U.S. ENVIRONMENTAL PROTECTION AGENCY
NATIONAL EUTROPHICATION SURVEY
WORKING PAPER SERIES
REPORT
ON
BOONE AND SOUTH HOLSTON RESERVOIRS
I, SULLIVAN, M) CARTER COUNTIES
TENNESSE
1-iASHIiiGTON COUiJTY, VIRGINIA
EPA REGION IV
WORKING PAPER No,
CORVALLIS ENVIRONMENTAL RESEARCH LABORATORY - CORVALLIS, OREGON
and
ENVIRONMENTAL MONITORING & SUPPORT LABORATORY - LAS VEGAS, NEVADA
•&G.P.O. 699-440
-------�
REPORT
ON
BOONE W SOUTH HOLSTON RESERVOIRS
WASHINGTON, SULLIVAN, AM CARTER COUffflES
TENNESSE
1'IASHIiOT COW, VIRGINIA
EPA REGION IV
WORKING PAPER NO,
WITH THE COOPERATION OF THE
TENNESSEE DEPARTMENT OF PUBLIC HEALTH
AND THE
TENNESSEE NATIONAL GUARD
SEPTEMBER 1976
-------�
I
CONTENTS
Page
Foreword ii
List of Study Lakes - Tennessee iv
Lake and Drainage Area Map v - vi
Sections
I. Conclusions
II. Lake and Drainage Basin Characteristics 6
III. Lake Water Quality Sunuiiary 8
IV. Nutrient Loadings 16
V. Literature Reviewed 23
VI. Appendices 24
-------�
Ii
FOREWORD
The National Eutrophication Survey was initiated In 1972 in
response to an Administration conunitment 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, concen-
trations, and impact on selected freshwater lakes as a basis for
formulating comprehensive and coordinated national, regional, and
state management practices relating to point source discharge
reduction and nonpoint source pollution abatement in lake water-
sheds.
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 0 f lake and
watershed 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
plannin9 [ 3O3(e)], water quality criteria/standards review
[ 3O3(c)], clean lakes [ 3l4(a,b)], and water quality monitoring
[ lO6 and §305(b)] activIties mandated by the Federal Water
Pollution Control Act Amendments of 1972.
-------�
111
Beyond the single lake analysis, broader based correlations
between nutrient concentrations (and loading) and trophic condition
are being made to advance the rationale and data base for refine-
ment 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 the U.S. Environmental
Protection Agency and to augment plans implementation by the
states.
ACKNOWLED(MENTS
The staff of the National Eutrophication Survey (Office
of Research and Development, U.S. Environmental Protection
Agency) expresses sincere appreciation to the Tennessee Department
of Public Health for professional involvement, to the Tennessee
National Guard for conducting the tributary sampling phase
of the Survey, and to those Tennessee wastewater treatment
plant operators who provided effluent samples and flow data.
The staff of the Division of Water Quality Control, Tennessee
Department of Public Health; the Division of Environmental
Planning, Tennessee Valley Authority; and the Nashville District
Corps of Engineers 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 William C. Smith, former Adjutant General
of Tennessee, and Project Officer Colonel Wilburn C. Johnson,
who directed the volunteer efforts of the Tennessee National
Guardsnen, are also gratefully acknowledged for their assistance
to the Survey.
-------�
lv
NATIONAL EUTROPHICATION SURVEY
STUDY LAKES
STATE OF TENNESSEE
LAKE NAME COUNTY
Barkley Stewart, Montgomery
(Trigg, Lyon in KY)
Boone Washington, Sullivan,
Carter
Cheatham Cheatham, Davidson
Cherokee Jefferson, Hamblen,
Grainger, Hawkins
Chickamauga Hamilton, Rhea, Meigs,
McMinn
Douglas Sevier, Jefferson, Cocke
Fort Loudon Loudon, Knox, Blount
Great Falls White, Van Buren
Nickajack Marion, Hamilton
Old Hickory Sumner, Davidson, Wilson,
Smith, Trousdale
Percy Priest Davidson, Rutherford
Reelfoot Obion
South Hoiston Sullivan (Washington in
VA)
urns Ford Moore, Franklin
Watts Bar Rhea, Meigs, Cumberland,
Roane, Loudon
Woods (Elk River) Franklin, Coffee
-------�
SOUTH HOISTON RESERVOIR
TributarY Sampling Site
x Lake Sampling Site
Sewage Treatment Facility
. Drainage Area Boundary
0
I oM1.
Map Location
-------�
-------�
REPORT ON SOUTH HOLSTON AND BOONE RESERVOIRS, TENNESSEE
STORET NOS. 4725 and 4704
I. CONCLUSIONS
A. Trophic Condition:
Based upon field observations and Survey data, South
Hoiston Reservoir is considered meso-eutrophic, and Boone
Reservoir is considered eutrophic. South Hoiston Reser-
voir is characterized by a low potential for primary pro-
ductivity as measured by algal assay control yield and
generally good Secchi disc visibility. Chlorophyll a
values ranged from 3.2 pg/i in the fall to 15.2 pg/i in
the spring. All of the other Tennessee lakes sampled in
1973 had higher median total phosphorus concentrations
than South Holston Reservoir, and only two had higher median
inorganic nitrogen.
Boone Reservoir is characterized by a high potential
for primary productivity, and poor Secchi disc visibility.
Chlorophyll a values ranged from a low of 5.8 pg/i to a
high of 35.2 pg/i. Six of the Tennessee lakes sampled had
higher median total phosphorus concentrations than Boone
Reservoir, but none had higher median inorganic nitrogen
levels.
-------�
2
Limnologists observed no visible algal blooms or problem
aquatic macrophytes on either reservoir during the sampling
year. However, in the past, algal blooms responsible for
several fish kills have been reported on Boone Reservoir
(E. Roberts, 1976).
B. Rate-Limiting Nutrient:
Algal assay results indicate that South Holston and Boone
Reservoirs were limited by available phosphorus levels. Spikes
with either phosphorus or phosphorus and nitrogen simultaneous-
ly resulted in increased assay yields. Addition of nitrogen
alone did not stimulate a growth response. The observed ratios
of total available inorganic nitrogen to orthophosphorus (NIP)
further substantiate these results.
-------�
3
C. Nutrient Controllability:
1. Point sources -
The mean annual phosphorus load from point sources was
estimated to be 40.8% of the total load reaching South Hol-
ston Reservoir. The city of Marion was estimated to contri-
bute 18.7% and the city of Abingdon, 10.3%; the town of
Chilhowie contributed 5.6% of the total phosphorus load. The
remaining phosphorus point source load was attributable to
five smaller sewage treatment plants.
The mean annual phosphorus load from point sources was
49.8% of the total load reaching Boone Reservoir. Johnson
City (two plants) was estimated to contribute 26.0% of the
total load, the city of Bristol contributed 21.0%, and the
towns of Elizabethton and Bluff City contributed 2.2% and
0.6%, respectively, of the total load.
The calculated South Holston phosphorus loading rate of
1.76 g P/m 2 /yr, and the Boone loading of 10.73 g P/m 2 /yr are
substantially higher than those proposed by Vollenweider
(1975) as ‘ 1 eutrophic 1 ’ for lakes with such volumes and hy-
draulic retention times. These loadings include other large
discharges to Boone Reservoir of nutrient rich industrial
wastes which substantially influence the lake, and numerous
package plants (particularly schools) discharging to the
-------�
4
tributaries of both reservoirs (Tennessee Dept. of Public
Health, manuscript). No information is available on the
annual nutrient contributions of these sources; however,
it is expected that reduction or elimination of point source
loadings would result in water quality improvement in both
lakes.
2. Nonpoint sources -
The mean annual phosphorus load not attributable to near-
by or sampled point sources was about 59.2% and 50.2%, respec-
tively, of the total reaching South Hoiston and Boone Reser-
voirs. In South Holstori Reservoir, the Middle Fork Holston
River accounted for 29.7% of the total, the South Fork Holston
River accounted for 15.8%, and ungaged drainage areas were
estimated to account for 3.1%. In Boone Reservoir, the Wa-
tauga River accounted for 27.9% of the loading, Beaver Creek
accounted for 15.1%, and ungaged drainage areas were estimated
to contribute 0.2%.
The high loading rates of the Watauga River and Beaver
Creek (Boone Reservoir) include unmeasured nutrient discharges,
particularly industrial, from the towns of Elizabethton and
Bristol. Among these industrial waste sources are Beaunit
Corporation and Bemberg Industrial, Inc. in Elizabethton. The
Tennessee Valley Authority (L. Clark, 1976) indicates that the
-------�
5
estimated ammonia-nitrogen load during 1973 from Beaunit
Corporation was 7,250 x i0 3 kg/yr. However, the two sources
cited were not included in the National Eutrophication Sur-
vey (NES) sampling of Boone Reservoir so do not appear in
the point source section of the nutrient budget, on pages 19..20.
-------�
6
II. LAKE AND DRAINAGE BASIN CHARACTERISTICS
Lake and drainage basin characteristics are itemized below.
Lake morphometry data and hydraulic retention times were pro-
vided by the Tennessee Valley Authority. Tributary flow data
were provided by the Tennessee i.)istrict Office of the U.S.
Geological Survey (USGS) (outlet drainage areas include the lake
surface area). Drainage areas for the Watauga River, Beaver
Creek, and Possum Creek, tributaries D—l, E-l, and L-1 (Boone
Reservoir) were provided by the Tennessee Valley Authority.
Tributary drainage areas plus reservoir surface area in either
reservoir do not equal the outlet drainage area probably because
of differences in the pool elevation used by the different sources
in their calculations. The sum of the tributary flows do not
equal the outlet flows in either lake probably because of either
sampling error, unmeasured groundwater influence, or unknown in-
puts reaching the lake. Precipitation values are estimated by
methods as outlined in NES Working Paper No. 175. A table of
metric/English conversions is included as Appendix A.
A. Lake Morphonietry:
South Hoiston Boone
Reservoir Reservoir
1. Surface area: 30.68 17.80 km 2 .
2. Mean depth: 26.4 13.3 meters.
3. Maximum depth: 74.4 39.6 meters.
4. Volume: 942.394 238.682 x 100 m 3 .
5. Mean hydraulic
retention time: 338 41 days.
-------�
B. Tributary and Outlet (see Appendix B for flow data):
Name
A(2) South Fork Hoiston
River
B(1) Spring Creek
C(1) Wolf Creek
D(l) Fifteenmile Creek
E(1) Middle Fork Hoiston
River
F(1) Baumgartner Branch
6(1) Grable Branch
Drainag Me n flow
area(km ) ( m _ ?/sec )
826.2 13.80
Name
A(2) South Fork Hoiston
River
B(l) Boones Creek
C(l) Carroll Creek
0(1) Watauga River
E(1) Beaver Creek
F(1) Muddy Creek
6(1) Wagner Creek
(Bowman Creek)
11(1) Ganiiion Creek
J(l) Indian Creek
K(l) Dry Creek
L(l) Possum Creek
Minor tributaries and
immediate drainage -
1. Year of sampling:
2. Mean annual:
121 .3 centimeters.
104.7 centimeters.
Minor tributaries and
immediate drainage -
River
Year of sampling:
Mean annual:
121.3 centimeters.
104.7 centimeters.
1. Tributaries -
South Hoiston Reservoir
Boone Reservoir
Drai nag
area(km )
Mean flow
( m 3 /sec )
44.5
69.2
42.2
632.0
8.1
3.2
0.57
1 .04
0.63
10.55
0.10
0.04
1,981.3 27.86
35.5
7.6
2,250.0
282.3
40.4
11.9
2.6
47.7
20.4
21.7
0.40
0.08
32.50
3.12
0.45
0.13
0.03
0.75
0.32
0.34
Totals
2. Outlet -
A(1) South Fork Hoiston
River
C. Precipitation:
165.8 1.86
1,791.2 28.59
1,820.8 25.32
Totals
Outlet -
A(1) South Fork Hoiston
43.2 0.55
4,744.6 66.53
4,765.6 65.85
-------�
8
III. LAKE WATER QUALITY SUMMARY
South Holston and Boone Reservoirs were 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 four
stations on the lakes and from a number of depths at each
station (see maps pages v and vi). During each visit, depth-
integrated samples were collected from each station for
chlorophyll a analysis and phytoplankton identification and
enumeration. During the first visit, 18.9-liter depth-integrated
samples were composited for algal assays. Flaximum depths sampled
were 60.3 meters at Station 1, 48.8 meters at Station 2, 42.7
meters at Station 3, and 30.5 meters at Station 4 on South Hoiston
Reservoir and 32.0 meters at Station 1, 30.5 meters at Station 2,
33.5 meters at Station 3, and 18.3 meters at Station 4 on Boone
Reservoir. For a more detailed explanation of NES methods, see
NES Working Paper No. 175.
The results obtained are presented in full in Appendix C and
are summarized in Ill-A for waters at the surface and at the maxi-
mum depth at each site. Results of the phytoplankton counts and
chlorophyll a determinations are included in 111-B. Results of
the limiting nutrient study are presented in Ill-C.
-------�
SOUTH HOL TON LAKE
STORET CODE 4725
PARAMETER
I 5/23/13
MAX
4 DEPTH
RANGE
N° RANGE MEDIAN (METERS)
PHYSICAL AND CHEMICAL CHAMACTEMISIICS
8/20/73
MAX
= 4 DEPTH
MANGE
N RANGt. MEOIAN (METERS)
I 10/27/73
MAX
= 4 DEPTH
MANGE
NU RAN(,E MEDIAN (METERS)
o N = NO. OF SAMPLES
4AXIMUM DEPTH SAMPLED At EACH SITE
‘° S = NO. OF SITES SAMPLED ON I ,i15 DATE
TEMPERATURE (DEG CENT)
0.-I.S H DEPTH 8
‘18* DEPTH° 4
18.1— 60.0
6.7— 9.5
36.8
7.0
0.0- 1.2
30.5— 60.3
8
4
26.8—144.0
6.8— 13.1
43.5 0.0— 1.5
8.8 28.3— 57.9
4
4
84.0-180.0
5.8— 17.6
126.0 0.0— 0.0
10.1 23.5— 48.8
DISSOLVED OXYGEN (MG/I)
O.—I.5 U DEPTH 4
MAX DEPTH° 4
9.6— 11.4
4.8— 7.6
11.0
6.1
1.2— 1.2
30.5— 60.3
4
4
7.0— 9.0
0.2— 5.4
8.8 1.5— 1.5
1.6 28.3— 57.9
0
4
°°°—°°°°°
0.0— 5.4
00000 ••0•_00000
2.5 23.5— 48.8
CONDUCTIVITY (UMr1OS)
0. 1.5 H DEPTH 8
MAX DEPTH’S 4
160.— 180.
180.— 200.
170.
190.
0.0— 1.2
30.5— 60.3
8
4
154.— 162.
114.— 141.
161. 0.0— 1.5
127. 28.3— 57.9
4
4
166.— 172.
119.— 179.
168. 0.0— 0.0
154. 23.5— 48.8
PH (STANDAML) UNITS)
0.-I.S H DEPTH 8
MAX DEPTH°’ 4
8.7— 9.0
7.3— 7.8
8.8
7.5
0.0— 1.2
30.5- 60.3
8
4
7.9— 8.8
6.3— 8.0
8.2 0.0— 1.5
7.0 28.3- 57.9
4
4
7.7— 8.2
7.1— 7.
7.9 0.0— 0.0
7.2 23.5— 48.8
TOTAL ALKALINITY (MG/LI
0.-I.5 U DEPTH 8
MAX DEPTH°’ 4
73.— 84.
83.— 86.
79.
85.
0.0— 1.2
30.5— 60.3
8
4
66.— iS.
81.— 91.
72. 0.0— 1.5
85. 28.3— 57.9
4
4
82.— 85.
80.- 105.
83. 0.0— 0.0
87. 23.5— 48.8
TOTAL P (MG/I)
0.—l.5 H L)EPTH 8
MAX DEPTH° 4
0.022—0.029
0.013—0.059
0.027
0.017
0.0— 1.2
30.5- 60.3
8
4
0.010—0.021
0.011—0.035
0.015 0.0— 1.5
0.031 28.3— 57.9
‘.
4
0.008—0.019
0.008—0.100
0.010 0.0— 0.0
0.044 23.5— 48.8
‘°
DISSOLVED ORTHO P (MG/L)
0.—l.5 H DEPTH 8
MAX DEPTH°° 4
0.004—0.024
0.005-0.0)1
0.008
0.009
0.0— 1.2
30.5— 80.3
8
4
0.003—0.011
0.006—0.009
0.005 0.0— 1.5
0.007 28.3- 57.9
4
4
0.008—0.014
0.009—0.021
0.012 0.0— 0.0
0.016 23.5— 48.8
NO2 .N03 (MG/L)
0.—I.5 H DEPTH 8
MAX DEPTH°• 4
0.380—0.440
0.790-0.860
0.4)5
0.795
0.0— 1.2
30.5- 60.3
8
4
0.040—0.080
0.330—0.810
0.060 0.0— 1.5
0.640 28.3- 57.9
4
4
0.140—0.350
0.040—0.780
0.210 0.0— 0.0
0.165 23.5— 48.8
AMMONIA (MG/L)
0.—I.5 U DEPTH 8
P48* DEPIH°’ 4
0.0’.0—0.070
0.030-0.050
0.060
0.040
0.0— 1.2
30.5- 60.3
8
4
0.030—0.060
0.030—0.260
0.0’.0 0.0— 1.5
0.085 28.3— 57.9
4
4
0.040—0.070
0.040—1.740
0.055 0.0— 0.0
0.3)0 23.5— 48.8
KJELDAHL N (MG/LI
0.—l.5 M DEPTH 8
MAX DEPTH° 4
0.300—0.600
0.200-0.400
0.400
0.250
0.0— 1.2
30.5— 60.3
8
4
0.300—0.800
0.200—0.600
0.400 0.0— 1.5
0.450 28.3— 57.9
4
4
0.200—0.600
0.200—2.400
0.300 0.0— 0.0
0.450 23.5— 48.8
SECC-’I DISC (METE.(S)
0
00000aO.oo
•0000
0
0.t00 0*OO
•O0•.
0
..000oo.**
**oo.
-------�
• N = NO. OF SAMPLES
• MAXIMUM DEPTH SAMPLED AT EACH SITE
•° S = NO. 01 SITES SAMPLED ON THIS DATE
I 4/ :3/73
MAX
S°° • ‘. DEPTH
RANGE
7 112/73
MAX
5 * .. 4 DEPTH
RANGE
10/27/73 I
MAX
= 4 DEPTH
RANGE
800NE RESERVOIR
STOPET CODE 470’.
PHYSICAL
AND CHEMICAL
CHARACTERISTICS
PARAMETER N
RANGE
MEDIAN (METERS)
N
RANGE
MEDIAN
(METERS)
N°
RANGE
MEDIAN
(METERS)
TEMPERATURE (DEG CENT)
0.—I.5 U DEPTH 4
MAX DEPTH° 4
36.0— 40.0
10.2— 10.8
36.5 0.0— 0.0
10.6 11.7— 33.5
I)
4
27.3— 73.0
13.6— 23.7
28.6
17.3
0.0— 1.S
4.3— 30.5
5
4
18.1— 96.0
15.3— 17.7
60.0
15.5
0.0— 1.5
7.0— 29.3
DISSOLVED OXYGEN (MG/LI
O.—I.5 U DEPTH 0
MAX DEPTH ° 4
°°°‘•—°•°
6.3- 9.8
••••° • • —••••°
7.9 17.7— 33.5
9
4
8.4— 12.1
0.4— 8.7
12.0
2.3
0.0— 1.5
4.3— 30.5
I
3
8.8— 8.8
0.6— 8.0
8.8
3.6
1.5— 1.5
7.0— 29.3
CONDUCTIVITY (UMMOS)
0.—1.5 H DEPTH 3
MAX DEPTH’S 4
195.- 280.
198.- 230.
200. 0.0— 0.0
220. 17.7— 33.5
13
4
174.— 252.
125.— 185.
182.
158.
0.0— 1.5
4.3— 30.5
5
4
184.— 218.
176.— 228.
196.
190.
0.0— 1.5
7.0— 29.3
PH (STANDA .H3 UNITS)
0.—I.5 H DEPTH 3
MAX DEPTH° ’ 4
8.0— 8.4
7.8— 8.1
8.0 0.0— 0.0
7.9 17.7— 33.5
5
2
7.8— 9.3
7.0— 7.8
9.1
7.4
0.0— 1.5
18.3— 30.5
5
4
7.5— 8.8
7.2— 8.2
8.0
7.3
0.0— 1.5
7.0— 29.3
TOTAL AL (cALINITY (MG/LI
0.—I.5 H DEPTH 3
MAX DEPTH ° 4
56.- 121.
60.- 92.
63. 0.0— 0.0
79. 17.7— 33.5
5
2
73.— 104.
78.— 88.
79.
83.
0.0— 1.5
18.3— 30.5
4
3
69.— 99.
69.— 108.
91.
87.
0.0— 1.5
7.0— 29.3
TOTAL P (HG/L)
0.—I.S H DEPTH 3
MAX DEPTH ° 4
0.055-0.1 12
0.049—0.102
0.061 0.0— 0.0
0.067 17.7— 33.5
5
2
0.022—0.174
0.055—0.057
0.025
0.056
0.0— 1.5
18.3— 30.5
5
4
0.022—0.168
0.039—0.143
0.039
0.079
0.0— 1.5
7.0— 29.3
DISSOLVED ORTHO P (NG/L)
0.—I.5 H DEPTH 3
MAX DEPTH 4
0.033—0.260
0.022—0.039
0.068 0.0— 0.0
0.030 17.7— 33.5
5
2
0.005—0.060
0.007—0.008
0.008
0.007
0.0— 1.5
18.3— 30.5
4
3
0.013—0.076
0.02S0.102
0.039
0.033
0.0— 1.5
?.0 29.3
NO2.N03 (MG/LI
0.—I.S H DEPTH 3
MAX )EPTH ° 4
0.970—1.000
0.800-1.200
0.990 0.0— 0.0
1.200 17.7— 33.5
S
2
0.090—0.290
0.450—0.680
0.150
0.565
0.0— 1.5
18.3— 30.5
4
3
0.150—0.840
0.270—0.990
0.250
0.640
0.0— 1.5
7.0- 29.J
AMMONIA (HG/LI
G.—I.5 H DEPTH 3
MAX DEPTH° 4
0.070—0.400
0.090—0.430
0.380 0.0— 0.0
0.300 17.7— 33.S
5
2
0.070—0.120
0.090—1.000
0.100
0.545
0.0— 1.5
19.3— 30.5
4
3
0.050—0.090
0.110—0.420
0.055
0.210
0.0— 1.5
7.0— 29.3
KJELOAHL N (HG/L)
0.—I.5 M DEPTH 3
MAX DEPTH° 4
0.500—0.700
0.300—0.600
0.600 0.0— 0.0
0.400 17.7— 33.S
5
2
0.600—0.900
0.300—1.200
0.800
0.750
0.0— 1.5
18.3— 30.5
5
4
0.400—0.800
0.300—0.800
0.500
0.4S0
0.0— 1.5
7.0— 29.3
SECCHI DISC (METERS)
0
***Q• O o
•Oe O
0
*Q *OOO**O
••*
Q
•D*••..000•Q
O* Q*
-------�
B. Biological Characteristics:
1. Phytoplankton —
Boone Reservoir
Sampling
Date
05/23/73
Dominant
Genera
1. Flagellates
2. Stephanodiscus
3. Fragilaria
4. Melosira
5. Dactyl ococcopsis
Algal
Units
per ml
6,167
2,011
1 ,479
410
36
72
Sampling
Date
04/03/73
Dominant
Genera
1. Flagellates
2. Stephanodiscus
3. Melosira
4. Dactylococcopsis
5. Scenedesmus
Algal
Units
per ml
4,268
2,044
661
451
60
60
Other genera
Total
1. Flagellates
2. Melosira
3. Raphidiopsis
4. Tetraedron
5. Cryptomonas
795
12,031
772
386
318
318
295
Other genera
Total
7,544
2,795
26,925
Other genera
522
South Holston Reservoir
Other genera
08/20/73
10/27/73
Other genera
Total
10,175
Total
1.
2.
3.
4.
Raphidiopsis
Synedra
Flagellates
Tetraedron
8,474
1,362
794
303
10/27/73
1.
2.
3.
4.
5.
Dactylococcopsis
Flagellates
Scenedesmus
Tetraedron
11,379
6,197
3,048
2,083
1 ,423
Total 2,611
-------�
2. Chlorophyll a -
South Hoiston Reservoir Boone Reservoir
Sampling Station Chlorophyll a Sampling Station Chlorophyll a
Date Number ( ugh) Date Number ( uq/l )
05/23/73 1 11.6 04/03/73 1 6.7
2 15.2 2 35.2
3 12.9 3 6.9
4 7.6 4 5.8
08/20/73 1 6.6 07/12/73 1 7.1
2 6.9 2 18.7
3 6.4 3 12.7
4 11.1 4 5.9
10/27/73 1 3.2 10/27/73 1 6.1
2 3.2 2 7.1
3 3.6 3 7.3
4 3.7 4 16.2
-------�
13
C. Limiting Nutrient Study:
1. Autociaved, filtered, and nutrient spiked -
Spike (mg/i )
Ortho P
Conc. (mg/i )
Inorganic N
Conc. (mg/i )
Maximum Yield
( mg/i-dry wt. )
South Hoiston
Reservoir
Control
0.05 P
0.05 P + 1.0 N
1.00 N
0.008
0.058
0.058
0.008
0.676
0.676
1.676
1.676
0.1
13.7
14.5
0.1
Boone Reservoir
Control
0.05 P
0.05 P + 1.0 N
1.00 N
0.020
0.070
0.070
0.020
1.335
1.335
2.335
2.335
8.1
23.1
26.9
6.3
-------�
14
2. Discussion -
The control yield of the assay alga, Selenastrum
capricornutum , in the South Hoiston Reservoir sample
indicates that the potential for primary productivity
was low at the time of sampling. The lake was phosphorus-
limited at that time as indicated by the increased growth
of the test alga in response to an addition of ortho-
phosphorus. Spikes with nitrogen and phosphorus simul-
taneously resulted in maximum yield while the addition
of nitrogen alone did not stimulate growth beyond the
control yield.
The mean total inorganic nitrogen to orthophos-
phorus ratios of 71/1, 93/1, and 34/1 observed in the
lake on the first, second, and third sampling dates,
respectively, substantiate the existence of phosphorus
limitation. A minimum N/P ratio of 14/1 is considered
necessary for phosphorus limitation to occur.
The control yield of the assay alga in the Boone
Reservoir sample indicates that the potential for
primary productivity was high at the time of sampling.
Increased growth of the test alga in response to an
addition of orthophosphorus indicates that the lake
was phosphorus-limited when sampled. Spikes with
-------�
15
nitrogen and phosphorus simultaneously resulted in
maximum yield. The addition of nitrogen alone did
not stimulate growth beyond the control yield.
The mean total inorganic nitrogen to ortho-
phosphorus ratios of 28/1 and 38/1 observed for the
lake on the first and second sampling dates further
substantiate phosphorus limitation at these times.
However, in the July sampling round, the N/P ratio
at site 04 was only 12/1, suggesting nitrogen
limitation at that point. In October the mean N/P
ratio for the lake was 17/1, although sites 03 and
04 had ratios characteristic of nitrogen-limited
situations (in the case of site 03, however, the
photic zone had a higher N/P ratio).
-------�
16
IV. NUTRIENT LOADINGS
(See Appendix D for data)
For the determination of nutrient loadings, the Tennessee
i4ational Guard collected monthly near-surface grab samples from
each of the tributary sites indicated on the maps (pages v and
vi), except for the high runoff month of February when two samples
were collected. Sampling was begun in April 1973, and was completed
in March 1974.
Through an interagency agreement, stream flow estimates for
the year of sampling and a “normalized” or average year were pro-
vided by the Tennessee District Office of the USGS for the tribu-
tary sites nearest each lake.
In this report, nutrient loads for sampled tributaries except
Possum Creek, L(l) (Boone Reservoir), were determined by using a
modification of a USGS computer program for calcu1 ting stream
loadings. Nutrient loads indicated for tributaries are those mea-
sured minus known point source loads, if any. Nutrient loads for
Station L(l) were calculated using the mean annual flow and nutri-
ent concentrations in Possum Creek at that site.
Nutrient loadings for unsampled “minor tributaries and imme-
diate drainage” (“ZZ” of USGS) were estimated by using the mean
of the nutrient loads, in kg/km 2 /yr at Stations F(l) and G(l) for
South Holston, and C(l), H(l), and K(l) for Boone Reservoir, and
multiplying the means by the appropriate ZZ drainage area in km 2 .
-------�
The operators of the Chilhowie and Elizabethton wastewater
treatment plants provided monthly effluent samples and correspond-
ing flow data. Nutrient loads for the Jacob’s Creek Job Corps,
Abingdon, Marion, Bluff City, Brush Creek, Knob Creek (2 plants),
and Bristol wastewater treatment plants were estimated at 1.134
kg P and 3.401 kg N/capita/yr. Nutrient loads for the Damascus
plant were estimated at 1.587 kg P and 4.263 kg N/capita/yr.
Nutrient loadings for the Patrick Henry Hiç h School, Hoiston High
School, and Emory and Henry College were estimated at 0.567 kg P
and 1.701 kg N/capita/yr (covers 180 days).
-------�
18
A. Waste Sources:
1. Known municipal -
South Hoiston Reservoir:
Hoiston High School
Jacob’s Creek Job
Corps
Patrick Henry High
School
Chil howie
Abi ngdon
Emory and Henry
College
Marion (Virginia)
El izabethtont
Bluff City
Knob Creek
(Johnson City)
Brush Creek
(Johnson City)
Bristol #ltt
Bristol I2
112
250
150
1 ,900
4,900
1 ,000
8,900
1 ,500
14,064
1 ,.l 02
15,600
28,080
35,450
4.
1.
4.
4.
4.
8.194
0.246**
3.887**
24.7 27**
26.7 22**
South Fork
Hoiston River
South Holston
Reservoir
Wolf Creek
Middle Fork
Holston River
Wolf Creek
Hall Creek
Middle Fork
Holston River
Beaverdam
Creek
Watauga River
South Fork
I-!olston River
Knob Creek!
tiatauga River
Brush Creek!
Watauga River
Beaver Creek
Beaver Creek
*Estimated at 0.3785 m 3 /capita/day.
**Tennessee Department of Public Health (manuscript).
i-Approximately 15% of the flow contributed by industry: textile mill,
manufacturing of soup, toothpaste, air filter equipment, and clothing.
i-i-Plant in standby status; used only during peak flow periods of high
rainfall.
Name
Pop.
Served
Receiving
1!ater
!ie n Flow
Treatment ( m /d x io )
1. 0.042*
4. 0.095*
1. 0.057*
2. 1.560
2. 1.855*
? 0.378*
3. 3.369*
none 0.568*
Damascus (Virginia)
Boone Reservoir:
2. Known industrial - See discussion, paqes 3-5.
Key: 1.
2.
3.
4.
Sand filter
Irnhoff tank
Stabilization pond
Activated sludge
-------�
19
B Annual Total Phosphorus Loading - Average Year
1 Inputs -
Source ________
a Tributaries (nonpoint load) —
A(2) South Fork Hoiston River
8(1) Spring Creek
C(1) Wolf Creek
0(1) Fifteeneile Creek
E(1) Middle Fork Hoiston River
F(1) Baumgartner Branch
6(1) Grable Branch
b linor tributaries and ingnediate
drainage (nonpoint load) -
c Known nunicipal STP’s -
Jacob’s Creek Job Corps
Patrick Henry High School
Town of Chilhowie
Abingdon
Holston High School
Emory and Henry College
Marion
Damascus
d Septic tanks* -
e Known industrial - Hone
f Direct precipitation** —
Totals
2 Output — A(l) South Fork
Holston River
3 Het annual P accumulation -
*Estimute based on 25 lakeside residences and 1
for Boone Reservoir
**Estimated (see NES Working Paper Ho 175)
a Tributaries (nonpoint load) -
8,525 15 8 A(2) South Holston River
660 1 2 8(1) Boones Creek
2,845 S 3 c(i) Carroll Creek
1,590 2 9 3(1) Watauga River
16,025 29 7 E(1) Beaver Creek
70 0 1 F(l) luddy Creek
40 0 1 6(1) Wagner Creek (Bovanan
H(l) Gamon Creek
J(l) Indian Creek
K(l) Dry Creek
L(1) Possum Creek
b Minor tributaries and isrediate
1,660 3 1 drainage (nonpoint load) -
c Known municipal STP’s -
0 5 Elizabethton
0 2 Bluff City
5 6 Knob Creek (Johnson City)
10 3 Brush Creek (Johnson City)
0 1 Bristol #1
1 0 Bristol #2
18 7
44
285
85
3,000
5,555
65
565
10,095
2,380
10 <0 1 d Septic tanks* - 120 0 1
e Known industrial - See discussion,
pages 3-5
535
53,990
100
o
Totals
190,960
100
0
8,300
Output - A(l)
South Fork
Ho lston River
99,020
45,690
Net ann
ual P
accumulation -
91,940
camp for South Holston Reservoir, 431 lakeside residences
South HolstQn Reservoir
% of
kg P/yr total
Boone Reservoir
Source
% of
kg P/yr total
9,625
SOS
110
53,310
28,760
945
Creek) 425
15
680
260
293
5
0
0
27
15
0
0
<0
0
0
0
0
3
9
5
2
4
475 02
4,145
1,250
17,690
31 ,B45
unknown
40,200
22
06
93
16 7
21 0
-------�
20
South Holston Reservoir
a Tributaries (nonpoint load) -
A(2) South Fork Ho]ston River 513,445
8(1) Spring Creek 35,620
C(l) Wolf Creek 63,640
0(1) Fifteeninile Creek 45,985
E(1) Middle Fork Holston River 546,520
F(l) Baumgartner Branch 4,280
6(1) Grable Branch 1,635
b Minor tributaries end inmiediate
drainage (nonpoint load) -
c Known municipal STP’s -
Jacob’s Creek Job Corps
Patrick Henry High School
Town of Chilhowie
Abi ngdon
Holston High School
Emory and Henry College
Marion
Damascus
d Septic tanks* —
e Known industrial - None
Boone Reservoir
% of
Source kg N/yr total
a Tributaries (nonpoint load) -
36 9 A(2) South Fork Holston River
2 6 8(1) Boones Creek
4 6 C(l) Carroll Creek
3 3 D(l) Watauge River
39 2 E(l) Beaver Creek
0 3 F(l) Muddy Creek
0 1 6(1) Wagner Creek (Bowman
H(l) Damon Creek
J(l) Indian Creek
K(l) Dry Creek
L(l) Possum Creek
b Minor tributaries and inunediate
86.215 6 1 drainage (nonpoint load) -
c Known municipal STP’s -
El izabethton
Bluff City
Knob Creek (Johnson City)
Brush Creek (Johnson City)
Bristol #1
Bristol #2
t Estimate based on 25 lakeside residences and 1 camp for
for Boone Reservoir
tt Estimated (see liES Working Paper No 175)
South Hoiston Reservoir, 431 lakeside residences
C Annual Total Nitrogen Loading - Average Year
I Inputs -
% of
Source kg N/yr total
1,258,480 3D 4
24,790 0 6
5,780 0 1
2.215.570 53 6
194,720 4 7
26,085 0 6
Creek) 9,725 0 2
1,960 Dl
35.500 1 0
5,050 0 1
8,365 0 2
25,400 0 6
850
255
5,140
16,665
190
1,700
30,270
6.395
335
01
<0 1
04
12
<0 1
Dl
22
05
<0 1
26,215
3,750
53,055
95,500
unknown
120,565
06
01
13
23
2g
f Direct precipitationtt
Totals
2 Output — A(l) South Fork
Ho lston River
3 Net annual N accumulation -
d Septic tanks t - 4,595 0 1
e Known industrial - See discussion,
pages 3-5
33,120 2 4
1,392,260 1000
894,550
497 .710
f Direct precipitation tt
Totals
Output - A(l) South Fork
Holston River
Net annual N accumulation -
19,215 ___pj
4.134,320 100 0
2,999,590
1,134,730
-------�
0. Mean Annual Nonpoint Nutrient Export by Subdrainage Area:
South Hoiston Reservoir Boone Reservoir
Tributary kg P/km 2 /yr kg N/km 2 /yr Tributary kg P/km 2 /yr jN/km 2 /yr
A(2) South Fork Hoiston River 10 621 A(2) South Fork Hoiston 5 635
B(l) Spring Creek 15 800 River
C(1) Wolf Creek 41 920 B(l) Boones Creek 14 698
0(1) Fifteenmile Creek 38 1,090 C(l) Car’roll Creek 14 761
E(1) Middle Fork Hoiston 25 865 D(l) Watauga River 24 985
River E(1) Beaver Creek 102 690
F(l) Baumgartner Branch 9 528 F(1) Muddy Creek 23 646
G(1) Grable Branch 12 511 G(1) Wagner Creek 36 817
(Bowman Creek)
H(1) Gammon Creek 6 754
J(1) Indian Creek 14 744
K(1) Dry Creek 13 248
1(1) Possum Creek 13 385
-------�
22
E. Yearly Loadings:
In the following table, the existing phosphorus annual
loading is compared to the relationship proposed by Vollenweider
(1975). Essentially, his “eutrophic” loading is that at which
the receiving water would become eutrophic or remain eutrophic;
his “oligotrophic” loading is that which would result in the
receiving water remaining oligotrophic or becoming oligotrophic
if morphometry permitted. A “mesotrophic” loading would be
considered one between “eutrophic” and “oligotrophic”.
Note that Vollenweider’s model may not apply to lakes with
short hydraulic retention times or in which light penetration is
severely restricted by high concentrations of suspended solids
in the surface waters.
Total Yearly
Phosphoru Loading
(g/m /yr)
South Hclston Boone
Reservoir Reservoir
Estimated loading for 1.76 10.73
Vollenweider’ s “eutrophic” loading 1.02 2.06
Vollenweider’s “oligotrophic” loading 0.51 1.03
-------�
23
V. LITERATURE REVIEWED
Clark, Larry R. 1976. Personal communication (review of pre-
liminary reports; nitrogen loading for Beaunit Corporation).
Tennessee Valley Authority, Chattanooga, Tennessee.
Martin, R. 0. R. and Ronald L. Hanson. 1966. Reservoirs in
the United States. U.S. Geological Survey Paper 1838.
Roberts, Ernest H. 1976. Personal communication (review of
preliminary reports; algal blooms in Boone Reservoir).
Tennessee Department of Public Health, Knoxville, Tennessee.
Tennessee Department of Public Health, manuscript. Water Quality
Management Plan for the Holston River Basin, October 1972.
Division of Water Quality Control, Nashville, Tennessee.
U.S. Environmental Protection Agency. 1975. National Eutro-
phication Survey Methods 1973-1976. Working Paper No. 175.
National Environmental Research Center, Las Vegas, Nevada,
and Pacific Northwest Environmental Research Laboratory,
Corvallis, Oregon.
Vollenweider, R. A. 1975. Input-Output Models With Special
Reference to the Phosphorus Loading Concept in Limnology.
Schweiz. Z. Hydrol. 37:53-84.
-------�
VI. APPENDICES
APPENDIX A
CONVERS ION FACTORS
-------�
CONVERSION FACTORS
Hectares x 2.471 = acres
Kilometers x 0.6214 miles
Meters x 3.281 = feet
Cubic meters x 8.107 x l0 = acre/feet
Square k lometcrs 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 = lbs/square mile
-------�
APPENDIX B
TRIBUTARY FLOW DATA
-------�
TRIBJTARY FLOW INFORMATION FOP TENNESSEE
09/13/16
LAKE CODE 4725
SOUTH HQLSTON RESERVOIR
TOTAL DRAINAGE AREA OF LAKE (SO KM)
1820.8
TOTAL DRAINAGE AREA OF LAKE =
SUM OF SUB—DRAINAGE AREAS =
TRI8UIAQY MONTH YEAR
MEAN FLOW DAY FLOW DAY
FLOW DAY FLOW
4 73 31.998
5 73 56.917
6 73 35.679
7 73 31.43?
8 13 39.9??
9 73 34.547
10 73 22.257
11 73 21.861
12 73 47.006
I 74 N1. 5S3
2 74 68.810
3 74 36.246
4 73 23.956
S 73 25.20?
6 73 14.272
7 73 9.313
8 13 8.127
9 73 4.644
10 73 7.787
11 73 14.357
73 26.816
42.475
2 74 35.96?
3 74 27.637
15 3.171
16 46.156
16 9.628
28 33.697
16 41.909
18 27.014
17 6.003
17 41.059
15 48.705
12 86.933
2 57.200
2 47.289
15 15.857
16 13.904
16 21.039
213 7.079
Ia 7.617
18 4.446
17 5.692
17 7.334
15 24.Ru6
I? 74.756
2 28.600
2 17.245
Uc3—DRA I NAGE
TRIBUTARY AREA(SO 1cM)
NOr MALIZED FLOWS(CMS)
JAN FE13 MAR APR MAY JUN JUL AUG
72541
1820.8
21.97
23.56
15.32
18.35
23.70
29.17
29.73
34.83
34.72
27.69
22.14
22.57
25.32
4725A2
826.2
19.79
25.37
26.67
20.95
15.63
9.32
8.98
8.16
4.90
5.78
7.45
13.28
13.80
472SNi
44.5
0.60
0.86
1.16
0.97
0.76
0.48
0.39
0.32
0.25
0.30
0.32
0.51
0.57
‘.725C1
.9.2
1.32
1.75
?.)6
1.65
1.24
0.76
0.71
0.61
0.39
0.4H
0.56
0.96
1.04
4725D1
42.2
0.81
1.07
1.25
1.01
0.76
0.46
0.43
0.37
0.24
0.29
0.34
0.59
0.63
472 5E 1
632.0
15.12
19.43
20.44
16.03
11.95
7.11
6.85
a.23
3.74
4.42
5.69
10.17
10.55
‘.72 5F 1
8.1
0.109
0.157
0.211
0.176
0.138
0.086
0.071
0.057
0.045
0.054
0.057
0.093
0.104
4725G1
3.2
0.043
0.062
0.083
0.0b9
0.054
0.034
0.028
0.023
0.018
0.021
0.023
0.037
0.041
4725LZ
165.8
0.37
0.50
0.58
4.64
3.48
2.14
2.01
1.73
1.12
1.35
1.57
2.11
1.86
SEP OCT NOV DEC MEAN
MEAN MONTHLY FLOWS AND OAILY FLOWS(CMS)
SUMMARY
1820.8
TOTAL
FLOW
IN
344.40
1791.2
TOTAL
FLOW
OUT
=
303.75
472561
47254?
16 65.978
16 40.776
lb 47.572
16 34.830
-------�
TRIBUTARY FLOW 1NFO MATLON lOW TENNESSEE 09/13/76
LAKE CODE 4175 SOUTH HOLSION RESERVOIR
MEAN MONTHLY FLOWS AND DAILY FLOWSCHS)
IPI8UTARY 1ONTN YEA’ MEAN FLOW DAY FLOW DAY FLOW DAY FLOW
4725 jl 4 13 1.056 15 0.932
5 73 1.203 16 0.861
6 73 0.779 16 0.651
7 73 0.668 28 0.510
8 13 1.014 16 1.017
9 73 0.430 18 0.422
10 73 0.394 17 0.334
11 73 0.527 17 0.351
12 73 1.045 15 0.597
1 74 2.217 12 4.927
2 74 1.900 2 2.373 16 3.313
3 74 1.320 2 1.192 Lb 1.246
4725C1 4 73 1.829 15
5 73 2.019 16 1.271
6 73 1.172 16 1.014
7 73 0.680 28 0.496
8 73 1.150 16 1.136
9 73 0.535 18 0.518
10 73 0.651 17 0.507
11 73 1.065 17 0.600
12 73 1.962 15 1.543
1 74 3.540 12 6.8 1
2 7’. 3.00? 2 3.058 16 4.757
3 74 2.200 2 1.640 16 2.540
47251 )1 4 73 1.116 iS 0.844
5 73 1.23? 16 0.776
6 13 0.716 16 0.617
7 73 0.413 28 0.303
8 73 0.702 16 0.694
9 73 0.328 18 0.317
10 73 0.399 17 0.309
I I 73 0.651 17 0.365
73 1.201 15 0.940
74 2.155 12 4.191
? 74 1.83? 2 1.875 16 2.888
3 74 1.34’ 2 1.002 16 1.552
472 5E1 4 73 18.321 15 12.091
5 13 19.284 16 10.647
6 73 10.930 16 8.070
7 73 7.391 28 5.409
6 73 6.230 16 5. 33
9 73 3.56B 18 3.398
10 73 5.975 17 4.361
IL 73 10.987 17 5.607
12 73 20.530 15 19.001
I 7’. 32.564 12 57.200
2 74 27.439 2 21.974 16 36.529
3 14 21.153 2 13.196 16 26.590
-------�
TRIBUTARY FLOW INFORMATION FOR TENNESSEE 09/13/76
LAr(E CODE 4725 SOUTH HOLSTON RESERVOIR
MEAN MONTHLY FLOWS AND DAILY FLOWS(CMS)
TRIBUTARY MONTM YEAR MEAN FLOW DAY FLOW DAY FLOW DAY FLOW
4725F1 4 73 0.193 15 0.170
5 73 0.220 16 0.157
6 73 0.142 16 0.263
7 73 0.118 28 0.093
8 73 0.185 16 0.1R6
9 73 0.079 18 0.077
10 73 0.072 17 0.061
11 73 0.096 17 0.064
12 73 0.190 15 0.109
1 74 0.405 12 0.900
_ 74 0.345 2 0.433 16 0.606
3 74 0.241 2 0.215 16 0.228
4725G1 4 73 0.076 15 0.067
5 73 0.086 16 0.062
6 73 0.056 16 0.103
7 73 0.037 28 0.030
8 73 0.072 16 0.073
9 73 0.031 1 0.030
10 73 0.028 11 0.024
11 73 0.033 17 0.025
12 73 0.074 15 0.043
1 74 0.159 12 0.354
2 74 0.136 2 0.170 16 0.238
3 74 0.094 2 0.085 16 0.089
4725ZZ 4 73 5.154
5 73 5.692
6 73 3.313
7 73 1.917
8 73 3.256
9 73 1.322
10 73 1.693
ii 73 2.704
12 73 5.578
1 74 9.968
2 74 8.467
3 74 6.201
-------�
TRIBUTARY FLOW INFORMATION FOR TENNESSEE
09/13/76
LAKE CODE 4704
BOONE RESERVOIR
TOTAL DRAINAGE AREA OF LAKEISO KM) 4765.6
MEAN MONTHLY FLOWS AND DAILY FLOWS(CMS)
TRIBUTARY ‘4ONT’4
YEAR MEAN FLOW DAY
4 73 95.711
5 73 135.638
6 73 96.844
7 73 79.287
8 73 93.729
9 73 58.616
10 73 56.634
11 73 59.182
I? 73 131.390
I 74 203.3)5
P 74 166.220
3 74 109.303
4 73 35.396
5 73 62.297
6 73 36.81?
7 73 33.131
8 73 41.909
9 73 37.095
10 73 23.645
11 73 23.560
I? 73 49.554
74 89.198
2 74 74.756
3 74 41.059
FLOW DAY
14 65.695
14 137.337
20 54.652
27 86.933
14 94.578
9 60.032
7 22.795
10 92.313
8 112.701
20 152.911
12 121.196
16 126.859
14 36.812
14 72.208
20 8.212
27 39.927
14 46.440
9 46.156
7 1.1 )9
10 51.537
8 71.642
20 88.632
12 7 2.774
16 46.156
FLOW DAY
S(JA-DRA IMAGE
TQI8IJTARY APEA(SU KM)
NORMALIZED FLOWS(CMS)
JAN FErI MAP APP MAY JUN JUL AUG
SEP OCT NOV DEC MEAN
47044)
470442
470481
4704C1
470401
4104E1
4704F1
4704G1
4704r1 1
4704J 1
470’s K I
4704L1
470 ’ .ZZ
4765.6
1981.3
35.5
7.6
P064.2
779.7
40.4
11.9
2.6
47.7
20.4
97.9
155.4
72.4 ’ )
25.77
0.50
0.106
36.8)
3.91
0.57
0.166
0.037
1.12
0.48
2.31
2.47
69.66
27.89
0.73
0.167
38.23
5.78
0.86
0.245
0.055
1.28
0.55
2.63
3.65
61.73
19.91
0.72
0.156
34.55
5.72
0.83
0.242
0.054
1.36
0.58
2.79
3.60
60.03
21.97
0.58
0.125
38.79
4.59
0.66
0.195
0.043
1.08
0.46
2.21
2.89
58.33
26.53
0.42
0.089
29.17
3.28
0.47
0.139
0.031
0.84
0.36
1.72
2.06
58.90 58.90
31.26 31.63
0.31 0.31
0.067 0.067
29.17 28.32
2.47 2.45
0.36 0.35
0.105 0.104
0.023 0.023
0.60 0.53
0.26 0.23
1.23 1.09
1.56 1.54
69.94
36.53
0.28
0.060
34.26
2.20
0.32
0.093
0.021
0.51
0.22
1.0’.
1.39
68.53
35.82
0.19
0.042
31.15
1.53
0.22
0.065
0.014
0.33
0.16
0.67
0.97
65.13
28.80
0.17
0.036
27.98
1.33
0.19
0.056
0.012
0.32
0.14
0.67
0.84
69.09
23.39
0.24
0.052
28.32
1.91
0.28
0.081
0.018
0.37
0.16
0.76
1.20
77.59
25.00
0.32
0.068
33.70
2.49
0.36
0.106
0.024
0.72
0.31
1.48
1.57
65.85
27.86
0.40
0.085
32.50
3.12
0.45
0.132
0.029
0.75
0.32
1.55
1.97
SUMMARY
TOTAL
SUM OF
DRAINAGE AREA OF LAKE =
SUB-DRAINAGE AREAS =
4765.6
4744.7
TOTAL FLOW
TOTAL FLOW
IN =
OUT =
830.90
790.32
470441
470442
27 119.214
28 86.650
27 55.784
28 35.679
-------�
TRIBUTARY FLOW INFO 4ATION FOR TENNESSEE 09/13/76
LA cE CODE 4704 BOONE RESERVOIR
MEAN MONTHLY FLOWS AND DAILY FLOIS(CMS
TRIbUTARY MONTH YEAR MEAN FLOW DAY FLOW DAY FLOW DAY FLOW
470481 4 73 0.799 14 0.402
5 73 1.036 14 1.104
6 73 0.527 20 0.379
7 73 0.343 27 0.609
8 73 0.399 14 0.171
9 73 0.249 9 0.083
10 73 0.175 7 0.194
11 73 0.343 10 0.260
12 73 0.609 8 0.745
1 7’. 1.962 20 0.821
2 74 1.509 12 0.784 27 1.079
3 74 1.104 16 1.178 28 0.278
47 04C1 4 73 0.172 14 0.087
5 73 0.222 14 0.237
6 73 0.113 20 0.081
7 73 0.074 27 0.131
8 73 0.086 14 0.037
9 73 0.054 9 0.018
10 73 0.037 7 0.042
ii 73 0.073 10 0.052
I? 73 0.131 8 0.160
1 7’. 0.422 20 0.176
2 74 0.323 12 0.168 27 0.231
3 74 0.237 16 0.253 28 0.059
470401 4 73 56.917 14 50.970
5 73 64.846 14 72.208
6 73 52.386 20 44.457
7 73 36.812 27 41.059
8 73 40.776 14 30.016
9 73 12.743 9 5.890
10 73 21.52) 7 7.136
11 73 22.540 10 25.768
12 73 62.863 8 90.048
1 74 82.968 20 59.465
2 74 71.662 12 63.630 27 64.846
3 74 57.766 16 38.228 28 19.624
47 0 4E 1 4 73 6.286 14 3.171
5 73 8.155 14 8.722
6 73 4.163 20 2.973
7 73 2.707 27 3.200
8 73 3.143 14 1.345
9 73 1.965 9 0.654
10 73 1.376 7 1.529
11 73 2.693 10 1.894
12 73 4.814 8 5.862
I 74 15.461 20 6.4R 5
2 74 11.893 12 6.173 27 8.495
3 7’. 8.72? 16 9.288 28 2.183
-------�
TRIBUTARY FLOW INFORMATION FOR TENNESSEE 09/13/76
LAI(E CODE 4704 BOONE RESERVOIR
MEAN MONTHLY FLOWS AND DAILY FLOWS(CMS)
TWIBUTARY MONTH YEAR MEAN FLOW DAY FLOW DAY FLOW DAY FLOW
470 4F 1 4 73 0.9C9 14 0.459
S 73 1.181 14 1.260
6 73 0.600 20 0.430
7 73 0.391 27 0.464
8 73 0.456 1’. 0.194
9 73 0.283 9 0.094
10 73 0.199 7 0.221
II 73 0.388 10 0.274
12 73 0.694 8 0.850
1 74 2.248 20 0.943
2 74 1.730 12 0.898 27 1.2)5
3 74 1.265 16 1.351 28 0.317
4704 .L 4 73 0.267 14 0.135
5 73 0.343 14 0.371
6 73 0.175 20 0.127
7 73 0.115 27 0.136
8 73 0.134 14 0.286
9 73 0.083 9 0.028
10 73 0.058 7 0.065
11 73 0.114 10 0.080
12 73 0.204 8 0.249
I 74 0.657 20 0.275
2 74 0.504 12 0.262 27 0.360
3 74 0.371 16 0.394 28 0.093
47 04H1 4 73 0.059 14 0.030
5 73 0.077 1’. 0.082
6 73 0.039 20 0.028
7 73 0.025 27 0.030
8 73 0.030 14 0.063
9 73 0.019 9 0.006
10 73 0.013 7 e.0 14
11 73 0.025 10 0.018
12 73 0.045 8 0.056
1 74 0.146 20 0.061
2 74 0.112 12 0.058 27 0.080
3 74 0.082 16 0.088 28 0.021
4704J 1 6 73 1.073
5 73 1.390 14 1.4N4
6 73 0.708 20 0.510
7 73 0.462 27 1.303
8 73 0.5)8 14 0.229
9 73 0.334 9 0.112
10 73 0.234 7 0.261
11 73 0.459 10 0.323
12 73 0.818 8 1.000
I 74 2.636 20 1.104
2 7’. 2.027 12 1.053 27 1.450
3 74 1.484 16 1.583 28 0.394
-------�
TRIBUTARY FLOW INFORMATION FOR TENNESSEE 09/13/76
LA1
-------�
APPENDIX C
PHYSICAL AND CHEMICAL DATA
-------�
STOI3ET 9E1’3IEVAL DATE 76/09/10
472501
36 33 34.0 082 05 16.0 3
SOOTH HOLSTON LAIcE
47163 TENNESSEE
040291
1IEPALES 2111202
0204 FEEl DEPTH CLASS 00
30010
00300
00077
00394
00400
00411)
00610
00625
00630
00671
DAIL
TIME
DEPTh
WATER
DO
T ANSP
CNDUCTvY
PH
T ALK
NH3—N
TOT KJEL
N02 NO3
PHOS—DiS
FROM
OF
T iP
SECCHI
FIELD
CACO3
TOTAL
N
N—TOTAL
ORTHO
TO
OM
FEET
CENT
M(,/L
INCHES
MICROM,-6)
SU
MG/L
MG/ I.
MO/I.
MG/L
MO/L P
73/05/23
10 00 0000
19.1
60
180
8.80
79
0.070
0.600
0.430
0.024
10 00 0004
19.1
11.0
165
8.80
79
0.040
0.400
0.410
0.009
10 00 0015
18.0
10.2
165
8.50
78
0.040
0.200
0.510
0.007
10 00 0025
15.8
10.0
160
8.10
79
0.040
0.200
0.520
0.005
10 00 0035
14.0
9.0
165
8.00
80
0.050
0.200
0.560
0.007
10 00 0050
12.3
8.4
170
7.80
81
0.050
0.200
0.660
0.009
10 00 0075
10.3
8.4
195
7.60
84
0.030
0.200
0.680
0.006
10 00 0150
6.9
7.6
185
7.50
90
0.040
0.200
0.800
0.010
10 00 0198
6.7
6.6
185
7.53
83
0.050
0.200
0.800
0.008
73/08/20
12 00 0000
26.8
144
161
o.8 0
68
0.060
0.800
0.080
0.011
12 00 0005
26.8
9.0
154
8.80
66
3.040
0.400
0.060
0.007
12 00 0020
26.8
3.0
152
8.30
65
0.050
0.400
0.100
0.008
12 00 0040
21. .
3..
163
7.90
80
0.060
0.300
0.550
0.004
12 00 0060
16.8
1.2
142
1.80
78
0.040
0.300
0.740
0.006
12 00 0080
14.9
3.0
130
7.ôu
74
0.030
0.200
0.770
0.006
12 00 0100
12.9
4.2
119
7.50
74
0.030
0.200K
0.760
0.005
12 00 0125
9.9
5.8
110
7 .4v
74
0.040
0.200
0.810
0.004
12 00 0150
8.2
6.0
109
7.30
81
0.030
0.200
0.600
0.005
12 00 0I7
6.
5.4
107
7.20
81
0.030
0.200
0.800
0.008
12 00 0190
6.8
5.4
114
7.20
81
0.030
0.200K
0.810
0.006
73/10/27
09 ?0 0000
19.6
180
156
7.TC
82
0.060
0.200
0.240
0.011
09 ?0 0010
19.6
4.4
167
7.70
81
0.040
0.200K
0.230
0.011
09 20 OO3J
19.
5.0
164
7.60
81
0.040
0.200
0.230
0.010
09 20 0060
18.9
0.2
162
7.30
83
0.050
0.200r
0.380
0.010
09 20 0090
15.6
0.2
140
7.20
73
0.040
0.200K
0.540
0.008
09 20 0110
12.1
0.6
128
7.10
71
0.030
0.200K
0.650
0.007
09 20 0130
6.7
0.2
118
7.13
77
0.030
0.200K
0.780
0.008
09 20 0160
5.8
4.0
119
7.20
80
0.040
0.200K
0.780
0.009
ic V. LUE lc 4uwN TO 8
LESS I t- u . N INUjC TEQ
-------�
STORET RETRIEVAL DATE 76/09/10
472501
- 36 33 34.0 082 05 16.0 3
SOUTH HOL TON LAKE
47163 TENNESSEE
040291
I1EPALES 2111202
0204 FEET DEPTH CLASS 00
00665 32217
DATE TIME DEPTII PHOS—TOT Ct-ILRPHYL
FROM OF A
TO Ot Y FEET MG/L P UG/L
73/05/23 iC, 00 0000 0.029 11.6
10 00 0004 0.027
10 00 0015 0.017
10 00 0025 0.018
10 00 0035 0.017
10 00 0050 0.013
10 00 0075 0.013
10 00 01 0 0.011
10 00 3198 ).013
73/0 /20 12 00 0000 0.021
12 00 0005 3.016
1? 00 0020 3.013
12 00 0040 0.012
12 00 0060 0.012
12 00 0080
12 00 0100 C.011
12 00 0125 0.009
12 00 0150 0.010
12 00 0175 0.011
12 00 0190 0.011
73/10/27 09 20 0000 i).009 3.2
09 20 0010 3.009
09 20 0030 0.011
09 20 0060 0.009
09 ‘0 0090 0.007
09 20 0110 0.006
09 20 0130 0.006
09 20 01( O 0.008
-------�
STORET RETRIEVAL DATE 76/09/10
472502
36 31 14.0 082 02 44.0 3
SOUTH HOLSTON LAKE
47163 Tt.NNESSEE
040291
11EPALES 2111202
0200 FEET DEPTH CLASS 00
00010 00300 00077 00094 00400 00410 00610 00625 00630 00671
DATE TIME DEPTH WATER DO TRANSP CNDUCTVY PH T ALK NH3—N TOT KJEL N02&N03 PHOS—DIS
FROM OF TEMP SECCHI FIELD CACO3 TOTAL N N—TOTAL ORTHO
TO DAY FEET CENT MG/L INCHES MICPOMHO SU MG/L MG/L MG/L MG/L MG/L P
73/05/23 12 45 0000 19.6 60 160 8.80 74 0.070 0.600 0.420 0.013
12 45 0004 19.6 11.0 160 9.00 73 0.040 0.500 0.380 0.017
12 45 0015 19.0 10.0 165 8.90 74 0.040 0.400 0.400 0.006
12 45 0025 16.9 9.6 170 8.10 72 0.050 0.400 0.500 0.013
12 45 0050 11.8 8.0 165 7.90 75 0.030 0.300 0.700 0.007
12 45 0080 10.1 8.4 180 7.80 78 0.030 0.300 0.680 0.007
12 45 0150 6.8 7.6 180 7.80 84 0.040 0.400 0.790 0.010
73/08/20 12 55 0000 27.1 114 162 8.60 70 0.040 0.400 0.080 0.004
12 5 0005 27.0 8.8 160 8.30 68 0.030 0.300 0.060 0.003
12 ss 0020 26.2 6.6 191 7.80 83 0.040 0.300 0.260 0.004
12 55 0030 23.3 1.8 205 6.70 98 0.040 0.300 0.640 0.006
12 55 0050 18.5 0.2 148 6.63 82 0.030 0.200 0.700 0.004
12 55 0075 15.2 2.6 134 6.50 77 0.030 0.200 0.760 0.009
12 55 0100 12.2 4,6 115 6.40 80 0.030 0.200 0.850 0.008
12 55 0125 10.0 4.2 115 6.40 80 0.030 0.300 0.850 0.012
12 5 0160 7.2 2.0 121 6.30 87 0.060 0.300 0.780 0.009
73/10/27 09 50 0000 19.7 108 172 7.80 85 0.040 0.300 0.350 0.008
09 50 0010 19.6 6.0 171 7.8e 84 0.040 0.200 0.230 0.009
09 50 0030 19.7 5.8 170 7.80 82 0.040 0.200K 0.230 0.009
09 0 0060 19.0 3.4 172 7.50 84 0.040 0.200K 0.420 0.010
09 50 0100 14.1 1.2 141 7.30 79 0.130 0.200K 0.450 0.013
09 50 0120 8.9 1.0 133 7.10 88 0.460 0.500 0.160 0.014
K VALUE KNOWN TO bE
LESS THAN INDICATED
-------�
STORET RETRIEVAL DATE 76/09/10
472502
36 31 14.0 082 02 ‘.4.0 3
SOUTH HOLSTON LAI L
47163 TENNESSEE
040291
DATE
FROM
TO
TIME DEPTH
OF
DAY FEET
32217
CHLRPHYL
A
UG/L
A 1EPALES
0200 FEET
2111202
DEPTH CLASS 00
73/05/23 12
12
12
12
12
12
12
73/08/20 12
12
12
12
1?
12
12
12
12
73/10/?7 09
09
09
09
09
09
45 000()
45 0004
45 0015
45 0025
45 0050
45 0030
45 0150
55 0000
55 0005
55 0020
55 0030
55 0050
55 0075
55 0100
55 0125
55 0160
50 0000
50 0010
50 0030
50 0060
50 0100
50 0120
(i.0?T
0.022
0.020
0.019
0.015
0.013
0.059
0.0 10
0.010
0.013
0.01!
0.007
0.007
0.021
0.0 12
0.03’.
0 .008
0.008
0.00w
0.011
0.013
0.026
00665
Pp-los -TOT
MG/L
15.2
6.9
3.2
-------�
STORET RETRIEVAL DATE Th/09/10
472503
36 36 13.0 082 02 34.0 3
SOUTri HOL3TON LAKE
47163 TENNESSEE
040291
IIEPALES 2111202
0200 FEET DEPTM CLASS 00
00010 00300 00077 00094 00400 00410 00610 00625 00630 00671
DATE TIME DEPT’-l WATER DO TRANSP CNDUCTVY PH 1 ALK Nr$3—N TOT KJEL NO2 .NO3 PHOS—DIS
FROM OF TEMP SECCHI FIELD CACO3 TOTAL N N—TOTAL ORTHO
TO DAY FEET C1 NT MG/L INCHES HICROMMO SO MG/L MG/L MG/L MG/L MG/L P
73/05/23 13 25 0000 19.0 54 170 8.90 77 0.060 0.300 0.400 0.006
13 25 0004 19.0 11.4 170 9.00 78 0.060 0.300 0.410 0.008
13 25 0015 18.1 10.8 175 8.90 79 0.060 0.200 0.430 0.018
13 25 0025 17.0 8.8 180 8.40 77 0.080 0.200 0.500 0.008
13 25 0050 11.7 7.6 180 7.90 75 0.040 0.200K 0.770 0.011
13 25 0080 10.1 8.2 185 7.70 80 0.040 0.200K 0.770 0.005
13 25 0140 7.3 5,6 200 7.60 86 0.030 0.200K 0.790 0.005
73/08/20 13 55 0000 27.1 75 162 7.90 73 0,040 0.500 0.070 0.006
13 55 0005 27.0 7.0 161 8.00 73 0.040 0.400 0.040 0.007
13 55 0015 27.0 8.6 160 7.90 73 0.040 0.400 0.050 0.005
13 55 0025 24.4 3.2 206 7.10 99 0.040 0.300 0.570 0.005
13 55 0045 19.6 0.2 169 7.00 92 0.050 0.300 0.590 0.00’.
13 55 006S 16.’. 1.2 136 6.80 80 0.040 0.300 0.720 0.004
13 55 0100 12.1 2.2 119 6.40 79 0.060 0.300 0.760 0.009
13 55 0120 10.4 0.2 132 6.90 91 0.260 0.600 0.500 0.007
73/10/27 10 30 0000 19.4 144 168 8.10 83 0.050 0.300 0.180 0.014
10 30 0010 19.3 7.0 167 8.10 83 0.040 0.200 0.170 0.014
10 30 0030 19.3 7.2 167 8.00 82 0.040 0.300 0.170 0.014
10 30 0065 18.9 6.4 168 7.90 82 0,070 0.400 0.170 0.015
10 30 0085 16.6 4.4 171 7.60 86 0.200 0.400 0.200 0.015
10 30 0107 12,6 0.0 179 7.30 105 1.740 2.400 0.040 0.021
K VALUE KNOWN TO BE
LESS THt N INDICATE)
-------�
STORET RETRIEVAL DATE 76/09/10
412503
36 36 13.0 082 02 34.0 3
sOUTH HOLSTON LAKE
47163 TENNESSEE
040291
1 1EPALES
0200 FEET
2111202
DEPTH CLASS 00
DATE
F P OH
TO
TIME DEPTH
OF
DAY FEET
73/05/23 13 25 0000
13 ?5 0004
13 ?5 0015
13 ?5 0025
13 25 0050
13 25 0080
13 25 0140
73/08/20 13 55 0000
13 55 0005
13 55 0015
13 55 0025
13 c5 0045
13 55 0065
13 55 0100
13 55 0120
73/10/27 10 30 0000
10 30 0010
10 30 0030
10 30 0065
10 30 0085
10 30 0107
O • 024
0.022
0.0 20
0.017
0 .012
0.011
0.014
0.012
0.014
0.013
0.013
0.012
0.013
0.021
0.028
0.012
0.015
0.014
0.023
0.035
0 • 100
32217
CHLRPHYL
A
UG/L
00665
PHOS-TOT
MG/L P
12.9
6.4
3.6
-------�
STORET HETRIEVAL DATE 76 109/ ID
00010
DATE TIME DEPt- i .AT€R
FROM OF TEMP
TO DAY FLU CENT
00300
DO
472506
36 35 08.0 082 00 50.0 3
SOUTH HDLSTON LAKE
47143 TENNESS
040291
IIEPALES 2111202
0110 FELT DEPTh CLASS 00
00077
TRANSP
SECCHI
INCHES
00094
CNDUCTVY
FIELD
MICHOMMO
00400
PH
SD
00410
I ALP
CACO3
MD/L
00610
N i l 3-N
I I AL
00620
TOT KJ(L
N
MG/L
0 • 400
0.300
0.300
0 • 200
0 • 200
0.20 0
0.300
0.500
0.400
0.400
0.300
0.300
0 • 300
0.600
0.600
0.300
0.300
0.200K
0.400
00630
NO2 N03
‘0—TOTAL
o • 440
0.4 30
0.450
(I. 10
0 • 750
0.660
0.860
0.060
0 • 050
0.t i O O
0.120
0.730
0 • 730
0.330
0 • 140
0 • 150
0.150
0.140
0.170
00671
PNOSOIS
OPT i ll)
MD/L P
0.0Db
0.004
0.011
0.00 7
0.004
0.009
0.0 17
0.00’.
0.005
0.003
0.005
0.006
0.006
0.00 7
0.014
0.0 14
0.02 I
0.0 IA
0.0 19
73/05/23
14 30
0000
16.2
80
180
8.70
84
0.060
14 30
0004
18.1
9.6
180
8.70
84
0.060
14 33
0015
17.7
8.6
180
8.2C
84
0.090
14 30
0030
15.4
7.0
170
7.80
69
0.030
14 10
0050
11.7
7.0
170
7.60
69
0.030
14 30
0080
10.1
6.8
190
7.40
80
0.060
14 30
0I00
9.5
4.8
195
7.3k
85
0.040
73/08/20
I’ 75
0000
26.9
60
162
8.10
75
0.050
14 25
0005
26.8
P.8
161
8.20
75
0.040
14 25
0315
26.7
8.4
159
7.20
‘06
0.050
14 25
0030
23.4
3.6
204
7.00
94
0.060
14 25
Q945
19.7
C.2
183
6.90
79
0.040
I’ 75
0065
16.2
1.8
142
6.70
78
0.110
14 25
O0 3
13.1
1.2
I41
8.00
83
0.110
73/13/27
II 00
0000
19.1
64
187
8.20
82
0.070
11 00
0010
19.1
I66
8.20
80
0.060
11 00
002K
19.1
7.0
161
8.20
80
0.060
II 00
DOSS
19.0
6.8
169
8.10
78
0.060
II 00
0377
17.b
00665
5 4
32217
175
7.00
85
0.160
DATE
TIME
DEPTH
PHOS-TUT
C,ILPPHYL
FNOl
OF
A
I’)
DAY
VCET
P6/L P
DO/L
73/05/23
I’. 30
0000
0.021
7.6
14 10
0004
0.027
14 30
OOIS
0.0 19
14 30
0030
C i.0I4
14 30
0050
0.011
14 30
0080
,.0I7
14 30
0100
0.020
73/08/20
I’ 70
0000
0.020
11.1
14 75
0004
0.018
14 75
0015
0.017
I. 25
0330
0.016
I’. 75
0045
7.017
14 25
006K
0.022
14 78
0093
0.035
73/10/21
Il 00
0000
0.0 19
3.7
II 00
0010
j.0lH
II 80
0020
0.021
II 00
0055
0.018
11 00
0077
0.062
P V LU i 9O*N 10 8E
LESS IH!N 1l D1C .TED
-------�
STOPET RETRIEVAL DATE 76/09/10
470401
36 26 20.0 082 26 14.0 3
bOONE RESEN O1R
47163 1ENNESS E
040291
11E ALES 2111202
0110 FEET DEPTH CLASS 00
00010 00300 00077 00094 00400 00410 00610 00625 00630 00671
DATE TIME DEPTH WATER DO TRAWSP CNDUCIVY PH T ALK NH3—N TOT KJ€L N02&N03 P 1105—015
19011 91 TEMP SECCp4L FiELD CACO3 TOTAL N N—TOTAL 091110
TO DAY FEET CENT MG/L INCHES MICPOMHO SU MG/L MG/L MG/L M(,/L M(,/L P
73/04/03 11 00 0000 13. . 36 195 8.00 63 0.400 0.600 0.990 0.033
II 00 0006 13.2 9.2 193 8.00 62 0.370 0.400 0.950 0.031
11 00 0015 13.1 9.0 193 8.00 62 0.370 0.500 0.960 0.032
Ii 00 0025 12.9 9.0 200 8.00 61 0.380 0.400 0.970 0.032
I I 00 0040 12.3 8.2 205 8.00 11 0.320 0.400 0.990 0.042
11 00 0060 11.9 8.2 220 8.00 82 0.250 0.300 1.000 0.048
II 00 0080 11.0 8.2 220 8.00 9 0.150 0.200K 1.000 0.042
II 00 0096 10.? 8.4 220 8.10 82 0.230 0.300 1.200 0.039
73/07/1? 10 25 0000 28.2 73 182 9.10 73 0.080 0.900 0.150 0.007
10 25 0008 27.3 9.0 183 9.10 74 0.070 0.400 0.320 0.005
10 25 OIls 22.5 181
10 75 0020 20.8 0.’ 163 7.2) 75 0.080 0.200 0.880 0.005
10 25 0030 18.9 143
IC 25 0040 17.4 2.6 126 7.10 55 0.070 0.200 1.200 0.006
10 25 0050 16.8 121
10 25 0060 16.2 126
10 75 0070 15.7 3.6 135 7.40 73 0.060 0.200 1.100 0.017
10 PS 0080 15.1 134
10 25 0090 1’.5 5.9 147 7.40 87 0.080 0.200K 0.740 0.015
10 25 0100 14.2 144
10 PS 0105 1’..I 5.0 145 7.40 90 0.140 0.200K 0.740 0.015
10 26 0000 28.1 12.1 73 181
10 76 0001 28.2 12.1 182
10 76 0002 28.2 12.0 182
10 26 0003 28.2 12.0 182
10 26 0004 28.2 12.0 182
10 76 0008 28.2 12.0 182
10 76 0006 28.1 11.9 182
10 26 0007 28.1 11.9 182
10 76 0008 27.1 11.6 183
10 26 0009 27.0 10.3 186
10 26 0010 26.6 9.3 186
10 26 0011 25.4 6.8 186
10 26 0012 24.8 5.5 188
tO 76 0013 24.1 4.2 186
10 76 0014 23.7 2.4 185
K Vi LUE KHON 10 bE
LLSS Tfr 4N INDICATED
-------�
STORET MEIUEVAL DATE 75/09/10
470401
36 26 20.0 082 26 14.0 3
BOONE RESERVOIR
47163 IENNESSEE
040291
I IEPALES 2111202
0110 FEET DEPTH CLASS 00
00010 00300 00077 00094 00400 00410 00610 00625 00630 00671
DATE T1’ E OEPTrI WATER DO TRANSP CNDUCIVY PH 1 ALK NH3N TOT KJEL NO2 NO3 Pi40S01S
FROM OF TEMP SECCHI FIELD CACO3 TOTAL N N-TOTAL ORTHO
TO DAY FEET CENT MG/L INCHES MICHOMIIO SO M(,/L MG/L M&/L MG/L MG/I P
73/10/27 11 ‘0 0000 18.0 96 184 7.60 0.500
11 40 0010 18.0 5.4 164 7.50 67 0.090 0.300 0.740 0.014
11 40 0030 18.0 4.4 18 5 7.50 68 0.090 0.300 0.750 0.015
11 ‘.0 0045 17.5 2.8 176 7.30 69 0.060 0.200 0.940 0.020
11 ‘.0 0065 16.4 3.2 160 7.30 75 0.040 0.2001< 0.870 0.030
ii 40 0090 15.3 176 7.20 69 0.210 0.300 0.990 0.025
00665 32217
DATE TIME DEPTH PHOS—TOT CHLPPHYL
FROM OF A
TO DAY FEET MG/I P IJG/L
73/C4/03 11 00 0000 0.055 6.7
11 00 0005 0.053
11 00 0015 0.052
11 00 0025 3.050
11 00 3040 0.061
11 00 0060 0.062
Il 00 0060 0.054
11 00 0396 0.061
73/07/12 10 25 0000 0.022 7.1
10 25 0008 0.021
10 25 0020 0.015
10 25 0040 0.016
10 25 0070 0.024
10 25 0090 0.031
10 25 0105 0.032
73/10/27 II 40 0000 0.030 6.1
11 ..0 0010 ..026
II 40 0030 0.023
11 40 0045 0.02’.
II .0 006S 0.030
11 40 0090 0.03
Ic VI LU rcNOws 10 6E
LE .S Tr1 N LN01C TEO
-------�
STORET RETRIEVAL DATE 76/09/10
470402
36 25 32.0 082 24 30.0 3
bOONE RESERVOIR
47163 TENNESSEE
040291
tIEMALES 2111202
0102 FEET DEMIrI CLASS 00
00010 00300 00077 00094 00400 00410 00610 00625 00630 00671
DATE TIME DEPTH WATEP DO TRANSP CNDUCTVY PH T ALK NH3—N TOT KJEL NO2 .NO3 PHOS—DIS
FROM OF TEMP SECCHI FIELD CACO3 TOTAL N N—TOTAL ORTHO
TO DAY FEET CENT MG/L INCHES MICROMHO SO MG/L M6/L P4G/L MG/L MG/L P
73/C4/03 11 35 0000 1 .0 40
11 35 0006 13.7 9.2
Ii 35 0015 13.3 8.8 215 7.80 72 0.370 0.500 1.200 0.037
11 35 002 12.8 8.7 235 7.90 98 0.160 0.300 1.000 0.043
I I 35 0040 11.8 8.5 190 7.70 56 0.460 0.500 0.970 0.035
11 35 0055 11.3 8.3 190 7.70 56 0.430 0.600 1.100 U.03S
ii 35 0071 10.6 7.5 198 7.80 60 0.430 0.600 1.200 0.032
73/07/12 14 15 0000 28.9 72 174 9.20 75 0.100 0.600 0.140 0.005
14 IS 0005 28.6 175
14 15 0008 28.’. 10.9 176 9.20 72 0.100 0.500 0.110 0.006
1’. 15 0010 25.4 182
I’ 15 0015 22.6 4.5 181 7.30 80 0.300 0.600 0.540 0.005
14 15 0020 20.5 162
14 15 0030 18.4 130 7.00 58 0.440 0.500 0.710 0.009
14 15 0040 17.4 lIe
14 IS 0050 16.6 109
I’ 15 0060 16.1 3.9 108 6.90 51 0.420 0.400 0.890 0.014
14 15 0070 15.5 105
16 15 0080 15.1 111
14 15 0090 14.5 113
14 15 0100 13.7 125 7.00 78 1.000 1.200 0.450 0.007
73/10/27 12 00 0000 18.4 8’. 186 7.50 69 0.090 0.400 0.840 0.013
12 00 0010 18.2 5.2 186 7.50 69 0.100 0.400 0.860 0.015
12 00 0030 18.1 4.4 190 7.50 73 0.090 0.300 0.730 0.021
12 00 0060 16.1 4.6 169 7.40 86 0.030 0.200K 0.690 0.035
12 00 0080 15.7 2.6 184 7.40 93 0.120 0.300 0.630 0.045
12 00 0096 15.3 0.6 185 7.20 87 0.420 0.800 0.660 0.033
K V . .LUE KNOWN TO HE
LESS THAN INI)ICATED
-------�
STORET RETRIEVAL DATE 76/09/10
‘.70402
36 25 32.0 082 2’. 30.0 3
bOONE RESER OjR
47)63 TENNESSEE
040291
11EPALES 2111202
0102 FEET L)tPTh CLASS 00
00665 322)7
DATE TIME DEPTIl PHOS—TOT CHLPPHYL
FROM OF A
TO DAY FEET MG/L P UG/L
73/04/03 11 35 0000 35.2
1) 35 0015 0.055
11 35 0025 0.054
11 35 0040 0.061
11 35 0055 0.104
11 35 0071 0.102
73/07/12 14 15 0000 0.025 18.7
14 15 0008 0.029
14 15 0015 0.024
14 15 0030 0.028
14 15 0060 0.032
14 15 0100 6.055
73/10/27 12 00 0000 3.022 7.1
12 00 0010 0.032
12 00 0030 0.027
12 00 0060 0.037
12 00 0080 0.061
12 00 O0 6 0.092
-------�
STORET RETRIEVAL DATE 76/09/10
470403
36 27 02.0 082 2’. 56.0 3
000NE RESERVOIR
47063 TENNESSEE
040291
IIEMALES 2111202
OIlS FEET DEPT 1 CLASS 00
00010 00300 00077 00094 00400 00’.10 00610 00625 00630 00671
DATE TIME 0EPT I WATER DO T ANSP CNDUCTVY PH 1 ALK NH3—N TOT KJEL N02&N03 PrIOS—DIS
FROM OF TEMP SECCHI FIELD CACO3 TOTAL N N-TOTAL ORTHO
TO DAY FEET CENT MG/L INCHES MICROMPIO SU Mu/L ML,/L MG/L M0/L MG/L P
73/04/03 12 10 0000 14.0 37 200 8.00 56 0.380 0.700 0.970 0.260
12 10 0000 13.d 9.0 200 8.00 56 0.380 0.500 0.960 0.026
12 10 0015 13.2 9.2 200 7.90 60 0.380 0.400 0.960 0.029
12 10 0022 12.7 P.8 200 7.90 69 0.340 0.400 0.960 0.036
12 10 0035 12.3 8.5 220 7.80 82 0.300 0.400 0.980 0.048
12 10 0050 11.7 8.4 220 i.ao 82 0.270 0.300 0.000 0.047
12 10 0070 11.1 6.8 190 7.90 55 0.420 0.600 0.970 0.025
12 10 0090 10.5 7.8 190 7.90 56 0.420 1.000 0.980 0.025
12 10 0110 10.2 6.3 220 7.80 76 0.370 0.500 1.200 0.029
73/07/12 13 05 0000 28.2 60 193 9.00 79 0.070 0.600 0.180 0.008
13 05 0007 27.8 10.5 192 8.90 83 0.060 0.300 0.080 0.005
13 05 0010 26.2 187
13 05 0017 21.5 1.6 171 7.20 81 0.310 0.500 0.680 0.004
13 05 0020 20.3 157
13 05 0030 Id. ’. 135
13 05 0040 17.5 1.6 140 7.30 72 0.060 0.200K 0.990 0.005
13 05 0050 16.9 147
13 05 0060 16.4 164
13 05 0070 15.9 4.1 163 7.40 103 0.060 0.200K 0.870 0.015
13 05 0080 15.3 157
13 05 0090 14.6 153
13 05 0100 14.4 153
13 05 0110 14.1 4.7 153 7.40 101 0.260 0.800 0.640 0.016
I) 06 0000 25.0 8.’. 60 188
13 06 0011 24.2 4.8 187
13 06 0012 23.7 3.6 187
13 0€ . 0013 23.2 2.6 186
13 06 0014 22.5 2.1 lBS
13 06 0015 22.2 1.8 181
I) 06 0016 21.8 1.7 180
13 0’, 0017 21.7 1.7 175
13 06 0018 21.2 1.7 172
13 06 0019 21.1 1.7 ITO
13 0€ . 0020 21.0 2.2 173
73/10/PT 12 35 0000 18.7 60 196 8.00 85 0.060 0.500 0.320 0.016
I .’ 35 0010 18.3 5.4 098 7.60 88 0.080 0.300 0.320 0.019
K VALUE KNUWN TO OE
Lt .S 1-L N 1NCICATEL ,
-------�
SIORET RETRIEVAL L)ATE 7b/09/l0
470403
36 27 02.0 082 24 56.0 3
bOONE RESER O1R
47163 TENNESSEE
040291
IIEPALES 2111202
0115 FEET DEPTri CLASS 00
00010 00300 00077 00096 00400 00410 OOblO 00625 00630 00671
DATE TIME DEPTH WATER DO TRANSP CNDUCTVY PH T AL NH3—N TOT KJEL N02 NO3 PHOS—OIS
FROM OF TEMP SECCHI FIELD CAC O3 TOTAL P 1 N—TOTAL ORIHO
TO DAY FEET CENT MG/L INCHES MICROMIIO SO MG/L M(,/L M6/L MG/L MG/L P
73/10/27 12 35 0030 17.9 3.6 210 7.70 99 0.040 0.200K 0.570 0.062
12 35 0055 16.4 197 7.70 96 0.160 0.300 0.480 0.074
12 35 0080 15.7 3.6 1?5 7.50 0.500
00665 32217
DATE TIME DEPTH PHOS—TOT CHLPPHYL
FROM OF A
TO DAY FEET MG/L P UG/L
73/04/03 12 10 0000 0.ObI 6.9
12 10 0006 0.047
12 tO 0015 0.046
12 tO 0022 0.054
12 tO 0035 0.065
12 10 0050 0.068
12 10 0070 0.051
12 tO 0090 0.055
12 10 0110 0.073
73/07/12 13 05 0000 0.023 12.7
13 05 0007 3.025
13 05 0017 0.018
13 05 0040 0.012
13 05 0070 O.02d
13 05 Otto 0.048
13 0 ’ 0000 12.7
73/to/27 12 35 0000 0.039 7.3
12 35 0010 0.030
12 35 0030 G.07
12 35 OOSS C.0d3
12 35 0080 0.067
K LUE KNOWN ro HE
LLSS JIiAN INDIC TE1)
-------�
STORET RETRIEVAL DATE 78/09/10
410404
36 28 40.0 082 19 ‘.1.0 3
8008L RES v01 .
47 63 TENNESSEE
040291
11 PAL1S 2111202
0084 FEET DEPTH CLASS 00
00010 00300 00077 00094 00400 00410 00610 00625 00630 00671
DArE TIME DEPTH WATER DC , Tp NSP CNDUCTVY 9 H T ALK N63N TOT KJEL NO2 N03 PiiOS—01S
FRoM OF SECCHI FIELD CACO3 IOIAL N N—TOTAL ORT,10
TO DAY FEET CENT MG/L INCHES MICROMHO S&i MG/L MG/L MG/L MI.,/L MG/L P
73/C4/03 13 00 0000 14.8 36 280 8. ’.Q 120 0.070 0.500 1.000 0.068
13 00 0006 14.6 11.2 295 8.40 115 0.050 0.400 1.200 0.066
13 00 0005 14.1 10.6 260 8.00 100 0.050 0.300 0.910 0.040
13 00 0025 14.0 10.2 260 8.30 lOS 0.080 0.300 0.960 0.047
13 00 0040 13.1 10.0 ?70 8.10 110 0.080 0.200 0.940 0.043
13 00 0058 10.8 9.8 230 8.0 1. 92 0.090 0.300 0.800 0.022
73/37/12 IS 15 0000 28.0 11.6 36 238 9.30 91 0.120 0.900 0.090 0.011
IS IS 0005 27.3 9.0 252 7.80 104 0.100 0.800 0.290 0.060
15 IS 0008 25.9 5.0 288 8.00 122 0.100 0.600 0.550 0.095
IS 15 0010 23.5 283
IS IS 0015 22.0 1.8 247 118 0.110 0.500 0.900 0.144
15 iS 0020 20.3 22?
15 15 0030 18.3 4.5 190 7.50 101 0.130 0.200 0.770 0.021
15 IS 0040 16.8 161
IS 15 0050 14.6 145
IS 15 0060 13.6 8.7 142 7.80 88 0.090 0.300 0.68C 0.008
73/10/26 14 00 0000 18.8 48 218 8.80 99 0.050 0.800 0.180 0.078
14 00 0005 18.1 8.8 213 8.60 96 0.050 0.500 0.150 0.062
14 00 0015 18.1 0.0 219 8.40 103 0.080 0.500 0.180 0.077
1’. 00 0023 17.7 6.0 228 8.20 1” ‘.110 0.400 0.270 0.102
00665 32217
DATE TIME DEPTH PHOS-TOT CHLRP ’IYL
Fr OM OF A
TO DAY FEET MG/L P UGh
73104/03 13 00 0000 0.112 5.8
13 00 0006 (,,. 122
13 00 0015 0.079
13 00 0025 0.083
I) 00 0040 0.076
13 00 0058 0.048
73101/12 15 IS 0000 0.077 5.9
15 15 0005 0.17..
15 15 0008 3.182
IS IS 0015 0.166
IS IS 0030 0.038
15 IS 0060 0.057
73110/28 1’. 00 0030 C.Ib8
14 00 0005 1..113
1’. 00 0015 3.132
14 00 vO ?) 0.143
-------�
APPENDIX D
TRIBUTARY AND WASTEWATER
TREATMENT PLANT DATA
-------�
STORET RETRIEVAL DATE 76/09/09
472541
3o 31 27.0 082 05 29.0 4
S FORK HOLSTON R1 ER
41 7.5 HOLSTON VALL
0/S HOLSTON RES 040291
S HOLSTON DAM SPILLWAY
1 1EPALES 2111204
0000 FEET DEPTH CLASS 00
00630 00625 00610 00671 00665
DATE TIME DEPTH N02&N03 TOT KJEL NH3—N PHOS—DIS PHOS—TOT
FROM OF N—TOTAL N TOTAL ORTHO
TO DAY FEET MG/L MG/L MG/L MG/L P MG/L P
73/04/15 09 15 0.650 0.140 0.005K 0.005K 0.025
73/05/16 09 00 0.700 0.100K 0.005K 0.005K 0.00 5K
73/06/16 09 00 0.730 0.750 0.017 0.007 0.007
73/07/28 15 00 0.730 0.240 0.059 0.005K 0.007
73/08/16 09 00 0.750 0.280 0.012 0.009 0.180
73/09/1 09 35 0.720 0,240 0.009 0.005K 0.005K
73/10/11 09 15 0.620 1.450 0.120 0.005
73/11/17 08 20 0.350 1.350 u. 20 0.008 0.010
73/12/15 11 40 0.360 0.700 0.032 0.005K 0.010
74/01/12 13 05 0.470 0.400 0.016 0.012 0.015
74/02/02 10 20 0.528 0.300 0.010 0.005K 0.010
74/02/16 09 00 0.500 0.400 0.010 0.010 0.010
74/03/02 08 55 0.588 0.500 0.025 0.005 0.010
K VALUE KNOWN ID H
LESS TH4N JI\ I3ICM [ EO
-------�
STORET RETRIEVAL DATE 76/09/09
4725 A 2
36 39 10.0 081 53 15.0 4
S FOP HOLSTOI’1 RI /t
47 7.5 ABINOON VA
1/S HOLSTOh RES 040291
SEC 1) BkDG AT ALVA ADO
I1EPALES 2111204
0000 FEET DEPTH CLASS 00
00630 00625 00610 00671 00665
DATE TIME DEPT 1 NO2 .NO3 TOT KJEL NH3—N PIIOS—DIS PhOS—TOT
FROM OF N-TOTAL N TOTAL O Tr1O
TO UAY FEET MG/L MG/L MG/L MG/L P MG/L P
fl/04/15 10 5S 0.430 0.310 0.036 0.005K O.d25
73/t 5/16 10 45 0.2Q0 2.200 0.066 0.005K 0.00 5K
73/C6/1 10 50 V).7L.0 0.920 0.026 0.020
73/C7/2R 16 35 0.400 0.480 0.019 0.008 0.030
73/0 /16 10 ?5 0.410 1.?60 ‘ 1.035 0.008 0.03G
73/0 /1 10 10 0.350 0.?60 3.023 0.005K 0.015
73/10/17 10 35 0.273 0.850 0.050 0.008 0.C 2u
73/11/17 09 0 0.220 1.350 0.088 0.008 0.010
73/12/15 13 40 0.480 0.500 0.018 0.006 0.015
74/01/1? 14 40 0.616 0.300 0.016 0.012 0.035
74/02/02 12 05 0.650 0.300 0.010 0.010 0.042
74/02/16 10 ?0 0.528 0.400 .O10 0.010 0.040
74/03/0? 10 ?S 0.620 0.300 3.015 0.005K 0.t 30
K VALUE KNuW I(j E
LESS tri N INUICi TEU
-------�
STORET REIRIEVAL DATE 7b/09/09
472581
36 36 29.0 082 02 30.0 4
Sp R1NG CREEK
‘.7 7.5 IOLSTON VALL
T/S HOLSTON RES 040291
ST RT 665 8RDG .75 SSE OF CLEVELAND
1 1EPALES 2111204
0000 FEET DEPTH CLASS 00
00630 00625 00610 00671 00665
DATE TIME DEPTH NO2 .NO3 TOT XJEL Nt-$3—N PHOS—DIS Ri-sOS—TOT
FROM OF N-TOTAL N TOTAL ORTHO
TO DAY FCET 4G/L MG/L MG/L MG/L P MG/L ?
73/34/15 09 40 1.420 0.170 0.006 0.005K 0.310
73/05/lb 09 20 1.440 0.100K 0.009 0.005K 0.010
13/06/16 09 25 1.620 0.210 0.016 0.010 0.020
73/07/28 15 20 1.720 0.100K 0.011 0.009 0.025
73/08/lb 09 15 1.740 0.350 0.152 0.009 0.020
73/09/IM 09 5 1.380 0.790 ‘).026 0.010 0.025
73/10/17 09 35 1.300 0.500 0.024 is.010 0.020
73/11/17 08 ‘.0 1.010 1.600 0.0’8 0.018 0.110
73/12/15 12 nO 1.440 0.100 0.012 0.008 0.010
74/01/12 12 ?5 1.520 0.500 0.016 0.020 0.045
74/02/02 10 55 1.340 0.800 0.015 0.020
74/02/16 09 )8 1.360 0. ,00 0.010 C.020 0.0 0
7’./a3/0 ? 09 10 1.680 0.700 0.030 0.010 0.335
K VALUE KiJOWN TO bE
LESS THAN INDICATED
-------�
STORET ETR1EVAL DATE 76/09/09
4 72 ,C 1
35 3 i 00.0 0 1 5’, 30.0 4
wOLF C EE \
47 7.5 A3INDUN VA
T/S I-IOLSTUN RES 040291
T RI 75 P UG JUST sE OF G REEN SPI 1NGS
11E ALES 2111204
0000 FEET OEPTM CLASS 00
00630 00625 00610 00671 00665
DATE TIME DEPTH N02&N03 TOT KJEL Nh3—N PhOS—L)IS PhOS—TOT
FROM OF N—TOTAL N TOTAL ORTHO
TO hAY FEET MG/L MG/L MC,/L MG/L P PIG/L P
73/04/15 09 55 1.620 0.390 0.055 0.100 0.190
73/05/16 09 35 1.56) 0.340 0.080 0.126 0.200
73/06/18 09 4Q 1.640 0.600 (‘.063 0.150 0.250
73/(’7/28 15 30 1.b40 0.2B0 0.020 0.110 0.200
73/08/16 09 30 1.740 1.150 0.200 0.180 0.265
73/09/1 10 05 1.600 1.100 0.096 0.330 0.480
73/10/17 09 45 1.680 0.750 0.075 0.2 90 0.410
73/11/17 08 55 1.400 1.550 0.150 0.230 O.2c 0
73/ 12/iS 12 10 1.600 0.700 0.060 Z.14’. 3. 20
74/01/12 13 35 1.930 0.750 0.020 0.040 0.125
74/02/0. 11 00 1.44 ) 1.200 0.030 0.070 0.330
74/02/16 09 ?S 1.520 1.200 0.035 0.055 t).170
74/03/02 09 0 1.760 0.700 0.C35 0.085 0.155
-------�
STO ET RETRIEVAL DATE 76/09/09
472 ’O1
36 38 37.0 081 57 37.0 4
FIFTEENP4ILE CREEK
47 7. At3INDON VA
1/5 t-IOLSTON RES 040291
StC RD GROG JUST BELU DAM AT PARKS MILL
I1EPALES 2111204
0000 FEET DEPTh CLASS 00
00630 00625 00610 00671 00665
DATE TIME DEPTH NO2 .NO3 TOT KJEL NH3—N PHOS—DIS PHOS—TOT
FROM OF N—TOTAL N TOTAL ORTHO
TO DAY FF.:ET MG/L MG/L MG/L MG/L P MG/L P
73/04/15 10 00 1.560 0.320 (3.050 0.006 0.040
73/05/16 09 45 1.500 0.260 0.027 0.008 0.O’.0
73/06/16 09 45 2.100 0.800 0.053 0.018 0.105
73/07/28 15 40 1.820 0.250 0.033 0.022 0.050
73/06/16 09 40 1.840 0.390 0.029 0.025 0.060
73/09/18 10 15 1.340 0.400 0.028 0.017 0.050
73/10/17 09 50 1.160 0.750 0.038 0.014 0.110
73/11/17 09 05 1.040 1.150 0.071 0.016 0.030
73/12/15 12 25 1.510 1.300 0.032 0.020 0.LiSO
74/01/12 13 45 1.920 0.600 0.020 0.024 0.075
74/02/0? 11 15 1.800 1.100 0.095 0.035 0.165
74/02/16 09 37 1.680 0.900 0.075 0.050 0.160
74/03/02 09 30 1.900 0.400 0.015 0.020 0.070
-------�
STORET RETRIEVAL DATE 7o/09/09
4 725E 1
36 ‘.1 35.0 081 53 40.0 4
MIDL)LE FO HOLSTO 4 kIVER
47 7.5 At3LNDON VA
I/S HOLSTUN RES 040291
Sr4ALLOW FORD 8RDG ON LB STUART HdY
L IL.PALES 2111204
0000 FEET DEPTH CLASS 00
00630 006?5 00610 00671 00665
DATE TIME OEPT ’-i NO? NO3 TOT KJEL NH3—N HOS—DIS PHOS—TOT
FRO’4 OF N—TOTAL N TOTAL ORTHO
TO DAY FEET MG/L MG/L MG/L MG/L P MG/L P
73/04/15 10 45 1.020 0.170 0.00 5K 0.020 0.050
73/05/16 10 ?5 ‘.930 0.270 0.028 0.026 0.040
73/06/16 10 35 1.360 0.460 0.042 0.052 0.080
73/07/28 16 20 0.810 1.260 0.026 0.048 0.110
73/08/16 10 10 1.320 1.150 0.460 0.054 3.085
73/09/18 11 70 0.820 0.400 0.020 0.063 0.09 ,
73/1)/17 10 O 0.800 0.950 0.029 C.058 0.085
73/11/17 10 05 (‘.570 0.900 C.044 u.U34 0.040
73/12/L 11 00 1.000 0.300 0.024 0.090
74/01/12 14 50 1.340 0.600 O.02u 0.032 u.095
74/d2/0? 1? 70 1.3’+0 3.600 C.025 C..040 0.120
7’./02/16 10 35 1.180 1.000 0.045 0.050 0.1 90
74/03/02 10 15 1.500 0.600 0.025 0.020 0.060
K VALUE KNOWN TO 3E
LLSS IHMN IN,)ICMTED
-------�
STORE! RETRIEVAL DATE 76/09/09
472SF I
36 3 40.0 061 55 00.0 4
AUM A Or1E Rr ANCH
47 7.5 ABINLION VA
T/S HOLSTON
-------�
STORET i ETRIEVAL DATE 76/09/09
472bG1
36 36 42.0 Qal 57 33.0 4
G A Lt t3RANC 1
‘.1 1.5 Sr4ADY VALLEY
1/S PIOLSTON RES 040291
SANK 300 FT LO ‘1I aE VALLEY MINNOW FARM
IIEPALES 2111204
0000 FEET DEPTH CLASS 00
00630 00625 00610 00671 00665
DATE TIME DEPT -i NO? .NO3 TOT KJEL NH3—N PHOS—DIS PHOS—TOT
FROM OF N—TOTAL N TOTAL ORIrlO
10 DAY FEET M(,/L 4G/L M(,/L MG/L ? MG/L
73/04/15 10 20 u.700 0.? 0 J.006 3.005k 0.02b
73/05/16 09 55 0.620 0.230 0.029 0.005K 0.015
73/06/1 10 00 0.800 0.560 0.021 0.017 0.045
73/07/28 15 40 0.670 0.290 C.009 0.008 0.030
73/08/16 09 co 0.670 1.260 0.050 0.009 0.020
73/09/18 10 25 .580 0.380 0.010 0.013 0.040
73/10/17 10 05 0.820 0.700 0.038 0.020 0.020
73/Il/li 09 15 0.590 1.400 0.084 0.010 0.010
73/ld/15 12 45 0.660 0.500 0.020 0.028 0.045
74/ul/12 1’. 00 0.840 0.200 0.008 0.020 0.035
74/02/02 11 31 0.540 0.035 3.010
74/02/16 09 49 0.530 0.800 0.015 0.0 10
74/03/02 OQ 50 0.900 0.400 0.015 0.0 15 0.03
K VMLUE PSNO*”.J 10 BE
LLSS Ti-sAN INDIC TEL)
-------�
STORET RETRIEVAL DATE 7o/09/09
4725CA PD472 SCA P001350
36 41 13.0 081 58 55.0 4
ABIN000N VA
47 7.5 A 3INGDON
1/SOUTH HOLSTON RESLRVOI 040291
WOLF CREEI(
1 IEPALES 2141204
0000 FEET DEPTH CLASS 00
0063 )
00625
00610
00671
00665
50051
50053
DATE
TIME
DEPTH
N02&N03
TOT KJEL
NF43—N
PHOS—DJS
Pp-4Os—TOT
FLOw
CONDUiT
FROM
OF
N—TOTAL
N
TOTAL
ORTHO
RATE
FLOW—MGD
TO
(JAY
FEET
MG/L
MG/L
MG/L
MG/L P
MG/L P
INST MGO
MONTHLY
73/10/11
09
30
1.000
9.200
3.080
1.470
2.900
J.500
73/11/13
13
30
0.600
15.500
0.710
3.780
8.400
73/12/13
11
00
0.930
15.000
0.230
2.240
4.500
74/01/1’.
20
30
3.360
2.200
0.340
1.450
74/02/14
13
30
2.240
3.500
0.780
2.800
74/03/14
15
30
1.560
7.000
0.070
3.800
74/04/12
13
30
1.240
6.800
0.140
1.450
4.100
74/05/14
13
15
1.080
11.000
0.38J
2.100
4.300
74/06/17
08
40
0.960
6.000
0.100
0.826
1.450
74/01/19
08
00
1.200
3.000
1.700
0.740
1.200
7’./38/)5
14
00
0.320
17.000
0.410
3.450
7.200
74/09/13
11
30
0.320
18.600
2.200
2.500
4. 00
74fl0/14
08
30
0.6’.0
5.700
0.085
1.400
2.200
-------�
STORET RETRiEVAL DATE 76/09/09
4725 A 1P4725XA P003500
36 48 00.0 081 40 30.0 4
TOwN OF CHILHOWIE
47 7.5 CHILAHOWIE
T/SOuTH HOLSTEN RES
MIDDLE FORK HOLSTON RIVER
1 1EPALES 2141204
0000 FEET DEPTH CLASS 00
00630 00625 00610 00671 00665 50051 50053
DATE TIME DEPTH N02&N03 TOT KJEL NH3-N PHOS-DIS PHOS—TOT FLOW CONDUIT
FPOM OF N—TOTAL N TOTAL ORTHO RATE FLO —MGD
TO DAY FEET MG/L MG/L M (,/L MC /L P MG/L P INST MGD MONTHLY
73/11/29 08 00
CP(t)— 0.260 14.000 1.100 6.500 8.000 0.315 0.254
73/11/29 16 00
73/12/28 08 00
CP(T)— 0.540 11.500 0.870 4.400 5.550 0.324 0.356
73/12/28 1#) 00
74/01/31 08 00
CP(T)— 0.440 6.000 0.340 2.760 5.400 0.419 0.457
74/01/31 16 00
74/02/28 08 00
CP(T)— 0.840 5.Ro O 1.950 3.750 0.458 0.485
74/02/28 16 00
74/u3/28 08 00
CP(T)— 0.360 7.700 2.800 4.600 0.481 0.509
74/03/28 16 00
-------�
STORET RETRIEVAL DATE 76/09/09
4725YA SF472SYA P000150
36 43 13.0 081 57 33.0 4
PATRICK HENRY HI SCH, ABINGOON
47 7.5 At3IN&DON
1/SOUTH HOLSTEN RES 040291
UNNAMED STREAM/WOLF CREEK
1IEPALES 2141204
0000 FEET DEPTH CLASS 00
00630
00625
00610
00671
00665
50051
50053
DATE
TIME
DEPTr4
N02&N03
TOT KJEL
NH3N
PHOSDIS
PHOS—TOT
FLOW
CONDUIT
FROM
OF
N-TOTAL
N
TOTAL
ORTHO
RATE
FLOW-P4GD
TO
DAY
FEET
MG/L
MG/L
MG/L
MG/L P
MG/L P
INST MGD
MONTHLY
74/05/1’.
15
30
14.300
2.800
0.140
3.900
4.b OO
74/06/1’.
20
00
1.600
1.000K
0.050K
0.100
0.135
74/07/15
13
00
0.120
2.400
0.210
0.220
74/08/13
16
00
1.480
1.500
0.081
0.300
0.470
74/09/16
08
00
1.840
0.680
Q.050
0.315
0.465
74/10/14
20
30
2.320
1.100
0.065
0.630
0.740
74/11/11
19
00
5.040
3.600
0.050K
1.300
1.500
74/12/16
20
00
2.480
1.500
o.0!: 0K
0.700
0.720
75/01/13
20
00
3.120
1.150
0.080K
0.050K
0.900
75/02/14
12
00
2.480
1.000K
0.080K
0.360
0.370
75/03/17
20
00
2.240
1.000K
0.080K
0.125
0.191
75/04/14
12
00
30.000
3.200
0.300
5.300
5.300
75/05/15
22
00
9.400
2.000
0.050K
1.150
1.100
K VALUE KNOWN TO BE
LESS THMN INDICATEU
C
-------�
S
STORET RETRIEVAL DATE 75/09/09
4704A1
36 26 30.0 382 2b 16.0 4
S FORK HOLSION RLVL
47 7.5 BOONE [ jAM
0/BOONE r ES 0’.0291
BANK dELO BOONE DAM ON E BANK
11EPALES 11120’.
0000 FEET DEPTH CLASS 00
00630 00625 00610 01,671 00655
DATE TIME DEPTH N02&N03 TOT KJEL NH3—N PHOS—DIS PHOS—TOT
FROM OF N—TOTAL N TOTAL ORTIlO
TO DAY FEET MG/L HG/L MG/L tlG/L P MG/L “
73/0’./14 08 50- 0.940 0.490 0.240 0.028 0.045
73/05/14 11 20 0.680 0.290 0.113 0.018 0.035
73/06/20 13 35 0.680 1.570 0.150 0.024 0.025
73/07/27 08 10 0.690 0.320 0.084 0.033 0.080
73/08/1 ’. 13 20 0.780 0.200 0.048 0.025 0.030
73/09/09 0.880 0.260 0.040 0.016 0.030
73/10/07 14 10 0.820 1.930 0.223 0.018 0.032
73/11/10 14 25 0.630 1.400 0.154 0.046 0.075
73/12/0 12 30 0.810 0.600 0.144 0.028 0.055
74/01/20 10 45 0.756 0.100K 0.072 0.020 0.040
74/02/12 13 50 0.800 0.500 0.055 0.020 0.050
74/02/27 10 50 0.580 0.800 0.025 0.010 0.050
74/03/28 10 30 0.740 0.500 0.115 0.035 0.045
K VALUE KNOWN 10 8
LESS THAN INDIC,JEO
-------�
STORET RETRIEVAL DATE 76/09/09
4704A2
36 29 13.0 082 11 45.0 4
S FORK t-tOLSTON IVER
47 7.5 BLUFF CiTY
I/BOONE ES 040291
WEAVER RD BRDG S M i NE OF BLUFF CITY
1 1EPALES 211120’.
0000 FEET DEPTH CLASS 00
00630 00625 00610 00671 00665
DATE TiME: DEPTH N02&NO3 TOT KJEL NH3—N PHOS—DIS PHOS—TOT
FROM OF N—TOTAL N TOTAL ORTHO
TO DAY FEET MG/L MG/L MG/L MG/I P MG/L P
73/04/14 10 25 0.720 0.290 0.019 0.005K 0.015
73/05/14 12 45 0.620 0.380 0.013 0.005K 0.010
73/06/20 14 40 0.790 1.230 0.067 0.008 0.010
73/07/27 09 10 0.740 0.370 0.058 0.005K 0.005K
73/08/14 14 25 0.730 0.140 0.021 0.008 0.015
73/09/09 10 40 0.720 0.100K 0.022 0.005K 0.005K
73/10/07 ii 10 0.610 2.600 0.730 0.006 0.006
73/11/10 10 21 0.450 0.275 0.026 0.006 0.015
73/12/0 11 15 0.360 0.800 0.264 0.005K 0.015
74/01/20 14 20 0.528 0.100 0.020 0.005K 0.005K
74/02/12 15 Co 1.700 0.100K 0.015 0.010 0.010
74/02/27 12 50 0.690 0.3C0 0.085 0.020 0.020
74/03/28 12 45 0.730 0.600 0.030 0.005 0.005
K VALUE KNOWN TO BE
LESS THMN INDICATEt )
-------�
STORET RETRIEVAL DATE 76/09/09
4704B1
36 23 30.0 082 23 46.0 4
t300NES CREEK
47 7.5 BOONE DAM
T/bOONE RES 040291
BANK JUST ABOV MOUTH AT FLOURVILLE
1LEPALLS 2111204
0000 FEET DEPTH CLASS 00
00630 00625 00610 00671 00665
DATE TIME DEPTH N02&N03 TOT KJEL NH3 -N PtiOS—DIS PHOS—TOT
FROM OF N-TOTAL N TOTAL ORTHO
TO DAY FEET MG/L MG/L MG/I MG/L P 14G/L i
73/04/14 08 40 1.400 1.260 0.031 0.005K 0.015
73/05/14 11 05 1.320 0.260 0.030 0.014 0.040
73/06/20 13 20 1.380 0.075 0.023 0.050
73/07/27 07 57 1.340 0.520 0.095 0.020 0.075
73/08/14 13 03 1.240 0.200 0.017 0.027 0.065
73/09/09 1.200 0.255 0.031 0.020 0.045
73/10/07 13 50 1.060 1.950 v.399 0.006 0.025
73/11/10 14 00 0.900 0.400 0.027 0.020 0.055
73/12/Od 12 45 1.200 0.900 0.064 0.012 0.030
74/01/20 10 IS 1.680 0.100K 0.012 0.012 0.03S
74/02/12 11 20 0.520 0.300 0.005K 0.005K 0.015
74/02/27 10 26 1.530 0.300 0.035 0.010 0.025
74/03/2H 10 00 1.520 0.300 0.015 0.010 (i.030
K VALUE KNOWN TO BE
LESS THAN INDICATEL )
-------�
STORE! RETRIEVAL DATE 76/09/09
4704C 1
36 23 13.0 082 23 35.0 4
CARROLL CREEK
47 7.5 BOONE DAM
T/BOONE RES 040291
BROG JUST A OV MOUTH 1 MI NE CROCH XRO
11EPALES 211120’.
0000 FEET DEPTH CLASS 00
00630 00625 00610 00671 00665
DATE TIME DEPTH NO2 NO3 TOT KJEL Nr13-N PHOS—DIS PHOS-TOT
FROM OF N-TOTAL N TOTAL ORIHO
TO DAY FEET MO/L MG/L MO/L MG/L P MG/L P
73/04/14 08 27 2.060 1.800 0.069 0.007 0.020
73/05/14 10 50 1.800 0.200 0.048 0.013 0.035
73/06/20 13 10 1.863 0.600 0.022 0.023 0.050
73/07/27 07 50 1.700 0.190 0.066 0.014 0.060
73/38/14 12 55 1.580 0.270 0.023 0.020 0.035
73/09/09 1.540 0.280 0.060 0.030 0.065
73/10/07 13 45 1.480 0.850 0.052 0.018 0.065
73/11/10 14 10 1.540 0.450 0.027 0.022 0.040
73/12/08 13 00 1.760 0.100 0.016 0.020 0.035
74/01/20 10 10 2.100 0.100K 0.016 0.012 0.040
74/02/12 11 15 2.200 0.400 0.010 0.015 0.025
7’./02/27 10 18 2.000 0.500 0.030 0.010 0.030
74/03/28 09 55 2.000 0.200 0.020 0.00 5K 0.035
K VALUE KNOWN TO BE
LESS Il-IAN INDICATED
-------�
•4
S
STORET RETRIEVAL DATE 76/09/-09
4704Q 1
36 23 02.0 082 19 15.0 4
WATAUGA RIVER
47 7.5 BLUFF CITY
I/BOONE RES 040291
GIBSON BRDG DOWNSTREAM OF SAYLOR ISLAND
11EPALES 2111204
0000 FEET DEPTIl CLASS 00
00630 00625 00610 00671 00665
DATE TIME DEPTH F4026N03 TOT KJEL NR3—N PHOS—DIS PROS—TOT
FROM OF N—TOTAL N TOTAL ORTHO
TO DAY FEET PIG/L MG/L MG/L MG/L P MG/L P
73/04/14 11 05 0.680 1.050 0.730 0.037 0.055
73/05/14 14 05 0.570 3.200 0.760 0.029 0.065
73/06/20 15 35 ).830 3.360 0.740 0.069 0.085
73/07/27 10 05 0.710 0.480 0.252 0.037 0.060
73/08/14 15 25 1.060 0.967 O.62 0.078 0.090
73/09/09 09 4’, 1.260 3,200 1.800 0.160 0.220
73/10/07 10 05 0.990 1.000 0.580 0,154 0.210
73/11/10 09 45 0.740 1.700 1.000 0.037 0.060
73/Ic /08 10 30 0.552 1 .SO0 0.264 0.056 0.070
74/01/20 13 15 0.660 0.192 0.192 0.016 0.035
74/02/12 10 56 u.720 0.500 0.155 0.025 0.040
74/o ?/27 10 00 0.588 0,500 0.135 0.010 0.040
74/03/28 09 40 0.850 1.700 1.250 0.030 0.065
-------�
STORET RETRIEVAL DATE 76/09/09
470411
36 29 56.0 082 18 03.0 4
bEAVER CREE c
47 7.5 BLUFF CITY
1/BOONE RES 040291
SEC RD BROG .75 MI N OF BUFFALO
11Er ALES 2111204
0000 FEEt DEPTH CLASS 00
00630 00625 00610 00671 00665
DATE TIME DEPTH N02&N03 TOT KJEL f*43-N PHOS—DIS PHOS—TOT
FROM OF N—TOTAL N TOTAL ORTHO
TO DAY FEET MG/L PlG/L MG/L MG/L P M&/L ‘
73/04/14 09 57 1.700 1.200 0.540 0.490 0.580
73/05/14 12 25 1.620 0.675 0.220 0.270 0.400
73/06/20 14 15 1.940 2.100 0,450 0.820 0.87&
73/07/27 08 52 1.540 1.300 0.320 0.520 0.680
73/08/14 14 03 1.420 0.970 0.147 0.420 0.585
73/09/09 11 00 1.440 3.400 1.200 1.160 1.350
73/10/07 11 45 1.240 2.700 1.260 1.440 1.800
73/11/10 10 50 1.640 3.000 1.200 1.080
73/12/08 11 30 1.763 2.000 0.630 0.680 0.890
74/01/20 14 40 1.900 0.100K 0.080 0.096 0.150
74/02/12 14 35 1.760 0.500 0.100 0.180 0.250
74/02/27 11 30 1.700 1.000 0.105 J.145 0.230
74/03/28 12 00 1.850 0.900 0.175 0.160 0.220
K VALUE KNOWN TO Ek.
LESS THAN INDICATED
.1
-------�
4
STORET i ETRIEVAL DATE 76/09/09
47A4F 1
36 8 48.0 082 21 ‘.2.0 4
MUDDY CREEK
47 7.5 BLUFF CITY
T/ROONE ES 040291
PRIVATE RD BROG SE OF MUDOY CREEK CHURCH
11EPALES 2111204
0000 FEET DEPTH CLASS 00
00630 00625 00610 00671 00665
DATE TIME DEPTH N02&N03 TOT KJEL NH3—N PHOS—DIS PHOS—TOT
FROM OF N-TOTAL N TOTAL ORTHO
TO DAY FEET MG/L MG/L MG/L MG/L P MG/L P
73/04/14 09 35 1.300 0.110 0.026 0.032 0.045
73/05/1’. 12 00 1.140 0.100K 0.023 0.027 0.050
73/06/20 14 03 1.180 2.100 0.078 0.044 0.070
73/07/27 08 38 0.780 1.100 0.075 0.065 0.140
73/08/14 13 50 1.040 0.250 0.016 0.058 0.080
73/09/09 1.100 0.220 0.054 0.120 0.1’+S
73/10/07 11 55 0.860 1.350 o.006 0.014 0.050
73/11/10 11 10 0.850 0.550 0.024 0.108
73/12/08 11 50 1.260 1.700 0.124 0.050 0.015
74/01/20 11 15 1.520 0.100 0.014 0.026 0.035
74/32/1 14 20 1.430 0.200 0.020 0.020 0.020
74/0 /27 11 20 1.300 0.400 0.035 0.025 0.025
74/0.3/28 11 15 1.340 0.400 0.020 0.025 0.025
ç V LU€. KNOWN Iii E
LESS THMN INt)ICuTED
-------�
STORET RETRIEVAL DATE 76/09/09
4704G1
36 29 00.0 082 23 45.0 4
WAGNER CP EEK
47 7.5 BOONE DAM
1/bOONE ES 040291
bANP AT SE EDGE OF HOLSTON
I 1EPALES 2111204
0000 FEET DEPTH CLASS 00
00630 00625 00610 00671 00665
DATE TIME DEPTH NO2 .NO3 TOT KJEL NP-13—N PHOS—DIS PHOS—TOT
FROM OF N—TOTAL N TOTAL ORTHO
TO DAY FEET MG/L MG/L HG/L MG/L P MG/L i
73/04/14 09 25 1.700 0.290 0.044 0.03b 0.065
73/05/14 11 55 1.500 0.150 0.010 0.015 0.060
73/06/20 13 55 1.500 2.400 0.067 0.036 0.090
73/07/27 08 32 1.400 0.580 0.086 0.170 0.260
73/08/14 13 42 1.500 1.600 0.052 0.066 0.155
73/09/09 11 30 1.500 0.160 0.048 0.039 0. Ob S
73/10/07 12 10 1.260 1.650 0.110 0.064 0.145
73/11/10 11 15 1.420 0.800 0.061 0.071
73/12 08 12 00 1.600 0.500 0.022 0.026 0.130
74/01/20 11 10 1.920 0.200 0.008 0.016 0.075
74/02/12 14 10 1.850 0.300 0.015 0.015 0.030
74/02/27 11 10 1.700 0.400 0.035 0.020 0.045
74/0J/28 11 00 1.760 0.450 0.035 0.025 0.042
4 4.
-------�
STORET RETRIEVAL DATE 76/09/09
4704H1
36 27 30.0 082 25 15.0 4
GAMMON CREEK
41 7.5 BOONE DAM
T/ 3OONE r ES 040291
3ANK NEXT TO SEC RD .15 MI S OF TRI—CITY
I 1EPALES 2111204
0000 FEET DEPTH CLASS 00
00630 00625 00610 00671 00665
DATE TIME DEPTH NO2 NO3 TOT KJEL NH3-N PP-IOS-OIS PHOS—TOT
FROM OF N-TOTAL N TOTAL ORTHO
TO DAY FEET M(,/L MG/L MG/L MG/L P MG/L P
73/04/14 09 07 1.800 0.100K 0.045 0.005K 0.010
73/C5/14 11 30 1.620 0.100K 0.018 0.009 0.015
73/06/20 13 45 1.620 1.540 0.084 0.013 0.015
73/07/27 08 ?2 1.540 0.800 0.040 0.011 0.020
73/08/14 13 30 1.520 0.100K 0.020 0.011 0.015
73/09/09 11 46 1.520 0.120 0.039 0.011 0.020
73/10/07 14 20 1.460 4.300 2.100 0.006 0.025
73/11/10 14 45 1.400 0.100K 0.024 0.009 0.010
73/12/0e3 12 10 1.520 1.300 0.020 0.005K 0.01 2
74/01/20 2.000 0. 100K 0.012 0.00 5K 0.015
74/ /12 14 03 1.900 0.500 0.005K 0.030 0.065
74/02/27 11 05 1.800 0.100 0.005 0.020
74/03/28 10 45 1.850 0.200 0.020 0.005 0.010
K VALUE KNOWN TO dE
LESS THAN INDICMTEU
-------�
STORET RETRIEVAL DATE 76/09/09
4704J1
36 27 30.0 082 15 29.0 4
Ii’IDIAN CREEK
47 7.5 BLUFF CITY
T/dOONE RESERVOIR 040291
2NDRY RD BNDG .5 MI S OF BLUFF CITY
IIEPALES 2111204
0000 FEET DEPTH CLASS 00
00630 00625 00610 00671 00665
DATE TIME DEPTH N02&N03 TOT KJEL NH3—N PHOS-DIS PHOS—TOT
FROM OF N—TOTAL N TOTAL ORTHO
TO DAY FEET M(,/L MG/L MG/L MG/L P MG/L
73/05/14 13 40 0.680 0.270 0.029 0.010 0.025K
73/06/20 15 10 1.080 1.900 0.052 0.017 0.025
73/07/27 09 40 0.980 1.285 0.115 0.028 0.110
73/08/14 14 c5 1.000 0.290 0.019 0.015 0.035
73/09/09 10 15 1.120 0.200 0.040 0.010 0.025
73/10/07 10 35 0.87C 0.750 0.110 0.011 0.035
73/11/10 10 10 0.700 0.600 0.032 0.014 0.020
73/12/08 11 05 0.800 0.600 0.024 0.012 0.015
74/01/20 13 45 1.120 0.1001< 0.008 0.008 0.010
74/u2/12 15 27 0.940 0.200 0.005 0.012 0.012
74/02/27 13 20 0.924 0.100K 0.010 0.010 0.020
74/03/28 13 30 0.924 0.400 0.020 0.010 0.010
K VALUE KNOWN TO 8E
LESS THAN INDICATED
S
-------�
4 —
STORET RETRIEVAL DATE 76/09/09
K VALUE KNOWN TO BE
LESS THAN INDICATED
4704K!
36 27 57.0 082 13 15.0 4
OP Y CREEK
47 7.5 KEENaui C,
T/dOONE RESERVOIR 040291
2NORY RD 13RDG 2 MI E OF BLUFF CITY
I1EPALES 2111204
0000 FEET DEPTH CLASS 00
00630
00625
00610
00671
00665
DATE
TIME
DEPTH
N02&N03
TOT KJEL
Nih-N
PHOS—DIS
PHOS-TOT
FROM
OF
N—TOTAL
N
TOTAL
ORTrIO
TO
DAY
FEET
MG/L
MG/L
MG/L
MG/L P
MG/L P
73/05/14
13
15
0.023
O.ioorc
0.013
0.010
0.( 15
73/07/27
09
32
0.087
0.170
0.046
0.012
0.027
74/02/12
15
15
0.200
0.100
0.005
0.010
0.020
74/02/27
13
06
0.148
0.900
0.300
0.010
0.035
74/03/28
13
15
0.140
0.600
0.035
0.015
0.025
-------�
STORET RETRIEVAL DATE 76/09/09
4704L1
36 28 38.0 082 12 .10.0 4
POSSUM Cr EEK
47 7.5 KEEN UNG
T/BOONE ESERV0IW 040291
BANK 3 MI ENE OF BLUFF CITY
1 IEPALES 2111204
0000 FEET DEPTH CLASS 00
00630 00625 00610 00671 00665
DATE TIME DEPTH N02&N03 TOT KJEL NH3-N PHOS—DIS PHOS-TOT
FROM OF N-TOTAL N TOTAL ORTHO
TO DAY FEET MG/L MG/I MG/L t4G/L P MG/I P
73/05/14 13 00 0.147 0.290 0.023 0.008 0.015
73/06/20 14 55 0.370 3.900 0.115 0.066 0.105
73/07/27 09 2? 0.400 0.150 0.060 0.019 0.020
73/08/14 14 35 0.378 0.100K 0.015 0.011 0.020
73/09/0w 10 30 0.440 0.340 0.078 0.020 0.035
73/10/07 10 50 0.140 1,200 0.068 0.020 0.030
73/11/10 10 20 0.147 0.475 0.052 0.011 0.011
73/12/OM 11 10 0.3 2 0.350 0.076 0.005K 0.005
74/01/20 14 10 0.460 0.100 0.012 0.008 0.010
74/ 2/12 15 10 0.570 0.300 0.010 0.010 0.025
74/02/27 13 00 0.4b0 0.400 0.055 0.010 0.030
74/03/28 13 00 0.470 0.500 0.030 0.005 0.015
K VALUE KNOWN TO 3E
LESS THAN INDICATED
a
-------�
STORET RETRIEVAL DATE 76/09/09
4704 0C AS47O4DC P012000
36 21 12.0 082 14 58.0 4
ELIZA8ETHTON
47 7.5 ELIZABETHTON
T/BOONE RESERVOIR 040291
WATAUGA RIVER
IIEPALES 2141204
0000 FEET DEPTH CLASS 00
00630 00625 00610 00671 00665 50051 50053
DATE TIME DEPTr NO2 .NO3 TOT KJEL NH3—N PHOS—DIS PHOS—TOT FLOW CONDUIT
FROM OF N-TOTAL N TOTAL ORTHO RATE FLOW—MGD
TO DAY FEET MG/L MG/L MG/L MG/I P MG/L P INST MGD MONTHLY
73/06/04 01 00 6.800 1.200 0.315 1.800 2.300 2.200 2.500
73/07/05 12 00
CP(T)— 8.800 1.250 0.130 0.550 0.900 3.800 2.000
73/07/06 12 00
73/08/05 01 00
CP(T)— 11.400 0.580 0.350 1.540 1.950 1.100 1.710
73/08/06 01 00
73/09/08 12 00
CP(T)— 12.100 0.680 0.110 1.300 1.700 1.300 1.500
73/09/09 12 00
73/10/03 12 00
CP(T)— 13.400 1.000 0.950 1.350 1.500 2.100
73/10/04 12 00
74/01/08 12 00
CP(T)— 5.800 0.710 0.110 0.340 0.700 2.200 2.600
74/01/09 12 00
74/02/05 00 00
CP(T)- 5.040 1.000K 0.053 0.680 1.050 2.500 2.000
74/02/05 24 00
74/03/04
CP(T)— 4.100 7.000 0.160 0.270 1.000 2.200 2.200
74/03/05
74/04/03 00 00
CP(1)— 2.760 1.300 0.240 0.275 0.890 3.100 2.500
74/04/04 00 00
74/05/05 12 00
CPIT)— 3.680 4.800 0.086 2.100 3.000 1.900 2.200
74/05/06 12 00
74/06/07 8.400 1.000K 0.050K 1.200 1.650 2.000 2.500
VALUE KNOWN TO t3E
L S It-IAN INDICMEE()
-------�
APPENDIX E
PARAMETRIC RANKINGS OF LAKES
SAMPLED BY F ES IN 1974
STATE OF TENNESSEE
-------�
Lad aT t) ‘ L !i
L4KE
CODE
Li dE PIAME
‘Ei)l .‘.
I0I L ‘
MtflA\
1’ ”-’
‘OO
E N C
‘4EAN
C-1LJ .’C
l..
.
ltuiA’J
I i J -
4luI
L (E A, IcL 1
3.12
47J.. 3l
l0.401
0. .1
‘ . C’+
)U1E ESE VOi
O.05
u. 95
“.2.071
11. ’ .lS
1 ’ .. 0
0.
470
CriLATIIAM . ESE 4VOb
C.1 . )
0.-.60
.73.d OO
6.160
9.60
0.0 4
‘.707
C-iLRO,c E LArcE
0.05 !
0.7d0
‘.4r 4 .bbl
12.162
15.000
0.022
‘.7 s8
C,I ICIdAMAUOA LA.’i
0.03!
0.’. ’.0
463.633
3.111
0.012
471!
•)OUGLAS LM E
0.026
. ‘.4,)
442.d23
‘.. 553
15.000
0.01’.
‘.712
FORT LOUDON ESE v0I
3•354
0.550
‘.65.571
‘ ..776
12.600
0.02s
‘.713
Gr EAT FALLS LAKE
u.020
0.405
‘.44.41?
3.983
14.800
0.007
4717
N1CKAJACK RESEP V01
0.0 1
. ‘ .95
‘.59.833
2.742
9.700
0.025
‘.720
OLD ‘-IICKOkY LArE
0.0S
0.330
469.769
6.93!
9.400
0.01 ’
‘.122
wATTs aAR RES’ )IP
D.03
0.510
462.250
5.550
11.000
0.012
472i
J. , E CY P’ 1EST (ESEkVu1
0.056
0.155
430.200
9.993
15.000
0.021
4724
T1M’ FORu - ESEr VO1R
0.021
0.445
398.167
.739
14.900
0.009
‘.725
SOUT’-’ uiOLSTON LAK’
0.01’.
0.570
4iJ’.75C
7.66?
15.000
0.006
4727
PEELFOOT LAIdE
0.233
0.170
477.917
dO.958
13. 00
0.059
‘.728
W000S ES1RVO1W
0.017
0.320
429.083
7.392
15.000
0.005
a
-------�
‘. I.
PERC€NT uF L icES WITh HIOI R VAL’J S -NLIM9ER OF LAKES WITh r$JChE VrLIJCS)
LAKE MEDIAN MEOIAN 500— MEAN 15— MEDIAN INL)LX
CODE LAKE NAME TOTAL P INORG N MEAN SEC CHLORA MIN DO DISS O THO P N )
4701 LAKE aARKLEY 13 I 2) 40 ( 6) 13 I 2) I 1) 73 I 11) 13 1 2 159
4704 BOONE RESERVOIR 40 I 6) 0 1 0) 73 1 11) 20 I 3) 47 I 7) 20 I ) 200
‘.706 CHEATIIAM RESERVOIR 7 1 1) 47 C 7) 7 C 1) 40 I b) 90 ( 13) 0 1 0) 191
4707 CHEROKEE LAKE 50 1 7) 7 C 1) 53 I 8) 13 1 2) 13 1 0) 40 1 6) 176
4708 CHICKAHAUGA LAKE 67 1 10) 63 1 9) 33 ( 5) 93 1 14) 90 1 13) 70 ( 10) 416
4711 DOUGLAS LAKE 73 ( 11) 63 1 9) 67 ( 10) 80 I 12) 13 1 0) 60 1 9) 396
4T12 FORT LOUDON RESERVOIR 33 I 5) 20 1 3) 27 ( 4) 73 ( 11) 60 C 9) 27 1 4) 240
4713 GREAT FALLS LAKE 87 C 13) 73 ( 11) 60 1 9) 87 C 13) 40 1 6) 93 I 14) 440
4711 NICKAJACK RESERVOIR 50 I 7) 33 C 5) 47 1 7) 100 1 15) 80 1 12) 33 C 5) 343
4720 OLD HICKORY LAKE 20 C 3) 80 ( 12) 20 ( 3) 33 C 5) 100 ( 15) 53 I 8) 306
4722 WATTS BAR RESERVOIR 60 ( 9) 27 C 4) 40 1 6) 67 1 10) 67 1 10) 70 ( 10) 331
4723 J. PERCY PRIEST RESERVOL 27 I 4) 100 C 15) 80 1 12) 27 I 4) 13 I 0) 47 1 7) 294
4724 TIM’S FORD RESERVOIR 80 C 12) 53 ( 8) 100 I 15) 60 1 9) 33 ( 5) 80 ( 12) 406
4725 SOUTH HOLSTON LAKE 100 C 15) 13 C 2) 93 C 14) 47 I 7) 13 C 0) 87 1 13) 353
4727 REELFOOT LAKE 0 ( 0) 93 1 14) 0 C 0) 0 C 0) 53 1 8) 7 1 1) 153
4728 WOODS RESERVOIR
93 ( 14) 87 1 13) 87 1 13) 53 C 8)
13 ( 0) 100 1 15) 433
-------� |