM ?
GLENOOINIUM OCULATUM ?
GOLENKINIA
GOMPHONEMA
GCMPHONEHA #2
GYMNCDINIUM
KIRCHNERIELLA
LYNGBYA LIMNETICA
MELOSIRA #2
MELOSIRA #3
PELOSIRA #4
MELOSIRA DISTANS
MELOSIRA GRANULATA
PELOSIRA GRANULATA
V. ANGISTISSIMA
MELOSIRA ITALIC*
FORM
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
FIL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
s
4
2
%C
5.1
14.6
0.5
0.5
0.5
22*8
2.7
7.8
ALGAL
UNITS
PER ML
178 j
X
X
505
X
X
X
16
X
x
16
X
I 16
1 788
! x
1
1 95
1 268
1
IS
T
5
1
2
?C
'i4l4
0.6
0.6
0.6
0.6
0.6
6.9
1.2
1.2
20.0
11.3
1.2
5.0
ALGAL
UNITS
PER ML
iio"
36
36
36
36
36
397
X
72
72
1154
649
72
289
S
1
2
3
*C
Isl4
1.5
0.7
2.9
13.1
11.6
1.5
5.1
0.7
ALGAL
UNITS
PER ML
1485'
X
85
X
42
170
X
764
X
X
679
85
297
42
ro
oo
-------�
LAKE NAME: LAKE MARION
STORE! NUMBER: 4506
CONTINUED
03 27 73
07 10 73
09 22 73
TAXA
MELOSIRA VARIANS
MERISMOPED1A TENUISSIMA
MESOSTIGMA
NAVICULA
NAVICULA ?
NAVICULA #1
NAVICULA #2
NAVICULA RHYNCHOC5PHALA
V. GERMAINII
NITZSCHIA
NITZSCHIA M
NITZSCHIA #2
NITZSCHIA ACICULARIS
CPHIOCYTIUM ?
OSCILLATCRIA
OSCILLATORIA LIMNETICA
PEDIASTRUM DUPLEX
V. CLATHRATUM
PEOIASTRUM DUPLEX
V. GPACILIMUM
PEDIASTRUM TERRAS
V. TETRAODON
PENNATE DIATOM #2
PENNATE DIATOMS
PHACUS
PHACUS #1
PHACUS PYRUM
RAPHIDIOPSIS
RAPHIDIOPSIS ? '
RHIZQSOLENIA ERIENSIS
SCENEDESMUS
SCENEDESMUS ABUNDANS
FORM
CEL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
FIL
FIL
COL
CCL
COL
CEL
CEL
CEL
CEL
CEL
FIL
FIL
CEL
COL
COL
S
1
*c
6.4
0..9
8,2
5.5
0.5
1«4
1.4
ALGAL
UNITS
PER ML
221
X
X
X
X
X
X
31
X
284
189
16
47
47
S
3
*C
1.9
0.6
6.9
1.2
3.1
0.6
1.2
ALGAL
UNITS
PER ML
X
108
36
X
397
72
X
X
180
36
X
X
X
72
S
4
*C
0.7
2.9
0.7
1.5
•
0.7
8.0
0.7
ALGAL
UNITS
PER ML
42
X
X
170
42
85
X
42
467
42
ro
vo
-------�
LAKE NAME: LAKE MARION
STORE! NUMBER: 4506
CONTINUED
03 27 73
07 10 73
09 22 73
TAXA
SCENEDESHJS ARMATUS
V. BICAUDATUS
SCENEDESMUS ARMATUS
V. BGGLARIENSIS
SCENEDESMUS BICAUDATUS
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
SCHROEDERIA
SCHROEDERIA
STAURASTRUM
STAURASTRUM
STAURASTRUM
V. PARVUM
STAURASTRUM
STEPHANCDISCUS
STEPHANODISCUS
SYNEDRA #1
SYNECRA #2
SYNEDRA OELICATISSIMA
SYNEDRA ULNA
TABELLARIA
TABELLARIA FLOCCULOSA
TETRAEDRON MINIMUM
TETRAEDRON MINIMUM
V. SCROBICULATUM
TETRAEDRCN TRIGCNUM
V. GRACILE
BIJUGA ?
DENTICULATUS
DIMORPHUS
INTEPMEDIUS
PROTUBERANS
PROTUBERANS ?
QUADRICAUDA
SETIGERA
#1
#2
PARACOXUM
TETRACERUM
ASTRAEA
FORM
COL
COL
COL
COL
COL
COL
COL
COL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
.
CEL
S
*C
0.5
4.6
0.5
.
ALGAL
UNITS
PER ML
X
X
X
16
X
X
158
16
X
X
•
X
*
S
?c
0.6
1.2
0.6
0.6
ALGAL
UNITS
PER ML
'
36
X
X
72
X
X
36
X
36
S
*C
.
1.5
0.7
'
1.5
2.9
ALGAL
UNITS
PER ML
X
'
X
X
X
85
X
42
X
X
85
170
.
-------�
LAKE NAPE: LAKE MARICN
STORET NUMBER: 4506
CONTINUED
03 27 73
07 10 73
09 22 73
TAXA
TETRASTPUM HETERACANTHUM
TREUBARIA
TOTAL
FORM
COL"
CEL
s
1
1
ALGAL
UNITS
%C PER ML
1
1
1
1
IS
1 t
1 1
ALGAL 1
UNITS 1
*C PER ML 1 S ?C
1 XII |
1 1 1 0.7|
ALGAL
UNITS
PER ML
X
42
1
1
1
1
1
3458
5768
5853
co
-------�
LAKE NAME: LAKE MURRAY
STCRET NUMBER: 450?
NYGAARD TROPHIC STATE INDICES
DATE 03 27 73 07 07 73 09 22 73
MYXOPHYCEAN
CHLOROPHYCEAN
EUGLENOPHYTE
CIATCM
COMPOUND
01/0 E
08/0 E
0/09 ?
1.00 E
15/0 E
2.20 E
1.80 E
0.15 ?
0.37 E
5.20 E
1.00 E
1.83 E
. 0. C6 ?
0.67 E
3.67 E
PALMER'S ORGANIC POLLUTION INDICES
DATE 03 27 73 07 07 73 09 22 73
GENUS
SPECIES
06
00
00
08
03
CO
ro
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATE 03 27 73 07 07 73 09 22 73
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
EVENESS COMPONENT
MEAN NUMBER OF INDIVIDUALS/TAXA
NUMBER/ML OF MOST ABUNDANT TAXON
H
S
M
MAXH
D
N
J
L
K
3*10
28.00
7.00
4.81
6854.10
2211.00
0664
78.96
669.00
3.65
47.00
7.00
5.55
40993.15
11231.00
0.66
238.96
2429.00
3.15
38.00
7.00
5.25
16420.95
5213.00
0.60
137.18
1321.00
-------�
LAKE NAME: LAKE MURRAY
STOPET NUMBER: 4507
CONTINUED
03 27 73
07 07 73
09 22 73
TAXA
ANABAENA
/NABAENA #1
ANABAENA #2
ANKISTRCDESMUS FALCATUS
ASTERICNELLA FORMOSA
CERATIUM HIRUNDINELLA
CHLAMYDQMONAS
CHLAMYDCMCNAS ?
CHROOCOCCUS
CLCSTERIUM
CCELASTRUM
COELASTRUM PROBOSCIDEUM
COELOSPHAERIUM NA5GELIANUM
CCSMARIUM
COSMARIUM #1
COSMARIUM #2
CRUCIGENIA
CRYPTOMCNAS EROSA
CRYPTOMCNAS REFLEXA
CYCLCTFLLA
CYCLOTELLA STELL IGERA
DACTYLCCCCCOPSIS
DACTYLOCCCCOPSIS FASCICULARIS ?
DICTYOSPHAERIUM PULCHELLUM
DINCBRYCN ?
DINOFLAGELLATE
DINOFLAGELLATE #1
PINOFLAGELLATP #2
DINOFLAGELLATE #3
EUCORINA
EUGLENA #1
EUGLENA «2
FORM
FIL
FIL
FIL
CEL
CEL
CEL
CEL
CEL
COL
CEL
COL
COL
COL
CEL
CEL
CEL
COL
CEL
CEL
CEL
CEL
CEL
CEL
COL
CEL
CEL
CEL
CEL
CEL
COL
CEL
CEL
S
1
1
*C
1.6
3.0
0.4
12.6
2.8
1.6
0.4
ALGAL
UNITS
PER ML
X
35
66
9
278
X
62
35
9
X
S
2
3
«C
12.0
0.5
0.5
0.5
12.0
0.5
5.8
0.5
2.4
ALGAL
UNITS
PER ML
X
1350
54
X
54
X
X
X
54
1350
54
648
X
X
54
270
X
X
X
S
1
5
4
«C
6.6
l.l
5.5
1.6
0.6
0.6
25.3
3.6
ALGAL 1
UNITS 1
PER ML
345 \
56
287
X
86
X
29
X
29
1321
186
co
CO
-------�
LAKE NAME: LAKE MURRAY
STCRET NUMBER: 4507 .
CONTINUED
03 27 73
07 07 73
09 22 73
TAXA
FLAGELLATE
FLAGELLATE #1
FLAGELLATE #2
FRAGILARIA
FRAGILAR1A CROTCNENSIS
FRANCEIA OVALIS
GLENOOINIUM
KIRCHNERIELLA
LYNGBYA
LYNGBYA LIMNETKA
ME LC SI PA
MELOSIPA *4
MELOSIRA DISTANS
MELOSIPA ITALICA
MEPISMOPEDIA
MERISMOPEOIA
MICRACTINILM
NAVICULA
NAVICULA ?
NITZSCHIA
NITZSCHIA #1
NITZSCHIA #2
OOCYSTIS
OSCILLATORIA LIMNETICA
PAKDORINA MORUM
PEDIASTRUM EIRACIATUM
V. ?
PEDIASTRUM DUPLEX
V. GRACILIMUM
PEDIASTRUM TETRAS
V. TETRAODON
PENNATE CIATCM #1
TENUISSIMA
PUSILLUM
FORM
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
FIL
FIL
CEL
CEL
CEL
CEL
COL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
FIL
COL
COL
COL
COL
CEL
s
5
4
3
*C
30.3
6.2
0.4
1.2
0.6
19.1
10.6
ALGAL
UNITS
PER ML
669
138
9
27
X
13
423
234
X
S
4
I
*C
6.3
5.8
5.8
0.5
9.1
0.5
21.6
1.9
ALGAL
UNITS
PER ML
702
648
648
X
54
1026
X
54
X
X
X
2429
X
216
X
X
X
S
2
«C
2.2
2.8
18.7
3.3
2.2
ALGAL
UNITS
PER ML
115
144
X
976
X
172
•
X
X
X
X
X
X
115
-------�
LAKE NAKE: LAKE MURRAY
STORE! NUMBER: 450?
CONTINUED
03 27 73
07 07 73
09 22 73
TAXA
PENNATE DIATOM #4
PENNATE DIATOMS
PERIDINIUM
PHACUS PYRUM
PINNULARIA
RAPHIDIOPSIS
PHIZOSCLENIA ERIENSIS
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
SCENEDESNUS
SCENEDESMUS
SCENEDESfUS
SCENEDESMUS
STAURASTRUM
STAURASTRUM
STAURASTRUM
STAURASTRUM
STEPHANCDISCUS
SYNE OR A
SYNEDRA DELICATISSIMA
V. ANGUSTISSIMA
TABELLAPIA
#1
#7
ARCUATUS
DENTICULATUS
DISPAR
PROTUBERANS
QUADRICAUDA
#1
#2
TETRACERUM
ASTRAEA
TABELLARIA
TETRAEDPCN
TETRAEDRON
TETRAEDRON
FENESTRATA ?
MINIMUM
MINIMUM
V. SCRCBICULATUP
TETRASTRUM HET ERACANTHUM
TREUBARIA TRIAPPENDICULATA
FORM
CEL
CEL
CEL
CEL
CEL
FIL
CEL
COL
COL
COL
COL
COL
COL
COL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
COL
CEL
S
2
*C
3.6|
0.4
0.4
4.8
ALGAL
UNITS
PER ML
80
X
'
9
X
9
106
X
X
X
S
5
?C
3.8
0.5
0.5
0*5
6.7
1.9
ALGAL
UNITS
PER ML
432
54
X
X
X
X
54
54
756
X
216
S
3
*C
22.0
1.6
0.6
1.1
0.6
ALGAL
UNITS
PER ML
X
X
1148
X
86
X
X
X
X
X
29
58
X
29
TOTAL
2211
11231
5213
-------�
LAKE NAME: LAKE ROBINSON
STCRET NUMBER: 4508
NYGAARD TROPHIC STATE INDICES
DATE 03 22 73 07 06 73 09 21 73
MYXCPHYCEAN 0/04 C 0.06 C 0/14 0
CHLCROPHYCEAN 0.75 E 0.37 ? 0.36 ?
EUGLENOPHYTE 0/03 ? 0.29 E 0.40 E
DIATOM 0/09 ? 0/07 ? 0/04 ?
COMPOUND 0.75 0 0.56 0 0.50 0
6ALMER«S ORGANIC POLLUTION INDICES
DATE 03 22 73 07 06 73 09 21 73
GENUS
SPECIES
00
00
02
00
05
00
co
en
SPECIES DIVERSITY AND ABUNDANCE INCICES
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITEO
MAXIMUM DIVERSITY
TOTAL DIVERSITY
TOTAL NUMBER OF TNDIVIDUALS/ML
EVENESS COMPONENT
MEAN NUMBER OF INDIVIDUALS/TAX A
NUMBER/ML OF MOST ABUNDANT TAXCN
DATE
03 22 73 07 06 73 09 21 73
H
S
M
MAXH
D
N
J
L
K
0.47
20.00
3.00
&.32
2509.33
5339.00
0.11
266.95
5023.00
0.95
39.00
3.00
5.29
6005.90
6322.00
0.18
162. 10
5572.00
2.38
25.00
3.00
4.64
52436.16
22C32.00
0.51
881.28
9506.00
-------�
LAKE NAME: LAKE ROBINSON
STCRET NUMBER: 4509
CONTINUED
03 22 73
07 C6 73
09 21 73
INCUS
FORMOSA
RALFSII
#2
#3
CAMBRICUM
TAXA
ANKI STRODE SMUS
ARTHPCOESMUS
ARTHRCDESML'S
ASTERICNELLA
ASTERICNELLA
ASTERICNELLA
CLCSTERIUM #
CLCSTERIUM
CLOSTERIUM
COELASTRUM
CCSMAR1UM
CCSMAP1UM #1
CCSMAR1UM #2
COSMARIUM TENUE
CPUCIGENIA TETRAPEOIA
CRYPTOMCNAS #1
CRYPTOMCNAS EROSA
CYMBELLA ?
DESMID
DICTYOSPHAERIUM PULCHELLUM
OINOBRYON CAMPANULOSTIPITUM
DINCBRYCN SERTULARIA
DINOFLAGELLAT'r
EUDORINA
EUGLENA
EUNOTIA FLEXUOSA
EUNOTIA PECTINALIS
v. ?
FLAGELLATES
FRLSTULIA
GLENODINIUM
OCULATUM ?
I
FORM
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
COL
CEL
CEL
CEL
CEL
CCL
CEL
CEL
CEL
CEL
-COL
CEL
CEL
CEL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
S
1
5
3
*C
0.9
94.1
1.7
0.2
l.l
ALGAL
UNITS
PER ML
47
X
X
5023
93
12
58
X
X
•
X
X
X
X
S
?c
88.1
0.4
0.4
0.4
0.4
0.4
1.1
ALGAL
UNITS
PER ML
X
5572
23
X
23
23
X
23
X
23
X
X
X
68
S
*c
0.1
8.9
3.2
43.1
2.0
2.2
ALGAL
UNITS
PEP ML
X
32
1971
70C
X
9506
445
477
X
CO
-------�
LAKE NAME: LAKE PQBINSON
STCRET NUMBER: 4503
CONTINUED
03 22 73
07 06 73
09 21 73
TAXA
GOLENKINIA PAUCISPINA
GYMNODIMUV AERUGINCSUH
GYROSIGMA
MALLCMCNAS
MICRGCYSTIS INCERTA
NAVICULA CUSPIDATA
COCYSTIS PARVA
PEDIASTRLM DUPLEX
V. RETICULATUM
PEMUM ?
PINNULARIA MESOLEPTA
SCENEDESMUS ACUMINATUS
SCENEDESMUS BIJUGA
SCENEDESMUS DENTICULATUS
V. LINEARIS
SPHAERCZOSMA GRANULATUM
STAURASTRUM
STAURASTRUM #1
STAURASTRUM #2
STAURASTRUM
STAURASTRUM
STAURASTRUM
STAURASTRUM
STAURASTRUM
STAURASTRUM
STAURASTRUM
STAURASTRUM
STAURASTRUM
STAUPASTRUM
STAURASTRUM
#3
#4
#5
#6
APICULATUM
BRACHIATUM
DEJECTUM
GRANULATUS
MARGARITACEUM
MARG*R!TACEUM
TETRACERUM
STAURONEIS
STAUPONEIS ANCEPS
V. GRACILIS
FORM
CEL
CEL
CEL
CEL
COL
CEL
CEL
COL
CEL
CEL
COL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
S
2
*C
1.51
0.2
ALGAL
UNITS
PER ML
32
X
12
X
X
S
*c
1.1
1.8
0.4
1.4
0.4
0.4
0.7
ALGAL
UNITS
PEP ML
X
X
66
X
X
113
X
23
X
X
X
X
91
23
X
23
X
45
X
X
S
.
?c
0.3
26.6
4.8
O.I
3.0
5.6
ALGAL
UNITS
PER ML
X
X
X
X
63
5850
X
1049
32
X
668
X
1239
co
oo
-------�
LAKE NAME: LAKE PQBINSCN
STORET NUMBER: 4508
CONTINUED
TAXA
SYNEORA
TABELLARIA
TAEELLAPIA FENES^RATA
TABELLA°IA FENESTRATA '
TABELLARIA FLOCCULCSA
TRACHELCMCNAS SUPEREA
ULCTHRIX SUBTILISSIMA
XANTHIOIUM ANTILCPAEUM
V. ?
TOTAL
03 22 73
07 06 73
09 21 73
FORM
CEL"
CEL
CEL
CEL
CEL
CEL
FIL
CEL
s
4
*c
0.2
ALGAL
UNITS
PER ML
X
12
5339
S
*C
2.2
0.7
ALGAL
UNITS
PER ML
136
X
X
45
X
6322
S
*C
ALGAL
UNITS
PER ML
X
X
X
22032
co
ID
-------�
LAKE NAME: LAKE
STORET NUMBER: 451C
NYGAARD TROPHIC STATE INDICES
DATE 03 30 73 07 06 73 09 21 73
MYXOPHYCEAN
CHLOPOPHYCEAN
EUGLENOPHYTE
DIATOM
COMPOUND
02/0 E
04/0 E
0.33 5
0.40 E
12/0 E
6.50 E
T.OO 5
0.06 ?
0.37 E
20.0 E
3.00 E
4.25 E
0.07 ?
1.00 E
9.25 E
PALMER'S ORGANIC POLLUTION INDICES
DATE 03 30 73 07 06 73 09 21 73
GENUS
SPECIES
14
00
28
06
09
04
SPECIES DIVERSITY AND ABUNDANCE INDICES
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
EVENESS COMPONENT
MEAN NUMBER OF INDIVIDUALS/TAXA
NUMBER/ML OF MOST ABUNDANT TAXON
DATE
03 30 73 07 06 73 09 21 73
H
S
M
MAXH
D
N
J
L
K
3.81
34.00
4.00
5.09
9765.03
2563.00
0.75
75.38
407.00
4.43
57.00
4.00
5.83
32206.72
7189.00
0.77
126.12
860.00
3.47
54.00
4.00
5.75
16999.53
4899.00
0.60
90.72
1493.00
-------�
LAKE NANE: LAKE WATEPEE
STORE! NUMBER: 4510
CONTINUED
03 30 13
01 06 73
09 21 73
TAXA
LANCECLATA
ACHNANTHES
V. OUBIA
AO'NANTHES LANCEQLATA
V. LANCECLATQIOES
ANABAFNA ? #1
ANABAENA #1
ANABAENA 02
ANABAENA *3
ANABAENA #4
ANA6AENOPSIS #1
ANABAENOPSIS #2
ANKISTPODESfUS ? FALCATUS
ASTERIONELLA FORMOSA
CAPTERIA KLEBSII
CENTRIC DIATOM
CERATIUM
CHLAMYDCMONAS
CHLCPOGCNIUN
CHFOOCOCCUS
CLCSTERIUM ?
CLCSTERIUM #1
CLOSTEPIUM #2
COCCOIC COLCNY
COELASTRUM
COSMARIUM
CRUCIGENIA APICULATA
CRUCIGENIA TETRAPEOIA
CRYPTOMCNAS #1
CRYPTOMCNAS #2
CRYFTOMONAS EROSA
CRYPTOfCNAS SPP.
CYANOPHYTAN FILAMENT
FORM
CEL
CEL
FIL
FIL
FIL
FIL
FIL
FIL
FIL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CCL
CEL
CEL
CEL
COL
COL
CEL
COL
COL
CEL
CEL
CEL
CEL
FIL
S
3
4
*C
0.4
5.6
1.7
0.9
13.3
3.9
ALGAL
UNITS
PER ML
.
11
X
143
44
22
X
I 341
99
S
5
?C
4.2
1.4
0.7
1.4
5+6
0.7
0.7
3.5
ALGAL
UNITS
PEP ML
X
304
X
X
X
101
X
51
101
X
405
X
51
51
253
S
2
*C
14.6
4.3
0.6
1.3
ALGAL
UNITS
PER ML
X
717
X
2C9
X
X
X
X
X
30
X
X
90
X
X
-------�
LAKE NAME: LAKE WATEREE
STCRET NUMBER: 4510
CONTINUED
03 30 73
07 C6 73
09 21 73
TAXA
CYCLQTELLA #1
CYCLOTELLA STELLIGERA
CACTYLCCCCCOPSIS
OINOFLAGELLATE
EUASTRUM
EUGLENA
EUGLENA #1
FLAGELLATE #1
FLAGELLATE #2
FLAGELLATE #3
FLAGELLATES
GCPPHONEMA ACUMINATUM
V. PROOUCTA
GGHPHONEMA CLIVACEUM
GONIUM PECTORALE
C-YPOSIGMA
HANTZSCHIA VIRGATA
KIRCHNERIELLA
LAGERKEIM1A
LYNGBYA LIHNETICA
MALLCMONAS
FELOSIRA #2
#3
#4
DISTANS
GRANULATA
ITALICA
VflRIANS
MINIMA
PUNCTATA
MELOSIRA
MELOSIRA
PELOSIPA
MELOSIRA
MELOSIRA
PELCSIRA
MERISMOPEDIA
MEPISMOPEDIA
MEPISMOPEDIA TENUISSIM*
MICPOCYSTIS INCERTA
FORM
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
COL
CEL
CEL
CEL
CEL
FIL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
COL
COL
COL
CCL
S
5
2
1
%C
1
6.9|
9.01
\
1
4.31
'
2.6
11.2
0.4
0.4
4.3
15.9
1.6
ALGAL
UNITS
PER ML
176
231
110
66
286
X
X
X
11
11
X
110
407
220
X
S
1
4
ALGAL
UNITS
%C PER ML
5.6? 405
4.21 304
3.51 253
1.4! 101
1
1 x
0.7| 51
1 x
1
1
6.31 455
1
1
1
1
1
0.71 51
1
0.71 51
1
12.01 960
l.4| 101
U4I 101
1.41 101
1
1
1
0.7| 51
1 x
9.21 658
2.8J 202
S
4
1
5
*C
7.9
30.5
3.6
3.6
7.3
1.2
1.2
4.3
1.2
2.4
ALGAt
UNITS
PER ML
388
1493
3C
30
359
x
60
60
X
209
X
x
60
US
X
-------�
LAKE NAME: LAKE WATEREE
STCRET NUMBER: 4510
CONTINUED
03 30 73
07 06
C9 21 73
TAXA
NAVICULA
NAVICULA #1
NAVICULA #2
NAVICULA #3
NAVICULA MUTICA
NAVICULA SPP.
NITZSCHIA
MTZSCHIA #1
OSCILLATORIA #1
CSCILLATORIA LIMNETICA
PANOORINA NORUM
PEOIASTRUM BIRACIATUP
V. LCNGECORNUTUH
PEOIASTRUM BORYANUM
PEDIASTRUM DUPLEX
V. CLAThRATUM
PEDIASTRUM DUPLEX
V. RETICULATUM
PEOIASTRUM TETRAS
V. TETRAOOGN
PEKNATE DIATOM
PHACLS
PINNULARIA
PTERCMCNAS
PTERCMONAS KLEBSII
PAPHICIOPSIS
SCENEDESPUS
SCENEOESMUS #1
SCENEDESMUS ACUMINATUS
SCENEDESNUS ARMATUS
V. BOGLARIENSIS
SC?NEDESMUS BICAUDATUS
FORM
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
FIL
FIL
COL
COL
COL
COL
COL
COL
CEL
CEL
CEL
CEL
CEL
FIL
COL
COL
COL
COL
COL
S
*c
4.7
1.3
ALGAL
UNITS
PER ML
X
X
X
121
X
X
33
S
2
3
?C
8.4
8.4
0.7
0.7
1.4
0.7
4.2
ALGAL
UNITS
PER ML
X
X
607
607
51
X
X
X
51
X
X
X
101
51
X
304
S
3
*C
6.1
0.6
0.6
0.6
8.5
0.6
0.6
ALGAL
UNIT S
PER ML
X
X
X
299
30
X
30
X
30
'
418
3C
X
30
-------�
LAKE NAPE: LAKE WATEREE
STORET NUMBER: 4510
CONTINUED
03 30 73
07 06 73
09 21 73
TAXA
SCENEOESMUS BIJUGA
SCENEDESNUS DPNTICULATUS
SCENEDESMUS 01 SPAR ?
SCENEDESMUS QUAORICAUDA
SCHROEDERIA ?
SCHROEDERIA SF.TIGERA
SYNE OR A
SYNEDRA ULNA
TETRAEORON
TETRAECPCN #1
TETRAEDRON MINIMUM
TETRAEDRON TRIGONUM
TETRASTRUM HETERACANTHUM
TRACHELCMONAS VOLVCCINA
TREUBARIA
TOTAL
FORM
COL
COL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
COL
CEL
CEL
s
*C
1.3
0.9
2.6
ALGAL
UNITS
PER ML
33
22
X
'
66
2563
S
?c
0.7
•
2.1
1.4
0.7
ALGAL
UNITS
PER ML
•
51
X
X
152
X
101
X
51
7189
S
*c
1.2
2.4
ALGAL
UNITS
PER ML
X
X
60
119
X
X
X
X
X
4399
-------�
LAKE NAME: LAKE WYLIE
STCRET NUMBER: 4511
NYGAARD TROPHIC STATE INDICES
DATE 03 28 73 0? 12 73 09 20 73
MYXOPHYCEAN
CHLOROPHYCEAN
EUGLENOPHYTE
01ATOM
COMPOUND
3.00 E
3.00 E
0.17 ?
0.44 E
11. 0 E
1.50 E
2.50 E
0.12 ?
0.56 E
5.75 E
3.00 E
7.00 E
0/20 ?
1.00 E
12.0 E
PALMER'S ORGANIC POLLUTION INDICES
DATE 03 23 73 07 12 73 09 20 73
GENUS
SPECIES
11
00
09
00
12
00
en
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
EVENESS COMPONENT
CF INDIVIDUALS/TAXA
MOST ABUNDANT TAXON
HEAN NUMBER
NUMBER/ML OF
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATE
03 28 73 07 12 73 09 20 73
H
S
M
MAXH
D
N
J
L
K
3.36
27.00
4.00
4.75
10617.60
3160.00
0.71
117.04
627.00
3.62
42.00
4.00
5.39
16782.32
4636.00
0.67
110.38
874.00
3.81
34.00
4.00
5.09
3813.81
1C01.00
0.75
29.44
13^.00
-------�
LAKE NAME: LAKE WYLIE
T NUMBER: 4511
CONTINUED
03 28 73
07 12 73
09 20 73
TAXA
ANABAENA
ANAEAENA #1
ANABAENA #2
ANKISTRODESMUS
ANKISTPODESMUS FAL'CATUS
ASTERIONELLA
CENTRIC DIATOM
CENTRIC CIATQM #1
CHLAMYOCMONAS
CHLORELLA
CHLOPELLA VULGARIS
CHROOCDCCUS ?
CLCSTERIUM
CLCSTERIUM #2
COCCONEIS
COELASTRUM
COSMARIUM #1
COSMARIUM #2
CRUCIGEMA
CPUCIGENIA CRUCIFERA
CRUCIGENIA TETRAPEDIA
CRYPTCMCNAS
CRYPTOMCNAS #2
CYCLOTELLA
CYCLOTELLA STELLIGEPA ?
CYMBELLA
CACTYLOCOCCOPSIS
DINCBRYCN BAVARICUM
DINOFLAGELLATE #1
DINOFLAGELLATE #2
DINOFLAGELLATE #3
DINOFLAGELLAT5
FORM 1
FIL 1
FU
FIL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
COL
CEL
CEL
CEL
COL
CEL
CEL
COL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
r.FL
S
\
%C
.
.
1.6
2.5
9.9
4.1
0.3
0.8
ALGAL
UNITS
PER ML
52
X
73
i
X
314
131
26
X
26
- - - -
S
'
SEC
1.6
0.8
3.3
3.3
0.3
0.8
13.1
18.9
1.6
1.6
3.3
0.8
ALGAL
UNITS
PER ML
76
X
X
38
152
152
X
X
X
38
X
X
38
&08
874
X
76
76
152
38
S
'
*C
13.2
1.3
11.9
5.2
7.9
2.7
10.5
5.2
ALGAL \
UNITS
PEP. ML
132
13
X
119
52
79
X
27
X
105
X .
52
-pi
cr>
-------�
LAKE NAME: LAKE kYLIE
STCRET NUMBER: 4511
CONTINUED
03 28 73
07 12 73
09 20 73
TAXA
EPITHEMIA
EUGLENA
EUGLENA 01
EUNOTIA
FLAGELLATE #1
FLAGELLATE #2
FLAGELLATE #3
FLAGELLATES
FPANCEIA DROESCHERI
KIRCKNERIELLA CGNTORTA
LYNGBYA LIMNETICA
MELOSIRA
PELOSIRA «2
MELOSIRA OISTANS
MERISMOPEDIA
MERISMOPEDIA MAPSSONII
fICRCCYSTIS
MICPOCYSTIS INCERTA
MAVICULA #1
NAVICULA #2
MAVICULA #3
NITZSCHIA
NITZSCHIA *1
MTZSCHIA #2
OSCILLATCRIA
OSCILLATORIA LIMNETICA
PEDIASTPUM BIRADIATUM
V. LONGECCRNUTUM
FEDIASTRUM TETRAS
V. TETRAODON
PENNATE DIATOM #1
PENNATE DIATOM #4
FORM
CEL~
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
FIL
CEL
CEL
CEL
COL
COL
COL
CCL
CEL
CEL
CEL
CEL
CEL
CEL
FIL
FIL
COL
COL
CEL
CEL
s
.
zc
0.8
19.8
15.7
6.6
6.6
U.9
0.8
1.6
0.8
ALGAL
UNITS
PER ML
X
26
X
627
496
209
i
X
209
470
26
X
52
26
S
?c
13.1
0.8
0.8
13.1
13.9
0.8
0.8
0.8
3.3
0.3
0.9
ALGAL
UNITS
PER ML
X
608
X
38
38
60S
646
38
38
38
152
38
X
38
s
1C
6-6
2.7
7.9
7.9
1.3
2.7
ALGAL
UNITS
PER ML
66
27
79
X
79
X
13
X
X
27
X
-------�
LAKE NAME: LAKE WYLIE
STORET NUMBER: 4511
CONTINUED
03 29 73
07 12
09 20 73
TAX*
PHACUS HELIKOIDES
PINMILAPIA
RHIZOSCLENIA
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
V. ?
SCHNEOESMUS
SCENEDESMUS
V. LONGISPINA
SCENEDESMUS SOLI
SCHROEDERIA
STAURASTRUM
STAURASTRUM
STAURASTRUM
SYNECRA
SYNECRA ?
SYNEDRA #1
SYNEDRA #2
TABELLARIA
TETRAECRON
TETRAECRCN REGULARS
V- INCLS ?
TRCUBARIA
#1
ABUNDANS
ACUMINATUS
GUTHINSKII
QUADRICAUDA
QUADRICAUDA
SETIGERA
#2
FORM
CEL"
CEL
CEL
COL
COL
COL
COL
CCL
COL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
s
*c
0.8
11,6
ALGAL
UNITS
PER ML
X
26
X
366
X
'
S
[
K
0.8
'
ALGAL
UNITS
PER ML
X
X
38
X
'
X
X
X
X
s
1C
9.2
1-3
1.3
1.3
ALGAL
UNITS
PEP ML
92
X
X
X
X
X
13
13
X
13
X
-F*
00
TOTAL
3160
4636
1001
-------�
LAKE NAME: LAKE MOtLTRI?
STCPET NUMBER: 4512
NYGAARD TROPHIC ST»TE INDICES
DATE 07 09 73 09 21 73
MYXOPHYCEftN 3.00 E 1.50 E
CHLOROPHYCEAN 4.67 E 3.50 E
EUGLENOPHYTE 0/23 t 0/10 ?
DIATOM 0.67 E 1.00 E
CCPPCUNO 9.00 E 6.00 E
PALMER'S ORGANIC POLLUTION INDICES
DATE 07 09 73 09 21 *3
GENUS
SPECIES
22
07
06
10
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITED
FAXIfUK DIVERSITY
TOTAL DIVERSITY
TCTAL NUMBER OF INDIVIDUALS/ML
EVENESS CCMPONENT
MEAN NUMBER OF INDIVIOUALS/TAXA
NUMBER/ML OF MOST ABUNDANT TAXON
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATE 07 09 73 09 21 73
H
S
M
MAXH
D
N
J
L
K
3.56
39.00
6.00
5.29
48448.04
13609.00
a.67
34».95
3609.00
2.05
17000
6.00
4.09
36428.50
17770.00
Q.50
1045.29
7280.00
-------�
LAKE NAPE: LAKE MOULTRIE
STORET NUMBER: 4512
CONTINUED
07 09 73
09 21 73
TAXA
ACHNANTHES LANCECLATA
V. DUBIA
ANABAENA
ANABAENA #1
ANABAENA #2
ANKISTPODESMUS
CHROOCOCCUS
CLOSTERIUM
CO EL AST RUM
COELASTRUM PRINTS!I ?
COELASTRUM SPHAERICUK
CCSCINOOISCUS
COSMARIUM
CRYPTOMONAS #1
CYCLOTELLA STELLIGERA
DACTYLOCOCCOPSIS
DACTYLOCOCCQPSIS FASCICULARIS
DINOFLAGELLATE
EUASTRUM
FLAGELLATES
FRAGILARIA CROTONENSIS
FRANCEIA
GOLENKINIA
KIRCHNERIELLA
LYNGBYA LIMNETICA
NELOSIRA
NELOSIRA #2
MELOSIRA #3
KELOSIRA DISTANS
KERISMOPEDIA PUNCTATA
MERISMOPEDIA TENUISSIMA
MCRCCYSTIS INCERTA
FORM
CEL
FIL
FIL
FIL
CEL
COL
CEL
COL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
FIL
CEL
CEL
CEL
CEL
COL
COL
COL
S
ALGAL
UNITS
%C PER ML
X
0.7 93
2.0 278
0. 7 93
X
X
0.7 93
2.0 278
2.0 278
4.1 555
0.7| 93
0.7| 93
4.11 555
1 X
0.7| 93
1 X
1 X
26.51 3609
I
22.41 3054
1.4| 185
ll.6| 1573
1 X
2.0| 278
1.4| 185
S
?C
0.4
i
38.5
0.8
0.4
41.0
0.4
0.4
8.7
ALGAL
UNITS
PER ML
70
6850
140
X
70
7280
70
70
1540
en
o
-------�
LAKE NAHE: LAKE NCULTRIE
STORE! NUMBER: 4512
CONTINUED
0? 09 73
09 21 73
TAXA
NAVICULA
NITZSCHTA #1
OSCILLATORTA LIMN5TICA
FECIASTRUM CUPLEX
V« RETICULATUM
FECIASTRUM TETRAS
V. TETRAOCCN
PENNATE DIATOM #1
PENNATE DIATOM #2
PAPHIDICPSIS
SCENEDESMUS ABUNDANS
SCENFDESM'JS
SCENEDESMUS
SCENEDESMUS
SCENEOESMUS
SCENEDESMUS
SCENEDESMLS
V. LONGISPINA
STAURASTRUM
SYNE OR A
SYNECRA ULNA
TETRAEDRON MINIMUM
ACUMINATUS
BICALDATUS
BIJUGA
DENTICULATUS
DISPAR
QUADRICAUDA
FORM
CEL
CEL
FIL
COL
COL
CEL
CEL
FIL
COL
COL
CCL
COL
COL
COL
COL
CEL
CEL
CEL
CEL
S
%C
0.7
2.0
2.0
0.7
0.7
U.4
1.4
5.4
0.7
1.4
ALGAL
UNITS
PER ML
1 93
278
278
X
93
93
185
X
X
185
740
X
93
185
X
S
*C
0.4
0.4
4.3
0.4
3.2
0*3
ALGAL
UNITS
PER ML
70
70
77C
X
70
X
560
140
en
TOTAL
13609
17770
-------�
LAKE NAME: LAKE KECWEE
STCRET NUMBER: 4513
NYGAARO TROPHIC STVE INDICES
DATE 06 25 73 09 17 73 11 13 73
MYXOPHYCEAN
CHLOROPHYCEAN
EUGLENOPHYTE
DIATOM
COMPOUND
04/0 E
01/0 E
0/05 ?
0.67 E
09/0 E
8.00 E
3.00 E
0/11 ?
1.33 E
15.0 E
1. 00 E
^.00 E
0.20 ?
1.00 E
9.00 E
PALMER'S ORGANIC POLLUTION INDICES
DATE 06 25 73 09 17 73 11 13 73
GENUS
SPECIES
02
00
02
00
00
00
en
ro
AVERAGE DIVERSITY
NUMBER CF TAXA
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
EVENESS COMPONENT
MEAN NUMBER OF INDIVTDUALS/TAXA
NUMBER/ML OF MOST ABUNDANT TAXON
SPECIES DIVERSITY AND ABUNDANC? INDICES
DATE 06 25 73 09 17 73 11 13 73
H
S
M
MAXH
D
N
J
L
K
2.23
21.00
4.00
4.39
4326.20
1940.00
0.51
92.38
915.00
3.15
28.00
4.00
4.81
2101.05
667.00
0.65
23.82
231.00
2.60
12.00
4.00
3.53
156.00
60.00
0.73
5.00
17.00
-------�
LAKE NAPE: LAKE KECWEE
STORET NUMBER: 4513
CONTINUED
06 25 73
09 If 73
11 13 73
TAXA
ANABAENA #1
ASTFRTCNELLA
ASTEPICNELLA FORMOSA
CERATIUM HIRUNDIN^LLA
COELASTRUM #1
CCSMAPIUM
CRUCIGENIA TPTRAPECIA
CYANOPHYTAN FILAMENT
CYCLCTELLA
CYCLOTELLA STELLIGERA
CACTYLOCOCCOPSIS HI
DACTYLCCCCCCPSIS SMITHII
DINCBRYCN
CINOBRYCN SERTULARIA
OINOBRYCN SERTULARIA ?
OINOFLAGELLATE
EUGLENA
FLAGELLATE
FLAGELLATE #1
C-LOEOTHECE
LYNGBYA LIMNF/UCA
MALLCfCNAS
PELCSIRA #4
MFLOSIRA DISTANS
MELOSIRA ITALICA
V, TENl'ISSIMA
MEPISMQPEDIA TENUISSIMA
MICROCYSTIS INCERTA
HICRCTHAPMON STPICTISSIMUM
NAVICULA #1
NAVICULA #2
NAVICULA ELGINENSIS
FORM
FIL
CEL
CEL
CEL
COL
CEL
COL
FIL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
COL
FIL
CEL
CEL
CEL
CEL
COL
COL
FIL
CEL
CEL
CEL
S
*C
l.3|
0.6
0.6!
1.3
10.21
27.41
3.3
2.5
0.6
47.2
2.5
ALGAL
UNITS
PER ML
25
12
X
X
12
25
198
532
X
X
74
49
12
915
49
X
X
S
*C
1.5
6.3
1.5
1.5
4.6
10.9
6.3
1.5
14.1
6.3
1.5
1.5
ALGAL
UNITS
PER ML
X
10
42
10
X
X
X
10
31
X
73
42
10
X
94
X
42
X
10
10
X
S
*C
6.7
29.3
15.0
6.7
21.7
ALGAL
UNITS
PER ML
4
X
17
9
4
X
X
13
X
en
CO
-------�
LAKE
NAME: LAKE K=CWEE
T NUMBER: 4513
CONTINUED
06 25 73
09 17 73
11 13 73
TAXA
COCYSTIS
CSCILLATORIA
PENNATE DIATCVI #1
PER1DINIUM WISCCNSINENSE
CUACRIGULA CLOSTERIOIDES
PHIZCSCLENIA ERIENSIS
ROYA ?
SCENEDESMUS BIJUC-A
STAURASTRUM
SYMEDRA
TA8ELLARIA FENESTftATA
TOTAL
FORM
CEL
FIL
CEL
CEL
CEL
CEL
CEL
COL
CEL
CEL
CEL
S
%C
0.6
1.3
ALGAL
UNITS
PER ML
12
X
X
25
S
*C
4.6
34.6
3.1
ALGAL
UNITS
PER ML
X
31
X
X
231
X
21
S
'
*c
6.7
15.0
ALGAL
UNITS
PER ML
X
4
9
1940
667
60
en
-------�
LAKE NAME: LAKE SECESSION
NUMBER: 4514
MYXOPHYCEAN
CHLOROPHYCEAN
EUGLENOPHYTE
DIATOM
COMPOUND
NYGAARO TROPHIC STATE INDICES
06 26 73 09 13 73 11 14 73
2.40 E
4.20 E
0.13 ?
0.50 E
8.80 E
06/0 E
02/0 E
0.25 E
0.80 E
14/0 E
1.25 E
5,00 E
0.16 ?
0.50 E
8.25 5
PALMER'S ORGANIC POLLUTION INDICES
06 26 73 09 13 73 11 14 73
GENUS
SPECIES
10
00
00
00
15
07
tn
tn
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATE
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
EVENESS COMPONENT
MEAN NUMBER OF INDIVIDUALS/TAX A
NUMBER/ML OF MOST ABUNDANT TAXQN
06 26 73 09 18 73 11 14 73
H
S
M
MAXH
D
N
J
L
K
3.92
70.00
1.00
6.13
9325.68
2379.00
0.64
33.99
567.00
2.62
23.00
3.00
4.52
969.40
370.00
0.58
16.09
147000
4.03
55.00
3.00
5.78
21101.08
5236.00
0.70
95.20
1145.00
-------�
LAKE NAME: LAKE SECESSION
STCRET NUMBER: 4514
CONTINUED
06 26 73
09 18 73
11 14 T3
LANCECLATA
LANCECLATA
FALCATUS
TAXA
ACHNANTHES
ACHNANThES
V. DUBIA
ANABAENA #1
ANA8AENA #2
ANABAENA #3
ANABAENOPSIS
ANKISTBCDESMUS
ANKISTRODESMUS
APHANOTHECE
ASTERICNELLA FORMOSA
CENTRIC DIATOM
CERATIUM HIRUNOINELLA
CHROOCOCCUS DISPERSUS
CHFYSOCOCCUS
CLCSTEPIUM
COELASTRUM
COELASTRUM
CCSMARIUM
CRUCIGENIA
CRUCIGENIA
CRUCIGENIA
CAMBRICUM
SPHAERICUM
APICULATA
CRUCIFERA
TETRAPEDIA
CRYPTOMONAS ? #2
CRYPTOMCNAS #1
CRYPTOMONAS #2
CYANOPH\TAN FILAMENT
CYCLOTELLA STELLIGERA
DACTYLOCCCCOPSIS
DIN08RYON BAVARICUM
OINCBRYCN SERTULARIA
OINOFLAGELLATE #1
OINOFLAGELLATE #2
FORM
CEL
CEL
FIL
FIL
FIL
FIL
CEL
CEL
COL
CEL
CEL
CEL
COL
CEL
CEL
COL
COL
CEL
COL
COL
COL
CEL
CEL
CEL
FIL
CEL
CEL
CEL
CEL
CEL
CEL
S
1
%C
0.9
0.5
0.5
0.5
0.3
0.5
14.2
1.6
2.7
2.7
3.0
1.9
0.3
ALGAL
UNITS
PER ML
X
X
21
X
X
11
11
11
6
13
X
X
X
X
337
38
64
64
71
46
7
S
*C
39.7
13.2
6.8
6.8
ALGAL
UNITS
PER ML
147
X
X
49
25
X
X
25
X
S
1
«C
0.5
21.9
0.5
0.5
0.5
0.5
3.6
1*6
2.6
•
4.2
l.l
I .1
ALGAL
UNITS
PER ML
X
27
1145
X
27
27
X
27
27
X
191
82
136
218
55
X
X
55
-------�
LAKE NAME: LAKE SECESSION
STCRET NUMBER: 4514
CONTINUED
06 26 73
09 18 73
11
73
TAXA
DINOFLAGELLATE 03
DINCFLAGELLATE #4
EUASTRUM
EUDORINA ?
EUGLENA
EUGLENA M
EUGLENA #2
EUGLENA ACIS
EUGLENA ACUS
V. RIGICA
FLAGELLATES
FRUSTULIA RHCMBCIOES
V. CAPITATA
GOLENKINIA
GYHNOOINIUM ?
KIRCHNERIELLA
LAGERHEIMIA
LAGERHEIMIA CILIATA
V. MINOR
LYNGBYA LAGERHEIMII
LYNGBYA LIMNETICA
MELOSIRA #2
PELOSIRA DISTANS
MERISMOPEOIA MARSSONII
MICRACTINIUM PUSILLUM
MICRCCYSTIS INCERTA
NAVICULA #1
NAVICULA #2
NAVICULA #3
NAVTCULA #4
NAVICULA SUBTILISSIMA ?
NAVICULA VIRIOULA
V. LINEARIS
FORM
CEL
CEL
CEL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
FIL
FIL
CEL
CEL
COL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
S
4
2
5
*C
0.5
0.3|
0.3
0.5
9.6
0.3
0.7
0.3
1.0
2.3
23.9
1.1
6.6
ALGAL
UNITS
PER ML
11
6
7
X
13
X
X
228
X
7
X
17
6
23
54
367
27
205
X
X
X
S
*C
6.8
ALGAL
UNITS
PER ML
X
X
25
X
X
X
X
X
S
%C
0.5
1.1
19.3
5.2
0.5
0.5
0.5
ALGAL
UNITS
PER ML
27
55
X
1CC9
X
X
273
27
27
27
in
-------�
LAKE NAPE: LAKE SECESSION
STRET NUMBER: 4514
CONTINUED
06 26 73
09 18 73
11 14 73
TAXA
NEPHROCYTIUM AGAPDHIANUM
MTZSCHIA
COCYSTIS
OSCILLATORIA
FANDCRINA MCRUM
PEDIASTRUM BIRACIATUM
V. LONGECORNUTUM
PEDIASTRUM DUPLEX
PEDIASTRUM DUPLEX
V. RETICULATUM
PECIASTRUM TERRAS
V. TETRAODQN
PEf.NATE DIATOM #1
PHACUS #1
PHACUS LONGICAUDA
PINNULARIA
RAPHIDICPSIS
RHIZOSOLENIA
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
SCENEOESMUS
SCENEDESMUS
SCHPOEDERIA
STAUPASTRUM
STAURASTRUM
STAUPASTPUM
SYNEDRA #1
SYNEDRA #2
#1
ABUNOANS
ACUMINA^US
BICAUOATUS
BIJUGA
DISPAR
QUACRICAUDA
SETIGERA
#1
#2
#3
FCRM
COL"
CEL
CEL
ML
COL
COL
COL
COL
COL
CEL
CEL
CEL
CEL
FIL
CEL
COL
COL
cot
COL
COL
COL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
s
«v«
3
*C
0.5
2.7
0.5
0.3
1.0
2.4
0.6
0.5
0.3
10.6
ALGAL
UNITS
PER ML
13
X
64
13
X
X
7
23
58
X
X
X
X
15
X
13
X
X
6
X
252
S
*C
6.8
6.8
13.2
ALGAL
UNITS
PER ML
X
X
'
X
25
25
49
S
*C
5.7
1.1
0.5
1.1
1.1
5.7
4.2
1.1
4.7
1.1
ALGAL
UNITS
PEP ML
300
X
X
X
55
X
X
X
X
27
55
X
55
X
300
218
55
Y 1
245 1
55
-------�
LAKE NAME: LAKE SECESSION
STPET NUMBER: 4514
CONTINUED
06 26 73
09 13 73
11 14 73
TAXA
SYNECPA DELICATISSIMA
SYNE OR A ULNA
TAB ELL ARIA
TETPAEDRON
TETRAEDBCN
TETPAEORCN
TETPAECRCN
V. INCUS
TFTPAECPCN TRIGONUM
V. GPACILE
TETRASTRUM HETERACANTHUM
TRAChELOMONAS
TPEUBARIA
#1
GRAC1LE
MINIMUM
FORM
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
COL
CEL
CEL
S
*C
0.9
1.0
ALGAL
UNITS
PER ML
21
X
X
X
X
X
23
S
%C
ALGAL
UNITS
PER ML
.
S
%C
l.l
3.6
0.5
0.5
\.6|
0.5
ALGAL
UNITS
PER ML
X
55
191
27
27
82
1 27
en
10
TOTAL
2379
370
5236
-------�
LAKE NAME: SALUDA LAKE
STQRET NUMBER: 4515
NYGAARD 'RCPHIC STATE INDICES
GATE 06 22 73 09.1.3 73 11 14 73
MYXGPHYCEAN
CHLCROPHYCEAN
E'JGL€NOPHYTE
DIATOM
CCMPOUND
2.00 E
2.00 E
^.25 E
0.22 7
7.00 E
0.67 ?
0.33 ?
0.33 E
0.75 E
3.33 =
4.00 E
4.00 E
0.12 ?
0.33 E
14.0 E
PALMER'S ORGANIC POLLUTICN INDICES
DATE 06 22 73 09 13 73 11 14 73
GENUS
SPECIES
00
00
00
00
00
00
01
o
SPECIES DIVERSITY AND ABUNDANCE INDICES
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAPPLES COMPOSITED
MAXIMUM DIVERSITY
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
EVENESS COMPONENT
MEAN NUHBER CF INDIVIDUALS/TAX A
NUMBER/ML OF MOST ABUNDANT TAXON
DATE
06 22 73 09 13 73 11 14 73
H
S
M
MAXH
0
N
J
L
K
1.99
20.00
2*00
4.32
345.75
425,00
0.45
21.25
265.00
2.93
23.00
2.00
4.52
668.04
223.00
0.65
9.91
62.00
3.65
33.00
2.00
5.04
613.20
168.00
0.72
5.09
28.00
-------�
LAKE NAME: SALUCA LAKE
STCRET NUMBER: 4515
CONTINUED
06 22 73
09 18 73
11 14 73
TAXA
ACHNANTHES
ANABAENA
ANK1STRCDESMUS
ANKI STRODESMUS FALCATUS
ASTERIONELLA #1
ASTERIONELLA #2
ATTHEYA
CLCSTERIUM
COCCONEIS
COSMARIUM
CRUCIGENIA TETRAPEDIA
CRYPTOMONAS #1
CYCLOTELLA
CYCLCTELLA STELLIGERA
DINOBPYON #1
C1NCBRYCN H2
CTNOFLAGELLATE
EUGLENA #1
EUGLENA #2
EUNOTIA #1
EUNOTIA #2
EUNOTIA ARCUS
FLAGELLATES
FRAGILAPIA
FPUSTULTA RHCMBC10ES
V. SAXONICA
GCVPHONENA
LYNGBYA CCNTORTA
MELOSIRA #2
^ELOSIPA #5
MELCSIRA DISTANS
MERISMOPED1A TENUISSIMA
-------�
LAKE NAME: SALUCA LAKE
STCRET NUMBER: 4515
CONTINUED
06 22 73
09 18 73
TAXA
NAVICULA «1
NAVICULA #2
NAVTCULA #3
NAVICULA BICONICA
NITZSCHIA #1
NITZSCHIA ACICULARIS
CSCILLATORIA «l
OSCILLATQRIA LIMNETICA
PENMATE DIATOM #1
PERIOIKIUM WISCCNSINENSE
PINNULARIA *1
PINNULIRIA CBSCUPA
RAPHIDIOPSIS
RHIZQSOLENIA
PHIZOSCLENIA ER1ENSIS
SCENEDESMUS
SCENEDESMUS QUACRICAUOA
STAURASTRUM
SUPIRELLA ANGUSTATA
SYNEORA
SYNEORA SOCIA
FORM
CEL"
CEL
CEL
CEL
CEL
CEL
FIL
FIL
CEL
CEL
CEL
CEL
FIL
CEL
CEL
COL
COL
CEL
CEL
CEL
CEL
1
IS
12
3
*C
[ 8.2
4.2
8.2
4.2
ALGAL
UNITS
PER ML
35
X
X
18
35
18
X
X
X
S
5
«C
3.3
5.3
3.5
ALGAL
UNITS
PER ML
T12
X
X
12
X
8
S
3
5
*C
4.8
?»4
1^.3
4.8
2.4
4.8
2.4
2.4
7.1
11 14 73
ALGAL
UNITS
PER ML
» • i
X
X
X
8
4
24
4
X
8
X
4
4
X
X
12
ro
TOTAL
425
228
168
-------�
LAKE NAME: LAKE *ILLIAf C. BCWEN
STORET NUMBER: 4516
MYXOPHYCEAN
CKLOROPHYCEAN
eUGLENCPHYTE
DIATOM
COMPOUND
NYGAAftD TRCPHIC STATE INCICES
03 29 73 07 11 73 09 2C 73
02/0 E
0/0 0
0/02 ?
0.67 E
04/0 E
3.50 E
2.50 E
0.25 E
1.33 5
9.50 E
2.33 E
1.33 E
0.13 ?
1.50 E
5.33 E
PALMER'S ORGANIC PCLLUTICN INDICES
DATE 03 29 73 07 11 73 09 20 73
GENUS
SPECIES
01
00
03
00
03
00
00
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATE 03 29 73 07 11 73 09 20 73
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY MAXH
TOTAL DIVERSITY
TOTAL NUMBER OP INDIVIDUALS/ML
EVENESS COMPONENT
MEAN NUMBER CF INOIVIDUA1S/TAX A
NUMBER/ML OF MOST ABUNDANT TAXON
H
S
M
;H
D
N
J
L
K
1.62
11.00
3.00
3.46
656.10
405.00
0.47
36.82
223.00
2.33
29.00
3.00
4.86
7031.94
3018.00
0.48
104.07
1383.00
2.51
29.00
3.00
4.86
3933.17
1567.00
0.52
54.03
592.00
-------�
LAKE NAME: LAKE WILLIAM C. BOWEN
STCRET NUMBER: 4516
CONTINUED
03 29 73
07 11 73
09 20 73
TAXA
ANA8AENA «1
ANABAENA #2
ANABAENA #3
ANKISTRODESMUS
ARTHROOESMUS
ASTERICNELLA FORMOSA
CHRYSOCCCCUS
COELASTRLM MICROPORUf
COSMAFIUM
CCSMARIUM #1
CRUCIGENIA TETRAPEOIA
CPYPTOMONAS #1
CRYPTCMCNAS #2
CRYPTQMONAS EROSA
CYCLOTELLA STELLIGERA
OACTYLCCCCCOPSIS IRREGULARIS
DICTYOSPHAERIUM PULCHELLUM
DINOBPYCN
DINCBRYON DIVERGENS
DINO FLAGELLATES
EUGLENA
EUGLENA #1
EUGLENA #2
FLAGELLATES
GLCEOTHECE
GCMPHOSPHAERIA LACUSTRIS
KIRCHNER1ELLA
LUNATE CELLED COLONY
LYNGBYA LAGERHEIMII
LYNGBYA LIMNE^ICA
MALLOMONAS
PALLCMCNAS ALPINA
FORM
FIL
FIL
FIL
CEL
CEL
CEL
CEL
COL
CEL
CEL
COL
CEL
CEL
CEL
CEL
CEL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
COL
COL
CEL
COL
FIL
FIL
CEL
CEL
S
2
1
?C
4.9
55.1
ALGAL
UNITS
PER ML
X
20
.
223
X
X
S
.
?c
0.8
0.8
45.8
.
3.0
1.5
0.8
4.6
3.8
.
0.8
ALGAL
UNITS
PER ML
X
X
X
X
23
X
23
1383
X
92
46
X
23
138
115
X
X
23
S
*C
2.2
1.5
0.8
1.5
29.6
1.5
11.9
3.7
0.8
1.5
ALGAL
UNITS
PER ML
35
X
X
23
X
12
X
23
X
464
X
X
'
23
186
53
12
23
-------�
LAKE NAME: LAKE WILLIAM C. BOWEN
SECRET NUMBER: 4516
CONTINUED
03 29 73
07 11 73
09 20 73
TAXA
HALLCMCNAS PSEUCCCCRCNAT A
PELOSIRA
MELOSIRA #2
HELOSIPA OISTANS
MELOSIRA ITALICA
MERISMOPEOIA MINIMA
MERISMOPEDIA TgNUISSIMA
PICROCYSTIS INCERTA
MOUGEOTIA
NAVICULA
NAVICULA RHYNCHOCEPHALA
NITZSCHIA
CCCYSTIS
OOCYSTIS SUBMARINA
PENNATE CIATCM #1
PERIOINIUM INCONSPICUUf
PEPIOINIUM WISCONSINENSE
PHACUS
SCENEDESMUS ABUNDANS
SCENEDESMUS 8IJUGA
STAURASTRUM
SYNEDRA
SYNFORA ULNA
TCTAL
FORM
CEL
CEL
CEL
CEL
COL
COL
CCL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CCL
COL
CEL
CEL
CEL
s
4
3
*C
20.0
20.0
.
ALGAL
UMTS
PER ML
81
X
81
X
X
.
X
405
S
*C
27.5
0.8
8.4
0.8
0.8
ALGAL
UNITS
PER ML
X
X
830
23
253
X
23
X
23
X
X
3018
S
*C
37.8
5.9
1.5
ALGAL
UNITS
PER ML
X
X
592
93
X
23
X
X
X
X
X
X
1567
en
-------� |