U.S. ENVIRONMENTAL PROTECTION AGENCY
NATIONAL EUTROPHICATION SURVEY
WORKING PAPER SERIES
REPORT
ON
LAKE LAVOH
COLLIN COUNTY
TEXAS
EPA REGION VI
WDRKING PAPER No, #19
CORVALLIS ENVIRONMENTAL RESEARCH LABORATORY - CORVALLIS, OREGON
and
ENVIRONMENTAL MONITORING & SUPPORT LABORATORY - LAS VEGAS, NEVADA
699-440
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REPORT
ON
LAKE LAVON
COLLIN COUNTY
TEXAS
EPA REGION VI
WbRKiNG PAPER No, $19
WITH THE COOPERATION OF THE
TEXAS WATER QUALITY BOARD
AND THE
TEXAS NATIONAL GUARD
FEBRUARY, 1977
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CONTENTS
Page
Foreward ii
List of Texas Study Reservoirs iv
Lake and Drainage Area Map vi
Sections
I. Conclusions 1
II. Lake and Drainage Basin Characteristics 3
III. Lake Water Quality Summary 4
IV. Nutrient Loadings 10
V. Literature Reviewed 16
VI. Appendices 17
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FOREWORD
The National Eutrophication Survey was initiated in 1972 in
response to an Administration commitment to investigate the nation-
wide threat of accelerated eutrophication to freshwater lakes and
reservoirs.
OBJECTIVES
The Survey was designed to develop, in conjunction with state
environmental agencies, information on nutrient sources, concentrations,
and impact on selected freshwater lakes as a basis for formulating
comprehensive and coordinated national, regional, and state management
practices relating to point-source discharge reduction and non-point
source pollution abatement in lake watersheds.
ANALYTIC APPROACH
The mathematical and statistical procedures selected for the
Survey's eutrophication analysis are based on related concepts that:
a. A generalized representation or model relating
sources, concentrations, and impacts can be constructed.
b. By applying measurements of relevant parameters
associated with lake degradation, the generalized model
can be transformed into an operational representation of
a lake, its drainage basin, and related nutrients.
c. With such a transformation, an assessment of the
potential for eutrophication control can be made.
LAKE ANALYSIS
In this report, the first stage of evaluation of lake and water-
shed data collected from the study lake and its drainage basin is
documented. The report is formatted to provide state environmental
agencies with specific information for basin planning [§303(e)], water
quality criteria/standards review [§303(c)], clean lakes [§314(a,b)],
and water quality monitoring [§106 and §305(b)] activities mandated
by the Federal Water Pollution Control Act Amendments of 1972.
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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
fresh water 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.
ACKNOWLEDGEMENT
The staff of the National Eutrophication Survey (Office of
Research & Development, U. S. Environmental Protection Agency)
expresses sincere appreciation to the Texas Water Quality Board
for professional involvement, to the Texas National Guard for
conducting the tributary sampling phase of the Survey, and to
those Texas wastewater treatment plant operators who voluntarily
provided effluent samples.
Hugh C. Yantis, Jr., Executive Director of the Texas Water
Quality Board, and John B. Latchford, Jr., Director, and the staff
of the Field Operations Division provided invaluable lake documen-
tation and counsel during the Survey, reviewed the preliminary
reports, and provided critiques most useful in the preparation of
this Working Paper series.
Major General Thomas Bishop, the Adjutant General of Texas,
and Project Officer Colonel William L. Seals, who directed the
volunteer efforts of the Texas National Guardsmen, are also grate-
fully acknowledged for their assistance to the Survey.
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iv
NATIONAL EUTROPHICATION SURVEY
STUDY RESERVOIRS
State of Texas
NAME
Amistad
Bastrop
Bel ton
Braunig
Brownwood
Buchanan
Caddo
Calaveras
Canyon
Colorado City
Corpus Christi
Diversion
Eagle Mountain
Fort Phantom Hill
Houston
Kemp
Lake O'The Pines
Lavon
Lewisville (Garza-Little Elm)
Livingston
COUNTY
Val Verde
Bastrop
Bell, Coryell
Bexar
Brown
Burnet, Llano
Harrison, Marion, TX;
Caddo Parish, LA
Bexar
Comal
Mitchell
Jim Wells, Live Oak, San
Patricio
Archer, Baylor
Tarrant, Wise
Jones
Harris
Baylor
Camp, Marion, Morris,
Upshur
Coll in
Denton
Polk, San Jacinto, Trinity,
Walker
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Lyndon B. Johnson
Medina
Meredith
0. C. Fisher (San Angelo)
Palestine
Possum Kingdom
Sam Rayburn
Somerville
E. V. Spence
Stamford
Still house Hollow
Tawakoni
Texoma
Travis
Trinidad
Twin Buttes
White River
Whitney
Wright Patman (Texarkana)
Burnet, Llano
Bandera, Medina
Hutchinson, Moore,
Potter
Tom Green
Anderson, Cherokee,
Henderson, Smith
Palo Pinto, Stephens,
Young
Angelina, Jasper
Nacogdoches, Sabine, San
Augustine
Burleson, Lee, Washington
Coke
Haskell
Bell
Hunt, Rains, Van Zandt
Cooke, Grayson TX; Bryan,
Johnston, Love, Marshall, OK
Burnet, Travis
Henderson
Tom Green
Crosby
Bosque, Hill
Bowie, Cass
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T'
LAKE LAVON
® Tributary Sampling Site
x Lake Sampling Site
y Sewage Treatment Facility
^ Drainage Area Boundary
Land Subject to Inundation
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LAKE LAVON
STORE! NO. 4819
I. CONCLUSIONS
A. Trophic Condition:
Survey data indicate that Lake Lavon is eutrophic; i.e, well
supplied with nutrients and quite productive. Whether nutrient
enrichment is beneficial or deleterious depends on the actual
or potential effect on the uses of the lake. In this regard, the
Texas Water Quality Board has indicated that there is little or
no known impairment of the designated beneficial uses of this lake.
Lake Lavon ranked twenty-seventh in overall trophic quality when
the 39 Texas reservoirs sampled in 1974 were compared using a combi-
nation of six parameters*. Thirty of the reservoirs had less
median total phosphorus, 29 had less and two had the same median
dissolved orthophosphorus, 26 had less and one had the same median
inorganic nitrogen, six had less mean chlorophyll d_, and 37 had
greater mean Secchi disc transparency. No significant depression
of dissolved oxygen with depth (to 6.7 meters) occurred at any of
the four sampling times.
Survey limnologists noted the lake was very turbid. The tur-
bidity of Lake Lavon is noted in another report (Moczygemba, 1974).
B. Rate-Limiting Nutrient:
Due to significant changes in nutrient levels in the sample,
the algal assay results are not representative of conditions in
the lake at the time the sample was taken.
* See Appendix A.
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The lake data indicate that most sampling stations were nitro-
gen limited in March, August, and October, but all were phosphorus
limited in May. However, because of turbidity, primary produc-
tivity probably is frequently light-limited rather than nutrient-
limited.
C. Nutrient Controllability:
1. Point sources—It is calculated that known point sources
contributed about 31% of the total phosphorus load to Lake Lavon
during the sampling year. The McKinney South plant contributed
nearly 19% of the total phosphorus load.
During the sampling year, the lake received a total phosphorus
loading almost 2.5 times that proposed by Vollenweider (Vollen-
weider and Dillon, 1974) as a eutrophic loading (see page 15). It
seems unlikely that even 85% removal of phosphorus at all the treat-
ment plants would result in significant improvement in the trophic
condition of the lake, especially in view of the probability that
primary productivity frequently is light-limited.
2. Non-point sources—It is estimated that non-point sources
contributed about 69% of the total phosphorus load to Lake Lavon
during the sampling year. The East Fork of the Trinity River con-
tributed 32.8% of the total phosphorus load, and Wilson and Pilot
Grove Creeks contributed 12.2% each.
Note that the phosphorus export rates of the East Fork and
Wilson Creek were somewhat high at 54 and 37 kg/km2/yr, respectively
(see page 14); these high rates may be due to urban runoff and/or
unknown point sources in the vicinity of the City of McKinney.
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II. LAKE AND DRAINAGE BASIN CHARACTERISTICS*
A. Lake Morphometry :
1. Surface area: 86.43 kilometers2.
2. Mean depth: 6.5 meters.
3. Maximum depth: 11.9 meters.
4. Volume: 563.131 x 106 m3.
5. Mean hydraulic retention time: 1.4 years (based on 1972-1976
mean outflow).
B. Tributary and Outlet:
(See Appendix C for flow data)
1. Tributaries -
Name
East Fork Trinity River
White Rock Creek
Wilson Creek
Sister Grove Creek
Pilot Grove Creek
Indian Creek
Minor tributaries &
immediate drainage -
Drainage
area (km2)*
536.1
18.1
295.3
292.7
507.6
115.3
184.4
Mean flow
(m3/sec)*
4.230
0.149
2.050
1.981
3.410
0.830
0.802
Totals 1,949.5
2. Outlet -
East Fork Trinity River 1,994.3**
C. Precipitation***:
1. Year of sampling: 117.1 centimeters.
2. Mean annual: 96.8 centimeters.
13.452
10.840**
t Table of metric conversions—Appendix B.
tt At conservation pool level; Barrows, 1977.
* For limits of accuracy, see Working Paper No. 175, "...Survey Methods,
1973-1976".
** Includes area of lake; lesser outflow due to evaporation and diversions.
*** See Working Paper No. 175.
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III. LAKE WATER QUALITY SUMMARY
Lake Lavon was sampled four times in 1974 by means of a pontoon-
equipped Huey helicopter. Each time, samples for physical and chemical
parameters were collected from two or more depths at four stations on
the lake (see map, page vi). 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 6.7 meters at station 1, 3.0 meters at station 2, 4.9 meters
at station 3, and 1.8 meters at station 4.
The sampling results are presented in full in Appendix D and are
summarized in the following table.
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PARAMETER
TEMP
OISS OXY (MG/L)
CNDCTVY (MCROMO)
PH (STAND UNITS)
TOT ALK (MG/L)
TOT P (MG/L)
ORTHO P (MG/L)
N02»N03 (MG/L)
AMMONIA (MG/L)
KJEL N (MG/L)
INORG N (MG/L)
TOTAL N (MG/L)
CHLRPYL A (UG/L)
SECCHI (METERS)
A. SUMMARY OF PHYSICAL AND
1ST SAMPLING ( 3/ 8/74)
4 SITES
RANGE
16.6 - 20.0
8.0 - 9.4
328. - 360.
8.1 - 8.2
171. - 174.
0.056 - 0.098
0.011 - 0.021
0.090 - 0.120
0.050 - 0.080
0.200 - 0.400
0.150 - 0.200
0.290 - 0.520
1.3 - 5.2
0.3 - 0.5
CHEMICAL CHARACTERISTIC.. FOR LAVON WESERVOIR
STORET CODE 4819
2ND SAMPLING ( 5/20/74)
4 SITES
3RD SAMPLING ( 8/12/74)
3 SITES
MEAN
18.2
8.6
341.
8.1
172.
0.067
0.015
0.105
0.070
0.245
0.175
0.351
2.5
0.4
MEDIAN
17.8
8.6
340.
b.l
171.
0.064
0.014
0.100
0.070
0.200
0.170
0.310
1.7
0.5
RANGE
25.3
6.6
338.
8.1
131.
0.054
0.008
0.500
0.020
0.300
0.520
0.340
4.0
0.2
- 27.0
7.0
- 350.
8.4
- 136.
- 0.111
- 0.023
- 0.580
- 0.050
- 0.700
- 0.610
- 1.280
- 15.0
0.5
MEAN
25.9
6.8
344.
8.2
133.
0.069
0.018
0.536
0.031
0.445
0.567
0.982
8.3
0.3
MEDIAN
25.8
6.8
344.
8.3
132.
0.061
0.018
O.S40
0.030
0.400
0.570
0.910
7.0
0.3
RANGE
25.6
6.2
308.
8.3
131.
0.054
0.014
0.170
0.050
0.200
0.230
0.370
2.9
0.3
- 27.5
7.0
- 328.
8.4
- 147.
- 0.080
- 0.027
- 0.210
- 0.090
- 0.400
- 0.300
- 0.610
6.7
0.5
MEAN
26.3
6.7
317.
8.4
140.
0.069
0.018
0.194
0.061
0.300
0.256
0.494
4.4
0.4
MEOIAN
26.3
6.8
316.
8.4
143.
0.075
0.016
0.200
0.060
0.300
0.250
•'.500
3.5
0.4
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A. SUMMARY OF PHYSICAL AND CHEMICAL CHARACTERSiICS FOH LAVON RESERVOIR
STORET CODE 4819
4TH SAMPLING (10/31/74)
PARAMETER
TEMP (C)
DISS OXY (MG/L)
CNDCTVY (MCROMO)
PH (STAND UNITS)
TOT AUK (MG/D
TOT P (MG/L)
ORTHO P (MG/L)
N02»N03 (MG/L)
AMMONIA (MG/L)
KJEL N (MG/L)
INORG N (MG/L)
TOTAL N (MG/L)
CHLRPYL A (UG/D
SECCHI (METERS)
RANGE
19.6 - 20.7
6.6 -
219. - 291.
8.1 -
127. -
0.057 - 0.083
0.012 - 0.038
0.040 - 0.130
0.030 - 0.040
0.200 - 0.900
0.080 - 0.160
0.310 - 0.990
4.8 -
0.3 -
4 SITES
MEAN
7
6
•
2
>•
• 3
18
0
0
0
0
0
1
6
20.1
7.9
280.
8.2
130.
0.065
0.024
0.095
0.036
0.317
0.131
0.412
6.5
0.4
MEDIAN
20.1
6.1
282.
8.2
130.
0.060
0.025
0.110
0.040
0.300
0.150
0.34b
5.5
0.3
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B. Biological characteristics:
1. Phytoplankton -
Sampling
Date
03/08/74
05/20/74
08/12/74
10/31/74
Dominant
Genera
Algal Units
per ml
1.
2.
3.
4.
5.
1.
2.
3.
4.
5.
Melos i ra sp.
Centric diatoms
Chroomonas sp.
Dactylococcopsis sp.
Anabaena sp.
Other genera
Total
Melosira sp.
Cryptomonas sp.
StephanodlYcus sp.
Chroomonas sjj.
Chlorophytan cells
Total
1. Melosira sp.
2. Oocystis sp.
Stephanodiscus sp.
Closterium spT
ChroomonaT sp.
Other genera
Total
1. Melosira sp.
2. Stephanodiscus SJD.
3. Chroomonas s£.
1,592
166
124
124
83
41
538
566
119
30
30
30
59
834
1,334
714
48
Total
2,096
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2. Chlorophyll a_ -
Chlorophyll a
Sampling
Date
03/08/74
05/20/74
08/12/74
10/31/74
Station
Number
1
2
3
4
1
2
3
4
1
2
3
4
1
2
3
4
1.3
1.7
1.8
5.2
15.0
8.1
6.0
4.0
2.9
3.5
6.7
5.5
4.8
9.1
C. Limiting Nutrient Study:
Significant nutrient changes occurred in the assay sample
during shipment to the laboratory, and the results are not
indicative of conditions in the lake at the time the sample
was taken (03/08/74).
The lake data indicate a temporal and spacial combination
of limiting nutrients. Following is a tabulation of the mean
inorganic nitrogen/orthophosphorus ratios at each of the sampling
stations and times with the indicated limiting nutrient in paren-
theses:
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Station 03/08/74 05/20/74 08/12/74 10/31/74
1
2
3
4
12/1 (N)
12/1 (N)
11/1 (N)
15/1 (P)
34/1 (P)
29/1 (P)
32/1 (P)
34/1 (P)
17/1 (P)
13/1 (N?)
13/1 (N?)
-
6/1 (N)
5/1 (N)
5/1 (N)
5/1 (N)
As indicated on page 1, Lake Lavon is turbid, and primary pro-
ductivity probably is light-limited at times rather than nutrient-
limited. Note that Secchi disc transparencies ranged from 0.2 to
0.6 meters, and only 1% of the incident light remained at depths
ranging from 0.6 to 1.5 meters (Appendix D).
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10
IV. NUTRIENT LOADINGS
(See Appendix E for data)
For the determination of nutrient loadings, the Texas National
Guard collected monthly near-surface grab samples from each of the
tributary sites indicated on the map (page vi), except for the months
of April and May when two samples were collected at most of the sites.
Sampling was begun in September, 1974, and was completed in August,
1975.
Through an interagency agreement, stream flow estimates for the
year of sampling and a "normalized" or average year were provided by
the Texas District Office of the U.S. Geological Survey for the
tributary sites nearest the lake.
In this report, nutrient loads for gaged and sampled tributaries,
except for Indian Creek, were determined by using a modification of
a U.S. Geological Survey computer program for calculating stream
loadings*. Nutrient loads shown are those measured minus point-
source loads, if any.
Nutrient loads for unsampled "minor tributaries and immediate
drainage" ("ZZ" of U.S.G.S.) were estimated using the means of the
nutrient loads at stations C-l, F-l, and G-l, in kg/km2/year, and
multiplying the means by the ZZ area in km2. This method was also
used to estimate the non-point loads for Indian Creek which received
an estimated point-source phosphorus load greater than the load
measured at station J-l.
See Working Paper No. 175.
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11
The operators of the Farmersville, McKinney, Princeton, Seis Lagos,
and Van Alstyne wastewater treatment plants provided monthly effluent
samples and corresponding flow data. Posey Mobile Home Acres and the
communities of Anna, Blue Ridge, Leonard, Tom Bean, and Trenton did
not participate; nutrient loads from these sources were estimated at
1.134 kg P and 3.401 kg N/capita/year, and flows were estimated at
0.3785 m3/capita/day.
A. Waste Sources:
1. Known municipal* -
Name
Anna
Blue Ridge
Farmersville
Leonard
McKinney
North
Pop.
Served
325
400
2,500
1,000
1,500
Treatment
stab, pond
stab, pond
tr. filter
stab, pond
tr. filter
Mean Flow
(m3/d)
123.0
151.4
808.7
378.5
566.1
Receiving
Water
Throckmorton
Creek
Pilot Grove
Creek
Elm Creek
Arnold Creek
Unnamed Stre<
South
Posey Mobile
Home Acres
Princeton
Seis Lagos
Tom Bean
Trenton
Van Alstyne
2. Known industrial - None
16,000
28
2,000
40
400
650
2,000
stab, pond
act. sludge
stab, pond
act. sludge
stab, pond
stab, pond
tr. filter
5,509.5
10.6
953.6
76.5
151.4
246.0
640.8
E. Fork Trinity
River
Wilson Creek
Sloan Creek
Ticky Creek
White Rock Creek
Pilot Grove Creek
Indian Creek
Sister Grove
Creek
* Treatment plant questionnaires; Anonymous, 1971.
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12
B. Annual Total Phosphorus Loading - Average Year:
1. Inputs -
kg P/ % of
Source yr total
a. Tributaries (non-point load) -
East Fork Trinity River 29,130 32.8
White Rock Creek 120 0.1
Wilson Creek 10,830 12.2
Sister Grove Creek 5,175 5.8
Pilot Grove Creek 10,830 12.2
Indian Creek 1,730 2.0
b. Minor tributaries & immediate
drainage (non-point load) - 2,765 3.1
c. Known municipal STP's -
Anna 370 0.4
Blue Ridge 455 0.5
Farmersville 1,405 1.6
Leonard 1,135 1.3
McKinney
North 1,310 1.5
South 16,655 18.8
Posey Mobile Home Acres 30 <0.1
Princeton 3,790 4.3
Seis Lagos 145 0.2
Tom Bean 455 0.5
Trenton 735 0.8
Van Alstyne 775 0.9
d. Septic tanks* - 80 0.1
e. Known industrial - None
f. Direct precipitation** - 785
Total 88,705
2. Outputs -
Lake outlet - East Fork Trinity 20,000
River
3. Net annual P accumulation - 68,705 kg.
^Estimate based on 261 lakeshore dwellings, seven parks, and one camp,
see Working Paper No. 175.
** See Working Paper No. 175.
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13
C. Annual Total Nitrogen Loading - Average Year:
1. Inputs -
kg N/ % of
Source yr total
a. Tributaries (non-point load) -
East Fork Trinity River 274,785 31.5
White Rock Creek 10,420 1.2
Wilson Creek 133,800 15.3
Sister Grove Creek 88,190 10.1
Pilot Grove Creek 138,075 15.8
Indian Creek 44,160 5.1
b. Minor tributaries & immediate
drainage (non-point load) - 70,625 8.1
c. Known municipal STP's -
Anna 1,105 0.1
Blue Ridge 1,360 0.1
Famiersville 1,560 0.2
Leonard 3,400 0.4
McKinney
North 1,695 0.2
South 37,990 4.4
Posey Mobile Home Acres 95 <0.1
Princeton 6,195 0.7
Seis Lagos 360 <0.1
Tom Bean 1,360 0.2
Trenton 2,210 0.3
Van Alstyne 2,220 0.3
d. Septic tanks* - 3,100 0.4
e. Known industrial - None
f. Direct precipitation** - 48.410 5.6
Total 871,115 100.0
2. Outputs -
Lake outlet - East Fork Trinity 395,285
River
3. Net annual N accumulation - 475,830 kg..
*^ Estimate based on 261 lakeshore dwellings, seven parks, and one camp;
see Working Paper No. 175.
** See Working Paper No. 175.
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14
D. Non-point Nutrient Export by Subdrainage Area:
Tributary kg P/km2/yr kg N/km2/yr
East Fork Trinity River 54 513
White Rock Creek 7 576
Wilson Creek 37 453
Sister Grove Creek 18 301
Pilot Grove Creek 21 272
E. Mean Nutrient Concentrations in Ungaged Streams:
Mean Total P Mean Total N
Tributary Cone, (rng/1) Cone, (mg/1)
Elm Creek 0.284 2.008
Arnold Creek 0.109 0.876
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15
F. 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 1.03 0.79 10.1 5.5
Vollenweider phosphorus loadings
(g/m2/yr) based on mean depth and mean
hydraulic retention time of Lake Lavon:
"Dangerous" (eutrophic loading) 0.42
"Permissible" (oligotrophic loading) 0.21
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16
V. LITERATURE REVIEWED
Anonymous, 1971. Inventory of municipal waste facilities. EPA
Pub. No. OWP-1, vol. 6., Wash., DC.
Anonymous, 1974(7). Intensive surface water monitoring survey
for segment 0821 (Lake Lavon). Rept. No. IMS 6, TX Water
Qual. Bd., Austin.
Barrows, David, 1977. Personal communication (reservoir morphometry
and hydraulic retention time). Cayon Proj. Off., Fort Worth
Distr., Corps of Engrs., New Braunfels, TX.
Vollenweider, R. A., and P. J. Dillon, 1974. The application of the
phosphorus loading concept to eutrophication research. Natl.
Res. Council of Canada Pub!. No. 13690, Canada Centre for
Inland Waters, Burlington, Ontario.
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17
VI. APPENDICES
APPENDIX A
LAKE RANKINGS
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S RANKED BY INDEX N05.
RANK LAKE CODE LAKE NAME INDEX NO
i 4909 CANYON RESERVOIR 445
2 4823 LAKE MEREDITH 441
3 4S13 EAGLE MOUNTAIN LAKE 430
4 4816 KEMP LAKE 423
5 4801 AMISTAO LAKE 402
6 4805 3RO*NWOOD LAKE 394
7 480? BASTRUP LAKE 393
8 4838 WHITE RIVER RESERVOIR 390
9 4825 POSSUM KINGDOM RESERVOIR 387
10 4835 TRAVIS LAKE 384
11 4803 8ELTON RESERVOIR 384
12 4831 STILLHOUSE HOLLOW RESERV 372
13 4812 DIVERSION LAKE 372
14 4808 CALAVERAS LAKE 362
15 4839 WHITNEY LAKE 357
16 4822 MEDINA LAKE 342
17 4827 SAM RAYBURN RESERVOIR 322
18 4828 E V SPENCE RESERVOIR 321
19 4837 TWIN 6UTTES RESERVOIR 311
20 4810 LAKE COLORADO CITY 310
21 4824 PALESTINE LAKE 302
22 4818 LAKE OF THE PINES 298
23 4807 CADOO LAKE 297
24 4814 FT PHANTOM HILL LAKE 296
25 48.06 LAKE BUCHANAN 261
26 4830 STAMFORD LAKE 259
27 4819 LAVON RESERVOIR 258
28 4832 TAWAKONI LAKE 253
-------�
LAKES RANKED BY INDEX NOS.
RANK LAKE CODE LAKE NAME INQEX NO
29 4B21 LYNDON 8 JOHNSON LAKE 238
30 4834 TEXOMA LAKE 217
31 4829 SOMEWV1LLE LAKE 208
32 4826 SAN ANGELO RESERVOIR 200
33 4833 TEXAHKANA LAKE 176
34 4815 GARZA LITTLE ELM RESERvO 173
35 4836 TRINIDAD 169
36 4804 8RAUNIG LAKE 159
37 4811 CORPUS CRISTI LAKE 155
38 4817 HOUSTON LAKE 139
39 4820 LIVINGSTON LAKE 91
-------�
PERCENT OF LAKES WITH HIGHER VALUES (NUMBER or LAKES *ITH HIGHE*
LAKE
CODE LAKE NAME
4801 AMISTAO LAKE
4802 8ASTROP LAKE
4803 8ELTON RESERVOIR
4804 BRAUNIG LAKE
4805 BROrfNWOOD LAKE
4806 LAKE BUCHANAN
4807 CAODO LAKE
4808 CALAVERAS LAKE
4809 CANYON RESERVOIR
4810 LAKE COLORADO CITY
4811 CORPUS CRISTI LAKE
4812 DIVERSION LAKE
4813 EAGLE MOUNTAIN LAKE
4814 FT PHANTOM HILL LAKE
4815 GARZA LITTLE ELM RESERVO
4816 KEMP LAKE
4817 HOUSTON LAKE
4818 LAKE OF THE PINES
4819 LAVON RESERVOIR
4820 LIVINGSTON LAKE
4821 LYNDON 8 JOHNSON LAKE
4822 MEDINA LAKE
4823 LAKE MEREDITH
4824 PALESTINE LAKE
4825 POSSUM KINGDOM RESERVOIR
4826 SAN ANOELO RESERVOIR
4827 SAM RAY8URN RESERVOIR
4fl28 E V SPENCE RESERVOIR
MEDIAN
TOTAL P
95
79
92
5
66
47
26
45
99
39
8
68
71
24
34
76
16
54
21
3
39
99
82
54
74
13
59
50
( 36)
( 30)
( 35)
( 2)
( 25)
( 18)
( 10)
( 17)
( 37)
( 14)
( 3)
( 26)
( 27)
( 9)
( 13)
( 29)
( 6)
( 20)
( 8)
( 1)
( 14)
( 37)
< 3D
( 20)
( 28)
( 5)
( 22)
< 19)
MEDIAN
INOSG N
5
76
26
42
70
21
91
100
8
76
47
83
91
66
13
61
16
76
29
3
11
0
91
32
91
45
39
83
( 2)
( 28)
( 10)
( 16)
( 26)
( 7)
( 33)
( 38)
( 3)
( 28)
( 18)
( 31)
I 33)
( 25)
( 5)
( 22)
( 6)
( 28)
( 11)
( 1)
( 4)
( 0)
( 33)
( 12)
( 33)
( 17)
( 15)
( 31)
500-
MEAN SEC
100
82
97
50
29
74
42
47
95
26
18
32
34
21
16
55
0
66
3
39
53
89
71
63
84
8
68
45
( 38)
< 3D
( 37)
( 19)
( 11)
( 28)
( 16)
( 18)
( 36)
( 10)
{ 7)
( 12)
( 13)
( 8)
( 6)
( 21)
( 0)
( 25)
( 1)
( 15)
( 20)
( 34)
< 27)
( 24)
( 3?)
( 3)
( 26)
( 17)
MILAN
CHLOrrfA
100
47
68
8
87
63
32
11
97
42
13
29
79
74
34
55
24
39
84
26
66
37
95
53
S3
0
76
50
( 38)
( 18)
( 26)
( 3)
( 33)
( 24)
( 12)
( 4)
( 37)
( 16)
t 5)
( 11)
( 30)
( 28)
( 13)
( 21)
( 9)
( 15)
( 32)
( 10)
( 25)
( 14)
( 36)
( 20)
( 22)
( 0)
( 29)
( 19)
16-
MIN DO
39 (
17 (
17 (
49 (
58 (
17 (
76 (
67 (
49 (
88 (
61 (
97 (
79 (
95 (
55 (
84 (
72 (
17 (
100 (
17 (
39 (
17 (
39 (
49 (
17 (
88 (
17 (
17 (
14)
0)
0)
17)
22)
0)
29)
25)
17)
33)
23")
37)
30)
36)
21)
32)
27)
0)
38)
0)
14)
0)
14)
17)
0)
33)
0)
0)
MEDIAN
DISb OwTnG P
63 (
92 (
84 (
5 (
84 (
39 (
30 (
92 (
97 (
39 (
8 (
63 (
76 (
16 (
21 <
92 (
11 (
46 (
21 (
3 (
30 <
100 (
63 <
51 <
63 (
46 (
63 (
76 (
21)
34)
3D
2)
31)
14)
10)
34)
37)
14)
3)
21)
28)
6)
7)
34)
4)
17)
7)
1)
10)
38)
21)
19)
21)
17)
21)
28)
INOtX
NO
402
393
384
159
394
261
297
362
445
310
155
372
430
296
173
423
139
298
258
91
238
342
441
302
3d7
200
322
321
-------�
PERCENT OF LAKES *ITH HIGHER VALUES (NUMBER or LAKES *ITH HIGHER VALUES)
LAKE
CODE LAKE NAME
4829 SOMERVILLE UAKE
4830 STAMFORD LAKE
4831 STILLHOUSE HOLLOW RESEKV
4832 TAWAKONI LAKE
4833 TEAARKANA LAKE
4834 TEXOMA LAKE
4635 TRAVIS LAKE
4836 TRINIDAD
4837 TWIN BUTTES RESERVOIR
4838 WHITE RIVER RESERVOIR
4839 WHITNEY LAKE
MEDIAN
TOTAL P
29 (
18 (
88 (
32 <
11 <
39 (
88 (
0 (
59 (
84 <
63 (
ID
7)
33)
12)
4)
14)
33)
0)
22)
32)
24)
MEDIAN
INORG N
55
97
37
70
51
34
21
61
21
61
51
( 21)
: 37)
( 14)
( 26)
( 19)
( 13)
( 7)
< 22)
( 7)
< 22)
( 19)
500-
MEAN SEC
24
5
87
37
13
61
92
11
58
76
79
( 9)
( 2)
( 33)
( 14)
( 5)
( 23)
( 35)
( 4)
( 22)
( 29)
( 30)
MEAN
CHI CRA
3
18
92
21
16
45
82
5
61
89
71
( 1)
( 7)
( 35)
( 8)
( 6)
( 17)
( 3D
I 2)
( 23)
( 34)
( 27)
15-
MIN oo
67
82
17
63
72
17
17
92
49
17
17
( 25)
( 31)
( 0)
( 24)
( 27)
( 0)
( 0)
( 35)
( 17)
( 0)
< 0)
MEDIAN
DISS u*MO P
30 (
39 (
51 I
30 (
13 (
21 (
84 t
0 (
63 (
63 (
76 (
10)
14)
19)
10)
5)
7)
31)
0)
21)
21)
28)
INJEX
NO
20«
259
372
2t>3
176
217
J84
169
311
390
357
-------�
LAKE OATA TO BE USED IN RANKINGS
LAKE
CODE LAKE NAME
4801 AMISTAO LAKE
4802 BASTROP LAKE
4803 BELTON RESERVOIR
4804 BRAUNIG LAKE
4805 BROWNWOOD LAKE
4806 LAKE BUCHANAN
4807 CAODO LAKE
4808 CALAVERAS LAKE
4809 CANYON RESERVOIR
4810 LAKE COLORADO CITY
4811 CORPUS CRISTI LAKE
4812 DIVERSION LAKE
4813 EAGLE MOUNTAIN LAKE
4814 FT PHANTOM HILL LAKE
4815 GARZA LITTLE ELM RESERVO
4816 KEMP LAKE
4817 HOUSTON LAKE
4818 LAKE OF THE PINES
4819 LAVON RESERVOIR
4820 LIVINGSTON LAKE
4821 LYNDON B JOHNSON LAKE
4822 MEDINA LAKE
4823 LAKE MEREDITH
4824 PALESTINE LAKE
4.825 POSSUM KINGDOM RESERVOIR
4826 SAN ANGELO RESERVOIR
4827 SAM RAYBURN RESERVOIR
4828 E V SPENCE RESERVOIR
MEDIAN
TOTAL P
0.013
0.02?
0.016
0.134
0.027
0.036
O.OS5
0.038
0.010
0.042
0.113
0.025
0.024
0.060
0.045
0.023
0.097
0.031
0.063
0.196
0.042
0.010
0.021
0.031
0.023
0.09<3
0.029
0.036
MEDIAN
INORG N
0.500
0.090
0.185
0.150
0.100
0.250
0.070
0.060
0.450
0.090
0.130
0.080
0.070
0.105
0.380
0.110
0.260
0.090
0.180
0.555
0.420
0.600
0.070
0.180
0.070
0.140
0.150
0.080
500-
MEAN SEC
371.47<»
419.917
378.312
461.625
470.375
437.625
463.333
461.667
384.812
473.625
475.187
470.111
469.625
474.909
475.782
455.000
486.187
440.000
485.333
465.469
456.500
403.562
439.312
442.625
419.045
481.000
439.458
462.583
MEAN
CHLOWA
2.042
12.?92
8.025
22.762
4.887
8.606
14.808
22.500
2.500
12.675
19.756
15.867
5.662
6.317
14.156
10.217
16.650
12.919
5.400
16.112
8.100
12.944
3.037
10.619
9.495
24.675
6.267
11.775
15-
MIN DO
14.900
15.000
15.000
14.800
14.400
15.000
11.400
13.000
14.800
10.200
14.000
9.000
11.000
9.800
14.600
10.400
12.400
15.000
8.800
15.000
14.900
15.000
14.VOO
14.800
15.000
10.200
15.000
15.000
MEDIAN
OISS OWTHO P
0.009
0.007
0.007
0.062
0.007
0.012
0.013
0.007
0.006
0.012
0.050
0.009
0.008
0.022
o.oia
0.007
0.036
0.011
o.oia
0.128
0.013
0.004
0.009
0.010
0.009
0.011
0.009
0.008
-------�
LAKE DATA TO BE USED IN RANKINGS
LAKE
CODE LAKE NAME
4829 SOMERVILLE LAKE
0830 STAMFORD LAKE
4631 STILLHOUSE HOLLOW RESEWV
4832 TAWAKONI LAKE
4833 TEXARKANA LAKE
4834 TEXOMA LAKE
4835 TRAVIS LAKE
4836 TRINIDAD
4837 TWIN BUTTES RESERVOIR
4838 WHITE RIVER RESERVOIR
4839 WHITNEY LAKE
MEDIAN
TOTAL P
0.053
0.073
0.018
0.046
0.106
0.042
0.018
0.369
0.029
0.020
0.028
MEDIAN
INOrtG N
0.115
0.060
0.160
0.100
0.120
0.160
0.250
0.110
0.250
0.110
0.120
500-
MEAN SEC
473.833
482.714
406.250
466.417
470.500
451.321
389.913
479.500
454.917
434.500
430.500
MC.AN
CHLORA
24.C91
18.457
3.917
18.246
19.119
12.493
5.595
24.300
8.708
4.333
6.912
15-
MIN DO
13.000
10.600
15.000
13.200
12.400
15.000
15.000
10.000
14.800
15.000
15.000
MEDIAN
OISS OrtTrlO
0.013
0.012
0.010
0.013
0.030
0.018
0.007
0.240
0.009
0.009
0.008
-------�
APPENDIX B
CONVERSION FACTORS
-------�
CONVERSION FACTORS
Hectares x 2.471 = acres
Kilometers x 0.6214 = miles
Meters x 3.281 = feet
Cubic meters x 8.107 x 10"4 = acre/feet
Square kilometers x 0.3861 = square miles
Cubic meters/sec x 35.315 = cubic feet/sec
Centimeters x 0.3937 = inches
Kilograms x 2.205 = pounds
Kilograms/square kilometer x 5.711 = Ibs/square mile
-------�
APPENDIX C
TRIBUTARY FLOW DATA
-------�
TRIBUTARY FLO* INFORMATION
FE*A:>
03/16/76
LA48
0.164
39.077
48.705
2.803
4.814
-------�
FLO*' iNF.Jk'MAT IOS- FOR
0 "i/l-V/o
LA<£ CODE 4«)0
LAKE LAVON
4819FJ
ri 1901
MONTHLY FLO«S AND OAILY FLOWSICMS>
MONTH YEAR MEAN FLO* DAY
9
10
11
12
1
2
3
14
5
6
7
8
10
11
12
1
?
3
4
5
6
7
8
9
10
11
12
1
2
3
4
5
6
7
fl
9
10
11
12
1
?
3
£»
5
b
7
8
74
7<»
74
74
75
75
75
75
75
75
75
75
74
74
74
75
75
75
75
75
75
75
75
74
74
74
74
75
75
75
75
75
75
75
75
7<*
74
74
74
75
75
75
75
75
75
75
75
FLOW DAY
FLOW JAY
FLOW
U.3^0
0.238
1.161
0.176
0.1*7
0.538
0.156
0.215
0.311
0.538
0.028
0.025
3.879
18.831
2.832
2.379
8.693
2.549
3.511
5.295
8.608
0.481
0.425
11.298
4.304
14.527
3.908
3.256
12.823
2.860
2.973
3.625
7.561
0.283
0.238
11.100
7.504
25. 2C?
6.768
5.663
22.257
4.927
5.154
3.455
11.440
0.161
0.105
9
5
2
7
4
1
1
5
3
7
5
2
5
2
7
4
1
1
5
3
7
5
2
9
5
2
7
4
1
1
5
3
7
5
2
7
5
2
7
u
1
1
5
3
7
5
2
O.C
0.083
3.879
0.249
0.2C1
2.945
0.340
O.OH5
0.224
0.082
0.037
O.OOb
1.416
63. 147
4.021
3.285
47. ess
5.550
59.465
3.653
1.359
0.595
0.091
0.595
2.747
32.564
5.862
4.191
201.050
4.531
1.812
3.596
1.048
0.340
0.071
1.27*.
4.766
56.634
10.166
7.277
348.247
7.^72
3. 171
6.230
1.331
0. 178
0.020
19
17
19
17
19
17
19
17
0.096
0.161
1.557
2.b33
0.793
1.727
-------�
iRIo'JTAKr f~i_G.« INFORMATION FOH T£*ftS
LAKE CODE 4819
LAKE LAVON
MEAN MONfHLr Fi_0«S ANO tjAILY Ft_j*S < CMb /
THlsJTARY MONTH
4819ZZ
9
10
11
12
1
2
3
4
5
6
7
8
9
10
11
12
1
2
3
^
5
6
7
8
74
74
74
74
75
75
75
75
75
75
75
75
74
74
74
74
75
75
75
75
75
75
75
75
MEAN FLOW DAY
2.520
1.699
5.720
1.529
1.274
5.040
1.133
1.161
0.793
2.605
0.037
0.023
4.984
3.2CO
12.912
2.605
2. 180
8.353
2.095
2.520
2.803
5.890
0.2P4
0.184
5
2
9
4
1
1
5
3
7
5
2
FLO« DAY
0.0
1.076
0.0
0.0
0.0
0.0
0.0
0.703 19
0.0 17
0.311
0.0
0.020
0.311
0.0
-------�
APPENDIX D
PHYSICAL and CHEMICAL DATA
-------�
STONE? RETRIEVAL OATE 76/02/11
481901
33 02 05.0 096 28 40.0
LAVON »?ES
46085 TEXAS
HEPALES
3
DATE
FROM
TO
74/03/08
74/05/20
74/08/12
74/10/31
DATE
FROM
TO
74/03/08
74/05/20
74/0(3/12
74/10/31
TIME
OF
DAY
15 20
15 20
15 20
15 20
10 05
10 05
10 05
10 05
10 20
10 20
10 20
14 40
14 40
14 40
14 40
TIME
OF
DAY
15 20
15 20
15 20
15 20
10 05
10 05
10 05
10 05
10 20
10 20
10 20
14 40
14 40
14 40
14 40
14 40
14 UO
DEPTH
FEET
0000
0005
0015
0020
0000
0005
0015
0021
0000
0015
0022
0000
0005
0015
0022
DEPTH
FEET
0000
0005
0015
0020
0000
0005
0015
0021
0000
0015
0022
0000
0001
0003
0005
0015
0022
00010
WATEfc
TEMP
CENT
17.1
17.1
17.1
16.6
25.4
25.3
25.3
25.3
26.4
26.3
26.2
20.1
19.8
19.6
19.6
00665
PHOS-TOT
MG/L P
0.056
0.058
0.057
0.060
0.063
0.05"
0.056
0.055
C.064
0.055
0.076
0.083
0.059
0.062
O.G6<*
00300 00077 00094
DO T3ANSP CNDUCTVY
SECCHI FIELD
MG/L INCHES MICKOMHO
18
8.8
9.0
8.4
18
6.8
6.6
6.6
6.6 17
6.8
7.0
3.4 13
7.0
8.2
8.4
32217 00031
CHLRPHYL INCDT LT
A REMNING
UG/L PERCENT
1.3
15.0
2.9
5.5
50.0
1.0
330
331
330
328
341
340
339
338
318
316
328
283
281
281
219
00400 00410
PH T ALK
CAC03
SU MG/L
8.10
8.10
8.10
8.10
8.20
8.15
8.15
8.10
8.40
8.41
8.31
8.17
8.17
8.17
8.15
171
171
172
172
133
131
132
131
145
131
134
131
131
130
128
2111202
0025 FEET DEPTH
00610 00625 00630 00671
NH3-N TOT KJEL N02^N03 PhOS-DIS
TOTAL N N-TOTAL ORTHO
MG/L MG/L MG/L MG/L P
0.080
0.080
0.070
0.080
0.040
0.030
0.020K
0.030
0.060
0.050
0.090
0.040
0.040
0.030
0.040
0.200
0.200
0.200
0.200
0.700
0.300
0.300
0.300
0.400
0.400
0.200
0.400
0.200
0.200
0.200
0. 100
0.100
0.100
0.100
0.560
0.550
0.540
0.540
0.190
0.210
0.210
0.110
0.110
0.120
0.120
0.015
0.016
0.014
0.014
0.022
0.018
0.008
0.019
0.016
0.016
0.016
0.019
0.018
0.028
0.029
K VALUE M^OWN TO BE
LESS THAN INDICATED
-------�
STOKET KtTRIEVAL DATE 76/02/11
481^02
33 Vd «5.0 OV6 30 54.0
<»60HS TEXAS
OATt TIME DEPTH
FROM or
TO DAY FEET
74/03/08 15 00 0000
15 00 0002
15 00 0007
74/05/20 10 ?0 0000
10 20 0007
74/08/12 1C 45 0000
10 45 0009
74/10/31 14 15 0000
14 15 0005
14 15 0010
00010
WATER
TEMP
CENT
17.8
17. a
17.7
25.8
25.7
25. A
25.6
20.2
20.2
20.1
ilE^ALES
00300
DO
MG/L
9.4
8.8
6.8
6.8
6.8
8.6
7.4
8.4
00077
T^ANSP
SECCHI
INCHES
18
11
13
23
00094
CNDUCTVY
FIELD
MICROMHO
340
340
342
350
350
310
308
291
291
291
3
00400
PH
SU
8.20
a. 20
8.25
8.20
8.41
8.43
8.21
8.21
8.24
00410
T ALK
CAC03
MG/L
171
171
135
136
147
136
129
132
129
211
0011
00610
NH3-N
TOTAL
Mo/L
0.030
0.080
0.030
0.030
0.070
0.050
0.040
0.030
0.040
1202
FEET
00
TOT 1
N
MG
0
0
0
0
0
0
0
0
0
DEPTH
00630
0.200K
0.200
0.700
300
0.300
200
0.900
0.300
300
N-TOTAL
MG/L
0.110
0.120
0.580
0.570
0.200
0.200
0.080
0.060
0.070
00671
PriOS-OIS
ORTHO
MG/L P
0.017
0.016
0.023
0.019
0.027
0.014
0.027
0.024
0.020
DATE
FROM
TO
74/03/08
74/05/20
74/08/12
74/10/31
TIME DEPTH
OF
DAY FEET
15 00 0000
15 00 0007
10 .?0 0000
10 20 0007
10 45 0000
10 45 0009
14 15 0000
14 15 0005
14 15 0010
00665
PHOS-TOT
MG/L P
0.064
0.065
0.079
0.056
0.079
0.075
0.070
0.057
0.059
32217
CHLRPHYL
A
UG/L
1.7
8.1
3.5
4.8
00031
INCDT LT
REMNING
PERCENT
1.0
K VALUE KNOWN TO Bt"
LESS THAN INDICATED
-------�
STORET RETRIEVAL DATt 76/C2/11
33 04 13.0 096 27 24.0
LAvON SES
430fa5 TEXAS
DATE
FROM
TO
74/03/08
74/05/20
74/08/12
74/10/31
DATE
FROM
TO
74/03/08
74/05/20
74/08/12
74/10/31
TIME DEPTH
OF
DAY FEET
15 50 0000
15 50 0005
15 50 0013
10 35 0000
10 35 0005
10 35 0014
10 00 0000
10 00 0015
15 00 0000
15 00 0005
15 00 0016
TIME DEPTH
OF
DAY FEET
15 50 0000
15 50 0005
15 50 0013
10 35 0000
10 35 0005
10 35 0014
10 00 0000
10 00 0015
15 00 0000
15 00 0004
15 00 0005
15 00 0016
00010
WATER
TEMP
CENT
16. b
18.8
18.3
26.9
27.0
26.2
27.5
26.5
20.3
20.3
20.0
00665
PHOS-TOT
MG/L P
0.072
0.060
0.075
0.071
J.061
O.Obl
0.054
0.080
0.059
0.059
0.05v
00300
DO
MG/L
8.6
8.6
7.0
7.0
6.6
6.2
8.4
6.6
8.0
32217
CHLRPHYL
A
UG/L
1.8
6.0
6.7
9.1
00077
TRANSP
SECCHI
INCHES
18
11
18
13
00031
INCDT LT
REMNING
PERCENT
1.0
00094
CNDUCTVY
FIELD
MICROMHO
341
342
335
346
349
347
323
316
281
281
281
11EPALES
3
OOtOO 00410
PH T ALK
SU
8.15
6.15
8.15
8.30
8.30
8.25
8.40
8.36
8.15
8.15
8.13
CAC03
MG/L
172
171
171
132
132
132
146
143
127
127
128
2111202
0018 FEET DEPTH
00610 00625 00630
NH3-N TOT KJEL N02&N03
TOTAL
MG/L
0.060
0.070
0.070
0.050
0.030
0.030
0.050
0.060
0.030
0.030
0.030
N N-TOTAL
MG/L
0.200K
0.300
0.300
0.600
0.400
0.400
0.400
0.200K
0.300
0.200K
0.200K
MG/L
0.090
0.100
0.100
0.540
0.510
0.510
0.180
0.170
0.130
0.130
0.120
00671
PHOS-DIS
ORTHO
MG/L P
0.012
0.012
0.021
0.017
0.018
0.018
0.021
0.014
0.029
0.027
0.038
K VALUt KNOWN TO Be.
LESS THAN INDICATED
-------�
$TO«ET RETRIEVAL DATE 7fc/02/ll
481904
33 Ob 4l.O 096 27 58.0
LAVON RES- :VOIR
TEXAS
llEr'ALLS
DATE
FROM
TO
74/03/08
74/05/20
74/10/31
DATE
FROM
TO
74/03/08
74/05/20
74/10/31
TIME DEPTH
OF
DAY FEET
16 15 0000
16 15 0002
16 15 0004
10 S5 0000
10 55 0004
15 ?5 0000
15 25 0006
TIME DEPTH
OF
DAY FEET
16 15 0000
16 15 0004
10 55 0000
10 55 0004
15 25 0000
15 25 0002
15 25 0006
00010
WATER
TEMP
CENT
20.0
20.0
20.0
26.1
26.0
20.7
20.7
00665
PHOS-TOT
MG/L P
0.098
U.057
0.085
0.111
0.074
0.076
00300
DO
MG/L
fi.O
8.2
7.0
8.0
8.0
32217
CHLRPHYL
A
UG/L
5.2
4.0
00077
TRANSP
SECCHI
INCHES
12
6
11
00031
INCDT LT
REMNING
PERCENT
1.0
00094
CNDUCTVY
FIELD
MICROMHO
358
358
360
344
343
291
284
3
00400
PH
SU
8.20
8.20
8.40
8.30
8.11
8.11
00410
T ALK
CAC03
MG/L
173
174
132
132
136
132
2111202
0007
00610
NH3-N
TOTAL
MG/L
0.050
0.050
0.030
0.020
0.040
0.040
FEET DEPTH
00625
TOT KJEL
N
MG/L
0.400
0.300
0.500
0.400
0.300
0.300
00630
N02&N03
N-TOTAL
MG/L
0.120
0.120
0.500
0.500
0.050
0.040
00671
PHOS-DIS
ORTHO
MG/L P
0.012
0.011
0.015
0.016
0.012
0.022
-------�
APPENDIX E
TRIBUTARY AND WASTEWATER
TREATMENT PLANT DATA
-------�
HET HETRItVAu. OATE 76/03/10
DATE TIME DEPTH N02KN03
FROM OF
TO DAY FEET
74/09/07
74/10/05
74/11/02
74/13/07
75/01/04
75/ca/Oi
75/03/01
75/04/05
75/04/19
75/05/03
75/05/17
75/06/06
75/07/05
75/08/02
09 30
09 30
09 55
09 40
10 00
10 20
10 00
09 10
09 35
09 25
09 35
08 50
09 10
13 30
4H19A1
33 01 17.0 096 28 33.0 4
FK OF
4d31b
0/L«vON
HWY 7H HHCu 1.25 Ml W UF JCT W HWY 20i t
lltHALtb 2111204
0000 FEET UEPTh CLASS 00
0630
A NO 3
OTAL
iG/L
0.120
0.240
l.OBO
0.200
0.120
3.5<*d
0.260
0.005
0.005
0.140
0.135
0.290
0.150
0.020
00625
TOT KJEL
N
MG/L
0.400
0.400
0.900
0.400
0.700
2.3CO
1.050
0.800
0.450
1.850
0.621
0.325
0.650
0.650
00610
NH3-N
TOTAL
MG/L
C.020
0.025
0.035
O.C16
0.032
o.ua
0.020
0.025
0.015
0.055
0.040
0.020
0.050
0.010
00671
PnOS-DIS
UKTHO
MG/L P
0.015
0.040
0.160
0.056
0.030
u. lea
0.025
0.005
0.005
0 . 0 1 0
0.015
0.015
0.005K
0.010
00665
PHOS-TOT
MG/L P
0.050
0.050
0.220
0.080
0.070
0.050
0.010
0.030
0.010
0.050
0.050
0.040
0.050
K VALUE KNOWN TO BE
LESS THAN INDICATED
-------�
Si>.ET >'tTPIFVAt. DATE ?6/OViO
4jl ->**
J3 C7 <»<*.0 .1^6 3j 00.0
c. FK JF r^i v,i r r «i ;»•>
48 /. b VO [N vc. i i
DATE
F^OM
TO
7^/09/09
7W1G/05
74/11/02
74/12/07
75/01/04
7b/0£!/01
7b/03/01
75/J4/05
75/04/19
75/05/03
75/C5/17
7b/06/07
75/07/05
75/08/02
T1«E DEPTH
OF
DAY FEET
11 5b
11 50
13 50
11 50
12 15
12 45
12 05
11 50
11 55
11 45
11 55
10 10
10 25
15 45
•J0b30
:Ju2*.NOJ
N-TOTAL
MG/L
0.3JO
0.304
0.336
0.352
0.368
0.7U6
l.SuO
0.345
0.3bO
2.30U
2.400
0.710
O.b2b
0.200
00625
Tuf KJEL
N
MG/L
O.QOO
0.400
1.100
1.100
0.700
i.aoo
2.600
0.700
0.950
2.400
2.000
o.aoo
1.200
1.700
00610
NH3-N
TOTAL
MG/L
0.030
0.010
0.075
0.136
0.024
u.168
0.050
0.210
0.025
0.050
o.oao
0.055
0.040
0.045
00671
PMOS-L>IS
cm HO
MG/L P
0.030
0.020
0.050
0.032
0.010
0.104
0.020
0.01S
0.005
0.035
u.035
0.020
0.03b
0.020
hwy ^^6 H-r'L
1» c ,J . . it
Itr ALLb
0000 FEET
00665
PhOS-TOr
MG/L P
0.15C
0.030
0.250
0.190
0.050
UOlc!
0.770
0.040
0.030
0.-+SO
U.390
0.060
0.260
0.040
1 M
« uF rl
211120
CLASS i
-------�
ET KETPIEVAL DATE 76/03/iG
DATE TIME DEPTH M
F«OM OF H-
TO JAY FEET
7<4/i)9/07
74/10/05
74/11/02
74/12/07
7b/0 1/04
75/02/01
75/C4/05
76/04/19
75/05/03
75/05/17
75/06/07
75/07/05
09 50
09 40
10 30
09 50
10 10
10 35
09 =;o
09 50
09 45
09 55
09 00
09 15
33 06 ?4.0 "96 24 37.0 4
ELM C^EE*
48 /.:
T/LAvON «E:
HWY 78 6ROG 2.00 MI N OF JCT W HWY 1778
HEFALES 2111204
0000 FEET DEPTH CLASS 00
0630
'isN03
OTAL
IG/L
o.ooa
0.032
0.352
0.490
0.28d
U.4VO
0.015
0,015
0.750
0.770
0.080
0.135
006?S
TOT KJEL
N
MG/L
1.600
0.900
0.900
1.300
1.000
2.900
1.250
1.575
1.100
1.400
5.SOO
1.250
00610
NH3-N
TOTAL
Mo/L
0.030
0.025
0.060
0.096
0.016
C.OBO
0.230
0.210
0.0*0
0.070
0.110
C.010
C0671
PhOS-OlS
OrJTMU
MG/L P
l.ObU
0.320
0.110
0.112
0.035
O.OStj
0.025
0.030
0.075
0.060
0.015
0.020
00665
PHOS-TOT
MG/L f
1.050
0.420
0.260
0.250
0.070
0.050
0.180
0.110
0.280
0.170
-------�
OA't 7o'
33 jb 15.0 0-/b 33 D5.0 4
wrilTt nOC*. C^ttK
*d 7. a WYLIt
2NO*Y HWT --'00 2.2:> MI Nt~ JCT w HWY 5<+6
11EPALES 211120'.
0000 FEET DEPTH CLASS 'JO
DATE
FWOM
TO
74/10/05
74/11/02
74/12/07
75/01/04
7b/o2/01
75/0.3/01
75/04/05
75/0<»/l^
75/C5/03
75/05/17
75/06/07
75/07/05
75/08/02
00h3u 0062b
TJHF. DEPTH N02S.N03 TOT KJEL
OF N-TOTAL N
DAY FEET
11
13
11
12
11
11
13
13
13
13
10
10
15
35
25
35
00
55
40
30
30
?5
35
15
15
15
MG/L
0
0
1
1
u
o
1
1
3
3
1
0
0
.5b2
.940
.ObO
.520
.700
.^90
.050
.050
.300
.500
.250
.920
.195
MG/L
0.
0.
0.
0.
1.
0.
0.
0.
2.
1.
0.
0.
0.
300
600
500
600
700
600
950
650
600
200
800
900
700
00610 00671 00665
NH3-N PHOS-D.1S PHOS-TOT
TOTAL ORTHO
MG/L
0.
C.
0.
0.
0.
0.
0.
a.
0.
0.
0.
0.
0.
005K
020
064
008
096
020
045
025
160
040
025
030
055
MG/L
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
0.
p
005
015
016
005K
OttO
005K
005K
005K
015
015
005K
005K
020
MG/L P
0.010^
0.030
0.040
0.010K
0.010K
0.060
0.010K
0.030
0.030
0.010
0.020
0.050
K VALUE KNOWN TO 8E
LESS THAN INDICATED
-------�
70 13-'00 1.75 MI S OF JCT M Hwr 5*6
HEPALtS 2111204
0000 FEET DEPTH CLASS 00
OATE
KROM
TO
7^/10/05
74/11/02
74/12/07
75/01/04
75/02/01
75/03/01
75/04/05
75/04/19
75/35/03
75/05/17
75/06/07
75/07/05
75/08/02
TI^F: OE^TH
OF
DAY FEET
11 45
13 35
11 20
12 00
12 10
11 55
13 20
13 20
13 15
13 ?5
09 20
10 ?0
15 30
GuoJU 0062'3
N02'.N03 TOT KJEL
N-TOTAL N
MG/L MG/L
1.360 1.100
0.768
0.950
1.240
0.610
.500
.050
.650
.570
.100
.800
.600
.900
.380
.650
.450
.900
.650 2.300
.600 1.100
O.B10 1.700
0.210 0.700
&0610
Nn3-N
TOTAL
MG/L
0.130
0.055
0.38<»
0.448
0.072
0.205
0.158
0.150
0.2S»0
0.345
0.080
0.630
0.035
00671
PhOS-OIS
ORTMO
MG/L P
0.460
0.130
0.336
0.345
0.112
0.280
U.450
0.45U
0.235
0.240
0.290
0.270
0.005K
00665
PHOS-TOT
MG/L P
0.580
0.380
0.440
0.440
0.631
0 . 365
0.540
0.600
0.360
0.580
0.390
0.440
0.045
K VALUE KNOWN TO BE
LESS THAN INDICATED
-------�
7'-/01/10
33 lu 25.0 096 37 17. C 4
OAT£
FHUM
TO
74/09/09
74/10/05
74/11/02
74/12/07
75/01/04
75/02/01
75/03/01
75/04/05
75/04/19
75/05/03
75/05/17
75/06/07
75/07/05
75/08/02
TIME DtPfri
OF
OAY FEET
12 55
12 ?0
14 15
11 55
12 30
13 00
12 30
12 50
12 50
12 45
12 55
10 45
10 40
16 00
00*30
N'02^N03
N-TOTAL
MG/L
0.336
1.320
0.768
0.940
1.240
1.390
1.450
0.005
1.100
1.200
1.250
1.450
0.550
0.200
00625
TOT KJEL
N
MG/L
1.000
0.700
o.eoo
0.700
0.500
2. 000
0.650
0.950
1.150
0.500
1.100
o.eoo
0.750
0.750
00610
NHj-N
TOTAL
Mr,/L
0.090
0.020
0.040
0.032
0.024
U.056
0.015
0.085
0.090
0.085
0.090
0.040
0.290
0.030
00671
PHOS-DIS
ORT-lO
MG/L P
0.020
0.015
0.025
0.016
O.OOtt
0.088
0.005
O.OObK
0.005
0.025
0.025
0.015
0.010
0.005K
11EPALES
0000 KEET Oi
00665
PHOS-TOT
MG/L P
0.060
0.020
0.190
0.120
0.010K
0.020
O.U20
0.040
0.020
0.110
0.050
0.050
0.040
2 MI
OtPTH
5 CITY CEN MCKINNtr
21112"4
CLASS OC
K VALUE KNOWN TO BE
LESS THAN INDICATED
-------�
AL CATc. 7h/03/iJ
DATE TI'^E DEPTrt N02c,N03
FROM OK
TO DAY FEET
74/09/09
74/10/05
74/H/02
74/12/07
75/01/04
75/02/01
75/03/01
75/04/05
75/04/19
75/05/OJ
75/05/17
75/36/07
75/07/05
75/08/02
1
1
1<
1
1
1
1
1
1
1
1
0<
0<
1<
15
00
> 40
10
?5
30
00
15
45
15
15
) 50
5 50
* 40
33 11 35.0 096 2b 37.0 4
SISTER ORovE CSEEK
48 7,5 CJLLtUrsA
1377 6i-U'" 2 MI NE OF
HEPALtS 2111204
0000 FEET DEPTH CLASS 00
C630
'C.N03
OTAL
IG/L
0.360
0.336
0.304
0.352
0.384
O.t>34
0.640
0.165
0.170
1.650
1.720
0.480
0.310
0.170
00625
TOT KJEL
N
MG/L
0.800
0.400
0.700
o.eoo
o.eoo
1.600
1.800
0.900
0.250
0.600
1.250
0.550
1.200
0.700
Oi)610
NH3-N
TOTAL
MG/L
0.125
0.015
0.095
0.016
0.072
0.024
0.085
0.020
0.035
0.230
0.045
0.027
0.350
0.060
00671
PMOS-DIS
OrtTHO
MG/L P
0.020
0.020
0.080
0.048
0.025
O.OBO
0.035
0.005K
0.005K
0.035
0.030
0.015
0.025
0.005K
00665
PhOS-TOT
MG/L P
0.090
0.0-+0
0.200
0.160
0.050
0.020
0.010
0.050
0.260
0.070
0.170
0.060
K VALUE KNOrtN TO 8E
LESS THAN INDICATED
-------�
*ET*It:VAL OATt 76/03/lu
33 12 S2-" 096 2<« 10.0 4
Pit' f o^'J^c. OF.£K
nS /.b CULLc-LKA
DATE
FROM
TO
7W09/07
74/10/05
74/ 11/02
74/12/07
75/01/04
75/02/01
75/03/01
75/04/05
75/04/19
75/05/03
75/05/17
75/0&/07
75/07/05
75/06/02
TIMF 1
OF
DAY 1
10 55
10 50
12 20
10 50
11 10
11 20
10 40
14 00
11 50
11 25
11 35
09 40
09 40
14 30
FEET
00630
N02&N03
N-TOTAL
MG/L
0.096
0.336
0.216
&.164
0.152
0.38-4
0.430
0.090
0.100
0.870
0.910
0.340
0.315
1. 075
00625
TOT KJEL
N
MG/L
0.500
0.300
0.900
1.000
0.800
2.650
1.550
0.612
0.600
0.650
1.400
0.550
1.400
O.POO
OOblO
NH3-N
TOTAL
MO/L
0.025
0.010
0.030
0.080
0.020
0.040
0.055
0.025
0.015
0.060
0.060
0.030
0.070
0.030
00671
PriOS-UlS
ORTHO
MG/L P
0.015
0.015
0.105
0.072
0.020
0.04P
0.050
0.005
0.005K
0.040
0.042
0.020
0.060
0.005
H^r 2756 BI
0000 KEET
00665
OHGS-TOT
MG/L P
O.U70
0.040
0.190
0.170
0.060
0.280
0.020
0.010
0.040
0.290
0.080
0.180
0.060
j 3.7S Ml NE CLIMAX JCT 1377
21H2C4
otHTh CLASS ^0
K VALUE KNOWN TO BE
LESS THAN INDICATED
-------�
TIME DEPTH
OF
FEET
DATE
FROM
TO
74/10/Ob 10 ?0
74/11/02 11 ?5
74/12/07 10 ?0
75/01/04 10 35
75/04/05 10 30
75/04/19 lo 20
75/08/02 14 10
33 15 30.0 096 20 12.0
4(j COLLiN CO MAP
2NOHY «0 DKDG 0.4 Ml NNW OF btTHLEHEM CH
HE^ALES 2111204
0000 FEET Ut^Tn CLASS 00
00630
N02sNi03
N-TOTAL
MG/L
0.032
0.504
0.208
0.104
0.005
0.010
0.170
006P5
TOT KJFL
N
MG/L
0.400
0.900
0.900
0.600
1.000
0.600
0.700
Ou610
NH3-N
TOTAL
MG/L
0.015
0.040
0.032
0.016
0.020
0.080
0.095
00671
P-lOS-OIS
OHTHO
MG/L P
0.015
0.105
0.072
0.040
0.005K
O.OOS*
0.010
00665
•=>HOS-TOT
MG/L P
0.030
0.290
0.250
0.090
0.040
0.010
0.050
K VALUE KNOWN TO BE
LESS THAN INDICATED
-------�
STOntiT
33 Is 50.r' 0-*b 20 ^O.u 4
*«ci CULL I-" CL; -ut-
2NCHY KD •>«. j 2.0 Ml £ OF JCT * HWY 78
0000 FtfT OtHri CL^SS CO
DATE
FROM
TO
7^/10/05
75/0^/05
75/0^/19
75/06/07
75/08/02
TIME DEPTH
OF
DAY FEET
10 00
10 ?5
10 20
09 ?0
i<« 00
00630
N02&N03
N- TOTAL
MG/L
0.016
0.005
0.010
0.260
0.075
00626
TOT KJEL
M
MG/L
0.300
1.100
0.550
0.550
0.700
0 0 o 1 0
."i.-O-N
TOTflL
MG/L
0.005K
0.07b
C.025
0.035
u.030
00671
PHOS-UIS
OPTHO
MG/L P
0.010
0.005K
0.005K
0.010
0.025
00t>65
PHOS-TOT
MG/L H
0.010
0.030
0.020
0.070
0.050
K ^ALUE KNOWN TO BE
LESS THAN INDICATED
-------�
76/C3/10
DATE TIME DEPTH N02&N03
FKUM OF
TO DAY FEET
74/09/05
74/10/01
74/11/06
75/01/06
75/02/03
75/04/04
75/05/05
75/06/02
75/09/15
75/10/01
11 15
09 30
10 00
10 30
10 00
10 00
09 30
09 30
10 00
10 00
13 30
4819LA PD4619EA
J3 11 00.0 096 33 00.0 4
MCKINNEY 3 PLANT
48 7.b MCMNNEY
T/LAVO^J RFS
WILSON C^tLK
11EPALES 21412'ii
OOJO FEtT DEPTn CLASS 00
0630
5.N03
OTAL
G/L
1.730
0.870
0.660
0.880
0.080
U.080
0.080
0.050
0.100
0.075
0.550
00625
TOT KJEL
N
MG/L
28.000
13.000
14.000
15.000
23.500
11.000
25.000
27.000
12.000
23.000
22.000
O.J610
NH3-N
TOTAL
MG/L
0.200
0.870
0.300
0.540
7.400
8.900
0.090
3.900
1.850
5.700
3.400
00671
PHOS-OIS
OPT HO
MG/L P
7.100
5.400
6.700
6.000
5.500
ci.700
5.200
5.700
9.500
7.300
006b5
PHOS-TOT
MG/L f>
12.500
6.900
6.7QO
7.250
8.500
6.800
8.500
8,400
6.700
10.300
8.900
50051
FLOw
KATE
INST MG'J
1.300
1.500
2.300
1.700
1.700
-------�
RE-T KtTrtlEVAL OATu 70/03/iO
P002000
33 ?5 00.0 09t> 33 30.0 4
VAN ALSTYNc
48 7.5 VAN ALSTYNE
T/LAvuN KES
11EPALES 21,
0000 FEET UEPTn CLAS:
DATE
FriOM
TO
74/09/19
74/10/10
74/11/26
75/01/09
75/05/28
75/06/13
75/07/08
TIME DEPTH
or
DAY FEET
15 30
11 00
08 30
13 IS
16 45
16 00
09 30
00630
N02&N03
N-TOTAL
MG/L
1.480
1.380
1.920
0.880
0.75o
0.200
0.500
00625
TOT KJEL
N
MG/L
4.800
7.600
6.500
9.900
7.300
5.300
26.000
00610
NH.3-N
TOTAL
MG/L
0.150
0.218
0.050K
0.050K
0.050*
0.050K
0.470
00671
PHOS-DIS
OPTHO
MG/L P
1.150
2.000
2.100
1.800
2.600
1.450
5.400
00665
PH05-TOT
MG/L P
1.650
J.OOO
2.450
2.800
2.900
2.800
11.600
50051
FLU*
RATE
INST MGU
0.500
0.150
0.150
0.150
0.200
0.180
0.150
50053
CONOUI r
FLUW-MGO
MONTHLY
0.225
0. 130
0.200
0.150
0.180
0.150
0.150
K VALUE KNOWN TO BE
LESS THAN INOICATEJ
-------�
STOHET rtET^IE.VAL OATE. 76/03/10
33
A TK4H19WA
00, r 096 23 30.0 4
P002500
DATE
FROM
TO
74/09/11
74/10/28
74/11/19
74/1Z/17
75/01/29
75/03/21
75/04/22
75/05/29
75/07/18
75/08/27
75/09/22
00630 00625
TIME DEPTH N02S.N03 TOT KJEL
OF N-TOTAL N
DAY FEET
08
08
08
14
09
10
09
08
09
09
00
30
00
00
30
30
00
00
00
30
MG/L
2.760
5.600
4.000
4.320
4.800
1.840
1.050
3.300
2.800
4.800
5.000
MG/L
2.100
l.OOOK
l.OOOK
1.000
0.100K
l.OOOK
0.500K
2.600
2.700
2.400
3.500
48 Vo5 FflPMENSVlLLE
T/LftvON LA'E
MGGtt? C^EcK TO LITTLE ELLEN CKEEK
UEPALtS 2141204
0000 FEET OEPTH CLASS 00
00610 00671 00665 50051 50053
NH3-M PHOS-OIS PHOS-TOT FLOW CONDUIT
TOTAL OtfTHO «ATE FLOw-MGQ
MG/L MG/L
0.210
0.050K
0.050K
0.050
C.050K
0.100K
0.077
0.050K
0.190
0.025K*
0.025K
4.
4.
3.
2.
3.
0.
2.
2.
7.
6.
2.
P
200
100
400
i-oo
500
820
200
800
200
900
400
MG/L P 1NST MGD MONTHLY
4.600
60 100
3.400
2.800
3.925
1.300
2.400
7.310
7.700
8.000
0.250
0.250
0.250
0.200
0.250
0.250
0.250
0.250
0.250
0.250
0
0
0
0
0
0
0
0
0
0
0
.210
.220
.250
.210
.200
.210
.210
.210
.210
.210
.210
K VALUE KNOWN TO BE
LESS THAN INDICATED
-------�
STORET RETRIEVAL DATE 76/03/10
DATE
FROM
TO
74/09/05
74/10/01
74/11/06
74/12/02
75/01/06
75/02/03
75/04/04
75/05/05
75/06/02
75/09/15
75/10/01
TIME 1
OF
DAY 1
10 45
11 00
10 00
11 30
10 00
10 00
09 30
10 00
09 30
09 30
13 30
FEET
P001500
33 14 00.0 096 37 30.0 4
MCKI'NNEY N PLANT
48 7.5 MCKINNEY E
T/LAVON RES
EAST KOKK Or TRINITY RIVtR
11EPALES 2141204
OOOC FEET DEPTn CLASS 00
0630
'&N03
OTAL
IG/L
5.<*00
4.200
5.520
6.000
6.720
3.6BO
0.240
6.600
6.300
8.400
7.500
00625
TOT KJEL
N
HIVL
3. COO
3.800
l.OOOK
1.700
2.330
2.600
5.600
2.000
0.720
2.600
2.900
00610
NH3-N
TOTAL
MG/L
0.050K
0.570
0.050K
0.130
0.120
C.080K
0.080K
0.070
0.074
0.175
0.125
00671
PhOS-OlS
OPTHO
MG/L P
9.110
4.600
3.900
4.500
2.200
6.500
5.000
9.900
9.700
00665
PHOS-TOT
MG/L P
9.720
5.400
4.000
4.850
b.100
2.100
8.700
6.860
5.400
9.900
10.500
50051
FLOw
HATE
INST MOD
0.103
0.200
0.103
0.103
0.200
0.200
0.100
0.150
0.150
0.200
0.107
50053
CONDUIT
FLOrf-MGU
MONTHLY
0.079
0.150
0.189
0.146
0.167
0.148
0.143
0.130
0.170
0.160
0.111
K VALUE KNOWN TO BE
LESS THAN INDICATED
-------�
STORET RETRIEVAL DATE 76/03/10
4819YA A54el9YA P000100
33 01 30.0 096 32 30.0 4
SEIS L4GGS
48 7.5 wYtlE
T/LAVON HtS
UNNflMEU Tftlj. TO WHITE HOCK CHEEK
11EPALES 214l
-------�
5TORET RETRIEVAL DATE 76/03/10
P002000
33 10 20.0 096 30 £0.0 4
PRINCETON
48 7.5 MCKINNEY E
T/LAKt LftVON
TICKY CREEK
11EPALES 214120'*
0000 FEET DEPTH CLASS 00
DATE TIME DEPTH N02&N03
FROM OF
TO DAY FEET
74/09/04
74/10/07
74/11/11
74/12/19
75/02/10
75/03/13
75/04/09
75/06/09
75/07/21
75/08/12
75/09/08
75/11/24
09 30
09 30
21 30
09 30
14 00
10 00
11 00
14 00
16 00
11 00
10 00
0630
'&N03
OTAL
IG/L
0.160
0.080
0.320
0.080
0.480
0.240
1.120
0.250
0.250
0.175
0.500
1.000
006?5
TOT KJEL
N
MG/L
23.000
16.250
11.000
14.000
10.000
28.000
19.000
16.800
21.000
25.000
14.000
9.200
OOblO
NH3-N
TOTAL
MG/L
7.500
1.5CO
0.230
4.100
0.360
1.200
0.580
3.600
8.500
7.700
0.390
1.300
00671
PnOS-DIS
ORTHO
MG/L P
10.500
7.900
5.700
6.750
3.650
12.900
S.750
10.500
12.500
10.500
13.000
00665
PHOS-TOT
MG/L P
10.800
9.000
6.400
7.500
4.100
12.900
10.500
9.950
11.200
15.000
14.000
20.000
50051
FLOW
RATE
INST MOD
O.JOO
0.220
0.245
0.210
0.234
0.250
0.253
0.254
0.234
U.200
0.300
0.200
50053
CONDUIT
FLOW-MGO
MONTHLY
0.350
0.215
0.276
0.215
0.285
0.224
0.234
0.244
0.225
0.205
0.350
0.200
-------� |