U.S. ENVIRONMENTAL PROTECTION AGENCY
NATIONAL EUTROPHICATION SURVEY
WORKING PAPER SERIES
REPORT
ON
SALUDALAKE
ILLE AND PICKENS COUNTIES
SOUTH CAROLINA
EPA REGION IV
WORKING PAPER No, 438
CORVALLIS ENVIRONMENTAL RESEARCH LABORATORY - CORVALLIS, OREGON
and
ENVIRONMENTAL MONITORING & SUPPORT LABORATORY - LAS VEGAS, NEVADA
•&G.P.O. 699-440
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REPORT
ON
SALUDALAKE
AND PICKENS COUNTIES
SOUTH CAROLINA
EPA REGION IV
WORKING PAPER No, 438
WITH THE COOPERATION OF THE
SOUTH CAROLINA DEPARTMENT OF HEALTH AND
ENVIRONMENTAL CONTROL
AND THE
SOUTH CAROLINA NATIONAL GUARD
MAY, 1376
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CONTENTS
Page
Foreword i i
List of South Carolina Study Lakes iv
Lake and Drainage Area Map v
Sections
I. Conclusions 1
II. Lake and Drainage Basin Characteristics 3
III. Lake Water Quality Summary 4
IV. Nutrient Loadings 8
V. Literature Reviewed 12
VI. Appendices 13
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11
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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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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SALUDA LAKE
® Tributary Sampling Site
X Lake Sampling Site
~^ Drainage Area Boundary
i Mi.
Scale
82T40'
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SALUDA LAKE
STORET NO. 4515
I. CONCLUSIONS
A. Trophic Condition:
Survey data indicate that Saluda Lake is mesotrophic. How-
ever, since the mean hydraulic retention time of this water body
is a very short six days, it more closely resembles a slow-moving
stream, and the term "moderately-enriched" may be a better de-
scription of this lake.
Saluda Lake ranked fourth in overall trophic quality when
the 13 South Carolina lakes sampled in 1973 were compared using
a combination of six parameters*. Seven of the lakes had less
median total phosphorus, three had less and two had the same
median dissolved phosphorus, three had less median inorganic
nitrogen, 11 had greater mean Secchi disc transparency, but none
of the other lakes had less mean chlorophyll a^ (1.5 ug/1). However,
the low chlorophyll a^ concentrations and lack of transparency
(the mean Secchi disc depth was less than 0.6 meters) indicate
primary productivity was light-limited rather than nutrient limi-
ted. Survey limnologists commented on the highly turbid water at
each of the sampling stations and times.
Survey limnologists observed floating and emergent macrophytes
in the shallows near both sampling stations.
* See Appendix A.
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2
B. Rate-Limiting Nutrient:
The algal assay results indicate that Saluda Lake was phos-
phorus limited at the time the assay sample was collected (06/23/
73). The lake data indicate phosphorus limitation at the other
sampling times as well. However, primary productivity in the lake
probably is light-limited rather than nutrient-limited.
C. Nutrient Controllability:
1. Point sources—No known point sources contributed phos-
phorus to Saluda Lake during the sampling year.
The present phosphorus loading of 15.23 g/m2/yr is five times
that proposed by Vollenweider (Vollenweider and Dillon, 1974) as
a eutrophic loading (page 11). However, the mean hydraulic
retention time of Saluda Lake is a very short six days, and it
is unlikely that Vollenweider's model is applicable.
2. Non-point sources—The phosphorus contributions of non-
point sources accounted for the entire load impacting Saluda
Lake during the year. The Saluda River contributed 99.6%, and
the ungaged tributaries accounted for an estimated 0.3%.
The phosphorus export rate of the Saluda River (46 kg/km2/yr)
was rather high compared to the rates of the tributaries of down-
stream Lake Greenwood* (mean of 21 kg/km2/yr; range of 9 to 36
kg/km2/yr). The higher export rate may have been due to unmeasured
sources impacting one or more of the three branches of the Saluda
River above the lake; e.g., septic tanks in Slater (see map, page v),
* Working Paper No. 431.
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II. LAKE AND DRAINAGE BASIN CHARACTERISTICS1"
A. Lake Morphometry :
1. Surface area: 2.25 kilometers2.
2. Mean depth: 4.0 meters.
3. Maximum depth: 12.2 meters.
4. Volume: 9.000 x 106 m3.
5. Mean hydraulic retention time: 6 days.
B. Tributary and Outlet:
(See Appendix C for flow data)
1. Tributaries -
Drainage Mean flow
Name area (km2)* (m3/sec)*
Saluda River 738.1 17.56
Minor tributaries &
immediate drainage - 13.4 0.12
Totals 751.5 17.68
2. Outlet -
Saluda River 753.7** 17.68
C. Precipitation***:
1. Year of sampling: 141.0 centimeters.
2. Mean annual: 124.5 centimeters.
t Table of metric conversions—Appendix B.
tt 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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4
III. LAKE WATER QUALITY SUMMARY
Saluda Lake 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 two 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, a single
18.9-liter depth-integrated sample was composited for algal assays.
Also each time, a depth-integrated sample was collected from each
of the stations for chlorophyll a_ analysis. The maximum depths sampled
were 9.1 meters at station 1 and 4.3 meters at station 2.
The sampling results are presented in full in Appendix D and
are summarized in the following table.
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PARAMETER
TEMP ic)
DISS OXY (MG/LI
CNDCTVY (MCROMO)
PH (STAND UNITS)
TOT ALK (MG/L)
TOT P (MG/D
ORTMO P (MG/L)
N02»N03 (MG/L)
AMMONIA (MG/L)
KJEL N (MG/L)
INOftG N (MG/L)
TOTAL N (MG/L)
CHLRPYL A (UG/L)
SECCHI (METEWS)
A. SUMMARY OF PHYSICAL AND
1ST SAMPLING ( 6/23/73)
2 SITES
RANGE MEAN MEDIAN
21.7 - 23.2 22.2 22.1
7.0 - 8.7 7.7 7.6
50. - 50. 50. 50.
7.1 - 7.6 7.2 7.2
13. - 14. 13. 13.
0.046 - 0.074 0.059 0.060
0.003 - 0.011 0.005 0.005
0.160 - 0.200 0.183 0.180
0.070 - 0.120 0.097 0.100
0.200 - 0.200 0.200 0.200
0.260 - 0.320 0.280 0.280
0.360 - 0.400 0.383 0.380
1.7 - 2.4 2.0 2.0
0.4 - 0.5 0.5 0.5
CHEMICAL CHARACTERISTICS FOR SALUDA LAKE
STORET CODE 4515
2ND SAMPLING ( 9/18/73)
2 SITES
RANGE
20.7
4.2
25.
6.2
11.
0.031
0.006
0.090
0.060
0.300
0.150
0.450
1.2
0.5
- 21.6
7.4
30.
6.8
15.
- 0.193
- 0.008
- 0.180
- 0.170
- 0.700
- 0.310
- 0.790
1.5
0.9
MEAN
21.2
6.1
27.
6.3
13.
0.059
0.007
0.140
0.090
0.467
0.230
0.607
1.3
0.7
MEDIAN
21.3
6.2
26.
6.2
13.
0.033
0.007
0.140
0.080
0.450
0.230
0.590
1.3
0.7
3RD SAMPLING (11/14/73)
2 SITES
kANGt MEAN MEDIAN
8.0 - 10.3 8.9 8.7
9.0 - 10.tt 10.2 10.4
25. - 29. 27. 27.
6.4 - 6.8 6.6 6.5
13. - 16. 15. 15. '
0.039 - 0.065 0.048 0.042
0.006 - 0.009 0.007 0.007
0.090 - 0.130 0.105 0.100 "
0.060 - 0.120 0.077 0.070
0.200 - 0.300 0.233 0.200
0.160 - 0.210 0.182 0.175
0.300 - O.tOO 0.338 0.320
0.7 - 1.6 1.1 1.1
0.6 - 0.6 0.6 .0.6
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B. Biological Characteristics:
1. Phytoplankton -
Sampling
Date
06/23/73
09/18/73
11/14/73
2. Chlorophyll a_ -
Sampling
Date
06/23/73
09/18/73
11/14/73
Dominant
Genera
1.
2.
3.
4.
5.
1.
2.
3.
4.
5.
1.
2.
3.
4.
5.
Flagellates
Pennate diatoms
Navicula s£.
Achnanthes SJD.
Oscillatoria SJK
Other genera
Total
Flagellates
Asterionella sj».
Attheya S£.
Cyclotella sj>.
Merismopedia S£.
Other genera
Total
Melosira SJD.
Nitzschia sj3.
Flagellates
Anabaena SJD.
Synedra sp.
Other genera
Algal Units
per ml
265
35
35
18
18
52
423
62
49
37
12
12
11
Total
Station
Number
1
2
1
2
1
2
183
29
24
24
16
12
64
169
Chlorophyll a_
2.4
1.7
1.2
1.5
0.7
1.6
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0.008
0.018
0.028
0.058
0.033
0.058
0.008
0.182
0.182
0.182
0.182
0.682
1.182
1.182
0.2
3.1
6.0
7.1
7.3
17.1
0.1
7
Limiting Nutrient Study:
1. Autoclaved, filtered, and nutrient spiked -
Ortho P Inorganic N Maximum yield
Spike (mg/1) Cone, (mg/1) Cone, (mg/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
2. Discussion -
The control yield of the assay alga, Selenastrum capri-
cornutum, indicates that the potential primary productivity
of Saluda Lake was moderate at the time the sample was col-
lected. Also, increasing yields with increasing concentra-
tions of orthophosphorus indicate that the lake was limited
by phosphorus at that time. Note that the addition of only
nitrogen resulted in a yield not significantly different
from that of the control.
The lake data also indicate phosphorus limitation. At
both stations and all sampling times, the mean inorganic
nitrogen/orthophosphorus ratios were 23/1 or greater, and
phosphorus limitation would be expected. However, primary
productivity in the lake probably is light-limited rather
than nutrient-limited.
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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.
In this report, nutrient loads for sampled tributaries were
determined by using a modification of a U.S. Geological Survey computer
program for calculating stream loadings*. Nutrient loads for unsampled
"minor tributaries and immediate drainage" ("II" of U.S.G.S.) were estimated
using the means of the nutrient loads, in kg/km 2/year, at stations B-l
and C-l of Lake William C. Bowen** and multiplying the means by the II
area in km2.
No known point sources impacted Saluda Lake during the sampling year.
A. Waste Sources:
1. Known municipal - None
2. Known industrial - None
* See Working Paper No. 175.
** Working Paper No. 429.
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9
B. Annual Total Phosphorus Loading - Average Year:
1. Inputs -
kg P/ % of
Source ^r total
a. Tributaries (non-point load) -
Saluda River 34,150 99.6
b. Minor tributaries & immediate
drainage (non-point load) - 85 0.3
c. Known municipal STP's - None
d. Septic tanks - Unknown ?
e. Known industrial - None
f. Direct precipitation* - 40 0.1
Total 34,275 100.0
2. Outputs -
Lake outlet - Saluda River 20,440
3. Net annual P accumulation - 13,835 kg.
* See Working Paper No. 175.
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10
C. Annual Total Nitrogen Loading - Average Year:
1. Inputs -
kg N/ % of
Source yr total
a. Tributaries (non-point load) -
Saluda River 428,815 98.8
b. Minor tributaries & immediate
drainage (non-point load) - 2,675 0.6
c. Known municipal STP's - None
d. Septic tanks - Unknown ?
e. Known industrial - None
f. Direct precipitation* - 2.430 0.6
Total 433,920 100.0
2. Outputs -
Lake outlet - Saluda River 243,020
3. Net annual N accumulation - 190,900 kg.
D. Mean Annual Non-point Nutrient Export by Subdrainage Area:
Tributary kg P/km2/yr kg N/km2/yr
Saluda River 46 581
See Working Paper No. 175.
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11
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/m2/yr 15.23 6.15 192.9 84.8
Vollenweider phosphorus loadings
(g/m2/yr) based on mean depth and mean
hydraulic retention time of Saluda Lake:
"Dangerous" (eutrophic loading) 3.00
"Permissible" (oligotrophic loading) 1.50
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12
V. LITERATURE REVIEWED
Mast, G. Nelson, 1974. Personal communication (lake morphometry)
SC Dept. of Health & Env. Contr., Columbia.
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.
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VI. APPENDICES
APPENDIX A
LAKE RANKINGS
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LAKE DATA TO BE 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 *YLIE
4512 LAKE MOULTRIE
4513 LAKE KEOWEE
4514 LAKE SECESSION
4515 SALUDA 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.ooe
0.057
0.046
0.022
MEDIAN
If
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PERCENT OF LAKES WITH HIGHER VALUES (NUMBER OF LAKES WITH HIGHER VALUES)
LAKE
CODE LAKE NAME
4503 FISHING CHEEK RESERVOIR
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 SALJDA LAKE
4516 LAKE WILLIAM C. BOWEN
MEDIAN
TOTAL P
0 (
17 (
92 (
33 (
67 (
83 (
8 <
50 <
58 (
100 (
?5 (
42 <
75 (
0)
2)
11)
4)
8)
10)
1)
6)
7)
12)
3)
5)
9)
MEDIAN
INORG N
0 <
8 (
100 <
50 (
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
100 (
21 (
21 (
50 (
21 <
75 (
67 <
58 (
83 (
21 (
21 (
92 (
21 (
12)
0)
0)
6)
0)
9)
8)
7)
10)
0)
0)
11)
0)
MEOIAN
OISS OKTHO f>
0 (
25 (
92 (
33 (
46 (
83 (
8 (
17 (
71 (
100 <
58 (
71 (
46 I
0)
3)
11)
4)
5)
10)
1)
2)
8)
12)
7)
8)
5)
INUEX
NO
192
146
455
208
329
3^5
150
267
378
496
188
388
308
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LAKES RANKED BY INDEX NOS.
RANK LAKE CODE LAKE NAME INDEX NO
1 4513 LAKE KEOwEE 496
2 4505 LAKE HARTHELL 455
3 4508 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 WYLIE 267
9 4506 LAKE MARION 208
10 4503 FISHING CREEK RESERVOIR 192
11 4514 LAKE SECESSION 188
12 4510 LAKE WATEREt 150
13 4504 LAKE GREENWOOD 146
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APPENDIX B
CONVERSION FACTORS
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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
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APPENDIX C
TRIBUTARY FLOW DATA
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TRIBUTARY FLO* INFORMATION FOR SOUTH CAROLINA
04/27/76
LAKE CODE 4515
SALUOA LAKE
SUB-DRAINAGE
TRIBUTARY AQEA(SQ KH)
4515A1
4515A2
4515ZZ
753.7
738.1
14.2
i OF LAKE (SO KM) 753,
JAN
19.96
20.25
0.142
FES
23.79
24.07
0.170
MAR
26.48
26.48
0.170
.7
25
26
0.
APR
.91
.05
142
MAY
19.54
19.26
0.113
NORMALIZED FLOWS (CMS)
JUN JUL AUG
16.28
15.86
0.113
14.58
14.30
0.085
12.18
11.89
0.085
SEP
11.47
11.19
0.057
OCT NOV DEC
12.88 13.03 16.57
12.60 12.74 16.57
0.085 0.113 0.142
MEAN
17.68
17.56
0.118
SUMMARY
TOTAL
SUM OF
DRAINAGE AREA OF LAKE =
SUB-DRAINAGE AREAS =
753.7
752.4
TOTAL FLOW
TOTAL FLOW
IN =
OUT =
212.66
212.66
MEAN MONTHLY FLOWS AND DAILY FLOWS(CMS)
TRIBUTARY MONTH YEAR
4515A1
4515A2
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
?
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
MEAN FLOW DAY
FLOW DAY
31.715
39.077
43.325
42.475
30.016
20.615
14.696
9.996
10.619
10.477
25.768
36.812
35.113
31.432
38.794
43.042
42.192
29.733
20.247
14.158
9.628
10.194
10.194
25.485
37.378
34.830
11
11
16
5
12
13
12
16
14
19
19
14
4
11
11
16
5
12
13
12
16
14
19
19
14
4
23.078
29.450
33.414
28.034
29.166
15.999
14.866
10.194
8.353
11.327
12.035
25.910
43.042
25.485
36.812
33.697
28.317
31.149
16.990
14.725
9.628
10.194
10.760
12.176
25.485
42.758
FLOW DAY
FLOW
28
44.174
28
43.891
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TRIBUTARY FLOW INFORMATION FOR SOUTH CAROLINA
04/27/76
LAKE CODE 4515
SALUDA LAKE
MEAN MONTHLY FLOWS AND DAILY FLOWS(CMS)
TRIBUTARY MONTH YEAR MEAN FLOW DAY
4515ZZ
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
0.198
0.198
0.227
0.198
0.170
0.113
0.113
0.085
0.085
0.085
0.142
0.170
0.142
11
11
16
5
12
13
12
16
14
19
19
14
4
FLOW DAY
0.170
0.196
0.170
0.142
0.198
0.113
0.085
0.057
0.057
0.085
0.113
0.142 28
0.142
FLOW DAY
FLOW
0.283
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APPENDIX D
PHYSICAL and CHEMICAL DATA
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STORE! RETRIEVAL DATE 76/04/27
451501
34 51 10.0 082 29 03.0 3
SALUDA LAKE
45045 SOUTH CAROLINA
030891
DATE
FROM
TO
73/06/33
73/09/18
73/11/14
DATE
FROM
TO
73/06/23
73/09/18
73/11/14
TIME DEPTH
OF
DAY FEET
10 OS 0000
10 05 0005
10 05 0015
10 05 0030
15 45 0000
15 45 0010
15 45 0020
15 45 0030
08 38 0000
08 38 0005
08 38 0015
08 38 0029
TIME DEPTH
OF
DAY FEET
10 05 0000
10 05 0005
10 05 0015
10 05 0030
15 45 0000
15 45 0010
15 45 0020
15 45 0030
OS 38 0000
08 38 0005
06 38 0015
08 38 0029
00010
WATER
TEMP
CENT
23.2
22.5
22.3
22.0
21.6
21.4
21. 2
20.7
10.2
9.6
8.7
8.2
00665
PHOS-TOT
MG/L P
0.046
0.046
0.055
0.060
0.032
C.032
0.035
0.031
0.039
0.041
0.039
0.065
00300 00077 00094
DO TRANSP CNDUCTVY
SECCHI FIELD
MG/L INCHES MICROMHO
21
8.7
7.2
7.0
7.0 35
6.2
5.6
4.2
24
9.0
10.4
10.0
32217
CHLRPHYL
A
JG/L
2.4
1.2
0.7
50K
50K
50K
50K
25
26
25
30
27
26
26
25
11EPALES 2111202
0033 FEET DEPTH CLASS 00
00400 00410 00610 00625 00630 00671
PH T ALK NH3-N TOT KJEL N02&N03 PHOS-OIS
CAC03 TOTAL N N-TOTAL ORTHO
SU
7.60
7.30
7.20
7.20
6.30
6.20
6.20
6.20
6.80
6.60
6.40
6.50
MG/L
13
14
14
13
14
12
13
15
15
13
16
16
MG/L
0.110
0.080
0.070
0.120
0.060
0.080
0.090
0.170
0.120
0.060
0.060
Oooeo
MG/L
0
0
0
0
0
0
0
0
0
0
0
0
.200
.200K
.200K
.200K
.700
.300
.400
.500
.300
.200K
.200K
.200
MG/L
0.160
0.180
0.190
0.200
0.090
0.150
0.140
0.140
0.090
0.100
0.110
0.100
MG/L P
0.004
0.003
0.003
0.005
0.006
0.006
0.007
0.007
0.007
0.007
0.008
0.009
K VALUE KNOWN TO BE
LtSS THIN INUlCuTEU
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STORET RETRIEVAL DATE 76/04/37
451502
34 52 50.0 082 29 29.0
SALUDA LAKE
45045 SOUTH CAROLINA
030891
DATE
FROM
TO
73/06/23
73/09/18
73/11/14
DATE
FROM
TO
73/06/23
73/09/18
73/11/14
TIME DEPTH
OF
DAY FEET
10 45 0000
10 45 0005
10 45 0014
16 20 0000
16 20 0013
09 00 0000
09 00 0001
09 00 0007
TIME DEPTH
OF
DAY FEET
10 45 0000
10 45 0005
10 45 0014
16 20 0000
16 20 0013
09 00 0000
09 00 0007
00010
WATER
TEMP
CENT
22.1
21.9
21.7
21.6
20.9
8.7
8.7
8.0
00665
PHOS-TOT
MG/L P
Oo064
0.070
0.074
0.034
0.193
0.043
0.059
00300 00077 00094
DO TRANSP CNDUCTVY
SECCHI FIELD
MG/L INCHES MICROMHO
7.6
7.8
7.4
10.6
10.8
32217
CHLRPHYL
A
UG/L
1.7
1.5
1.6
16 50K
50K
50K
19 26
27
24 29
29
27
11EPALES 2111202
0016 FEET DEPTH CLASS 00
00400 00410 00610 00625 00630 00671
PH T ALK NH3-N TOT KJEL N02&N03 PHOS-OIS
CAC03 TOTAL N N-TOTAL ORTHO
SU
7.20
7.10
7.10
6.80
6.30
6.60
6.50
MG/L
13
13
14
12
11
15
15
MG/L
0.110
0.100
0.090
0.060
0.080
0.060
0.080
MG/L
0
0
0
0
0
0
0
.200
.200K
.200K
.600
.300
.300
.200
MG/L
0.170
0.180
0.200
0.140
0.180
0.100
0.130
MG/L P
0.006
0.005
0.011
0.007
0.008
0.006
0.006
K V#LUE KNOWN TO BE
LESS THAN INDICATED
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APPENDIX E
TRIBUTARY DATA
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STORE.T RETRIEVAL DATE 76/04/27
4515A1
34 51 00.0 032 29 00.0 4
SALUOA RIVER
45 GREENVILLE CO HW
0/SALUDA LAKE 030891
RD BRDG 2 MI ri OF WESTVILLE
11EPALES 2111204
0000 FEET DEPTH CLASS 00
DATE
FROM
TO
73/02/11
73/03/11
73/04/16
73/05/05
73/06/12
73/07/13
73/08/12
73/09/16
73/10/14
73/11/19
74/01/14
74/01/28
74/02/04
00630 00625
TIME DEPTH N02&N03 TOT KJEL
OF N-TOTAL N
DAY FEET
13
11
15
10
14
09
12
10
09
12
15
16
16
40
00
30
30
15
40
30
30
10
?2
05
10
20
MG/L
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
168
132
132
100
110
120
115
130
087
100
132
136
184
MG/L
0.
0.
0.
0.
0.
0.
09
0.
0.
0.
100K
170
735
100K
460
100K
230
350
200
650
0.600
0.
0.
300
100K
00610 00671 00665
NH3-N PHOS-DIS PHOS-TOT
TOTAL ORTHO
MG/L
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
c.
0.
0.
031
026
073
015
031
027
046
044
076
060
060
024
030
MG/L
0.
P
009
0.009
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
005K
010
009
006
Oil
008
008
012
008
008
010
MG/L P
0.035
0.040
0.025
0.025
0.035
0.030
0.040
0.045
0.055
0.050
0.025
0.055
0.025
K VALUE KNOWN TO fl£
LESS THAN INDICATED
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STORET RETRIEVAL DATE 76/04/27
4515A2
3t 54 00.0 082 30 00.0 4
SALUDA RIVER
45 GREENVILLE CO HW
I/SALUDA LAKE 031392
ST HWY 183 BROG 2 Ml W JCT WITH HWY 250
11EPALES 2111204
0000 FEET DEPTH CLASS 00
DATE
FROM
TO
73/02/11
73/03/11
73/04/16
73/05/05
73/06/12
73/07/13
73/08/12
73/09/16
73/10/14
73/11/19
74/01/14
74/01/28
74/02/04
00630 00625
TIME DEPTH N02&N03 TOT KJEL
OF N-TOTAL N
DAY FEET
14
11
16
11
14
09
13
11
09
14
15
16
15
10
35
00
00
40
55
00
00
45
05
30
45
30
MG/L
0
0
0
0
0
0
0
0
0
0
0
0
0
o!60
.147
.126
.105
.138
.150
.147
oll5
.105
.076
.136
9132
.184
MG/L
0
0
1
0
2
0
0
0
0
0
0
0
0
.130
.250
,,260
,170
.940
.210
.120
.190
o850
.650
.200
.700
.800
00610 00671 00665
NH3-N PHOS-DIS PHOS-TOT
TOTAL ORTHO
MG/L
0.028
0.018
0.058
0.038
0.132
Oo030
0.018
Oo033
Oo060
0.048
0.032
0.068
0.060
MG/L P
0.
0.
0.
0.
0.
005
006
005K
010
Oil
0.009
0.
0.
0.
0.
0.
0.
009
010
Oil
010
006
008
0*010
MG/L P
0
0
0
0
0
0
0
.035
.050
.040
.040
o055
«045
.045
0.045
9
0
o
o
0
.045
.020
.085
.140
.170
K VALUE KNOWN TO BE
LESS THAN INDICATED
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