U.S. ENVIRONMENTAL PROTECTION AGENCY
NATIONAL EUTROPHICATION SURVEY
WORKING PAPER SERIES
DISTRIBUTION OF PHYTOPLANKTON
IN ARKANSAS LAKES
WORKING PAPER NO. 694
CORVALLIS ENVIRONMENTAL RESEARCH LABORATORY - CORVALLIS, OREGON
and
ENVIRONMENTAL MONITORING & SUPPORT LABORATORY - LAS VEGAS, NEVADA
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DISTRIBUTION OF PHYTOPLANKTON
IN ARKANSAS LAKES
WORKING PAPER NO. 694
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DISTRIBUTION OF PHYTOPLANKTON IN ARKANSAS LAKES
by
J. W. Hilgert*, F. A. Morris*, M. K. Morris*, W. D. Taylor,
L. R. Williams, S. C. Hern, and V. W. Lambou
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. 694
NATIONAL EUTROPHICATION SURVEY
OFFICE OF RESEARCH AND DEVELOPMENT
U.S. ENVIRONMENTAL PROTECTION AGENCY
September 1977
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FOREWORD
The National Eutrophication Survey was initiated in 1972 in response to
an Administration commitment to investigate the nationwide threat of acceler-
ated eutrophication to freshwater lakes and reservoirs. The Survey was
designed to develop, in conjunction with State environmental agencies, infor-
mation 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 watershed.
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.
iii
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CONTENTS
Page
Foreword ill
Introduction 1
Materials and Methods 3
Lake and Site Selection 3
Sample Preparation 3
Examination 4
Quality Control 5
Results 6
Nygaard's Trophic State Indices 6
Palmer's Organic Pollution Indices 6
Species Diversity and Abundance Indices 8
Species Occurrence and Abundance 10
Literature Cited 11
Appendix A. Phytoplankton Species List for the State
of Arkansas 12
Appendix B. Summary of Phytoplankton Data 16
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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 1974, the Survey sampled 179 lakes in
10 States. Over 700 algal species and varieties were identified and enumerated
from the 573 water samples examined.
This report presents the species and abundance of phytoplankton in the
16 lakes sampled in the State of Arkansas (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 IN THE STATE OF ARKANSAS
STORET No.
0501
0502
0503
0504
0505
0506
0507
0508
0509
0510
0511
0512
(Continued)
Lake Name
Beaver Lake
Blackfish Lake
Blue Mountain Lake
Bull Shoals Lake
Lake Catherine
Lake Chicot
DeGray Lake
Lake Erling
Grand Lake
Lake Hamilton
Millwood Lake
Nimrod Lake
County
Benton, Carroll, Washington
Crittenden, St. Francis
Logan, Yell
Baxter, Boone, Marion
(Taney, Ozark in Mo.)
Garland, Hot Spring
Chicot
Clark, Hot Spring
Lafayette
Chicot
Garland
Hempstead, Howard, Little
River, Sevier
Perry, Yell
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TABLE 1. LAKES SAMPLED IN THE STATE OF ARKANSAS (Continued)
STORET No.
Lake Name
County
0513
0514
0515
0516
Norfolk Lake
Lake Ouachita
Table Rock Lake
Greer's Ferry Lake
Baxter, Fulton (Ozark in Mo.)
Garland, Montgomery
Boone, Carroll (Barry,
Taney in Mo.)
Van Buren, Cleburne
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MATERIALS AND METHODS
LAKE AND SITE SELECTION
Lakes and reservoirs included in the Survey were selected through dis-
cussions with State water pollution agency personnel and U.S. Environmental
Protection Agency Regional Offices (U.S. Environmental Protection Agency
1975). Screening and selection strongly emphasized lakes with actual or
potential accelerated eutrophication 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 in 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-site
judgment of the field limnologist (U.S. Environmental Protection Agency
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 uniform mixtures 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 repre-
senting 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
To preserve the sample 4 milliliters (ml) of Acid-Lugol's solution
(Prescott 1970) were added to each 130-ml sample from each site at the time of
collection. 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.
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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 supernate. The volume of the removed supernate and the
volume of the remaining concentrate were measured and concentrations deter-
mined. 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 in 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 in 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
Environmental Monitoring and Support Laboratory-Las Vegas.
EXAMINATION
The phytoplankton samples were examined with the aid of binocular com-
pound microscopes. A preliminary examination was performed to precisely
identify and list 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 in each sample. Often forms were ob-
served 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 10X 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.
Registered trademark
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QUALITY CONTROL
Internal quality control intercomparisons on species identifications and
counts were performed on a regular basis among project phycologists at the
rate of 7 percent. Although an individual had primary responsibility for
analyzing a sample, taxonomic problems were discussed among the phycologists.
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 is satis-
factory.
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RESULTS
A phytoplankton species list for the State is presented in Appendix A.
Appendix B summarizes all of the phytoplankton data collected from the State
by the Survey. The latter is organized by lake, including an alphabetical
phytoplankton species list 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. Environmental Protection Agency'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 iden-
tify 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 in order to aid in determining the surveyed
lakes' trophic status. As a general rule, Cyanophyta, Euglenophyta, centric
diatoms, and members of the Chlorococcales are found in waters that are
eutrophic (rich in nutrients), while desmids and many pennate diatoms gener-
ally 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 in Table 2. The
appropriate symbol, (E) eutrophic and (0) oligotrophic, follows each calculated
value in the tables in Appendix B. A question mark (?) following a calculated
value in these tables was entered when that value was within the range of both
classifications.
PALMER'S ORGANIC POLLUTION INDICES
Palmer 0-969) 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.
6
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TABLE 2. NYGAARD'S TROPHIC STATE INDICES ADAPTED FROM HUTCHINSON (1967)
Index
Calculation
Oligotrophic Eutrbphic
Myxophycean
Chlorophycean
Diatom
Euglenophyte
Compound
Myxophyceae
Desmideae
Chlorococcales
Desmideae
Centric Diatoms
Pennate Diatoms
Euglenophyta
Myxophyceae + Chlorococcales
Myxophyceae + Chlorococcales +
Centric Diatoms + Euglenophyta
Desmideae
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
TABLE 3. ALGAL GENUS POLLUTION INDEX
(Palmer 1969)
TABLE 4. ALGAL SPECIES POLLUTION
INDEX (Palmer 1969)
Genus
Anacystis
Ankis trodesmus
Ch lamydomonas
ChloTella
Closterium
Cyolotella
Euglena
Gomphonema
Lepocinclis
Me losira
Micraatinium
Navieula
Nitzsahia
Osaillatoria
Pandori.no,
Phacus
Phormidium
Soenedesmus
Stigeoalonium
Synedfa
Pollution
Index
1
2
4
3
1
1
5
1
1
1
1
3
3
5
1
2
1
4
2
2
Species
Pollution
Index
Ankistrodesmus faloatus 3
Arthrospira jenneri 2
Chlovella vulgaris 2
Cyclotella menegh-iniana 2
Euglena gracilis 1
Euglena v-iridis 6
Gomphonema parvulum 1
Melosira varians 2
Navicula eryptocephala 1
Nitzsehia acieularis 1
Nitzsch-ia palea 5
Osaillatoria chlofina 2
Osaillatoria limosa 4
Oscillatoria princeps 1
Osaillatoria putrida 1
Osoillatoria tenuie 4
Pandorina morum 3
Soenedesmus qttadrioauda 4
Stigeoelonium tenue 3
Syndra ulna 3
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In analyzing a water sample, any of the 20 genera or species of algae
present in concentrations of 50 per milliliter 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 is taken as probable evidence of high organic pollution. Lower
figures suggest that the organic pollution of the sample is not high, that the
sample is not representative, or that some substance or factor interfering
with algal persistence is present and active.
SPECIES DIVERSITY AND ABUNDANCE INDICES
"Information content" of biological samples is 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 (Pielou
1966). There are several methods of measuring diversity, e.g., the formulas
given by Brillouin (1962) and Shannon and Weaver (1963). The method which is
appropriate depends on the type of biological sample on hand.
Pielou (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 in Pielou's
terminology) from which random subsamples can be drawn. According to Pielou,
the average diversity per individual (H) for these types of samples can be
estimated from the Shannon-Wiener formula (Shannon and Weaver 1963):
S
H - -I P1logxP1
1-1
where P is the proportion of the ith taxon in the sample, which is calculated
from n./N; n. is the number of individuals per milliliter of the ith taxon; N
is the total number of individuals per ml; and S is the total number of taxa.
However, Basharin (1959) and Pielou (1966) have pointed out that H calculated
from the subsample is a biased estimator of the sample H, and if this bias is
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.
Pielou (1966) suggests that if the number of taxa in the subsample falls
only slightly short of the number in the larger sample, no appreciable error
will result in 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.
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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 impor-
tance 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. This was verified by our own calcu-
lations. Our counts are in number per milliliter 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 milliliter or 0.008 per milliliter 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 phyto-
plankton collected at different sampling sites on the lake during a given
sampling period. Since the number of samples CM) 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 Iog2 S
(Pielou 1966), while the minimum diversity (MinH), was estimated from the
formula:
MinH = -^i— x TN- (s-Dl^ TN-
given by Zand (1976). The total diversity (D) was calculated from HN
(Pielou 1966). Also given in Appendix B are L (the mean number of individuals
per taxa per milliliter) and K (the number of individuals per milliliter of
the most abundant taxon in the sample).
The evenness component of diversity (J) was estimated from H/MaxH (Pielou
1966). Relative evenness (RJ) was calculated from the formula:
H-MinH
RJ
MaxH-MinH.
given by Zand (1976). Zand suggests that RJ be used as a substitute for both
J and the redundancy expression given by Wilhm and Dorris (1968). As pointed
out by Zand, the redundancy expression given by Wilhm and Dorris does not
properly express what it is intended to show, i.e., the position of H in the
range between MaxH and MinH. RJ may range from 0 to 1; being 1 for the most
even samples and 0 for the least even samples.
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 in
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
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evenly distributed samples. Also, it can be used to compare different samples,
independent of the number of taxa in each. The diversity in bits per individ-
ual should not be used in direct comparisons involving various samples which
have different numbers of taxa. Since MaxH equals log S, the expression in
sits is equal to log^ S, or 1. Therefore diversity in sits per individual is
numerically equivalent to J, the evenness component for the Shannon-Wiener
formula.
SPECIES OCCURRENCE AND ABUNDANCE
The alphabetic phytoplankton species list for each lake, presented in
Appendix B, gives the concentrations of individual species by sampling date.
Concentrations are in cells, colonies, or filaments C.CEL, COL, FIL) per
milliliter. An "X" after a species name indicates the species identified in
the preliminary examination was in such a low concentration that it did not
appear in the count. A blank space indicates that the organism was not found
in the sample collected on that date. Column S is used to designate the
examiner's subjective opinion of the five dominant taxa in a sample, based
upon relative size and concentration of the organism. The percent column
presents, by abundance, the percentage composition of each taxon.
10
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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. Artin
(ed.), Theory of Probability and Its Applications (.translation of "Teoriya
Veroyatnosei i ee Premeneniya") 4. Society for Industrial and Applied
Mathematics, Philadelphia.
Brillouin, L. 1962. Science and Information Theory C2nd ed.). Academic
Press, New York. 351 pp.
Hutchinson, G. E. 1967. A Treatise on Limnology. II. Introduction to Lake
Biology and the Limnoplankton. 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.) Biol. Sci. 7:293.
Palmer, C. M. 1969. A composite rating of algae tolerating organic pollution.
J. Phycol. 5:78-82.
Pielou, E. C. 1966. The measurement of diversity in 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 lacustrine phyto-
plankton. I. The components of the index of diversity from Shannon's
formula. Amer. Natur. 103(929):51-59.
Shannon, C. E. and W. Weaver. 1963. The Mathematical Theory of Commu-
nication. 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 Corvallis Environmental Re-
search Laboratory, Corvallis, Oregon. 91 pp.
Wilhm, V. L. and T. C. Dorris. 1968. Biological parameters for water quality
criteria. Bio-Science. 18:477.
Zand, S. M. 1976. Indexes associated with information theory in water
quality. Journal WPCF. 48(8):2026-2031.
11
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APPENDIX A
PHYTOPLANKTON SPECIES LIST FOR THE STATE OF ARKANSAS
12
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Achnanthes lanoeolata
Aohnanthes lanoeolata
v. dubia
Aohnanthes miorooephala
Aotinastrum graoilimum
Aotinastrum hantssohii
v. fluviatile
Anabaena planotoniaa
Anabaenopsis sp.
Anabaenopsis oiroularis
Anabaenopsis elenkinii
Anabaenopsis raoiborskii ?
Ankistrodesmus faloatus
Ankistrodesmus faloatus
v. aoioularis
Ankistrodesmus faloatus
v. mirabilis
Aphanizomenon flos-aquae
Aphanooapsa sp.
Aphanotheoe sp.
Arthrodesmus minor ?
Asterionella formosa
At theya sp.
Binuclearia sp.
Caloneis lewisii
Capartogramma orucicula
Carteria klebsii
Centritraotus sp.
Ceratium hirundinella
Ceratium hirundinella
f. brachyceras
Ceratium hirundinella
f. furooides
Ceratium hirundinella
f. robustum
Chlamydomonas globusa
Chlorogonium sp.
Chroocooous dispersus
Chroocoaous limnetious
Chroomonas aouta
Closteriopsis sp.
Closterium sp.
CooooneiS' sp.
Coelastrum aambrioum
v. intermedium
Coelastrum mioroporum
Coelastrum probosoideum
Coelastrum retioulatum
Coelastrum retioulatum
v. polyohordon
Coelastrum sphaerioum
Coelosphaerium naegelianum
Cosmarium clepsydra
V. nanum
Cruaigenia apioulata
Cruoigenia oruoifera
Crugigenia fenestrata
Crugigenia quadrata
Cruoigenia tetrapedia
Cruoigenia trunoata
Cryptomonas erosa
Cryptomonas marssonii
Cryptomonas reflexa
Cyolotella oomta
Cyalotella meneghiniana
Cyolotella miohiganiana
Cyolotella stelligera
Cymatopleura elliptiaa
Cymatopleura solea
Cymbella minuta
Cymbella tumidula
Cymbella ventrioosa
Daotyloooocopsis irregularis
Diatoma tenue
v. elongatum
Diatoma vulgare
v. breve
Diotyosphaerium pulohellum
Dinobryon bavarioum
Dinobryon aylindriaum
Dinobryon divergens
Dinobryon sooiale
Elakatothrix gelatinosa
Entomoneis ornata
Euastrum dentioulatum
Eudorina elegans
Euglena aaus
Euglena graoilis
Euglena limnophila
V. lemmermannii ?
Euglena oxyuris
v. minor
Euglena tripteris
Eunotia peotinalis
v. minor f. impressa
Eunotia peotinalis
v. ventricosa
Fragilaria orotonensis
Franoeia ovalis ?
Glenodinium gymnodinium
Glenodinium gymnodinium
v. bisoutelliforme
Glenodinium kulozynskii
Glenodinium ooulatum
13
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o
Glenodinium penardiforme
Glenodiniwn quadridens
Gloeocystis sp.
Golenkinia radiata
v. brevispina
Gomphonema gracile
Gomphonema parvulum
Gomphonema truncation
v. capitation
Gonatozygon montaeniwn
Gonium pectorale
Gymnodinium albulum
Gyrnnodiniion ordinatum
Gyrosigma sp.
Hantzschia sp.
Kirchneriella contorta
Lagerheimia ciliata
Lagerheimia quadriseta
Lagerheimia subsalsa
Lepoci.nct'Ls sp.
Lyngbya birgei
Lyngbya contorta
Lyngbya hieronymusii
Lyngbya lirmetica
Mallomonas acaroides
Ma 1lomonas pseudocoronata
Melosira distans
Melosira granulata
Melosira granulata
v. angustissima
Melosira granulata
V. angustissima f. spiralis
Melosira italica
Melosira varians
Merismopedia glauca
Merismopedia minima
Merismopedia punctata
Merismopedia tenuissima
Mesostigma viridis
Micractinium pusillwn
Microcystis aeruginosa
Microcystis incerta
Mougeotia sp.
Navicula capitata
Navicula cuspidata
Navicula salinanan
v. intermedia
Navicula viridula
v. linearis
Nephrocytium sp.
Nitzschia acicularis
Nitzschia holsatica
Nitzschia vermicularia
Oocystis sp.
Ophioaytium capitatwn
Oscillatoria lacuatris
Oscillatoria lirmetica
Pandorina morion
Pediastnm biradiatum
Pediastnm biradiatum
v. longecomutum
Pediastnm boryanwn
Pediastnm duplex
Pediastnm duplex
v. reticulatum
Pediastnm simplex
Pediastnm simplex
V. duodenarium
Pediastnm tetras
v. tetraodon
Peridiniwn inconspicuum
Peridiniwn munusculum
Peridiniwn quadridens
Peridiniwn umbonation
Peridiniwn willei
Phacus acuminatus
Phacus caudatus
Phacus chloroplastes
Phacus longicauda
Phacus megalopsis
Phacus pleuronectes ?
Phacus pseudonordstedtii
Phacus tortus
Phacus triqueter
Phormidium mucicola
Pinnularia mesolepta
Pteromonas aculeata
Pteromonas angulosa
Pteromonas cordiformis
Quadrigula sp.
Eaphidiopsis curvata
Rhizosolenia sp.
Rhoicosphenia curvata
Scenedesmus abundans
Scenedesmus acuminatus
Scenedesmus arcuatus
v. platydisca
Scenedesmus armatus
v. ?
Scenedesmus bicaudatus
Scenedesmus bijuga
Scenedesmus brevispina
14
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Scenedesmus denticulatus
Scenedesmus dimorphus
Scenedesmus intermedius
Scenedesmus intermedius
v. bicaudatus
Scenedesmus o'valternus
v. graevenitzii
Scenedesmus protuberans
Scenedesmus quadricauda
Scenedesmus quadricauda
v. quadrispina f. spinosus
Schroederia setigera
Scytonema sp.
Selenastnan minutum
Skeletonema potamos
Spermatozoopsis sp.
Staurastrum cuspidatum
Staurastrum tetracemm
Stephanodiscus astraea
v. minutula
Stephanodiscus niagarae
Stipitococcus sp.
Surirella angusta
Surirella teneva
Synedra acus
Synedra capitata
Synedra delicatissima
Synedra delicatissima
v. angustissima
Synedra rumpens
Synedra ulna
Synura uvella
Tabellaria fenestrata
Tetraedron caudatum
Tetraedron caudatum
v. longispinum
Tetraedron constriction
Tetraedron gracile
Tetraedron limneticum
Tetraedron minimum
Tetraedron minimum
v. scrobiculatum
Tetraedron muticum
Tetraedron regulare
Tetraedron trigonum
Tetraedron trigonum
V. gracile
Tetrastrum elegans
Tetrastrum heteracanthum
Tetrastrum staurogeniaeforme
Trachelomonas bulla
Trachelomonas fluviatilis
Trachelomonas gibberosa
Trachelomonas hispida
Trachelomonas intermedia
Trachelomonas lacustris
Trachelomonas longicauda
Trachelomonas scabra
Trachelomonas scabra
v. cordata
Trachelomonas scabra
V. longicollis
Trachelomonas schauinslandii
Trachelomonas volvocina
Treubaria setigerum
15
-------
APPENDIX B. SUMMARY OF PHYTOPLANKTON DATA
This appendix was generated by computer. Because it was only possible to
use upper case letters in the printout, all scientific names are printed in
upper case and are not italicized.
The alphabetic phytoplankton lists include taxa without species names
(e.g., EUNOTIA, EUNOT1A #1, FLAGELLATE, FLAGELLATES, MICROGYSTIS 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 list, unless otherwise
noted, for counting purposes.
Numbers were used to separate unidentified species of the same genus. A
generic name listed alone is also a unique species. A question mark (?) is
placed immediately after the portion of a name which was assigned with uncer-
tainty. 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.
16
-------
LAKE NAME: BEAVER I AKE
STORPT NUMBER: o?oi
NYGAA?D TROPHIC STATE INOICFS
DATE 04 05 74 08 30 74 10 09 74
MYXDPHYCEAN
CHLOROPHYCEAV
EUGLENOPHYTc
DIATOM
COMPOUND
32/1 E
0?/3 F
0.53 P.
rt. 8> P
11/3 E
3.53 E
6.50 c
0.30 F
0.50 P
14. 5 E
5.33 P
7.00 c
0.67 F
1.4Q =
37.0 c
PALMER'S CYANIC POLLUTITN IMOKE<
04 OS 74 OS HO 74 10 09 74
SPECIFS
01
02
10
00
01
00
SPc:iES OIVE'SITY ANfl ABUNDANCE
DATE 04 OS 7
771.00
0.5"
0.54
13.49
1 7t>.33
17
-------
LAKE NAME: BEAVER IAKE
STORE? NUMRF.P: )51|
TAXA
AC UNAS THE S
ANABAFNA
ANA8AFNOPSIS RACIBO»SKII ?
ANK 1STROOESMUS CAICATUS
V. »CICUL«»!S
ASTERIONELLA <=ORMOSA
CENTPJC OIATQM
CEPATTUM HI°UNOINEll A
f. BPACHYCFPAS
CHL AMYT1MONAS
CHLOPnOONIUM
CHPOOMONAS ACUTA
C.LOSTFP IUM
CHFLASTKUM MICROPQPUM
CncLAST»Uf RETICUIATUM
V. POLYCHOPOON
C<1FLO$PHAEPIUM NAFGELIANUM
C*YPTP«ONAS EPOSA
COYPTHMONAS RF.FLEXA
DACTYI ncoccnpsis
DACTYL ncocr.opsis IPREGULARIS
01NOBPYON DIVERGENS
EUASTRU* DENTICULATUM
FIIGLENA
EUGLF'M GRACIIIS
FUGLENA OXYUP.IS
v. MINOR
A CPOTDNENSIS
0» 10 "»•
GLFNODINIUM
GLF. NOniN!U« OCUVATUN
GPMPHONFMA PARVm U«
AL9ULU"
L YNGBYA
MALLOMOMAS ACAROIOFS
MSIOSIRA OISTANf
MFLOSIRA CRANULATA
M^LOSISA GPANULATA
V. ANT,USTISSI«A
MELOS1PA VAOIANS
vinms
NAVICULA
NI'?SCHIA
NITZSrHlA l\
OSC ILLATOP.IA
HSCILLATORIA «1
PANOORINA MOP, U*
PfOTA?T«UM BIP«0!ATUM
V. LONr.ECOINUTUM
P50IA5TPUM SIMPLEX
V. Di;nDENARIUM
PEOIASTRUM TETRAS
V. TCTOAOOON
PFNNATE DIATOM
PFRIOINIUM
PF.R1D1NIUM INCONSPICUUM
PERIDINIUM OUADR1DFNS
PHACUS CAUDATUS
SCENEOESMUS DENTICIILATUS
SCENEOESMUS DIXORPMUS
SCENEnESMUS IMTFRMCOIU5
.
SCHPOfOfRIA SETIGEPA
SKELfONEIA POTAMOS
STAUPA$T«UM
STfPMANOOISCUS
STCPHANOOISCUS fl
STEPHANODISCUS ASTPAEA
V. MINUTULA
SYNEORA II
SYNSORA If.
SYNSDRA »J
SYNEORA ULNA
SYNURA
CONSTRICTUM
MINIMUM
V. SrR"BICULATUM
TRACHFLOMONAS
TRACHELOMONAS flULLA
BULLA 1
HISPIDA
TPACHTLOMONAS INTERMEDIA
SCHA1IINSI ANOI I
FORM
CFl
FH
FIL
CFL
CEL
CEl
CH
CEl
CFL
CFl
CEL
COl
COL
COL
CEl
CFL
CFl
CF.I
CEl
CEl
CFL
CEL
CEl
CEL
CFL
CFL
CFl
CFl
CEL
Ml
CFl
CEl
CEl
CEL
CFl
CEL
FIL
CEL
CFL
CEl
FIL
FIL
COl
COl
COL
COL
CEl
CFl
CFL
ca
CEL
COl
COl
COl
COL
CFl
CFl
CFl
ca
CFL
CEL
CFL
C EL
CEl
CFl
CFl
CFl
CFl
C'L
CFl
CEL
CEl
CEl
CFL
CEl
'LGAl
'PNI'S
5 *C OCR "I
?
1
5
4
1
'
t.o
22.6
28.3
5.T
1.9
1 .O
T.6
0.4
T.6
1.9
11.3
1?
X
310
47;
X
95
"
X
1?
127
15R
127
X
X
12
X
•
X
* *
190
X
X
X
X
AlCU
UNITS
S *C »?R "I
2
*
1
5
3
1
1
4.21 122
7.11 61
t.o
11.5
1.0
4.7
*.l
18. fl
8.1
11.5
1.0
1.0
6.1
le.n
4.2
in
X
X
X
315
X
X
X
X
X
1}
127
X
lit
54
244
X
X
X
315
X
X
X
X
X
X
X
X
10
X
X
10
X
X
113
540
X
12?
X
X
X
Al'-M
5 rr pco .
5
3
'3.3
4.7
9.6
4. T
14.3
0.6
4.7
!4.1
4, '
".6
y
•77
X
14
?4
V
y
1
y
y
X
y
'01
f-o
X
X
14
y
X
X
V
X
y
. y
y
X
Y
!0l
X
X
14
X
y
60
X
X
y
X
18
16«0
-------
LAKE NAME: BLACKFISH LAK?
STORET NUMBER? 0502
NYGAARD TROPHIC STATE INDICES
OAT<= 03 26 74 06 04 74 10 16 "">
MYXOPHYCEAN
CHLOROPHYCEAN
EUGLENOPHYTc
DIATOM
COMPOUND
01/3 6
0/0 0
5.00 E
0.17 ?
07/0 E
02/0 E
02/0 E
2.00 F
D.50 c
13/0 <=
03/0 E
05/0 E
1.25 F
>.75 F
PALMER'S ORGANIC POLLUTION INDICES
DAT? 03 2S 74 06 0* 74 10 16 7*
GFNUS
SPECIES
08
00
08
00
22
02
SPFCIES DIVERSITY AND ABUNDANCE INDICES
OATF 03 2«. 74 06 04 ^4 10 16 74
AVERAGE DIVERSITY
NUMBER 0* TAXA
NUMBER DF SAMPLE? COMPOSITED
MAXIMUM DIVERSITY
"INUMUM DIVERSITY
TOTAL DIVERSITY
TOTAL NUMBER IF INDIVIDUALS/ML
PVENFSS COMPONENT
RELATIVE FVENESS
MEAN NUMBER OF INDIVIDUALS/TAXA
NUMBER/ML OF MOST ABUNDANT TAXON
H
s
M
MAXH
MINH
r»
N
J
RJ
1.
K
2. 76
1T.OO
3.00
4. 19
0.34
1344.12
487.00
0.67
1.65
29.65
116.00
2.35
1?. 00
3.00
4.09
0.16
2650.80
1128.00
0.57
O.S6
66.35
475.00
4. It
36.00
?.oo
5.1?
0.05
47351.31
115'!. 00
0.7<»
").83
320.0?
1767.00
19
-------
L>«6 NAME: flLACKFISH
050?
CONTINUFO
76 74
TAXA
CHLAMYOOMONAS
CHL AMYQTinNAS GlflBfSA
CHPQOMONAS iCUTA
COFLCISPHAFRIUM NAEr.ELMNUM
CPYPTHMONAS
CPYPTCMONAS EROSA
C9YPTPMQNAS REFLFXA
CYCLOTEllA MENFGHINIANA
EUGLENA II
FUGLENA 12
F.UGLENA 13
EUGLENA «4
FUGLENA is
EUGIENA ACUS
EUGLENA SPP.
EUGLENOPHYTAN CELL
FLAGELLATE 12
FLAGELLATE »»
FLAGELLATE «5
GYRCSTGfA
LFPOCtNCL IS
LYNGBVA CONTORTA
MFLOSIP4 DISTANS
"FLOS1PA GRANUI.ATA
MELOSl'A CRANULATA
V. ANGUSTISSIMA
HF>IS«OPEOtA MINIMA
MFSOSTIGfA VIPITIS
NAVICHIA
NAVICULA II
NAVICULA «3
NAVICULA CIISPIOATA
NfTZSrHIA
HITZSCHIA I?
NIT7SCHIA HOLSATICA
NITZSCMIA SPP.
PH4CUS HFGALOPSIS
PHACUS TBIOUETEP
PTfBOHONAS ANGULOSA
SCfNEPE$«US ABUNOANS
BIJUGA
OUAOPICAUOA
SKFLFTONEMA POTAMOS
TFTptcT")UH FLEGANS
TFT"ASTOU« HETFRACANTHUM
T»»rHfLOMf)NAS HISP'OA
TOACHELIMOKAS MISPIOA
v. ?
TBACHELPMONAS INTERMEDIA
TOBCHELOMONAS LONGICAUTA
FOPS
CFL
CEl
CEL
COL
CEL
CFL
C?L
CFl
CFL
CFl
CEL
CFL
CEL
CEL
CFL
CEl
CEL
CEL
CF.L
CEL
CEl
CEL
CEL
CFL
FIL
CEL
CFL
CEl
cm
CEt
fFl
C*l
CEL
CEL
CEL
CEL
CFL
CEL
CEL
CEl
FIl
CEL
CFl
cni
COL
COL
CEL
CEL
COL
COL
CEL
CEl
CFL
CEL
Hr,4l
IMIT?
<: UC OFR •»(_
i
4
1
?
5
CEl 1
CEl 1
10.1
14.4
?3.X
4.7
19.1
">.*
4.7
4.7
t?
X
70
X
116
X
23
X
X
1C
X
X
93
4*
21
it
X
A11AI
IINI'S
S *C "EP "I
\
•!
3
42.1
5.2
21.1
5.2
5.2
tllO.1!
1
IZl'.O.-i
1 1
475
X
50
X
X
?38
S9
X
>
X
X
.
59
X
X
119
X
110
Ai.r-AI
in' tt
<; v P" «:
1C 1 .7| 114»,
2
4
!
5
I.*! 45
1
0.4| 47
1
12. "I 14"
0.7| 14
l.»l ?10
5.5| >.•>!
5.S| f.11
'.•>! '•">
1 »
5.4| 4-.
1
0.7| 01
1
I
6.M T5T
'.M '94
0.41 47
1 X
1 X
2.M ?94
«.1I °?*
1
1.11 '?f
1
1
1
0.4| 4'
I.M !?*>
t.ll '7*
1
1
1
1
I5.'| i-r«.f
|
I
0.4| 47
1 X
1
l.l>l ?10
7.|k| 704
1
1.5| !<.»
•).4| »?
».?! TI«
1 X
1.'! P4
0.4| 47
|
1
1
1
2.9| "A
1
1. 11 !?»>
487 112» I!1?!
20
-------
LAKE NAMEJ BLUE MOUNTAIN LAKE
NUMBER: 3501
NYGAAHO TorjPHIC STATF
OATC 03 2* 74 06 06 ?4 11 IB
MYXOPHYCEAN
CHLOROPHYCEAN
FUGLENOPHYTP
DIATOM
COMPOUND
02/3 E
02 /) P
0.25 E
0.3? E
02/0 P
12/3 P
1.50 F
1 .00 F
12/0 E
4.00 <=
15.1 P
0.26 F
0.90 c
PALMER"; ORGANIC POLLUTION
DATP )3 1* 74 06 06 74 11 IB 74
GENUS
SPECIES
04
09
03
14
10
SPECIES DIVERSITY ANO ABUNDANCE INnlCcS
DATE
iWERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF S&MPLES COMPDSITEO
MAXIMUM DIVERSITY MAXH
MINUMUM DIVERSITY MINH
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
fVENESS COMPONENT
RELATIVE EVENF.SS
MEAN NUMBER OF INOIVIOUALS/TAXA
NUMBER/ML OP MOST ABUNDANT TAXON
03 28 74 06 06 74 11 13 74
H
s
>«
XH
NH
D
N
J
RJ
L
K
?.41
18.00
2.00
4.17
0. OS
11688.50
4853.00
0.58
0.58
269.44
1973.00
0.55
17.10
2.00
4.0"
(1.05
2217.05
4031 .00
0.1?
0.13
237.12
3742.00
2.81
45.33
2.00
5.49
0.16
10287.41
3661.00
0.51
0.50
81.36
908.00
21
-------
LAKE NA»E: SLU? MOUNTAIN
$TO»ET NUMBER: 050?
TAXA
ANABAENA
ANKISTRHOESWUS
ANKISTPDOESMUS
4STEP!^NELL4 FORMOSA
CAIONEIS LFWTSIt
CAPAPTOGRAKMA CRUCICUIA
CARTFSIA
CEPATIUM HIRUNniNELLA
CFPATIU* HIOUN9INFLLA
F. B°ACMYCERAS
CFOATIUM HIPUN9INFLIA
F. FURCOIOES
CHLAKYOOMOSAS
CHR10MONAS ACUTA
CLOSTEPIUM
CriFLASTPUM NICPQPOPUM
CRUCIGFNIA APICULATA
CRUCIGFNtA TETPAPEOIA
CRYPTONnNAS
C=YI>TO«ONAS EROSA
CPYPTPMONAS MAOSSONII
OAC TYLCT"CriPS!S
DACTYlOCnCCOPSI$ IPREGUIARIS
OICTYnSPHAFRIUX PUICHFIIUH
DINOBOYON RAVARICU*
•IU51ENA «1
FUGLFNA 12
FUGtFNA II
FIAGFLIATE
GYWNOnlNIUM AlBULU"
LFPOCINCl IS
MALIOMONAS ACAOOIOfS
KFIOS!P« OI5TANS
"FLOSTPA GRANUtATA
MELOS1RA GRANUIATA
V. ANGUSTISSIMA
MICROCYSTIS AEPUGINOSA
NAVICULA
NAVICUUA CAP! TATA
NITiSCHIA tl
OPHlOCYTIlJM CAPITATUM
05C 1HATQR.IA
PASDORINA MORUM
V. LONGECOPNUT'JH
PFCIASTPUN DUPLEX
V. RETICUIATU"
PEOIASTRUN TETRAS
V. TETPAOOON
PINNATE DIATOM «1
PINNATE OIATOM 12
PHACUS
PMACUS »EG«LOPSIS
PHACUS TQQTIJS
PINNULARIA MFSOLEPTA
PTFPOXONAS ANGULOSA
SC6NEOESMUS ABUNOAWS
SCSNEOESMUS 8ICAUDATUS
OENTICUIATUS
SCENE1ESMUS 1NTCPMFOIUS
SCF»IEOESMUS PROTUBFRANS
SCENE^ESMUS OUADR1CAUOA
STFPHANOOISCUS ASTPAEA
V. "IN'ITUIA
SYNEOPA
SYNEO'A fl
SYNFDPA ULNA
T4BELLAPIA FENESTPATA
TETDASTRUH HETERACANTHUH
TRACHELOMONAS
TRACHELOMONAS «1
TP4CHELOMONAS FLUVIATIUS
TRACHELOHONAS VOLVOCINA
TOT1L
FORM
FIL
C*-l
CEl
CFL
CEL
CFl
CEL
CEl
CEl
CEL
CFl
CEL
CEL
COL
COl
cm
CEL
CEL
CEl
CFl
CFL
COl
CEL
CEL
CEl
CFL
CFl
CEl
rFi
CFl
CFL
CEt
ca
COl
CEl
CFL
CEl
CFl
FIl
COL
COL
COl
COL
CEl
CEl
CEl
CFL
CEL
CEl
CFl
r.OL
COL
COL
COl
CCIl
COl
COL
CEl
CB.
ca
CEl
ca
CEl
COL
CEl
C?L
CEL
CEl
»L GAl
•INITS
« TC 'B» ^l
4
>
3
5
!
3.4
22.0
5.1
lfr.1
6.8
40.7
2.5
0.8
2.5
X
164
X
1 06*>
747
781
X
X
X
X
329
1973
123
X
41
123
X
X
MC.At
5 «C nCR m
21 "). 7| 2"
5
3
4
1
0.7
0.7
1.4
2.1
92. P-
1.4
X
X
?o
to
X
"P
X
»6
3742
58
X
X
X
X
X
X
ft '•••I
IIMI "
^ rr per MI
4
S
?
1
3
o.l
1.1
2 .?
2.1
4 .*
22.7
27.1
1.1
4.5
1.1
l.l
?1 .*
1.1
»
X
X
X
X
X
•* 11
4»
X
X
H 1
X
ai
1 *fr
if
X
X
y
"?
ooa
X
X
X
4?
X
i 66
X
X
X
X
X
X
X
X
45
X
!.•>
X
X
••Of)
X
X
x
X
4?
40J!
22
-------
LAKE NAMES BULL SHOALS LAKE
STORET NUMBER: 350*
NYGAA^O TROPHIC STATE INDICES
DATE 0* 06 7* 06 20 74 09 05 74 10 15
MYXOPHYCEAN
CHLO"»OPHYCEAN
EUGL ENOPHYT6
DIATOM
COMPOUND
04/0 E
04/3 E
3.12 7
0.67 E
17/0 E
4.00 E
5.00 £
0/18 7
0/03 7
9.00 E
2.33 E
0.67 ?
0/09 7
o.so e
3.33 E
06/0 f
05/0 f
0/11 7
1.50 *
!'+/!> f
PALMER'S ORGANIC POLLUTION INDICES
DATE 34 36 74 06 20 74 39 35 74 13 15 74
GENUS
SPECIES
08
00
01
90
00
!3!3
0?
33
SPECIES DIVERSITY AND ABUNDANCE INDICES
OATE
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY
PINUMUM DIVERSITY
TOTAL DIVERSITY
TOTAL NUMBFR OF INDIVIDUALS/ML
CVENESS COMPONENT
RELATIVE EVENESS
MEAN NUMBER OF INDIVIDUALS/TAXA
NUMBER/ML OF MOST ABUNDANT TAXON
04 36 74 06 20 74 09 35 74 13 15
H
s
M
MAXH
MINH
0
N
J
RJ
L
K
3.03
36.03
9.00
5.17
3.23
6641.76
2192.00
3.59
0.57
60.89
620. 00
2.26
31.00
8.00
4.95
3.22
3812.62
1667.00
3.46
0.44
54.4?
927.00
2.29
22.33
B.OO
4.46
3.4f>
1076.30
470.00
3.M
0.46
21.36
181.00
2.71
21.33
8.00
4.?o
3.?'>
7471.5?
912.00
0.6?
0.60
43. 4>
252.00
23
-------
LAKF NAMEl BULL SHOALS LAKE
STORFT NUMBER» 050*
TAXA
ACHNANTHES LANCEOLATA
V. PUBIA
ANABAFNA
ANKISTRQDESMUS FALCATUS
ABHANIZONENON FLOS-AQU«E
APHANOCAPSA
APHANOTHECE
ASTERIONELIA FORMOSA
CENTRIC DIATOM
CERATIU* HIRUNDINEllA
CE»AT|OM HIRUNOINELLA
F. BKACHVCERAS
CFRATIUH HIRUNOINELLA
f. FURCOIOES
CHROOCOCCUS LIMNETICUS
CHROOMONAS ACUTA
CLOSTERIUM II
CLOSTfRIUM 12
COELASTPUM RETICUIATUM
V. PDLYCHORDON
COF.LASTRUM SPHAERICUM
CCnOSPHAEHIUM NAEGELIANUM
COSHAPfUM
CQSMARIU* CLEPSYDRA
V. NANUM
CRYPTOWONAS EROS A
c»YPTnnfiNAS MARSSONII
CRYPTOMONAS SPP.
CYCLOTFLLA
CYMATOPLEURA SOLE A
OIATOMA TENUE
V. ELONGATUM
OIATOfA VUtGAHE
V. B«EVf
OlfYOSPMAfRIUK PMCHELLUM
OIN08»YO» om*6f*S
OINOBRYON SOCIALE
FRAGILARIA
>=RAGILAR|A CROTONENSIS
GLENOOINtUH KULCZVNSKir
GYMNOOINIUM
LAGERHEIMIA CILIATA
L>GERHEIM]A SU8SAL5A
LYNGBYA HIERONVNUSII
LYNG9YA LIMNETICA
MALLCMONAS
HF.lOSIRA
MELOSIRA OISTANS
HELOSIRA GRANULATA
MELOStRA GRANULATA
V. ANGUSTISS1MA
MELOSIRA ITALIC*
MELOSIRA VAftlANS
HICROCYSTIS AERUGINOSA
MOUGEOT1A
NAVICULA SALtNARUM
V. INTERMEDIA
NITZSCHIA VERMICULARIS
OOCYSTIS
9SCHLATORIA II
"SCILLATORIA 12
OSC1LLATORIA LIMNETIC*
PANOCRINA HORUM
"EOIASTRUM BORYANUN
PEDIASTOUH SIMPLEX
V. OUOOENARIUM
PEOIASTRUM T8TI»«$
V. "THAOOtWI
PENMATE DIATOM
PFRIOINIUM
PERIOtNIUM 12
PFRIOINIUM OUADRIOENS
•ERIOINIUM WILLEI
PHACUS PSEUOONOROSTEOTII
3UAORIGULA
SCENEPESMUS
SCENEOESMUS BIJUGA
SCENCOESMUS OUADHICAUOA
STAURASTRUPI
CONTHIUFH
0'» Ok T*
06 20
19 •)*>
n i •> »*
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24
-------
LAKE NAME I BULL SHOALS LAKE
STOPET NUMBER! )»0»
TAX*
STEPHANOOISCUS AJTPAEA
V. NTNUTULA
STEPHtNODtSCUS NIAGARA*
SYNEOPA IZ
SYNEDOA DELICATISStNA
TETPAEOPON MINIMUM
TETPAE010N MINIMUM
V. SCPnBICULATUN
TOTAL
CONTINUED
0* 06 T4
06
10
FORM
ca
cci
CEl
CEL
CEt
CEl
IS
ALGAL
UNITS
1C PER ML
I I I
I I 6.11
11)10.21
I I O.TI
IM 8.91
I I I
I I I
I I I
m
221
IS
19*
2192
s
tc
ALGAL
UNITS
pf* ML
.
X
X
1
1
"
tr
A«.r.*L
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X
X
*
"
11.1
Hf-M
U*MT*
ort «i
X
X
01
168T
••70
25
-------
LAKE NAME: LAKE CATHERINE
STORET NUMBER: 1505
NYGAARD TROPHIC STATE INDICES
DATP 03 26 74 36 05 74 10 15 7*
MYXOPHYCEAN
CMLOROPHYCEAN
EUGLENOPHYTc
DIATOM
COMPOUND
01/0 E
06/1 E
0.83
03/0 F
08/0 E
O.lfl ?
0.57 P
17/0 E
2.00 f
8.50 f
0.14 ?
0.33 E
13.5 E
PALMER'S ORGANIC POLLUTION INDICES
DATE 13 26 74 06 05 74 11 15 74
GENUS
SPECIES
11
03
03
00
08
04
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATE 03 26 ^4 06 05 74 10 15 74
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY MAXH
MINUMUM DIVERSITY MINH
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
FVENESS COMPONENT
RELATIVE EVENPSS
MEAN NUMBER OF INDIVIDUALS/TAXA
NUMBER/ML OF MOST ABUNDANT TAXON
H
S
M
XH
NH
r>
N
J
RJ
L
K
3.01
25.10
4.00
4.64
0.05
19131.56
6356. 00
0.65
0.65
254.24
211S.OO
1.6P
33.00
4.00
5.04
0.09
8745.75
5175.00
0.34
0.33
156.62
34B5.00
3.57
46.00
4.00
5.52
0.22
9121.35
2555.00
0.65
0.64
55.54
487.00
26
-------
LAKE NAME: LAKE CATHEPINE
STORET NUMBER: 0505
TAXA
ANK1STROOESMUS
ANK I STRODE SMUS FALCATUS
ANK ISTROOES1US FALtATUS
V. MIBABHIS
ASTERTONELLA FORMOSA
CENTR 1C DIATOM
CENTRITRACTUS
CHLAMYDOMONAS
CMLOROPHYTAN FILAMENT
CHROOKONAS ACUTA
COEUSTHUM RETICULATUM
CHUCIGENIA
CPUCIGENIA TETRAPEDIA
CRYPTOMONAS
CRYPTONONAS EROSA
CRYPTOMONAS PEFLEXA
CYCLOTLLA
OACTYLOCOCCOPSIS
OICTYHSPM4ERIUM PULCHEUUM
OINCBOYON SOCIALS
EU«ST»U»
EUGLENA
EUGLENA «t
FLAGELLATE
FLAGELLATE »2
FLAGELLATES
FRAGIIARIA CROTONENSIS
GPLENKINIA
GOMPMONEMA
GONIUH PECTORAL^
K IRCMIEBIELIA
MSLLPMONAS
MELOSIRA OISTANS
«FIOJIRA GRANULAT*
"ELIMIRA GRANUlATt
V. ANGUSTISSHA
MER ISMOPEOIH TENUISSIMA
MESOSTIGMA VIRIOIS
NAVICULA
NfTZSCHIA »1
NITZSCHIA *2
OOCYSTIS
OSCILI ATOR.IA
OSCILLATORIA «1
OSCrLLATORIA 12
PANCORINA MORUM
PEOIASTRUM BIRAOIATUM
PF9IASTRUM TETRAS
V. TETRAOOON
PENNATE DIATOM »l
PENNATE DIATOMS
CONTINUET
13 26 7*
)6
n \<>
PHJCUS
RHOICOSPHEMA CURV«TA
SCENEDESWUS
SC5NEOFSMUS ABUNOANS
SCENEOES«US BICAUOATUS
SC»NFDES«US OENTICULATUS
SCFNFOESHUS OIMORPHUS
SCENEDESMUS OUAORICAUOA
SKFLETONEMA POTAMOS
SPERMAT0200PSIS
STAU">STRUM
SU»IRELLA
SVNCQOA AC US
SYNEO*A RUMPfNS
TABFLIAR(A FfMESTRATA
TFTRAFORON CAUOATO"
V. LQNGISPINUM
TETPAEOR.ON MINIMUM
TETRAEORQN MINIMUM
V. SCROBICULATIJM
TETRASTRUM HE TFR ACANTHUM
TFTPASTPUM STAUROCFNIAEFORME
TPACHFLOMONAS
TPFU84RIA SETIGERUM
TOTAL
FORM
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X
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635*
5175
27
-------
LAKF NAME! LAKE CHICOT
STORET NUMBERS 0506
NYGAARD TROPHIC STATE INDICES
DATE 03 26 74 06 05 74 11 16 7*
MYXOPHYCEAN 04/0 E 5.00 F 05/0 F
CHLOROPMYCEAN 09/1 E 3.00 E W> *=
EUGLENOPHYT? 0.46 E 1.00 E 0.46 E
DIATOM 1.03 E 1.50 E 1.40 ?
COMPOUND 23/0 E 19.0 E 26/0 E
PALMER'S ORGANIC POLLUTION INDICES
DATE 03 26 74 06 05 74 10 16 74
GENUS
SPECIES
01
00
18
03
06
00
SPECIES DIVERSITY AND ABUNDANCE INDICES
OATF
AVERAGE DIVERSITY
NUMBER OF TftXA
NUMBER Of SAMPLES COMPOSITED
MAXIMUM DIVERSITY MAXH
MINUMUM DIVERSITY MINH
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIOUALS/ML
FVF.NESS COMPONENT
RELATIVE EVENESS
MEAN NUMBER OF INDIVIDUALS/TAXA
NUMBER/ML Of MOST ABUNDANT TAXON
03 26 74 06 05 74 10 16
H
S
M
XH
NH
0
N
J
RJ
L
H
1.68
29.00
3.00
4.86
0.13
4799.76
2857. OJ
0.35
0.33
98.52
1904.00
3.56
30.00
3.00
4.91
0.13
10502.00
2950.33
0.7?
0.^2
98.33
566.00
3.08
38.00
3.00
5.25
0.08
20768.4^
6743.31
0.50
0.59
177.45
2281.00
28
-------
LAKE NABft LAKE CHtCOT
STORET NUM«E»« 0506
CONTi HUM
13 26 7*
16 15
10 "> 74
TAXA
ACMNANTHES NICRQCEPHALA
ACTINASTRUM GRACILIMUM
ANABAENA
ANABAENOPSIS CIRCULAR IS
AN4BAFNOPSIS EI.CNKINU
ANKISTROOESMUS FALTATuS
ANKI STRODESMUS FALCATUS
V. ACICULARIS
BlNUCLEAR I A
CMROOCOCCUS
CHROOMONAS
CHROOMONAS ACUTA
CLOSTERIUM
COELASTRUH MICROPORUM
CRUCIGENIA APICULATA
CRUCIGENIA TETRAPEPIA
CRYPTCMONAS EROSA
CRYPTOMONAS MARSSONII
CYANOPHYTAN FILAHENT
CYCLOTEILA
CYCLOTELLA MENEGMINIAN*
OACTYLOCOCCOPS1S
EUGLENA *l
EUGLENA •?
EUGLENA »3
EUGLENA **
CUGLENA US
EUGLENA ACUS
EUGLENA LIHNOPHILA
V. LEMMERMANN1I T
EUGLENA OXYUMS
V. MINOR
EUGLENA SPP.
FLAGELLATJ (2
FLAGELLATES
GLFNOQIN1UN OCULATUtt
GYMNOnlNIUH
LFPOC1NCLIS
LUNATE CELL
MEIOSIRA OlSTANS
MELOSfRA GRANULATA
MELOSIRA GRANULATA
V. ANGUST1SSIHA F. SPIRALIS
MELC^IRA VAR! ANS
MERISMOPEOIA TENUISSIMA
HESPSTICMA VIRIOIS
M1CROCYSTIS INCERTA
NITZSCHIA fl
N1T2SCH1A *2
NfZSCHIA ACICULARtS
OSCILLATORIA
OSCILLATORIA »l
PE01ASTRUM DUPLEX
V. RETICULATUM
PENNATE OIATOH
PERIDINIUH
PER10INIUM UMBONATUM
PHACUS
PMACUS ACUNINATUS
PHSCUS XEGALOPS1S
PTEROMONAS ACULEATA
RAPHIOIOPS1S T
RAPHiniOPSIS CURVATA
SCENEBESMUS
SCENEOESMUS OIHORPHUS
SCENEDESM1S PROTUBFOANS
SCMROEOERtA SfTIGER*
SKELCTONCHA COTAXOS
STFWANOOIStUS
STEPHANOOISCUS ASTRAEA
V. M1NUTULA
SURiPELLA
SYNEDRA
SYNEORA il
SVNEDR-A 12
TETRAFDRON CAUOATUH
V. LONGUPINU"
TETRAEORON MINIMUM
TFTRAFORON MUTICUM
FORM
CEL
CEL
FIL
ML
FIL
CEL
CEL
FIL
COL
CEL
C?L
CEL
COL
cot
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CEL
CEL
CEL
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CEL
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CEL
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UNITS | UNITS
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<•! 5.41 IS*
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8.6
3.2
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12.9
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66.6
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246
92
X
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368
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190*
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18.2
19.2
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7.1
119
61
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99
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119
60
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536
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60
179
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219
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3
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X
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X
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1
29
-------
LAKE NA«tf I (.ME CHICOT
STOPET NUMBER! 0*0*
TAX*
TFTBAEORON TIMGONUW
TETPAST"U« STAUROGFNIAEFCMNE
TPACHRONONAS
TRACMeiOHONAS SCAB**
TR/SrHRLOMONAS SCABRA
V. COROATA
TQT»l
26 7*
06 OS T*
10 II
1
1
=0«H 1 S
Ctt. 1
COL 1
Cfl 1
ca I
1
CEl 1
AlGAl
tc PCM ML
1 X
1 *
1
1 x
1
1
s
»IGU
UHfS
tc »?« «(.
1
1
3.31 •«
1 X
1
1 x
?
w.
At I^AI
pro w^
X
X
X
30
-------
LAKE NAME: 06 6«AV LAKE
STORET NUMBER: 0907
NYGAARD TROPHIC STATE INDICES
DATE 03 25 74 06 05 7* 10 16 7*
MYXOPHYCEAN
CHLOROPHVCEAN
EUGLENOPHYTP
DIATOM
COMPOUND
03/1 E
05/0 E
0.12 ?
0.33 ?
12/0 E
3.75 E
1.00 E
0.14 ?
3.80 E
3.00 E
2.53 F
4.50 E
0.07 ?
3.43 F
8.50 F
PALMER'S ORGANIC POLLUTION INDICES
OATP 03 25 74 06 05 74 10 I* 74
GENUS
SPECIES
06
03
06
00
11
04
SPECIES DIVERSITY AND ABUNDANCE INDICES
OAT5
AVERAGE DIVERSITY
NUMBER OP TAXA
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY
UNUMUM DIVERSITY
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
FVENESS COMPONENT
RELATIVE FVENESS
MEAN NUMBER OF tNOIVIOUALS/TAXA
NUMBER/ML OF MOST ABUNDANT TAXON
03 25 74 06 05 74 10 16 74
H
s
M
MAXH
MINH
0
V
J
RJ
L
K
3.57
26.00
6.00
4.73
0.19
5808.39
1627.00
0.76
0.75
62.59
2R7.00
1.87
28.00
5.00
4.fl!
0.04
17196.52
9196.00
0.39
3.39
328.43
6083 .00
4.14
33.00
6.00
5.04
0.20
8176.53
1975.00
0.82
0.«2
59.95
214.00
31
-------
LIKE Ht*t: Of GRAY LAKE
STOPET NUMBER: 0507
TAX*
ACHNANTHES LANCEOIATA
ANKISTROOESMUS FALfATUS
ANKISTPOOESMUS CALCATUS
V. MIRABILIS
APHANIZOMENON FLOS-AOUAE
ASTERIONELLA FORMOSA
CENTRITRACTUS
CERATIUM H1RUNOINFLLA
CERATIUM HIRUNDINELLA
*. FURCOIOES
CHLAMYOOMONAS
CHROOMONAS ACUTA
CtOSTERIUM »\
CLCSTSR1UM 12
COCCONEIS
COELASTRUN MICROPQRUM
CRUCIGENIA TETRAPEOIA
C«YPTPMONAS
CRVPTOMONAS EROSA
CPYPTDMONAS REFLEXA
01 NOBS YON R AVAR I CUM
ELAKATOTHRIX GELATINOSA
EUGLENA GRACILIS
FLAGELLATE »2
FRAGtLAPIA CROTONENSIS
FRANCEIA
GOLENKINIA
GOLENKINIA RAO! ATA
V. 8PFVISPINA
GOMPHONEM* TRUNCATUM
V. CAPITATUH
GYMNOOINfUM ALBULU*
GYMKOOINIUM OROINATUM
KIRCMNEPIEllA CONTORT A
IAGERHEIMU QUAD*I SETA
LYNGBVA
HALLOMONAS
MELOSIRA
MELOSIRA OISTANS
M?LOSIRA GRANULATA
MELOStRA GRANULATA
V. ANGUSTISSIMA
MERISMOPEOIA MINIMA
MICRACTINIUM
MICROCYSTIS INCERTA
MOUGEOTIA
NAVICULA •!
NAVICULA »2
NITZSCHIA
NIT7SCHIA «1
NITISCH1A 12
NITZSCHIA ACICULAHIS
OSCULATORIA
PERIOINIUH INCONSPICUUM
PAPH1DIOPSIS CURVATA
SCENEHESMUS BIJUGA
SCENEDESMUS QUAOPICAUOA
SCHROEOERIA SETIGERA
SFLENASTRUM HINUTUH
SKELETflNE-'A POTAMOS
STAURASTRUM
STAURASTRUM II
STAURASTRUM CUSPIOATUM
STAURASTRUM TFTRACFRUM
SVNEOOA ACUS
SYNEOM ULNA
TABELLAPIA FEWSTR1TA
TETPAFORON MUTICUM
TPACHELOMONAS HISPID!
TRACHELOMONAS LACUSTRIS
TPEUBARIA SETIGERUM
TOTAL
CONTINUFO
25 74
06 05 •»*
10 '6
FORM
CEL
CFL
CEL
FIL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
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CEL
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CEL
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COL
COL
CEl
CEL
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CEL
CEL
ca
CEL
FIl
CEL
FIL
COL
COL
CEl
CEL
CEL
ca
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CH
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ca
CEl
CEl
CEL
CEl
CEl
MGAL
'JNITS
S TC PER ««l
1 X
2HT.6I 287
5
*
1
1
2.0
9.8
5.9
13.7
3.9
2.0
3.9
9.9
11.7
2.0
3.9
2.0
5.9
"
9.8
32
159
X
X
96
223
64
X
32
64
X
96
191
X
X
32
64
32
X
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X
159
X
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S *C P5R "I
3
5
4
2
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3.4
0.6
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0.9
0.6
0.3
3.4
0.3
0.3
66.1
X
317
5«
X
X
634
X
X
X
288
X
86
X
X
50
-
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1124
86
58
20
X
X
317
29
X
X
29
6>*3
AI.CAI
(INTT<
<; rr pco nt_
1 1
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5
1
4
2
1
1
1
1
1 X
1
1
1
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10.11 ?)4
1
1
1
I
1
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1
1
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1
1
?.6| 71
1
f
1
1
1 X
1
1
t
1
1 X
I. ft 24
4.81 9*
I X
1
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1
1
3.61 71
2.41 48
1
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I
1
1
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I X
4.81 01
1 X
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1.21 '4
1
1 X
1627
9196
32
-------
LAKE NAMES LAKE ERLING
STORET NUMBER: 0508
NYGAA*D TROPHIC STATE INDICES
DATE 03 25 74 06 03 74 10 17 74
MYXOPHYCEAN
CHLOROPHYCEAN
EUGLENOPHYTF
DIATOM
COMPOUND
2.00 E
5.00 E
0.43 E
0.6^ e
12.3 E
2.50 E
1.50 E
0.37 E
1.50 F
7.00 E
1.00 E
4.50 E
0.36 E
0.83 E
10. 0 F
PALMER'S ORGANIC POLLUTION INDICES
OAT? 03 25 74 06 03 74 10 17 74
GENUS
SPECIES
07
03
01
00
01
00
SPECIES DIVERSITY AND ABUNDANCE INDICES
OAT? 03 25 74 06 03 74 10 17 7*
AVERAGE DIVERSITY
NUMBER OF TAX A
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY MAXH
DIVERSITY MINH
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
EVENFSS COMPONENT
RELATIVE EVENESS
MEAN NUMBER OF INCIVtOUALS/TAXA
NUMBER /ML OF HOST ABUNDANT TAXQN
H
S
M
XH
NH
0
N
J
PJ
L
K
2.10
23.00
3.30
4.52
0.10
6079.50
2895.00
0.46
0.46
125.87
1715.90
2.05
24.00
3.30
4.58
0.23
2394.40
1168.00
0.45
0.4?
48. 6T
491 .00
2.?0
"J4.00
3.00
5.09
0.21
4353.80
1979.00
0.43
0.41
58.21
1104.09
33
-------
LAKE NAME: LAKE ERIING
STC»ET NUMBER: >50B
CONTINUET
03 25 74
06
10 17 74
TAX A
ACTINtSTRUM HANTZSCH1I
V. FLUVIATILE
ANABA?NA
ANKISTROOESMUS FALTATUS
V. ACICULARIS
APHANIZI3MENON FIOS-AOUAE
CEPATIUM HIRUNOINELLA
CHLOROPHYTAN COCCOIO CALLED COLONY
fHROOMONAS SCUTS
CHRYSOPHYTAN CELL
CLOSTFRIUM il
CLOST?PIUN »2
CLCSTERIUM 13
CLQSTFRIUM **
CRUCIGENIA FENESTRATA
CRUCIGENIA QUADRATA
CRYPTOMONAS fl
CRYPTQMONAS EROSA
COYPTOMQNAS MARSSONII
CY4NOPHYTAN FILAMENT
CYCIOTEUA NENEGH1NIANA
CYMBELLA
04CTYIOCOCCOPSIS
OICTYGSPHAERIUM PULCHELLUM
OIN08RYON BAVARICUM
OINCBRYON OIVERGEN5
OINOBRYON SOCIALE
EUOCRINA ELEGANS
6UGLENA ACOS
PUNOTIA
FUNQTIA PECTINALIS
V. V^NTRICOSA
GLENOOINIUM OCULATUH
KIRCHNERIELLA
LE»OCII«CI.IS
MELOSTRA OISTANS
MELOSIRt GRANULATA
MELOSIRA GRANULATA
V. ANGUSTISSIMA
MELOSIRA GRANULATA
V. ANGUSTISSIMA F. SPIRALIS
MICROCYSTIS AERUGINOSA
MICROCYSTIS INCERTA
MOUGEOTIA
NAVICULA
OOCYSTIS
OSC11LATORIA
PEOIASTRUM DUPLEX
V. ?
PEOIASTRUN TETRAS ,.
v. TFTSAOOON
PENNATE DIATOM
PHACUS
PHACUS CHLQROPLASTES
PHACUS MEGALOPSIS
PHACUS PLEURONSCTES 7
PINNUI.ARIA
SCENEDESMUS BIJUGA
SCENEO^SMUS OENTICULATIIS
SCENEOESHUS INTERMEOIUS
SPERHATOZOOPSIS
STAURASTRUM
SVNEORA ft
SYNEDP* ULNA
SYNURA UVELLA
TETRAFDRON MINIMUM
V. SCROBICULATUM
TETRAEDRON TRIG ON UK
V. GRACILE
TETRASTRUM STAUROGFNI AEFORME
TRACHELOMONAS
TRACHELOMONAS INTERMEDIA
TRACHFLOMONAS VOLVOCINA
TOTAL
FORM
CEL
FIL
CEL
FIL
CEL
COL
CEL
CEL
CEl
C?L
CEL
CEL
COL
COL
CEL
CEL
CEL
FIL
CEL
CEL
CEl
COL
CEl
CEl
CEl
COL
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cri
CEL
CEL
cei
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Ctrl
CF.L
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CEl
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COl
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S TC 'ER «L IS tC »=R «L
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9
1
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l.B
.
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3.9
0.9
9.7
0.9
5.3
59. Z
13.3
1.8
0.9
0.9
51
128
Z6
X
26
282
X
26
15*
X
X
X
1715
3«*
X
X
51
'
26
X
X
26
X
X
2
5
3
I
*
18.*
2.7
28.9
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*2.0
?.7
1
2.7
2.7
X
X
X
X
215
X
X
31
X
33R
X
X
X
•
X
X
X
491
.
X
X
31
X
X
31
31
Air.ni t
in ITS
<; tc o" "i
3
2
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»
1
5
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9.6
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1.9
1.9
1.9
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7.7
1.9
X
X
X
X
!90
X
X
7*
I?
X
3?
X
3?
X
'67
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X
X
X
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15?
X
X
18
X
XI
X
X
X
X
X
^''
•'"' X
X
1.91 1"
2895 11*8 !OT«
34
-------
LAKE NAME: GRAND LAKE
STORET NUMBER: 5509
NYGAA^O TROPHIC STATE INDICES
DATE 03 26 74 06 04 74 10 16 74
MYXOPHYCEAN 2.67 E 3.33 E 3.00 E
CHLOROPHYCEAN 7.6' E 5.33 E 7.67 F
EUGLENOPHYTE 0.16 7 0.23 E 0.06?
DIATOM 0.67 E 1.00 E 1.50 E
COMPOUND 13.3 E 13.0 E 13.3 E
PALMER'S ORGANIC POLLUTION INDICES
DATE 03 26 74 06 04 74 1} 16 74
GENUS
SPECIES
24
07
Ifl
07
13
04
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATE 03 26 74 06 04 74 13 16 74
AVERAGE DIVERSITY
NUMBER Qf TAXA
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY
MINUMUM DIVERSITY MINH
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVI DUALS/ML
EVENESS COMPONENT
RELATIVE EVENESS
MEAN NUMBER Of INDIVIDUALS/TAXA
NUMBER/ML o* MOST ABUNDANT TAXON
H
S
M
XH
NM
D
N
J
RJ
L
K
4
59
2
5
0
96570
23103
0
•
•
•
•
•
•
•
..
0.
391
3S13
.
•
19
00
00
an
04
54
00
71
71
5fl
00
3
57
. 2
5
0
501157
152792
0
0
2680
.28
.00
.00
.93
.01
.76
.00
.56
.57
.56
52408.00
3.
50.
2.
5.
0.
54148.
17190.
0.
0.
343.
3523,
15
00
00
64
74
50
00
56
56
80
00
35
-------
LAKE NAME: GP.ANO L»KF
STORFT NUMRF.P: 0501
T4XA
ArTWASTHUM GRACILJMUM
ANABAFNA
ANABAFNA PLANC TONKA
ANABA^NOPSIS CIRCULARIS
ANK1STPOOESMUS FAICATUS
ANKISTPOOESMUS tALTATUS
V. ACICULARIS
ANKISTROOESMUS FAICATUS
V. MIPABILIS
CFNTPIC DIATOM
CHLAMYOOMONAS
CHLflPpCOCCALEAN COLONY »9
CHLCROGONIUM
CHROoroccus
CHROOCOCCUS OISPERSUS
CHPOONONAS ACUTA
CL9STFRIUM
COFLASTRUH CAMBRICUN
V. tNTI=RMEOIU*
COSMARIUM *1
COSMARIUH »2
CnS*>ARIU»l *3
CPUCIGENIA TETRAPEOIA
CRUCIGFNtA TRUNCATA
CPYPTHMONAS EROSA
CYANOPHYTAN COLONY
CYt>ATflPLFURA ELHPT1CA
CYMATOPtFURA SOLEA
CVNBEU.A HINUTA
OACTYLOCOCCOPSIS
OACTYIOCOCCOPSIS IPREGU.APIS
nirTYnspHAFRtiiM PULCHFLLUH
ElAKATQTHfllX GELAT1NOS*
EIJGLFN*
?UGtFNA It
EUGLENA •?
FUGIENA GRACIUS
EUGIENA TRIPTFRIS
FLAGELLATE 14
<=LAK€ILATES
FRANCFIA
GLEMOOINIUM GYMNODINIUP"
V. BISCUTEll IFORHF
GLFNOOINIU" OCULATUM
GLFNOOINIUM PENARDIFOR«E
GClLFNKINIA RAOUTA 7
V. BREVISPINA
CONTINUFT
01 26 T4
Oft 0* ""•
10 '*
GYHN001NIU" ALBULUI"
GYPOSIGHA
K I'CHNERIELLA CONTORTA
LUNAT? CELL
L YNGBYA
LYNGBYA CONTORTA
MFLOSIOA OISTANS
HFICISIRA GRANW.ATA
MELOSIRA GRANULATA
V. ANGUSTISSI"*
H?LOStPA GRANUIATA
V. ANGUSTISSIHA F. SPIRALIS
MELOSIRA VARIANS
KFRIS«OPEC!A GLAUCA
"fR|S«PPEOIA TENUISSIMA
FORM
CEL
FIL
eu
Fit.
CH
CFL
CEt
CEl
CEL
COL
CEL
COL
COL
CH
CEL
COL
CEL
CEL
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COL
CEL
COL
ca
CEL
CFL
C«l
CEl
CQL
CEL
cn
CEL
CR
CEL
CEL
ca
CFL
CEL
CEl
CFL
CEL
ca
CEL
CEL
ca
CEl
CEL
CFl
FIL
FIl
CFL
CFL
CEl
CEL
CEL
COL
COL
UGH
UNITS
S tC »FR "L
1 1 X
11 3.61 82?
*
._
•>
2
1
1
1 X
1
T.M 1719
1
1
1
9.11 2093
1
I. 01 224
1
1
1 X
1
1
1
1 X
1
1 X
I X
1
4.51 1047
1.6| 374
1
1 X
1 X
7.1) 164?
1
0.6! 150
1
0.31 T;
1 X
1
1
1
1
10.71 7467
1 X
1
1
1
1 X
1
1
1 X
1
1
1
0.31 75
1.01 ?24
1.31 75
1
1
3.21 748
1
1.01 ?24
1
3.6| 122
1
1
1.3| 299
ALG»l
IINfS
s »c »F* ML
5
1
3
0.9
2.9
0.2
4.9
1.5
S4.3
0.5
0.2
3.2
6.8
2.0
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0.2
0.3
2.4
no4
4433
?61
X
X
X
X
756!
X
X
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X
2347
X
X
52408
X
X
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X
X
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X
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261
X
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10429
3120
5?l
261
521
X
3650
0.21 12515
Alr.«'.
unrT«
S f. PCO M(
4
2
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0.2
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70.5
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X
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35
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15?3
X
X
X
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X
IS?
! 7*
'00«
36
-------
LAKE MIME: GRAND LAKE
NUMBER: 050«
CONTINUED
OJ
Ot> 04 T*
! 0
TAXA
"FSOSTIGMA VIRIOIS
"ICROCYSTIS INCERTA
1ITJSCHIA
NmSCHIA II
NIT7.SCHIA I!
HI TZSCHIA «3
NITZSCMIA HOLSATICA
OOCVSTIS
OSCILLATORIA
OSCILLATORIA 7
OSCILLATORIA LIMNETIC*
PEOIASTPUM BORYANU*
PFPIASTRUM DUPLEX
V. ?
PFOIASTRUM SIMPLEX
PfOIASTRUM T6TRAS
v. TFTRAOOON
PFNNATF DIATOM
PERIOTNIUM
PERIOINIU* INCONSPICUU"
PFRIOINIUM UHRDNATUM
PHACUS CAUDATU?
PHACUS MEGAtOPSIS
PHACUS PSEUDONORDSTEOTri
PHACUS TOHTUS
RAPHIOIOPSIS CURVATA
SCENEOESMUS ABUNOANS
SCENEOES»US ACIMINATUS
SCcNEnESM(JS ARMATUK
V. 1
SCFNEPESMUS BICAUnATOS
SCENEUESMUS BIJUGA
SCENEOESMUS BREVISPINA
SCENFDESMUS OIMORPHUS
SCHRO?OE*IA
STAURA STRUM II
STEPHANODISCUS ASTOAEA
v. MINUTULA
SURIR'LLA
SURIPELLA TENERA
SYNEO"A
SYNFOPA ACUS
TABFLLARIA EENESTRATA
TFTRAFORON CAUOATUM
V. inNGISPINUM
TETRAEORON GRACILE
TETRAEORON GRACILE t
TETRAEOPQN MINIMUM
TCTP.AEn»ON MUTICUM
TETR/ISTOUM ELEGANS
TETRASTRUM HETERACANTHUM
TFTRASTRUM SPP.
TETRASTPUM STAUROGENIAFFORME
TRACMELOMONAS
TOACH^LOMONAS SCAB°A
V. LONGICOLL IS
TOTAL
FORM
CEL
cm
CEL
CEl
CEL
CEl
CEL
CEl
Ml
FIL
eu
coi
COL
COL
cm.
CEl
CEL
CEl
CEL
CFL
CFL
cei
ca
«=IL
COL
COI
cot
COI
COI
COL
COI
COI
C6L
CEL
CFL
CEl
CEL
CEl
CEl
CEL
CEl
CEl
CEL
CEL
CEl
CEL
COL
COL
COI
COL
CFL
CEl
S
3
JC
7.4
?.*
0.3
4.5
2.1
0.3
0.6
0.3
0.6
1.3
16.5
1.3
0.3
0.3
3.2
UGAL
UNITS
PER ML
X
1719
«??
75
1047
X
673
75
X
X
X
150
X
X
X
75
ISO
299
X
X
3813
224
X
75
75
X
X
748
X
X
23103
S
2
4
TC
T.5
1.0
3.4
0.2
0.2
O.T
15.2
5.6
0.2
1.2
•
AlCAl
UNITS
PER »L
114T?
15^4
5215
X
X
261
X
X
X
X
I
261
1041
X
23206
X
8614
X
261
261
X
152792
S
1
1
5
tc
0.7
14. q
17.6
0.2
0.6
T.*
O.f.
o.n
7.0
1.2
0.2
Al '•,»!
U"' T<;
PCS MI
1*
25'7
X
X
30>n
X
X
35
X
X
X
' 06
X
X
X
' 16
X
n
1*1
X
X
X
1198
X
X
35
'«
X
1
1
1 " 90
37
-------
LAKE NAME: LAKE HAMILTON
STO»ET NUMBER:
DATE
MYXOPHYCEAN
CHLOROPHYCEAN
FUGLFNOPHYTC
DIATOM
COMPOUND
TPOPHIC STATE INDICES
13 2? TI, 06 05 7^ O 15 ?4
01/0 F
03/3 F
0/04 ?
0.67 F
10/0 F
9.00 E
13.0 E
0.05 ?
0.50 E
23.0 f
2.00 E
6.75 «•
0.09 ?
1.25 F
10.7 F
PALMER'S ORGANIC POLLUTION INfMCES
DATE 33 27 74 06 05 74 n 15 ~"t
GENUS
SPECIES
06
03
08
00
12
13
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATE 03 27 74 06 05 ^4 10 15 74
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY MAXH
MINUMUM DIVERSITY MINH
TOTAL DIVERSITY
TOTAL NUMBER OF INOIVIDUALS/ML
FVENESS COMPONENT
RELATIVE EVENESS
MEAN NUMBER OF INOIVIDUALS/TAXA
NUMBER/ML OF MOST ABUNDANT TAXON
H
S
M
iXH
NH
D
N
J
RJ
L
K
2.41
24.0)
6.00
4.58
0. D7
11199.27
4647.00
0. 53
0.52
193.63
2543.00
3.58
37.00
6.00
5.21
0.22
7296.04
2038.30
0.69
0.68
55.08
528.00
3.59
62.00
6.00
5.95
0.15
20168.62
5618.00
0.60
0.60
90.61
1976.00
38
-------
LAKE NtMEt LAKE HAMILTCN
STn»ET NUMBED! 0510
TAXA
ANA8AENA
ANABACNA •!
ANABATNA «2
AN»I STRODESMUS FALCATUS
AN« ISTPOOESMUS'J'AICATUS
V. MIP4BILIS
APMAN!JOMENON FLOS-AOU4E
APHANOTHECE
ASTEPIONELLA FORMOSA
A T THE YA
CENTPIC DIATOMS
CEPATIUM HIRUNDINELLA
F. B'ACHYCEPAS
CHLCROGQNIUM
CHPOOMONAS ACUTA
CLOSTFPIUM
COELASTRUC PROflOSCIOEU"
coFiASTouN RETICULATUM
V. POLYCHOPDON
COELASTRUM SPHA=RICUM
COSHARIUM
CPIIC1GENIA APICULATA
CPUCIGFNIA CRUCIFEPA
COUCICENIA FENESTR«TA
CPUCIGENIA TETRAPEniA
CRUCIGFNIA TRUNCATA
CPYPTOMONAS EROSA
CRYPTOMONAS MARSSONtl
CRYPTQMONAS REFLEX*
CYCLOTFLLA STELLIGFP.A
CYMBFILA
OArTYI.oCOCCnPSIS
OACTYIOCOCCOPSIS IPREGULARfS
OICTYOSPHAEBIUM PULCHFLIUH
01NOBPYON
OtNOBPVON CYLINORirW
EUASTPUH OENTICULATUM
EUGLENA
EUGLENA ACUS
F8AGILARIA CP.OTONENSIS
FPANCEIA
GC1LFNK IN IA
GOMPHONEMA
GQNAIOZYGON MONTAEMUX
GY»KOPINtUM OROINATUH
KIRCHNERIELLA
LAGFRHFIMIA SU8SAISA
LYNGBYA
MALLOMONAS
MELOjim 01STANS
MELOSIPA GP.ANULATA
"FLOSIRA GRANULATA
V. ANGUSTISSIHA
HFRISHOPEDIA MINIMA
MESOSTIGMA VIRIOIS
MICRQCYST1S AERUGINOSA
MCUGFOTIA
NAV ICIILA
NI7ZSCMIA
NIT/SCHIA II
NITZSCHIA §2
NITZSCHIA »3
nSCILLATORIA
8IRAOIA7UM
CONTINUFO
13 27 7*
06 05 74
10 15
FORM
Ftl
CIL
FH
CEL
CFL
FIL
COL
CEl
CFt
CEL
CEL
CEL
CEL
CEL
COL
COL
r.oi
CEL
COL
COL
COL
COL
COL
CEL
CFl
Cfl
CEl
CR
CEl
CEL
COL
ca
CSL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
Ml
CEL
CEL
CEL
CEL
COL
CEL
COL
FIL
CEl
CEL
CEL
CEL
CEl
FIL
COl
ALGAL
UNITS
5 1C PFR ML
!
6
^
2
1.1
6.3
1.1
5*.7
1.1
1.1
5.3
2.1
11.6
6.3
5.3
1.1
*<»
X
293
*•>
25*3
49 .
49
?45
X
X
X
X
98
X
518
293
X
X
2*5
49
AlGtl
UNI TS
S If t>cR KL
3
5
2
1
»
5.51 113
1
3.7| «
3.7
1.9
3.7
1.9
9.3
2«.9
3.7
7. 4
14.8
1.9
7.4
X
X
X
X
75
38
X
75
X
30
189
X
X
528
X
75
151
302
38
X
151
X
X
X
ALr.M
IIN'TS
<; TC "" «l
7
3
4
1 »
1.4| •">
1 >
3.51 '96
0.7
7.7
35.2
0.7
2.1"
4.?
3.5
3.5
1.5
X
X
X
X
X
X
X
X
40
X
X
X
41*
!<>7f
X
40
X
X
X
X
X
X
If
X
!5R
X
'37
X
X
.,<.
1 Qft
X
X
!99
X
39
-------
lAKF NAME: LAKE HAMILTON
NUMBER: 0510
TAXA
OFCIASTRUM BIRADIATUM
V. I C1NGECORNUTUM
PFPIASTOUM TETPAS
V. TFTRAOOON
PERIOINIUM
PERIDINIUM INCONSPICUU"
OHACUS
RAOHIOIOPSIS ?
R4PHICIOPS1S CURVATA ?
"HI70SPLENIA
SC^NEHESMUS ABUNOANS
SCENEQFSMUS OENTICULATUS
SCFNfnESMUS OIWORPHUS
SCENEPESHUS INTERMFOIUS
SCENECESHUS INTERMEOIUS
V. 8IC4U04TU5
SCENEOESMUS OU»OR ICAUDA
ST»UR»STRUH fl
STAUBASTBU" TETRACERUM
STEPH4NOOISCUS
$YNFD"A «1
SYSED°A ACUS
SYNFORA CAPITATA
SYNEORA OELICATISSIHA
SYNED'A ULNA
TABELLARIA FENESTRATA
T^TRAEORON CAUOATU"
V. LONGTSPINUM
TCTRAEDRON
03 27 7*
11 '5 74
TETRAEORON MINIMUM
TETRAEORON MINIMUM
V. SCRflBICUI-ATUM
TFTRAFORON TRIGONUM
TFTBAEORON rOIGONU''
V. GRACILE
TCTR1STRUM HETERACANTHUM
TOACHFLOMONAS
TDFU8ARIA SETIGERUM
TOTAL
FORM
COL
COL
CEL
CEl
CEL
FIL
FIL
CEL
COL
COL
COL
COL
COL
COL
ca
CEL
CFl
CEL
CEL
CEL
CEL
CFL
CEL
CFL
ca
CEL
CFL
CF.l
CFL
CEL
COL
CEL
CEL
S
15
tc
3.2
UNITS
°ER HI
X
147
X
X
S
»c
1.9
1.9
1.0
1.9
1.9
UNITS
°ER "I
18
X
3»
38
X
X
X
38
X
38
X
S
1
•i
*C
4.0
0.7
0.7
2.1
2.1
•) .T
9."
4.2
1.4
1.^
} BT
1.4
Air, A I
pro «l
X
„
X
X
•>77
4D
40
1!"
X
X
110
41
X
SSI
'3--
70
41
X
10R
X
X
41
7q
464T
40
-------
LAKE NAME: MILLWOOD LAKE
STORET NUMBER: 0511
NYGAA1D TROPHIC STATE INDICES
OATP 13 25 74 06 03 74 1) 17 74
MYXOPHVCEAN
CHLOROPHYCEAN
EUGLENOPHYTE
DIATOM
COMPOUND
03/0 E
06/) E
0/0" ?
0.27 ?
12/0 E
06/0 E
11/0 E
0.06 ?
0.44 f
22/0 E
?.00 P
8.03 P
0.30 f
0.67 F
17. 0 P
PALMER'S ORGANIC POLLUTION INOICSS
DATE 03 25 74 06 03 74 10 17 74
GENUS
SPECIES
11
08
03
01
00
SPECIES DIVERSITY AND ABUNDANCE INDICES
OATP 03 25 74 06 03 74 10 17 ^4
SVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY MAXH
MINUMUM DIVERSITY MINH
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
PVENF.SS COMPONENT
RELATIVE EVENP.SS
MEAN NUMBER OF INDIVIDUAL S/TSXA
NUMBER/ML Of MOST ABUNDANT TAXON
H
S
M
XH
NH
0
N
J
RJ
L
K
3.33
29.00
3.00
4.86
0.12
9780.21
2937.00
0.69
0.68
101.28
698.00
3.84
40.00
3.00
•5.32
0.08
27605.76
7189.00
0.72
0.72
179.73
2010.00
2.73
31.00
3.00
4.9?
0.29
3458.91
1267.30
0.55
0.53
41.87
438.00
41
-------
LAKE NA»E: M1UMOOO l»KE
STORET NUMBER: 0511
TAXA
ACHNANTHES MI CROCEPHAl»
ANABAF.NA
ANKtSTPClOESWUS
ANKISTRODESMUS FALCATUS
ANKISTPODESMUS FALCATUS
V. ACICULARIS
APHANI70MENON FLOS-AOUAE
ASTEPIONELLA FORMOSA
ATTHEYA ?
CAPTEOIA KLEBSII
CFNTR 1C DIATOMS
CHRPOMONAS ACUTA
COCCONEIS
COELASTRUM SPHAERICUM
CRUCIGENIA TETRAPEOIA
CRYPTOMONAS
CRYPTOMQNAS EROS A
CRYPTOMDNAS MAPSSONII
CYCLOTELIA
CYCIOTEILA MENFGHINIANA
CYMBEllA
CYMBELLA VENTRICOSA
OACTYIOCOCCOPSIS
dlNOBRYON BAVARICUM
OINCBRYON SOCIALE
1UASTPUM
EUOORINA ELEGANS
FUGLENA TRIPTEPIS
FUNOTTA
FUNOTIA PECTINALIS
V. MINOR f. INPRSSSA
FLAGEtLATE «2
FLAGELLATE »»
FRAGILAR1A CHOTONENSIS
GOLENKINIA
GYHNOniNIUM
KIPCHNERIEUA
KIRCHNERIELLA CONTCRTA
L EPOC INCUS
LYNGBYA
MAllOHONAS
HEIOSIRA DISTANS
HFLOSIRA GRANULATA
MELOSIRA GRANULATA
V. ANGUSTISSIHA
MERIS«PPEOIA MINIMA
MEStlSTIGMA VIRIDIS
MICRACTINIUM
MICROCYSTI S INCERTA
MOUGEOTIA
NAVICULA
NAVICULA «1
NAVICULA «2
NAVICULA VIRIDULA
V. LINEARIS
NFPHROCYTIUM
NITZSCHIA
NITZSCHIA »\
NIT7.SCHIA #2
NM7SCHIA »3
NITZSCHIA IK
NITZSCHIA ACICULARIS
n$C ILL A TOR I A
PEOIASTPUM DUPLEX
PEOIASTRUM DUPLEX
V. ?
PFDIASTBUM TETRAS
V. T?TR»OOON
PFRIOINIUM
PFRIOINIUM UMBONATUM
PHACUS LONGICAUOA
PTEROMONAS ANGULOSA
SCENEDESMUS ARCUATUS
V. PLATYDISCA
SCENEOESMUS 8ICAUDATUS
SCENEDESMUS DENTICULATUS
SCENEOESMUS DtMORPMUS
SCENEOESMUS OVALTERNUS
V. CRAEVENITtM
CONTINUFO
01 ?5 T>
06 01 74
10
FORM
CEL
FU
CEL
CFL
CEL
FIL
CEL
CEL
CEL
CEL
CH.
CEL
COL
COL
CEL
CF.L
cot.
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEl
COL
CFL
CEL
ca
CEL
CEL
CEL
CEl
CEL
CEL
CFL
TEL
FIL
CEl
CEL
CEL
CEL
COl
CEL
COL
COl
FIl
CEl
cei
CEl
CEl
CEL
CEL
CEL
CEL
Ctl
CEL
CFl
Ftl
COl
COl
COL
CFl
CEL
CEL
CEl
COL
COl
COL
COl
COl
4LGAI
UNITS
5 *C "FP ML
1
1.31 3T
1 X
2.5) 7J
2.5
. T.5
Z 23. B
3 T.S
2.5
' 7.5
23.8
5.0
1.3
5.0
3.T
3.7
73
220
ft<>8
X
220
X
X
X
73
X
?20
698
X
X
X
1*7
37
X
X
1*7
110
110
1.31 37
ALT.AI
UNITS
S « "ER *l
1 1 X
11 T.5| 5*1
3
^
*
5
1
1.61 116
1
1
l.ll 77
1 X
0.51 39
1
1
1
1
0.51 39
1
1
1.61 116
1 X
1
1
1
1 X
5.9| 425
7.01 502
1
1
1 X
1
I
1
1
5.91 *?5
0.51 39
2.7| \n
1
1
1.61 116
1 X
1.11 77
3.21 232
1
28.01 21U
5.9| *25
1
5.M 3«7
2.21 155
*.3I 309
1 X
5.9| 425
1 X
1 X
1
1
1
1 X
1
?.7| 193
|
1
1
1
1
1
1 X
1
1
1
1
1.61 116
1
1
1
1
1
0.51 39
1 X
1
1
1
1L04L
UN' T<;
5 »C OCD ut
1
5
4
3
2
34.6
15.4
3.9
7.7
3.0
15.4
11.5
1.9
3.9
»
X
M«
t OS
X
40
X
X
-------
LAKE NAME: NUIWOCP LAM
STCPfT NUMBER! )5J1
TAX*
SCMROfOERIA SETtGfOA
SURIRFLLA
SYNEORA
SYNEDRA ULN»
TABFLLARIA FENESTRATA
TFTOSEDBON MINI MUM
V. SCBOBICUL4TU"
TETRAEORON REGULAR;
THAfHELOMONAS
TOTAL
CONTINUE'"
01 2S Tt
06 01 ""•
FOP*
fii"
cei
ca
cei
CEL
CEL
CEL
s tc
1.3
ALGAL
UNITS
»ER ML
37
K
X
S
tc
2.7
AlCAl
UNIM
PER »i
141
X
X
X
X
s
»r
Air..,
IN' *<
pro 14
X
X
X
293T
7119
1267
43
-------
LAKE NAME: NIMROO LAKE
STORET NUMBER: 0512
NYGAA^D TROPHIC STATE INDICES
DATE 03 27 74 06 07 74 10 18 74
MYXOPHYCEAN
CHLOROPHYCEAN
EUGLFNOPHYT?
DIATOM
COMPOUND
02/0 E
05/3 E
0.57 E
1.00 F
14/0 E
04/0 E
01/0 E
0.80 f.
0.80 £
13/0 E
04/0 F
06/0 c
0/10 ?
0.57 f
14/0 E
PALMER'S ORGANIC POLLUTION INDIES
DATE 03 27 74 06 07 74 13 18 74
GENUS
SPECIES
09
03
01
00
10
04
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATE
03 27 74 06 07 74 10 19 74
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY
MINUMUM DIVER SI TV
TOTAL DIVERSITY
TOTAL NUMBER OF INDlVI DUALS/ML
CVENESS COMPONENT
RELATIVE EVENESS
MEAN NUMBER OF INOIVIDUALS/TAXA
NUMBER/ML OF MOST ABUNDANT TAXON
MINH
0
N
J
RJ
L
. K
1.93
26.00
2.00
4.70
0.10
6183.72
3204.00
0.40
123.23
1933.00
3.04
22.00
2.00
4.46
0.25
2927.52
96^ .00
0.68
0.67
43.77
394.00
3.12
27.00
2.00
4.75
0.10
11232.00
3600.00
0.66
0.65
133.33
1296.00
44
-------
LAKE NAMEl MMPHO LAKE
STflRFT NUMBER:
TAXA
ACHNANTHES MICROCEPHAIA
ACTINASTHUM
4NA6AFNA
ANK ISTPOOESMUS FALCATUS
ASTERIHNEllA FORMOSA
CARTFPIA
CENTS 1C DIATOMS
CERATIUM HIRUNOINEILA
F. FIJRCOIOFS
CHRCOMONAS ACUTA
COFLASTRUM SPHAERICUM
CRYPTOMONAS
CRYPT9MONAS EROSA
CYriOTFLLA
oACTvincoccoPsis
DICTYOSPHAERIUM PUICHELLUM
FUGLFNA
FUGIENA «1
FUG LENA OXYURIS
v. MINOR
FLAGELLATES
FRAI5UARIA CROTONENSIS
GLENODINIUM OCUIATUM
HANTZ5CHFA
KIRCHNERIELLA
L EPOC INCUS
MAUOWONAS
"4UOMONAS PSFUOOCPRONATA
MELOSIRA OlSTAfS
MFLOStRA GRANULATA
HFLOS1RA GRANM AT*
V. *NGUSTISSI««
•lEOIS'OPEOrA GIAUC*
«EI>!S»OPEOI* TENUISSIMA
•ESOS'TGMA VIRIOJS
CONTINUFT
03
0* 07 Tt
10
•(ICROCYSTIS INCERTA
"OOGEOTIA
NAVICULA
NITZSCHIA
OSCILLATORIA
PFOIASTRUH TETRAS
v. TETP.AOOON
PENNATE DIATOM
PERIOINION
PHACUS
PHQRMIOIUM HUCtCOlA
PTFROMONAS
5CFNEOESHOS BICAUOATUS
SCENEDESMUS OENTICULATllS
sr.EKERESNUS PROTUBFRANS
SCFNEOESMUS OUADRICAUOA
SURIRfLLA ANGUSTA
SYNEORA 7
SYNFORA DEL 1CATISS1HA
SYNFORA OELICATISSIMA
V. ANGUSTISSIHA
SYNURA 7
TABELLARIA FENESTRATA
TPACHELOHONAS INTERMEDIA
TOTAL
FORM
CEL
CEL
FIL
CEL
ca
CEl
CEL
CEL
CFL
COL
CEL
CEL
CFL
F[L
COL
CFL
CEl
CEl
CEL
CEL
CEL
CEl
CEl
CEL
CEL
CEL
CEL
CEL
CEL
COL
cn.
CEL
COL
COL
FtL
ca
CEl
CEl
FIL
COL
CEl
CEL
ca
FIL
CEl
ca
coi .
COl
coi
COl
CEL
CFL
CEL
CEL
CEL
CEl
CEl
UGAl
I/NITS
S tC 'FR "I
1
?
I
5
4
13.2
3.9
13.2
60.3
l.$
1.5
2.9
2.9
X
X
*2*
X
9*
X
X .
X
*2*
X
X
1933
*7
*7
X
X
X
94
X
X
X
X
94
X
X
1.51 47
Air.Ai
UNIT*
S »C P?R Ml
3
S
4
2
1
2.6
2.6
10.3
S.I
*.l
5.1
2.6
10.3
40.9
2.6
2.6
2.6
X
?5
25
90
49
49
49
25
X
X
90
304
X
"
X
w
25
25
X
X
5.11 49
1 X
2.6| 25
Ain/ll
ON!T<
S tf ocn M)
J
5
1
2
4
1 »
1
1
|
1
1
1
1
1
3.4| 121
l.tl 40
|
6.7| ?4->
4.51 162
12.4| 445
1
1
1
1
1
1
1 X
1
1 X
2.21 81
1
1 X
1 X
36.01 129A
S.A| izi
t
1
1 X
1
S.4I 121
1
13.51 tn&
1
3.4| 121
I. II 4)
1 X
1
1
1
1
4.M !62
1
1 X
1
1 X
1 X
1 X
1.11 40
3.4| !21
1 X
1
1
1
1
1
1
1
3204
963
45
-------
LAKE NAME: NORFORK LAKF.
STORET NUMBER: 051?
NYGAAUD TROPHIC STATE INOICFS
04 04 74 06 19 74 09 03 74 10 10
MYXOPHYCEAN
CHLOROPHYCEAN
EUGLENOPHYTc
DIATOM
COMPOUND
02/0 F
02/0 E
0/14 ?
1.40 E
11/0 F
0/01 0
i.oo e
0/01 ?
i.oo E
4.00 E
5.00 F
2.00 «
1.14 ?
0.17 ?
9.00 F
06/0 F
05/0 f.
1.19 ?
0.75 F.
15/0 F
PALMER'S ORGANIC POLLUTION INDICES
04 04 74 06 19 7* 09 03 74 10 10 74
GENUS
SPECIES
01
00
01
00
10
00
O''
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATF-
04 04 74 06 19
39 03 74 U 10 74
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITED
HAXIMUM DIVERSITY
MINUMUM DIVERSITY
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
CVENESS COMPONENT
RELATIVE EVEMESS
MEAN NUMBER OF INOt VIOUALS/TAXA
NUMBER/ML OF MOST ABUNDANT TAXON
H
s
«H
MAXH
MINH
0
N
J
RJ
L
K
2.28
20.00
7.00
4.32
1.16
3210.24
1408.00
1.53
0.51
70.40
556. 00
2.45
17.10
7.00
4.09
0.11
4304.65
1757.00
0.60
0.59
103.35
645.00
3.24
19.11
7.00
4.?5
1.16
13588.56
4194.00
1.76
0.76
220.74
805.00
3. **
28.11
7.00
4.81
1.12
10277.25
2P95.00
0.74
0.^4
113.39
603.00
46
-------
LAKE NAVE: NORFOLK LAM
ST^PE' NUMBER: 0511
CONTINUE!
TAXA
ACHNANTHES MICROCEPHALA
AI4ABAFNA
ANKISTPODESMUS FALCATUS
«PHAirZOMENON FLOS-AQUAE
ASTEPinNEUA FORMOSA
CENTRIC DIATOM
C«ATIUM HIRUNDINELLA
• '. FlIRCOIOES
CERA'IUM HIRUNOINELLA
f. Hl.'BUSTUN
rHROO^ONAS ACUTA
CHOCOMONAS ACUTA 1
ClOSTFRIUM
COSMABIUM
CPUCIC.ENIA TETRAPEPIA
-RYPTOMONAS
rurPTOHONAS EROSA
•RYPTdWflNAS MARSSONIt
.VCLIITFLLA COMTA
i. YCLOTFLLA MICHIGANIAN4
'-.YCinTFLLA STELIIGFRA
CY1BEI LA TUMIOULA
OACTYLOCOCCOPSIS
OUTPNA VULGARE
V. B»EVE
OINORRYON SOCULF
OP.NATA
'LAGFltATE 12
FRAGIIAR1A CROTONFNSIS
FPSNCFI A nVALIS 7
LYNCBYA BIRGEI
HAILOMONAS
MALLOMONAS PSEUOOCCRONATA
MFLOS1RA OISTANS
NFLOSIRA GRANUIATA
MFIOS1RA VARIANS
MERISMOPEOIA HINIMA
HFPISMOPEDIA TENUISSIMA
MICROCYSTIS INC?RTA
HOUGEOTIA
NAVICULA
NEPHRflCYTlUM
Nt TZSCHIA
N1TZSCH1A II
NITZSCHIA *2
N1I7SCMIA VERMICULARIS
nSCILLATORIA
PFDIASTRUM SIMPLEX
PFOIA5TRUM SIMPLEX
V. OtJOOENARIUM
PCRIDINIUM
PERIOINIUM »2
PFOID1NIUM HUNUSCULUH
PFPIDINIU* QUAORIOFNS
PFRIOINIUM SPP.
PHACUS HEGALOPSIS
OAPHIOIOPSIS CUPVATA
SCFNFOESMUS OUAORICAUOA
SCHROEOEKIA SETIGEPA
STEPHANOOISCUS NIAGARAE
STIPITOCOCCUS
SYNEOPA ACUS
TABELLARIA FENESTRATA
TETRAFORON MINIMUM
V. SCROBICULATUN
TOTAL
FORM
ciT
c 11
CEL
Fll
CFl
CEL
TEL
CEL
CEl
CEL
CEL
CFl
COL
CEL
CEl
CF.I
CEl
CEL
CEl
CFL
CFL
CEL
CEL
CFL
CEl
CEL
CEl
CEL
CFL
Fll
CH
CF.I
Ccl
CEl
CEl
CCl
COl
COL
CEl
CEL
CEL
CEl
CEl
CFL
CEl
FIL
COL
cm
CEl
CFL
CEl
CFl
CEl
CEL
FIL
COL
CEl
cei
CEl
CFl
CH
CEl
HGAi
UNITS
S tC P*R ML
2
4
5
1
3
5.3
39.5
5.3
5.3
29.0
5.3
11.5
X
X
74
556
•">
X
X
X
X
X
74
408
X
X
X
X
X
X
74
14R
ALGU
UNI"
S 1C PER ML
2
3
4
1
5
2.0
4.1
6.1
4.1
4.1
2.0
34.7
36.7
2.0
2.0
2.0
36
X
72
X
X
117
7?
7?
36
609
X
645
X
X
36
16
36
(( ". M
IIN'T'
S V. P" "I
51 9.61 '.O'
1
4
3
2
6.fl
19.2
fl. '
'
15.1
I .4
15.1
1 .4
fl .*
!.4
».2
5.5
x
•>qT
X
BH«
X
145
X
*3?
57
A?.'
X
57
745
"?7
X
•>*5
X
7*0
ALTAI
?
3
5
£.
!
I.*
C .5
! .4
1 1 ,i
I / <.
".I
1 2.5
5.6
4. '
'
?0.8
6.9
5.6
2.P
6."
6.0
Y
40
X
' 21
'•0
??:•
'•n
'<•!
y
y
3*?
IM
y
y
X
1 ?!
X
60?
?0!
X
IM
X
y
y
80
20!
X
701
1408
1757
4194
ZB95
47
-------
LAKE NAME: LAKE OUACHITA
STORET NUMBER: 0514
NYGAA^O TROPHIC STATE INDICES
DATE 03 25 74 06 06 ?4 10 17 74
HYXOPHYCEAN
CHLOROPHYCEAN
EUGLENOPHYTF
DIATOM
COMPOUND
0/0 0
03/0 E
0/03 1
2.00 E
07/0 E
1.00 F
0.67 ?
0.40 E
0.50 E
3.00 E
7.00 F
2.00 F
0/09 ?
0/03 ?
9.00 F
PALMER'S ORGANIC POLLUTION INDITES
DATE 03 25 74 06 06 74 10 1? 74
GFNUS
SPEC IPS
00
00
01
00
01
00
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATE
AVERAGE DIVERSITY H
NUMBER OF TAXA S
NUMBER OF SAMPLES COMPOSITED M
MAXIMUM DIVERSITY MAXH
MINUMUM DIVERSITY MINH
TOTAL DIVERSITY 0
TOTAL NUMBER OF INOIVIOJALS/ML M
EVFNESS COMPONENT J
RELATIVE EVENESS PJ
MEAN NUMBER OF INDIVIOUALS/TAXA L
NUMBER/ML OF MOST ABUNDANT TAXON K
03 25 74 06 06 74 10 17 74
1.47
12.00
6. 00
3.58
0.46
323.40
220.00
0.41
0. 33
13.33
110.00
2.71
20.00
6.00
4.32
0 .08
8176.07
3017.00
0.63
0.63
150.95
7<»7.00
3.44
21.00
6.00
4. 3<>
0.14
5841.12
1698.00
0.78
0.78
80. 86
266.01
-------
IAKf NAME! LAKE OUACHI'A
'.TORf NUMBER: )51*
TA»A
A PlANCTONtCA
ANK 'S'PODESMUS FALCATUS
AfiKI STPCOFSMUS FAICATUS
V. MIRABIl IS
APHANI JOMENON FLOS-AOU«E
APTHPOPESMUS MINOP ?
ASTfRfflNELlA FORMOSA
CENTRIC OUTO*
CfATfUM HIPUNOINEllA
F. FURCOIOES
CMPOOMONAS ACUTA
ClCSTERIUM
CPYPTflMONAS EROSA
rp.YPTOMONAS HAPSSONI!
OACTTLOCOCCOPSIS
0 I NOB P VON
OENTICULATUN
«2
FOAGIUAPIA CROTONENSIS
GY«NnOINIUM ALBULU"
"lllOTNAS PSEUOOCPRONATA
"FLPSIPA OISTANS
•FLOSIPA GP.ANULATA
«?DISHnPEDlA TENU1SSI"A
MICPOCYST1S INCERTA
"TUGFCT IA
OSCILIATQ9IA
PSCtlLATORIA II
"ECIASTPUX BIRAOIATUH
V. LCNGECOPNUTUM
P6PIOINIUX OUAORIOFNS
OUAOPICAUOA
POT AM OS
STSU««STRUI< CUSPIOATUM ?
SUP IPFLLA
SYNEDPA
TABFLI.APIA FENESTRATA
TETRAEORON CAUOATUW
TETRAFDROK MINIMUM
v. SCPHBICUIATUM
01
TPACHFIOMOMAS INTERMEDIA
TOTAL
I 'JNI'S
COPM K tC PFR ML
FH
CFl
CEL
Ml
CEl
CEL
CEl
CFl
CR
CEI
Cfl
CEl
cei
CEL
CEl
CEL
CEl
CEL
CEl
ML
CEl
CEL
C?L
CEl
COl
COl
ML
f II
Ml
COl
ca
cot
CEl
r.n
CEl
CEl
CEL
CEl
CEL
CEl
CFl
3
2
1
16.8
33.2
50.0
X
X
37
73
X
110
X
X
X
X
X
X
1
1
5 *C P?P «l
»
?
5
3
1
1.2
3.*
1.2
23.0
1.2
26.*
13.0
11.3
1.2
1.7
17.2
X
X
35
11*
35
6
-------
LAKE NAMES TABLE ROCK LAKE
STO«ET NUMBER: 0515
NYGAA^D TROPHIC STATF INDITFS
OATC 0* 05 7* 06 18 T4 09 04 74 nil
MYXOPHYCEAN
CHLOROPHYCEAN
EUGLENOPHYTF
DIATOM
COMPOUND
03/3 E
01/3 E
0/0* ?
1.20 E
10/1 E
05/0 F
06/0 F
0/11 ?
1.33 E
15/0 F
I. 00 F
7.67 F
0.09 ?
1.50 E
5.33 F
1. 50 F
1.00 P
0.60 c
0.^0 f
5.30 F
PALMER'S ORGANIC POLLUTION INDICES
DATE 04 35 74 06 18 74 09 04 74 13 13 74
GENUS
SPECIES
06
00
03
00
05
30
00
13
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATE 34 35 74 36 18 ^4 3<» 34 74 13 13 74
AVERAGE DIVERSITY
NUMBER r»F TAXA
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY
MINUMUM DIVERSITY
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
6VENESS COMPONENT
RELATIVE EVENESS
MEAN NUMBER OF INDIVIDUALS/TAXA
NUMBER/ML OF MOST ABUNDANT TAXON
H
s
M
MAXH
MINH
0
N
J
RJ
L
K
2.99
19.00
9.00
4.25
0.37
9554.34
3306.00
3.68
0.68
174.00
882.00
3.49
29.30
9.00
4.86
0.21
5528.16
1584.00
0.72
0.71
54.62
264.00
1.29
26.33
9.00
4.70
0.02
28796.67
22323.00
0.77
0.28
858.58
17906.00
1.0!
24.QO
9.00
4.58
0.0?
16806.40
16640.00
0.2?
0.??
69? .?•>
13993.00
50
-------
HIT MlMf: TABLE ROCK IMF
S'W NUMBER: OM*
TtXA
»C»Nlf:THES MICROCEPHAL A
A'HBAf N»
ANK IS
»FNNATf DIATOM
PFN'JATE DIATOM II
PFRiniNIUM fl
PERID'INIUM n
PF.RIDIMUM INCONSPICUUI"
PH1CUS
RAPHIOIOPSIS CURVATA
SrFNEnCSMUS
SCfNEOESMUS ABUNDANS
SCENEHESMUS BICAUOATUS
SCENF.DESMUS OUAORICAUOA
V. OUAORISPINA F. SPINOSUS
SCMOOFDERIA S6TIGEPA
SCYTONE^A
STAURA;TRUM
STAUP'STRUX. TETRACERUM
STEPHSMODISCUS
STEPHANOOISCUS NIAGARA?
SYNFDRA
SVNFORA ORICATISSIMA
V. ANGUSTISSIMA
TETRAEORON MINIMUM
V. SrpOBICULATyM
TPACHELOMONAS «1
TRACHFLOMONAS •?.
TPEUBARIA SETIGERUM
TPTAl.
FORM
CEL
Fll
CFl
Ctrl
CFl
CEL
CEL
CEL
CEL
CCl
CEL
CEL
COl
CEl
CEl
CEl
CEL
CFL
CEL
CEL
CEl
CEL
CEL
CF.I
CEL
CEL
CEl
CEl
CEl
CEL
CEL
COl
COl
CEl
Fll
CEL
<= IL
Fll
COl
COl
CEL
CEL
CEl
CEl
CEL
CEl
Fll
COl
COl
COL
COL
CEl
Ftl
CEL
CEl
CEL
CEL
CFL
CEl
CEl
CEL
cn.
CEl
ALGAL
UNITS
s re PFR MI
5
4
3
I
2
7.S
6.T
7.7
23.3
1.1
3.3
Z6.7
1.1
3.3
1.1
1.1
1.1
20.0
1.1
"
X
X
257
220
73
771
37
X
110
8BZ
X
37
X
110
37
37
37
661
37
ALG«l
UNITS
S
3
1
2
*
»
»U "CH "I
2.1
8.3
8. 3
16.7
12.5
2.1
4.2
4.Z
2.1
4.7
2.1
2.1
14.6
Z.I
14.6
31
13Z
13Z
X
X
X
264
X
108
X
3J
6C
,
X
6f
33
66
33
3?
231
X
X
X
X
X
X
X
33
X
231
Af.AL
UNf'
1
5
*
3
Z
°0.2
3.0
1.7
o.z
1.4
O.T
0.4
1.1
•).?.
2.6
7.7
0.7
0.?
1.7
1 7OQh
fO
X
100
40
O''
X
X
14 A
X
X
X
X
X
07
243
40
58?
X
!IS01
40
40
X
X
78*
X
AIC.M I
UNIT*
1
7
*
4
3
B ^.S
I.'
1 .4
0*4
"l.t
0."
O.o
5.1!
^.0
1 1QQ1
X
1 01
X
X
1 301
'
X
X
\
I
X
X
10
155
X
X
155
7T
X
X
*0'
X
X
3306
158*
l»t*0
51
-------
LAKE NAME: GREEK'S FERRY LAKE
STOBET NUMBER: 0516
NYGAARD TROPHIC STATE INDICES
DATE 03 21 74 06 06 74 09 03 74 10 16 74
HYXOPHYCEAN
CHLOROPHYCEAN
EUGLENOPHYTP
DIATOM
COMPOUND
2.51 E
2.50 E
0.20 ?
0.^3 E
7.50 E
3.00 E
3.00 E
0/06 ?
0.75 F
9.00 E
1.33 E
1.00 E
0/07 ?
3/02 ?
2.33 F
1.33 v
1.33 e
0.25 *
1. 00 «=
4.33 F
PALMER'S ORGANIC POLLUTION INDICES
DATE 03 27 74 06 06 74 09 03 74 10 16 74
GENUS
SPECIES
04
00
00
31
00
01
00
SPECIES DIVERSITY AND ABUNDANCE INDICES
OAT? 03 2? 74 06 06 74 09 03 74 10 16
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY MAXH
MINUMUM DIVERSITY MINH
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIOUALS/ML
FVF.NESS CCMPONENT
RELATIVE EVENESS
MEAN NUMBER OF INOIVIDUALS/TAXA
NUMBER/ML OF MOST ABUNDANT TAXON
H
S
H
XH
NH
D
*l
J
RJ
L
K
3.35
29.00
4.00
4. 86
0.14
8291.25
247S. 00
0.69
3.69
85.34
500.00
2.29
19.00
4.00
4.25
0.08
6666.19
2911.00
0.54
3.53
153.21
1579.00
1.81
17.00
4.00
4.09
0.05
7941.63
4412.00
0.44
3.44
259.53
3098.00
2.37
23.00
4.00
4 .S?
0.15
4268.^7
1801.00
0.5'
3.51
78.30
678.00
52
-------
LAKE NAMEI GREFR'S FFR»Y IAXF
NUMBER! 051A
T»XA
ANABAFNA PLANCTON1CA
ANABAFNOPSIS
APHANI ZC1ENON
APHANIZOMENON FLOS-AQUAE
ASTER IONELLA FORMOSA
CENTRIf DIATOM
CERATIU* HIRUNDINEllA
CERATIU* HIOUNOINELLA
CONTIMUF^
01 Z7 7*
06 Ofc ""
0"» OS *<•
in
CHHOOMONAS ACUTA
CCELASTPU1 MICROPORUM
CPSMAOIUM
CRUCIGENIA TETRAPFOIA
CRYPTQMONAS
CPYPTOMONAS EROS*
CYMBELLA
OACTYLOCOCCnPSIS
1ESMIO
EUGLENA
FLAGELLATE
FIAGELLATF «z
FOAGHARIA CROTONENSIS
FOANCEI A
GLPEOCYSTIS
GO'PHONEMA OK AGILE
GYMNOOINIUM ALBULUM
LEPOCINCL tS
LYNGBYA
LYNG8YA fl
LYNGBYA t2
"AllOMONAS
MM LO^ONAS
OISTANS
GRANULATl
•FLOSTRA GRANULATA
V. «ir,USTISSIHA
«t 0|S«OPEOIA GHUCA
"ER IS-OPFOIA PUNCTATA
MERISIOPEOIA TENUISSIMt
"ICROCYSTIS tNCERTA
NE°HROCYT!UN
N1TJSCHIA
NI TZSCMIA (1
OCCYSTIS
CSriLLATORIA
"E01ASTPUN BIRAOIATUM
V. LONGECORNUTUN
PER IOINIUM 7
P?»!0!NIU« 'HUNOSCUtUK 7
UHBONATUM
OENTirtXATUS
SCENEDESHUS OIMORPHUS
SXEIE'CNEHA POTAMOS
STAURASTRUM
STau««STPUM *1
STAURASTOUN It
ST»UR»STRUM 13
ST4URASTRU" TETRACFPUH
SU° I»FILA
SYNEORA DELICATISSIMA
V. ANGUSriSSINA
T4BEILM>!A FENESTRATA
TETOAFORON
TFTRAEORON CAUDATUf
TFTRAFORQK MtNIHUM
TETRAEORON MINIMUM
V. SCROBICUIATUM
TPACHF.I.OMONAS HISPID*
TOTAL
FORM
FIL
FH
FII
FIL
CEL
CEl
CEL
ca
CFL
COL
CEL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CFL
CEL
CEL
TEL
COL
CFL
CFL
CEL
FIL
FII
FIL
CEL
CEL
CEL
CF.L
CEl
COL
COL
COL
COL
CEL
CEL
CFL
CEL
COL
<=IL
COL
CEL
CEL
CEL
COL
COL
CFL
CEL
CEL
CEL
CFL
CEl
CEL
CEL
CEl
CEL
cei
ca
cei
CFL
»LOAL
•INITS
S «C PER Ml
1
2
3
S
*
3.1
20.2
l*.l
2.0
9.1
?.o
1 .0
18.2
2.0
2.0
t.O
*.o
1.0
13.1
3.0
1.0
X
X
T>
500
X
3SO
X
so
X
X
225
50
X
25
450
50
50
X
100
100
X
X
25
325
X
75
25
X
X
ALGAl
UNITS
S *C PER «L
2
5
3
*
I
1.4
fr.P
1.4
6.9
*.2
1.4
1.4
16.7
1.4
2.8
1.4
54.2
X
40
20?
40
X
20?
121
X
40
40
486
X
40
Dl
40
X
X
X
1579
....
AI.'.Al
UN' •<"
S f, Pc« -"I
1
|
7
u
1
3
5
1.4
'.1
4. J
2.1
70.2
O.T
5.0
1.4
0.7
?.•)
•>.f
?.«
*'
?n
1 R 0
12«
X
?091
11
?!°
61
X
'1
'25
3!
X
X
'25
X
M r.r.\
'IN!T<;
* vf OCO V|
t:
t.
1
?
1
'.?
?. •>
1.?
I''.*
6.4
9.7
1 .1
7.?
3J.4
1.1
1.!
X
X
^o
X
10
X
"I
X
X
X
678
*
t !*
!T4
X
X
X
19
30
X
61!
*o
!°
1
2475
2911
4*12
53
------- |