EPA-600/3-78-014
January 1978
Ecological Research Series
DISTRIBUTION OF PHYTOPLANKTON IK
NEW JERSEY LAKES
ivironmental Monitoring and Support Laboratory
Office of Research and Development
U.S. Environmental Protection Agency
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RESEARCH REPORTING SERIES
Research reports of the Office of Research and Development, U.S. Environmental
Protection Agency, have been grouped into nine series. These nine broad cate-
gories were established to facilitate further development and application of en-
vironmental technology. Elimination of traditional grouping was consciously
planned to foster technology transfer and a maximum interface in related fields.
The nine series are:
1. Environmental Health Effects Research
2. Environmental Protection Technology
3. Ecological Research
4. Environmental Monitoring
5. Socioeconomic Environmental Studies
6. Scientific and Technical Assessment Reports (STAR)
7. Interagency Energy-Environment Research and Development
8. "Special" Reports
9. Miscellaneous Reports
This report has been assigned to the ECOLOGICAL RESEARCH series. This series
describes research on the effects of pollution on humans, plant and animal spe-
cies, and materials. Problems are assessed for their long- and short-term influ-
ences. Investigations include formation, transport, and pathway studies to deter-
mine the fate of pollutants and their effects. This work provides the technical basis
for setting standards to minimize undesirable changes in living organisms in the
aquatic, terrestrial, and atmospheric environments.
This document is available to the public through the National Technical Informa-
tion Service, Springfield, Virginia 22161.
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EPA-600/3-78-014
January 1978
DISTRIBUTION OF PHYTOPLANKTON IN NEW JERSEY LAKES
by
L. R. Williams, F. A. Morris*, J. W. Hilgert*, V. W. Lambou,
F. A. Hiatt*, W. D. Taylor, M. K. Morris*,
and S. C. Hern
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
ENVIRONMENTAL MONITORING AND SUPPORT LABORATORY
OFFICE OF RESEARCH AND DEVELOPMENT
U.S. ENVIRONMENTAL PROTECTION AGENCY
LAS VEGAS, NEVADA 89114
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DISCLAIMER
This report has been reviewed by the Environmental Monitoring and Support
Laboratory-Las Vegas, U.S. Environmental Protection Agency, and approved for
publication. Mention of trade names or commercial products does not constitute
endorsement or recommendation for use.
11
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FOREWORD
Protection of the environment requires effective regulatory actions
which are based on sound technical and scientific information. This infor-
mation must include the quantitative description and linking of pollutant
sources, transport mechanisms, interactions, and resulting effects on man
and his environment. Because of the complexities involved, assessment of
specific pollutants in the environment requires a total systems approach
which transcends the media of air, water, and land. The Environmental
Monitoring and Support Laboratory-Las Vegas contributes to the formation
and enhancement of a sound integrated monitoring data base through multi-
disciplinary, multimedia programs designed to:
• develop and optimize systems and strategies for moni-
toring pollutants and their impact on the environment
• demonstrate new monitoring systems and technologies
by applying them to fulfill special monitoring needs
of the Agency's operating programs
This report presents the species and abundance of phytoplankton in the
13 lakes sampled by the National Eutrophication Survey in the State of
New Jersey, along with results from the calculation of several commonly
used biological indices of water quality and community structure. These
data can be used to biologically characterize the study lakes, and as
baseline data for future investigations. This report was written for use
by Federal, State, and local governmental agencies concerned with water
quality analysis, monitoring, and/or regulation. Private industry an.d
individuals similarly involved with the biological aspects of water quality
will find the document useful. For further information contact the Water
and Land Quality Branch, Monitoring Operations Division.
George's. 'Morgan
Director
Environmental Monitoring and Support Laboratory
Las Vegas
m
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CONTENTS
Page
Foreword iii
Introduction 1
Materials and Methods 2
Lakes and Site Selection 2
Sample Preparation 2
Examination 3
Quality Control 4
Results 5
Nygaard's Trophic State Indices 5
Palmer's Organic Pollution Indices 5
Species Diversity and Abundance Indices 7
Species Occurrence and Abundance 8
Literature Cited 9
Appendix. Summary of Phytoplankton Data 10
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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 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 New Jersey (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 NEW JERSEY
STORET # LAKE NAME COUNTY
3402 Budd Lake Morris
3403 Greenwood Lake Passaic (Orange in N.Y.)
3406 Oradell Reservoir Bergen
3409 Pined iff Lake Passaic
3410 Pompton Lake Passaic
3412 Duhernal Lake Middlesex
3413 Farrington Lake Middlesex
3415 Lake Hopatcong Morris, Sussex
3417 Lake Musconetcong Morris, Sussex
3419 paulinskill Lake Sussex
3420 Spruce Run Reservoir Hunterdon
3422 Union Lake Cumberland
3423 Wanague Reservoir Passaic
1
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MATERIALS AND METHODS
LAKE AND SITE SELECTION
Lakes and reservoirs included in the Survey were selected through
discussions with State water pollution agency personnel and U.S. Environmental
Protection Agency Regional Offices (U.S. 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
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 milliliters (ml) of Acid-Lugol's 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.
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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 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 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 frying 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
U.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 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
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 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 checks on species identifications and counts
were performed on a regular basis between 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
satisfactory.
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RESULTS
The Appendix summarizes all of the phytoplankton data collected from
the State by the Survey. It 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 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 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
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 in 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.
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.
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TABLE 2. NYGAARD'S TROPHIC STATE INDICES ADAPTED FROM HUTCHINSON (1967)
Index
Calculation
Oligotrophic Eutrophic
Myxophycean
Chlorophycean
Diatom
Euglenophyte
Compound
Myxophyceae
Desirndeae
Chlorococcales
Desmideae
Centric Diatoms
Pennate Diatoms
Euglenophyta
Myxophyceae + Chlorococcales
Myxophyceae + Chlorococcales +
0.0-0.4
0.0-0.7
0.0-0.3
0.0-0.3
0.0-1.0
0.1-3.0
0.2-9.0
0.0-1.75
0.0-1.0
1.2-25
Centric Diatoms + Euglenophyta
Desmideae
TABLE 3. ALGAL GENUS POLLUTION INDEX
(Palmer 1969)
Genus
Anaayst^s
Ankistpodesmus
Ch lamydomonas
Chlorella
Closterium
Cyolotella
Euglena
Gomphonema
Lepocinolis
Me los-ira
MioraGt'inium
Naviaula
Ni-tzsohi-a
Oso-illatopia
Pandorina
Phaaus
Phormidium
Soenedesmus
Stigeoalonium
Synedva
Pollution
Index
2
4
3
1
1
5
1
1
1
1
3
3
5
1
2
1
4
2
2
TABLE 4. ALGAL SPECIES POLLUTION
INDEX (Palmer 1969)
Species
PollutiorT
Index
Ankistrodesrnus faloatus 3~
Arthrospiva jenneri 2
Chlorella vulgaris 2
Cyalotella menegh-ini-ana 2
Euglena graoilis "\
Euglena vir-idls 6
Gomphonema pavvulum 1
Melosi-ra vcaci-ans 2
Nawicula cryptoaephala 1
Nitzschia acicularis 1
Nitzsehia palea 5
Osaillatoria chlorina 2
Osolllatov-ia limosa 4
Ose-illatori-a pvinoeps 1
Oseillatoria putrida 1
Osei-llatovia tenuis 4
Pandorina monm 3
Soenedesmus quadriaauda 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 for these types of samples can be
estimated from the Shannon-Wiener formula (Shannon and Weaver 1963):
H - -l PI logx PI
i=l
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 tne 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
importance in determination of average diversity per individual for phytoplank-
ton 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 calcula-
tions. 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 mililiter or 0.008 per mililHer 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 phytoplank-
ton 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 milliliter) and K (the number
of individuals per milliliter 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 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
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 individual should not be used in direct comparisons involving various
samples which have different numbers of species. Since MaxH equals log S,
the expression in sits is equal to logs 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
the Appendix, gives the concentrations of individual species by sampling
date. Concentrations are in cells, colonies, or filaments (CEL, COL, FIL)
per milliliter. An "X" after a species name indicates the presence of the
species on that date in such a low concentration that it did not show up 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 (%C) presents, by
abundance, the percentage composition of each taxon.
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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 Veroyatnose i ee Premeneniya") 4. Society for Industrial and
Applied Mathematics, Philadelphia.
Brillouin, 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 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 Commun-
ication. 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.
Zand, S. M. 1976. Indexes associated with information theory in water
quality. Journal WPCF. 48(8):2026-2031.
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APPENDIX. 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, EUNOTIA #1, 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 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.
10
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LAKE NAME: BUOD LAKE
STCRET NUMBER: 3402
NYGAARC TROPHIC STA'E INCICES
DATE 0* 23 ^3 10 01 ?3
MYXQPHYCEAN
CHLORQPHYCEAN
EUGLENOPHYTE
C!AT"
COMPOUND
0.87 E
2.12 E
0.12 ?
0.75 E
4.12 E
1.20 E
3.60 E
0/24 ?
1.50 E
5.40 E
PALMER'S ORGANIC POLLUTION INDICES
OA^E 07 23 73 10 01 73
GENUS
SPECIES
08
00
15
04
SPECIES DIVERSITY AND ABUNCANCE INDICES
DATE 07 23 73 10 01 73
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER CF SAMPLES COMPOSITEC
MAXIMUM DIVERSITY HAXH
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
EVENESS COMPONENT
MEAN NUMBER OF INOIVIDUALS/TAXA
NUMBER/ML OF POST ABUNDANT TAXON
H
s
M
:H
D
N
J
L
K
3.30
57.00
1.00
5.83
26486.00
6970.00
0.65
122.28
1750.00
3.64
33.00
1.00
5.25
52299.52
14368.00
0.69
373. 11
3404.00
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LAKE NAME: BUDD LAKE
STORET NUMBER: 3402
CONTINUED
TAXA
ANABAFNA
ANKISTRODESMUS
APHANIZQMENON ?
ASTERICNELLA
ASTERTCNELLA FORMOSA
CERATIUM CYSTS
CERATIU? HIRUNOINELLA
CHFOOCOCCUS
CLCSTERIUM
CLCSTERIUM «1
CLCSTERIUM «2
CCCCCNE1S
COELASTRUM RETICULATUM
COELASTRUM SPHAERICUM
COSMARIUM #1
COSMARIUM «2
CCSMARIUM #3
CRUCIGENIA APICULATA
CYCLOTELLA
OICTYOSPHAERIUM PULCKELLUM
OINOBRYON EAVARICUH
CINO FLAGELLATE
EUC-LENA
EUNOTIA NAEGELII
FLAGELLATE
FLAGELLATE #1
FLAGELLATES
FRAGILARIA CROTCNENSIS
FPANCEIA
GCLENKINIA
PALLCMCNAS
PELCSIPA »2
07 23 73
10 01 73
QP M
FIL
CEL
FIL
CEL
CEL
CEL
CEL
CCL
CEL
CEL
CFL
CEL
COL
COL
CEL
CEL
CEL
CCL
CEL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
S
3
5
2
ALGAL
UNITS
*C PER ML
0.7| 49
1
1 X
0.3| 24
1 X
1
0.31 24
1 X
1.01 73
1 X
1
I X
1
1
0.7| 49
0.7) 49
1 X
1 x
4.51 316
1 X
1 X
1.01 73
1 X
1 X
1
25.11 1750
12.21 850
2.4| 170
1
0.3| 24
2.8| 194
9.4| 656
1
S
5
K
1 3.0
0.5
2.8
1.1
0.5
1.4
1.4
3.0
0.3
0.5
9.1
ALGAL
UNITS
PER ML
1 435
79
396
X
X
158
X
X
79
198
198
435
40
79
130t
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LAKE NAME: EUDO LAKE
STCRET NUMBER: 3402
CONTINUED
TAXA
MELOSIRA D1STANS
MELOSIPA GRANULATA
HERISMOPEDIA TENUISSIMA
MICRCCYSTIS AFRUGINCSA
MICPOCYSTIS INCERTA
MCUGEOTIA
NAVICULA MINUSCULA ?
OPCYSTIS
CPHICCYTIUM
CSCILLATORTA
PANOOPINA MORUM
FECIASTRUM BORYANUM
PEDIASTRUM DUPLEX
V. CLAThRATUM
PEDIASTRUM SIMPLEX
V. DUOOEN4RIUM
FECIASTRUM TETRAS
V. TETRAODCN
PENMATE CIATOM
PHACUS PYRUM
PHACLS TORTUS
PHCRMIDTL'M MUCICOLA
PAPHIDICPSIS 7
RHIZOSOLENIA
SCENEDESMUS
SCENEDESKUS
SCENEDESMUS
SCENEDESMU?
SCENEDESMUS
SCENEDESMUS
SCENEDESMUS
SCHROEDERIA
it I
ABUNDANS
BUUGft
DTMORPHUS
OPOLIENSIS
CUADPICAUDA
SETIGERA
07 23 73
10 Cl 73
FORM
CEL
CEL
COL
COL
COL
FIL
CEL
CEL
CEL
FIL
CCL
COL
COL
COL
COL
CEL
CEL
CEL
COL
FIL
CEL
COL
COL
COL
COL
COL
COL
COL
CEL
S
4
ALGAL
UNITS
%C PER ML
2.91 194
2.31 194
1.71 121
1 X
14.3) 996
1
1 X
1 X
1.01 73
1
0.31 24
0.71 49
1
0.31 24
1
1
i
1
1 X
0.7| 49
0.31 24
0.31 24
1
0.31 24
1 X
0.31 24
0.31 24
0.31 24
1 X
1
1
1
1.01 73
1
S
I
4
3
%C
0.3
14.0
2.5
17. b
23.7
2.5
0.3
0.3
5.2
1.6
0.3
2.2
0.9
I
ALGAL
UMTS
PER ML
1
4C
2018
356
2533
3404
356
40
X
40
752
237
40
X
317
119
-------�
LAKE NAME: BUDD LAKE
STCRET NUMBER: 3402
CONTINUED
TAXA
STAUPASTRUM
STAURASTRUM #1
STAURASTRU* #2
STAUSASTPU* #3
STAURASTRUM APICLLATUM
STEPHANCDTSCUS ASTRAEA
SYNECRA
TABELLAPIA PENES^ATA
TETPAECRCN CAUOATUM
V. ?
TETRAECRON HASTATUM
TETRAEORON LIMNETICUM
TETRAEDRCN HINIMUM
V. SCROBICULATUK
TETRAEDRCN CUTICUH
TETRAECRCN TR1GCKUI"
TETRASTRUM H ET ERAC ANTHUW
TETRASTRUH STAURCGEMAEFORKE
07 23 73
10 01 73
FORM
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
COL
COL
S
1
%c
0.3
0.3
7.7
0.3
0.7
0.3
0.3
0.3
ALGAL
UNITS
PER ML
2<.
24
X
535
X
24
49
24
24
24
S
2
SC
1.1
0.3
3.0
0.3
0.3
ALGAL
UNITS
PER ML
159
40
435
40
X
X
40
X
TOT6L
6970
14363
-------�
LAKE NAME: GREENWOOD LAKE
STOPET NUMB": 3403
MYXOPHYCEAN
OLORCPHYCEAN
EUGL?NOPHYTE
DIATOM
COMPOUND
NYGAA9D TRCPHIC STATE INCICES
04 16 73 10 01 73
03/0 E
06/0 F
0.22 E
0.43 E
14/0 E
06/0 E
17/0 =
0.09 ?
1.00 E
29/0 E
PALMER'S ORGANIC POLLUTION INDICES
DATE 04 16 73 10 01 73
GENUS
SPECIES
09
00
01
00
SPECIES DIVERSITY AND ABUNDANCE INDICES
CATE 04 16 73 jo 01 73
AVERAGE DIVERSITY
NUMBER OF TjXA
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY MAXH
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
EVENESS COMPONENT
MEAN NUMBER OF INDIVIOUALS/TAXA
NUMBER/ML OF MOST ABUNDANT TAXON
H
s
M
-------�
LAKE NAME: GREENHOCD LAKE
SECRET NUMBER: 3403
CONTINUED
04 16 73
10 01 73
TAXA
ANABAENA 0 SCTLLAROIDES
ASTERICKELLA FORMOSA
ATThEYA
CENTRIC CIA-CM
CHLCROPHYT4N CELL
CHROOCCCCUS
CHRCCCCCCUS ?
COELASTRUM RETICL'LATUM
COLONY
CYANCPHYTAN COLONY
CYANOPHYTAN FILAMENT
CYCLCTELLA BGOAN1C&
CYfBELLA
riCTYOSPHAERIUM El-RENBERG! ANUM ?
CICTYOSPI-AERIUM PULCHF.LLUM
01NOBRYON PAVAR1CUM
riNCBRYON OIVERCENS
DINCBRYCN SERTULARIA
DINOFLAGELLATE
EUGLFNA
EUGLENA fl
FLAGELLATE #1
FLAGELLATE t2
FLAGELLATE?
FRAGILARIA CROTONENSIS
GCLENKIMA
CCHPHONEMA CONSTRICTUH
MALLCMCNAS
fELCSIPA *2
MELOSIRA GRANULATA
t'ELCSIRt GRANULATA
V. ANGLSTISSIMA
FORM
F!L
F!L
CEL
CEL
CEL
CEL
COL
COL
CCL
COL
COL
FIL
CEL
CEL
COL
COL
CEL
CF.L
CFL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
S
1
3
2
?C
34.9
1.0
0.2
0. 2
4.2
0.4
0.4
2.1
16.2
13.3
5.1
ALGAL
UNITS
PER ML
3099
35
17
n
3T3
X
3*
34
186
X
X
1439
1185
457
S
5
2
1
3|
tc
5.7
b.9
9.2
2.3
2.3
3.5
21.9
10.4
10.4
5.7
ALGAL
UNITS
PER ML
81
97
X
130
X
X
32
32
X
X
49
X
X
309
146
X
X
X
X
146
81
-------�
LAKE MA"E: GREENWOOD LAKE
STORE! NUMBER: 3403
CONTINUED
TAX*
MEP-ISMCPECIft
HCRACTIMt'P PUS1LLUM
MOUGEOTIA
NAVICULA LANCEOLATA
CCCYSTIS
CSCILLATORIA «l
OSCILLATORIA LIMNETICA
FAKDCPINA MCRUM
PECIASTRUM ANGULOSUM ?
V. GRANULATUH
PEDIASTRUM BIRADIATUP
PEC1ASTPUM BORYANUM
PEOIASTRtM DUPLEX
PEDIASTRUM TETRAS
V. TETRAOCON
PE^NATE DIATOM
PHACUS PYRUM
CUADRIGULA ?
SCENEOESMUS
SCENEDESMUS ACUMINATUS
SCENEDESPUS PPOTUBERANS
SCENEOESMUS QUADRICAUO*
SCHRCEDERIA
STEPHANODISCUS
SYNEDRA mi
SYNEDPA *2
TABELLARIA PEN^STRATA
TETPAECPON
TETPAEDRCN MINIMUM
TETRAEDRON MINIMUM
V. SCROBICULATUf
TETPAECRCN TRIGCNUM
16 73
10 01
FCRM
COL
CCL
FU
CEL
CEL
FIL
FIL
COL
COL
CCL
COL
COL
COL
CEL
CEL
CEL
COL
COL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
S
5
4
%C
0.4
0.2
0.4
4. <.
3.2
0.6
9.9
1.5
0.6
ALGAL
UMTS
PER ML
34
17
X
34
339
X
288
51
880
135
51
1
5
4
%C
1.1
4.6
2.3
2.3
2.3
3.1
1.1
ALGAL
UNITS
PER ML
Ib
X
65
X
X
X
X
X
X
32
X
X
X
X
32
32
114
X
16
X
-------�
OO
LAKE NAPE: GREFNt.OCr LAKE
NUMBER: 3403
CONTINUED
TAXA
TETRASTRUM HETERACANTHUM
TRACHELCKCNAS
TOTAL
04 1J> 73
10 01 73
FCRM
COL
CEL
1
1
IS XC
1 1 1.0|
1 1 0.21
ALGAL
UMTS
PEP ML
85
17
I
1
IS
1 1
1 1
ALGAL 1
UNITS 1
%C PER ML 1
1 1
1 1
8907
1410
-------�
LAKE NAME: 0"AOELL RES.
STCRET NUMBER: 3406
NYGAARD TROPHIC STATE INDICES
DAT 04 16 73 Q7 22 73 10 01 73
MYXOPHYCEAN
CHLOROPHYCEAN
EUGLENOPHYTE
DIATOM
CCMFCUND
1.50 E
4.50 ?
O.OS ?
0.44 F
8.50 E
2.00 E
10.0 E
0.04 7
0.40 E
14.5 E
1. CO E
3.00 E
0/16 ?
1.25 E
5.25 E
PALMER'S CRGANIC POLLUTION INDICES
DATE 04 16 73 07 22 73 10 01 73
GENUS
SPECIES
09
00
09
02
10
02
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATE
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITED
PAXIMUP DIVERSITY MAXH
TOTAL DIVERSITY
TCTAL NUMBER OF INDIVIDUALS/ML
EVENESS COMPONENT
MEAN NUMBER OF INDIVIOUALS/TAXA
NUMBER/ML CF MOST ABUNDANT TAXCN
04 16 73 07 22 73 10 01 73
H
S
M
;H
D
N
J
L
K
2.13
32.00
2.00
5.00
49722.72
23344.00
0.43
729.50
11445.00
2.98
42.00
2.00
5.39
17242.28
5786.00
0.55
137.76
2011.00
1.26
31.00
2.00
4i.95
23720.76
19826.00
0.25
607.29
1556t.OO
-------�
LAKE NAME: ORADELL RES.
STORED NUMBER: 3406
CONTINUED
16 73
07 22 73
10 01 73
NO
O
TAXA
AChNANThES LANCECLATJ
V. DUBIA
ACTINASTRUM HANTZSOII
AHPHOFA
ANABAENA
ANK1STPCDESMUS
ASTERICNELLA
ASTERICNELLA ^ORMQSA
CENTRIC DIATOM
CHLOROCCCCALEAN COLCNY
CHLOROPHYTAN CELL
CLCSTERIUM
COELASTRUM MICRPPORUM
CCELASTRUH RETICULATIJM
COELASTRUM RETICL'LATUM ?
COELASTRUM SPHAERICUI*
CCELOSPHAERIUM NAEGELIANUM
CPSMARIUM
CRUCIGENIA AP1CULATA
CYCLCTELLA STELLIGERA
DICTYOSPHAERTUM PULCHELLUM
CUOBRYCN SERTULARIA
DINOFLAC-ELLATE
ELAKATQTHRIX VIRIDIS ?
EUCCRINA ?
EUGLENA
FLAGELLATES
FRAGILARIA CRQTONENSIS
LAGERHEIMIA LONGISETA
HELOSIP* #2
^ELCSIRA DISTANS
A GRANULATE
FORM
CEL
COL
CEL
*1L
CEL
CEL
CEL
CEL
COL
CEL
CEL
COL
COL
COL
COL
COL
CEL
COL
CEL
COL
CEL
CEL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
S
1
2
5
*C
0. 2
49.0
0.2
0.4
0.
-------�
LAKE NAME: CRADELL RES.
STCPET NUMBER: 3406
CONTINUED
16 73
07 22 73
10 Cl 73
TAXA
MEPISMOPEDIA
NAVICULA #1
NAVICULA
NAVICULA
NAVICULA
NAVICULA
V. MUTATA ?
NITZSCHIA #1
NITZSCH1A *2
OOCYSTIS
OSCILLATCRIA
CSCILLATORIA
CSCILLATORIA
#2
#3
CRYPTOCFPHALA
PUPULA
CHLORTM
CHLORINA
PECIASTRUM CUPLEX
V. ?
PECIASTRUM CUPLEX
V. CLATHRA7UM
PECIASTRUM SIMPLEX
V. DUODENARIUM
PENNATE DIATOM
SCENEDESMUS
SCENEDESPUS ?
SCENEOESMUS *1
SCENEDESMUS *2
SCENEDESMUS #3
SCENEOESMUS #4
SCENEDESMUS ABUNCANS
SCENEDESMUS ARCUATUS
SCENEOESMUS APCUA'US ?
SCENEDESMUS BIJUCA
SCENEDESMUS CARINAT(j< ?
SCENEDESMUS INTERMEDIUS
V. BICALCATUS
FCP"
CCL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
F!L
FIU
FIL
CCL
COL
COL
C?L
COL
COL
COL
COL
COL
CCL
COL
COL
CCL
CCL
COL
COL
s
%c
ALGAL
UNITS
PER ML
X
X
X
X
X
X
X
X
X
X
s
5
t.
%c
0.4
8.6
3.2
0.4
1.1
2.5
0.7
0.4
0.4
0.4
l.l
ALGAL
UNITS
PEP ML
X
21
X
X
X
X
498
187
21
62
145
41
21
21
21
X
X
62
X
S
3
%C
0.5
0.5
2.1
0.2
0.2
ALGAL
UNT^S
PER ML
X
X
X
86
85
386
43
X
43
-------�
LAKE NAVE: CRACELL RES.
STORET NUMBER: 3406
CCNTINUED
04 li 73
07 22 73
10 01 73
TAXA
SCENEPESMUS CPCLIENSIS
SCENPPESfL'S PROTUBERANS
SCHRCEDERIA S^TICERA
SPHAERCCYSTJS ?
STAURASTRUM #1
STAURASTRUM #2
STAUPASTRUM *3
STAURASTRUM TETRACERUM
STEPHANCDISCUS #1
STEPHANODISCUS ASTRAEA
SYNEDRA DELICATISSIMA
V. ANGLSTISSIMA
SYNBDFA ULNA
TETRAEPRCN
TOTAL
FORM
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
S
"~
4
3
ALGAL
UNITS
*C PER ML
0.47 85
1
1
1
|
1 X
|
1
13.31 3108
12.11 2826
1
0. 7| 170
1 X
1
23344
S
2
ALCAL
I'NITS
?C PER ML
I ~
0.4| 21
1.11 62
23.31 1638
1
1
I X
|
|
0.4| 21
0.4| 21
5786
S
K
"~
0.5
C.7
ALGAL
UNITS
PER ML
86
x
X
X
12?
19826
-------�
LZKE NAVE: PINECLIFF
STCPET MJM6CR: 3409
MYXOPHYCEAN
CHUCROPHYCEAN
EUGLENOPHYTE
0!ATCM
COMPOUND
KYG&ARC TPCPHK STATE INDICES
0*. IS 73 07 23 73 10 02 73
0/01 C
5. oo e
0.17 ?
0.29 ?
12.0 E
0.71 E
4,n ?
0.16 ?
1.50 E
7.14 E
1.00 E
4. 50 E
O.C5 ?
3.00 E
6. 5C E
PALHER'S ORGANIC PCLLUT!CN INOIC^c
CATE 0
-------�
LAKE NAME: PINECLIFF LAKE
STCRET MJMBER: 3*09
CONTINUED
04 16 73
07 23 73
1C 02 73
TAXA
AONANTHES LANCEOLATA
V. CUBIA
ACTINASTRUM HANTZSCHI!
ANA6AENA #1
ANABAENA #2
ANKISTROOESMUS ?
ASTERICNELLA FORMOSA
ASTERICNELLA FORMOSA
V. GRACILLIMA
ATTHEYA
B07RVOCOCCUS BRAUNII
CENTRIC DIATOM
CERATIUM HRUND1NFLL*
CHLOROPHYTAN COLONY
CLCSTERIUM #1
CLCSTERIUM *2
COCCONEIS
CCELASTRUM K6TICULATUM
COELASTRUM SPHAERICUN
CCELOSPHAERIUM NAEGELIANUM
CCSMARIUM
COSMARIUM #1
CCSMARIUM #2
CRUCIGENIA APICULA^A
CRUCIGENIA TETR*PEDIA
CRYFTOMCNAS RUFESCENS
CYfBELLA
DACTYLOCCCCOPSIS
DICTYOSPHAERIUM PULCI-ELLUM
OINCBRYCN EAVARICUM
OINCFLAGELLATF.
EUDOPINA ELEGANS
FORM
CEL
COL
FIL
FIL
CEL
CEL
CEL
CEL
COL
CEL
CEL
COL
CEL
CEL
CEL
COL
COL
COL
CEL
CEL
CEL
COL
COL
CEL
CEL
CEL
COL
CEL
CEL
COL
S
5
1C
3.6
12.6
2.3
0.4
0.4
0.4
ALGAL
UNITS
PER ML
X
148
519
93
18
X
X
X
18
18
X
S
4
3
*C
3.3
7.2
2.1
0.9
0.6
0.9
1.2
2.1
3.9
0.3
ALGAL
UNITS
OER CL
X
116
253
X
74
X
32
X
21
32
42
X
X
X
74
137
11
S
1
*C
0.2
89.9
ALGAL
UNITS
PER ML !
X
X
X
X
64
X
32205
X
X
-------�
LAKE NA*E: PINECLIFF LAKE
STORET NUMBER: 340<3
CONTINUED
NJ
ui
04 16 73
07 23 73
10 02 73
TAXft
EUGLENA #1
EUGLENA *2
FLAGELLATES
FRAGILARIA
FPAGILARIA CROTCNENSIS
FPANCEIA
GYRCSIGHA SPENCFPII
HANTZSCHIA
LUNATE CELLED COLONY
MALLCMCNAS
fELOSIPA #2
("ELOS1PA OTSTANS
MELOSIRA GRANULATA
PELOSIPA VARIANS
MICROCYST1S AERUGINOSA
MICROCYSTTS INCERTA
KOUGEOTIA ?
NAVICULA
NAV1CUL* #1
NAVICULA f2
N1TZSCHI*
NITZSCHtA *1
NITZSCHIA »2
COCYSTIS
CFHIOCYTIUt* CAPTTATUM
PANDOP1NA MORUM
PEDIASTRUM BORYANUM
PEOIASTPUM CUPLEX
V. OUOOENARIUM
PECIASTRUM CUPLEX
V. RETICULATUM
FORM
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
COL
COL
FIL
CEL
CFL
CEL
CEL
CEL
CEL
CEL
CEL
COL
COL
COL
COL
S
2
1
*C
0. 9
28.7
«. 5
1.8
3.6
6.3
ALGAL
UNITS
PER ML
37
1187
135
X
X
74
148
X
260
X
X
X
X
S
2
5
1
*c
0.6
7.2
11. 1
0.3
5.41
6.6|
24.71
0.6
0.6
0.3
0.3
0.6
ALGAL
CNITS
PER ML
X
21
253
359
11
X
X
189
231
863
21
x
21
x
11
X
11
X
1 21
S
4
2
3
SC
2.9
0.2
2.2
0.4
0.5
ALGAL
UNITS
PER ML
1031
64
773
129
X
X
X
X
X
193
-------�
LAKE NAPE: PIN^CLIFF LAKE
NUMBER: 3409
CONTINUED
TAXA
FEDIASTRUM SIMPLEX
V. DUODENARIUM
PEDIASTRUM TFTRtS
V. TETRAODCN
PENNATE DIATOMS
PHACLS ACUMINATUS
PHACtS LCNGICAUCA
PHACUS TORTUS
CUACRIGULA CLOSTERICIPES
SCENEDESMUS
SCENEDESMUS #1
SCENEDESMUS #2
SCENEDESMUS A8UNDANS
SCENEDESMUS BIJUGA
SCENEDESHUS DENTKULATUS
SCENEPESMUS DIMORPHUS
SCENEDESMUS IN^ERMEDIUS ?
SCENEOESMUS INTERHEDIUS
V. BICAUCATUS
SCENEDESMUS LONGUS
V. NAEGELII
SCENEOESMUS OPOLIENSIS
SCEMEOESMUS CUAORICAUCA
SChROEDERIA SETIGERA
ST«URASTRUf #1
STAURASTRUM «2
STAURASTRUM #3
STAUPONEIS
STEPHANCDISCUS
SURIRELLA
SUPIRELLA
SYNFDRA #1
15 73
07 23 73
10 02 73
FORM
CCL
COL
CEL
CEL
CEL
CEL
CEL
CCL
COL
COL
CCL
COL
COL
CCL
COL
COL
CCL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
1
1
1
I
1
1
1
14
1
I
1
1
3
: ?(
1
I
1
9.4
1
1
25.1
ALGAL 1
UNITS 1
: PEP ML I
1
389
X
X
1
X
X
1033
X
X
X
s ?c
0.9
1.2
0.9
0.3
0.3
1
I 0.6
I
1
3.3
2.4|
1.81
0.3
1.2
ALGAL
UNIT?
PER ML
X
32
42
X
X
32
11
11
X
X
X
21
116
94
63
X
X
11
42
S
5
1
*C
0.2
C.5
0.2
0.5
C.4
1.3
ALGAL
UMTS
PER ML
X
X
64
193
X
X
X
64
193
X
129
X
451
-------�
NJ
•-J
LAKE NAME: PIMECLIFF LAKE
STORET MJMBER: 3409
CONTINUED
TAXA
SYNEDRA #2
TETPAEORON #1
TETRAEORCN HASTATU* ?
TETPAEORCN LIMNETICUM
TETRAEOPCN MINIMUM
TETRAF.DPON MINIMUM
V. SCR08ICULATUM
TETRAEOPCN PENTA6DRKUM
TETRAEORCN PEGULARS
V. INCLS
TETRAECRCN TRIGCNUM
TETRASTRUM HETERACANTHUM
TRACHELCMONAS
TREUBARIA
04 16 73
07 23 73
10 02 73
FORM
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
COL
CEL
CEL
S
'
?c
ALGAL
UNITS
PER ML
X
X
S
*c
0.6
0.3
0.9
0.9
3.9
2.1
ALGAL
UNITS
PEP ML
X
X
X
21
11
32
32
32
74
X
S
.
?C
.',
0.4
0.4
,
'ALGAL
UNITS
PEP ML
X
X
f -129
1
I 129
1
TOTAL
4132
3501
35812
-------�
LAKE N'ANF: PCMPTCN LAKE
MJMRFR: 3410
NYGAARP TPCPHIC STATE INCICES
CAT5 04 17 73 07 22 73 10 C2 73
MYXQPHYCE AN
ChLOROPHYCEAN
EUGLENCPHYTE
C C M P CU N D
01/0 E
01/0 E
0.50 E
0.22 ?
07/0 E
02/0 E
04/0 E
0.33 E
0. 21 ?
11/0 E
3.00 E
22.0 E
0/25 ?
0.46 E
31.0 E
t-o
00
PALMER'S ORGANIC POLLUTION INDICES
CATE 04 1? 73 07 22 73 10 02 73
GENUS
SPECIES
04
00
11
04
08
05
S°EC!ES DIVERSITY AND ABUNDANCE INDICES
DATE
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITED
CAXIMUM DIVERSITY
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
EVENFSS COMPONENT
MEAN NUMBER OF INDIVIDUALS/TAXA
NUMBER/ML OF MOST ABUNDANT TAXON
04 17 73 07 22 73 10 02 73
H
5
H
;H
c
N
J
L
K
2.99
23.00
2.00
4.81
10180.95
3405.00
0.62
121.61
1147.00
3. 21
26.00
2.00
4. 70
9917.39
2778.00
0.68
106.35
634.00
2.22
5C.OO
2.00
5.64
51643.86
23263.00
C.39
465.26
8489.00
-------�
LAKE NAME: PCMPTCN LAKE
NUM°FR: 3410
CONTINUED
04 17 73
07 22 73
10 02 73
TAXA
ACTINASTRUM HANTZSOT!
ANA8AENA
ANKISTPCDFSMUS
APHANTZCPENON ?
ASTERIGNELLA
ASTERICNELLA FORMOSA
COCCGNE1S
CCCCCNEIS PLACENTULA
V. EUC-LYPTA
COELASTPUM RETICLLATUM
COELASTRUM SPHAERICUM
CYANOPHYTAN FILAMENT
CYCLQTELLA MENEGHINIANA
CYCLOTELLA PSEUDCSTELLIGERA ?
CYKBELLA
CYMBELLA TUKIOA
CIATCMA
DICTYOSPt-AERIUM PULOELLUM
DINCBRYCN SERTULARIA ?
DINCFLAGELLATE
EUDORINA ELEGANS
FUGLENA
FLAGELLATE *1
FLAGELLATE #2
FLAGELLATES
FP/SGILARIA
FRAGILARIA CONSTPUENS
FRAGIL*RIA CROTONF.NSIS
FPUSTULIA RHOMBOIOES
V. AMPHIPLEUROIDES
GCHFHONEMA
GVFCSIGMA
FORM
COL
FIL
CEL
CEL
CEL
CEL
CEL
CEL
COL
COL
FIL
CEL
CEL
CEL
CEL
CEL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
5
3
?C
6.0
0.4
0.7
I. I
4.9
3.1
2.1
ALGAL
UMTS
PER ML
203
X
12
X
24
X
36
167
107
72
X
X
s
1
4
?C
2.6
21.9
0.9
4.4
0.9
11.4
6.2
ALGAL
UNITS
PER ML
X
73
609
X
24
122
X
X
24
317
171
X
X
s
3
2
4
%C
0.3
0.9
0.3
4.3
0.3
25.9
36.5
ALGAL
UMTS
PER *L
X
67
X
X
X
200
67
1003
X
X
X
X
X
67
6016
8499
X
X
-------�
LAKE NAHE: PCMPTON LAKE
STORET NUMBER: 3410
CONTINUED
TAX*
HANTZSCHIA
KIRCHNERIELLA
MALLCMCNAS
fELOSIRA
MELOSIRA #2
MELOSIRA *4
MELOSIPA GRANULATA
MELOSIRA VARIANS
MICRACTINIUM
MICPOCYSTIS AERUGINOSA
NAVICULA
NAVICUL* CAPTTATA
NAVICULA PEREGRINA
NAVICULA PLPULA
V. MUTATA
NAVICULA SECRETA ?
v. APICULA-TA
NAVICULA VIRIOULA
NITZSCHIA
NITZSCHIA #1
OOCYSTIS
PANDCPINA MORUM
PECIASTRUM CUPLEX
V. 7
PEOIASTRUM CUPLEX
V. CLATHRATUM
PEDIASTRUM SIMPLEX
PEOIASTRUM TETRAS
V. TETRAODCN
PENNATE DIATOM
CU*CRIGULA
SCENEOFSKUS fl
73
07 22 73
10 02 73
FORM
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
COL
COL
COL
COL
COL
CEL
CEL
COL
S
2
5
1
%C
17.2
1.4
1.4
0.4
12.3
33.7
1.1
0.4
ALGAL
UMTS
PER ML
X
585
48
48
12
X
418
1147
36
X
12
S
2
3
5
?C
22.8
7.0
9.6
7.0
0.9
ALGAL
UNITS
PER ML
634
195
268
195
24
S
5
1
*C
2.0
25.9
0.3
0.3
C.6
ALGAL
UNITS
PER ML
X
X
469
6016
X
67
X
X
X
X
X
X
X
67
X
X
X
X
X
1 134
-------�
LAKE NAfE: FOMPTON LAKE
STOPET NUMBER: 3410
CONTINUED
04 17 73
07 22 73
10 02 73
TAXA
SCENEDESMUS #2
SCENEDESMUS #3
SCENEDESMUS #4
SCEKEDESMUS ACUMINATUS
SCENEDESMUS DENTICULATUS 7
SCENEDESMUS DENTICULATUS
V. LINEARIS
SCENEDESMUS DIMORPHUS
SCENEOESMLS CPOLIENSIS
SCENEDESMUS PROTU3ERANS
SPHAERCCYSTIS SCHROETERI 7
STAURASTRUM
STEPHANOOISCUS
STEPHANCDISCUS ?
SUPIRELLA
SURIRELLA #1
SURIRELLA #2
SYNEDRA
SYNEORA #1
SYNEDPA *2
SYNEDRA LLNA
SYNEORA UtNA
V. OXYRHYNCHUS f. MED IOCONTRACTA
TETRAEDRON MINIMUM
v. SCPOBICULATU*
TFTRAECRCN MU1
TRACKELOMTNAS
FORM
COL
COL
COL
CCL
CCL
COL
COL
COL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
S
<>
%C
12.6
0.7
0.7
ALGAL
UNITS
PER ML
430
24
X
24
X
S
?c
0.9
1.8
1.8
ALGAL
UNITS
PER ML
24
49
49
X
X
X
X
X
S
JC
0.3
2.3
ftLGftL
UNITS
PER ML
67
X
X
X
X
X
X
X
535
X
X
X
TOTAL
3405
2778
23263
-------�
LAKE NA^E: DUHPRML LftKE
STORE! NUMBER: 3412
NYGAARO TROPHIC STATE INDICES
DATE 07 22 73 10 02 73
MYXOPHYCEAN
CHLOROPHYCEAN
EUGLENOPHYTE
DIATOM
CCHPCUND
02/0 E
0/0 0
0.50 E
O.O7 ?
04/0 E
1.00 =
;.oo E
1.00 5
0/04 ?
4.00 E
PALMER'S ORGANIC POLLUTION INDICES
DATE 07 22 73 10 02 73
U)
K3
GENUS
SPECIES
05
00
00
00
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATE 07 22 73 10 02 73
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITED
PAXIMUM DIVERSITY MAXH
TOTAL DIVERSITY
TTftt NUMBER OF INDIVIDUALS/ML
EVENESS COMPONENT
MEAN NUMBER CF INDIVIDUALS/TAXA
NUMBER/ML OF MOST ABUNDANT TAXON
H
S
M
;H
D
N
J
L
K
2.67
20.00
1.00
4.32
624.79
234.00
0.62
11.70
54.00
0.50
14.00
1.00
3.ei
1664.50
3329.00
0.13
237.79
3058.00
-------�
LAKE NAME: DUHERNAL LAKE
STORET NUMBER:
CONTTNUFO
07 22 73
10 02 73
TAXA
ANABAENA
CCCCCNE1S
COELASTRU* SPHAERKUP
CACTYLOCOCCOPSIS
DINCBRYCK BAVARICUM
DINC3PYCN SERTULARIA
CINOFLAGELLATE
EUGLENA #1
EUGLENA «2
EUNOTIA
EUNOTIA ELEGANS
EUNOTIA PFCTINALIS
FLAGELLATES
FRAGILARIA
FRUSTULIA RHOM80IDES
FPUSTULTA RhCMBClDES
V. SAXCNICA
MELOSIFA #2
MQCGEC^IA ?
NAVICULA HALOPHILA
F. TENUIRGSTRIS
NITZSCHIA
OSCILLATORIA ?
PhACUS TGRTUS
PINNUL^PIA
PINNULAPIA #2
STAD PAST RUM
SURIRELLA
SYNECPA
TABELLAPIA
TABELLARIA FENFSTRATA
FIL
CEL
CCL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
FIL
CEL
CEL
FIL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
S
2
4
5
1
3
tt
7.7
7.7
23.1
7.7
15.4
23.1
15.4
1
ALGAL
UNITS
PEP. WL
X
18
18
X
54
X
18
36
X
X
X
X
X
54
X
X
X
X
36
X
S
2
3
4
I
5
58C
5.6
0.6
1.1
92.2
0.6
ALGAL
UNITS
PER PL
X
X
X
186
19
X
37
3063
X
X
X
X
19
X
TOTAL
234
3329
-------�
LAKE NAWE: FARRINGTQN LAKE
STORET MJN'PER: 3413
MYXCPHYCEAN
CHLCROPHYC'EAN
EUGLENOPHYTE
DT4TCM
COMPOUND
NYGAARO TROPHIC STATE INCICES
07 22 73 10 02 73
0.67 E
4.67 F
0.19 ?
1.25 f
9.00 E
0.67 E
0.33 ?
0.33 E
1.00 E
2.33 E
PALMER'S ORGANIC POLLUTICK INDICES
07 22 73 10 02 73
CO
GENUS
SPECIES
17
02
06
00
SPECIES DIVERSITY ANC ABUNCANCE INDICES
DATE
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES CCMPOSITEC
MAXIMUM DIVERSITY M6XH
TOTAL DIVERSITY
TOTAL NUMBER OF INDI VIDUALS/f'L
EVENESS COMPONENT
PEAN NUMBER OF INDIVIDUALS/TAX A
NUMBER/ML OF MOST ABUNDANT
07 22 73 10 02 73
H
s
f
H
D
N
J
L
K
2.87
34.00
2.00
5.09
13693.05
6515.00
0.56
191.62
2660.00
1.44
18.00
2.00
4.17
17091.36
11869.00
0.35
659.39
8474.00
-------�
LAKE NAME: FARLINGTON LAKE
STCPET NUMBER: 3413
CONTINUED
TAXA
ACTINAS7RUM HANTZSCHII
ANKISTPODESMUS
ASTERICNELLA FORMOSA
ASTERIONELLA FORMOSA
V. GRACILL1MA
ATTHEYA
CENTRIC DIATOM
CERATIUf H1RUNDINELLA
CHLCFOPHYTAN COLCNY
CLOSTERIUM
COCCONE1S
COELASTRUM SPHAERICUH.
COELOSPHAERIUM NAEGELIANUM
CCSMARTUN
CRUCTGENU APICULATA
CACTYLOCOCCOPSIS ?
DIKCBRYCN EAVARICUM
DINOBRYON SERTULARIA
EUGLENA
EUNOTIA
FLAGELLATES
NELOSIRA 92
f'ELOSIRA OISTANS
HELOSIRA VARIANS
PICRACTINIUM PUSILLUM
NEPHROCYTIUM
NITZSCKTA
CPHIOCYTIUf CAP1TATUM
OSCILLATORIA #1
CSCILLATCRIA 92
PEOIASTPUH TETRAS
v. TETRAOOON
07 22 73
10 02 73
FORM
COL
CEL
CEL
CEL
CEL
CEL
CEL
COL
CEL
CEL
COL
COL
CEL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
COL
COL
CEL
CEL
FIL
FIL
COL
S
*
3
1
5
ALGAL
UNITS
?C PER ML
1
1.51 99
1
0.41 25
9.51 621
O.SI 50
0.81 50
X
X
X
0.4| 25
0.4) 25
13.71 895
X
40.81 2660
0. 8 1 50
0.4| 25
0.41 25
3.4| 224
0.81 50
5.0| 323
1 X
1 X
S
5
2
1
3
«C
0.2
3.0
0.5
0.2
0.5
16.3
0.5
71.4
4.4
ALGAL
UNITS
PER ML
28
359
55
28
55
X
X
X
X
X
1932
55
8474
52*
X
-------�
OJ
LAKE NAME:' FARRINGTON LAKE
STCRET NUMBER: 3*13
CCNTINUEO
TAXA
SCENEDESMUS ANOMALUS
V. ACAUCATUS
SCENEDESMUS BIJUGA
SCENEOESMUS OENTICULATUS
SCENEOESMUS OENTICULATUS
V. LINEARIS
SCENEDESHUS INTERMEDIUS
V. BICAUCATUS
SCENEDESMUS OPOLIENS1S
SCHROEOERIA
STAUPASTRUM #1
STAURASTRUM *2
SYNECRA
TABELLARIA CUAOPtSEPTA
TRAChELOMONAS HI
TRACHELOMONAS #2
TPEUBARIA
07 22 73
10 C2 73
FCRM
CCL
COL
COL
COL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
S
1
2
'
ALGAL
UNITS
%C PER ML
1
1.21 15
\ X
0.41 25
1
0.4| 25
1
o.ei so
1.51 99
0. 4 I 25
1 X
1 X
0.8| 50
1
15.61 1019
1 X
1 X
S
4
K
0.2
'
2.3
ALGAL
UNITS
PER ML
28
X
331
TOTAL
6515
11869
-------�
N&PE: LAKE HOPATCCNG
NUMBER: 3415
MYXQPHYCEAN
CHLCROPHYCEAN
EUGLENCPHYTE
CCMPCUNC
TB.CPHJC STflTE INCTCES
DATE 04 IS 73 07 23 73 10 02 73
02/0 £
03/0 E
0/05 7
0.33 E
03/3 E
1.67 E
3.33 E
0.07 ?
1.00 E
6.33 E
0.57 E
3.67 E
0.15 ?
0.67 E
5.67 E
PALMER'S ORGANIC POLLUTION INDICES
04 19 73 Q7 23 73 10 02 73
GENUS
SPECIES
CO
01
00
10
00
SPECIES DIVERSITY AND ABUNDANCE INDICES
CATE
AVERAGE DIVERSITY
NUMBER OF TAXA
NUM9E* OF SAMPLES CCMPOSITEC
MAXIMUM DIVERSITY HAXH
TOTAL DIVERSITY
TOTAL DUMBER OF INDIVIDUALS/ML
EVENESS COMPONENT
MEAN NUMBED CF INOIVIOUALS/TAXA
NUMBER/ML OF MOST ABUNDANT TAXON
04 13 73 0^ 23 73 10 02 73
H
s
H
:H
c
N
J
L
K
2.S4
21.00
5.00
*.39
112695.96
4268S.OO
0.60
2032. ei
17638.00
2. 7S
34.00
5.00
5.09
10403.91
3729.00
0.55
109.68
1054.00
3.29
28.00
5.00
4.81
13215.93
4017.00
0.68
143.46
1240.00
-------�
LAKE NAME: LAKE MPATCCNG
STCRET NUMBER: 3415
CONTINUED
OJ
00
TftXA
ANABAENA
APHANCCAFSB
ASTERICNELLA
ASTERICNELLA <=OPfa$A
ATTHEYA
CENTRIC CIATO*
CEPATIUM HIRUNOINELLA
CHROOCOCCUS
CLCSTERIUM
COCCCNEIS
COELASTRUM MICROPORUM
COELASTRLM RETICULATUM
CCELOSPHAERIUM NA5GELIANUM
CRUCIGENIA RECTANGULARIS ?
CPUCIGENIA TETHAPEDIA
CYCLCTELLA BODANTCA ?
CICTYOSPhAERIUM PULChELLUM
DINCBRYCN 6AVARICUM
DINOBRYCN DIVERGENS
DINCBRYON SOCIALE
CIKCBPYCN SCCIALE ?
OINCBRYON SPP.
CINGFL AGELLATE
EPIPHYTIC FLAGELLATE
EUDORINA
EUDOP1NA ELEGANS
EUGLENA
FLAGELLATES
FRAGILARIA
FRAGILARTA CROTCNENSIS
GCLENKIN1A
KIRCHNER1ELLA
18 73
07 23 73
10 02 73
FCRM
FIL
COL
CEL
CEL
CEL
CEL
CEL
COL
CEL
CEL
COL
COL
COL
CCL
COL
CEL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
S
2
A
5
?C
19.9
0.6
0.2
8.4
2.2
0.8
5. A
7.2
ALGAL
UNITS
PF> ML
8*35
256
85
X
3579
937
341
X
2301
3067
S
4
5
3
2
*C
0.7
3.6
0.7
3.0
6.5
1.4
23.9
19.6
ALGAL 1
UNITS
PER ML
27
135
X
X
X
X
X
X
27
X
257
X
243
54
X
892
730
X
S
3
2
*C
2.2
0.9
0.4
0.4
3 .9
10.0
0.4
1.3
17.8
4.4
6.1
ALGAL
UNITS
PER ML
37
35
18
X
ie
X
157
X
401
18
52
717
175
245
-------�
NAMP: LAK? I-OP4TCCNG
STORET NUMBER: 3415
CONTINUED
04 18 73
07 23 73
10 02 73
TAXA
LUNATE CELLED CCLONY
MELOSIRA #2
MICROCYSTIS INCEPT A
CCCYSTIS
OOCYSTIS 01
COCYSTIS #2
CSCILLATCRIA L!MN=TICA
FANDORINA MORUM
FECIASTRUM BORYANUM
PEOTASTRUM DUPLEX
V. CLATHR4TUM
PECIASTRUM DUPLEX
V. GRACILIMUM
PENNATE DIATOMS
PHACLS
PHACLS PYRUM ?
CUADRIGULA CLOSTERIOIDES
SCENEDESMUS
SCENEDESMUS #1
SCENEDESMUS #2
SCENEDESMUS OPOLIENSIS
SPHAEROCYSTIS
STAURASTRUM HI
STAURASTRUM #2
STAURASTRUM #3
STAURONEIS
STEPHANODISCUS
STEPHANCDTSCUS ASTRAEA
SUPIRELLA AN'GUSTATA
SYNEDRA #1
SYNEDRA #2
TABELLARIA FENESTRATA
FORM
COL
CEL
COL
CEL
CEL
CEL
FIL
COL
COL
COL
COL
CEL
CEL
CEL
CEL
COL
COL
COL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
S
3
11
*C
1.6
1.6
0.2
0.2
9.8
41.31
ALGAL
UNITS
PER ML
682
682
X
85
95
X
X
4175
X
17639
S
1
sc
2.2
0.7
2.2
2.2
23.31
ALGAL
UNITS
PER ML
X
X
81
X
X
27
X
X
X
X
X
81
X
X
81
IC54
5
1
5
4
*C
3C.9
0.4
0.9
0.4
5.1
0.4
1.3
1.3
0.4
9.6
ALGAL
UNITS
DER *L
1
1 124C
18
35
19
>
206
18
52
52
>
18
384
-------�
LAKE NAPE: LAKE HOP4TCNG
STORET NUMBER: 3415
CONTINUED
13 73
TAXA
TABELLARIA FLOCCULOS4
TETPAECRON REGULAR?
V. GRANULATA
TETRAEDRCN REGULARS
V. INCUS
TCTAL
07 23 73
10 02 73
FORM
CEL
CEL
CEL
ALGAL
S ?C PER ML
T 0.8| 34!
1 1
1 1
1 1
1 1
ALGAL
UNITS
S %C PER ML
1 1
1 1
1 1
1 1
1 1
S
1
1
1
1
1
JC
1
1
0.9|
1
0.4|
ALGAL
UNITS
PER ML
35
13
42699
3729
4017
-------�
LAKE NAME: LAK? MUSCCNETCONG
STCRET NUMBER: 3417
NYGAARD TRCPHIC STATE INDICES
DATE 07 23 73 10 01 73
"YXCPHYCEAN 0.60 E 3.00 E
CHLOROPHYCEAN 3.80 P 8.00 E
EUGLENOPHYTE 0.05 ? 0.09 ?
DUTCH 1.00 E 0.25 ?
COMPOUND 5.00 E 13.0 E
PALMER'S ORGANIC POLLUTION INDICES
DATE 07 23 73 10 01 73
GENUS
SPECIES
02
CO
04
00
SPECTES DIVERSITY ANC SBUNCANCE INCICES
DATE
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY MAXH
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
EVENESS COMPONENT
PFAN NUMBER CF INDIVIDUALS/TAXA
NUMBER/ML OF HOST ABUSDANT TAXON
07 23 73 10 01 73
H
s
M
:H
D
N
J
L
K
1.90
40.00
1.00
5.32
8365. 70
4403.00
0.36
110. OS
3190.00
1.84
19.00
1.00
4.25
1816.08
997.00
0.43
51.95
58J.OO
-------�
LAKE NAME: LAKE KUSCCNETCONG
NUMBER: 3417
CONTINUED
TAXA
ACTINASTRUM HANTZSCHtl
ANABAENA
ANKISTRODESMUS
CERATIUM HIRUNDINELLA
CHROOCQCCUS
CLCSTEPIUH #1
CLCSTEPIUM #2
COCCONEIS
COELASTRUH MICRCPORUM
COELOSPHAERIUM
COSMARIUM
CPUCIGENIA TETRAPEDIA
DACTYLOCPCCOPSIS
CICTYOSPHAERIU* PULCHELLUM
CINCBRYCN DIVERGES
DINCBRYON SERTULARIA ?
EUDOPINA ELEGANS
EUGLENA
FLAGELLATES
FRAGILAR1A
FRAGILAR1A CROTDNENSIS
GOLENKINIA
KIPCHNER1ELLA
MELOSIRA
HICRACTINIUM PUSILLUM
fICRCCYSTIS INCEPTA
MOUGEOTIA »1
HCUGEOTIA «2
OOCYSTIS
PAKOORINA MORUM
PECIASTRUM BQRYANUM
PEDIASTRUM DUPLEX
V. CLATHRATUH
07 23 73
10 01 73
FORM
COL
FIL
CEL
CEL
COL
CEL
CEL
CEL
COL
COL
CEL
COL
CEL
COL
CEL
CEL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
COL
COL
FIL
FIL
CEL
COL
COL
COL
s
51
2
3
I
4
ALGAL
UNITS
tC PER ML
1. Of 44
«.5| 22
2.01 88
0.51 22
1
0.51 22
0.51 22
1
1.0! 44
1 X
1 X
1
1
0.51 22
1 X
1
1 X
1 X
72.51 3190
1 X
5.01 220
0.51 22
1
1 X
1 X
1.0) 44
5.51 242
0.51 22
3.61 157
I X
1 X
! X
S
5
1
2
4
%C
0.8
1.7
1.7
1.7
58.8
22.7
2.5
ALGAL
UNITS
PER ML
X
8
X
17
17
X
17
580
X
224
X
25
-------�
LAKE NAME: LAKF MUSCCNETCONG
STCPET NUMBER: 341?
-p-
UJ
TAXA
PECIASTRLM DUPLEX
V. RETICI'LATUM
PEDIA.STRUM CBTIJSUM
PEDIASTRUM SIMPLEX
V. OUODENARIUM
PEOIASTPUM TETRAS
V. TETRAOOON
FIKNULARIA
SCENEDESMUS OENTICULATLiS
SCENEDESMUS DTMOPPHL'S
SCENEDESMUS OPOL1ENSIS
SCENEOESMUS QUADRICAUDA
SCENEDESMUS SPP.
SCHRCED5RIA SETIGCRA
SPHAEROCYSTIS
STAURASTRUM »1
STAUPASTRUH *2
STAURASTRUM FURCIGERUM
STEPHANCDISCUS
SYNEDRA
TETPAEORON MUTICUM
TETRAECPCN REGULARS
TREUBARIA
VOLVOX
TCTAL
CONTINUED
Q~r 23 73
10 01 73
FCRH
COL
COL
COL
COL
CEL
COL
COL
COL
CCL
CCL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
COL
S
ALGAL
UNITS
?C PER ML
X
X
X
X
0.51 22
0.5| 22
1
0.51 22
I. 01 44
0.51 22
0.5 22
1.0 44
X
0.51 22
1 X
S
3
*C
8.4
0.8
0.8
ALGAL
UNITS
PER ML
X
X
X
83
X
9
9
4403
987
-------�
LAKE NAME: PAULINSKILL LAKE
NUMBER: 3419
NYGAARD TROPHIC STBTE INDICES
DATE 04 18 73 07 22 T3 10 02 73
MYXOPHYCEAN
CHLCRCPHYCEAN
EUGLENOPHYTE
DIATOM
COMPOUND
2.00 E
2.00 E
0.5C E
0.32 E
12.0 E
1.00 E
2.50 E
0/07 ?
0.27 ?
5.50 E
l.CO E
4.33 E
0/16 ?
C.9C E
6.67 E
PALMER'S ORGANIC POLLUTION INDICES
DATE 04 18 73 07 22 73 10 02 73
GENUS
SPECIES
17
03
10
04
C7
02
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATE 04 18 73 07 22 73 10 02 73
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES COMPOSITED
(•AXIMUf DIVERSITY MAXh
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
EVENESS COMPONENT
MEAN NUMBER OF INOIVIDUALS/TAXA
NUMBER/ML OF MOST ABUNDANT TAXON
H
S
M
h
0
N
3.34
34.00
2.00
5.09
8784.20
2630.00
3.06
31.00
2.00
4.95
7206.30
2355.00
1.35
32.00
2.00
5.00
9985.95
7397. CO
0.66
77.35
C.62
75.97
C.27
231.16
610.00 1013.00 5840.00
-------�
LAKE NA^E: PAULTNSKILL LAKE
STCRET NUMBER: 3419
CONTINUED
Ln
18 73
07 22 73
10 02 73
TAXA
»ChNANTl-ES ?
&CI-NANTHES LANCECLAT*
V. DUEIA
4CHNANTHES LANCECLATA
V. OUBIA ?
UNABAENA
ANKISTPCDESMUS
AFHANIZCMENON
ASTERICNELLA FOPNOSA
CEPATTU* HTRUNOINELLA
CLCSTEPIUM #1
CLCSTERIUM #2
CLCSTERIU" LEIBLEINII
COCCONEIS PEOICULUS
CCCCCNEIS PLACEKTULA
V. EUGLYPTA
COELASTRUM CAM6RICUM
CCELASTPUM fICRCPORUM
COELOSPHAERIUM NAEGELIANUM
CYCLOTELLA MENEGI-INIANA
CYMBELLA
CYMBELLA (HI
OI*TCMA ELCNGATUM
DINCBRYCN DIVERGENS
CINOFLAGELLATE
EUDCRINA ELEGANS
EUGLENA
FLAGELLATES
FPAGILARIA
FRAG1LARIA #1
FPAGILARI» #2
FP»GIL«HIA CROTCNENSIS
FORM
CEL
CEL
CEL
F1L
CEL
CCL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
COL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
COL
CEL
CEL
CEL
CEL
CEL
CEL
S
4
2
%C
3.0
4.0
5.1
2.0
I. 0
1.0
21.2
4.0
ALGAL
UNITS
PER ML
X
90
106
X
X
133
X
53
27
27
557
106
S
3
1
*C
0.9
0.9
0.9
0.9
0.9
5.6
9.3
0.9
0.9
43.0
ALGAL
UNITS
PER ML
X
X
22
X
22
X
22
22
22
132
X
220
X
22
22
1013
X
X
S
4
1
5
%C
1.5
2.6
1.5
79.0
2.6
ALGAL
UNITS
PER fL
X
X
114
X
X
X
190
X
114
X
5840
190
X
-------�
LAKE KAfE: FAULTNSKILL LAKE
STOPET NUMBER: 3419
CONTINUED
04 18 73
07 22 73
10 02 73
TAXA
HANTZSCMA
MELOSIRA #2
PELOSIRA
PELCSIPA
NAVICULA
NAVICULA
NAVICULA
NAVICULA
NAVICULA
#7
VAPIANS
#1
#2
#3
SALINARIUM
V. INTERMEDIA
NAVICULA SPP.
NITZSCHIA
NITZSCHIA ACICULARIS
OSCILLATORIA #1
OSCILLATORIA #2
CSCILLATCRIA AMPHIBIA
PANDORINA HORUM
PECIASTRUM EORYANUM
PEDIASTRUM DUPLEX
PEDIASTRUM DUPLEX
V. RFTICULATUM
PECIASTRUM SIMPLEX
V. CUODENARIUM
PECIASTRUM TETOAS
V. TETRAOOCN
PKACUS
RHOICCSPI-EMA
SCENEDESMUS #1
SCENEDESMUS BIJUCA
SCENEOESKUS OENTICULATUS
SCENEOESMUS DIMC«°HtS
PORM
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
FIL
FIL
FIL
CCL
COL
COL
COL
COL
COL
CEL
CEL
COL
COL
COL
COL
S
1
5
tc
2.0
1.01
i.Ol
23.21
1.01
A.O
4.0
1.0
ALGAL
UNITS
PER ML
X
53
2^
27
X
X
X
X
610
27
106
106
X
27
X
S
5
*C
0.9
3.7
5.6
6.5
0.9
2.8
0.9
ALGAL
UNITS
PEP ML
22
38
X
132
154
X
22
66
X
1 22
S
3
*C
2.1
0.5
0.5
2.1
ALGAL
UNITS
PER ML
X
152
33
X
38
X
X
X
X
X
X
152
X
X
-------�
LAKE NAME: PAULTNSKILL LAKE
STCRET NUMBER: 3419
CCNTINUED
TAXA
SCENEDESMUS PRO^UBERANS ?
SCEMEDESMUS QUAC«KAUOA
SCENEOESMUS CUADRICAUDA
V. CUACRISPINA
SCHROEDER1A SETICERA
STAL'RASTPUM
STEPHANODISCUS
S^EPHANCDISCtS DUBIUS
SURIRELLA
SYNECRA ? *1
SYNECRA #2
SYNEORA OELICATISSIMA
SYNEDRA RUMPENS
TOTAL
04 19 73
07 22 73
FORM
CCL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
S
3
«
1.0
18.2
2.0
ALGAL
UMTS
PER ML
27
478
X
X
53
X
X
S
4
2
1
1C
T.5
6.5
ALGAL
UNITS
PER ML
X
176
154
S
~
2
*c
0.5
7.2
1C C2 73
ALGAL
UNITS
PEP ML
-—
33
X
X
531
2630
2355
7397
-------�
LAKE NAME: SPRUCE RUN RES.
STCRET NUMBER: 3420
NYGAftRO TRCPHIC STATE INDICES
DATE 04 IB 73 07 22 73 10 02 73
MYXOPHYCEAN
OLCROPHYCEAN
EUGLENOPHY7E
DIATOM
COMPOUND
01/0 E
03/0 E
0.25 E
0.60 E
OS/0 E
1.25 E
2.50 E
0.20 ?
0.86 E
6.00 E
2.50 E
5.50 E
0.31 E
0.62 E
13.0 E
PALMER'S ORGANIC POLLUTION INDICES
DATE 04 18 73 07 22 73 10 02 73
oo
GENUS
SPECIES
09
00
05
00
09
00
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATE 04 IS 73 07 22 73 10 02 73
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBER OF SAMPLES CCMPOSITEC
MAXIMUM DIVERSITY MAXH
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
EVENESS COMPONENT
MEAN NUMP.5R OF INDIVIDUALS/TAX*
NUMBER/ML QF MOST ABUNDANT TAXON
H
s
M
;H
D
N
J
L
K
2.02
15.00
2.00
3.91
49079.94
24297.00
0.52
1619.80
13519.00
2.05
39.00
2.00
5.29
18144.55
3351.00
0.39
226.95
5711.00
2.74
40.00
2.00
5.32
6420.02
3073.00
0.52
76.93
951.00
-------�
LAKE NAME: SPRUCE RUN RES.
STCRET NUMBER: 3420
CONTINUED
-ts
'-O
04 18 73
07 22
10 02 73
TAX*
ANABAFNA
ANKISTPCDESMUS
APHANIZCCENCN
ASTEPICNELLA FORMOSA
ATTHEY*
CERATIOM HTRUNDINELLA
CHPOOCOCCUS
CLCSTERIC'M
CPELASTRUM CAM8RICUN
CCELASTRUM RETICULATUM
COELOSPHAERIUM NAEGELIANUM
COSMARTUM #1
CCSMAR1UM *2
CYCLCTELLA STELLTGERA
DINOBRYON EAVARTCUM
DINCBRYCN C1VERGENS
DIPLONEIS PUELLA ?
EUGLENA
EUGLENA #1
EUGLENA #2
FLAGELLATES
FRAGILARTA
FRAGILARIA #1
FRAGILARIA CROTCNFNSIS
FRANCEIA
LAGFRHETMIA
^FLOSIRA #2
MELCSIRA OISTANS
MELOSIPA GRANULATA
KICRACTINIUM ?
MICROCYSTIS INCFRTA
fICPOCYSTIS PULVEREA ?
V.
FORM
FIL
CEL
FIL
CEL
CEL
CEL
COL
CEL
CCL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
COL
COL
COL
S
2
A
3
*C
20.4
0.3
7.3
1.5
0.8
7.7
0.3
ALGAL
UN!TS
PER ML
I
4953
62
1775
374
137
1969
62
S
1
2
3
?C
0.3
0.3
1.5
5.3
0.3
64.5
1.8
13.3
0.6
1.5
0.3
1.2
ALGAL
UNITS
PEP ML
X
2b
26
X
X
131
X
471
26
5711
X
157
X
X
1179
52
X
131
26
105
X
S
5
1
3
2
*C
1.9
0.7
C.7
30.9
27.7
0.7
13.5
ALGAL
UNITS
PEP ML
59
20
2C
X
X
X
X
X
951
X
X
X
X
852
X
20
416
X
X
X
-------�
LAKE NAVE: SPRUCE RUN RES.
STORET NUMBER: 3420
CONTINUED
Ul
o
18 73
07 22 73
10 02 73
TAXA
KAV1CULA
NAVICULA #1
NAVICULA #2
NITZSCHIA
OSCILLATORIA #1
CSC1LLATORIA #2
CSCILLATOPIA LIMNETICA
FANDORINA MORUM
PECIASTRUM DUPLEX
V. RETICULATUM
PECIASTRUM SIMPLEX
PECIASTRUM SIMPLEX
V. DUODENARIUM
PENNATE DIATOM
PERIDINIUM ELAPT1EWSKY
PHACUS
PHACUS ACUMINATUS
PHACUS TORTUS
RHIZOSOLENIA LONGJSETA
SCENEDESMUS #1
SCENEDESMUS #2
SCENEDESMUS DENT ICULATUS
SCENEDESfUS INTEPMrCIUS
V. BICAU3ATUS
SCENEDESMUS PROTUBERANS ?
STAURASTRU* fl
STAURASTRUM #2
STAURASTRUM TETRACERUM
STEPHANCDISCUS 01
STEPhANODTSCUS ASTRAEA
STEPHANCCTSCUS ASTRAEA ?
SYNECRA
FORM
CEL
CEL
CEL
CEL
FIL
PIL
FIL
COL
COL
CCL
COL
CEL
CEL
CEL
CEL
CEL
CEL
COL
COL
COL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
S
5
1
%C
4.1
1.4
0.1
55.6
ALGAL
UNITS
PER ML
9S7
X
X
343
31
13519
S
4
1C
0.3
0.3
0.3
0.3
3.0
0.3
0.3
0.3
ALGAL
UNITS
PER ML
X
26
X
X
26
X
26
26
262
X
26
X
X
26
X
26
S
*c
3.2
o.-»
C.7
0.7
3.2
1.3
0.7
ALGAL
UNITS
PER ML
99
X
X
2C
X
2C
2C
X
X
99
40
20
X
X
-------�
LAKE NAME: SPRUCF RUN RES.
STORED NUMBER: 3420
CCNTINUED
TAXA
SYNECRA #1
SYNECPA #2
TETPAECRCN ? MINIMUM
TETRAEDRCN HASTATUM
TETRAECRQN MINIMUM
V. SCROBICULATUP
TRACHELCMONAS
OA 19 73
07 22 73
10 02 73
FORM
CEL
CEL
CEL
CEL
CEL
CEL
CEL
S
sc
0.5
ALGAL
UMTS
PER ML
X
125
-> y. 1 a 1
S
5
*c
0.31
3.3
ALGAL
UNITS
PEP ML
26
340
8951
S
4
ALGAL
UNITS
»C PER ML
_ ^
0.7| 20
i
1
1 x
1
12.31 377
1 x
0.7| 20
3073
TCTAL
-------�
LAKE MAKE: UNION LAKE
NUMBER: 3422
NYGAAP.D TRCPHIC STATE INDICES
DATE 04 15 73 07 20 73 09 28 ^3
MYXCPHYCEAN
CHLOROPHYCEAN
EUGLENOPHYTE
DIATCK
COMPOUND
1.00 E
1.00 E
0/02 7
0.50 E
5.00 E
A. 00 E
14.0 E
0/18 ?
0.67 E
22.0 E
10.0 E
15.0 E
O.CB ?
0.75 E
30.0 E
PALMER'S ORGANIC PCLLUTICN INDICES
DATE 04 16 73 07 20 73 09 28 ?3
Ul
IXJ
GENUS
SPECIES
01
00
06
00
17
00
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATE 04 16 73 07 20 73 09 28 73
AVERAGE DIVERSITY
NUMBER OF TAXA
NUMBEP CF SAMPLES COMPOSITED
MAXIMUM DIVERSITY KAXH
TOTAL DIVERSITY
TOTAL NUMBER OF INDIVIDUALS/ML
EVENESS COMPONENT
CEAN NUHBF.P CF INDIVIDUALS/TAX A
NUMBER/ML OP "OS7 ABUNDANT TAXON
H
s
M
CH
D
N
J
L
K
1.39
13.00
2.00
3.70
1695.33
897.00
0.51
69.00
576.00
1.31
31.00
2.00
4.95
12995.80
7180.00
0.37
231.61
4863.00
3.39
3S.OO
1.00
5.25
31601.58
9322. CO
0.65
245.32
2077.00
-------�
LAKE NAME: UNION LAKE
STCRET NUMBER: 3422
CONTINUED
U>
04 16 73
07 20 73
09 28 73
TAXA
AONANTHES PERAGALLI
ACTINASTRUM GRACILIMUM
AMBAENA
ANKISTRODESMUS
APHANTZCHENCN
APHANOTHECE SAXICOLA ?
ASTERICNELLA
ASTERICNELLA FORMOSA
CENTRIC DIATOM
CHLCPOPHYTAN FILAMENT
CHPOOCCCCUS
CHROOCOCCUS *2
CLOSTERIUM
COELASTRUM CAMBRICUM
V. INTERMEDIUM
CYCLOTELLA
CYCLOTELLA MENEGHINIANA
CYCLOTELLA STELLIGERA
CICTYCSPHAERIUM PULCKELLUM
DINCBRYCN EAVARICUM
EUGLENA
EUNOTIA PECTINALIS
FLAGELLATES
FRAGILAPIA HI
FRAGILARIA CROTCNENSIS
MELCSIPA
MELCSIRA *2
MFRISMOPEDIA
MEPISMCPEOIA TENUISSIMA
MCRACTINIUM PUSILIU*
KICPACTINIUM PUSILLUM
V. LONGISETUM
FCRM
CEL
COL
FIL
CEL
COL
COL
CEL
CEL
CEL
FIL
COL
COL
CEL
COL
CEL
CEL
CEL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
COL
COL
COL
COL
ALGAL
U*'ITS
S XC PER WL
5
I
3
2
2.8
3.7
64.2
11.9
8.2
25
33
X
X
576
107
74
ALGAL
UN1TS
S *C PEP ML
2
1
0.4
0.4
0.4
0.4
13.0
67.8
0.8
X
X
X
X
30
30
X
30
30
931
X
4868
60
0.41 30
ALGAL
UNITS
S «C PER ML
5
1
4
3
2
1
1
0.51 44
C.5I 44
8.51 795
22.31 2077
I
1
1
1 X
1.9| 177
1 X
1
1
1 X
1.9| 177
1
1
0.5| 44
1 >
o.9| ee
1
16.61 1547
1
15.6| 145S
I X
1
12.3) 1149
1
0.9| 89
1 X
1
1
-------�
LAKE NAPE: UNION LAKE
STOPET NUMBER: 3422
CONTINUED
AERUGINOSA
INCERTA
PULVEREA
MICROCYSTIS
MICROC YSTI S
MICROCYSTIS
V. INCERTA
NAVICULA
NEIOIUM ?
NITZSCHIA
OSCILLATORIA LIMNEMCA
PFCIASTPUM DUPLEX
V. ?
PECIASTRUM CUPLEX
V. GRACIL1MUH
PEDIASTRUM TETRAS
V. TETRAOCON
PFKNATE DIATOM
POLYEDRIOPSIS SPINULOSA
RAFHIDICPSIS ?
SCENEDESMUS
SCENEDESMUS
SCENEDESNUS
SCENEDESMUS
SCENEDESMUS *4
SCENEDESMUS ABUNDANS
SCENEDESMUS BIJUGA
V. ALTERNANS
SCENEOESMUS DENTICULATUS
V. LINEARIS
SCENEDESMUS DIMOPPHUS
SCENEDESMUS DIMGPPHUS ?
F. TORTLS
SCENEDESMUS
#1
#2
#3
04 16 73
07 20 73
09 28 73
SCENEDESMUS
OPaiENSIS
PROTUBERANS
FORM
COL
CCL
COL
CEL
CEL
CEL
FIL
CCL
COL
COL
CEL
CEL
FIL
COL
COL
COL
COL
CCL
COL
COL
COL
COL
CCL
COL
COL
S
*C
3.7
0.9
ALGAL
UMTS
PER ML
33
X
8
S
3
5
SC
5.9
0.4
1.7
0.4
0.4
0.4
ALGAL
L'NITS
PER ML
X
421
X
30
X
120
30
30
30
X
X
X
X
S
?c
0.9
i.8
6.2
0.5
0.5
0.5
0.5
0.51
1.4
ALGAL
UNITS
PER ML
88
265
X
X
X
575
44
44
44
44
44
X
X
X
133
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LAKE NAfE: UNI TN LAKE
STCPET NUMBER: 3422
CONTINUED
04 16 73
07 20 73
09 23 73
TAXA
SCHRCEDERI* SETIGERA
STAURASTRUM
STAURASTRUK PUNCTULATUM
STEPHANOOISCUS
STIPITOCOCCUS VASIFORMIS
SYKEORA
SYNE ORA #1
TA6ELLAPIA FENESTRATA ?
TAEELLARIA FLOCCULCSA
TETRAEDRON
TETRAEDPCN TRIGCNUM
V. GRACILE
TRAChELOMONAS
FORM
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
1
S
4
ALGAL
UMTS
%C PER ML
1
1
0.9| 8
1
1
1
0.9| 8
1
2.81 25
1
1
1
1
S
4
tc
2.5
0.4
4.2
ALGAL
UNITS
PER PL
ISO
30
300
X
S
1C
C.5
3.3
ALGAL
UNITS
PER ML
44
X
3CS
X
X
TOTAL
857
7180
9322
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LAKE NAME: WANAQUE RES.
SECRET NUMBER: 3423
NYGAARD TROPHIC STATE INDICES
DATE 04 07 73 07 22 73 10 01 73
MYXCPHYCE4N
CHLCROPHYCEAN
EUGLENOPHYTE
CCMPCUND
0.50 E
1.50 E
0.25 E
o.56 E
5.00 E
5.00 E
10.0 E
0/15 ?
1.00 E
18.0 E
1.67 E
2.00 E
0/11 ?
1.40 E
6.00 E
PALMER'S ORGANIC POLLUTION INDICES
DATE 04 07 73 07 22 73 lo 01 73
GENUS
SPECIES
08
00
01
00
01
00
SPECIES DIVERSITY AND ABUNDANCE INDICES
DATE 04 07 73 07 22 73 10 01 73
AVERAGE DIVERSITY
NUMBER CF TAXA
NUMBER OF SAMPLES COMPOSITED
MAXIMUM DIVERSITY MAXH
TOTAL DIVERSITY
TOTAL NUMBER OF INOIV1CUALS/ML
EVENESS COMPONENT
MEAN NUMBER OF INDIVIDUALS/TAXA
NUMBER/ML OF HOST ABUNDANT TAXON
H
S
M
;H
0
N
J
3.41
27.00
3.00
4.75
22611.71
6631.00
0.72
2. 49
30.00
3.00
4.91
5160.88
20S1.00
0.51
2.80
34.00
3.00
5.C9
6577.20
234S.OO
0.55
245.59
1178.00
69.37
701.00
69.09
980.00
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LAKE NAME: VANACUE RES.
NUMBER: 3423
CONTINUED
07 73
07 22 73
10 01 73
TAXA
ANABAEKA #1
ANABAENA #2
APHANIZCPENON ?
APHANOCAPSA
ASTEPIONELLA FORMOSA
ATTHEYA
CENTRIC DIATOM
CERATIUM HIRUNDINELLA
CHLOPOPHYTAK FILAMENT
CHROOCOCCUS
CLCSTERIUM
COCCCNEIS
COELASTRUM RETICULA^UM
COELOSPHAERIUM NAEGELIANUM
CRUCIGENIA TETRAFEDIA
CYMBELLA
DICTYOSPHAERIUM PULCHELLUM
DINCBRYCN BAVARICU*
DINCBPYON DIVERGENS
CINOFLAGELLATE
DINOFLAC-ELLATE #1
EPIPHYTE CN FRAGILARIA
EUDORINA ELEGANS
FILAMENT
FLAGELLATES
FRAGILARIA CRQTONENSIS
COLENKINIA
LUNATE CELL
MALLCMCNAS PSEUCCCOPONATA
MELOSIRA «2
CELCSIRA IB
MELOSIRA DISTANS
FCRM
FIL
FIL
COL
CCL
CEL
CEL
CEL
CEL
FIL
COL
CEL
CEL
CCL
COL
COL
CEL
COL
CEL
CEL
CEL
CEL
CEL
COL
FIL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
S
5
4
*C
16.6
0.8
0.6
0.6
1.3
8.5
9.8
ALGAL
UNITS
PF«? ML
1103
50
38
X
38
88
X
564
652
X
X
S
5
2
3
I
*C
1.0
6.3
0.5
0.5
2.0
0.5
0.5
0.5
33.7
15.6
31.7
ALGAL
UNITS
PER ML
20
X
132
10
10
X
X
41
10
10
X
10
701
| 325
X
X
660
S
1
5
4
2
1C
0.9
0.5
4.3
C.9
0.9
41 .7
9.5
1 A. 7
1 I-9
115.2
ALGAL
UNITS
PER ML
x
22
11
100
x
X
x
x
x
22
x
x
1 22
| 980
| 223
1
1
1 *
1 Ul
| 45
1 357
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LAKE NAME-. KANACLE RES.
NUMBER: 3423
CONTINUED
TAXA
MELOSIRA
MICRACTINIUH PUSTLLUM
PICROCYSTIS AERUC-IN05A
NITZSCHIA
NITZSCHIA #1
QSCILLATORIA LlfNETICA
PECIASTRUM CUPLEX
V. RETICULATUM
PENNATE DIATOMS
PERIDINIUM WISCONS INENSE
PHACIS TCRTU5
PHCRMIOIl'M MUC!CCLA
PHIZOS9LEN1A
SCENEDESMUS #L
SCENEDESMUS #2
SCENEDESMUS *4
SCENEOESHUS BIJUCA ?
SPCNDYLOSIUM PLANUM
STAURASTRUN
STAURASTRUM CUSPIOATUM
V. ?
STAURASTRUK OPHIU'lA
STEPHANODISCUS
STEPHANODISCUS DUB IUS
SYNECRA
SYNE DP A #1
TAEELLARU PENESTRATA
TA6ELLARIA FLOCCULCSA
TETRAEDRON ?
TETRAECRCN #1
TETRAEDRON MINIMUM
TETPAEDSON MINIMUM
V. SCROBKC-LATUM
07 73
07 22 73
10 01 73
!
FORM
CEL
COL
COL
CEL
CEL
Fit
COL
CEL
CEL
CEL
COL
CEL
COL
COL
COL
COL
CEL
CEL
CEL
CEL
CEL
CEL
CEL
CEC
CEL
CEL
CEL
CEL
CEL
CEL
ALGAL
UNITS
S tC PER *L
3117.21 IIM
1
2
0.6| 38
1
0.2| 12
1 X
<».0| 263
4.2
0.2
4.3
1.9
6.6
4.5
17.8
0.4
276
12
288
X
125
X
439
301
1178
25
X
ALGAL
UNITS
S 1C PER ML
4
0.5
4.9
0.5
0,5
1.0
X
X
1C
X
102
X
10
10
X
X
20
X
ALGAL
UNITS
S fC PEP ML
3
X
0.9) 22
1
C.9| 22
1
1
1 X
1
1
1 x
12.61 301
X
1
1
1.9| 45
I
1
U4| 33
1
1
0.91 22
-------�
LAKE NA!"E: WANACUE RES,
STORET NUMBER: 3423
CCNT3NUED
TAXA
TETRAEDPCN HLTICUM
TOTAL
04 0? 73
07 22 73
10 01 73
FORM
CEL
I ALGAL
I UNITS
IS ?C PER ML
1 1 1
| ALGAL
| IN1TS
IS %C PER ML
1 1 1
| ALGAL
| UNITS
IS *C PER ML
1 1 0.51 11
1
1
1
1
6631
2081
2349
-------�
TECHNICAL REPORT DATA
(Please read Instructions on the reverse before completing)
i.
REPORT NO. 2,
EPA-600/3-78-014
4. TITLE ANDSUBTITLE
DISTRIBUTION OF PHYTOPLANKTON IN NEW JERSEY
7 AUTHOR(S)
L.R. Williams, W.D. Taylor, F.A. Hiatt, S.C. Hern,
J.W. Hilgert, V.W. Lambou, F.A. Morris, M.K. Morris
9.
12
15
16
17
a.
iy
'ERFORMING ORGANIZATION NAME AND ADDRESS
Environmental Monitoring and Support Laboratory
Office of Research and Development
U.S. Environmental Protection Agency
Las Vegas, NV 89114
SPONSORING AGENCY NAME AND ADDRESS
U.S. Environmental Protection Agency-Las Vegas, NV
Office of Research and Development
Environmental Monitoring and Support Laboratory
Las Vegas, NV 89114
3. RECIPIENT'S ACCESSIOI*NO.
5. REPORT DATE
January 1978
6. PERFORMING ORGANIZATION CODE
8. PERFORMING ORGANIZATION REPORT NO.
10. PROGRAM ELEMENT NO.
1BA608
11. CONTRACT/GRANT NO.
13. TYPE OF REPORT
AND PERIOD COVERED
14. SPONSORING AGENCY CODE
EPA/600/07
SUPPLEMENTARY NOTES . ., ...... ...,,,. n o
Previously released in limited distribution as No. 686 in the Working Paper Series
for the National Eutrophication Survey.
ABSTRACT
This is a data report presenting the species and abundance of phytoplankton
in the 13 lakes sampled by the National Eutrophication Survey in the State
of New Jersey. Results from the calculation of several water quality indices
are also included (Nygaard's Trophic State Indes, Palmer's Organic Pollution
Index, and species diversity and abundance indices).
KEY WORDS AND DOCUMENT ANALYSIS
DESCRIPTORS b. 1 DENTIFIERS/OPEN ENDED TERMS
*aquatic microbiology New Jersey
lakes lake eutrophication
*phytoplankton Nygaard's trophic indice
water quality Palmer's organic pollu-
tion indices
Species diversity and
abundance indices
DISTRIBUTION STATEMENT 19. SECURITY CLASS (This Report)
PELEA-E TO PUBLIC UNCLASSIFIED
rttlLCM,,!! IU IUDL1L 20. SECURITY CLASS rTTltopasey
UNCLASSIFIED
A Form 2220-1 (9-73)
. COSATI Field/Group
06 C, M
08 H
13 B
21. NO. OF PAGES
68
22. PRICE
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