APPENDIX
WATER QUALITY DATA
OHIO RIVER
Wheeling,W.Va. — Sfeubenville, Ohio Area

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                                                                     4278v<
     This  Appendix contains the water quality  data collected by




the Wheeling Office of Water Programs, Environmental Protection




Agency,  during a  special study conducted in July and August 1970,




on the Ohio River from Toronto, Ohio (mile  point 60,0) to




McMechen,  West Virginia (mile point 96.1).

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MP
Msrf ins F.rry
VIRGINIA
FIGURE
OHIO RIVER
P1
TerofttD•’
MPGO
MPS
Wrnrton
STEUBENVt
,4p
Mmgo Junction
Follansb.s
W.Hsburg
MP
OHIO
WEST
P$KE ISLAND
$2
1 4pg
ELING
Bettairs
B nwood
Mc M.chsn
I
Wheeling Area

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4 B v a IsapIs Loestioss
i st O tf$U Ssapl. I e tic.
) eelil?(.?Ittaburgb
Steel
FIGURE 2
SampI* Locolloni.
Torosto
MP
MP
Weirtoi Stee
ieelin Pittabu ’gh Steel
STEUBENVI
Xoppera Co ny
WstIsbwg
MP
MP
P1KC ISLAND
Msrtms Ferry
$4P
I2
EUNG
Bellairs
P4schsn

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SAMPLI NGST&TIONS
SPECIAL STUDY-EPA-OHIO RIVER
Ju1y-August 1970
Description Mile Point
Ohio River downstream of Toronto, Ohio 60.8
Ohio River opposite Steubenville, Ohio, water intake 65.3
Harmon Creek at W. Va. Route 2 bridge -
Ohio River upstream of Steubenville, Ohio,
sewage treatment plant 67.1
Ohio River downstream of Steubenville, Ohio,
sewage treatment plant 67.9
Ohio River downstream of Wheeling-Pittsburgh Steel
and Koppers Company 70.0
Ohio River downstream of Follansbee, West Virginia 72.0
Ohio River downstream of Wellsburg, W. Va. 75.0
Ohio River downstream of Brilliant, Ohio
sewage treatment plant 75.6
Ohio River upstream of Wheeling-Pittsburgh Steel,
Yorkville, Ohio 82.7
Ohio River at Wheeling, West Virginia, raw water
intakei/ 86.7
Ohio River opposite Bellaire, Ohio, water intake 94.0
Ohio River upstream of Lock and Dam No. 13 95.5
EPA Pollution Surveillance Station.

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Stream Water Quality Data
Station Number 550386 - Ohio River 8elow Toronto, Ohio, M. P. 60.8
Temp. D. 0. Cond. T. Coliform F. Coliforrn F. Streptococcus BODç Phenols Cyanide Iron Acidity Chronnuin Arsenic Fluoride
i te °C unhos Org./lOO ml Org./lO0 ml Org./lOO ml mg/i mg/i mg/i mg/i mg/i mg/i mg/i
7-27-70 26 7.2 6.2 290 3,600 130 6 1.5 0.000 0.000 0.2 0.14 5 0
7-28-70 26.5 7.5 6.14 300 2,600 100 14 2.0 0.000 0.3 0.14 Li 0
7-29-70 27 7.7 6.14 285 6,L iOO 150 <2 1.14 0.000 0.000 0.14 0.14 5 0 °
7-30-70 27 7.7 7.1 360 14,100 LA 12 1.9 0.000 0.000 0.5 0.14 14 0
7-31—70 27 7.8 6.9 310 5,000 660 2 1.5 0.0014 0.000 0.14 0.14 3 0 0.000 0.30
8-3-70 26 7.6 7.2 380 5,200 350 26 2.0 0.000 0.000 0.6 0.7 13 0
8—14-70 26.5 8.5 7.0 360 6,600 280 Li 2.3 0.001 0.000 0.6 1.7 6 0
a)
8-5-70 26 8.0 7.3 370 6,100 180 2 2.3 0.000 0.000 0.14 0.5 14 0
8-6-70 26.5 7.8 6.9 375 5,300 230 14 2.]. 0.003 0.000 0.14 0.6 14
8-7-70 26.5 7.9 7.2 360 3,600 190 12 1.7 0.005 0.000 0.5 0.6 3 0 0.000 0.33
Lead
Li
0.020 - Composite for
Week of 7/27
0.016 - Composite for
Week of 8/3

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Stream Water Quality Data
Station Mumber 550550 - Ohio River Steubenville, Ohio, M. P. 65.3
Temp. D. 0. Cond. T. Coiiform F. Coliform F. Streptococcus BOD Phenols Cyanide Iron Mn Acidity Chromium krsenic Fluoride
Date °C usthos Org./100 ml Org./iOO ml Org./iOO ml mg/i mg/l mg/i mg/i mg 1 mg/i
7-27-70 26.5 7.7 6.3 305 14,100 3140 214 1.7 0.000 0.020 0.2 0.14 5 0
ON- ON-
c’J
7-28-70 27 7.3 6.3 300 5,800 160 18 2.1 0.003 0.020 0.3 0.14 10 0
7-29-70 27.5 7.6 6.8 300 14,900 270 10 0.7 0.008 0.020 0.3 0.14 5 0 ° °
mm
7-30-70 27 7.14 7.0 330 5,900 LA 150 2.0 0.008 0.020 0.3 0.14 2 0
7-31-70 27 7.0 6.9 320 5,800 350 12 1.14 0.009 0.0140 0.2 0.3 14 0 0.008 0.140
8-3-70 26 7.3 7.1 385 14,500 1420 146 1.14 0.003 0.5 0.5 8 0
O 0
8-Ij-70 26.5 7.5 7.0 385 6,300 1400 i1 4 1.5 0.013 0.030 0.14 0.6 5 0
8-5-70 26 7.6 7.2 1400 5,500 330 2 2.1 0.009 0.0140 0.14 0.5 5 0
8-6-70 27 6.9 7.2 380 14,600 190 22 0.9 0.003 0.020 0.3 0.6 14 0 g
8-7-70 26.5 7.7 7.3 385 14,000 170 62 1.0 0.003 0.020 0.7 0.7 14 0 0.000 0.35
Lead
0.010 - Composite for
Week of 7/27
0.022 - Composite for
Week of 8/3

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Stream Water Quality Data
Station Number S5O1Th - Harmon Creek @ Route 2 Bridge
Temp. D. 0. Cond. T. Coliforrn F. Col]Sorm F. Streptococcus flO1J Phenols Cyanide Iron Mn Acidity Chromium Arsenic Fluoride
Date 0 C mg/i umhos Org. / 100 ml Org. / 100 ml Org. / 100 ml mg/i mg/i mg/i mg/i mg/i mg/i
7-27-70 3)1.5 6.)1 5.8 555 320,000 3,900 770 >5.5 0.000 0.020 25.0 1.0 )12 0
7-28-70 33 6.0 6.1 li ) 1O 71,000 770 800 >7. ) 1 0.001 0.020 18.0 1.2 28 o
7-29-70 36 6.3 5.8 535 LIO,00 0 2,300 2,100 >6.)4 0.008 0.010 16.0 1.t 4 39 0
7-30-70 32 7.5 5.6 600 214,000 170 2,000 >5.0 0.0014 0.010 214.0 i.Lj 62 0
7-3i-70 3 ) 1 6.0 6.3 620 26,000 1,800 i,900 >6.0* 0.0014 0.010 18.0 1.3 50 0 0.00)1 0.60
8-3-70 31 6.5 6.1 6)10 1420,000 76,000 1,600 16.7 0.003 0.020 36.0 1.5 90 0
8-14-70 3Li 6.3 6.2 600 33,000 1,1400 620 1)1.14 0.005 0.020 20.0 1.2 146 o
8-5-70 33 7.3 3.9 750 5,500 660 180 11.8 0.00)1 0.010 50.0 1.3 128 0
o a
8-6-70 36 6.0 6.14 690 66,000 12,000 6,300 21.0 0.012 0.000 28.0 1.5 Si 0
8-7-70 33.5 7.5 5.0 600 3,100 200 970 3.2 0.007 0.010 25.0 1.0 61 0 0.00 ) 1 0.7)1
* 3 day BOD
Lead
Li
0.900 - Composite for
Week of 7/27
1.100 - Composite for
Week of 8/3

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Stream Water Quality Data
Station Mumber O2O9 - Ohio River Above Steubenville, Ohio, M. P. 67.1
Temperature Dissolved Oxygen Conductivity Total Coliforin Fecal Coliform Fecal Streptococcus BODç
Date °C mg/i uinhos Org./100 ml Org . /100 ml Org./100 ml mg/i
7-27—70 27 7.2 6.14 335 37,000 5,300 150 1.9
7-28-70 28 7. 1 .4 6.3 360 142,000 1,800 60 2.7
7-29-70 28.2 7.3 6.5 330 114,000 760 32 1.1.4
7—30-70 27.5 7.14 6.9 320 21,000 1,100 1480 1.2
7-31-70 27 7.14 6.8 350 6,500 210 16 1.8
8-3-70 26 6.8 7.0 1400 5,1400 260 18 2.9
8-14-70 26 7.5 6.9 1410 14,800 370 10 3.0
8-5-70 26.5 8.0 6.7 1420 3,600 260 14 >14.8
8-6-70 28 7.14 7.2 1490 3,700 iSo 6 2.6
8-7-70 26.5 8.2 7.0 1415 9,100 2140 10 1.6

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Stream Water Quality Data
Statior Number 550376 - Ohio River Below Steubenville, Ohio, M. P. 67.9
Temp. D. 0. Cond. T. Coliform F. Coliform F. Streptococcus BOD Phenols Cyanide Iron Mn Acidity Chromium Arsenic Fluoride
1 te 0 C mg/i unhos Org . /100 ml Org . /100 ml _ Org . /100 ml mg/i mg/i mg/i mg/i mg/i mg/i
7-27-70 26 8.1.4 6.1 31.40 39,000 2,700 200 2.3 0.000 0.020 0.7 0.1.4 1.4 0
4.. 4..
or— ON-
7—28—70 27 7.6 6.2 3140 30,000 2,800 70 2.2 0.000 0.010 0.7 0.14 0 —.
N-
7-29—70 26.5 7.7 6.2 315 20,000 2,000 56 1.6 0.001 0.010 0.5 0.3 0
7-30-70 26 7.2 6.5 370 148,000 3,700 860 1.0 0.000 0.010 0.5 0.14 0 OW
7-31-70 26.8 7.6 6.6 1420 6,900 290 76 1.1 0.0014 0.020 0.7 0.14 0 0.000 0.140
8-3-70 27 7.0 6.14 14140 27,000 1,900 570 2.0 0.001 0.000 1.14 0.5 0
8-14-70 27 7.6 6.14 14140 8,000 1,1400 120 2.2 0.003 0.010 0.6 0.7 0
8-5-70 27 7.9 6.5 1j140 6,600 750 130 1.8 0.000 0.020 0.8 0.6 0
8-6-70 26 8.9 6.2 1450 6,500 2140 3.2 1.14 0.001 0.030 0.6 0.6 g
8-7-70 27 9.0 6.5 1460 5,500 330 10 0.7 0.001 0.020 0.5 0.6 0 0.000 0.37
Lead
mg/i
0.010 - Composite for
Week of 7/27
0.020 - Composite for
Week of 8/3

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Lead
Li
0.025 - Composite for
Week of 7/27
0.0014 - Composite for
Week of 8/3
Stream Water Qualicy Data
Station Number 550388 - Ohio River BelowW-P & Koppers Company, H . P. 70.0
te
7—27 —70
7—28—70
7 —29—70
7-30-70
7-31-70
8-3-70
8-14-70
8-5-70
8-6-70
8—7-70
6.2
6.3
6.2
6.14
6.6
6.3
6.2
6.6
6.2
6.2
Temp.
°C
26.5
D. 0.

7.6
Cond.
unthos
360
T. Coliform
Org ./100 ml
22,000
F. Coliform F. Streptococcus
Org ./100 ml Org. /100 ml
1,600 120
BOD
mg/I
Phenols
mg/i
0.0014
Cyanide
mg/i
0.010
Iron
mg/i
0.8
Mn
mg/i
0.14
Acidity
mg/i
5
Chromium
mg/i
0
Arsenic
mg/i
Fluoride
mg/I
27.2
7.8
3L O
214,000
1,500
20
3.3
0.030
0.030
0.6
0.14
5
0
27
8.0
320
17,000
1,1100
78
1.2
0.053
0.000
0.5
0.14
14
0
26
7.0
320
16,000
1,200
390
0.3
O.OOt
0.030
0.5
0.11
15
0
26.5
8.2
1100
6,1100
320
58
3.0
0.051
0.020
0.5
0.1&
7
0
0.000
O.1iO
27
27.5
27
26
26
7.1
7.2
8.2
8.8
8.9
1430
1450
14145
1150
1160
5,100
7,000
111,000
214, 000
18,000
320
290
520
2,000
700
16
16
8
32
22
1.5
1.8
1.7
0.7
1.1
0.021
0.023
0.0114
0.012
0.017
0.020
0.020
0.020
0.0140
0.010
0.7
0.6
0.5
0.6
0.6
0.5
0.7
0.5
0.5
0.7
14
3
14
14
6
0
0
0
0
0
S..
0
o cm
4.,
_S -i
00
0
p. .
Em
Ow
0.000
S..
0
.-l H
00
Em
00
0.35

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Stream Water Quality Data
Station Number 550389 - Ohio River Below Foilansbee, West Virginia, M. P. 72.0
Temp. D. 0. Cond. P. Coliform F. Coliform F. Streptococcus BOD Phenols Cyanide Iron ? Acidity Chromium Arsenic Fluoride
Date °C usthos Org./lOO ml Org./lOO m l Org./i0O ml mg/i mg/i mg/i mg/i mg/i mg/i
7-27-70 27 7.5 6.2 360 19,000 1,100 10 1.9 0.000 0.010 0.8 0.11 3 0
7-28-70 26.8 7.5 6.2 350 31,000 1,200 210 1.5 0.000 0.7 0.11 5 o
7-29-70 27.8 7.7 6.2 325 12.1,000 1190 28 0.9 0.001 0.000 0.6 0.14 4 0
ft.
7-30-70 27 7.2 6.3 325 16,000 1,200 590 1.1 0.001 0.010 0.7 0.11 3 0
7-31-70 27 8.2 6.6 380 12,000 Lm SO 86 2.0 0.001 0.020 0.5 0.11 L 0 0.000 0.110
8-3-70 27.5 7.1 6.2 1125 5,700 180 20 2.3 0.001 0.020 0.6 0.6 6 0
8-11-70 27.2 7.0 6.2 1150 7,100 1 11 . 10 16 2.5 0.005 0.020 0.5 0.6 5 0
8-5-70 27 8.2 6.11 11140 12,000 1160 26 2.2 0.000 0.020 0.5 0.6 11 0 0
8-6-70 26.5 8.11 6.2 1150 8,900 600 30 2.5 0.001 0.0240 0.8 0.6 11 0
8-7-70 26 8.11 6.2 1170 511,000 60 22 2.0 0.0011 0.030 0.11 0.6 L 0 0.000 0.37
Lead
0.016 — Composite for
Week of 7/27
0.0011 - Composite for
Week of 8/3

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Station
Station
Number 550390. - Ohio River Below Weflsburg,
Number 550555 - Ohio River Below Weilsburg,
Stream
West Virginia
West Virginia
Water Quality Data
& Brilliant, Ohio,
& Brilliant, Ohio,
M.
N.
P. 75.0 (Week of
P. 75.0 (Week of
July 27, 1970)
August 3, 1970)
1 te
7-27-70
Temperature
°C
26
Dissolved Oxygen
mg/i
7.5 6.2
Conductivity
uznhos
380
Total Coliform
Org. /100 ml
Fecal Coliform
Org. /100 ml
650
Fecal
Streptococcus
Org. /100 ml
11,000
<10
7-28-70
26
7.5 6.2
360
30,000
660
140
7-29-70
27.2
8.14 6.14
350
33,000
1,200
1,000
7-30-70
27
7.0 6.2
325
114,000
900
270
7-31-70
27
7.8 6.6
1400
27,000
800
300
8-3-70
8-14-70
8-5-70
8-6-70
8—7—70
27
27.2
28
26
26
7.7
6.7
8.2
8.11
8.1k
6.5
6.2
6.14
6.2
6.2
1420
1440
1 1145
1450
1440
B0D
mg/i
1.7
0.9
1.14
0.9
0.9
1.9
1.2
1.8
1.0
0.8
5,700
11,000
7,300
8,000
15,000
390
650
1120
1460
570
26
22
12
314
148

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Stream Water Quality Data
Station Number 550391 - Ohio River Above W-P Steel, N. P. 82.7
Temp. D. 0. Cond. T. Coliform F. Col]Iorm F. Streptococcua BOD Phenols Cyanide Iron Acidity Chromium Arsenic Fluoride
Date 0 C mg/i j unthos Org./lOO ml Org./lOO ml Org./lO0 ml rng/ mg/i mg/i mg/i mg/i mg/i mg/i
7-27-70 28 8.3 6.2 1400 7,1400 i8o 6 2.5 0.000 0.000 0.5 0.6 5 0
ON- ON-
7-28-70 27 7.2 6.2 380 2,900 62 8 1.5 0.000 0.000 0.ii 0.14 5 0
- N-
7-29-70 28 7.5 6.2 360 3,1400 170 2 1.6 0.000 0.000 0.14 0.14 i 0
7-30-70 28 7.1 6.2 325 3,900 250 214 1.6 0.000 o.ooo 0.6 o.1 14 E W Em
om ow
7-31-70 27.8 7.14 6.6 360 6,100 230 18 1.8 0.000 0.000 0.3 0.14 5 0 0.000 0.140
8-3-70 27.5 7.1 6.7 390 14,1400 210 32 1.5 0.001 0.000 0.5 0.5 10 0
o 0
8-14-70 28 6.8 6.14 1430 3,800 360 18 2.3 0.003 0.010 0.6 0.7 3 0
c ,a
8-5-70 29 8.0 6.14 14140 3,000 98 2 1.3 0.000 0.000 0.5 0.5 9 0
8-6-70 27 9.8 6.2 1460 14,500 180 10 1.5 0.001 0.000 0.5 0.5 3 0 Em E
ow o
6-7-70 26 8.9 6.2 1450 14,200 90 12 1.9 0.0014 0.000 0.5 0.6 2 0 0.000 0.36
Lead
0.008 - Composite for
Week of 7/27
0.0014 - Composite for
Week of 8/3

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Stream Water Quality Data
Station Number 5501147 - Ohio River @ Wheeling, West Virginia, N. P. 86.7
Temp. D. 0. Cond. T. Coliform F. Coitform F. Streptococcus BOD Phenols Cyanide Iron Mn Acidity Chromium Arsenic Fluoride
Date °C mg/] . unhos Org. / 100 ml Org. / 100 ml Org. / 100 ml rng/ mg/i mg/i mg/i mg/i mg/i mg/i
7-27-70 25 8.14 6.3 1420 17,000 130 82 2.14 0.000 0.000 0.3 0.7 6 0
7-28-70 27 7.8 6.0 380 6,000 90 6 2.0 0.000 0.000 0.8 0.6 7 0
7-29-70 27 8.5 6.1 350 14,700 38 2 1.14 0.003 0.000 0.7 0.14 14 0
7-30-70 27 8.0 6.3 350 5,300 130 214 3.6 0.001 0.000 0.8 0.14 5 0
7-31-70 27 7.5 6.3 320 5,700 110 20 3.1 0.003 0.000 0.8 0.14 6 0 0.000 0.140
8-3-70 27 7.9 6.3 1400 14,1400 90 50 3.7 0.000 0.020 0.6 0.5 8 0
8-14-70 26.5 8.5 6.1 380 5,000 230 18 14.0 0.001 0.000 1.0 0.6 14 0
aD
8-5-70 27 7.3 6.2 14140 5,700 160 20 2.6 0.003 0.010 0.9 0.6 6 0
8-6-70 26 6.9 6.1 500 6,800 310 100 14.3 0.001 0.010 0.8 0.6 14 0
8-7-70 26.5 6.6 6.5 1420 3,100 50 18 1.8 0.003 0.010 0.6 0.5 5 0 0.000 0.36
Lead
0.012 - Composite for
Week of 7/27
0.020 - Composite for
Week of 8/3

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Stream Water Quality Data
Station Number S O l - Ohio River @ Bellaire, Ohio, M. P. 9I .O
Temperature Dissolved Oxygen Conductivity Total Coliform Fecal Colilorm Fecal Streptococcus BOD
Date CC mg/i unthos Org. / 100 ml Org. / 100 ml Org. / 100 ml
7-27-70 27 8.0 6.2 I.iJ.O 39,000 1,LLOO 170 2.7
7-28-70 27 7.8 6.1 t400 100,000 !j,800 60 2.2
7-29-70 27 7.S 6.0 36 SL ,OOO 1,600 170 1.3
7-30-70 27 7.5 6.14 1420 21,000 1,300 320 14.0
7-31-70 27 7.1 6.2 3t O 130,000 23,000 160 2.3
6-3-70 27 7.8 6.3 1410 5,900 570 146 2.14
8-14-70 26.5 8.3 6.3 W. O 21,000 1,000 146 2.5
8-5-70 26 7.6 6.14 1460 3,900 1,1400 140 1.9
8-6-70 27 7.9 6.5 1480 30,000 1,100 146 2.0
8-7-70 26 7.8 6.5 1480 1140,000 6,700 160 2.14

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Stream Water Quality Data
Station Number 550552
- Ohio River Above Lock No. 13. N. P. 95.5
Date
7 -2 7-70
7—28-70
7 -29-70
7 -30-70
7 -31-70
8-3—70
8-14—70
8-S-70
8-6-70
8—7—70
Temp.
oc
27
27
27.5
27
27
27
27
26
27
26
D. 0.
8.14
8.1
7.5
8.0
7.5
7.7
8.5
8.0
7.8
8.2
6.2
6.1
5.9
6.0
6.2
6.6
6.3
6.2
6.2
6.5
Cond.
uinhos
1420
T. Coliforrn
Org ./100 ml
17,000
F. Colif arm F. Stre ptococcus
Org. /100 ml Org. /100 ml
3140 20
SOD

3.14
Phenols
mg/i
0.000
Cyanide
mg/i
0.000
Iron
mg/i
0.5
0.7
Acidity
mg/i
14
Chromium
mg/i
0
Arsenic
rag/i
Fluoride
mg/i
1400
13,000
1 4 ,1ICX)
140
2.14
0.000
0.6
0.5
5
0
..
ON-

-.
ON-

380
21,000
390
114
2.0
0.001
0.7
0.5
5
0
380
28,000
800
70
2.7
0.000
0.8
0.5
5
0
3140
70,000
>6,000
1414
2.5
0.000
0.7
0.14
6
0
0.000
0.140
L oo
1420
1460
1490
1480
59,000
5,900
10,000
28, 000
16,000
11,000
370
530
950
1,000
0.000
0.000
0.000
0.000
0.000
0.000
0.010
0.010
142
8
140
30
So
2.6
2.7
1.9
1.7
i.8
Lead
mg/i
0.052 - Composite for
Week of 7/27
0.060 - Composite for
Week of 8/3
0.000
0.003
0.000
0.003
0.001
0.7
0.7
0.5
0.8
0.6
0.14
0.5
0.5
0.6
0.5
14
14
6
3
14
0
0
0
0
0
0
• co
-I
ma
go
00
0.000
S.
0
.-4 C..
ma
EW
ow
0.37

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Industrial
- Weirton Steel, Outfall,
Ohio River,
14. P. 61.93
Dissolved
Solids
Sup.
Solid
Total.
Solids
Hexavalent
(Cr 1 - 6 )
Fluoride
m a/l
Iron
mgJl
Manganese
mg/l
Arsenic
mg/I
Lead
mg/l
Sample
Period
Temp.
°C
pH
Phenols
mg/I
Cyanide
mg/i
Oils
mg/I
8- 10 -70
6
a.m. -2 p.m.
l 4
140
4o
7.3
7.2
7.4
,.l .-
we
i ..n.
.6
31.7
16
333
0.00
0.9
1.8
0.6
0.0
0.1.22
2
a.m. -lO p.m.
40.5
14
7.9
5 7
a
k
°
0
1. 1 45
8.8
323
18
3J41
0.08
0.9
1.5
0.6
0.0
0.108
10
p.m.- 6 a.a.
39.5
0.234
1.37
16.14
307
1.8
325
0.05
0.8
1.5
0.6
0.0
0.088
8-11-70
6
a.m.-2 p.m.
39
140
7.0
0.182
1.56
0
ut

-_I 1
283
1.9
302
1.1.0
0.8
1.6
0.5
0
0.080
2
p.m. -1O p.m.
34.5
34.5
7.0
7.2
0.2141
1.1+4
R.

0

281
1.7
298
0.04
0.7
1.8
0.5
0
0.065
10
p.m.- 6 a.m.
36
6.6
0.319
1.114
55.8
290
30
320
0.04
0.9
1.5
0.5
0
0.075
8— 12-70
6
a.m. -2 p.m.
35
36.7
7.2
7.8
0.325
1.06
g
,
1 -
..-4
No
sample
received
in
Lab.
2
p.m. lO p.m.
36
35
7.7
7.14
0.286
0. 1 49
gk
0

319
21
3140
0.1.
0.9
0.5
§
g
0.075
35
7.7
C)
0.080
10
p.m.- 6 a.m.
35
7.5
0.286
0.76
22.0
305
17
322
0.1
0.9
0.5
0.003

-------
Industrial Outfall Data
W-3 - Weirton Steel, OutfaLl, Ohio River, M. P. 62.33
Sample Temp. Phenols Cyanide Oils Dissolved Sup. Total Hexavalent Fluoride Iron Manganese Arsenic Lead
Period °C mg/I mg/I mg/i Solids Solid Solids ( Cr+6) m g/i mg/i mg/i mg/i .
8-10-To
35 5.7 2
6 a.m. -2 p.m. 35.6 3.2 , 0.04 27.2 355 56 411 1.7 2.6 5.0 0.6 0 0.070
2 p.m.-lO p.m. 36 3.4 0.08 28.6 440 47 487 2.3 6.4 !3 0.6 0 o.o64
35.6 6.9
37.5 6.0 °
10 p.m.-6 a.m. 37.5 0.033 0.08 27.2 421 48 469 5.0 4.8 6.0 0.6 0 0.052
8- 11-70
6 a.m.-2 p.m. 34.5 3.8 0.161 0.14 31.2 354 54 408 1.6 8.4 5.5 0.5 0 0.050
8-12-To
Samples could not be ta en because of barges on river in front of outfall.

-------
Industrial Outfall Data
- Weirton Steel—Harmon Creek, Outfall, Ohio River, M. P. Cove Ave .
Sample Temp. Phenols Cyanide Oils Dissolved Sup. Total Rexaval.eot fluoride Iron Manganese Arsenic Lead
Period °C mg/I mg/l mg/I. Solids Solid Solids ( cr .6) mgJl mg/i mg/i mg/i. mg/i
8/ 10/TO
37 3.5 ,
6 s.n.-2 p.m. 34.5 2.7 4’° 0.02 18.8 400 48 1e48 0 0.5 108.0 o.8 0 O.071e
— t-
35 3.1. I
00
2 p.m. -IO p.m. 30.3 4.1 0.02 17.6 368 27 395 0 0.3 64.0 0.8 0 0.096
10 p.m.- 6 n.m. 36 3.8 0.026 0.02 12.4 297 80 377 0 0.5 86.0 0.8 0 0.074
36
8/11/ 70
38 3.1 ,
6 a.m.-2 p.m. 36.5 3.3 4’ 4’ 4’ 258 68 326 0 0.Ze 64.0 0.7 O 0.125
q 40
37 at - —
OS F OS
2 p.m. -l0 p.m. 35 3 5 0 I S U 5 292 6]. 353 0 0.4 58.0 0.7 0 0.140
10 p.m.- 6 a.m. 36.5 3.0 0.007 0.01 113.6 363 1014 1467 o o.4 76.0 0.7 0 0.115
36.5 3.1.
8/12/To
4.) 43 4 )
. 50 ‘ -40 .i0 W
a a
6 a.m. -2 p.m. i. . . m . No sample received in Lab. 60.0 0.5 0.125
a — .-i
2 p.m. -i0 p.m. 0 587 43 630 0 0.3 96.0 0.8 0.420
0
C.,
10 a.m.- 6 n.m. 0.005 0.02 50.8 54]. 43 5814 0 0.3 92.0 0.7 0.003 0.1140

-------
Industrial Outfall Data
K-i - Koppero C pany, Outfall, Ohio River, M.P. 69.b5
Sai p1e T np. Phenols Cyanide 0i1 .s Dissolved Sup. Total He valent Fluoride Iron Man nese Arsenic Lead
Period _____ m g/ I mgJl mg/I Solids Solid Solids ( Cr4’ 6 ) mg/ i. mg/i mg/ i mg/ I.
8- io-To
36.7 9.8
6 a.m.-2 p.m. 33 10.0 98.80 1.63 21.14 64 i. 57 698 0 0.14 3.0 0.3 0 0.055
2 p.m.—IO p.m. 83.20 1.10 214.8 3,526 149 3,575 0 0.5 6.2 0.2 0 0.075
10 p.m. -6 a.m. Samples not taken because of boat being out of service
8-u—To
36 9.2
6 a.m.-2 p.m. 38 9.0 98.8 2.20 50.8 3,966 52 le,O].8 0.01 0.5 5.0 0.3 0 0.015
39 8.9
2 p.m. -10 p.m. 39 8.2 70.2 3.80 86.0 3,350 28 3,378 0 0.5 5.5 0.3 0 0.020
‘40 8.6
1.0 p.m.- 6 a.m. 39.5 9.5 182.0 7.60 99.2 1,871. 57 1,928 0 0.6 6.0 0.5 0 0.015
8-1.2-70
69 8.2 5,
6 a.m.-2 p.m. 35.7 7.8 15.60 0.85 79.2 ‘418 38 1456 0 0.14 22.6 1.0 0.025
2 p.m.-10 p.m. 141.5 663.00 3.146 120.6 5,1460 76 5,536 0 0.8 20.0 0.2 0.010
10 p.m.- 6 a.m. ‘41. 9.5 390.00 12.145 96.0 14,967 63 5,030 0 0.7 16.0 0.1 0.002 0.01.0

-------
Industrial Outfall Data
0
0
out of serv-ice.
0.3
0.3
2)4
2.0
K-2 - Koppers Coapany,
Outfall,
Ohio River, M. P. 69.1414
Cyanide 011.6 Dissolved
mg/I. mg/I. Solids
Sup. Total
Solids Solids
Bexavalent
(Cr-+ )
fluoride
mg/I
Iron
mgJi.
Man nese
m g i ].
Arsenic
mg/i
Lead
mg/i
Sample
Period
Tgmp.
C
pH
Phenols
mg/ I.
8 -1.0-70
6 a.:.-
2 p.m.
28
36.5
7.0
7.9
0.579
0.1.7 6.8
352
67 1419
0.5
0
0.030
2 p.m.-
10 p.m.
10 p.m. . .6
8-u- 70
6a.m.-
2 p.m.
2 p.m.-
1.0 p.m.
1.0 p.m.-
6 a.:.
a.:.
36
36
38
37
36
36
7.14
7.14
6.8
7.0
7.14
7.5
0.072
0.0325
0.1.53
0.286
0.11 8.2
Samples not
4. .
4
0.02
4.
. 1 0

0.02
0.02 143.14
299
taken because
298
267
839
214 323
of boat being
26 3214
5 272
13 852
0
0
0
0.5
0.7
0.6
0.6
0
0
0
0
0.01.0
0.090
0.025
0.025
8- 1 .2-To
o a.:.-
p.:.
1.0 p.m.
1.0 p.m.-
6 a.:.
3o.7
38.3
38
36.5
37.7
7.1
7.2
7.8
7.14
7.3
0.007
0.7514
0.1.82
4..
0 8. .
. . o


C ’
0.03 36.6
297
289
608
1]. 308
1.7 306
18 626
0
0
0
0)4
0.14
0.3
2.1
2.6
2.8
0.5
0.6
0.6
0.003
0.002
0.020
0.01.5
0.010
0.14
0.3
0.3
1.0
o.8
0.9

-------
Industr a1 Outfall Data
0.02 0.8
0.02 0.8
Dissolved
Solids
Sup.
SoLids
Total
Solids
Hexavalent
(Cr+6)
Fluoride
mg/ i
Iron

Manganese
mg/I
Arsenic
mg/i
Lead

290
264
9 299
9 273
0.358
0.371
0.514
0.520
0. 65o
K-3 - Koppers Ccxnpany,
Outfall,
Ohio River 1 M. P.
69.33
Sample
Period
T p.
0 C
Phenols
mg/I
Cyanide
mg/i
Oils
mg/I
8-10-70
6 a.m.-
2 p.m
30 7.4
32 7.2
0
0.3
0.8
0.5
0
0.030
2 p.m.-
10 p.m.
0
0.3
0.7
0.5
0
0.030
10 p.m. -
6 a.a.
Samples
not
taken
because of
boat being
out
of service.
8- 11-70
6a.m.-
2p.m.
2p.m.-
10 p.m.
10 p.m.-
6 a.m.
30 7.3
36 7.4
39 7.5
42 7.2
42 8.2
41 9.2
.,
0

w
410
,. .
W I

g
0
0.01
$ .
0

e
410
, .

g

10.4
273
243
250
24
7
22
297
250
272
0
0
0.01
0.4
0.4
0.4
1.0
1.2
0.9
0.6
0.6
0.4
0
0
0
0.025
0.035
0.025
8- 12-To
6 a.m.-
2 p. a.
2p.m.-
1.0 p.m.
10 p.m.
6 e.m.
43 10.4
53.2 10.3
55 3.4
53.3 9.8
51.5 10.9
51.8 10.7
11.050
27.625
18. 525
..

q
4.)
..io
w
a’
g
,a,
0.04
47.4
33.0
23.6
463
1,417
595
231
37
35
694
1,454
630
0.2
0
0.1
0.4
0.4
0.4
1.8
5.6
5.2
0.3
0.6
0.3
,


a

L)
0
0.045
0.045
0.025

-------
Industrial Outfall Data
- Koppers Ccznpmny, Outfall, Ohio River, M. P. 69.20
Sample Temp. Phenols Cyanide Oils Dissolved Sup. Total He valent Fluoride Iron Ma eae ArseniC Lead
Period °C pH mg/i mg/i Solids Solids Solids ( Cr46) mg/ I mg/I. m mg/i mg/i
8.10-TO
40 7.2
6 a.m. -2 p.m. 142 7.2 3.250 0.02 0.0 2914 40 334 0 0.14 1.0 0.5 0 0.020
2 p.m. .lO p.m. 5.363 0.02 7.2 302 8 310 0 0.3 1.1 0.5 0 0.065
1.0 p.m.—6 a.m. Samples not taken because of boat being out of service.
8 -1 . 1 -70
144 7.0 a
6 a.m. -2 p.m. 1e7 7.2 1.313 283 23 306 0 0.4 0.6 0 0.030
2 p.m. .1O p.m. 314 6.7 1.365 292 17 309 0 0.14 0.6 0 0.045
36 7.3
1.0 p.m..6 a.m. 34.5 7.2 1.073 0.02 16.6 275 II 286 0 0.14 1.6 0.6 0 0.035
8. . 12 - To i..
0 0
14o.7 7.7 q.
6 a.m. .2 p.m. 45 7.7 6.500 a a 212 12 224 0 0.4 2.4 0.5 0.015
48 7.6
2 p.m. .1O p.m. 35.7 7.1 1.658 343 21 364 0 0.14 2.8 0.5 0.020
36.7 7.3 oc
10 a.m.- 6 a.m. 35.7 7.3 1.820 0.02 16.8 319 15 334 0 2.0 0.5 0.001. 0.005

-------
Industrial Outfall Data
UP _ i - Wheeling-Pittsburgh Steel, North SteubenviUe, Outfall, Ohio River, M. P. 68.61
Sa iple T p. Phenols Cyanide Oils Dissolved Sup. Total Hexavalent fluoride Iron Man, neee Arsenic I,ead
Period 0 C pH mg/I mg/i mg/I. Solids Solid Solids ( Cr+6) mg/i mg/i I mg/i
8-1.0-To
28 6.2
6 a.m.-2 p.m. 28 6.9 0.000 4i..8 1492 2,060 2,552 0 0.3 30.0 1.3 0 0.1.95
4)
4,
6.6
2 p.m. -iO p.m. 30 0.000 2,368.8 812 8,002 8,81.14 0 0.6 311 .0.0 2.5 0 1 .32O
3’
C) )
1.0 p.m.- 6 a.m. 31 0.059 0.000 2,214.2.8 1469 1711. 643 0 0.6 300.0 1.8 0 0.090
8-il-To
29 5.5
4) 4)
6 a.m. -2 p.s. 141 4’ 56.8 1458 198 656 0 0.5 714.0 1.5 0 0.065
4O -‘0
29
F F
- _l
2 p.m. - 1O p.m. 26 5.6 , 16.4 521. 125 646 0 0.6 60.0 1.2 0 0.080
24 5.2
1.0 ps.- 6 p.m. 26 0.005 0.010 1,654.6 6 1i .8 282 930 0 0.6 89.0 2.0 0 0.175
8-12-70
25.6 6.5
4) 4 )
6 a.m. -2 p.m. 29 3.3 4 32.14 0
-40 .40
25.7 5.1
a
4 )
0.510
2 p.m. -1.0 p.m. 26 5.14 , 114,205.2 714.0 1,086 1,826 0 0.5 230.0 l.8 4’
w
26 5.9
0
10 p.m.- 6 a.m. 26 3.7 0.035 0.0140 6,006.8 936 278 1,214 0 0.6 200.0 1.8 o. 16o
C )

-------
Industrial Outfall Data
WP -2 — Wheeling -Pittsburgh Steel, North SteubenviUe , Outfafl, Ohio River, N. P. 68.79
8ample T p. Phenols Cyanide Oils DissOlved Sup. Total Rexavaient Fluoride Iron Manganese Arsenic Lead
Period °C p mg/i mg/I Solids Solid Solids ( Cr+6) mg/i mg/i mg/I mg/i
8.io..7o
28 6.9
6 a.m. -2 p.m. 34.5 7.2 1.75 37.1# 325 9 334 0 0.6 4.0 0.5 0 0.030
4)
.40
32 7.0
2 p.m. -lO p.m. 35 7.2 1.24 3.0 303 19 322 0 0.6 4.0 0,5 0 0.065
36 6.8
tO p.m. _6 a.m. 35 0.013 0.70 9. 14 250 21 271 0 0.7 14.0 0.5 0 0.030
8-it-To
33 6.5
6 a.m. -2 p.m. 34 6.8 0.91 297 23 320 0 0.5 6.0 0.7 0 0.039
4)
43
Qi
2 p.m. -l0 p.m. 30 6.5 1.71 305 10 315 0 0.5 2.2 0.6 0 0.035
00) 01
295 6.3
10 p.m.- 6 a.m. 30 5.9 0.008 1.71 1.0.8 298 22 320 0 0.9 4.6 0.6 0 0.035
8-12-To
6.2
6 a.m. —2 p.m. 30 6.1 0.87 No sample received in Lab. 9.0 0.5 0 0.035
30.7 6.2 o
2 p.m. -l0 p.m. 32 6.4 2.28 359 ]7 376 0 0.6 8.o 0.5 C 0.080
6.7 j
10 p.m.- 6 a.m. 31 6.7 0.010 2.12 22.4 291 13 304 0 0.9 8.5 0.5 0 0.055

-------
Industrial Outfall Data
- Wheeling-Pittsburg i Steel, Mingo Junction, OutfdtLTOlii6 River, M. P. 70.73
Sample Temp. Phenols Cyanide Oils Dissolved Sup Total Hexavalent
Period 0 C pH mg/i mg/l mg/I Solids Solid Solids ( Cr+G)
8-10-To
a
‘-It.-.
u a.m.-
2 p.m. 34 3.8 0.00 20.6 572 77 6149 o
S
o
2p.m.-
1.0 p.m. 0.010 0.01 23.14 9614 1148 1,1.12 0
Samples not taken because of boat being out of service.
8-il-To
1..
F 0 0 0
oa.m.— 33 3.7 -. 4- .
2 p.m. 34 3.7 a a 828 1114 9142 0
4-) 4.) 4.)
. 10 ,40 ‘-10
at— at—
2 p.m.- 32 3.3 8. ’-
10 p.m. 29 3.1. 6149 83 732 0
10 p.m.- 28 3.9
6 a.m. 33 3.6 0.003 0.01. 27.6 895 133 1,028 0
8-1.2-To
0 0 0
6 a.m.- 314.5 3.14 4.. 4-.
2 p.m. 314.5 3.5 687 1.07 792 0
—10 ‘40 .40
at-- at— at--
2 p.m.- 35.7 3.3 g —
1.0 p.tn. 33.3 3.0 g . 918 1142 1,060 0
10 p.m.- 35 3.14
6 a.cn. 37 3.6 0.0146 0.01 37.0 553 67 620 0
Fluoride Iron Manganese Arsenic Lead
mg/i rngJ l mg/I mg/i
o.14
54.0
2.14
o
0.3
1.8.0
14.3
0
0.0145
0.3
31.0
3.0
0
0.100
0.3
56.0
14.3
0
0.050
0.3
30.0
3.0
0
0.0145
0.2
142.0
2.5
0.080
4,
4’
0.2
0.3
50.0
37.0
3.5
1.8
o.oc 1 4
0.025
0.055

-------
Industtjal Outfall Data
WP -5 - Wheeling-Pittsburgh Steel, Mirigo Junction, Outfall, Ohio River, M.P. 70.83
Sample Tginp. Phenols Cyanide OiJ..s Dissolved Sup. Total Hexavalent Fluoride Iron Manganese Arsenic Lead
Period C mg/i mg/i mg/i Solids Solids Solids ( cr+6) mg/i mgJ l mg/i mg/i mg/I
8-10-To
6 a.m.- 32 6.9
2 p.m. 31e.5 6.9 0.001 0.02 11.8 293 13 306 0 0.35 1.8 0 0.005
2 p.m. -
10 p.m. 0.002 0.01 9.14 287 6 293 0 0.3 2.3 1.3 0 0.005
10p.m.-
6 a.m. — t— Samples not taKen because of ooat being out of service.
—
n ii I I
— 1.— I’. ,
I ..
6a.m.- 33 6.9
2 p.m. 33 6.7 , , 25 0 272 8 280 0 0.3 2.0 0.7 0 0.0145
4.’ 4.’
.1

p.m.— . o a
10 p.m. 33 6.5 279 1.1 290 0 0.3 1.6 0.5 0 0.105
10 p.m.- 314.5 6.3
6 a.m. 314 6.14 0.007 0.02 12.8 250 l 2614 0 0.3 1.3 0.5 0 0.05 0d
8- 12-70
6 a.m.- 26.7 7.0
2 p.m. 29 6.9 306 12 318 0 0.8 0.080
w
4.’ + 2 + 4’
2p.m.- 28.14 6.9 ••
10 p.m. 35 6.7 a a a 8 354 0 3.8 0.5 0.015
g
10 p.m.- 314.24 7.1 - )a) C)
6 a.m. 34.14 7.1 0.020 0.03 52.2 267 5 272 0 0.3 3.14 0.5 0.002 0.005

-------
WP-7 - Wheeling-Pittsburgh Steel,
Mingo Junction,
Industrial Outfall
Outfall, Ohio River, M. P. TL.12
Hexavalent
(Cr1 6 )
Fluoride
mg/i
Iron
mg/i
Manganese
mg/i
Arsenic
mg/i
Lead

Sample
Period
Temp.
°C p
Phenols
mg/i
Cyanide
mg/I.
Oils

Dissolved Sup. Total.
Solids Solid Solids
8-10-TO
6 a.m.-
2 p.m.
39 9.9
39 8.5
0.208
0.01.
32.2
311 107 141.8
0
0.9
12.0
0.5
0
0.390
2 p.m. -
10 p.m.
0.008
0.01.
141.14
3514 78 1432
0
1.0
12.2
0.6
0
0.1460
10 p.m. -
6 a.m.
Samples not taken oecause of boat
being out of
service.
8-li-TO
6 a. n.-
2p.m.
38 8.1.
39
0.003
0.01
27.6
298 14148 46
0
1.6
21.0
0.7
0
1.1400
2 p.m.-
1.0 p.m.
36 7.8
39 9.1
0.005
0.02
22.14
332 2114 5146
0.02
1.1
13.0
2.0
0
0.560
1.0 p.m.-
6 a.m.
39 7.6
35 9.0
0.003
0.01.
31.6
302 1450 752
0
1.7
142.0
0.5
0
2.250
8-1.2-TO
6a.m. -
2 p. m.
2p.m.-
10p.m.
10 p.m.-
6 a.m.
140 11.1
50 9.9
146.7 10.7
37.8 .6
38.5 7.3
35.7 8.6
+3
g
g
5 1
01

0.020
54
4’

g
E’- 1
OS
()CO
0.02
54
4’
.40
d
5-
0 5
t)
35.2
623 759 1,382
1437 1481 918
225 285 510
0.1.2
0.1.
0
8.2
2.0
514.0
144.0
37.0
1.8
1.3
0.7
5 )
4 )
i

a
0
C)
0.003
2.600
2.350
1.350

-------
Miogo Junction, Outfall, Ohio
Industrial Outfall
River, M. P. 71.1.8
Data
He valent
(Cr 1 6 )
Fluroide
mg/ i
Iron

Manganese
mg/i
Arsenic
mg/i
Lead
mg/i
Cyanide
mg/I
Oils
mg/I
Dissolved Sup.
Solids Solid
Total.
Solids
7.2
133
25
because
VP -8 - Wheeling -Pittsburg i Steel,
Sample T 8 mp. Phenols
Period C pH mg/i
8 -l.o...To
6 a.m.- I 1. 8.6
2 p.m. 39 9.0 O.OO
2 p.m.-
10p.m. 0.005
1.0 p.m.-
6 a.m.
8-1. 1-To
6 a.m.- 38 1.0.3
2 p.m. 37 8.7
2 p.m.- 4l.5 8.9
1.0 p.m. 39.5 9.9
10 p.m.- 38 7.2
6 a.m. 38 8.2 0.000
8-12-70
6a.n - 28. 7.8
2 p.m. 29 7.1
2 p.m.- 29 7.5
10 p.m. 36.5 7.6
1.0 p.m.- 36.5 7.8
6 a.m. 35.7 7.9
679
526
of boat being
0.00
0.01
0.01.
4. )
4, 0
w
OOs
p. q. . -s
C.)
0.02
1.5
1)1
out of service.
546
501.
Sasiples riot taken
L 21.0
5 .-i
Os
I ’. ”
I - .
0
4-.
3147
‘23
556
1.2 6.0
1.0 1.6
1.1 14.0
1.2 1.8
1.0 2.2
238 14148
1496
5514
31. 378
15 1438
18 5714
I..
0
o 4-.
4-.
4.,
4 ’O ‘40
4 )0 it-
_It-. m l 04
tl)5 Q( J P.Cu
ocu 0 .- i
55 01
E l O Oco
C.)
C.)
0.0014 0.07 1 .7.6
1.0
0.6
0.5
0.6
0.5
0.14
0.14
0.5
i.6
1.2
2.2
2.3
14.3
0 0.370
o 0.090
O 0.270
0 0.090
0 0.1.85
0.215
0
4.’
4,
0.100
C-,
0.001 1 0.070
0.8
1..l
10.2
12.0
3.0
2.6

-------
WP_9 - Wheeling-Pittsburgh Steel,
Sample Teanp. Phenols
Period 0 C ph mg/I.
6-10-70
Industrial Outfall Data
Mingo Junction, Oi. tfall, Ohio River, M. P. 71.214
Cyanide Oils Dissolved Sup. Total
mg/i ragjl Solids Solid Solids
Hexavalent Fluoride Iron Manganese Arsenic Lead
( Cr+6) mg/ I . mg/i mg/i mg/l
6 a.m.-
2 p.m.
2 p.m.-
10 p.m.
29 7.0
30 6.9 0.003
0.000 0.01
5 . 1
0
a)
43
a
Os
Eel
0I
C.) a)
0.6 2.2
2.0 0.6
0 0.0145
O 0.O 15.5
0.02
0.7
10 p.m.-
6 a.m.
8- 11-70
6 a.m. -
29
7.0
5..
°
4 - I
2 p.m.
33
6.7
+2
0.01
2p.m.-
10 p.m.
31
32
6.8
6.7
.40



Oa)
0.02
10 p.m.-
6 a.m.
31
32
5.5
7.0
0.000
0.01
8-12-70
6 a.m.-
26.7
6.9
5..
°
4-.
°
4 - .
2 p.m.
2p.m.-
1.0 p.m.
28.14
31
33
6.7
6.8
6.6
4 ’
. 40



( 5
4)
.40

a 4

10 p.m.-
6 a.m.
33)4
31.7
6.9
6.9
( )a)
0.001.
0.02
10.6 289 22 31]. 0
13.0 292 214 316 0 0.3
SampLes not taken because of boat being out of service.
0 0 ) 4
0 0.3
0 0.3
0.5
0)4
9.2
5..
0
4..
a,
4’
.40
a
lC
Eel
Os
C) )
35.8
221.
141
262
2)4
0.5
0.090
190
10
200
2.0
0.5
C-)
0.060
3114
10
3214
1.9
0.5
0
0.0140
2214
214
2148
0
11.0
0.5
a)
0.020
4- ,
2143
7
250
0
5.0
0.5
0.010
253
7
260
0
6.o
0.5
0.002
0.025

-------
Industrial Outfall Data
WP-lO — Wheel.ing-Pittsbu.rgh Steel, Yorkv-ifle, Outfall, Ohio River, M. P. 83.143
Sample TgWP. Phenols Cyanides Oils Dissolved Sup. Total Hexavalent Fluoride Iron Manganese Arsenic Lead
Period C pB mg/I mg/I mg/i Solids Solid Solids ( Cr46) mg/i mgJi. mg/i mg/i E
8-io-7o
6 a.m.- 33 5.9
2 p.m. 34.5 6.1 0.008 0.00 26.6 831 8114 1,6145 0 0.14 270.0 1.8 0 0.080
2 p.m. -
10 p.m. No samples taken because of barge blocking outfall.
1.0 p.m. - No samples taken because of barge blocking outfall.
6
8-li-TO
6 a.m. - Only one half of sample taken
2 p.m. because of different sample crews 365 91. 1 45b 200.0 1.14 0 0.050
and barge docking.
2 p.m. -
10 p.m. No samples taken because of barge docking.
1.0 p.m.— No samples taken because of barge docking.
6
8-12-70
a,
6 a.m.- 36.7 5.9
2 p.m. 29 14.9 0.003 967.2 879 175 1,0514 0 0.3 390.0 2.5 0 0.030
2 p.m.- 34.5 14.0
1.0 p.m. 314 5.3 0.016 0.02 14,261.6 793 187 980 0 0.4 480.0 2.3 0.045
1.0 p.m.-
6

-------
WP_ 11. - W ieeltng -Pittsburgh Steel,
Sample Temp. Phenols
Period °C pH mg / I
8-10-70
6 a.rl. - 30.5 2.5
2 p.m. 36.5 2.6 0.150
2 p.m.-
10 p.m. 33.5 2.7 0.325
10 p.m.-
6 a.m. 3 .O 1.9 ]..235
8-11-70
6 a.m.-
2 p.ni.
*2 p.m.- 36 2.3
1.0 p.m. 36 1.3 1.625
10 p.m.-
6 a.m. 38 2.3 1.310
8-1.2-70
6 a.m.- 38.3 2.
2 p.m. 37.2 2.5 0.312
2 p.m.- O.5 2.5
10 p.m. 37.2 2.1. 0.75k
1.0 p.m.- 37.5 2.1
6 a.m. 37 2.0 0.231
C) C)
4.,
‘ 10
mu
Ou OC J
p.C ’J p._1
El
01 DC C
0CC 0
0.00 25.1
Industrial Outfall Data
Yorkville, Outfall, Ohio River, M.P. 83.5
Cyanide Oils Dissolved Sup Total
mg /i mg/i Solids Solid Solids
l9
8 6
686
0.00
0.01
C)
4 .3
-40
0CC
0.00
10. ö
16.2
C)
4.,
‘-‘0
w
0CC
1.0
Hexavalent
(Cr+6)
Fluoride
mg/I
Iron
mg/l
Manganese
mg/l
Arsenic
mg/i
Lead
EEL!
7
k ,6
0
0.
120.0
1.5
o
o.o65
67
913
0
0.
68.0
1.5
0
O.l O
2 0
926
0
o. !
120.0
1.5
0
0.1.00
Samples
not taken.
1,372
l, 458
32
58
L,l O4
1,1496
0
0
0.3
0.3
116.0
112.0
2.0
1.3
0.002
C)

0.100

1,169
63
1,232
0
0.3
380.0
1.7
0
0.025
i, 1 488
1,173
1.20
23
1,608
1,1.96
0
0
0.3
0.3
29.0
1410.0
2.7
2.0
a)

.

0.025
0.020
*Represents one single sample

-------
Industrial Outfall Data
WP-l2 - Wheeling-Pittsburgh Steel, Yorkvifle, Outfall, Ohio River, M. P. 83.58
Sample Temp. Phenols Cyanide Oils Dissolved Sup. Total Rexavalent Fluoride Iron Manganese Arsenic Lead
Period 0 C ag/I. mg/I Solids Solid Solids ( cr+6) mg/I mg/i mg/i
8- 1 .0-To
6 am..:
2 p.m.
2 p.m.-
1.0 p.m.
10 p.m.
6 a.m.
8-li-TO
6a.m.-
2 p.m. 0.010 0.00 3,208 338 3,5 6 0 0 185.0 3.0 0 0.01.0
2p.m.- 18 3.2
10 p.m. 20 3.3 O.O0 0.00 2. . .!i 3,l9 352 3,51 6 0 0 197.0 3.0 0.015
—I
10 p.m.- 19.5 1.9 r.)co 0
6 a.m. 1.9 3.2 0.001 0.00 29.8 3,6149 337 3,986 0 0 187.0 3.2 0.020
C.)
8-1.2-To
I . .
0 0
oa.m.— 17 3.0 o
: :1:1. 1.9.5 2.9 3,51.2 31e8 3,860 0 0.1 1440.0 3.0 0.003 0.000
1.0 p.m. 20 2.8 c i 3,570 318 3,888 0 0.1. 1480.0 3.14 0.000
10 p.m.- 20.5 2.9 °°
6 a.m. 19.5 2.8 0.007 0.00 148.6 3,753 211 3,96 14 0 0.3 1435.0 3.5 0.000

-------
LIST OF BIOLOCE CAL SAMPLING STAU ONS*
Mile Point Description
54 ,1 New Cuinberlarid Locks and Darn
56.0 Belot New Cumberland Locks and Dam
62.0 In the back-channel of the Ohio River around
Brown Island
63.0 In the main channel around Brown Island,
approximately 0.7 miles below National Steel
66.2 Old Lock and Darn 1#1O, above Steubenville, Ohio
68.0 Left - 1.3 miles below Harmon Creek
Right - 0.1 miles below Steubenville Sewage
Treatment Plant
69,9 Left — 0.6 miles below Koppers Company
Right - 1 mile below Wheeling-Pittsburgh Steel
71.9 Right - 0.4 miles below Wheeling-Pittsburgh Steel,
Ningo Junction
78.0 Right - 1 mile below Ohio Power Company
83.0 0.2 miles above Wheeling-Pittsburgh Steel,
Yorkville, Ohio
84.0 Right - 0.6 miles below Wheeling-Pittsburgh Steel,
Yorkville, Ohio
87.4 Lock and Dam #12
93.4 Left - 2 miles below Wheeling Sewage Treatment Plant
96.1 Lock and Darn #13, 1.4 miles below Wheeling-Pittsburgh
Steel, Benwood, W. Va.
129.1 Lock and Dam #15
*Phytoplankton samples were collected at the chemical sampling stations.

-------
SALMONELLA STUDY
It is desirable to isolate and identify certain types of
pathogenic bacteria from the bacteriological samples to verify the
disease producing capacity of the bacteria. Salmonella bacteria,
which cause gastrointestinal dIsorders, were selected0 Suspected
Salmonella colonies were isolated from the other bacteria present In
the saniples by growing the bacteria in an environment which
stimulates the growth of only Salmonella bacteria. Such a selective
environment Is provided by the use o Selenite F broth or
tetrathionate agar In the agar plates. In this teat, only the
tetrathionate agar supported any bacteria colonies suspected to be
Salmonella 0 Samples of these colonies were sent to the Communicable
Disease Center in Atlanta, Georgia for serological typing. These
samples of bacteria colonies were identified as follows:
Source
Salmonella Isolated
Ohio River at BellaIre,
Ohio intake
Ohio River below
Steubenville, Ohio
Sewage Treatu nt Plant
1.
2.
3.
4.
5.
6.
7.
8.
9.
10.
11.
12.
13.
14.
Salmonella enteritidis
Salmonella enteritidis
Salmonella enteritidis
Salmonella enteritidis
Salmonella enteritidis
Salmonella enteritidis
Salmonella enteritidis
Salmonella enteritidis
Salmonella enteritidis
Salmonella enteritidis
Salinonellaenteritidis
Salmonella enteritidis
Salino el1a enteritidis
Salmonella enteritidis
ser Typhimuriuza
ser Panama
bioser Java
ser Panama
bioser Java
ser Panama
ser Muenchen
ser Panama
bioser Java
bioser Java
ser. Newport
ser Thompson
bioser Java
ser Newport
l5
Salmonella enteritidis
ser Thompson

-------
BACTERIA SURVIVAL STUDY
This study was conducted to observe the bacteria survival
patterns of pollution indicators and Salmonella at selected sample
locations on the stretch of the Ohio River examined during this
survey and to determine the effect of sewage and industrial pollution
on the bacteria populations. Sewage contains nutrients for bacterial
growth, and industrial wastes can have either stimulating or toxic
effects on bacterial growth 0
Samples were collected at t o locations and filtered through
a 0.22 mu membrane filter to remove all bacteria present.
Pure cultures of each of the three indicator organisms (non-.
fecal coliform, fecal coliform, and fecal streptococcus) as well
as Salmonella were inoculated into four equal aliquots of each of the
two filtered samples. They were incubated at 26.5°C (stream
temperature) and counted at intervals of 1, 2, 3 7, and 14 days.
The results were calculated as percent of initial concentration
remaining and recorded in Table A-I of this Appendix. To understand
these results it should be remembered that the non-fecal coliforms
can survive with a minimum of nutrients while the fecal coliforms,
fecal streptococci, and Salmonella have more specific nutritional
requirements for growth. Fecal streptococci have been generally
reported to die-off somewhat rapidly in water.
The results of the sample collected below the Steubenville, Ohio
waste treatu nt plant and the sample collected at the Bellaire, Ohio

-------
water intake are similar. Both samples showed a regrowth of the
non—fecal coliform culture and the Salmonella cultures Both samples
had a slight decline in the fecal colifotm culture, and both had
a die-off of the fecal streptococcus culture.
The results indicate adequate nutrients were present for
sustenance of the bacteria with the exception of the fecal streptococcus
culture 0 The regrowth of non—fecal coliform and Salmonella cultures
suggests no toxic effects caused by industrial wastes.

-------
OHIO RIV b’rUDY
SUMMER 19T0
SURVIVAL STUD! ON TORONPO, OHIO
TO McMECHEN, WEST VIRGINIA REACH
TABLE A-I
#550551 Ohio River at Be].laire, Ohio Intake (M.P. 9 i.o)
PERC1 r T RE 4AINING
CULTURE INITIAL couNT/loo ml 21 HOURS 4W 72 HOURS 7 DAYS DAYS
Salmonella 110,000 53.6 31.3 30.0 181.9
Java
Non Fecal 92,000 260.9 l1i 1.3
Coliforni
Fecal Coliform 1140,000 Ii9 .3 7.0 52.1 21.2
Fecal StreptococcuB 14 .4,000 14.1 0.45 0.11 <0.22 <022
* Regrowth = Greater than a ten-fold increase over initial number

-------
OHIO RIVER STUDY
SI1. 4ER 1970
SURVIVAL STUDY ON WRONTO, OHIO
TO McMgCREN, WEST VIRGINIA REACH
A-i (Continued)
#550376 Ohio River below Steubenville, Ohio Sevage Theat .t t Plant (M.P. 67.9)
PERC1 T REMAIRINC}
CULTURE INITIAL COUNT/ioo ml 24 HOURS 4t3 HOURS EOUBS 7 DAYS 1 14 DAYS
Salm j?aeUa
Java 150,000 36.7 0.33 1.11 314.0
Non Fecal
Coliform 80,000 275.0 0.13 2.5 R*
Fecal Coliform 1140,000 35.7 7.0 57.9 79.3 28.6
Feca]. Streptococcus 25,000 27.2 8.4 1.6 < 0.40 <0.40
*Regrovth Greater than a ten-fold increase over initial number

-------
TRACE METALS STUDY
Special samples were collected at nine stations on July 27 for
the purpose of making trace metal analyses. These samples were
shipped to the Analytical Quality Control Laboratory in Cincinnati
for the analyses 0
Iron values exceeded 1.0 mg/i in two samples 0 High levels of
manganese and aluminum generally accompanied the high iron values.
Zinc was observed frequently with lesser occurrences of copper,
nickel, lead and chromium. Boron, barium and strontium were found
in all samples, however, cadmium, arsenic, beryllium, cobalt and
vanadium were not detected in any samples. Mercury exceeded 0.5
micrograms per liter in two samples.
A complete tabulation of the data is shown in Table A—lI of
this Appendix.

-------
Table A tI
Trace Metal Analyses
ru1y 21, l 10
AU ROBults in ugJl (ppb)
Mile Point
Trace Harmon
Metal 60.8 65.3 Creek 67.9 70.0 72.0 82.7 86.7 95.5
Zinc < 20 114 120 32 110 io8 66 84 300
Cadmi n <20 <20 <20 <20 <20 <20 <20 <20 <20
Araeuic <50 <50 <50 <50 <50 <50 <50 <50 <50
Boron 18 1.280 92 230 230 94 1.06
Phosphorus <100 <100 <100 <100 <100 <100 <100 <100 <100
Iron j70 1880 2000 820 1540 92() 320 750 720
Molybdernun <40 <180 88 < 30 90 <40 96 <40
Manganese 1214 210 940 l 2 350 210 230 200 216
A liuninuzn < 1 4o 1 e0 7140 < 1.52 < 0 88 50 90
Berylli .un < 0.2 < 0.2 < 0,2 < 0.2 < 0.2 < C.2 < 0.2 < 0.2 < 0.2
Copper < 10 < 10 < 10 < 1.0 15 < 10 19 16 12
Silver <2 <2 <2 <2 <2 <2 <2 <2 <2
NIckel <20 <20 <20 <20 24 <20 24 <20 <20
Cobalt < <20 <20 <20 <20 <20 <20 <20 <20
Lead <140 <140 74 < 40 6L 
-------
UkTIC LIFE
Bottom organisn were collected during the study of July-August, 1970,
using a Petersen dredge and rockflhled basket samplers. The baskets
were exposed at a depth of one to two feet for four weeks. Upon
retrievel, the rocks were emptied into a tub of water and each rock
was brushed to remove the clinging organisms. The samples were
concentrated on a sieve, preserved and taken to the laboratory for
identification. The results of the bottom at d basket sampling are
shown in Table A-IlL
During this study, one liter water samples were collected on
July 27 and August 3 for phytoplankton analysis at the 12 stationS
designated as sampling points for chemical analyses. Upon receipt
in the laboratory, each sample was divided into two portions, one
being prepared and used for a Sedgwiclc -Rafter count and the remainder
was prepared and used for a chlorophyll determination using a Bausch
and Lomb Spectronic 20. The results of the suspended algal counts
and the chlorophyll concentrations are shown in Tables A-IV, V and
V I.
For this study, attached growths were collected on lass
slides exposed at the surface for a four week period In i:loating
samplers. Four slides from each sampler were prepared for Sedgwick-
Rafter counts, and each of the remaining four slides were prepared for
chlorophyll analysis. The composition of the attached growths is shown
in Table A-VTI and the chlorophyll values are shown in Table A-VflI.
-------
TABLE A-Ill
Macroinvertebratea Collected from the Ohio River
by Dredge and Basket Samplers - July-August 1970
s!Th kc t or Dredge
IMile Point
514.14
56
.0
—
62.0
63.0
66.2
organism [ Sampler
fLocation
B
R
L
D
M
R
D
R
D
L
B
L
D
LMR
B
R
CRAYFISH
Cambarinae
2
Orconectes sp.
1
14
1
FLAT WORMS
MIDGEFLIES
1
1
1
2
3
Chlronomiriae
Chirouc*nus s .
C. çnicrotendipes)
.
3
1i .
9 1
12
Orthocladiinae
Cricoto us s .
Psectrocladius .
2
1.
3
21
1
514
3
3
1514
2
211.
26
1 6 1
103 1 9
1
2
1
2
Tanypodinae
Pentane ura sp.
AQUATIC WORMS
WATER FLEAS
X
X
X
HYDROIDS
!y 1rasP.
BRYOZOA
X
X
X
XX
Pluniatella s .
X
X
x
x
x
tjrnatella p.
Nun ber of Organisms
8
22
5
514
10
1511.
58
1014 32 11
8
‘
NumberofTaxa
5
2
14
1
5
2
6
2614
Key: B Basket Sampler
D = Petersen Dredge
L Left ) Location in
M = Middle >. River facing
H = Rig it j downstream
X Present
-------
TABLE A-Ill
IMile Point
Organ1 m f Sampler
ILocatiorl
68.0
— 69.9
D
B
D
B
L M R
L E
L M R
L
DAMS IES
Coenagrlonidae
Ischnura ap . 1
CRAYFISH
Caznbsrinae 1
Orconectes Bp . 2
FLAT W0I 4S 3
ROUN ’1OWS 13
SNAILS
Physidae
Physa sp .
MIDGE FLIES 1
Chiron n1nae
Chironomus sp . 2
C. çDicrotenai es) sp . 1
Or ciadiinae
Crlcotopue s . 5 2
? sectrocladius a . 28 2
Tanypodi.nae
Pentaneura ap .
Procladius ep. 3
AQ UATIC WOI 4S 121 9 88 1 44 13
L CKES 1
WATER FLEAS X
HYDROIDS
} [ ydra . X X X
BRYOZOA X X X
N nber of Organienis
121 12 91
li.99 7
44 14 29
2
Ni nberofTaxa
242
84
126
1
-------
TABLE A-Ill
Mile Point
Organlam Sampler
- Locatiort
‘11.9
78.0
83.
0
D
L 14 R
B
T
D
L td R
B
R
D
L M
R
R
CADDIspLTE c
• P ychc* yiidae
C ’rtie1lus sp . 18 13
Rydroptilld.ae I
DAMSELFLIES
Coenagrionidae
Argia sp . I
CRAYFISH
Caxttharinae
Orconectes ep . I
FLA LM0I S I
SNAILS 1
MIDGE FLIES
Chironcmioae
Chiron nus s . 4
C. (Dicr tend1pes) 5p . 3 6
C. çCrtochiro i ius)sp . 1 2
C.J _ Einfèldia) 16
c. (Endochironomus) s1 . I 2
Polypedilum ap . 1 8
Orthoc ladilnae
Cricous sp . 7 16 12
Psectroc1á ius s . 1 3 1 32 6
Tan,’-ooa.inae
Pentaneura8p . 5 9 12 1 5
AQUATIC W01 IS 3 51 12 1 153 119 15 24 75 29 14
LBEC}LES 1 19 3 1 1.
WATER FLEAS X
HYDROIDS
rdrasp . X X X X
Co 1 r1ophora sj . X
BRYOZQA X X
Number of Organisms
15 71 12
21
153 123 37
106
26 75 29
84
Number of Taxa
6 5 1
7
1 3 2
15
3 2 1
10
-------
T.ABLE A-f l
Organi8m
Mile Point
84.0
87.4
93.4
Sampler -
D
B
I )
B
D
Location
R
R
L M R
L
L M R
CADDISFLIES
Paycho nyiidae
C rnel1us ap . 3
Hydroptilidae
H.ydroptlla . 2
Hyd op hidàe
DAMSELFLIES I
Coenagrionldae 2
Argia p . 2 1
FL ORMS 3 3
CLAMS
Sphaeriidae 1
Corbicu.lidae
Corbicula ap . 1
MIDGE FLIES
Ci iron ninae
Chiron us
( Dicrotendipes) ap . 10
C. Cry tochironc nua) ap . 6
. (TEinf 1dia) ap . 102
Polypedilum sp . 6
Ortb oclad.ilnae
Cricotop s s . 16
Psectroc1ad ius sp . 43
Tanypodinae
Pentaneura sp . 16 24 6
Procladius s . 3
AQUATIC WORMS 10 150 51 4 58 112 224 .
LEECHES 1 18
WM ER FLEAS X X X
IIYDROIDS
Hydraa . x
BRYOZOA x
Number of Organisms
10
274
55 5 3 17L
136 1 26
NumberofTaxa
1
6
4 21
14
3 1 3
-------
TABLE A-Ill
0rganis n
Mile Point
96.1 —
l29.0
Sampler
D B
1)
B
Location
R L
L M R R
CADDI FLIES
P8ychomyi idae
çyrneuus sp . 8
Hydrop8yc id.ae
Kydro syche s . 2
Potamyia ap . 3
MAYFLIES
Baetld.ae
Trlcorythoden sp . 1
DAGONFLIES
Lib ellulidae
Neurocoru11 . 2
CRAYFISH
Ca iibarinae
Orconectes ap . 1
CLAMS
Sphaeriidae 1 T
Corbiculidae
Corbicula . 1
SNAILS
Pbysidae
Physa .
MIDGE FLIES 1 1
ChironQninae
Ch1ron ius ap . 1
C. ( Dlcrotendipe6) p ; •1.
C. (ç ptochiron u8) . 9 2
Cbiron nu8 e . 9
1’oly edi1um . 2
Tan ,rtarSusep . 2
Orthocladiinae
Cricotopus s . 9 1
Psectroclad1us _ . 5
Tari rpodinae
Pentaneura sp . 5 T 3
Procladlus sp . 1
Coe1otan pus sp . 1
AQUATIC W01 4S 32 6 6 1500 i6
LEECHES 3 9
WATER FLEAS X
HYDR OIDS X
BRY OZOA _________________ _________________ X
Number of Oreanisins
35 10
1603 6 191
3
5
Number or i
2 2 2
LI. 7 13
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TABLE A-TV
Pr toplankton Grab Samples Collected from the Ohio River
on July 27, 1970
Secigwick-Rafter Data
(Units/mi)
)rganism
[ Sta. No.
.
386
j
550
65.3
1714
. .
209
67.1
3T6
67.c
388
70.(
389
72.0
39O
75.0
391
82.7
1147
86.7
551
914.0
552
95.5
COCCOID BLUE. .GREEN
A nene1lum sp . 57 57 57 57 57
rnechococcue sp . 57
COCCOID GRE
Acanthosphaera sp . 57 57 171
A tinastrum 8p . 57 28 51 171
Anicietroaesmus sp . 28 1114 171 17]. 171 627 1197 339 1141
Chl.orococcum sp . 28 57 1114 3142 171. 1114 285
Chod tel1a sp . 57 57 1114
Closteriopsis sp . 57 1114 57 1114 57 57
Lastrum sp . 1114 57 1114 171 57
Coatnarium s . 57
rucigenia sp . 57 57 1114 57 1114 57 1114
Dictyos haerium sp . 57 ll 1114 57 57
Dimorphococcus sp . 57
Elakatothrix 8p . 57
Francela ep . 1114
Go1enkinia . 57 57 57 57
Micractinium s . 228 57 285 171 57 1114 3 2 171 228
a ystissp . 1114 11l
Pediastrum sp . 57 1114 28 7 57 L 114 57
Scenedesmussp . 171 285 3142 285 285 171 285 513 228 171
phaerocystis si . 57 ill
Staurastrum ep . 57
ètrastrum sp . 1114 1114 57 228
unknown 513 228 3142 285 228 171 513 570 969 1456 513
GFL 1EN FLAGELLATES
Trachelotnonas s . 28 57
LIVE C TRIC DIATOMS 1111. 171 56 228 171 3142 285 228 228 3142 171 171
LIVE PENNATE DIATOMS 57 168 1114 57 lii 1l i 57
Total Live Algae
ii14o
3614
131.1
1368
1767
1653
2052 ]23914
14788
23914
279
*Harnlon Creek
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TABLE A-V
Phytoplankton Grab Samples Collected fro n the Ohio River
on August 3, 1970
Sedgwick-Rafter Data
(Units/mi)
Sta. No.
386
6o.8
550
65.3
171 1.
*
209
67.1
376
67.9
388
70.0
389
72.0
555
75.6
391
82.
111.7
86.
551
9 .O
552
95.5
COCCOID BL JE-GREEN
Ariacystis ep . 57
Raphidiopsis • 228 ii1 1114. 171
COCCOID GREEN
Ankistrodesmu .s sp . 57 228 1114. 627 i1 11 4. 57’
Chiorococcum sp . 31 .2 • liii. 1111. 57 228 57
Chodate1las . 57
Clo3terio psi9 . 57 57 1114 171. 57 1114.
Coelastruni ep . 1114. 57 57
Crucigenia s:p . 57
Dibtyosphaerium S 57 171
Golenkinia sp . 57 57 57 171 57
Micractiniuni S . 1l 228 ll 1 399 39 57 31 .2 171 228 228 285
Oocystis sp . 1114 ii
Pediastrum . 57 57
Scenedesmus sp . 228 285 57 285 171 228 570 171 171 314.2 285
Sphaerocystis sp . 57
Tetrastrum 8 . 57 57’ 57 1114. 285 57 57 1114.
Treubaria sp . 57 57 171 111+
Unknown 57 228 285 285 285 3IJ .2 314.2 171 285 399
GREEN FLAGELLATES
Tr chelomonas S . 57 57 57
LIVE CENTRIC DIATOMS 1L14 171 57 57 111 57 399 314.2 399 171
PENNATE DIATOMS 1114. 171 57 57 171 57
Total Live Algae
1311
1596
285
1311
114.82
2109
1h25
2565
1720
18214
1653
1368
IM. P.
*Harmon Creek
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TP BLE I
Phytoplankton Chlorophyll frc n the Ohio River
July August 1970
Statiou
N .tnber
Mile Point
Total Chlorophy2l g/i)
7-27 8 3
386 60.8 15.20 lb.89
550 65.3 15. 8 13.13
17 14* 14.140 15.31
209 67.1 12.67 13.73
376 67.9 15.20 17.23
388 70 .0 21.79 114.75
389 72.0 15.20 16.27
390 75.0 28.00
555 75.6
391 824.7 21.35 16.00
1147 86.7 31.53 18.07
551. 914.0 20.02 27.03
552 95.5 23.03 23.39
* r on Creek
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Organism
Unknown
Unknown
Location B
L
I L
R
B
B ] E
B
L 1
TABLE VII
Periphyton Samples Collected from the Ohio River during
August 1970
Sedgwick -Rafter Data
___________ ____ _____ ____(Cells/mm 2 )
Inclusive * 7/ 7/5 ... 7/ .. 7/9.. 7/9.. 7/9 . . 7/9w . 7/9 . . 7/10..
1 tes 8/s 8/s 8/s 817 8/7 8/7 8/5 8I o/6 8/6
— M. k . 5li4 63.0 b8.ol 69.9 b9.9 71.9 QJ i3.O 814.0 9b.1. 129.1
OCCOID BLUE-GRJ EN — _____ ____ _____ _____ _____ _____ _____ _____ _____ ______
Anacystis sp . 6
phid1opsis sp . 8 8]. 8 10 23 13
FILAMENTOUS BLUE-.GREEi 1
Ariabaena sp . 215 43 97 267 329 68 158 88 1214
Arthrospira s . 16
Lyngbya p. 64
Oscillatoria sip . 43 79 975 7145 575 1036 113 57 16 214.
COCCOID GREEN I
Actinastrum sp . 55 25
Ankistrodesmus sp . 33 81 149 32 19
C1osterio sis s . 2
ClQsterlwB sp . 9 6 4 3
Coelastruxn S . 182 214.
Cosmarium s . 6 5 14
Crucigenia p.
Di tyosphaeriurn sp . 32
Dirnorphococcus 760
Mi ract1njum s . . 162 32
Pediastrt n s . 11
Scenedesmus sp . 16 128 129 91 16i 73 108 126 84 45
roedi a 8 . 32
T trastrum s 614. 32 32 13 16
162
Ffl Ar4ENT0US GREEN
Microspora sp . 18 700 400 1262 721 923 114 420 914
Spiro ’ra ap . 32 91 214 14 21
Ulothrix ep . 41
118 45 160 315 128
GRl EN FLAGELLATES
Chiamyctomonas S . 3 3
Lepocinclis sp. 8
Trachelomonas ep . 16
PRQTOZOA
Vorticella S . 3
LIILE CENTRIC DIATOMS 7014 32 113 i6 23 110 21 32
LIVE PENNATE DIATOMS 1417 802 227 2814 3214 373 1915 102 206 637
Total Live Algae 1014 11496 4207 3252 2138 3025 109]. 2584 9143 856 1146
*Material scraped from lock wall
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TABLE A-VII1
Periphyton Chlorophyll frc n the Ohio River
July August 1970
Mile Point
Location
- Inclusive Dates
Number of
Replicates
Total Chlorophyll*
(uig/M 2 )
5 Li.1
Right
8_5X*
2
7.99
63.0
Left
7-8 to
8-5
32.59
68.o
Right
7 8 to
8-5
1
69.17
69.9
Left
7-9 to
8-7
4 .
38.01
69.9
Right
7.9 to
8 -
39 .l 4
71.9
Right
7 9 to
8 -
36.56
78.0
Right
7_9 to
8-5
L .
37.61
83.0
Right
7-9 to
8 6
.
26.11
8i 1 ..o
RIght
7 9 to
8 6
13.80
96.1
Left
7-10 to
8-6
t
22.2k
129.1
RIght
7-10 to
8-6
3
27.33
* Average for station
** Material scraped from lock wall
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