U.S. ENVIRONMENTAL PROTECTION AGENCY
NATIONAL EUTROPHICATION SURVEY
WORKING PAPER SERIES
REPORT
ON
LAKE WRION
BERKELEY, CALHOUN, CLARENDON, ORANGEBURG
SIMTER CofJNTIES
SOUTH CAROLINA
EPA REGION IV
WORKING PAPER No,
CORVALLIS ENVIRONMENTAL RESEARCH LABORATORY - CORVALLIS, OREGON
and
ENVIRONMENTAL MONITORING & SUPPORT LABORATORY - LAS VEGAS, NEVADA
699-440
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REPORT
ON
LAKE MARION
i, CALHOUN, CLARENDON, ORANGEBURG,
SIMTER cffiNTIES
SOUTH CAROLINA
EPA REGION IV
WORKING PAPER No,
WITH THE COOPERATION OF THE
SOUTH CAROLINA DEPARTMENT OF HEALTH AND
ENVIRONMENTAL CONTROL
AND THE
SOUTH CAROLINA NATIONAL GUARD
AUGUST, 1976
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CONTENTS
Page
Foreword ii
List of South Carolina Study Lakes iv
Lake and Drainage Area Map v
Sections
I. Conclusions 1
II. Lake and Drainage Basin Characteristics 5
III. Lake Water Quality Summary 6
IV. Nutrient Loadings 11
V. Literature Reviewed 21
VI. Appendices 22
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FOREWORD
The National Eutrophication Survey was initiated in 1972 in
response to an Administration commitment to investigate the nation-
wide threat of accelerated eutrophication to freshwater lakes and
reservoirs.
OBJECTIVES
The Survey was designed to develop, in conjunction with state
environmental agencies, information on nutrient sources, concentrations,
and impact on selected freshwater lakes as a basis for formulating
comprehensive and coordinated national, regional, and state management
practices relating to point-source discharge reduction and non-point
source pollution abatement in lake watersheds.
ANALYTIC APPROACH
The mathematical and statistical procedures selected for the
Survey's eutrophication analysis are based on related concepts that:
a. A generalized representation or model relating
sources, concentrations, and impacts can be constructed.
b. By applying measurements of relevant parameters
associated with lake degradation, the generalized model
can be transformed into an operational representation of
a lake, its drainage basin, and related nutrients.
c. With such a transformation, an assessment of the
potential for eutrophication control can be made.
LAKE ANALYSIS
In this report, the first stage of evaluation of lake and water-
shed data collected from the study lake and its drainage basin is
documented. The report is formatted to provide state environmental
agencies with specific information for basin planning [§303(e)], water
quality criteria/standards review [§303(c)], clean lakes [§314(a,b)],
and water quality monitoring [§106 and §305(b)] activities mandated
by the Federal Water Pollution Control Act Amendments of 1972.
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jC
m
Beyond the single lake analysis, broader based correlations
between nutrient concentrations (and loading) and trophic condi-
tion are being made to advance the rationale and data base for
refinement of nutrient water quality criteria for the Nation's
freshwater lakes. Likewise, multivariate evaluations for the
relationships between land use, nutrient export, and trophic
condition, by lake class or use, are being developed to assist
in the formulation of planning guidelines and policies by EPA
and to augment plans implementation by the states.
ACKNOWLEDGMENT
The staff of the National Eutrophication Survey (Office of
Research & Development, U. S. Environmental Protection Agency)
expresses sincere appreciation to the South Carolina Department
of Health and Environmental Control for professional involvement,
to the South Carolina National Guard for conducting the tributary
sampling phase of the Survey, and to those South Carolina waste-
water treatment plant operators who voluntarily provided effluent
samples and flow data.
The staff of the South Carolina Bureau of Wastewater and
Stream Quality Control provided invaluable lake documentation
and counsel during the Survey, reviewed the preliminary reports,
and provided critiques most useful in the preparation of this
Working Paper series.
Major General Robert L. McCrady, the Adjutant General of South
Carolina, and Project Officer Lt. Colonel John P. DuPre (Retired),
who directed the volunteer efforts of the South Carolina National
Guardsmen, are also gratefully acknowledged for their assistance
to the Survey.
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IV
NATIONAL EUTROPHICATION SURVEY
STUDY LAKES
STATE OF SOUTH CAROLINA
NAME
Clark Hill
Fishing Creek
Greenwood
Hartwel1
Keowee
Marion
Moultrie
Murray
Robinson
Saluda
Secession
Wateree
William C. Bowen
Wylie
COUNTY
Abbeville, McCor-
mick, SC; Colum-
bia, Elbert, Lin-
coln, McDuffie,
Wilks, GA
Chester, Lancaster
Greenwood, Laurens,
Newberry
Anderson, Oconee,
Pickens, SC;
Franklin, Hart,
Stephens, GA
Oconee, Pickens
Berkeley, Calhoun,
Claredon, Orange-
burg, Sumter
Berkeley
Lexington, Newberry,
Richland, Saluda
Chesterfield, Dar-
lington
Greenville, Pickens
Abbeville, Anderson
Fairfield, Kershaw,
Lancaster
Spartanburg
York, SC; Gaston,
Mecklenburg, NC
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LAKE MARION
Tributary Sampling Site
X Lake Sampling Site
Sewage Treatment Facility
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LAKE MARION
STORE! NO. 4506
I. CONCLUSIONS
A. Trophic Condition:
Survey data indicate Lake Marion is eutrophic. It ranked
ninth in overall trophic quality when the 13 South Carolina
lakes sampled in 1973 were compared using a combination of six
parameters*. Eight of the lakes had less median total phos-
phorus and dissolved orthophosphorus, six had less median
inorganic nitrogen, ten had less mean chlorophyll a_, and nine
had greater mean Secchi disc transparency. Marked depression
of dissolved oxygen with depth occurred at sampling stations
1 and 3 in July.
Survey limnologists did not observe surface concentrations
of algae but noted the occurrence of macrophytes in the shore-
line shallows near stations 5 and 6 in July and stations 3, 4,
5, and 6 in September.
B. Rate-Limiting Nutrient:
The algal assay results indicate Lake Marion was phosphorus
limited at the time the samples were collected (03/26-27/73).
The lake data indicate phosphorus limitation at all sampling
times.
C. Nutrient Controllability:
1. Point sources—The estimated phosphorus contribution of
* See Appendix A.
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2
the listed point sources amounted to 44.9% of the total phos-
phorus load reaching Lake Marion during the sampling year. The
indirect sources discharging in the Wateree Lake drainage con-
tributed 23.9% of the total, the indirect sources in the Lake
Murray drainage contributed 3.2%, and the five municipal plants
in the Columbia metropolitan area collectively contributed 14.5%.
In this assessment of point-source phosphorus contributions,
no accounting has been made for the 54 municipal sources in the
Broad River drainage, the many privately-owned domestic facili-
ties, or the many industrial discharges (see pages 15 - 16).
Therefore, the proportion of the total phosphorus load contributed
to Lake Marion by point sources must be much greater than the
indicated 44.9%. In fact, if all of the phosphorus load estimated
to have been contributed by the 54 more-distant municipal plants
in the Broad River drainage reached the lake, the overall pro-
portion of point-source contribution would be increased to 60%
of the total load, and the apparent "non-point" phosphorus export
rate of the Congaree River would be reduced to about that of the
Wateree River (see below).
The phosphorus loading measured during the sampling year, 3.54
g/m2, is over three times that proposed by Vollenweider (Vollen-
weider and Dillon, 1974) as a eutrophic loading (see page 20).
However, Vollenweider's model probably does not apply to water
bodies with short hydraulic retention times, and the mean hydrau-
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3
lie retention time of Lake Marion is a relatively short 44 days.
Nonetheless, the trophic condition of the lake is evidence of
excessive nutrient loads.
It is calculated that 85% phosphorus removal at the listed
point sources would reduce the loading to 2.19 g/m2/yr, or about
twice the eutrophic loading. However, considering all of the
point sources impacting Lake Marion and the persistent phosphorus-
limited condition of the lake, it is likely that a high degree of
point-source phosphorus control would result in a significant
improvement in the trophic condition of Lake Marion and benefit
downstream Lake Moultrie* as well.
2. Non-point sources—The non-point phosphorus contribution
of the sampled tributaries accounted for 54.4% of the total input
to Lake Marion. The Congaree River load amounted to 38.4% of the
total, the Wateree River contributed 14.5%, and the remaining
seven tributaries collectively contributed 0.5%.
As discussed above, the non-point contribution of the Congaree
River is believed to be overestimated. The phosphorus export rate
of this stream was nearly twice that of the Wateree River, the
only other tributary sampled with a drainage area of comparable
size (see page 19). However, if the phosphorus load of 240,000
kg estimated to have been contributed by the municipal point
sources in the Broad River drainage is subtracted from the "non-
* Working Paper No. 435.
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4
point" load of the Congaree River, the export rate is reduced
to 17 kg P/km2/yr, a rate quite comparable to that of the Wateree
River.
The phosphorus export rate of Tawcaw Creek was a relatively
high 50 kg/km2/yr. This higher rate indicates an underestimation
of the Summerton point-source load. However, if the actual non-
point export of the creek was 25 kg/km2/yr, the additional load
attributable to the point source would be about 950 kg, a rela-
tively small amount compared to the overall point-source load.
During the Survey sampling year, over one-half of the area of
Lake Marion was part of the Santee National Wildlife Refuge, a
major Atlantic Flyway waterfowl wintering refuge. An additional
12 km2 of adjacent land was flooded in the winter for waterfowl
use, and most of that water was drained back into Lake Marion in
the spring.
On the basis of information provided by the Refuge Manager
(Strickland, 1976), the amounts of nutrients contributed to Lake
Marion by migratory waterfowl were estimated (see page 12 for
method of calculation).
Collectively, ducks and geese using the refuge added an esti-
mated 800 kg P and 2,615 kg N during the sampling year and accounted
for less than 0.1% of the total phosphorus and total nitrogen loads.
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II. LAKE AND DRAINAGE BASIN CHARACTERISTICS1"
A. Lake Morphometry :
1. Surface area: 447.59 kilometers2.
2. Mean depth: 4.0 meters.
3. Maximum depth: 23.4 meters.
4. Volume: 1,790.368 x 106 m3.
5. Mean hydraulic retention time: 44 days (based on outflow)
B. Tributary and Outlet:
(See Appendix C for flow data)
1. Tributaries -
Name
Unnamed Creek C-l
Big Poplar Creek
Halfway Swamp Creek
Warley Creek
Congaree River
Wateree River
Spring Grove Creek
Jacks Creek
Tawcaw Creek
Minor tributaries &
immediate drainage -
Total
2. Outlet -
Diversion Canal
Santee Old Canal
Santee River
Drainage
area (km2)*
11.2
38.3
169.4
30.6
21,937.3
14,581.7
32.9
44.3
37.8
741.9
Mean flow
(m3/sec)*
0.094
0.330
1.480
0.260
279.230
184.010
0.360
0.490
0.410
6.460
37,625.4
38,073.0**
Total
C. Precipitation***:
1. Year of sampling: 120.0 centimeters.
2. Mean annual: 113.8 centimeters.
473.224
409.390
0.166
60.290
469.846
t Table of metric conversions—Appendix B.
tt Martin and Hanson, 1966; maximum depth from Mast (1974).
* For limits of accuracy, see Working Paper No. 175, "...Survey Methods,
1973-1976".
** Includes area of lake.
*** See Working Paper No. 175.
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6
III. LAKE WATER QUALITY SUMMARY
Lake Marion was sampled three times during the open-water season
of 1973 by means of a pontoon-equipped Huey helicopter. Each time,
samples for physical and chemical parameters were collected from
a number of depths at six stations on the lake (see map, page v).
During each visit, a single depth-integrated (4.6 m or near bottom
to surface) sample was composited from the stations for phytoplankton
identification and enumeration; and during the first visit, three
18.9-liter depth-integrated samples were composited for algal assays.
Also each time, a depth-integrated sample was collected from each
of the stations for chlorophyll ^analysis. The maximum depths sampled
were 9.1 meters at station 1, 7.9 meters at station 2, 9.1 meters
at station 3, 7.6 meters at station 4, 2.1 meters at station 5, and
4.0 meters at station 6.
The sampling results are presented in full in Appendix D and
are summarized in the following table.
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PARAMETER
TEMP (C)
OISS OXY (MG/L)
CNDCTVY (MCKOMO)
PH (STAND UNITS)
TOT ALK (MG/L)
TOT P (MG/L)
ORTHO P (MG/L)
N02«N03 (MG/L)
AMMONIA (MG/L)
KJEL N (MG/L)
INORG N (MG/L)
TOTAL N (MG/L)
CHLHPYL A
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8
B. Biological Characteristics:
1. Phytoplankton -
Sampling
Date
03/26/73
07/10/73
09/22/73
2. Chlorophyll a^ -
Sampling
Date
03/26/73
Dominant
Genera
1. Melosira sp.
2. Flagellates
3. Pennate diatoms
4. Cryptomonas sp.
5. Dactylococcopsis sp.
Other genera
Total
1. Lyngbya s£.
2. Melosira sp.
3. Dactylococcopsis sp.
4. Flagellates
5. Nitzschia sp.
Other genera
Total
1. Dactylococcopsis sp.
2. Flagellates
3. Lyngbya SJD.
4. Raphidiopsis sp.
5. Anabaenopsis sp.
Other genera
Total
Station
Number
1
2
3
4
5
6
Algal Units
per ml
1,388
505
473
189
178
705
3,438
1,154
1,010
830
397
397
1,982
5,770
1,485
764
679
467
339
2,122
5,856
Chlorophyll a^
2,
3,
10,
10.
19,
3.1
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c.
Sampling
Date
07/10/73
Stati on
Number
1
2
3
4
5
6
1
2
3
4
5
6
Limiting Nutrient Study:
1. Autoclaved, filtered, and nutrient spiked -
a. Stations 1 and 2 -
09/22/73
Spike (mg/1)
Control
0.010 P
0.020 P
0.050 P
0.025 P + 0.5 N
0.050 P + 1.0 N
1.0 N
Ortho P
Cone, (mg/1)
0.018
0.028
0.038
0.068
0.043
0.068
0.018
b. Stations 3, 4, and 5 -
Ortho P
Spike (mg/1) Cone, (mg/1)
Control
0.010 P
0.020 P
0.050 P
0.025 P + 0.5 N
0.050 P + 1.0 N
1.0 N
0.015
0.025
0.035
0.065
0.040
0.065
0.015
Inorganic N
Cone, (mg/V)
0.302
0.302
0.302
0.302
0.802
1.302
1.302
Inorganic N
Cone, (mg/1)
0.258
0.258
0.258
0.258
0.758
1.258
1.258
Chlorophyll
(yg/D
7.1
12.0
9.6
8.0
19.3
3.1
6.5
3.7
8.5
8.0
1.8
Maximum yield
(mg/1-dry wt.)
5.0
7.6
8.8
9.5
16.9
25.3
5.2
Maximum yield
(mg/1-dry wt.)
3.2
4.1
4.2
4.1
11.3
23.8
3.2
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0.017
0.027
0.037
0.067
0.042
0.067
0.017
0.265
0.265
0.265
0.265
0.765
1.265
1.265
4.4
7.7
7.7
8.1
16.1
26.4
4.5
10
c. Station 6 -
Ortho P Inorganic N Maximum yield
Spike (mg/1) Cone, (mg/1) Cone, (nig/1) (mg/1-dry wt.)
Control
0.010 P
0.020 P
0.050 P
0.025 P + 0.5 N
0.050 P + 1.0 N
1.0 N
Discussion -
The control yields of the assay alga, Selenastrum capri-
cornutum, indicate that the potential primary productivity
of Lake Marion was moderately high at the time the samples
were collected (03/26 - 27/73). Also, increasing yields
with increasing concentrations of orthophosphorus indicate
that the lake was limited by phosphorus at that time. Note
that the addition of only nitrogen resulted in yields not
significantly greater than those of the controls.
The lake data also indicate phosphorus limitation. At
all sampling times, the mean inorganic nitrogen/orthophos-
phorus ratios were 16/1 or greater, and phosphorus limitation
would be expected.
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11
IV. NUTRIENT LOADINGS
(See Appendix E for data)
For the determination of nutrient loadings, the South Carolina
National Guard collected monthly near-surface grab samples from each
of the tributary sites indicated on the map (page v), except for the
high runoff month of January when two samples were collected. Sampling
was begun in February, 1973, and was completed in February, 1974.
Through an interagency agreement, stream flow estimates for the
year of sampling and a "normalized" or average year were provided by
the South Carolina District Office of the U.S. Geological Survey for the
tributary sites nearest the lake.
Except for Big Poplar Creek, nutrient loads for sampled tributaries
were determined by using a modification of a U.S. Geological Survey
computer program for calculating stream loadings . Tributary nutrient
loads shown are those measured minus estimated point-source loads, if any.
The phosphorus load measured in Big Poplar Creek at station D-l
was 37% less than the estimated Elloree waste treatment plant load;
therefore, the nutrient loads for the creek and the unsampled "minor
tributaries and immediate drainage" ("ZZ" of U.S.G.S.) were estimated
using the means of the nutrient loads, in kg/km2/year, at stations C-l,
F-l, J-l, and K-l and multiplying the means by the Big Poplar Creek
and ZZ areas in km2.
Estimates of the nutrient contributions of migratory ducks and
geese are based on the following information provided by Refuge Manager
t See Working Paper No. 175.
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12
Charles Strickland (1976): In 1973-74, common Canada goose-use-days
totaled 1,062,600, duck-use-days totaled 10,372,400 (one-half of the
ducks were mallards), and coot-use-days totaled 1,393,650.
In calculating the nutrient loads, the following assumptions were
made:
1. Canada geese spend one-fourth of their time away from the refuge
waters (Strickland, op. cit.; i.e., effective goose-use-days = 796,950).
2. Mallard ducks spend one-third of their time away from the refuge
waters (i.e., effective mallard-use-days = 3,457,640).
3. The remaining ducks and the coots spend practically all of their
time on the refuge waters and thus essentially recycle nutrients from the
lake back to the lake.
4. All nutrients in feces deposited in the winter-flooded areas are
input to Lake Marion when the areas are drained.
5. The physiology of waste excretion is similar among waterfowl,
and the amount of feces produced is approximately proportional to body
weight (Hutchinson, 1950).
6. The mean weight of common Canada geese is 3.870 kg and that of
mallard ducks is 1.148 kg (Kortright, 1943).
7. Common Canada geese contribute 0.439 g total phosphorus and 1.435
g total nitrogen per goose-use-day (Manny et al., 1975).
The indirect municipal point-source loads leaving upstream Lake Murray*
* Working Paper No. 436.
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13
were calculated by multiplying the nutrient loads leaving that lake
(83,275 kg P and 1,927,285 kg N) by the fractions of the totals of the
nutrient loads contributed by the point sources (0.600 for P and 0.309
for N). The indirect municipal point-source loads leaving upstream
Wateree Lake* were calculated the same way (462,785 kg P x 0.817 and
4,512,345 kg N x 0.365).
In the following table, the municipal point sources listed include
those within 65 kilometers of the confluence of the Congaree and Wateree
rivers (i.e., upstream to the outlets of Lake Murray and Wateree Lake),
including those discharging in the Broad River system within the 65 km
limit (see map, page v). Of the listed municipal sources, the operator
of the Elloree wastewater treatment plant provided monthly effluent sam-
ples but could not provide corresponding flow data, and the remaining
plants were not sampled. Therefore, the nutrient loads from all of the
plants listed were estimated at 1.134 kg P and 3.401 kg N/capita/year.
* Working Paper No. 440.
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14
A. Waste Sources*:
1. Known municipal -
Name
Camden
Cayce
Cayce Airport
Columbia
Metro
E. Rich P.S.
Spring Valley
S.D.
Dept. Corr.
Friarscate
Elloree
Irmo
Whitehall #1
Whitehall #2
Whitehall #3
Coldstream
Challedon
Challedon W.
Coatesworth
Pineglen SD
Columbia - Gar-
dendale
Quail Valley SD
Lexington
County Hosp.
Ridgeway #3
St. Matthews
#1
#2
Springdale SD
Summerton
West Columbia
Hallmark
Saluda Hills
Pop.
Served
7,800
6,800
5,000
200,000
25,000
980
700
2,670
1,350
4,000
3,073
1,100
875
3,700
1,250
1,777
300
2,068
600
1,600
735
200
800
650
130
1,505
600
1,600
Treatment
stab, pond
ext. aer.
tr. filter
tr. filter
aer. basins
ext. aer.
ext. aer.
stab, pond
stab, pond
stab, pond
stab, pond
stab, pond
stab, pond
stab, porrd
stab, pond
stab, pond
stab, pond
stab, pond
stab, pond
ext. aer.
ext. aer.
ext. aer.
septic tank
stab, pond
stab, pond
stab, pond
stab, pond
stab, pond
stab, pond
Mean Flow
(m3/d)
4,012.1
2,573.8
1,135.5
83,270.0
11,733.5
378.5
227.1
984.1
302.8
1,514.0
1,163.1
416.4
378.5
537.5
473.1
412.6
113.6
893.3
227.1
605.6
189.2
75.7
302.8
246.0
49.2
569.6
227.1
605.6
Receiving
Water
Wateree River
Congaree River
Airport Creek/
Congaree River
Congaree River
Gills Creek/
Congaree River
Jackson Creek/
Congaree River
ditch/Broad River
Nichols Creek/
Broad River
Big Poplar Creek/
Lake Marion
Kinley Creek/
Saluda River
Kinley Creek/
Saluda River
Trib. /Saluda River
Rawls Creek/
Saluda River
Trib. /Saluda River
Lorick Br. /Saluda
Ri ver
Koon Br. /Saluda
River
ditch/Saluda River
trib. /Saluda River
Kinley Creek/
Saluda River
Twelvemile Creek/
Saluda River
Robb Senn Br./
Saluda River
Sawneys Creek/
Wateree River
Antley Spring Br.
Halfway Swamp Creek
Sixmile Creek/
Congaree River
Tawcaw Creek
Lorick Br. /Saluda
Ri ver
Saluda River
Foley, 1976.
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15
In addition to the sources listed above, 54 municipal waste-
water treatment plants (estimated population served ca. 212,000)
discharge to the Broad River and its major tributary drainages
(Enoree River, Tyger River, and Pacolet River) more than 65
kilometers upstream from the confluence of the Congaree and Wateree
rivers. Since there is minimal regulation of the Broad River flow
by impoundment, it is likely these more-distant point sources con-
tributed significantly to the nutrient exports of the Congaree River
at station G-l (see map, page v).
Also, many privately-owned facilities treating domestic wastes
are located in the Lake Marion drainage. Within the 65-kilometer
limit, there are at least 136 such plants individually serving
populations equal to or greater than 100 persons (estimated com-
bined population served of about 127,000). .Most of these smaller
sources are located in the Columbia metropolitan area and thus con-
tributed to the Congaree River nutrient exports, but 13 of the plants
(estimated population served = 12,200) contributed to the Wateree
River exports.
2. Indirect municipal -
Eleven municipal point sources discharge in the immediate Lake
Murray drainage, and nine more discharge in the drainage upstream
from the immediate drainage. A portion of the nutrient loads from
these plants reaches Lake Marion via the Saluda River - Congaree
River.
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16
Seven municipal waste treatment plants discharge in the
immediate drainage of Wateree Lake, and 25 more discharge in
the drainage upstream from the immediate drainage. A portion
of the nutrient loads from these sources reaches Lake Marion
via the Wateree River - Congaree River.
3. Known industrial -
At least 34 industrial treatment facilities with a combined
design flow of 42,900 m3/day discharge in the Lake Marion drainage
within a 65-kilometer radius of the confluence of the Congaree and
Wateree rivers, and many more discharge in the Broad River drainage
beyond the 65-km limit.
The nutrient significance of these sources is not known.
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17
Annual Total Phosphorus Loading - Average Year:
1. Inputs -
kg P/ % of
Source yr total
a. Tributaries (non-point load) -
Unnamed Creek C-l 280 <0.1
Big Poplar Creek 825 <0.1
Halfway Swamp Creek 2,200 0.1
Warley Creek 525 . <0.1
Congaree River 608,250 38.4
Wateree River 229,445 14.5
Spring Grove Creek 930 <0.1
Jacks Creek 695 <0.1
Tawcaw Creek 1,890 0.1
b. Minor tributaries & immediate
drainage (non-point load) - 15,950 1.0
c. Known municipal STP's -
Camden 8,845. 0.6
Cayce 7,710 0.5
Cayce Airport 5,670 0.4
Columbia (5 plants) 229,350 14.5
Elloree 1,530 0.1
Irmo (10 plants) 21,255 1.3
Lexington (2 plants) 2,650 0.2
Ridgeway #3 225 <0.1
St. Matthews (2 plants) 1,645 0.1
Springdale SD 145 <0.1
Summerton 1,705 0.1
West Columbia (2 plants) 2,495 0.2
Indirect - Lake Murray 49,965 3.2
drainage
Indirect - Wateree Lake 378,095 23.9
drainage
d. Septic tanks* - 1,900 . 0.1
e. Industrial - Unknown ?
f. Migratory waterfowl -
Ducks 450 <0.1
Geese 350 <0.1
g. Direct precipitation** - 7,835 0.5
Total .1,582,810 100.0
2. Outputs -
Lake outlet - Diversion Canal 587,860
Santee Old Canal 260
Santee River 94,490
Total 682,610
3. Net annual P accumulation - 900,200 kg.
* Estimate based on 260 lakeshore dwellings and 38 campgrounds, parks, and
lodges; see Working Paper No. 175.
** See Working Paper No. 175. ;
-------�
18
C. Annual Total Nitrogen Loading - Average Year:
1. Inputs -
kg N/ % of
Source yr total
a. Tributaries (non-point load) -
Unnamed Creek C-l 3,220 <0.1
Big Poplar Creek 12,870 0.1
Halfway Swamp Creek 29,945 0.2
Warley Creek 11,695 0.1
Congaree River 4,302,510 31.6
Wateree River 5,300,740 38.9
Spring Grove Creek 12,610 0.1
Jacks Creek 12,905 0.1
Tawcaw Creek 16,980 0.1
b. Minor tributaries & immediate
drainage (non-point load) - 249,280 1.8
c. Known municipal STP's -
Camden 26,530 0.2
Cayce 23,125 0.2
Cayce Airport 17,005 0.1
Columbia (5 plants) 780,020 5.7
Elloree 4,590 <0.1
Irmo (10 plants) 63,745 0.5
Lexington (2 plants) 7,940 <0.1
Ridgeway #3 680 <0.1
St. Matthews (2 plants) 4,930 <0.1
Springdale SD 440 <0.1
Summerton 5,120 <0.1
West Columbia (2 plants) 7,480 <0.1
Indirect - Lake Murray 595,530 4.4
drainage
Indirect - Wateree Lake 1,647,005 12.1
drainage
d. Septic tanks* - 7,145 <0.1
e. Industrial - Unknown ?
f. Migratory waterfowl -
Ducks 1,470 <0.1
Geese 1,145 <0.1
g. Direct precipitation** - 483,220 3.5
Total 13,629,875 100.0
2. Outputs -
Lake outlet - Diversion Canal 8,822,160
Santee Old Canal 2,695
Santee River 1,673.445
Total 10,498,300
3. Net annual N accumulation - 3,131,575 kg.
* Estimate based on 260 lakeshore dwellings and 38 campgrounds, parks, and
lodges; see Working Paper No. 175.
** See Working Paper No. 175.
-------�
19
D. Mean Annual Non-point Nutrient Export by Subdrainage Area:
Tributary kg P/km2/yr kg N/km2/yr
Unnamed Creek C-l 25 288
Halfway Swamp Creek 13 177
Warley Creek ' 17 382
Congaree River 28 196
Wateree River 16 364
Spring Grove Creek 28 383
Jacks Creek 16 291
Tawcaw Creek 50 449
-------�
20
E. Yearly Loads:
In the following table, the existing phosphorus loadings
are compared to those proposed by Vollenweider (Vollenweider
and Dillon, 1974). Essentially, his "dangerous" loading is
one at which the receiving water would become eutrophic or
remain eutrophic; his "permissible" loading is that which
would result in the receiving water remaining oligotrophic
or becoming oligotrophic if morphometry permitted. A meso-
trophic loading would be considered one between "dangerous"
and "permissible".
Note that Vollenweider's model may not be applicable to
water bodies with short hydraulic retention times.
Total Phosphorus Total Nitrogen
Total Accumulated Total Accumulated
grams/mVyr 3.54 2.01 30.5 7.0
Vollenweider phosphorus loadings
(g/m2/yr) based on mean depth and mean
hydraulic retention time of Lake Marion:
"Dangerous" (eutrophic loading) 1.10
"Permissible" (oligotrophic loading) 0.55
-------�
21
V. LITERATURE REVIEWED
Foley, John R., 1976. Personal communication (permitted point sources
in the Lake Marion drainage). SC Dept. of Health & Env. Contr.,
Columbia.
Hutchinson, George Evelyn, 1950. Biogeochemistry of vertebrate excre-
tion. Bull. Amer. Mus. Nat. Hist. 96: 1-554.
Kortright, Francis H., 1943. The ducks, geese and swans of North
America (2nd ed.). Amer. Wildlife Inst., Wash., DC.
Manny, B. A., R. G. Wetzel, and W. D. Johnson, 1975. Annual contribution
of carbon, nitrogen and phosphorus by migrant Canada geese to a hard-
water lake. Verh. Int. Ver. Limnol. 19: 949-951.
Martin, R. 0. R., and Ronald L. Hanson, 1966. Reservoirs in the United
States. Water Supply Paper 1838, U.S. Geol. Surv., Wash., DC.
Mast, G. Nelson, 1974. Personal communication (maximum depth). SC
Dept. of Health & Env. Contr., Columbus.
Strickland, Charles (Manager), 1976. Personal communication (water-
fowl-use-days - lakes Marion and Moultrie; habits of refuge geese).
Santee Nat!. Wildlife Refuge, Summerton.
Vollenweider, R. A., and P. J. Dillon, 1974. The application of
the phosphorus loading concept to eutrophication research.
Natl. Res. Council of Canada Publ. No. 13690, Canada Centre
for Inland Waters, Burlington, Ontario.
-------�
VI. APPENDICES
APPENDIX A
. LAKE RANKINGS
-------�
LAKE DATA TO 3E USED IN RANKINGS
LAKE
CODE LAKE NAME
4503 FISHING CREEK
4504 LAKE GREENWOOD
4505 LAKE HARTwELL
4506 LAKE MARION
4507 LAKE MURRAY
4508 LAKE ROBINSON
4510 LAKE WATEREE
4511 LAKE WYLIE
4512 LAKE MOULTRIE
4513 LAKE KEOWEE
4514 LAKE SECESSION
4515 SALUOA LAKE
4516 LAKE WILLIAM c. BOWEN
MEDIAN
TOTAL P
0.143
0.061
0.013
0.055
0.024
0.014
0.094
0.045
0.026
O.OOB
0.057
0.046
0.022
MEDIAN
INORG N
0.535
0.470
0.130
0.280
0.260
0.260
0.4?0
0.380
0.200
0.170
0.355
0.230
0.360
500-
MEAN SEC
463.000
H63.917
422.000
470.176
H24.905
458.778
475.667
462.222
455.36.
371.750
462.778
476.833
459.889
MEAN
CHLORA
2.811
8.150
6.157
8.728
6.4':B
8.611
8.408
5.42?
d.800
2.633
10.722
1.517
3.911
Ib-
MIN 00
10.20C
15.000
15.000
14.90C
15.000
It. 000
14.100
14.800
11.200
15.000
15.000
10.800
15.000
MEOI AN
DI55 ORTnO P
0.051
0.011
0.004
0.010
0.007
0.005
0.034
0.013
O.OOb
0.003
0.006
0.006
0.007
-------�
PERCENT OF LAKES *ITH HIGHER VALUES (NUMBER or LAKES *ITH HIGHER VALUES)
LAKE
CODE LAKE NAME
4503 FISHING CREEK RESERVOIR
4504 LAKE GREENKOOO
4505 LAKE HARWELL
4506 LAKE MARION
4507 LAKE MURRAT
4508 LAKE ROBINSON
4510 LAKE WATEREE
4511 LAKE WYLIE
4512 LAKE MOULTRIE
4513 LAKE KEOWEE
4514 LAKE SECESSION
4515 SALJDA LAKE
4516 LAKE WILLIAM C. BOWEN
MEDIAN
TOTAL P
0 (
17 (
92 (
33 (
67 (
83 (
B (
50 (
58 (
100 <
?5 (
42 (
75 (
0)
2)
11)
4)
6)
10)
1)
6)
7)
12)
3)
5)
9)
MEDIAN
INORG N
0 <
a (
100 (
so <
62 (
62 (
17 (
25 <
83 (
92 <
42 (
75 <
33 (
0)
1)
12)
6)
7)
7)
2)
3)
10)
11>
5)
9)
4>
500-
MEAN SEC
0 (
33 (
92 (
25 (
83 (
67 (
17 (
SO <
75 (
100 <
42 <
8 (
58 (
0)
4)
11)
3)
10)
8)
2)
6)
9)
12)
5)
1)
7)
MEAN
CHLORA
92 (
42 (
58 (
17 (
50 (
25 (
33 (
67 (
8 (
83 !
0 (
100 (
75 (
ID
5)
7)
2)
6)
3)
4)
8)
1)
10)
0)
12)
9)
15-
MIN DO
ICO (
21 (
21 (
50 (
21 (
75 (
67 (
58 (
83 (
21 (
21 (
93 (
21 (
12)
0)
0)
6)
0)
9)
8)
7)
10)
0)
0)
11)
0)
MEDIAN
OISS OKTHO P
0 (
25 (
92 (
33 (
46 (
83 (
8 (
17 (
71 (
100 (
58 (
71 (
46 (
0)
3)
11)
4)
5)
10)
1)
2)
8)
12)
7)
8)
5)
INDEX
NO
192
146
455
208
329
3*5
150
267
378
496
188
3d8
308
-------�
LAKES RANKED Bt INDEX NOS.
RANK LAKE CODE LAKE NAME INDEX NO
1 4513 LAKE KEOwEE 496
2 4505 LAKE HARThELL 455
3 450e> LAKE ROBINSON 395
4 4515 SALUDA LAKE 388
5 4512 LAKE MOULTRIE 378
6 4507 LAKE MURRAY 329
7 4516 LAKE WILLIAM C. BOWEN 308
8 4511 LAKE *YLIE 267
9 4506 LAKE MARION 208
10 4503 FISHING CREEK RESERVOIR 192
11 4514 LAKE SECISSION 188
12 4510 LAKE WATEREt 150
13 4504 LAKE GREENWOOD 146
-------�
APPENDIX B
CONVERSION FACTORS
-------�
CONVERSION FACTORS
Hectares x 2.471 = acres
Kilometers x 0.6214 = miles
Meters x 3.281 = feet
-4
Cubic meters x 8.107 x 10 = acre/feet
Square kilometers x 0.3861 = square miles
Cubic meters/sec x 35.315 = cubic feet/sec
Centimeters x 0.3937 = inches
Kilograms x 2.205 = pounds
Kilograms/square kilometer x 5.711 = Ibs/square mile
-------�
APPENDIX C
TRIBUTARY FLOW DATA
-------�
TRIBUTARY FLOW INFORMATION FOR SOUTH CAROLINA
04/27/76
LAKE CODE 4506
LAKE MARION
TOTAL DRAINAGE AREA OF LAKE(SO KM) 38073.0
JAM FEB MAR
SUB-DRAINAGE
TRIBUTARY AREA(SO KM)
APR
MAY
NORMALIZED FLOWS(CMS)
JUN JUL AUG
SEP
OCT
NOV
DEC
MEAN MONTHLY FLOWS AND DAILY FLOWSICMSI
TRIBUTARY MONTH YEAR MEAN FLOW DAY
4506A1
4506B1
FLOW DAY
2
3
4
5
6
7
8
9
10
11
12
1
2
2
3
4
5
6
7
a
9
10
11
12
1
2
73
73
73
73
73
73
73
73
73
73
73
74
74
73
73
73
73
73
73
73
73
73
73
73
74
74
775.882
741.901
764.555
492.713
807.030
498.376
407.762
419.089
232.198
202.182
396.436
736.238
756.060
614.476
300.158
625.802
15.914
334.139
18.689
15.008
15.008
15.008
14.725
14.442
14.158
220.588
25
20
IS
20
10
10
12
10
12
11
10
13
17
25
20
15
2U
10
10
12
10
12
11
10
13
17
739.070
645.624
838.178
421.921
993.921
495.545
515.366
345.465
220.871
216.907
356.792
792.872
651.287
19.822
710.753
676.772
15.688
169.618
17.330
15.716
15.065
15.008
14.158
14.158
14.158
487.050
FLOW DAY
FLOW
27
705.089
27
14.158
MEAN
4506A1
450681
4506C1
450601
4506E1
4506FI
4506G1
450 6H1
4506J1
4506K1
4506L1
4506Z2
38073.0
38073.0
11. i
38.3
169.4
30.6
31937.3
14581.7
32.9
44.3
37.8
740.7
485.88
56.92
0.113
0.40
1.7B
0.31
331.31
240.69
0.42
0.57
0.48
7.84
542.38
103.36
0.142
0.51
2.27
0.40
387.94
263.63
0.48
0.65
0.57
9.94
576.27
155.74
0.170
0.59
2.63
0.48
416.26
278.64
0.51
0.68
0.57
11.50
519.78
122.61
0.142
0.45
2.07
0.37
356.79
260.80
0.40
0.54
0.45
9.03
412.43
40.78
0.085
0.31
1.36
0.25
247.49
165.65
0.34
0.45
0.40
5.92
361.58
24.32
0.057
0.23
0.99
0.17
222.57
149.51
0.25
0.37
. 0.31
4.28
333.33
20.76
0.057
0.23
0.99
0.17
227.38
130.26
0.28
0.40
0.34
4.28
341.81
24.92
0.057
0.23
O.V6
0.17
237.58
135.64
0.28
0.37
0.31
4.19
316.38
53.52
0.057
0.20
0.85
0.14
208.98
139.04
0.25
0.37
0.31
3.65
310.73 338.98
59.47 26.03
0.085 0.085
0.25 0.28
1.13 1.27
0.20 0.23
227.10 228.52
140.45 149.23
0.34 0.34
0.45 0.48
0.37 0.40
4.96 5.52
382.77
36.81
0.085
0.34
1.50
0.28
266.18
161.12
0.37
0.51
0.42
6.60
409.39
60.29
0.094
0.33
1.48
0.26
279.23
184.01
0.36
0.49
0.41
6.46
SUMMARY
TOTAL
SUM OF
DRAINAGE
AREA OF
LAKE =
SUB-DRAINAGE AREAS =
38073.
37624.
0
2
TOTAL FLOW IN =
TOTAL FLO* OUT =
5691.53
5649.54
-------�
TRIBUTARY FLOW INFORMATION FOR SOUTH CAROLINA
04/27/76
LAKE CODE 4506
LAKE MARION
MEAN MONTHLY FLOWS AND DAILY FLOWS(CMS)
TRIBUTARY MONTH YEAR MEAN FLOW DAY
4506C1
4506U1
4506E1
45G6F1
2
3
4
5
6
7
8
9
10
11
12
1
2
2
3
4
5
6
7
8
9
10
11
12
1
2
2
3
4
5
6
7
8
9
10
11
12
1
2
2
3
4
5
6
7
8
9
10
11
12
1
2
73
73
73
73
73
73
73
73
73
73
73
74
74
73
73
73
73
73
73
73
73
73
73
73
74
74
73
73
73
73
73
73
73
73
73
73
73
74
74
73
73
73
73
73
73
73
73
73
73
73
74
74
0.481
0.255
0.311
0.113
0.311
0.142
0.085
0.085
0.085
0.057
0.142
0.198
0.425
1.671
0.850
1.048
0.425
1.048
0.510
0.340
0.255
0.14?
0.113
0.255
0.566
1.416
7.419
3.710
4.644
1.841
4.644
2.209
1.472
1.104
0.708
0.566
1.189
2.407
6.286
1.331
0.680
0.850
0.340
0.850
0.396
0.255
0.198
0.142
0.113
0.227
0.425
1.133
25
20
15
20
10
10
12
10
12
11
10
13
17
27
20
18
21
17
22
19
20
19
18
13
4
1
27
20
18
21
17
22
19
20
19
18
13
4
1
27
20
Ib
21
17
22
19
20
19
18
13
4
1
27
FLOW DAY
0.227
0.142
0.142
0.028
0.057
0.085
0.028
0.028
0.028
0.057
0.142
0.085
0.963
0.736
0.510
0.481
0.113
1.557
0.142
0.566
0.057
0.057
0.057
0.113
0.255
0.850
3.115
2.322
1.841
0.453
7.362
0.566
1.756
0.283
0.283
0.340
0.311
1.416
3.681
0.566
0.425
0.283
0.045
1.274
0.113
0.2d3
0.057
0.057
0.057
0.085
0.255
0.680
FLOW DAY
FLOW
0.057
0.255
1.104
0.198
-------�
TRIBUTARY FLO* INFORMATION FOR SOUTH CAROLINA
04/27/76
LAKE CODE 4506
LAKE MARION
MEAN MONTHLY FLOWS AND UAILY FLOWS(CMS)
TRIBUTARY MONTH YEA*
MEAN FLO* OAY
FLOW DAY
FLOW OAY
FLOW
4506G1
4506H1
4506J1
4506K1
2
3
4
5
6
7
8
9
10
11
12
1
2
2
3
4
5
6
7
8
9
10
11
12
1
2
2
3
t4
s
6
7
8
9
10
11
12
1
?
2
3
4
5
6
7
8
9
10
11
12
1
?
73
73
73
73
73
73
73
73
73
73
73
74
74
73
73
73
73
73
73
73
73
73
73
73
74
74
73
73
73
73
73
73
73
73
73
73
73
74
74
73
73
73
73
73
73
73
73
73
73
73
74
74
710.753
622.970
781.545
404.931
574.83?
282.602
265.612
305.822
193.970
135.071
178.396
597.485
699.426
453.069
455.901
515.366
243.242
387.941
177.830
157.158
162.822
86.083
86.650
155.743
256.55!
276.656
1.444
0.708
0.906
0.368
0.906
0.425
0.283
0.227
0.170
0.142
0.255
0.566
1.218
1.926
0.963
1.218
0.481
1.218
0.595
0.396
0.2B3
0.227
0.198
11.340
0.623
1.642
27
20
18
21
17
22
19
20
19
Ib
13
4
1
9
11
14
12
15
17
17
17
17
20
19
9
6
24
24
14
21
21
ZO
12
17
22
26
20
17
15
24
24
14
21
21
20
12
17
22
26
20
17
15
328.475
1268.595
461.564
262.497
1158.159
161.123
188.590
279.487
113.267
163.388
239.277
906.139
770.218
506.871
501.208
504.040
283.166
447.406
208.412
103.640
176.414
42.475
33.980
198.218
424.753
278.354
0.566
0.595
0.651
0.340
0.453
0.283
0.340
0.283
0.283
0.255
0.283
0.340
1.416
0.765
0.736
0.878
0.453
0.623
0.396
0.510
0.425
0.368
0.340
0.425
0.453
1.926
18
356.792
23
257.117
31
0.963
31
1.274
-------�
TRIBUTARY FLO* INFORMATION FOK SOUTH CAROLINA
04/27/76
LAKE CODE 4506
LAKE MARION
MEAN MONTHLY FLOWS AND DAILY FLOWS(CMS)
TRIBUTARY MONTH YLAR MEAN FLOW DAY
4506L1
4506ZZ
2
3
4
5
6
7
8
9
10
11
12
1
2
2
3
4
5
6
7
8
9
10
11
12
1
2
73
73
73
73
73
73
73
73
73
73
73
74
74
73
73
73
73
73
73
73
73
73
73
73
74
74
FLOW DAY
FLOW UAY
FLOW
1.642
0.821
1.019
0.425
1.019
0.510
0.340
0.255
0.198
0.142
0.283
0.510
1.416
25.485
16.141
20.247
8.070
19.822
9.713
6.371
4.870
2.832
11.044
8.495
11.327
27.467
24
24
14
21
21
20
12
20
22
26
20
17
15
25
20
15
20
18
20
15
15
15
IS
15
15
15
0.651
0.623
0.736
0.396
0.538
0.340
0.425
0.340
0.425
0.368
0.396
0.453
1.642
14.158
9.628
11.327
2.407
28.317
2.265
1.614
1.416
1.557
1.699
5.663
9.911
32.281
31
1.104
16
4.814
-------�
APPENDIX D
PHYSICAL and CHEMICAL DATA
-------�
STORE! RETRIEVAL DATE 76/04/27
450601
33 26 01.0 080 21 55.0 3
LAKE MARION
45075 SOUTH CAROLINA
030892
DATE
FROM
TO
73/03/26
73/07/10
73/09/22
DATE
FROM
TO
73/03/26
73/07/10
73/09/22
TIME DEPTH
OF
DAY FEET
16 10 0000
16 10 0004
16 10 0010
12 30 0000
12 30 0005
12 30 0015
12 30 0030
11 25 0000
11 25 0005
11 25 0013
TIME DEPTH
OF
DAY FEET
16 10 0000
16 10 0004
16 10 0010
12 30 0000
12 30 0005
12 30 0015
12 30 0030
11 25 0000
11 25 0005
11 25 0013
00010
WATER
TEMP
CENT
14.6
14.6
14.6
29.6
29.5
28.7
25.8
26.1
26.0
25.9
00665
PHOS-TOT
MG/L P
0.107
0.103
0.108
0.067
0.055
0.040
0.045
0.110
0.095
0.100
00300
DO
MG/L
8.6
8.8
9.3
7.5
4.5
1.0
5.6
6.0
32217
CHLRPHYL
A
UG/L
2.7
7.1
6.5
00077 00094
TRANSP CNDUCTVY
SECCHI FIELD
INCHES MICROMHO
14 55
55
55
32 80
76
79
80
15 74
74
73
11EPALES 2111202
0033 FEET DEPTH CLASS 00
00400 00410 00610 00625
PH
SU
7
7
7
8
7
6
6
7
6
6
.40
.30
.30
.10
.10
.70
.50
.30
.90
.70
T ALK
CAC03
MG/L
11
13
11
28
30
31
33
22
23
15
NH3-N
TOTAL
MG/L
0.050
0.050
0.050
0.110
0.090
0.140
0.290
0.100
0.070
0.080
TOT KJEL
N
MG/L
0.400
0.300
0.300
1.200
0.800
0.600
0.500
1.100
0.600
0.600
00630
N02&N03
N-TOTAL
MG/L
0.290
0.300
0.300
0.080
0.100
0.150
0.260
0.200
0.190
0.200
00671
PHOS-DIS
ORTHO
MG/L P
0.013
0.013
0.013
0.010
0.008
0.008
0.008
0.018
0.013
0.011
-------�
STORET RETRIEVAL DATE 76/04/37
DATE
FROM
TO
73/03/26
73/07/10
73/09/22
DATE
FROM
TO
73/03/26
73/07/10
73/09/22
TIME DEPTH
OF
DAY FEET
16 35 0000
16 35 0004
16 35 0015
16 35 0024
14 55 0000
14 55 0004
14 55 0015
14 55 0026
11 45 0000
11 45 0005
11 45 0015
11 45 0020
TIME DEPTH
OF
DAY FEET
16 35 0000
16 35 0004
16 35 0015
16 35 0024
14 55 0000
14 55 0004
14 55 0015
14 55 0026
11 45 0000
11 45 0005
11 45 0015
11 45 0020
00010
WATER
TEMP
CENT
14.5
14.5
14.6
14.6
30.8
30.0
28.8
28.4
25.7
25.6
25.5
25.4
00665
PHOS-TOT
MG/L P
0.092
0.090
0.082
0.089
0.065
0.057
0.051
0.073
0.116
0.097
0.100
0.093
00300
DO
MG/L
8.8
8.6
8.6
9.9
8.2
5.9
4.6
4.8
4.2
4.6
32217
CHLRPHYL
A
UG/L
3.0
12.0
*
3.7
00077 00094
TRANSP CNDUCTVY
SECCHI FIELD
INCHES MICROMHO
55
55
58
58
36 75
75
72
73
12 66
66
67
64
450602
33 30 17.0 080 27 40.0 3
LAKE MARION
45027 SOUTH CAROLINA
030892
11EPALES
0028
00400
PH
SU
7.20
7.20
7.20
7.20
8.70
7.00
6.00
6.60
6.30
6.40
6.30
6.30
2111202
FEET DEPTH CLASS
00410
T ALK
CAC03
MG/L
11
12
12
10
31
32
31
30
12
14
15
14
00610
NH3-N
TOTAL
MG/L
0.040
0.050
0.050
0.060
0.120
0.110
0.120
0.150
0.100
0.100
0.100
0.100
00
00625
TOT KJEL
N
MG/L
0.400
0.300
0.300
0.300
1.100
0.800
0.400
0.500
0.900
0.600
0.800
0.600
00630
N02&N03
N-TOTAL
MG/L
0.300
0.290
0.290
0.310
0.100
0.140
0.170
0.260
0.230
0.230
0.230
0.230
00671
PHOS-DIS
ORTHO
MG/L P
0.013
0.013
0.011
0.012
0.008
0.006
0.007
0.008
0.023
0.021
0.023
0.020
-------�
STORET RETRIEVAL DATE 76/04/37
450603
33 31 10.0 080 11 55.0 3
LAKE MARION
45027 SOUTH CAROLINA
030591
11EPALES
2111202
0034 FEET DEPTH CLASS
DATE
FROM
TO
73/03/27
73/07/10
73/09/21
DATE
FROM
TO
73/03/27
73/07/10
73/09/21
TIME DEPTH
OF
DAY FEET
10 00 0000
10 00 0006
10 00 0015
10 00 0030
11 15 0000
11 15 0005
11 15 0015
11 15 0028
15 45 0000
15 45 0005
15 45 0015
15 45 0025
TIME DEPTH
OF
DAY FEET
10 00 0000
10 00 OOOb
10 00 0015
10 00 0030
11 15 0000
11 15 0005
11 15 0015
11 15 0028
15 45 0000
15 45 0005
15 45 0015
15 45 0025
00010
WATER
TEMP
CENT
15.9
15.9
15.8
15.8
31.0
30.8
29.8
26.7
28.7
27.9
27.7
27.7
00665
PHOS-TOT
MG/L P
0.042
0.049
0.052
0.055
0.041
0.024
0.024
0.028
0.017
0.016
U.013
0.017
00300
DO
MG/L
9.2
9.0
8.8
8.2
8.0
5.6
0.1
7.2
5.6
5.2
32217
CHLRPHYL
A
UG/L
10.5
9.6
8.5
00077 00094
TRANSP CNDUCTVY
SECCHI FIELD
INCHES MICROMHO
23 87
75
80
70
60 75
70
70
80
55 89
86
87
87
00400
PH
SU
7
7
7
7
8
7
6
6
8
7
6
6
.80
.80
.80
.80
.30
.60
.80
.50
.10
.30
.90
.90
00410
T ALK
CAC03
MG/L
11
11
10
11
23
23
22
31
12
14
15
16
00610
NH3-N
TOTAL
MG/L
0.050
0.040
0.050
0.050
0.130
0.080
0.090
0.430
0.040
0.060
0.080
0.110
00
00625
TOT KJEL
N
MG/L
0.500
0.400
0.400
0.500
1.100
0.700
0.600
1.000
0.500
0.400
0.400
0.400
00630
N02&N03
N-TOTAL
MG/L
0.210
0.180
0.180
0.190
0.080
0.060
0.070
0.070
0.040
0.040
0.040
0.040
00671
PHOS-DIS
ORTHO
MG/L P
0.007
0.007
0.009
0.009
0.011
0.005
0.004
0.006
0.004
0.011
0.007
0.007
-------�
STORE! RETRIEVAL DATE 76/04/27
450604
33 24 10.0 080 09 15.0 3
LAKE MARION
45015 SOUTH CAROLINA
030892
DATE
FROM
TO
73/03/27
73/07/10
73/09/21
DATE
FROM
TO
73/03/27
73/07/10
73/09/21
TIME DEPTH
OF
DAY FEET
10 30 0000
10 30 0003
10 30 0015
10 30 0025
11 50 0000
11 50 0012
11 50 0015
11 50 0025
15 30 0000
15 30 0005
15 30 0015
TIME DEPTH
OF
DAY FEET
10 30 0000
10 30 0003
10 30 0015
10 30 0025
11 50 0000
11 50 0012
11 50 0015
11 50 0025
15 30 0000
15 30 0005
15 30 0015
00010
WATER
TEMP
CENT
15.3
15.3
15.4
15.4
30.2
29.3
28.9
28.5
28.9
28.4
28.3
00665
PHOS-TOT
MG/L P
0.071
0.069
0.064
0.066
0.036
0.027
0.024
0.025
0.017
0.020
0.021
00300
DO
MG/L
9.4
9.4
9.4
6.8
6.8
6.4
6.4
7.6
7.8
32217
CHLRPHYL
A
UG/L
10.7
8.0
8.0
00077 00094
TRANSP CNDUCTVY
SECCHI FIELD
INCHES MICROMHO
18 70
70
70
70
32 72
72
70
72
48 92
92
91
11EPALES 2111202
0029 FEET DEPTH CLASS 00
00400 00410 00610 00625
PH
SU
7
7
7
7
7
7
6
6
6
6
6
.80
.80
.80
.80
.10
.00
.90
.90
.80
.50
.70
T ALK
CAC03
MG/L
11
10
10
10K
26
25
26
28
10
10K
10K
NH3-N
TOTAL
MG/L
0.060
0.050
0.040
0.030
0.110
0.100
0.100
0.140
0.070
0.030
0.030
TOT KJEL
N
MG/L
O.SOO
0.400
0.400
0.400
1.200
0.700
0.600
0.400
0.300
0.300
0.300
00630
N02&N03
N-TOTAL
MG/L
0.300
0.290
0.290
0.280
0.130
0.150
0.140
0.160
0.080
0.060
0.060
00671
PHOS-DIS
ORTHO
MG/L P
0.012
0.011
0.012
0.011
0.007
0.005
0.005
0.005
0.005
0.005
0.007
K VALUE KNOWN TO HE
LtSS THAN INDICATED
-------�
STORET RETRIEVAL DATE 76/04/27
DATE
FROM
TO
73/03/37
73/07/10
73/09/22
DATE
FROM
TO
73/03/27
73/07/10
73/09/22
TIME DEPTH
OF
DAY FEET
13 00 0000
13 00 0007
15 30 0000
15 30 0007
12 05 0000
12 05 0005
TIME DEPTH
OF
DAY FEET
13 00 0000
13 00 0007
15 30 0000
15 30 0007
12 05 0000
12 05 0005
00010
WATER
TEMP
CENT
16.3
15.7
32.5
30.5
26.9
26.6
00665
PHOS-TOT
MG/L P
0.042
0.043
0.047
0.049
0.041
0.043
00300
DO
MG/L
10.7
8.1
6.0
6.4
4.4
32217
CHLRPHYL
A
UG/L
19.6
19.3
19.9
00077 00094
TRANSP CNDUC
SECCH1 FIELD
INCHES MICRO
37
36
35
450605
33 34 06.0 080 26 30.0 3
LAKE MARION
45075 SOUTH CAROLINA
030892
11EPALES 2111202
0010 FEET DEPTH CLASS 00
i4
VY
IHO
62
65
53
50K
84
95
00400
PH
SU
7.80
7.80
7.30
6.60
6.40
6.30
00410
T ALK
CAC03
MG/L
10K
10K
10K
11
. 18
18
00610
NH3-N
TOTAL
MG/L
0.040
0.040
0.130
0.130
0.050
0.050
00625
TOT KJEL
N
MG/L
0.700
0.600
1.100
0.800
0.800
0.600
00630
N02&N03
N-TOTAL
MG/L
0.050
0.050
0.100
0.100
0.040
0.030
00671
PHOS-DIS
OR Tr»0
MG/L P
0.007
0.010
0.006
0.009
0.010
0.009
K VALUE KNO»/N TO BE
LESS T^aiM INDICATED
-------�
STORET RETRIEVAL DATE 76/04/27
00010
DATE TIME DEPTH HATER
FROM OF TEMP
TO DAY FEET CENT
00300 00077 00094
DO TRANSP CNDUCTVY
SECCHI FIELD
MG/L INCHES MICROMHO
73/03/27
73/07/10
73/09/22
DATE
FROM
TO
73/03/27
73/07/10
73/09/22
13 30 0000
13 30 0004
13 30 0012
15 55 0000
15 55 0013
12 25 0000
TIME DEPTH
OF
DAY FEET
13 30 0000
13 30 0004
13 30 0012
15 55 0000
15 55 0013
12 25 0000
14.0
14.0
14.0
28.2
28.2
25.2
00665
PHOS-TOT
MG/L P
0.080
0.085
0.085
0.085
0.087
0.097
8.8
9.3
5.9
6.1
3.8
32217
CHLRPHYL
A
UG/L
3.1
3.1
1.8
18
24
12
70
80
80
70
70
67
450606
33 38 40.0 080 32 15.0 3
LAKE MARION
45085 SOUTH CAROLINA
030892
11EPALES
2111202
0016 FEET DEPTH CLASS
00400
PH
SU
7.60
7.60
7.70
6.70
6.80
6.20
00410
T ALK
CAC03
MG/L
10K
10K
10K
19
19
11
00610
NH3-N
TOTAL
MG/L
0.060
0.050
0.040
0.130
0.110
0.030
00
00625
TOT KJEL
N
MG/L
0.500
0.300
0.200
0.600
0.400
0.600
00630
N02&N03
N-TOTAL
MG/L
0.340
0.330
0.340
0.440
0.440
0.250
00671
PHOS-DIS
ORTHO
MG/L P
0.018
0.016
0.016
0.030
0.024
0.024
K VALUE KNOWN TO dt
LESS THAN INDICATED
-------�
APPENDIX E
TRIBUTARY and WASTEWATER
TREATMENT PLANT DATA
-------�
STORET RETRIEVAL DATE 76/OV27
4506A1
33 23 00.0 080 08 00.0 4
DIVEKSION CANAL
45 BERKELEY Co
0/LAKE MARION
ST HWY 45 BKUG
11EPALES
0000 FEET DEPTH
030892
2111204
CLASS 00
DATE
FROM
TO
73/02/25
73/03/20
73/04/15
73/05/20
73/06/10
73/07/10
73/08/12
73/09/10
73/10/12
73/11/11
73/12/10
74/01/13
74/01/27
74/02/17
00630
TIME DEPTH N02&N03
OF
DAY FEET
11 30
16 50
10 05
10 00
11 45
12 17
10 20
15 12
15 22
10 38
12 30
10 15
12 00
11 00
N-TOTAL
MG/L
0.260
0.240
0.220
0.052
0.048
0.096
0.025
0.027
0.150
0.112
0.048
0.330
0.276
0.288
00625
TOT KJEL
N
MG/L
0.440
0.390
0.380
0.440
1.890
0.350
0.690
0.390
0.560
0.700
0.200
0.500
0.200
0.300
00610
NH3-N
TOTAL
MG/L
0.040
0.005K
0.030
0.021
0.099
0.048
0.035
0.022
0.060
0.024
0.028
0.068
0.024
0.035
00671
PHOS-DIS
ORTHO
MG/L P
0.024
0.009
0.035
0.007
0.005K
0.016
0.013
0.005K
0.008
0.005K
0.005K
0.020
0.016
0.015
00665
PHOS-TOT
MG/L P
0.060
0.055
0.072
0.030
0.030
0.035
0.025
0.025
0.035
0.030
0.025
0.060
0.040
0.120
K VALUE K
LESS THAN
TO BE'
INDIC-ATED
-------�
STORE! RETRIEVAL DATE 76/04/27
450661
33 29 30.0 079 58 00.0 4
SANTEE RIVER
45 BERKELEY CO HWY
0/LAKE MARION 030891
US HWY 52 BROG NW OF ST STEPHEN
11EPALES 21U204
0000 FEET DEPTH CLASS 00
DATE
FROM
TO
73/02/25
73/03/20
73/04/15
73/05/20
73/06/10
73/07/10
73/08/12
73/09/10
73/10/12
73/11/11
73/12/10
74/01/13
74/01/27
74/02/17
TIME DEPTH
OF
DAY FEET
12 20
17 30
10 40
10 30
12 30
12 15
10 50
15 10
15 30
11 05
13 05
11 10
12 30
13 30
00630
N02&N03
N-TOTAL
MG/L
0.132
0.198
0.220
0.115
0.170
0.210
0.120
0.130
0.210
0.108
0.044
0.156
0.208
0.288
00625
TOT KJEL
N
MG/L
0.520
0.400
0.350
0.770
3.400
0.780
1.000
0.300
0.360
0.350
0.100
0.500
0.200
0.300
00610
NH3-N
TOTAL
MG/L
0.097
0.006
0.020
0.039
0.470
0.130
0.054
OoOSO
Oo054
Oo022
0.028
0.044
0.032
0.030
00671
PHOS-DIS
ORTHO
MG/L P
0.026
0.012
0.025
0.013
0.019
0.033
0.016
0.015
0.013
0.018
0.008
0.012
0.012
0.010
00665
PHOS-TOT
MG/L P
0.070
0.055
0.060
0.055
OoOSO
0.075
0.040
0.035
0.040
0.022
0.025
0.045
0.030
0.050
-------�
STORET RETRIEVAL DATE 76/06/32
451281
33 26 00.0 080 07 00.0 4
OLD CANAL
45 BERKELEY CO HWY
T/LAKE MOULTRIE and 0/Lake Marion 030892
ST HwY 45 BRDG 2 MI E OF EADYTOrtN
11EPALES 2111204
0000 FEET DEPTH CLASS 00
DATE
FROM
TO
73/02/25
73/03/20
73/04/15
73/05/20
73/06/10
73/07/10
73/06/12
73/09/10
73/10/12
73/11/11
73/12/10
74/01/13
74/01/27
74/02/17
00630 00625
TIME DEPTH N02S.N03 TOT KJEL
OF N-TOTAL N
DAY FEET
11
17
10
10
12
12
10
15
15
10
12
10
10
11
45
05
20
15
05
30
35
20
10
50
50
30
35
20
MG/L
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
010N
010K
010K
010K
019
010K
010K
010K
025
012
010K
024
016
032
MG/L
0.
0.
0.
0.
1.
0.
1.
0.
0.
150
690
150
130
300
460
050
580
560
0.900
0.
0.
0.
0.
200
300
200
300
00610 00671 00665
NH3-N PHOS-DIS PHOS-TOT
TOTAL ORTHO
MG/L
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
042
030
010
010
270
030
046
005K
036
016
012
020
016
050
MG/L
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
p
006
015
008
012
028
015
024
005K
015
016
020
020
016
005
MG/L P
0.015
0.035
0.020
0.030
0.080
0.065
0.055
0.090
0.065
0.050
0.082
0.030
0.015
K VALUE KNOWN TO BE
LESS THAN INDICATED
-------�
STORE! RETRIEVAL DATE 76/04/27
4506C1
33 25 00.0 080 15 30.0 4
UNNAMED CREEK
45 ORANGEBURG CO HW
T/LAKE MARION 030892
RO 8ROG 5 MI ENE OF EUTAwfVILLE
11EPALES 2111204
0000 FEET DEPTH CLASS 00
DATE
FROM
TO
73/02/25
73/03/20
73/04/15
73/05/20
73/06/10
73/07/10
73/08/12
73/09/10
73/10/12
73/11/11
73/12/10
74/01/13
74/01/27
74/02/17
00630 00625
TIME DEPTH N02&N03 TOT KJEL
OF N-TOTAL N
DAY FEET
11
15
09
09
11
11
10
14
14
10
12
11
10
00
55
40
30
?5
45
00
50
40
15
15
30
30
MG/L
0
0
0
0
0
0
0
0
0
0
9
•
•
•
*
9
O
o
O
•
132
046
010K
010K
019
010K
010K
019
010K
020
0,016
0
0
0
•
•
•
020
012
032
MG/L
0.730
1.380
0.690
Oc840
1.300
1.050
2.100
1.400
2.200
0.950
0.700
0.600
0.600
0.700
00610 00671 00665
NH3-N PHOS-OIS PHOS-TOT
TOTAL ORTHO
MG/L
0.
0.
Oo
Oo
0.
Oo
0.
0.
0.
0.
037
016
on
007
082
027
035
023
024
012
0,024
C.
0.
0.
016
008
020
MG/L P
0.005K
0.005K
0.010
0.007
0.028
0.023
0.085
0.021
0.016
0.020
0.020
0.012
0.008
0.010
MG/L P
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0050
0075
o070
»075
0090
ol!5
.090
°160
.185
.095
.130
.070
.070
.085
K, VALUE KNOWN TO BE
THAN INDICATED
-------�
STORE! RETRIEVAL DATE 76/04/27
450601
33 31 00.0 080 30 30.0 4
BROWNING BRANCH
45 ORANGEBURG CO HW
T/LAKE MAKION 030892
ST H*Y lOb BROG 4 MI E OF ELLOREE
11EPALES 2111204
0000 FEET DEPTH CLASS 00
DATE
FROM
TO
73/02/27
73/03/20
73/04/18
73/05/21
73/06/17
73/07/22
73/08/19
73/09/20
73/10/19
73/11/18
73/12/13
74/01/04
7^/01/18
74/02/01
00630 00625
TIME DEPTH N02t>N03 TOT KJEL
OF N-TOTAL N
DAY FEET
14
09
14
10
09
10
08
15
12
10
17
09
09
13
25
00
00
20
00
10
45
50
45
00
00
15
30
45
MG/L
0
0
0
0
a
0
0
0
0
0
0
0
0
1
.820
.490
.520
.010K
.620
.025
.260
.016
.011
.048
.088
.160
.360
.090
MG/L
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
340
600
405
420
9?0
370
500
440
250
500
200
400
400
600
00610 00671 00665
NH3-N PHOS-OIS PHOS-TOT
TOTAL ORTHO
MG/L
0.
0.
0.
0.
0.
0.
c.
0.
0.
0.
0.
0.
0.
0.
046
014
016
023
042
038
042
073
037
020
014
040
028
090
MG/L P
0.016
0.034
0.046
0.054
0.060
0.041
0.052
0.046
0.019
0.016
0.060
0.096
0.068
0.100
MG/L P
0
0
0
0
0
0
0
0
0
0
0
0
0
0
.035
.065
.075
.090
.155
.090
.100
.120
.050
.025
.085
.145
.115
.150
K VALUt KNOWN TO HE
LESS THAN IMOICrt KO
-------�
STORE! RETRIEVAL DATE 76/OW27
4506E1
33 36 00.0 080 34 30.0 4
HALFWAY SWAMP CREEK
45 15 ELLOREE
T/LAKE MARION
ST HWY 47 BRDG 3 MI
11EPALES
0000 FEET DEPTH
030892
S OF LONE STAR
2111204
CLASS 00
DATE
FROM
TO
73/02/27
73/03/20
73/04/18
73/05/21
73/06/17
73/07/22
73/08/19
73/09/20
73/10/19
73/11/18
73/12/13
74/01/04
74/01/18
74/02/01
00630 00625
TIME DEPTH N02&N03 TOT KJEL
OF N-TOTAL N
DAY FEET
14
09
14
10
09
10
09
18
13
10
17
09
09
14
45
20
10
35
20
25
05
00
00
15
15
25
45
00
MG/L
0
0
0
0
0
0'
0
0
0
0
0
0
0
0
.730
.500
.580
.300
.750
.210
.170
.220
.260
.184
.360
.320
.352
.504
MG/L
0.270
0.400
0.320
0.300
0.880
0.320
0.330
0.270
0.200
0.200
0.300
0.200
0.900
0.300
00610 00671 00665
NH3-N PHOS-DIS PHOS-TOT
TOTAL ORTHO
MG/L
0.
0.
0.
0.
0.
0.
0.
0.
0.
042
005K
026
020
031
032
030
039
031
0.016
0.
0.
0.
0.
016
024
040
025
MG/L
0
0
0
0
0
.
.
.
.
.
p
017
038
052
058
072
0.050
0
0
0
0
0
0
0
0
.
.
.
.
.
.
.
.
054
034
034
020
036
048
040
055
MG/L P
0.035
0.070
0.090
0.085
0.123
0.110
0.110
0.150
0.065
0.040
0.055
0.070
0.080
0.095
K VALUE KNOWN TO BE
LESS THAN INDICATED
-------�
STORE! RETRIEVAL DATE 76/04/27
4506F1
33 40 00.0 060 36 30.0 4
WARLEY CREEK
45 15 ELLOREE
T/LAKE MARION 030892
ST HWY 47 8ROG 3 MI N OF LOME STAR
11EPALES 2111204
0000 FEET DEPTH CLASS 00
DATE
FROM
TO
73/02/27
73/03/20
73/04/18
73/05/21
73/06/17
73/07/22
73/08/19
73/09/20
7J/10/19
73/11/18
73/12/13
74/01/04
74/01/18
74/02/01
00630 00625
TIME DEPTH N02&N03 TOT KJEL
OF N-TOTAL N
DAY FEET
15
09
14
10
09
10
09
18
13
10
17
09
10
14
00
30
20
45
30
35
20
15
10
30
20
40
00
20
MG/L
0
0
0
0
0
0
0
0
1
1
1
1
1
1
.990
.840
.860
.790
.336
.810
.540
.660
.320
.260
.180
.120
.100
.100
MG/L
0.
0.
0.
0.
1.
0.
0.
1.
0.
0.
0.
0.
0.
420
440
300
370
200
320
440
600
250
400
500
300
300
0.300
00610 00671 00665
NH3-N PHOS-DIS PHOS-TOT
TOTAL ORTHO
MG/L
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
056
016
042
035
054
048
034
960
105
064
120
108
084
085
MG/L
0.
0.
0.
0.
0.
0.
0.
c.
0.
0.
0.
0.
P
016
Oil
027
021
050
018
021
024
018
016
024
024
0.020
0.
030
MG/L P
0.040
0.040
0.055
0.045
0.145
0.060
0.070
0.095
0.065
0.036
0.045
0.060
0.075
0.070
-------�
STORE! RETRIEVAL DATE 76/04/27
4506G1
33 45 30.0 080 38 30.0 4
CONGAREE RIVER
45 CALHOUN CO HWY M
I/LAKE MARION 030891
US HWY 601 8ROG 3 MI E OF FORT MOTTE
11EPALES 2111204
0000 FEET DEPTH CLASS 00
DATE
FROM
TO
73/02/27
73/03/20
73/04/18
73/05/21
73/06/17
73/07/22
73/08/19
73/09/20
73/10/19
73/11/18
73/12/13
74/01/04
74/01/18
74/02/01
00630 00625
TIME DEPTH N02&N03 TOT KJEL
OF N-TOTAL N
DAY FEET
15
09
14
11
09
10
09
18
13
10
17
10
10
14
15
45
30
00
50
50
35
20
15
45
35
00
10
35
MG/L
0
.390
0.240
0
0
0
0
0
0
0
0
0
0
0
0
.252
.390
.380
.350
.410
.130
.480
.312
.320
.250
.288
.264
MG/L
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
230
720
270
290
270
?70
600
400
250
200
400
300
400
00610 00671 00665
NH3-N PHOS-DIS PHOS-TOT
TOTAL ORTHO
MG/L
0
0
0
0
0
0
0
0
0
0
0
0
c
0
.069
.035
.028
.040
.078
.032
.050
.060
.130
.028
.044
.028
.040
.020
MG/L P
0*029
0.048
0.026
0.035
0.032
0.032
0.035
0.050
0.044
0.036
0.036
0.048
0.024
0.035
MG/L P
0
0
0
0
0
0
0
0
0
0
0
0
0
0
.070
.140
.070
.090
.070
.080
.090
.145
.160
.100
.080
.240
.085
.085
-------�
STORE! RETRIEVAL DATE 76/04/27
4506H1
33 57 00.0 080 37 30.0 4
WATEREE RIVER
45 SUMTER CO HrtY MA
I/LAKE MARION 030891
US HWYS 76&37B BROG 15 MI W OF SUMTEK
11EPALES 2111204
0000 FEET DEPTH CLASS 00
DATE
FROM
TO
73/02/09
73/03/11
73/04/14
73/05/12
73/06/15
73/07/17
73/08/17
73/09/17
73/10/17
73/11/20
74/01/09
74/02/06
OC630 00625
TIME DEPTH N02&N03 TOT KJEL
OF N-TOTAL N
DAY FEET
13
14
10
12
11
14
15
15
14
15
11
12
35
30
00
40
00
30
00
45
25
00
35
10
MG/L
0
0
0
0
0
0
0
0
0
0
0
0
.220
.280
.260
.250
.300
.330
.300
.220
.310
.352
.384
.440
MG/L
0.
0.
0.
0.
0.
1.
1.
1.
2.
0.
0.
540
540
450
800
710
680
400
050
300
400
600
0.400
00610 00671 00665
NH3-N PHOS-OIS PHOS-TOT
TOTAL ORTHO
MG/L
0.
080
0.078
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
063
107
088
100
092
220
260
060
116
090
MG/L
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
p
058
056
046
052
052
031
029
052
046
064
076
065
MG/L P
0.110
0.120
0.105
0.110
0.105
0.100
0.075
0.102
0.090
0.110
0.135
0.125
-------�
STORET RETRIEVAL DATE 76/04/27
4506J1
33 39 00.0 080 30 00.0 4
SPRING GROVE
45 CLARENDON CO HWY
T/LAKE MARION 030892
ST HWY 7fa BRDG 9 MI W OF SOMMERTON
11EPALES 2111204
0000 FEET DEPTH CLASS 00
DATE
FROM
TO
73/02/24
73/03/24
73/04/14
73/05/21
73/06/21
73/07/20
73/08/12
73/09/17
73/10/22
73/11/26
73/12/20
74/01/17
74/01/31
74/02/15
00630 00625
TIME DEPTH N02&N03 TOT KJEL
OF N-TOTAL N
DAY FEET
09
10
09
16
16
15
13
14
14
10
14
10
10
12
40
00
45
35
10
45
00
15
30
15
30
55
00
50
MG/L
0
0
0
0
0
0
0
0
0
0
0
0
0
0
•
•
•
•
*
•
•
•
•
*
*
•
•
•
510
340
378
357
378
400
360
105
075
016
160
224
240
560
MG/L
0.
2.
0.
0.
1.
0.
0.
1.
1.
0.
0.
0.
0.
0.
400
600
480
560
200
540
600
380
450
400
700
500
600
400
00610 00671 00665
NH3-N PHOS-DIS PHOS-TOT
TOTAL ORTHO
MG/L
0.
0.
0.
0.
0.
c.
0.
0.
0.
0.
0.
0.
034
138
048
034
039
032
030
088
063
024
032
060
0.056
0.
035
MG/L P
0.013
0.013
0.018
0.033
0.039
0.035
0.033
0.044
0.046
0.016
0.020
0.024
0.056
0.015
MG/L P
0.030
0.045
0.040
0.060
0.075
0.065
0.065
0.090
0.330
0.170
0.035
0.040
0.110
0.020
-------�
STORE! RETRIEVAL DATE 76/04/37
4506K1
33 35 00.0 080 24 30.0 4
JACKS CREEK
45 CLARENDON CO H«lY
T/LAKE MARION 030892
RD 8RDG CONNETING HwY 257&7G
11EPALES 2111204
0000 FEET DEPTH CLASS 00
DATE
FROM
TO
73/02/24
73/03/24
73/04/l<»
73/05/21
73/06/21
73/07/20
73/08/12
73/09/17
73/10/22
73/11/26
73/12/20
74/01/17
7^/01/31
74/02/15
00630 00625
TIME DEPTH N02&N03 TOT KJEL
OF N-TOTAL N
DAY FEET
10
10
10
17
16
16
13
14
15
10
15
11
10
13
05
25
05
15
30
25
15
45
00
40
00
15
20
20
MG/L
0
0
0
0
0
0
0
0
0
0
0
0
0
0
.550
.336
.390
.500
.400
.410
.336
.290
.300
.260
.640
.370
.232
.352
MG/L
0.
0.
0.
0.
0.
0.
0.
0.
412
530
560
720
615
330
420
450
0.500
0.
0.
0.
0.
300
400
500
400
00610 00671 00665
NH3-N PHOS-DIS PHOS-TOT
TOTAL ORTHO
MG/L
0.
0.
025
Oil
0.033
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
032
040
027
035
094
037
020
028
020
032
015
MG/L
0.
0.
0.
0.
0.
0.
p
007
010
017
024
034
038
0.028
0.
0.
0.
0.
a.
0.
0.
021
023
016
020
024
032
015
MG/L P
0.015
0.035
0.040
0.040
0.070
0.065
0.055
0.050
0.050
0.030
0.045
0.075
0.030
-------�
STORE! RETRIEVAL DATE 76/04/37
4506L1
33 33 00.0 060 21 30.0 4
TAWCAW CREEK
45 15 SUMMERTON
T/LAKE MAKION 030892
END OF RD OFF H*Y 127 4 MI S SUMMERTON
11EPALES 2111204
0000 FEET DEPTH CLASS 00
DATE
FROM
TO
73/02/24
73/03/24
73/04/14
73/05/21
73/06/21
73/07/20
73/08/12
73/09/20
73/10/22
73/11/26
73/12/20
74/01/17
74/01/31
74/02/15
00630 00625
TIME DEPTH N02&N03 TOT KJEL
OF N-TOTAL N
DAY FEET
11
10
10
18
16
16
13
15
15
11
14
11
10
13
00
40
20
30
50
50
27
15
30
00
15
30
45
45
MG/L
1
0
1
0
0
0
.360
.960
.120
.640
.830
.700
0.790
0
0
0
0
0
0
0
.580
.410
.032
.690
.890
.900
.650
MG/L
1
0
0
1
0
0
2
1
1
1
0
0
.100
.500
.690
.700
.740
.500
.400
.150
.300
.000
.900
.500
0.500
0
.600
00610 00671 00665
NH3-N PHOS-DIS PHOS-TOT
TOTAL ORTHO
MG/L
0.
0.
0.
0.
0.
0.
C.
0.
Oo
0.
0.
0.
I'.
0.
050
038
042
087
058
105
176
037
034
032
200
060
028
020
MG/L P
0.044
0.058
0.078
0.294
0.105
0.210
0.240
0.365
0.500
0.830
0.176
0*120
0.056
0.040
MG/L P
0
0
0
0
0
0
0
0
0
0
0
0
0
0
.070
.095
.120
.370
.175
.250
.290
.430
.640
.960
.210
.160
.085
.080
-------�
STORET RETRIEVAL DATE 76/04/27
4506AA PD4506XA P001250
33 32 30.0 080 33 58.0 4
ELLOREE
45 15 ELLOREE
T/LAKE MARION 030892
BIG POPLAR CREEK
11EPALES 2141204
0000 FEET DEPTH CLASS 00
DATE
FROM
TO
73/06/22
73/07/22
73/08/22
73/09/22
73/10/24
73/11/23
73/12/24
7^/01/22
74/02/22
74/03/22
74/0«»/22
74/05/22
74/06/22
00630
TIME DEPTH N02&N03
OF N-TOTAL
DAY FEET
09
09
09
09
09
09
09
09
09
09
09
10
09
CO
00
00
00
00
00
00
00
00
00
00
00
00
MG/L
0.050
0.020
0.042
0.018
0.126
0.230
0.580
0.200
2.160
0.560
1.000
0.120
0.120
00625
TOT KJEL
N
MG/L
15.400
7.000
10.500
16.800
10.500
15.500
12.000
27.000
9.400
7.200
3.300
16.000
3.000
00610
NH3-N
TOTAL
MG/L
0.550
0.140
1.300
1.100
0.200
0.370
0.860
1.700
1.600
1.050
0.530
0.440
0.078
00671
PHOS-DIS
ORTHO
MG/L P
3.650
3.000
4.600
8.000
9.300
9.200
9.900
10.000
3.500
3.500
3.500
5.200
3.800
00665 50051 50053
PHOS-TOT FLOW CONDUIT
RATE FLO*-M(jD
MG/L P INST MGD MONTHLY
4.300
4.100
4.700
9.100
10.000
11.000
9.900
12.500
4.500
4.700
4.450
7.200
4.700
-------� |