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TABLE 6.14 FATE OF SELECTED POLLUTANTS IN COMBINED SEVER FLOW1
Pollutant
Total Combined
Sewer Flow
(lbs)
Discharged To
POTW CSO
(lbs)	(lbs)
Priority Pollutants
Zinc
Copper
Chromium
Lead
Nickel
Total Toxic Metals
Methylene Chloride
Toluene
1,1,1-Trichloroethane
Tr i ch1oroethene
Tetrachloroethene
Phenol
Bis(2-ethylhexyl)phthalate
Naphthalene
Di-n-butylphthalate
Flouranthene*
301
142
59
215
137
955
41
30
30
64
20
28
6.1
1.0
1.4
0.2
Total Toxic Organics	224
Conventional and Nonconventlona1 Pollutants
BODS
C0D~
TSS
47,200
249,800
229,400
109
56
23
71
48
417
15
19
17
31
11
23
1.2
0.7
1.2
120
25,800
146,300
34,900
192
86
36
144
89
538
26
11
13
33
9
6.9
0.3
0.2
0.7
104
21,400
103,500
194,500
1 Based on analytical results from 21 storm events.
* CSO mass exceeds the CSF oass.
100

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1000
VOLUME OF
CSF TO POTW
CONDUCTIVITY
SO
VOLUME
- 300
RST FLUSH PERIOD
1200
1400
1000
1600
>-
>
P
o
D
O
z
o
'j
FIGURE 6.19 TYPICAL HYDROGRAPH
EH VOLUME TO POTW
n CSO VOLUME
HH] FIRST FLUSH VOLUME
FIRST FLUSH VOLUME
TO POTW
AS CSO

-------
Of the 22 storm events sampled, first flush samples collected during nine
of these storm events were not used in the analysis because the first flush
period was either not distinguishable or judgments made by the field crew in
compositing the samples were not accurate. For example, the first flush
periods for the storm events sampled at the Michigan regulator were not well
defined because the wastewater was not amenable to conductivity monitoring (a
thick oil-film was observed during each storm that may have masked the re-
sults). Definition of the first flush period was also difficult for samples
taken at: the Lander regulator during storms number one and two; the Branch
regulator during storms one and two; the Prairie regulator during storm one;
and the Phalen Creek regulator during storm two. Six of the nine first flush
samples referred to above were collected during the least intense storm events
(all less than 0.1 inch per hour).
The characteristics of the first flush samples varied by site. The
composition of the first flush flow includes the normal dry weather flow,
runoff, and a resuspension of accumulated deposits from both the drainage area
and the collection network. Therefore, first flush sariple characteristics are
dependent on: the characteristics of the residential, commercial, and indus-
trial wastewater; land use; slopes in the drainage area; slopes of the sewers;
antecedent dry weather periods; and the intensity of the storm event.
In most instances the dry weather background concentrations for the toxic
metal pollutants and conventional/nonconventional pollutants were greater than
the xirst flush concentrations for those pollutants; in turn, the first flush
concentrations for those pollutants were usually higher than the concentration
of those pollutants in the CSO. For example, lead, nickel, copper, iron imd
zinc concentrations at the Ernest @ Aliens regulator were high in the
background samples, decreased slightly during the first flush period as a
result of an increase in flow, and were even lower in the CSO. The COD and TSS
concentrations followed a similar pattern. With the exception of the samples
collected at the Prairie regulator, the VOCs showed little change in concentra-
tion in the first flush samples, the CSO samples, and the background samples.
Both storms sampled at the Prairie regulator resulted in substantial increases
in VOC concentrations (for example, toluene increased from 42 yg/1 and 86 yg/1
in the background samples to 164 Vg/1 and 937 yg/1 in the first flush samples).
Of the base-neutral pollutants, the PAHs showed a general increase in concen-
tration during the first flush period. Often the PAHs, such as pyrene, fluor-
anthene, and benzo(a)pyrene, were not detected in either the background or CSO
samples. However, these pollutants were present (although generally in
concentrations less than 10 Vg/1) in the first flush samples. Acid cxtractable
pollutant occurrences were sporadic, but whan present the concentrations
followed a pattern similar to the toxic metals concentrations (i.e., the dry
weather concentrations were higher than the first flush concentrations).
The volume of the first flush varied f«om 1,500 gallons at the Ernest @
Aliens location (two percent of the combined sewer flow for that storm event)
to 4,610,000 gallons at the Branch location (21 percent of the combined sewer
flow for the storm event). The average first flush volume for the 13 storm
events was 825,000 gallons or 15 percent of the average combined sewer flow
(5,508,000 million gallons per storm event). Figure 6.20 shows the CSF, CSO,
and first flush volumes for the 13 storm events sampled. This figure also
102

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FLOW TO POTW
1	j FIRST FLUSH
E @ A EQt Efil DON D(JH 0 © M EUSTIS EUSTIS
FIGURE 6.20 FIRST FLUSH VOLUMES PER STORM EVENT

-------
shows that the majority of the first flush volume during these storm events (65
percent) was discharged to the POTW.
The magnitude of the pollutant mass associated with the first flush was
also calculated. Table 6.15 presents the volume, total toxic metal mass and
total toxic organic pollutant mass for the CSF and the first flush. Toxic
pollutant masses associated with the first flush varied by drainage area and by
storm event in the same drainage area. On the average, the first flush toxic
metal mass was 24 percent of the CSF toxic pollutant mass; and the first flush
toxic organic pollutant mass was 40 percent of the CSF toxic pollutant mass.
In general, the magnitude and fate of the first flush toxic pollutant mass
was site specific. Pollutant concentrations during the first flush period were
normally higher than the CSF and CSO pollutant concentrations. However, a
dramatic increase in the pollutant concentration in the first flush samples in
comparison to the CSO concentrations was not observed.
QUALITY ASSURANCE/QUALITY CONTROL RESULTS
During the CSO study, QA/QC samples were collected and analyzed for
priority toxic pollutants so that the precision and accuracy of the data could
be calculated. Blank water samples were analyzed for priority pollutants to
identify ai.y sampling or analytical contamination. The objectives and limita-
tions of the QA/QC program for this study are briefly discussed below. Results
of the QA/QC program are then presented.
As previously mentioned, the field QA/QC program included pumping blank
water (ultrapure deionized water) through all automatic samplers and associated
tubing throughout the program and analyzing these samples for the acid, base/
neutral, and pesticide priority pollutants. Blank water was also poured across
precipitation collectors prior to each storm event, collected and analyzed as
a "precipitation sampler blank." Blank water was poured into VOC sample
bottles, hermetically sealed, transported to the sample locations, then for-
warded to the analytical laboratory as a VOC blank. These types of blank
samples were analyzed to identify potential field and analytical contamination
such as from methylene chloride (a solvent used extensively both during field
sampling and laboratory catalysis) or from phthalate compounds (which may be
associated with the sampler tubing). The analysis of blank water samples is
critical, especially when the purge-trap analytical technique (which is sus-
ceptible to contamination by residues from concentrated samples or vapors in
the laboratory) is employed.
Occurrences of methylene chloride were common in most of the VOC blank
water samples (14 out of 18 blank samples contained methylene chloride). The
average methylene chloride background concentration was 16 yg/t. No other
pollutants were identified either repeatedly or in high concentration in the
blank water samples.
The analytical QA/QC program included the analysis of duplicate and spiked
samples. "The expression 'accuracy and precision' is used commonly to charac-
terize the performance of analytical methods" (30). Precision, as defined by
the EPA is "the degree of mutual agreement among individual measurements made
104

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TABLE 6.15 FIRST FLUSH VOLUMES AND TOXIC POLLUTANT MASSES
Total Toxic Orgsuic
Volume (MG)	 Total Toxic Metals (lbs)	Pollutants (lbs)
Drainage Area-Event No.
CSF
First
Flush
Percent
of CSF
CSF
First
Flush
Percent
of CSF
CSF
First
Flush
Percent
of CSF
Lander - 3
5.680
1.650
29
111.0
17.0
15
5.4
0.6
11
Phalen - 1
29.400
1.730
6
137.0
10.0
7
14.0
1.0
7
Prairie - 2
2.280
0.830
36
7.2
4.1
57
33.0
20.0
57
Prairie - 3
6.980
0.440
6
76.0
7.4
10
8.5
2.3
27
Branch - 3
22.000
4.600
21
240.0
50.0
21
18.0
3.7
21
E § A - 1
0.570
0.002
1
17.0
0.05
1
0.4
<0.1
25
E £ A - 2
0.760
0.390
51
81.0
52.0
64
8.1
8.5
100
E § A - 3
0.320
0.290
91
3.8
4.6
100
3-4
1.8
53
DM - 1
0.650
0.109
15
10.0
2.4
24
6.2
1.1
18
D g H - 2
1.360
0.450
33
47.0
23.0
49
52.0
22.0
42
DM-3
0.580
0.220
38
13.0
5.6
43
7.1
2.4
34
Eustis - 1
0.098
0 016
16
0.7
1.0
100
<0.1
0.1
100
Eustia - 2
C.920
0.006
_1
5.4
0.1
2
0.2
<0.1
50
Average
5.508
0.825
15
57.6
13.6
24
12.2
4.9
40

-------
under prescribed conditions with a single test procedure" (31). The precision
of the analytical results refers to the ability to reproduce the sane results,
regardless of whether the results are true values or the result of systematic
analytical errors. The smaller the difference in analytical results for dupli-
cate wastewater or duplicate spiked samples the higher the analytical preci-
sion. During this program, both duplicate wastewater and duplicate spiked
samples were analyzed. Precision results were calculated by determining the
relative percent difference between the duplicate sample concentrations.
Accuracy (or validity) on the other hand, is defined by the EPA as "the
difference between an average value and the true value when the latter is known
or assumed" (31). Accuracy can be defined for a given sample matrix by measur-
ing the percent recovery of known concentrations of priority pollutants or
surrogate compounds that are spiked into both wastewater and blank water
samples.
"Method spike" results reflect the recoveries of known concentrations of
surrogate or priority pollutant "cocktails" that are spiked into blank water
samples. Surrogate compounds, which are compounds that behave in the save
¦tanner as the priority pollutants they represent (but are unlikely to occur in
the environment), were added to all organic pollutant samples analyzed using
EPA Methods 1624 and 1625 and to a limited number of samples analyzed using EPA
Methods 624 and 625. The analysis performed by isotope dilution (Methods 1624
and 1625) were adjusted based on the surrogate recoveries. Organic pollutant
concentrations for samples collected from the Lander and Michigan drainage
areas were not adjusted based on surrogate recoveries because Methods 624 and
625 wera used to analyze those samples.
Known concentrations of the 13 toxic metals were added to the metals
samples. The method spike results describe the accuracy of the analytical
methods for deionized water samples. Matrix spike results reflect the recov-
eries of known concentrations of either suirogate compounds (organic fraction)
or priority pollutants (metal fraction) spiked into the wastewater samples and
describe the accuracy of the analytical methods for the wastewater samples.
Appendix D contains the results of tho QA/QC program.
The accuracy of the volatile organic pollutant data for both method spike
samples (blank water) and matrix spike samples (wastewater samples) during this
study was good with a mean recovery of 96 1 12 percent and 96 ± 15 percent,
respectively. The only VOCs found consistently above the analytical detection
limits throughout this study were methylene chloride, toluene, and 1,1,1-tri-
chloroethane. These compounds had matrix recoveries of 102 ± 22, 102 ±11 and
94 1 15 percent, respectively. These recoveries indicate that the concentra-
tions found for these compounds are accurate (i.e., the difference between the
observed surrogate compound concentration and the true surrogate concentration
is small). As mentioned previously, the consistent presence of methylene
chloride in the blank samples is indicative of field and/or laboratory contam-
ination. In general, reported "ND" values should be considered valid since the
wastewater spike sample recovery data demonstrate that the analytical method is
suitable for the sample matrix. Appendix D-l contains the volatile organic
percent recovery results.
106

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The precision (reproducability) of the spiked duplicate VOC analyses was
much better than the precision of the unspiked duplicate VOC analyses, an
enigma because all of the volatile compound surrogates were analogs of priority
pollutants and should have behaved similar to priority pollutants. Appendix
D-2 presents the relative percent differences for the unspiked volatile organic
duplicate and spiked volatile organic duplicate compounds. The relative
percent difference is calculated as the difference in duplicate analysis
divided by the average concentrations of the duplicate analysis, multiplied by
100.
The mean percent recovery (accuracy) for the base-neutral pollutants
(i.e., 81 ± 23 percent) is considered very good; throughout the CSO study,
occurrences of base-neutral compounds were sporadic. Bis(2-ethylhexyl)phthal-
ate was the only base-neutral pollutant detected above the analytical detection
limit a majority of the time. The mean percent recovery for the bis(2-ethyl-
hexyl)phthalate surrogate matrix spike sample was 84 1 28 percent. The stand-
ard deviation signifies some scattering of the results. With the exception of
dimethyl phthalate-3,4,5,6-d4, l,2-dichlorobenzene-3,4,5,6-d4 and 1,4-dichloro-
benzene-2,3,5,6-d4 (percent recoveries of 27 ± 15, 59 ± 22, and 54 ± 19,
respectively), all base-neutral recoveries were over 75 percent. Therefore,
"ND" values can be considered reliable, again indicating that the analytical
methods were accurate for the wastewater matrix. Appendix D-3 presents the
base-neutral surrogate percent recoveries for this study.
Precision data for duplicate base-neutral samples are limited due to the
sporadic occurrences of the base-neutral pollutants in the 21 duplicate samples
analyzed. Bis(2-ethylhexyl)phthalate was the most frequently occurring base-
neutral pollutant, present in six of the 21 duplicate wastewater samples. The
37.1 percent average difference for this pollutant between duplicate analyses
compares favorably with the percent difference of the 16 spiked duplicate
wastewater samples in which the bis(2-ethylhexyl)phthalate-3,4,5,6-d4 average
percent difference was 33.1 percent. Appendix 0-4 summarizes the base-neutral
precision data.
The acid extractable pollutant fraction had the poorest accuracy of all
sample fractions with an overall percent recovery of 61 ± 26 percent.
Recoveries ranged from 82 ± 34 for pentachlorophenol-13-c6 to 29 ± 34 for
4,6-dinitro-2-methyl phenol-3,5-d2. Phenol was the most frequently detected
acid extractable pollutant; it was detecced less than 30 percent of the time.
The average percent recovery for phenci was 45 ± 19. Appendix D-5 presents the
surrogate matrix spike results for tha acid extractable fraction.
As with the base-neutral pollutants, the acid extractable pollutant
unspiked duplicate analyses results were comparable to the spiked duplicate
analyses results. However, the unspiked wastewater duplicate arslysis
precision data are limited due to only sporadic occurrences of vhe acid
extractable compounds in the wastewater samples analyzed. The acid extractable
pollutant precision data are fair, although the accuracy of the acid extract-
able data are poor. Appendix 0-6 presents the relative percent differences for
the duplicate acid extractable analyses.
107

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The average mean recovery for the 13 priority pollutant metals analyzed
was 97 ± 8 percent. For the metals analyzed by atomic absorption spectrometry
(selenium, thallium, silver, arsenic, antimony and mercury), the average
•ercent recovery was 101 ± 13 percent. The poorest r covery of these elements
was for thallium (76 ± 12 percent). The remaining priority pollutant metals
were analyzed by plasma emission spectrometry. The average percent recovery
for these seven elements (beryllium, cadmium, chromium, copper, lead, nickel,
and zinc) was 94 ± 5 percent. Recoveries ranged from 89 ± 8 perr«nt for copper
to 99 ± 4 percent for chromium. Appendix D-7 presents the metals percent
recoveries. Overall, the recoveries for the metals analyses were very good for
this CSO study, indicating that the concentrations presented should be con-
sidered accurate.
With the exception of silver, the precision of the metals results was very
good. The average relative percent difference for the duplicate analyses for
the most frequently detected elements (i.e., zinc, copper, chromium, lead, and
nickel) was 9.4, 6.9, 11.2, 6.0 and 3.4, respectively. Duplicate spiked analy-
ses were uot run for toxic elements. Appendix D-8 contains a summary of the
average relative percent difference for the duplicate metal analyses.
108

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APPENDIX A
REFERENCES
fVl

-------
REFERENCES
J. CH2M-HH1. Combined Sewer Overflow - Characterization, Storage and Pilot
Plant Treatment, Vol. 1. Milwaukee Water Pollution Abatement Program,
1979.
2.	CH2M-H111. Report to Congress on Control of Combined Sewer Overflow in
the United States. EPA-43C/9-78-006, U.S. Environmental Protection
Agency, Washington, D.C., 1978. 226 pp.
3.	Tonlinson, R.D., B.N. Bebee, A.A. Heyward, S.G. Hunger, R.G. Swartz, S.
Lazoff, D.E. Spyridakis, M.F. Shepard, R.M. Thorn, K.K. Chew and R.R.
Whitney. Fate and Effects of Particulates Discharged by Combined Sewers
and Storm Drains. EPA-600/2-80-111, U.S. Environmental Protection Agency,
Cincinatti, Ohio, 19S0. 165 pp.
4.	Olivieri, V.P., C.W. Kruse and K. Kawata. Microorganisms in Urban Storm-
water. EPA/600/14, U.S. Environmental Protection Agency, Cincinnati,
Ohio, 1977. 197 pp.
5.	Vilhauer, M. Water Quality Aspects of Combined Sewer Overflows. City of
Portland, Portland, Oregon, 1977. 291 pp.
6.	Sargent, D.H. Water Pollution Investigation: Buffalo River. EPA-905/
9-74-010, U.S. Environmental Protection Agency, New York, New York, 1975.
144 pp.
7.	H.F. Ludwig and Associates. Development of Scientific Parameters for the
Control of Pollution from Combined Sewer Overflows and Other Pollution
Sources and the Quantitative Assessment of the Ecology of Jamaica Bay.
Bureau of Water Pollution Control Department of Water Resources, City of
New York, New York, 1970. 187 pp.
8.	O'Brien and Gere. Progress Report Combined Sewer Overflow Abatement
Program. Onondaga County Department of Drainage and Sanitation, 1977.
135 pp.
9.	GANORAM. Combined Sewer Overflow Study. Metropolitan Waste Control
Commission Minneapolis - St. Paul No. 76-55, 1960. 148 pp.
10.	Mytelka, A.I., L.P. Cagliostro, D.J. Deutsch and C.A. Haupt. Combined
Sewer Overflow Study for the Hudson River Conference. EPA-R2-73-153, U.S.
Environmental Protection Agency, Washington, D.C., 1973. 287 pp.
11.	Levins, P., J. Adams, P. Brenner, S. Coons, G. Harris, C. Jones, K. Thrun,
and A. Wechsler. Sources of Toxic Pollutants Found in Influents to Sewage
Treatment Plants-Volume IV, U.S. Environmental Protection Agency, Washing-
ton, D.C., 1979. 118 pp.
A-lu,

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12.	Burns and Roe Industrial Services Corporation. Fate of Priority Pollut-
ants in Publicly Owned Treatment Works - Final Report Volumes I and II,
EPA-440/1-82/303, U.S. Environmental Protection Agency, Washington, D.C.,
1982. 436 pp.
13.	E.C. Jordan Company. Fate of Priority Pollutants in Publicly Owned
Treatment Works - 30 Day Sti'dy. EPA-440/1-82/302, U.S. Environmental
Protection Agency, Washington, D.C., 1982. 263 pp.
14.	E.C. Jordan Company. Combined Sewer Overflow Toxic Pollutant Study -
Pilot Report. EPA-440/1-83/304, U.S. Environmental Protection Agency,
Washington, D.C., 1982. 129 pp.
15.	Anderson-Nichols and Company, Inc. Combined Sewer Management Report. City
of Providence, Rhode Island, 1977. 372 pp.
16.	Anderson-Nichols and Company, Inc., Waterman Engineering Company, City of
Providence, Rhode Island Study of Sewerage Improvements-Infiltration/
Inflow Analysis. City of Providence, Rhode Island, 1975. 295 pp.
17.	Farris, G., J.M. Butto, K.L. Clark, D.S. Sturgill, R.I. Matsuda. Urban
Drainage Stonaw8ter Monitoring Program. Municipality of Metropolitan
Seattle, March 1979. 112 pp.
18.	Blasiar, D., D.R. Mahaffay. Inside Historical St. Louis Inspection of
Deep Combined Sewers. Presented at the Rhode Island Runoff Sympsoiuo,
1981. 12 pp.
19.	Environmental Science and Engineering, Inc. Combined Sewer Overflow Trip
Report. U.S. Environmental Protection Agency, Washington, D.C., 1982.
20.	List of Industries tributary to Regulator locations provided by Bernard A.
Rains, P.E., Metropolitan St. Louis Sewer District, 1982.
21.	Donohuo Associates. Combined Sewer Overflow Trip Report. U.S. Environ-
mental Protection Agency, Washington, D.C., 1982.
22.	Knutson, M. Metro Combined Sewer Overflow Study Summary of the Phalen
Creek Sewer System in St. Paul. Department of Public Works, St. Paul, MN,
July 14, 1980.
23.	Zickefosse, Charles. Wastewater Sampling for Process and Quality Control.
Manual of Practice No. 0M-1, Water Pollution Control Federation, Washing-
ton, D.C., 1980. 103 pp.
24.	American Public Health Assocation, American Water Works Association, and
Water Pollution Control Federation. Standard Methods for the Examination
of Water and Wastewater - 15th Edition, 1980. 1134 pp.
25.	Toxicant Pretreatment Planning Study. Municipality of Metropolitan
Seattle. March, 1979. 100 pp.
A-2

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26.	Gulf South Research Institute and Research Triangle Insitute. Preliminary
Draft Report-Master Scheme for the Analysis of Organic Compounds in Water.
U.S. EPA, ERL, Athens, Georgia, 1980.
27.	Methods for Organic Chemical Analysis of Municipal and Industrial Waste-
waters, EPA-600/4-82-057, U.S. Environmental Projection Agency, EMSL,
Cincinnati, Ohio, 1982.
28.	Method for Chemical Analysis of Water and Waste, EPA-600/4-79-020, U.S.
Environmental Protection Agency, EMSL, Cincinnati, Ohio, 1979.
29.	Pitt, R., M. Bozeman. Sources of Urban Runoff Pollution and Its Effects
on an Urban Creek. EPA-600/2-82-909, U.S. Environmental Protection
Agency, MERL, Cincinnati, Ohio, October, 1982. 152 pp.
30.	Kirchmer, C.J. Quality Control in Water Analyses. Environmental Science
and Technology, 17(4): 174A-181A, 1983.
31.	Environmental Monitoring and Support Laboratory, U.S. EPA, Office of
Research and Development. Handbook for Analytical Quality Control in
Water and Wastewater Laboratories,: EPA-600/4-79-019.
A-3

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APPENDIX B
STORM HYDROGRAPHS
FIGURES
B-l thru B-6	Providence, Rhode Island, Storm Events
B-7 thru B-12	Seattle, Washington, Storm Events
B-13 thru B-18	St. Louis;, Missouri, Storm Events
B-19 thru B-22	St. Paul, Minnesota, Storm Events

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—	CSF
—	cso
14-
13-
TO'
UME OF CSF TO POTW
II-
TOTAL CSO VOLUME
16'00
19=00
19'30
20:00
TIME
APPENDIX B-1
C8F AND CSO HYDROQRAPH AT ERNE3T/ALLEN3 REGULATOR
STORM 1 A, 7/18/82
B-lou

-------
I
CSF
cso
TOTAL CSO VOLUME
TOTAL VOLUME OF
CSF TO POTW^
2.
2
3
4
5=30 AM	6=00	6-30	7'00	7>30	8=00	8 = 30	9 00	9=30
TIME
APPENDIX B-2
CSF AND CSO HYDROGRAPH AT DEXTER/HUNTINGTON REGULATOR
STORM IB, 8/9/82

-------
	CSF
CSO
to POT*
I|o\oLUMt
,500

CSF *H° 030
oapH *T EB^ST/AU3lOaM
V\VOB°QR
B-3

-------
o
©
z
9
o
a
I
0900
1000
1100
	 CSF
	CSO
1600
TIME
APPENDIX B-4
CeF AND CSO HYDROGRAPH AT
DEXTER/HUNTiNGTON REGULATOR LOCATION
STORM 2, 8/25/82
¦TOTAL
TOTAL VOLUME OF
CSF TO POT W
CSO VOLUME
—I—
1300
I
1400

-------
10
9
8
7
6
5
4
3
2
I
0
	 CSF
	CSO
APPENDIX B-5
CSF AND CSO HYDROGRAPH AT ERNEST/ALLENS REGULATOR
STORM 3, 9/20/82
30	18=00	" 19=00	20=00
TIME
TOTAL CSO VOLUME
TOTAL VOLUME OF
CSF TO POTW

-------
2
I
10
9
8
7
6
5
4
3
2
I
0
	 CSF
	cso
00
TOTAL VOLUME OF
CSF TO POTW
TOTAL CSO VOLUME
1800
1900
TIME
2000
2100
APPENDIX B-6
CSF AND CSO HYDROGRAPH FOR THE DEXTER/HUNTINGTON REGULATOR LOCATION
STORM 3. 9/20/82

-------
80
70
TOTAL VOLUME OF CSF TO POTW
CSF
CSO
60
50
a
©
5 40
30
TOTAL CSO VOLUME
20
11 = 30
10-30
13=00
10=00
TIME
APPENDIX B-7
CSF AND CSO HYDROGRAPH FOR THE LANDER REGULATOR LOCATION
STORM 1, 4/14/82

-------
w
I
CD
TOTAL VOLUME OF CSF TO POTW
TOTAL CSO VOLUME
I
l&:00
10 30
1130
1200
12-30
1300
1330
1400
1430
TIME	APPENDIX B-8
CSF AND CSO HYDROGRAPH FOR THE MICHIGAN REGULATOR LOCATION
STORM 1, 4/14/32

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60
SO
CSF
CSO
TOTAI. VOLUME OF CS FLOW TO POTW
40
o
o
2
TOTAL CSO VOLUME
30
*
o
-I
u.
20
^	
:
J-tei,- s . N\ _S X
11'00
9:00
10=30
11'30
12 00
8=30
TIME
APPEf"OIX B-9
CSF AND CSO HYDROGRAPH FOR THE LANDER REGULATOR LOCATION
STORM 2. 6/30/82

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140
130
120
110
100
90
BO
70
60
90
40
30
20
10
0
08:
CSF
CSO
TOTAL CSO VOLUME
TOTAL VOLUME OF
CSF TO POTW
0»30
1030
ll'OO
APPENDIX B-10
AND CSO HYDROGRAPH FOR THE MICHIGAN REGULATOR LOCATION
STORM ?, 6/30/82
B-10

-------
200
190
180
• TO
160
190
140
130
120
MO
100
90
60
70
60
50
40
30
20
10
0
CSF
CS 0
TOTAL VOLUME OF
CSF TO POTW
6*0 6 40 700 7 20 7 40 SOO *20 &40 9-00 9 20 9 40 10=00 10 20 I0<40 1100 Ih20 ll'40
TIME
TOTAL CSO VOLUME
APPENDIX B-11
AND CSO HYDROGRAPH FOR THE LANDER REGULATOR LOCATION
STORM 3.10/6/32
B-ll

-------
69
66
CSF
CSO
63
60
57
54
48
45
39
o
o 36
33
30
27
24
TOTAL CSO VOLUME
TOTAL VOLUME OF
CSF TO POTW
7.30 0-00 0=30 9 >00 «<30 10-00 I0>30 ll'OO 11-30 12-00
TIME
6>30 7-00
APPENDIX B-12
CSF AND CSO HYDROGRAPH FOR THE MICHIGAN REGULATOR LOCATION
8TORM 3, 10/6/82

-------
140 i
	 CSF
	CSO
120-
100-
TOTAL VOLUME OF CSF TO POTW
60-
Q
O
3
TOTAL CSO VOLUME
ta.
60-
40-
20
16 00
1800
TIME
APPENDIX B-13
CSF AND CSO HYDROGRAPH AT PRAIRE REGULATOR
STORM 1, 10/6/82
B-13

-------
250 i
CSF
CSO
200
TOTAL CSO VOLUME
150
*
s
Ik
•TOTAL VOLUME OF
CSF TO POTW
100
50
15-00
l?'00
18'00
20'00
TIME
APPENDIX B-14
C8F AND CSO HYDROGRAPH AT BRANCH REGULATOR
8TORM 1, 10/6/82
B-14

-------
ron
CSF
CSO
TOTAL VOLUME
OF CSF TO POTW
TOTAL CSO VOLUME
...... I
20 00
21=00
22'00
TIME
APPENDIX B-15
CSF AND CSO HYDROQRAPH AT PRAIRIE REGULATOR
STORM 2, 10/19/82
B-15

-------
173
CSF
CSO
ISO
125
TOTAL VOLUME OF CSF TO POTW
100
o
o
X
TOTAL CSO VOLUME
_i
ik
75
50
2K00
2400
TIME
APPENDIX B-18
CSF AND CSO HYDROQRAPH AT BRANCH REGULATOR
STORM 2, 10/18/82
B-16

-------
o
o
2
*
Q
TIME
APPENDIX B-17
C3F AND CSO HYDROQRAPH AT PRAiRIE REGULATOR
8TORM 3, 12/2/82
VOLUME
150
125-
VOLUME OF CSP TO POTW
TOTAL CSO
25 H
0
15 00 16=00 17-00 I8'00 19=00
20-00
2i
-------
S00-,
TOTAL C30 VOLUME
TOTAL VOLUME OF
CSF TO POTW
\
\
\
\ I
%—J
¦ % '-m - - •
¦¦¦ ¦ AmMwmMmiiKU.1
16.00
17-00
20-00
21 00
22 00
TIME
APPENDIX B-18
C8F AND C80 HYDROGRAPH AT BRANCH REGULATOR
8T0RM 3. 12/2/82
B-18
-------
3-1
4H
18=00
17=45
	 CSF
	CSO
TOTAL CSO VOLUME
TOTAL VOLUME OF CSF TO POTW
19 = 15
TIME
APPENDIX B-19
C3F AND CSO HYDROGRAPH AT EUSTIS REGULATOR
STORM 1 A, 10/0/82
-------
CSF
cso
•TOTAL VOLUME OF CSF TO POTW
40
30
o
o
2
•TOTAL CSO VOLUME
%
-i
u.
20
teso
18 oo
1700
TIME
APPENDIX B-20
CSF AND CSO HYDROQRAPH AT PHALEN REGULATOR
STORM 1B, 11/9/82
-------
7
to
TOTAL VOLUME OF
CSF TO POTW
TOTAL CSO VOLUME
15=00
11 	11
16-00
"i—r
17=00
1 r
18 00
"1	T
19=00
2000
21=00
TIME
APPENDIX B-21
CSF AND CSO HYDROGRAPH AT EUSTIS REGULATOR
STORM 2A, 11/11/82
-------
120
110
100
90
80
70
60
30
40
30
20
10
0
	cso
TOTAL CSO VOLUME

TOTAL VOLUME OF CSF TOPOTW
"i—i—i—r
5=00 17.00
I9'00
t—r
20:00
-i—i—i—i—i—r
21:00 22:00 23:00
TIME
24:00
4-00
APPENDIX B-22
C8F AND CSO HYDROGRAPH AT PHALEN REGULATOR
STORM 1B. 10/10/82
-------
APPENDIX C
RAW DATA RESULTS
Table	Title
C-l	Providence Dry Weather Background Results
C-2	Piovidcnce Storm One Results
C-3	Providence Storm Two Results
C-4	Providence Storm Three Results
C-5	Seattle Dry Weather Background Results
C~6	Seattle Storm One Results
C-7	Seattle Storm Two Results
C-8	Seattle Storm Three Results
C-9	St. Louis Dry Weather Background Results
C-10	St. Louis Storm One Results
C-ll	St. Louis Storm Two Results
C-12	St. Louis Storm Three Results
C-13	St. Paul Dry Weather Background Results
C-14	St. Paul Storm One Results
C-15	St. Paul Storm Two Result*
C-16	Sediment Results
C-cA
-------
»*«ov I ook

UNITS
o« iwr.o
HCM

I
o
oia^HeMicAL nxtGe* ocwano
*c,/L
cxmical a«rueN
nc**AHo
W./L
TOTac JRUNlC
U^bON
«C/l
TOTAL SGLIO*


»t NIC


Ufc'l
IIT.KVCL IUM


Uti/L



UC/L
Cn^ot«|UM


OG/i
CIMTLH


UC/1
LLAO


liG/L
«feKCU«f


:-*/L
NtUtL


U«*/t
'^tLtNlUN


\iC/L
bJLVtM


UG/L
tmalhu*


UU/L
I INC


Ub/L
OltiLBli—



LT
•o«n
lf»7.0
JO.S
J^J-0
10.0
*3.0
^.O
2d«».0
I .0
¦4**0
*• 1
li*0
?.0
n.o lt
1.0	tt
i*0 IT
%%0 L T
WfcTO.O
3010.9
r.s.o LT
l-'» LT
7fr*o.n
3.1	LT
two
50.0 LT
11*0.0
C V AH I (Hi
tlOO.O
&UWCtft**LUl		
ALUMtMUM	UC/t.
OAttlUM	UC/L
tfUttON	UG.'t.
CALCIUM	IK./L
cohalt	ug/l
l%.0
I*IH0*0
I 1*00.A
12.0 LT
It «	t*%AH
OT * UfftAfCIt fHAM
no « not ctTCCtro
HU * *«0T fjAW>LfcO
i'u.(.urAMi> hji Lisiei>
•€»e not oerecreo
vahlc c-ci
.m.i. okv trcAfneti ccmpositc
Q4H	£3A
0« HROD	TAP *ATFK
UQ«)	1104b
in.o
2*»0,O
«Q«S
JM,0
ZtfJUQ
11£.0
121.0
rtl.O
1*0 Lt
5•1
%*•«
^*.0
10*0 lt
*0.0 CT
frt.O
2K.0
6N0
• • 0 LT
t .0 lt
2% *0
I J.O
• }
IO.O LT
i.o lt
10.0 lt
5.0
lt
5.0
LT
3«0
Lt
J*a
Lt
a«o
lt
2*0
LT
1.0
LT
*•0
LT
2I50.0

T.Q

1020.Q

1 A « 0

?'».0

Sf».0
LT
1.0
LT
1 .0
LT
ma i .a

Jt.O
LT
tt.o
LT
1.0

4T.O

%.o

SO.O
LT
50.0
LT


A.o
LT
2rt.O

20.0
LT
sns.o

too.a

u.o

?.o

Ml.o

2r«o
LT
I4IOIJ.O

*3*0.0

32.O
LT
lir.o
LT
-------
TMK.C C*01
WOVtHMCft «~!.	0ttV HCAfHCH C0*«P05lTg
MXLUfAHf
tmifs
CJA
t>« BKGO
11044
D»N
0« ?IKGQ
1104*
c»a
TAP MATE*
IKON
MACnC&IUH
»A%AN(SC
MOLVBOfcMUM
SOOfV*
T IN
MTANlU«
VAHAOIlM*
fllftlUK
UO/L
UC/L
VO/L
UG/L
UC/L
Lw/t
uc/c
UC/L
UG/L
M20.0
I2J0.O
61.0
JH.O
51400.0
1540,0
34*0
s«o
LT
2*0 Lt
1220.0
IVIO.O
J5.0
»6«0
4ron«u
1^2 *0
14.0
5.0 LT
i«o
244.0
5T| .0
4 mO
26«0
T'MO.O
460.0
2.0
5.0
Lf
Lf
2*0 IT
O
t
O
N
X0lAlilCJ)Bfr&*l£&«	 -
CAWUOH fCrRACHLOR'OC	UC/L
O4>Utt0f»a*4tt	UC/L
TOLUENE	UC/L
t fNVLUCW^tMe	UC/L
McrnvuNt cnomoc	ug/l
ILlflAOLOUDtlliEttf	U&/L
a*i-oK^LO«aefH4NE	og/l
I - 1 -OKHLtJM»f>tNf	UG/L
I .UI-TdlL ^QHOETHMC	UCa
.2UICHLDfiOtT+iEfie	UG/L
VlttrL LHLUmuE	UC/L
TA|{.HLQKO:rHEH£	UG/L
SUl:)COLAliU.il«aii£l£tilflAU.
itaiX£l&ULfe.0UO	
HO
9*0
2IO.O
2*0
0.0
*0.0
1.0
Z-O
7U*0
NO
22 7- 0
MO
5#T
20.J
MO
222*7
MO
1«D
2/7.0
20j.e>
12.^
4*0
t0«5
ti«e
NO
NO
MO
*10
NO
WD
NO
NO
NO
e£>SIU»lQ£-£*lS&Cl£3l.tS-
Lf * UbS THAN
Gl J OWEIiTiM TtttH
NO > NOT DETtCTfO
NS * NOT SA*f>L£b
POUUYANIS NOr listed
«€ttt not oetlcteo
-------
providence
eoa
bkgo
pollutant
UNITS
11047
comgEttii owM-zwowccwgiiiiaaAi.

BIOCHEMICAL qxvoen oemano
NG/L
20.0
CHEMICAL OXrOfcN DEMAND
NG/L
50.0 LT
TOTAL ORGANIC CARBON
NG/L
26*5
MON-PARTICULATE TOC
MG/L
NS
total SOLIDS
MG/L
201*0
TOTAL VOLATILE SQLIOS
MG/L
4» *0
total vol sus solios
MG/L
23*0
total suspended solids
MG/L
27,0
total vol ois solids
MG/L
ia,o
total OISSOLVCO FOLIOS
MG/L
1 74*0
SETTLEAttLE solids
ml/l
1*0 LT
cmlorioe
MG/L
22*1
anmon:a nitrogen
MG/L
1,0 Lf
total HHEN0L
UG/L
22*0
OIL ano GREASE
MG/L
4.2
C?EIALi___„ „ ...


ANTIM0NV
UG/L
4.0 LT
AOStNIC
UG/L
3*0 LT
OEMTLLlUN
UG/L
6*0
CAOMlUM
UG/L
12.O
chromium
UG/L
1300*0
COPPER
UG/L
2300,0
LEA0
UG/L
157.0
MERCURY
UG/L
I.O lt
NICKEL
UC/L
B2S0*O
SELENIUM
UG/L
4,0 LT
SILVER
UG/L
10*0
Thallium
UG/L
104.O
/INC
UG/L
1100*0
OTHERS


cyanide
UG/L
3050*0
ttQtiLQ&CEjaLQUiL.. WCIOLS	


aluminum
UG/L
2000*0
BARIUM
UC/L
|9.0
boron
UG/L
609,0
CALCIUM
UG/L
11200*0
LT • Less THAN
Cf » greater Than
NO m NOT OETCCTFO
NS ¦ NOT SAMPLED
POLLUTANYS NOT ntveo
«m NOV OCTCCTCO
TABLE C—02
ft.l. STQM CVCHT QM
e* a	c*a	eoa	e*a	e»*
C5F	CSO	FIRST FLUSH	AUNOFP	PREC IP
11040	11049	It 050	11051	HOST
11*0 lt
*0.0 *_T
40*0
MS
129*0
NS
NS
46*0
40*0
03.0
I *0
S*7
I.J
31 *0
4*9
LT
ll«0 LT
S0*0 LT
37.0
.NS
ISO.O
M«0
26.0
46,0
A2.0
102,0
1*0 LT
*•4
1*5
34 ,0
6,3
45.9
230.0
56.0
2*3.0
I6X.0
70*0
149.0
93.0
I 34,0
i.r
ii*i
2.7
IS.O
}a«s
NS
6*0
so.o
23*5
I I I.O
*0.0
10.0
61.0
1.0
2.4
1.0
5.0
5.0
LT
LT
NS
NS
NS
lt
LT
LT
LT
LT
10*0 Lt
50.O LT
A. O
NS
3f.O
24.O
4.0 LT
4 • O LT
I ft. O
3S.O
I.O LT
1.9
I . O LT
5.0 LT
f».l> LT
4*0 lt	4,0 cr	4*0 LT	4.0 LT	4.0 LT
3*0 LT	3*0 LT	3.0 LT	3.9 LT	J-O LT
6*0	ft«0	7.0	6.0	6.0
4*0	10,0	IS.O	6.0	3.0
109*0	140.0	94 s0	53.0	9.0
437.0	342.0	03S.0	94*0	24.0
003*0	62?#0	6S3.0	409.0	I 10.0
1*0 Lf	1*0 LT	1*0 LT	1.0 LT	1.0 LT
1*30*0	1310,0	1390.0	73.0	40.0 LT
4*O LT	4,0 LT	4.9 LT	4,0 LT	4.0 LT
7*0	3*.0	31.0	7.0 LT	f»,0
100-0 lt	io9,o	lee.o	ioo.o lt	ioo.o lt
555.0	404*0	O 79,0	230,0	17.O
20*0 LT	20*0 Lt	52«0	20.0 LT	20,0 LT
0|4«0	tOIO.O	2000*0	1350.0	164,0
41 *0	42*0	92*9 3S.0	7.0
122*0	92.0	155.0 34,0 LT	34.0 LT
9600*0	0600*0	9600*0	3390.0	645.O
-------
providence
POUUTANf
UNITS
CM
W BKCO
am?
COBALT
f PON
MAGNCSIUN
MANCANESC
MOLrSOCNUM
SODIUM
TIN
riTANIUM
VANAOSUM
VTTRIU*
UC/L
UC/L
UC/L
UC/L
ur«/u
UC/L
UC/L
UC/L
UC/L
UC/L
16.0
1170.0
I180*0
611*0
29*0
29600.0
2600.0
7.0
16.0
• •0
xQLmuejBttamca.„ ¦ ,	-
CHLOROFORM	UC/L
lOLviNe	uc/l
METHYLENC OCORIDC	UC/L
TFJAACHLWOefHlNC	UC/L
I.l-OICHLORCCTHANE	UC/L
1.1.1-TRfCHLOROETHANe	UC/L
TRANS-l.2-DfCHLOI»OCTHeNC UC/L
TRfCHLORQE THE NE	UC/L
J.I
9*6
12.2
102.0
1.3
J7.2
215.0
SEflUttQLAlltg-QASCimiTimi ¦¦
PVACNE	UC/L
91 Sf 2~E THTLHEXTLIPHTHAL ATE U6A.
^usiyoLAixue^Cio.
fȣ NT ACNLOROPHE NOL
UC/L
22.6
efc*ll£iJML-£&IfiA£lAOLC
LT a LESS THAN
CT a CREATE* THAN
NO ¦ NOT OETCCTEO
NS > NOT SAMPLEO
POLLUTANTS NOT LISTCD
WERE NOT OETCCTEO
TABLE C-02
R.|. STQrfM EVENT ONE
E8A	EOA	COA	EOA	C«A
CSF	CSO	FIRST FLUSH	RUNOFF	PflECfO
11048	11 OAR	11050	I 1031	11057
7.0 LT	16.0	27.0	9.0	12.0
2110.0	1670.0	7180*0	21*0.0	296.0
767.0	641.0	1700.0	545.0	0t». 0
6A«0	79.0	163.0	64.0	8.0
25.0 LT	2S.0 LT	25.0 LT	25.0 LT	25.0 LT
4S60.0	11500.0	13000*0	4420.0	3520.0
7IS.0 LT	7IS.0 LT	1630.0	715.0 LT	715.0 LT
40.0	34.0	:S7«0	70.0	11*0
16.0 LT	I6.l) LT	16.0 LT	S6.0 LT	16.0 LT
J.O	7.0	10.0	7.0	5.0
1.7
• •I
18.6
22.7
2.4
8.5
19.0
NO
I .6
4.6
IS.5
20.0
J.O
8.7
23.O
1.8
6.2
8.2
63*0
1.4
6.9
3.6
28. J
1.7
8.8
2.5
NO
NO
NO
1.7
8.5
2.7
I .9
NO
NO
NO
14.7
MQ
3.9
69.0
6.4
NO
NO
NO
NO
NO
NO
119.0
NO
-------
PWVIMNCC
o*h
W MCO
nuUTMII	UNITS	110*3
commit oh MVKOHCQWYgtaxflnai
BIOCHEMICAL 0KV6EM DEMAND MM	25.0
CtCNICAL 0*YC£N ocmamo
MC/L
S0«0 LT
TOTAL ORGANIC CARSON
M6/L
26.0
NOlHPAATtCUUre Toe
mg/l
NS
total SOLIOS
MG/L
162*0
TOTAL VOLATILE SOLIDS
MC/L
9O.0
total vol sus solids
MC/L
16.0
total $uspo«eo solids
MG/L
20.0
total vol ois solids
MC/L
32*0
total dissolved SOL1OS
MC/L
I3A.O
SETTlEABLE SOLSOS
ml/l
1*0 lt
CHLORIOE
MC/L
22*0
AMMONIA NITROGEN
MC/L
T.J
TOTAL phenol
UC/L
o.o
OIL ANO CREASE
MC/L
5*0 LT
NTTAt_£


ANT (MONT
UC/L
~.0 LT
ARSENIC
UC/L
J.O LT
BERYLLIUM
UC/L
7.0
CAOMlUM
UC/L
T.O
CHROMIUM
UG/L
20.O
COPPER
UC/L
63.6
LEAO
UC/L
t 76.0
MERCORT
UC/L
I.O lt
NICKEL
UC/L
64.0
SELENIUM
UG/L
4.0 LT
SILVER
UC/L
7. 0
THALLIUM
UC/L
ioo.o lt
ZINC
UG/L
79.0
OTHERS


CVANIOC
UG/L
JS.O



ALUMINUM
UC/L
iis.o
BARIUM
UG/L
31.0
BORON
UG/L
34.0 LT
CALCIUM
UG/L
16900.0
LT « CESS THAN
gt * oat Atea tham
NO ¦ NOT OETECTEO
NS - not sampled
POLLUTANTS NOT LISTED
•ERC NOT DETECTED
TABLE C-02
R.I. STORM EVENT ONE
MH	BM	OM	0»M	Bit)
CSF	CSO	FIRST FLUSH	RUNOFF	POeCIP
11064	11069	11064	11067	11066
tOO.O	136.0	230.6
260.0	290.0	600.0
MS MS
•2.0	44.9	36.0
3«r.o	2S2.0	sra.o
254.0	174.0	426.0
taa.O	126.O	362.0
24*.0	170.0	462.0
66.0	48.0	64.0
102.0	62.0	116.0
14.0	S.O	9.0
10.0	6.6	12.0
3.7	3.2	S.I
29.0	42.0	66.0
27.4	30.4	46.«
17.0 LT	17.0 LT
7S.0	90.0 LT
MS MS	10.0
29.5	NS
131.0	10. 0 LT
76.0	10.0 LT
34.0	4.0 LT
01.0	4.0 LT
44.0	10.0 LT
50.0	10.0 LT
1.0	LT	I .0 LT
4.1	2.9
1.0 LT	1.0 LT
16.0	10.0
S.O LT	S.O LT
4.0 LT	4.0 LT	4.0 LT	4.0 LT	4.0 LT
3.0 LT	3.0 LT	3.0 LT	J.O LT	J.O LT
6.0	6.0	9.0	9.0	0.0
10.0	19.0	19.0	12.0	7.0
34.0	46.0	93.0	30.0	20.0
358.0	344.0	929.0	105.0	10.0
974.0	936.0	623.0	663.0	1*1.0
t.O LT	1.0 LT.	1.0 LT	t.O LT	1.0 LT
246.0	261.0	438.0	134.0	40.0 LT
4.0 LT	4.0 LT	4.0 LT	4.0 LT	4.0 LT
7.0 LT	23.0	19.0	19.0	7.0
100.0 LT	tOO.O LT	100.0 LT	100.0 LT	100.0 LT
976.O	622.0	1050.0	411.O	9.0 LT
20.0 Lt	2O.0 LT	20.0 LT	20.0 LT	20.0 LT
2350.0	1460.0	2290.0	1640.0	6^.0
68.0	84.0	196.0	78.0 7.0
39.0	90.0	92.0	70.0	.14.0 LT
8950.O	8310.0	13200.0	4990.0	e6S.a
-------
TABLE C-0*
PROVIDENCE. R. I. STORM EVENT D*C


OftH

©aw

MH

08H
08H

DAM



WW 0ftGO
csf

cso

FIRST FLUSH
runoff

f»REC IP

pouutant
UNITS
II06J

11064

I1065

11066
1 1067

1 1068

COSM-T
UG/L
16.0

21*0

34.0

30.0
22*0

12.0

IRON
UG/L
1340.0

2840.0

2650*0

4330*0
2230*0

112.0

MAGNESIUM
UG/L
2080.0

1610*0

1540*0

2220*0
IOIO.O

2 1**. 0

MANGANESE
UG/L
36. 0

74*0

78*0

107*0
83*0

4.0

MCI TBDCNUM
UG/L
25.0
LT
25 #0
LT
52*0

121*0
23*0
LT
5J.0

SUOIUN
UG/L
22300.0

I8%00*0

2490O.O

25J00.0
ITSOO.O
LT
8960.0

TIN
UG/L
2460.0

1230*0

1370*0

2120*0
1050.0

7 11.0
LT
titanium
UG/L
4.0

38*0

41 *0

44*0
00.0

3.0

vanadium
UG/L
• 6.0
LT
82*0

91 *0

150.0
148*0

80.0

YTTRIUM
UG/L
4.o

6.0

10*0

6*0
8.0

3.0

XDLAllLEU0Bfi4«l£a-
TOLUENE
UG/L
2.0

5*4

5*5

13*0

MO

NO
CTHVL8EN2ENe
UG/L
1.8


NO

NO
2*1

NO

NO
methvlek cm-orioe
UG/L
20.0

26*0

25.0

23.0
18*0

20.0

TETRACHLOROETHEME
UG/L
I2«.0

568*0

M2.0

11*4

NO

NO
i•i—oichlorqethcne
UG/L
2.0


NO

NO
NO

NO

NO
t•t•l-TRICHLOROETNAME
UG/L
100*0

50*0

53*0

83*0

NO

NO
1 • 1 .2-TRICHLOROETHANE
UG/L

MO
2.9

3*0

2.0

NO

NO
TRAMS-1 •2-OICNLORQCTHCNe
UG/L
133.O

207*0

253* O

372.O

NO

NO
VtNYL CHLORIDE
.UG/L
44.0

1*5

2*8

8*1

NO

NO
TRICHLOAQETHEME
UG/L
103.0

285*0

366.0

574.0

NO

NO
Sgfl-VPLftf I*-g
81 SI 2*ETHTLHE»VL IPHTHALATE U6/L
II.A

35*0

36*0

42.C
19*0

7.2

SEMI VOLATILE ACID
PHENOL
UG/L

NO

NO

NO
20.0

NO

NO
eCSllSlK-EftlBAClAOkta	












tT » LESS THAN
6T m GREATER THAN
NO ¦ NOT DETECTED
MS ¦ NOT SANPLED
POLLUTANTS NOT LISTEO HCTf NOT DETECTED
-------
TABI C C-OJ
PROVIDENCE. R.I. STORM EVENT tW
EM CM E»«	EM EM Eit
¦« CUCCO CSF CSO	FIRST FLUSH RUNOFF PRECIP
POUUT«NT UNITS IIOSS II0S9 11060	I 1061 II Oft? IIOH
9IOCHEMICAL OKrCCN DEMAND
MGSL
18.0
LT
18.0 LT
18.0
LT
26.0

ta.o
LT
ia.o

CHEMICAL OXTGEN DEMAND
*6/t
76# 0

50*0 LT
50.0
LT
120.0

50.0
LT
so.o
LT
~OTAL ORGANIC CARBON
MG/L
49.0

35.5
29*0

66.0

24 .8

t I *o

TOTAL SOLIDS
MC/L
384,0

233.0
190.0

3S4.0

90.O

56.0

total volat ile solids
MC/L


73*0
67.0

¦ 25.0

57.0

15.5

TOTAL VOL SUS SOLIDS
MG/L
17.0

22.0
as.o

20.O

14.0

4.5

total suspended solids
MG/L
23*9

36*0
23.0

3J.0

20*0

5.5

TOTAL VOL OIS SOLfOS
MG/L
82.0

51 .0
52.0

lOA.O

43.0

1 t.O

TOTAL OISSOLVEO SOLIDS
MG/L
360*5

197.0
167.0

321 .0

70.0

50.5

SETTL6A8LE SOL IDS
ML/L
1*0
LT
1.0 LT
1 .0
LT
t.O
LT
1.0
LT
1 .0
LT
CHLORIDE
MG/L
so.o

19*0
15.O

30.0

8.7

1 .0

ammonia nitrogen
MG/L
4.2

1 .6
1 .0
LT
4.2

1 .0
LT
1 .0
LT
TOTAL PHENOL
UG/L
17.0

16.0
16.0

51.0

32.0

5.0
LT
OIL AND GREASE
MG/L
10.0
LT
6.0
0.0

6.0

5.0
LT
' to.o
LT
METALS












ANT ( MONT
UG/L
A.O LT
lt

U
4.ft
LT
4.0
O
t.O
LT
ARSENIC
UG/L
J.0
Lf
3*0 LT
3.0
LT
J.O
LT
3.0
LT
J.O
Lf
8CRVLLIUM
UG/L
2*0
LT
2.0 LT
2.0
LT
2.0
LT
2.0
lt
2.0
LT
CADMIUM
UG/L
10.O

10.0 LT
10.0
LT
to.o
LT
10.0
LT
10.0
LT
CHROMIUM
UG/L
2040.0

1190.0
801 .0

1890.0

4.0
LT
4.0
LT
COPPER
UG/L
3190.0

1980.0
1460.0

3350.0

209.0

19.O
LT
LEAD
UG/L
• 20.0
LT
120.0 LT
120.0
LT
120.0
LT
120.0
LT
120.0
LT
MERCURY
UG/L
1.0
LT
t.O LT
1 .0
LT
4.0

1 .0
LT
1.9
LT
NICKEL
UG/L
3870*0

7940.0
7160.0

7200.0

525.0

40.0
LT
SELEN im
UG/L
4.0
LT
4.0 LT
4.0
LT
4.0
LT
4.0
LT
4.0
LT
SILVER
UG/L
ise.o

22.O
22.0

7.0
LT
7.0
lt
7.0
LT
THALLilM
ug/l
70.0
LT
70.0 LT
70.0
lt
70.0
LT
70.0
LT
70*0
LT
ZINC
UG/L
1300.0

1400.O
1020*0

34 20.0

214.0

12*0

nTHFRS












CVANlOe
UG/L
I03SO.9

10300.0
stao.o

16800.0

11900.0

20.0
LT
fitlflHfil HP TAB
ALUMINUM
UG/L
132O.0

654 .O
57* .0

97*.O

439.0

<90«0
LT
BARIUM
UG/L
20*0

19.0
20.0

17.0

17.0

2.0
LT
0ORON
UG/L
695*0

776.0
722 .O

693.0

68.0

20 .0
LT
CALCIUM
UG/L
8190.G

5570.0
5420.0

8430.0

C I 70•0

143.0

cobal r
UG/L
15.0

22 .O
17.0

12.0

6.0
LT
6*0
LT
tf a CESS THAN
CT • CREATED THAN
NO • MOT DETECTEO
NS * MOT SANPlEO
POLLUTANTS NOT LlSTCO
¦cue not oerecfEo
-------
TABLE C-03
RROVIOENCE. R.I. STORM EVENT T«0


«*a
c»a

c»a

EOA

eoa

CO A



V» AKCO
CSF

cso

MOST FLUSH
ftUNOPP

PRCC|p

POLLUTANT
UNITS
ItOS#
11099

11060

11061

11062

1 1079

IRON
IMA
T62.0
f 39.0

«r.o

1310.0

I0D9.0

3.0
LT
MGNCStUH
UG/L
T68.0
653.0

MJ.O

906.0

34T.0

04.0

NANCAKCSC
UG/L
J9.4
33.0

30.0

•2.0

29.0

2.0
LT
MOLYBDENUM'
UG/L
16.O lt
i«.0
LT
Ift.O
LT
10.0
LT
16.0
LT
18.0
LT
SODIUM
VG/L
60100.0
3I10Q.0

21000.0

532 00.0

120.0
LT
1200.0
LT
riM
UC/L
SlO.O LT
3IO.O
LT
SlO.O
LT
SlO.O
LT
310.0
LT
510.0
LT
TITANIUM
UG/L
7.0
12.0

6.0

12.0

1 A.O

3*0
lt
VANADIUM
UG/L
S.O LT
5.0
LT
3.0
LT
3.0
LT
3.0
LT
3.0
LT
YTTRIUM
UG/L
• •0 lt
6.0
LT
«.o
LT
4.0
LT
A.O
LT
4.0
lt
VOLATILE OftfiANftCS












CHLOROFORM
UG/L
12.0

NO

NO

NO

NO

NO
TOLUENF
UG/L
s.o
3.5

2.0

3.6

11.3


WO
CTHVLeENteic
UG/L
S.J

NO

NO

NO

NO

NO
MtTHVCCNE 04.0CUOC
UG/L
90673.0
&n.o

326.0

1313.0

7.5

2.9

rc TRACHUC3ROETHCNC
UG/L
315*0
226 .0

195.0

302.0


NO

NO
». a -01 chloroethcne
UG/L
19.0
16.5


NO

NO

NO

NO
1.1. l-rttlCHLOROETHANE
UG/L
232*0
127.0

104.0

AII.O


NO

NO
1 • 1 •2-TRICHLOaOeTHANC
UG/L
6.0
2.8

2.6


NO

NO

NO
TOANS-t . 2-0 tCHLOAQETHEMe
UG/L
S.5

NO

NO

ND

NO

ND
rniCHcowoethcnc
UG/L
766.0
213.0

230.0

206.0

2T.O

50.0

5EM=X0L4llU-64S£tilEyISAL&-











BUTYL BENZYL PMTHALATC
UG/L
NO

NO

NO
13.0

9.3


MO
8ISU-£TMYLHexrc|PHTMALAT€
UG/L
l9.©
II.0

12.6

9.0

13.3

13.0

SEMlVCLfcTlLE ACID












2.4-0IMETHYLPHCN0I.
UG/L
492.0

NO

NO

NO

NO

NO
PHENOL
UG/L
561.O

NO

NO

NO

NO

NO
P£Nf acmlorophemol
UG/L
164.0

NO

NO

NO

NO

NO
PESTICIDE. EXTRACTABIES
i.f » less than
CT m GREATER THAN
NO s MOf DETECTED
MS s NOT SAWLCO
MNXUTANT& NOT (.tSTCO
vcnc NOT METECTEO
-------
TABLE C-03
PMOV1DCNCE*	SfOJ
DON	04H
«« bkqo	csr
pollutant	mm its	H074	i tors
CONytNTifti^/^QMcnmffiiTgHnAL



BIOCHEMICAL OKVCCN DC MA NO
MCA
95*0

53.0
chemical oaycen demamo
N6/L
970*0

210*0
total onean(C caroon
MC/L

NS
NS
NON-PART1CULATE TOC
M6/L
04*0

33*5
total solids
*C/L
1048*0

333*0
total volatile solids
MC/L
4 88.0

166*0
total vol sus solids
NC/L
236.0

106*0
total suspcmjeo solids
MC/L
298*0

1-2*0
total vol DfS SOLIDS
MC/L
252.0

*»6*0
total DISSOLVED SOLIDS
MC/L
750*0

I'll.O
SC.TTLEABLC SOLIDS
ML/L
B*8

2*4
CMLORIOE
MC/L
64*0

19*0
AMMONtA Nl TM0C4EM
MC/L
ao.o

2*4
total phenol
UG/L
18.0

23*0
OIL AND fiACASE
MC/L
12*0

35*0
METALS




ANT|MONV
UC/L
S*0

4*0 LT
ARSENIC
UC/L
3*0
LT
3*0 LT
beryllium
UC/L
2.0
LT
2*0 LT
CADMIUM
UC/L
IO.O
LT
IQ*0 LT
CMRUMIUN
UC/L
28SO.O

302.0
COPPER
UC/L
3490*0

1200*0
LCAO
UC/L
120*0
LT
240*0
MERCURY
UC/L
«*0
LT
1.0 lt
NICKEL
UC/L
2550*0

952*0
SELENIUM
UC/L
4.0
LT
4*0 LT
SILVER
UC/L
14*0

7.0 LT
thallium
UC/L
70.0
LT
70*0 LT
ZINC
UC/L
2210*0

1320*0
OTHFRS




CYANIDE
UC/L
33000*0

1536*0
HOMCOMVCWI1QMAI—BEI4LS	




ALUMINUM
UO/L
1540*0

1340*0
BARIUM
UC/L
16*0

31*0
BORON
UC/L
231*0

105*0
CALCIUM
UC/L
9440*0

S570*0
it • iiit Than
Of • CftMVfft VNAN
NO « Hi If
• NO! MttHVft
MtV kit*** •**« WW! MtfftfB
CVCMT T«Q
DOM	DON	OOH	CIA
CSO	FIRST FLUSH	RUNOFF	WCCIP
11076	I 1077	11070	11079
OO.O IT	M.O	18.0 Lt	ta.o
290*0	260*0	50*0 LT	50.0 LT
*3.0	83.5	21.5	11 .0
NS NS	NS	N5
263.0	343.0	138.0	56.0
153*0	159.0	48.0	15.5
IIO.O	57.0	30.0	4.5
151*0	82.0	81.0	5.5
43.0	I02.O	16.0	11.0
114*0	261*0	57*0	50.5
4*2	2*0	I .0 LT	1.0 LT
9*2	23*0	.5	1*0
t *1	4.9	1.0 LT	I.0 LT
12*0	20.0	5*0 LT	5.0 LT
24*0	39.0	10.0 LT	10.0 LT
4*0 LT
3.0 LT
2*0 LT
10*0 LT
140*0
694*0
230*0
1.0 LT
549*0
4*0 LT
7*0 LT
70*0 LT
•09*0
094*0
1100*0
20*0
¦ 7*0
3970*0
5.0

3.0
LT
2*0
LT
10*0
LT
601. O

1760* O

120.0
LT
1.0
LT
1560.0

4.0
LT
7.0
LT
70.0
LT
1910*0

2000*0

1250*0
20*0
235*0
0210*0
4.0
LT
3.0
LT
2.0
LT
10.0
LT
4.0
LT
24.0

283.0

1.0
LT
40.0
LT
4.0
LT
7.0
LT
70.0
LT
211*0

N
O
•
o
LT
1540*0
47.0
59.0
2210*0
4 • O LT
3*0 LT
2.0 LT
10.0 LT
4.0 LT
19.0 LT
120.0 LT
I .0 LT
40.0 LT
4. O LT
T.O L T
70*0 LT
12*0
20*0 LT
90*0 LT
2.0 LT
20*0 LT
143*0
-------
TABIC C-03
providence. r.i. STonM event two


04H
P*H

D»H

0*H

0*H

E9A



•V QKCO
CSF

CSO

riftST FLUSH
ffUNOFf

PRECIP

pollutant
UNITS
1 1074
ft 1075

1 1076

f 10 77

1 (078

1 1079

COSALT
UG/t
I6Z.0
8.0

II.0

6.0
LT
6.0
tT
6.0
LT
IRON
UC/L
nso.o
**60.0

1810*0

1290,0

1978.0

5.0
LT
magnesium
UC/L
1660.0
1000*0

722.0

1310.0

SOM.O

*4 .O

MAHGAN£S£
UC/L
2ft *0
38*0

34 .O

37 m 0

42.0

2.0
LT
M0LT80ENUM
UG/L
18*0 LT
|fl*0
IT
18*0
LT
18.0
LT
18.0
LT
(8.0
LT
SODIUM
UC/L
163000.0
2750O.O

13900.0

37500.0

1200.0
LT
1200.0
LT
TIN
UG/t
510.0 LT
540*0
LT
510*0
LT
510. 0
LT
510.0
LT
510.0
LT
TITANIUM
UC/L
36.0
60.0

69.0

39.0

94 * 0

3.0
LT
VANADIUM
UC/L
5.0 lt
5.0
IT
5*0
LT
5*0
LT
5.0
LT
5.0
LT
~ rmtufc
UC/L
4*0 LT
4.0
LT
4*0
LT
4*0
LT
4.0
LT
4.0
LT
KQuaiiLfc-asfiAuia	












TOLUENE
UC/L

3.8

3.2

4*9


NO

NO
6P0M0METMAMC
UC/L
260. O

MO

MO

NO

NO

NO
netMatNE c»«.(miDe
UC/L
I4.Q
61.0

23.0

42* O

6*0

2.9

TC r«AC«LOPO€fHCNf
UG/t
MD
959*0

05*0

299*0


NO

HO
t • t • 1 -TRICHCOROE TMAMC
UG/L
263.0
225.0

93*0

296*0


NO

NO
1 • t .2-T*MCMLO«OFTNAN£
UC/L
ItO.O
24.O

16*0

43.O

2.4


NO
rnans-t*2-oichlooocthcmc
UC/L
64.0
31.0

22.0

35.0


NO

NO
VINYL CMLOPIOE
UC/L
13.0

NO
•9

3*5


NO

NO
TPICMLOWQCfHtNC
UC/L
9O55.0
3700.0

1922*0

5143.0

12.0

58*0

atMX^QLAX ILL-. OAtZOKMlH ftLS -











anthdaccic
UG/L
NO

MO

MO

NO
83*0


NO
01 M£ T MVLPH THAL AT£
UG/L
«S.O

MO

MD

NO

NO

NO
(t ( S( 2*C T WLHCX U » PHtHAI. Ate
UG/L
103.0
27.0

17.O

28.0

16.0

13.0

OI-N-8UTU. PHfMALATC
UG/L
MO
17.0

*«0

57*0


NO

NO
SEMI VOLATILE Af.CO












•-CMLOWO-J-MCTHVLPHFNOL
UC/L
WO

MO

NO
43.0


NO

NO
EE5IXCiOC_EiI3ACIAQI.e!
IT a (.CSS Than
ct « coetrtA than
MO » NOT DETECTED
ns • not stwieo
POLLUTANTS not listed
MERC NOT DETECTED
-------
TABLE C-04
moviocNCi*	sroi
©6M	06H
«f OK CD	CSF
POLLUTANT	UNITS	41052	U053
Ci*rtCaIlDttflL^ttQt#COtt«^IiOttAL
BIOCHEMICAL OXVGRN OCMANO N6A.	390. O	190.0
CHEMICAL OKYGEn DEMAND	NC/L	1100*0	420.0
fOVAL ORGANIC CAP BOM	MG/L	MS	NS
NON-PART (CUL ATE tOC	MC/t	132.0	47.5
TOTAL SOLIDS	MG/L	IO60»O	*77.0
TOTAL VOLATILE SOLIOS	MG/L	674.0	JOS.O
TOTAL VOL SUS SOLIDS	MG/L	690.0	292.0
TOTAL SUSPENDED SOLlOS	MG/L	764.6	376.0
TOTAL VOL D1S SOLIDS	NG/L	184.0	103.0
TOTAL OlSSOLVEO SOLIDS	MG/L	200.0	101.0
St'TTLCAtJLfc SOLIDS	ML/L	IO.O	3*5
CHLORIDE	MG/L	29.0	9.7
AMMONIA NITROGEN	N6/'.	ASO.O	0.4
TOTAL PHENOL	UGsL	56*0	9*8
OIL ANO GREASE	MG/L	220.0	93.0
C&I6LS		
ANT (MONY	UGA.	4.0 LT	5.0
ARSENIC	UG/L	3.0 LT	3.0 LT
OfcRVLLlUN	UG/L	2-0 LT	2.0 LT
CADMIUM	VG/C	21*0	10.0 LT
CHROMIUM	UG/L	9O.0	50.0
COPPER	UG/L	1260+0	595*0
LEAD	UG/L	440«O	279.0
MCRCURV	UG/L	5.0	1.0 LT
NICKEL	UG/L	SS60.0	4B3.0
SELENIUM	UG/L	4.0 LT	« *0 LT
SILVER	UG/L	14.0	10.0
thallium	ug/l	to.o lt	to.o lt
ZINC	UG/L	1*40.0	1090.0
oibtas		
CVANIOE UG/L	720.0	210*0
ttQC*tOt*¥EiiIiQSAL-a£XALS	
ALUMINUM UG/L	1960.0	1640*0
OAR I UN UG/L	6<)«0	S6.0
BORON UG/L	I5J.0	57.0
CALCIUM UG/L	I3BOO.O	6*60.9
lt * less than
GT i GREATER THAN
NO » KOT DETECTEO
NS * NOT SAMPLED
POLLUTANTS NOT LISTED
¦ERE NOT OETCCTCD
EVENT THREE
DON	DON	OOH	E»A
CSO	MRST fLWSN	RUNOFF	PRECIP
U044	noss	ttos(»	noao
*10-O	330.0	23.0	17.0 LT
630*0	10410*0	57.0	50.0 LT
NS NS	NS	5.0 LT
44 #0	64*5	23.5	NS
775.0	926.0	120.0	23.0
567.0	697.0	70.0	2J.0
491.0	560.0	23.0	4.0 LT
653.0	747.0	49.0	4.0 LT
7G.0	117.0	*7.0	22*0
122.0	179.0	7|«0	22.0
6*3	4.to	1.0	LT t.O LT
A.4	14.0	1*3	1.0 LT
3*0	9.1	1.0	LT I .0 LT
16.0	7.8	I 1.0	S.O LT
26*0	72.0	5.0	LT 10*0 LT
4*0 LT	4.0 LT	4.0	LT	4*0 LT
3.0 LT	3.0 LT	3.0	LT	3.0 LT
2.0 LT	2.0 LT	2.0	LT	2.0	LT
10*0 LT	10.0 LT	tO.O	LT	10.0	LT
27#0	55*0	5.0	4.0 LT
J9A.O	567.0	51.0	19.0	LT
290.0	368.0	21*5.0	120*0	LT
1*6 LT	1.0 LT	1.0	LT	1.0 IT
419.0	56*.O	VO.O	LT	90.0	LT
4.0 LT	4.0 LT	4.0	LT	4.0	LT
8*0	18*0	7.0	LT	7.0	LT
70.0 LT	'0.0 LT	70.0	LT	70.0 LT
1140.0	1350.0	37J.0	2*. 0
160.0
220.0
20.0 LT
IS60.C
49.0
71 .0
6520.0
20 70.0
76.0
97.0
6640*0
974.0
37.0
37.0
31JO.O
90.0 LT
2.0 LT
20.0 LT
15.0 LT
-------
providence


O0H


WW 8* GO
POLLUTANT
UNITS
11052
C08ALT
UG/L
42.0
IRON
UC/L
44 70.0
MAGNESIUM
UG/L
20IO0.0
manganese
UC/L
1 14.0
MCLTBOENUM
UG/L
10.0 LT
SOOIUM
UG/L
35000.0
tin
UG/L
SIO.O LT
T| TANIUM
UG/L
65.0
VANADIUM
UG/L
14.0
VTTRIUM
UG/L
6.0
KCiaiU£.Q&liAtU£S	
CHLOROFORM	UC/U	7. ©
TOLUENE	UG/L	30.0
CTHVLBCNZCNC	UC/L	11.0
WTHTLCNE CHLORIDE	UC/L	14.0
TEIRACHLWOITHENC	UG/L	463.0
I , | .1-TPICHCOnat fHAMl	UC/L	101.0
I I .1 •2-TRICHLORQETHANE	UC/L	0.0
M | .1 .2.2-TETRACNLOROCTH4ME	UC/L	MO
N TPAHS-l.i-OlCMLOWOtTHCHC	UG/L	22.0
TP ICMCOPOE THENE	UC/L	B02.0
StHl-YQLftl lLC.fi£Sfc£J*CUtS&L&-
OIMETHVLPHTHALATE UG/L	49*0
PHENANThRENE UC/L	6«6
I ••-OICHLORO0EM/ENE UC/L	8*0
NAPHTMALcNE UC/L	57.0
8 tSf 2-ETHYLHCJKVL 1PHTHALATC UC/L	73.0
Oi-M-HUTfL PmThALATE UG/L	22*0
2EaXXDL4IiLE_A£iQ	
PHENOL UC/L	17*0
asuuQE.exifiui&aLCs	
lt * less Than
cr * GREATER THAN
HO * NOT OETEC TED
NS * NOT SAMPLEO
POLLUTANTS NOT LlSTCO
¦CUE NOT DETECTED
TABLk C-84
R.I. STORM EVENT
THREE
04H
CSF
11 OS J
O «M
CSO
11 OS*
O *H
FIRST FLUSH
I IOSS
0»H
RUNOFF
I 10*6
E*A
PRECIP
noao
6.0
3600.0
1470.0
55.0
to.o lt
utoo.o
sio.o lt
sa.o
15.0
4.0 LT
6*0 LT
2650.0
12IO.O
74 .0
10.0
6890*0
510.O
58.0
5.0 LT
4*0 LT
LT
LT
6*0 LT
3720.0
1600.0
93.0
16.0 LT
12600.0
510.0 LT
00.0
5.0 LT
4.0 L 7
6.0 LT
1200.0
65 I .0
69.0
10.0 LT
2250.0
510.0 LT
52.0
5.0 LT
4.o lt
6.0 LT
5.0 LT
5.0 LT
2.0
10.0 LT
1200.0 LT
510.0 LT
3.0 LT
5. 0 LT
4.0 L T
NO
NO
NO
24*0
10.0
12.0
474 .0
23<>.0
9.0
52.0
556.0
25.0
10.0
15.O
337.0
257.O
II.0
48.0
S46.0
NO
30.0
14.0
15.0
202.0
261 -O
10.0
e.o
43.0
550.0
6.5
NO
NO
NO
NO
NO
NO
NO
NO
2 • O
NO
NO
NO
NO
NO
NO
28*0
5.7
17*0
11.0
30.0
NO
5.1
12.0
36.0
9.0
NO
6.0
22. 0
14.O
39.0
NO
NO
NO
ND
NO
NO
M>
NO
NO
NO
NO
NO
NO
NO
-------
PflOVIOENCe
£»A
¦* OK GO
POLLUTANT	UNIfS	I10b9
CfittXCttXIQtfOUtlQtfCQtfXCtfllQeiAk

BIOCHEMICAL OXYGEN OCMNO
MG/L
SO.O
CnCMIClU. OXVGCN OENAMO
MC/L
6J.0
total ORGANIC carbon
MG/L
NS
non-partICUVATE TOt
MG/L
4J.O
total sotios
MG/L
354.0
TOTAL volatile SOL I OS
MG/L
IJ9.0
TOTAL vol SUS SOLtOS
MG/L
24«0
TOTAL suspewcd sclios
MG/L
32.0
TOTAL vol OlS SOLIDS
MG/L
S 15.0
total dissolved solids
MG/L
322.0
SETTLEABLE SOLIDS
ML/L
I.O lt
CHLORIDE
MG/L
43.0
AMMONIA NITROGEN
MG/L
3.5
total phenol
UG/L
2f.O
oil and GREASE
MG/L
to.o lt
MFTAL^


ANTI MONT
UG/L
4.0 LT
ARSENIC
UG/L
J.O LT
BERYLLIUM
UG/L
2.0 LT
CA0MIUM
UG/L
SO.O LT
CHROMIUM
UG/L
J660.0
COPPER
UG/L
3930.0
LEAD
UC/L
120.0 LT
MERC OP V
UG/L
1.0 Lt
NICKEL
UG/L
12000.0
SELENIUM
ug/l
~ •0 LT
SILVER
UG/L
119*0
thallium
UG/L
70.0 f.T
ZINC
UG/L
54 .O
OTMFRS


CYANIDE
UG/L
3TOOO.O
ttOtl£QsntE»Xl€MAL-ttElALS	


aluminum
ug/l
305.0
BARIUM
ug/l
12.0
SORON
UG/L
1460.O
CALCIUM
UG/L
9700.0
Lf • LESS TM4N
or » gdcmer than
NO a NOT DETECTED
NS ¦ MOT SAMPLED
POLLUTANTS not LISTEO
(•CUE MOT OCTKKD
TABLE C-0»
R.I.
STORM EVENT
ThR£E






E+4

E»A

EOA

E»A

E4A

CSF

CSO

FIRST FLUSH
RUNOFF

PRECIP

noro

11071

11072

1 I07J

1 lOOO

20.0

17.0

42*0

17.0
LT
17.0
LT
65.0

SS.O

170*0

50.0
LT
no.o
LT

MS
49.0


NS
10.5

5.0
LT
25.0


NS
37.0


NS

NS
1 34 .O

O2.0

173.0

70.0

23.0

110.0

37.0

S1.0

53.0

23 .0

S7.0

16.O

36.0

9.0

~ .0
LT
68 .0

2* .0

66*0

23.0

4,0
LT
61 .0

21 *0

1S.0

44*0

22.0

66 .0

sa.o

107.0

47.0

22 .0

I .0
LT
I.O
LT
I.O
LT
I.O
LT
1 .o
LT
6.1

3.0

5.5

1.4

1 .0
LT
1 .6

1*4

2.7

1 .O

1 .0
LT
32*0

5.0
LT
5.3

5.0
LT
5.0
LT
5.5

5.0
LT
19*0

5.0
LT
10.0
LT
4.0
lt
4*0
LT
4.0
LT
4.0
LT
4 .0
LT
3.0
LT
3.0
LT
3.0
LT
3.0
LT
3.0
LT
2.0
lt
2.0
LT
2.0
lt
2.0
LT
2.0
LT
10.0
LT
10*0
LT
10*0
LT
to.o
LT
lO.O
LT
53.0

30*0

54. 0

4.0
LT
4.0
LT
229.0

193*0

207.0

230.0

l*.0
LT
120 .O

120.0
LT
23S.0

120.0
LT
120 .O
LT
1 .0
LT
1*0
LT
1.0
LT
1.0
LT
1 .0
LT
470.0

ota.o

527.0

153.0

90.0
LT
4 .0
lt
4*0
LT
4.0
LT
4.0
LT
4.0
LT
7.0
lt
7.0
LT
7.0
LT
7.0
LT
7.0
LT
70.0
LT
70*0
LT
70.0
LT
70.0
LT
70.0
LT
423 .O

350.0

090.0

320.0

24 .0

330*0

140*0

400.0

32.0

o
•
o
LT
440.0

411.0

1050*0

300*0

90 .0
LT
12*0

10*0

29*0

27.0

2 .0
LT
158.0

107.0

177.0

40.0

20.0
LT
4240*0

3260 *0

6280*0

2590.0

1S.0
LT
-------
TABLE C-0*


PROVt OLNCE*
R. t .
STORM
EVENT
three






E*A

Ed A

E6A

E8A

E8A
E*A


•V BKGO
CSF

CSO

FIRST FLUSH
RUNOFF
PREC *P
pollutant
UNITS
1 t06«)

1 1070

110 71

1 1072

1 (073
11080
COBALT
UG/L
22. o

984 «0

6*0
LT
6.0
L r
6.0 LT
6• O LT
SOON
UG/L
600*0



71 7.0

1910.0

592.0
5.0 LT
MAGNESIUM
U6/L
aie.o

546.0

462.0

902.0

4 32.0
5.0 LT
MANGANESE
UG/L
2d.O

55.0

53.0

92.0

4h.O
2.0
NOtvaOCNUN
UG/L
10.0
LT
ie.o
LT
18.0
LT
18.0
LT
18.0 LT
ie.0 lt
SOOIUM
UG/L
6*100.0

1720.0

1200.0
LT
5690.0

1200.0 LT
1200.0 Lt
TIM
UG/L
910.0
LT
SIO.O
LT
510.0
LT
510.0
LT
510.0 LT
sto.o lt
TftANtUM
UG/L
5*0

10.0

6.0

33.0

15.0
3.0 lt
VANAOIUM
UG/L
5.0
LT
5.0
LT
5.0
LT
5.0

5.0 LT
5.0 LT
YTTRIUM
UG/L
4*0
LT
4.0
LT
4.0
LT
A .0
LT
4 .0 LT
4.0 LT
VOlATlLg PWC.AMICS











CARBON TETRACHLORIDE
UG/L

ND
14.0


NO

NO
NO
NO
fiPOMOORN
UG/L

NO
ts.o


NO

ND
NO
NO
Chloroform
UG/L
*•0


NO

NO

NO
NO
NO
TOLUENE
UG/L
3120*0

32.0

12.O

43.0

76.0
2.0
ACRVLOMI TRILE
UG/L

NO
ts.o


NO

NO
NO
ND
senienc
UG/L
6*0


NO

NO

NO
NO
NO
CHLOROBEN/ENC
UG/L

NO
16.0


NO

NO
NO
ND
ETMYLBEN2ENE
UG/L
10*0


NO

NO

NO
NO
NO
NCThVLENE CK.0R10E
UG/L

ND
s.o

29.0

59.0

7.0
24.0
rCTRACHLOHOETHCNC
UG/L
114.0

21 .0

16.0

20.0

NO
NO
a•1-OICMLOnOfcTHANE
UG/L

NO
37.0


NO

NO
NO
NO
t•I-OICHLOROETHENE
UG/L

NO
21 .0


NO

NO
NO
NO
1 • 1 . t -TN ICHLOROETNANC
UG/L
ltll.0

*54-0

449.0

5 A4.0

NO
NO
1 «l .2-TR1CHLOROETHANC
UG/L

ND

ND

ND

ND
2.2
NO
1.2-OlCHLOROETHAME
UG/L

NO
16.0


NO

NO
NO
NO
1.^-OICHLaROPROPANE
UG/L

NO
22.0


NO

ND
NO
NO
TRANS-1.2-OICMLOAOETMENe
UG/L

NO

NO

NO
2.0

NO
NO
TPICHLORQtTHENE
UG/L
119.0

28.0

22.0

2S.0

NO
NO
raiUKQLAlll£.0ftSe£tf£UlSAL&.










N-NI TRQSQOI PHENYL AMfNE
UG/L
75.0


ND

NO

NO
NO
NO
81 S( 2—ETHYLHEXYL iphtmalate
UG/L
16.0

10.0


NO

NO
NO
NO
St!U*GL4IlL£.AC10	










A—CMLORO-3-METHYL PHENOL
UG/L

ND
121.0


NO

NO
NO
NO
2-CHLOROPHENOL
UG/L

NO
36 >0


NO

ND
NO
NO
2*NirROPMENCL
UG/L

NO
92.0


ND

ND
NO
NO
2•4-O1CHLOHOPHCNOL
UG/L

NO
81.0


NO

NO
NO
NO
2*«-0IN£rMTLPHfN0L
UG/L

NO
83*0


NO

NO
NO
NO
If ¦ LES* THAN
61 a CHCMIR THAN
NO a NOT DCtCCTCD
Mi a NOT SMWtlll
POtlUTANTS NOT U«UO
MM MOT OflTtCTCO
-------
PROVlOENCE
EftA
•V BKGO
POLLUTANT	UNITS	11069
2*4*01 N| TROPHENOL	U6/L	NO
2.4.*-TfllCHLONOPt€NOL	UO/V	NO
2-NETHVI.-4 «6-0f Nf TROPtCNOL	UG/t	NO
PHENOL	VG/l	14*0
PENT ACHL0H0Pm£n0L	OC/L	NO
ecsxicire-eiia&cxAULC*.
lt • less than
GT * CAEATER THAN
NO ¦ NOT DETECTED
N& « NOT SAMPLED
POLLUTANTS NOT LlSTCO
«CM NOT OCTECTCO
table c-o*
R.I.	STORM EVENT
E*A	EIA
CSF	CSO
11070	110 7ft
18*0
*40.0
4|«0
NO
72 *0
THREE

CiA

E«A

E4A


FIRST FLUSH
RUNOFF

PRECIP


11072

11073

1 1 080

NO

NO

NO

NO
NO

NO

NO

NO
NO

NO

NO

NO
NO

NO

NO

NO
NO

NO

NO

NO
-------
SEATTLE
UN
CM SKGO
nuurwr	units	io«ii
CQCKCtlXiaNtklMBCIMXEtlUJUIftk

IIIOCHCMICAL OXVCCN OEM NO
*6/L
JM.f
CHEMICAL OIKtN OENANO
MC/L
S7S.O
TOTAL ORGANIC CAMBON
MC/L
NS
NOM-PAAriCULATE TOC
MC/L
190.O
TOTAL SOLI OS
MC/L
1360.0
IClTAL VOLATILE SOLIOS
MC/L
40S.O
TOTAL VOL SITS SOLI OS
MC/L
9O.0
TOTAL SUSPENOEO SOLIDS
MC/L
141.0
TOTAL VOL DIS SOLI OS
MC/L
307.0
tor«C OtSSOLVEO SOL IDS
MC/L
1220.O
sctileaole solids
ml/l
3.3
ct«.onioc
MC/L
JSO.O
AMM0NI'< N< ¦ MOOEN
MC/L
S.O
total phenol
UG/L
22.0
OIL AND MEASE
MC/L
• 02.0
MLTAL5


antimony
UC/L
S.0 lt
AOSCN1C
UC/L
2S.O LT
UERVLLlUN
UC/L
1.0 L?
CAOttlUM
UC/L
230.O
Chromium
UC/L
700.O
copper
UC/L
13*0.0
LEA0
UC/L
30.0 LT
HCRCURT
UC/L
.3 LT
NICKEL
UC/L
2*20.0
SEL&NIUM
UC/L
2S.O LT
SILVER
UC/L
i.e
thallium
UC/L
10.0 lt
line
UC/L
2*10.O
Qf MFBS


CTANIDE
UC/L
3*00.0
ALUMINUM
UC/L
ISAO.O
1MIUN
UC/L
60.O
ttOMON
UC/L
370.0
CALCIUM
UC/L
3*200.0
lt • less than
cr » CMUfn TMM
NO « NOT qetcctco
ns * not sampled
pollutants not listco
¦ERE NOT OCTECrCO
table e-os
•A.	DRV MEATHER COMPOSITE
MICH	LAN
OS BKCO	TAP i*TM
10912	inn
106.0
215.0
57.5
NS
3*6.0
131 .0
3J.0
*3.0
99.O
303.0
1.0 LT
16.0
*.*
s.o
27.0
• .0 LT
2S.0 LT
S.O LT
NS
05.0
26.0
*.0
4.0
2*. O
Bt .0
1.0 LT
3.7
1.0 LT
9.0
S.O LT
S.O
LT
S.O
LT
25 .0
LT
25.0
Lt
(.0
LT
1.0
LT
ll»O.0

S.O
LT
3*.0

10.0
LT
60.0

SO.O

SO.O
LT
50.0
LT
.3
LT
.3
LT
SO.O
LT
SO.O
LT
25.0
LT
2S.0
LT
3.6

.4
LT
10.0
LT
10.0
LT
• 30.0

110.0

140.0
20.0 LT
7TO.O	so.o
22.0	10.0 LT
tao.o	20.0 LT
20*00.0	tm.e
-------
SEATTLE.


L«N


OW OKCO
pollutant
UNITS
10^11
cobalt
U6/L
5.0 LT
IRON
U6/L
*790.0
MAGNESIUM
wc/u
21100*0
manganese
UC/L
3SO.O
MOLT606NUM
UC/L
10*0 lt
SOOIUM
UC/L
292000.0
TIM
UC/L
30.0 LT
T ITANIUM
UC/L
50.0 LT
VANADIUM
UC/L
5.0 LT
vvrmuN
UC/L
9.0 LT
VOLATILE OAGAfilCS


imoMOFcyiM
UG/L
IJ.O
CHLOBOFOOM
UC/L
26.0
TOLULNfc
UC/L
24.0
SCN2CMC
UC/L
12*0
efHrLttCNlCNC
UC/L
NO
«CT»«TLCNC CM. Oft IOC
UC/L
120.0
it faA04.oiaer»«K
UC/L
NO
i. i - o i CHLoaoe tmanc
UC/L
40*0
c•1•2-TRICHLOAOCThANC
UC/L
16*0
? «i c HLoaoe ftc mc
UC/L
41.0
Stn 1 -.YOLAT1LC , BASCltfClfTBALS.


stmmnULt ttlD,
OKMOL	UC/X.	?.•
et>ric>nt.ti«ic»n
lt > less than
CT a CHUTE* THAN
NO > NOT octecteo
M ¦ MOT SAMPLCO
pollutants not listed wtme not oetectco
table C-05
•a.	oe» we atHen composite
MICH
oa axcp
I0VI2
5.0 LT
7SOO.O
1*0.0
10.0 lt
3A6O0.O
JO.O LT
30.0 LT
5.0 LT
9.0 LT
LAN
TAP MATER
IMIJ
9.0 LT
263.O
070.O
io.o lt
10.O LT
2000.o LT
30.O LT
50.0 LT
5.0 LT
9.0 LT
NO	NO
ia.o	no
74.0	NO
NO	NO
«.0	NO
110.9	NO
IJ.O	NO
NO	NO
13.a	no
34.0	NO
IS.*
-------
SEATTLE
LAW
W 8KGD
PQILVTMT	UNITS	*0914
totfttta lQ*&L£»QaCQtiXtHT t OttftL

SIOCHgMICAL OXYGEN DCmaNO
MG/L
265*0
CHCMSCAC OXVOE.N OEMAMO
MQ/L
Sll.O
TOTAL ORGANIC CARSON
MG/L
175.0
nom—particulate toc
MG/i.
NS
total solids
MG/L
TfO.O
TOIAL VOLATILE SOLIDS
MG/L
305.0
TOTAL VOL SUS SOLIDS
MG/L
124.0
total suspended solids
»H1/L
143.0
total vol ois solids
MG/L
IMift
total dissolveo solids
MG/L
5*7.0
scttleable SOL IOS
IL/L
4.0
CILOOidE
MG/L
120.0
AMMONIA NITROGEN
m«/l
5.4
total phenol
UG/L
25.0
OIL AND CREASE
MG/L
25.0
f»FTAt-4


ANTIMONY
UG/L
5*0 LT
ARSENIC
UG/L
2S.O LT
bERVLLlUM
UG/L
l»0 LT
CA0KJU*
UG/L
rie.p
CHROMIUM
UG/L
250*0
COPPER
UG/L
76. 0
LE AO
UG/L
*••0
MERCUR*
UG/L
• J LT
NICKEL
UG/L
so.o lt
SELENIUM
UG/L
25*0 LT
SILVEN
UG/L
.5 LT
rtfALl I UN
UG/L
IO.O lt
/INC
UG/L
200.0
OT«CR& ,


cvanioe
UG/L
20.0 LT
ttQttCOEtttiaiQtlALJieiALS	

ALUM I MUM
UG/C
490.0
OARtUN
UG/L
36*0
eoftON
UG/C
550.0
CALCIUM
UG/L
24OO0.O
LT * USS THAN
GT ¦ CffCATCR TMAM
MO * HOI oeTECTCO
NS ¦ MOT SAM»LED
POLLUTANTS NOT LISTED
veM NOT DETECTED
taole c-m
WU	ST OWN EVENT ONE
LAN

L*N

LAN

LAN

LAN

CSf

CSQ

first flush
RUNOFF

MEC IP

10915

10916

10917

1091ft

1 002%

1 JO.O

124.0

120.0

30.0
LT
JO.O
LT
297.0

346.0

355.0

166.0

25.6
LT
103.0

III.O


NS

NS
6.0


NS

NS
73*5

11 .5


NS
446.0

486.0

470 .0

te?.o

10.0
LT
I63.0

IA7.0

190.0

44.0

10.0
LT
65. O

64.0

75.O

1*.0

A .0
LT
121.0

131.0

161.0

1 1 3.0

« .0
LT
IM.O

129.0

1 06.0

32.0

10.0
LT
31ft.0

350,0

313.0

69.0

10.0
lt
1 .0
LT
1*0
LT
1.0
LT
1 .0
LT
I .3
LT
65.0

ot.o

T7.0

4.0

1 .0

2.*

2.2

3.?

•V

• 1

25.O


NS
30 .0

7.5

7.5

a.*

20.5

14.0

7.5

19.0

5.0
LT
5.0
LT
5.0

1 1.0

5.0
LT
25.0
LT
25.0
lt
25.0
LT
20.0

29.0
LT
1 *0
LT
1.0
LT
1 .0
LT
1.0
LT
1 .0
LT
446.0

75*0

95.0

5.0
LT
5.0
LT
*20 *0

510.0

520.0

26.0

IO.O
Lt
350.0

350*0

420.0

61.0

10.0
L*
140.0

140*0

2 00*0

330.0

50.0
I T
• J
Lf
*3
LT
.3
LT
.3
LT
• 3
LT
55O.0

540*0

6IO.0

50.0
LT
50.0
lt
25.0
LT
25*0
LT
25.0
LT
25.0
LT
25.0
LT
1*4

1 .4

2*0

2.0

.5
LT
10.0
LT
10*0
LT
10.0
LT
10.0
LT
10.0
LT
1650.0

1610.0

1900.0

280.0

IO.O
Lf
IJOO.O

2J00«0

32 00.0

20*0
LT
20.0
LT
32IO.O

J42O.0

4760 a O

4200.0

160.0

M.O

69.0

09.0

160*0

10.0
LT
270.0

220*0

240.0

27.0

20.0
LT
13400.0

13600.0

13200.0

13100.0

2020.0

-------
scArne*


LAN


UN 8KG0
POLLUTANT
UNITS
1 0914
COttALT
U6A.
S.O LT
IB ON
UCA.
J490*0
NAtNESfUN
UG/L
0350*0
NANGANESC
lA/L
270* O
NGLV&OE NUN
UG/L
10.0 LT
SODIUM
tlG/L
09000*0
tin
UG/L
63*0
TITANIUM
U&A.
50.0 LT
VANAOtUM
UG/L
5.0 LT
yttrium
UG/L
S.O lt
MQLitlLfe-PMAIilCi	,-1M


TOLUENE
UC/L
29.O
BENZENE
UC/L
0*0
ETMTLKHKMC
UC/L
a.o
metmvlene caoniac
UC/L
24*0
TE T NACMlQMOEThEME
UG/L
24 *D
1 • t. I-TRICNLQROETMAMC
UO/L
NO
TRANS* | •2">0 ICHLOROETHENE
UC/L
660*0
TRJCMLOROE ThENE
UC/L
440*0
5E*1-VOlAHlE BASg/NElJTRAl*

BtSt 2**E1MVLHEXVL )PHT«ALATC
UC/L
19*0
SMiyDL#TELC ACID	,


2 »4«0 ICMLODOPMENOL
UC/L
17*0
2*4-Dt NEINVLPmENOl
UC/L
ND
PHENOL
UG/L
NO
etancipt,fcnxg*cuam	


it * cess Than
GT a GREATER THAN
NO * NOT DETECTED
NS • NOT SAMPLED
pollutants not listed
•C*E NOT DETECTED
TaDLE
*4.	STORN EVENT ONE
LAN
csr
1091)
s#o lt
M00»0
UJ0»0
tYO^O
IO.O LT
44*0ft«O
30*0 LT
160*0
«,0
5*« LT
LAN
cso
ICWlA
5.0 LT
7060*0
4540*0
J70.0
10*0 LT
*6600.4
30.0 lt
ieo.0
to*o
s*o lt
LAN
first flush
I
-------
SCATTtC.
MICH
«« WOO
pollutant
UNITS
10919
CQSCtEHl lQW«.*«QM&QB3ttlg.lflMak

BIOCHEMICAL OXYGEN OEMANO
MG/L
70*0
CHEMICAL OXYGEN DEMAND
MG/L
231*0
TOTAL ORGANIC CARBON
MG/L
04 .5
NON-PART1CULATE TOC
MG/L
NS
total SOLIDS
MG/L
337*0
TOTAL VOLATILE SOL 1 OS
MG/L
116*0
total vol sus socioo
MG/L
71 ,0
total suspended solids
MG/L
A9*0
total vol dis SOL 1OS
MG/L
76.0
total dissolvco SOL 10$
MG/L
248.0
StTTLCABLE SOLIDS
ml/l
3.0
chloride
MG/L
21.0
AMMONIA NITROGEN
MG/L
4,2
TOTAL PHENOL
UG/L
37,5
OU AND GREASE
MG/L
20.0
HFT4LS


ANTIMONY
UG/L
5*0 LT
ARSENIC
UG/L
25,0 LT
UERVLLIUM
UG/L
1*0 LT
cadmium
UG/L
5*0 LT
Chromium
UG/L
50,0
COPPER
UG/L
40,0
LEAD
UG/L
50*0 LT
MERCURY
UG/L
*3 LT
NICKfL
UG/L
50,0 LT
SELENIUM
UG/L
25,0 LT
SILVER
UG/L
4,0
thallium
UG/L
10.0 LT
Z1HC
UG/L
140,0
OTHERS


cyanide
UG/L
26.0
*OwCPt*YEMiOHf*-,.*f£TAi_*


ALUMINUM
UG/L
950.0
OARfUM
UG/L
25,0
DOR ON
UG/L
200,0
CALCIUM
UG/L
18400,0
I.T « LESS THAN
CT * GREATER THAN
MO * HOT detected
HS * NOt SAILED
POLLUTANTS NOT LISTEO *£f*E NOT OCTECTtO
TABLE C-06
«A«	STORM EVENT ONE
MICH	MICH	MICH	«ICH
CSF	CSO	FIRST FLUSH	RUNOFF
4 0120	10921	10422	10923
JO. 0
161 .0
J9.0
187.0
7J.O
34.0
42-0
~ 7.0
97.0
I .0
3.0
t*t
37.5
6.0
LT
JO.O
07.0
JO. 5
NS
163.0
92 *0
26.0
77.0
66* 0
87,o
I .0 LT
I .0
1.1
190.0
I J.5
30.0 LT
153.0
NS
21 .0
191.0
67.0
45.0
na.o
23.0
73.0
1.0
3.0
.9
450.0
10.0
JO.O LT
161 .0
NS
13.0
232.0
61.0
44.0
I <>9.0
25.0
63.0
I .0 LT
J.O
.2
7.5
15.3
5*0
LT
5*0
LT
S.O
LT
1 A . 0
25 .O
LT
25.O
LT
25.0
LT
35.0
1 .0
LT
t*o
LT
1.0
LT
t .0
5*0
LT
5,0
LT
S.O
LT
5.0
10.0
LT
30.0

40.0

30,0
10,0
LT
40,0

50,0

120.0
160.)

120,0

190.0

460,0
• J
LT
• 3
lt
.3
LT
.3
50.0
LT
50,0
LT
50.0
LT
50,0
2S.J
LT
25.0
LT
25.0
LT
25.0
1*3

3*8

1*4

.5
10,0
LT
10.O
LT
10.0
LT
10.O
190.0

160,0

220.0

390.0
20*0 LT
20«0 LT
20.0 LT
20.0 LT
3130*0
40*0
50*0
9690*0
2130.0
30.0
60.0
8940.0
30O.O
5O.O
60.0
9090.0
55 10.0
I 10.0
20.0
12000.0
-------
SCAirtE,
POUUTANr
UNITS
MICH
«W BtCCO
10419
CO*ALT
IRON
MACNeSlVM
MAMCANfcSC
NOtyooeNUM
MIOIUN
tin
TITANIUM
VANADIUM
YTTRIUM
UC/L
OC/l
uc/l
UO/L
UG/L
UC/L
UC/L
UC/L
UC/L
UC/L
5.© IT
2710.0
639O.0
t 70.O
10.0 LT
30S00.0
30.0 LT
90.0 LT
5*0 LT
SO LT
KOLA I ILE_03&AII1C&	
CHLOROFORM
TOLUkNt
METHYLENE, CHLORlOe
TE THAtHLMOE Th£NC
I•I.i-iricmlorocthanc
TttlCHl(MtfTHCNC
UC/L
UC/L
UC/L
UC/L
UC/L
UC/L
MO
13.O
29S.O
NO
NO
200.0
I Sfc*LL=XQLAlU&_fiA&E£t£UZB&k&_
JJ RI S( 2-C THrLHCXVL ) PMlHALAfe UC/L
*£41K0LAI1L&_AC1Q..
2.A-0IM£fHTCPH£N0L
PM£N0L
UC/L
U6/L
13*0
la.o
IS.©
IT i LESS THAN
CT m G9CATER THAN
NO * NOT DC T£C TCO
NS a NOT SAMPLED
pollutants not listed
MfiHC MOV DETECTED
TABLE C-06
MA.	STORM EVENT ONE
M|CM
CSF
10920
MICH
CSO
IOV2I
MICH
FIRST FLUSH
I 0922
MICH
RUNOFF
I 092 J
5.0 LT
4030.0
33*0.0
110.0
IO.O LT
11000.0
30.0 LT
teo.o
5.0 LT
r*.0 Lf
%o lt
3A6O.0
2620.0
90*0
IO.O LT
6*70.0
30.0 Lf
lOO.O
*.0 LT
9.0 LT
S.OLT
svto.o
30 IO.O
I 10.0
IO.O lt
S?ao.o
JO.O LT
220.O
S.O LT
s.o lt
5.0 LT
4960.0
2S70.0
160.0
IO.O LT
2000.0 LT
30.0 LT
3*0.0
20.0
5.0 LT
9.0
*2.0
7.0
13*0
96«0
NO
S.O
41 .0
9.0
16.0
120.0
NO
32.0
NO
NO
NO
<1.0
37.0
«.0
13.0
100.0
NO
NO
NO
NO
NO
NO
NO
200.0
NO
NO
NO
NO
-------
KArm
POLLU TANT
units
LAN
mm 0*G©
ao^2S
£smeiaiatt4v£Muutt3EtfliimaL
• IOCM(M|CJIL DXVCCN DC MA NO	NG/L
CtCNtCAL OXYGEN DC MA NO	HC/l
TOTAL OffUNlC CARBON	MG/L
TOTAL SOttOlk	MG/U
TOTAC VOLAriLf SOLIDS	MC *L
TOTAL VOL SOS SOLIDS	MG/L
TOTAL SUVEWED SOLIDS	MG/L
TOTAL VOL DIS SOLIDS	NC/L
TOTAL DISSOLVED SOLIDS	*G/L
SC1TUABU SOLIDS	ML/L
CHLORIDE	HC/L
ammonia nirno&EN	mg/l
total PH£NOL	w>/l
OIL AHO 6ACA5C	MG/L
100*0 lt
125.O
70*0
3***0
• 66*0
S*.0
05*0
!!*••
231-0
l.tt LT
44i0
i.e
ST.O
is«o
eeiAkL
O antinomy
^ ARSENIC
K> UEftTLLlUH
CAOMIU*
CHPOMIUN
COPPER
LE AO
NEACURT
NICKEL
SELENlUN
SILVER
thallium
XINC
UGSL
UGA
UG/L
UG/L
UG/L
UG/L
UG/L
OG/L
UG/L
UG/L
UG/L
UG/L
UG/L
5«
««
i«
5<
*»«
ISO.
MO<
¦
5.
I<
10.
JIS.
o lt
o
• IT
0 LT
0
,»
,0
3 LT
o
« LT
o LT
O LT
.0
Qit&as-
C«MIDE
OG/L
20.0 LT
ALUMINUM
BAUlUN
BORON
CALCIUM
COBALT
UG/L
U6/L
UC/L
V6/L
MA.
2100.0
S4-0
*4.0
I 7400.0
>.« 4.1
LT J Less THAN
CT a CMC ATE ft THAN
NO m NOT MKC1ED
MS * NOT SAMPLED
POLLUTANTS Nor LISTCO
HEME not bctcctcd
tablc c-o r
ma.	sro«M eve NT Two
LAN
CS'
IM2«
ts.o lt
I3S.0
73.0
163.0
•0.0
• SI .0
ax.o
2O3.0
2. 9
120-0
I .2
67.0
6.0
LAN
cso
IMiT
7S.0 LT
140.0
05.0
MO.t
123.0
•4.0
at .0
79.O
359.0
• .4
107.0
1.7
If. 0
6.0
LAN
FIRST FLUSH
t 0920
79.0 LT
2*0.0
79.0
tsa.o
129.9
SS.O
90.0
74.0
360.0
1.0 LT
146.0
2.0
IO.0
II. O
LAN
runoff
10929
12.0 LT
120.0
JS.O
111%.0
7 ,.0
20.0
I 02.0
42.O
02.0
.4
2.0
1.0 LT
7.5
6.0
CAN
««iecip
12.0 LT
73.0 LT
7.S
16.0
M.O
4.0
4.0
IO.O
12.0
I .0 LT
I .0
I .O LT
10.0
S.O LT
9.0 LT	S.O	S.O LT	S.O	S.O LT
20 #0	Itt.O	|9.0	20.0	6.0
1.0 LT	1.0 LT	1.0 LT	2.0	;.0 LT
5.0 LT	3.0 LT	S.O LT	3.0 LT	S.O LT
27.0	37.0	JO.0	21.0	10.0 LT
JOO.O	250.0	100.0	100.0	10.0
2S0.0	220.0	210.0	330.0	5O.0 LT
.3 L*	.3 LT	.3 LT	.3 LT	.3 LT
30.0 LT	60.0	97.0	50.0 LT	SO.0 LT
S.O LT	S.O LT	S.O LT	S.O LT	S.O LT
1.0 LT	1,1 LT	1.0 LT	¦.O LT	I.0 L T
10.0 LT	10.0 LT	to.o LT	10.0 LT	10.0 LT
3*0.0	360.0	320.0	34C.O	»1.C
20.0 LT	20.0 LT	2O.0 LT	20.0 LT	20.0 LT
2010.0	2660.•	22S0.0	3940.0	140.0
62.0	6I.O	SS.O	100.0	10.0 LT
72.0	44.0	6«.0	20.0 LT	20.0 LT
13000.0	14200.O	16300.0	15200.o	S250.0
S.O V.T	S.O LT	S.O	S.O LT	S.O LT
-------
r«0L£ c-#f


seatile*
VA.

SToftft eveNT
• mo








LAN
LAN

LAN

LAN

LAN

LAN



«« e/Go
CSF

cso

FIOST FLUSH
RUNOFF

phec t»

raUUTINt
UNITS
low
10426

1042/

10926

10924

109 J?

IRON
UG/L
3?90»o
4&JO.O

47*0*0

*080.O

6000.0

1 TO.O

MAGNESIUM
U6/L
3000*0
3000.0

2900.0

2tt90.0

iaoo-0

40.0

MANGANESE
UG/L
110*0
110.0

120.0

1 to .0

100.0

10.0
LT
NOLT6KHUM
UG/L
10.0 lt
10.0
LT
lO.O
LT
10.0
LT
10.0
L*
10.0
LT
SODIUM
UG/L
42900*0 LT
92900.0

jorooo.o

113000.0

2020.0

2000.0
LT
TIM
UG/L
30*0 LT
30.0
LT
30.0
LT
30.0
LT
30.0
LT
30. 0
LT
TI TAN! (Jit
UG/L
90.0
110.0

120.0

100.0

200.0

4.0
LT
VANADIUM
UG/L
r«o
9.0

10.0

15.0

18*0

5.0
LT
VTTftlUM
UG/L
so lt
9*0
LT
9.0
LT
5.0
LT
5.0
LT
5.0
LT
xoLAtimkaoLutzi	












methylene cmloatoe
UG/L
NO

NO
34.0


NO

NO

NO
TR1 Cm.OKG£ IHCfC
UG/L
NO
13.0


NO

NO

NO

WD
asaixxQwfttii^-fl^senievTBflua,











01 -N-BUTTL PHTNAL ATE
UG/L
NO

N0

NO

NO
4* « 0


NO
ieaixaiAUcc-fltia	
resiicioc maaciABit:
o
IO
W LI •	LESS THAN
OT m	GACATER TfUN
NO ¦ MOT DETECTED
N$ • MOT SAMPLED
POLLUTANTS NOT LlSTCO «« HOT OETCCTEO
-------
SEATTU
MICH
M BfCGD
POLLUTANT
UNITS
10930
Cffii*MIlQaAL*bQWtQM¥£bIlQti&L

BIOCHEMICAL OXYGEN DEMAND
MG/L
as.o
Chemical oxygen demand
MG/L
250.0
TOTAL ORGANIC CAR8QK
MG/L
100.0
TOTAL SOLI OS
MC/L
219.0
TOTAL VOLATILE SOLIOS
MG/L
134.0
TOTAL VOL SUS SOLIOS
MG/L
AT.O
total SUSPENDED SOLIOS
MG/L
73.0
TOTAL vol PIS SOLIOS
MG/L
87.O
TOTAL DISSOLVED SOLIOS
MG/L
IA6.0
SETrLEAo«_t SOLIOS
ml/l
t.O lt
CHLOtlOC
MG/L
B.O
AMMONIA NITROGEN
MG/L
1.9
total phenol
UG/L
48.0
OIL AND GREASE
MG/L
9.0
MFTALS


ANTI MONT
UG/L
S.O lt
ARSENIC
UG/L
16.0
BERYLLIUM
UG/L
1*0 lt
CADMIUM
UG/L
3.0
CHROMIUM
UG/L
180.0
COPPER
UG/L
66*0
LEAD
UG/L
180.0
MERCURY
UG/L
#3 LT
NICKEL
UG/L
so.o lt
SELENIUM
UG/L
S.O lt
SILVER
UG/L
I.a
thallium
UG/L
IO.O lt
ZINC
UG/L
240.0
HTHCRS


CYANIDE
UG/L
20.0 lt
ALUMINUM
"~UG/L
1470.0
BARIUM
UG/L
S6.0
BORON
UG/L
43.0
CALCIUM
UG/L
1A1O0.0
COBALT
UG/L
S.O LT
LT * CCSS THAN
or t create* than
NO * NOT DETECTED
NS * HOT SAMPLED
POLLUTANTS not LISTED	NOT OCTCCTEO
TABLE C-07
VA«	STORM EVENT TMO
MICH	MICH	MICH	M|CH	LAN
CSF	CSO	FIRST FLUSH	RUNOFF	PRECIP
I09JI	I09J2	109JJ	1093%	I09JS
7J.0
88.0
01 *0
IB2.0
125.0
AS* 0
68.0
ttO.O
II4.0
1.0 lt
7.0
1.5
*9.0
10.0
77.0
130*0
77.0
189.0
ItO.O
*5.0
83*0
64.0
102.0
2*6
7.0
1.3
75.0
7.0
72*0
250,0
77.0
100.0
105.0
51.0
73.O
54.0
107.0
K.O LT
8.0
1.6
77.0
7.0
12.0
I 30.C
52.0
228.0
85.0
4 1.0
155.0
44.0
73.0
I .0 LT
4.0
1.0 LT
16.0
17.0
12*0 LT
25.0 LT
7.5
16.0
14.0
4.0
4.0
IO.O
12.0
1*0 LT
I .0
I .0 LT
10.0
5.0 LT
S.O	5.0 LT	5.0 LT	b.O	5.0 LT
12.0	10.0	12.0	2*.0	6.0
1.0 LT	1.0 LT	1.0 LT	t.O LT	1*0 LT
7.0	7.0	T.O	5.0 LT	S.O Li
300.0	220.0	240.0	29.0	10.0 LT
60.0	63.0	57.0	1*0.0	10.0
210.0	200.0	180.0	490.0	50.0 LT
.3 LT	.4	.3 LT	.3 LT	.3 LT
50.0 LT	50.0 LT	50.0 LT	50.0 LT	SO.Q LT
S.O LT	S.O LT	S.O LT	5.0 LT	5.0 LT
1.0 LT	I .t	1.0 LT	1.0 LT	t.O LT
10.0 LT	tO.O LT	10.0 LT	10.0 LT	10.0 LT
220.0	220.0	200.0	440.0	45.0
20*0 LT	20.0 LT	20.0 LT	20.0 LT
1500.0	1870.0	1520.0	S620.0	140.0
43.0	49.0	47.0	440.0	10.0 LT
41.0	51.0	37.0	20.0	LT 20.O LT
1320O.0	12000.0	13200.0	16200.0	5250.0
S.O LT	S.O LT	S.O LT	S.O	5.0 LT
-------
SEATTLE
pollutant
IRON
MAONCSIUM
MANfeANCSE
MOi VOOENUM
SODIUM
tin
rITANIUM
MANAOIU*
*n»iun
xuvaiitC-08fi&bl
TOLUENE
NETHVUNC CMLORIOC
I.I.1-TRfCHLOROETMANE
TRICM.OROETHEN6
uni rs
UC/L
UC/L
U6/L
UG/t
U6/t
UC/L
UC/t
UC/L
UC/L
UG/t
UG/C
UC/L
UC/L
MICH
»« a«oo
109 JO
2SQ0.0
2190.0
76.0
10*0 LT
6760.0
30.0 Lt
62.0
7.0
S.O LT
NO
NO
NO
?
to
l/l
SLai=YOUUltE .BASECf.0 LT
S.O Lt
LT
LT
LT
27.O
2 30.0
64.O
• O.O
19.0
340.0
AS.O
AI .0
27*0
200.0
70.0
3A.O
NO
NO
NO
NO
NO
NO
NO
NO
-------
SEATTLE
POLLUTANT
UNITS
LAM
MV 8XCO
IQ936
BIOCHEMICAL OXYGEN OCNANO MC/i.
CHEMICAL OKVGCN DENAND	NG/L
TOTAL ORGANIC CARSON	MG/L
NOM-PARTICULATE TOC	NG/L
TOTAL SOLIDS	ng/l
TOTAL VOLATILE SOLIDS	NG/L
TOTAL VOL SUS SOLIDS	NC/L
TOTAL SUSPEtOEC SOLIDS	NC/L
TOTAL VOL DtS SOLIDS	NC/L
total dissolved solids	ng/l
SETTLEABLE SOLIDS	"L/L
CM.ORIK	NG/L
AMMONIA NITROGEN	NG/L
TOTAL PHENOL	UG/L
OIL ANO GREASE	NG/L
140*0
540.0
90.0
246*0
160.0
306*0
66*0
191.0
4*0
40*0
3.0
32.0
JS.O
MS
0
1
to
o*
is&iaws	
ANT INONY
ARSENIC
BERYLLIUM
CADMIUM
CHRONIUM
COPPER
LEAO
NERCURV
NICKEL
SELENIUM
SILVER
THALLIUM
ZINC
UG/L
UG/L
UG/L
UG/L
UG/L
UG/L
¦IG/L
UG/L
UG/L
UG/L
UG/L
UG/L
UG/L
9*0
22.0
1.0 LT
15.0
190*0
2J40.0
620*0
3.2
110*0
10*0 LT
3. I
5.0 Lt
1160*0
QIB&8S-.
CVANlOE
UG/L
NOHfO^fflpMAL NgTALS
ALUMINUM	UG/L	7940*0
BARIUM	UG/L	I9O.0
BORON	UG/L	56*0
CALCIUM	UG/L	15600*0
LT s LESS TNAN
GT * GREATER THAN
NO s NOT DETECTED
MS S Mor SAMPLED
POLLUTANTS NOT LISTED MERE NOT DETECTED
TAOLC C-Oft
VA*	STOI
three
LAN	LAN	LAN	LAN	LAN
CSP	CSO	FIRST FLUSH	RUNOFF	PRECIP
10937	I0<» 36	10939	|09*0	tO<»46
130*0	69*0	390*0	15.0	LT 15.0 LT
330.0	170.0	690.0	160.0	2S.0 LT
NS NS NS	NS	T.5
78.0	63.0	2JO.O	23*0	NS
603.0	2A3.0	927.0	264.0	22.0
314.0	I3A.0	321.0	156* 0	20.0
177.0	46.0	S9.0	62.0	*.0 LT
267*0	139.0	Sfel.O	215.0	7.0
137.0	90.0	262*0	7«.0	20.0
316*0	144.0	766.0	49.0	15*0
1*0 LT	1.0 LT	1*6	1*0	UT 1.0 lt
26O.0	66.0	63O.0	*.6	3.2
3.0	2.4	6.1	1.0	LT t.O LT
23.0	25.0	38.0	20.0	t*.0
17.0	11.0	46*0	5*0	10.0 LT
5.0 LT	5.0	5.0 LT	5.0 LT	5.0 LT
330*0	10.0 LT	10*0 LT	10.0	10.0 LT
1.0 LT	1.0 LT	1*0 LT	1.0 LT	1.0
6.0	5.0	5*0 LT	5.0	*>.0 LT
SS.O	43.0	52.0	39.0	10.O LT
900*0	770*0	4*0.0	91.0	tO.O LT
390.0	390.0	260*0	410.0	50.0 LT
.6	*4	*6	.4	. 3 LT
140.0	140.0	69.0	50.0 LT	50.0 LT
10*0 LT	IO.O LT	10*0 LT	10.0 LT	10.0 LT
*6	*6	*7	.5 LT	.5 LT
5.0 LT	3.0 LT	5.0 LT	5.0 LT	5.0 LT
520.0	460.0	390.0	440.0	35.0
64*0	45.0	120.0	20*0 LT	20.0 LT
4320.0	3060.0	2030.0	6310.0	• 79.0
<14*0	79.0	61*0	110.0	10.0 LT
44*0	45.0	120.0	27.0	20.0 LT
12400*0	10400.0	I59OO.0	10500.0	2060.0
-------
SCATTU
POLLUTANT
UNITS
LAN
M BXGO
1093b
CQ9ALT
IRON
MAGNESIUM
MANGANESE.
MOLYBDENUM
SODIUM
TIN
TITANIUM
VANAOIUM
yttrium
U6/L
UG/L
U6/L
UG/L
UG/L
UC/L
UG/L
UG/L
UG/L
UG/L
*•0 lt
13500.0
45*0.0
200.0
13.0
22200.0
33.0
*60.0
23.0
5-0 LT
*QLAlU£_08fiatfl
Tfc TRACHLORQEThENC
ug/l
6.2
?
N>
a£*i= XQLAIiL£-&ASCaCli£fi&L*~
phCnant hqene	ug/l
I .A-OICHLOROBENZENE	UG/L
Ot-N-OCTVL PHTHALATC	UG/L
NAPHTH»4.EN£	UG/L
D1S* 2~£THYLHEXYL)PHTM*LATC	UG/L
OI-N-BUTYL PHTHALATC	UG/L
2.0
2.0
2*0
2.0
15.0
2.0
S£*1K0L&£1LE-A£H
«-CHLORO-J~NETHrLPH£NOL	UG/L
2*4-OI»CTHrLPH£NOL	UG/L
PHENOL	UG/L
26.0
ND
5.0
f*e g r i c i pe-t&ia&ci&atea
PC8-10S6
3.3
LT t LESS THAN
Or a GREATER THAN
NO * NOT OETECTCO
MS • NOT SAMPLED
POLLUTANTS NOT LtSTCO
WERE NOT OCTECTEO
TAOLE C-0«
¦A.	STORM EVENT THREE
LAN
CSP
10937
5*0 LT
71bO.O
6320.0
130.0
10.0 lt
60600*0
30,0 LT
2 (>0.0
e.o
S.O LT
LAN
CSO
IOVM
5.0 LT
6450.0
2520*0
120.0
10.0 LT
24800.0
30.0 LT
230.0
12.0
5.0 LT
LAN
FIRST FLUSH
I09J9
5.0 LT
5390.0
IIJOO.O
I 30.0
10.0 LT
134000.0
' 30.0 LT
160.0
5.0 LT
5.0 LT
LAN
RUNOFF
104*0
5.0
104 00.0
2630*0
100.0
10.0
2170.0
30.0
360*0
l r.o
S.O LT
LT
LT
LT
LAN
PREC IP
I0<>46
S.O LT
»*O.0
41 .0
10.0 LT
10.0 LT
20 00.0 LT
30.0 LT
50.0 LT
S.O LT
5.0 LT
19.0
T.5
9.0
NO
2.0
2.0
2.0
2.0
1.0
6*0
NO
I .6
9.0
1.0
4 .0
1.0
2.0
I.O
4.0
6.0
NO
NO
NO
NO
6.0
r.o
NO
NO
NO
NO
J.O
66.0
7.0
6.0
37.0
NO
14*0
S.O
4*0
NO
7.0
4.0
9.0
12.0
7.0
1.3
2*6
NO
-------
SEATTLE.
MICH
¦V GKG8
POUUr*NT	UNITS	10941
CDMlfEbllQbAUiNQHCOltVEMtlQKAl.
BIOCHEMICAL OXTCEN CENANO M6SL	69.0
CHEMICAL OXTCEN OEM AND	MGSL	220.0
TOTAL ORGANIC CARBON	NG/L	NS
NON-PAPTICULATE TOC	»0SL	34.0
TOTAL SOLI OS	MG/L	2114.0
TOTAL VOLATILE SOLIDS	MG/L	132.0
TOTAL VOL SUS SOL IDS	NCSL	74.0
TOTAL SUSPEWED SOLIDS	MO/L	224.0
TOTAL VOL DIS SOLIDS	«/L	50.0
TOTAL OISSOLVEO SOLI OS	MG/L	60.0
SETTLEAOLE solids	mlsl	3.2
CHLORIDE	MG/L	«• I
AMMONIA NITROGEN	MG/L	2.0
TOTAL PHENOL	UG'L	16.0
OIL WO GREASE	MG/L	10.0 LT
BtlALS	


ANT IWON*
UG/L
S.O LT
ARSENIC
UC/L
IO.O LT
®Enruiu*
UG/L
i.o lt
TAOMIUM
UC/L
S.O LT
Chromium
UG/L
34.0
COPPER
UG/L
31.0
LEAD
UG/L
SJ.O
MERCURY
UG/L
24.0
NICKEC
UG/L
SO.O LT
SELENIUM
UG/L
IO.O IT
SILVER
UG/L
• a
thallium
UG/L
S.O lt
ZINC
UG/L
120.0
Qld&fiS


CYAN IOC
UG/L
20.O LT
bOtt£QIO£fil£JUttALJI£litS	


ALUMINUM
UG/L
910.0
BARIUM
UG/L
2S.0
BORON
UG/L
23.0
calcium
UG/L
9200.0
LT a LESS THAN
CT * GREATER THAN
NO • NOT OETECTEO
NS ¦ NOT SAMPLED
POLLUTANTS NOT LISTED WERE NOT OETECTEO
TABLE C-08
VA.	STORM EVENT THREE
MICH	MICH	MICH	MICH	LAM
CSF	CSO	FIRST FLUSH	RUNOFF	PPtCIP
109*2	10943	I09««	109*5	IM»6
•1.0	3ft.O	59.0	l«.0	LT 15.0 LT
110.0	110.0	140.0	190.0	25.0 LT
NS	NS	NS	NS	r.S
2S.0	27.0	34.0	22.0	NS
I47.Q	I4S.0	2SI.0	ItJ.O	22.0
97.0	7O.0	101.O	29.0	20.0
JJ.O	37.0	75.0	11.0	4.0 LT
01.0	08.0	179.0	61.0	7.0
64.0	31.0	26.0	13.0	20.0
66.0	S7.0	72.0	S2.0	15.0
1.0 LT	1.0 LT	2.3	1.0	LT 1.0 LT
6.S	B.I	11.0	4.0	J.2
2.S	2.0	3.3	1.0	LT 1.0 LT
16.0	2O.0	22.0	28.0	l«.0
25.0	S.O LT	12.0	9.4	10.0 LT
S.O LT	S.O LT	S.O LT	S.O LT	5.0 LT
|6.0	IS.O	16.0	10.0	LT 10.0 LT
1.0 tT	1.0 LT	1.0 LT	3.0	1.0
S.O L»	S.O LT	S.O LT	S.O	LT 5.0 LT
94.0	Bt.O	96.0	17.0	10.0 LT
S9.0	61.0	79.0	9H.0	10.0 LT
220.0	220.0	200.0	200.0	50.0 LT
1.0	1.0	1.6	.3	.3 L T
SO.O L*	SO.0 LT	00.0 LT	50.0 LT	50.0 LT
10.O LT	IO.O LT	IO.O LT	10.0	LT 10.0 LT
2.6	J.J	3.2	.5 LT	.5 LT
5.0 LT	S.O LT	S.O LT	S.O	LT 5.0 LT
250.0	230.0	320.0	200.0	35.0
20.0 LT	2O.0 LT 2O.0 LT	20.0 LT	20.0 LT
2770.0	2 7S0.0	3130.0	2980.0	79.0
SJ.O	S3.O T|.O	93.0	IO.O LT
37.0	51.0 64.0	32.0	20.0 LT
0520.0	B270.0	9bHO.O	A5J0.0	20H0.0
-------
SEATTLE
poumtmt
UNITS
•* ;CN
WW BKGO
tOHl
COBALT
IRON
nagmcsiun
KANCANCU
NQLVBOENUN
SODIUM
TIM
TITANIUM
VANADIUM
VTTftlUM
UC/L
UC/L
UCA.
UG/L
UG/L
OO/l
UG/L
OC/L
uo/t
UO/t
5.0 LT
tsto«o
1340.0
5a.o
10.0 lT
4170.0
30*0 Lt
72.0
5.0 LT
5.0 IT
XQLAlllC~QBCM»l£*-
reTRACHLORoerM£MC
UC/L
I I • o
0
1
N3
\o
SL3izJfQLAIlLt,BASE^Me urates
I»4~OICHLORQ0ENZENE	UG/L
OI-N-OCTTL PHTHALATE	UG/L.
NAPH?HM.CNC	UG/L
BI Sf 2~£ TWVLHE *TV JPHTM AL-*TC UG/L
OI-N-BUTTV. pmthalate	UC/L
&EaittttLAXiL£.££lQ	
~-CHLOTO-J-HE THVLPHENOL	UG/L
2.4-0|N£ThvLPH£N0L	UG/L
PHtNOL	UG/L
2«0
NO
HO
7.0
3.0
5.0
NO
NO
e&Sll£tML.eftl&A£lAeiE£
LT a LESS THAN
GT « 6DCATEA THAN
NO a NOT OETECTEO
ns ¦ not samplco
POLLUTANTS MOT LISTEO
MERC MOT DETECTED
table c*o«
•A.	STORM EVENT ThRCE
MICH
C5F
10942
S.O LT
420O.O
1780*0
04.0
10.0 LT
4060.0
30.0 LT
lttQ.O
7.0
S.O lt
MICH
cso
109*3
s,o lt
4310.0
IJT70.O
aj.o
10,0
J 330 *0
30.0
I6O.0
5.0
5.0
LT
LT
NIC*
FIRST FLUSH
1094 4
5.0 LT
4(1 70 .0
Iv^o.o
^.0
lO.O lt
4600.0
30.0 LT
210.O
7*0
5.0 LT
«ICH
Runoff
10945
5.0 LT
4H%0.0
14 I0«0
76.O
10.0 LT
2000.0 LT
30*0 LT
I vo • 0
5.0 LT
5.0 LT
LAN
PftEC !P
109*6
5.0 LT
l'»0 .0
41.0
JO.O LT
10.0 lt
2000*0 LT
JO.O LT
Sg.O lt
S.O t_ T
S.O IT
4««0
26.0
NO
NO
NO
5.0
4.0
NO
NO
11*0
1.0
NO
NO
I.O
5.0
t.O
4.0
7.0
I .0
NO
KO
NO
NO
5*0
9.0
5.0
5.0
6.0
5.0
6.0
2.0
6.0
IS.O
9.0
tz.o
7.0
-------
»r •i.outs*
OPANCM
0« OatCO
POUUTAMV	imlfl	11084
LtoattsfZH** vuwBKQtsxzxziomk

BIOCHEMICAL OXYGEN DEMAND
MCA.
54.0
CHEMICAL OXYGEN OEMANO
MG/L
sso.o
T3T AL ORGANIC CAROON
MC/L
*3*0
NO**PAtTICULATC TOC
MG/L
MS
TOTAL SCLIOS
MC/L
726*0
total volatile SOLIDS
MC/L
112*0
total vol SUS SOL1OS
MG/L
42*0
TOTAL SVjPeWEO SOLI OS

ro*o
TOTAL VOL DtS SOL IOS
MC/L
ro*o
TOTAL DISSOLVED SOLIDS
MC/L
6S6.0
SETVLEA0LE SOLIDS
ML/L
1*0 lt
CX.ORIOE
MC/L
124*0
AMMOMt A Ml TAOCCM
MC/L
J.7
total phenol
UG/L
40.0
OIL AMO COCASC
M^/L
IS.O
atlALS..		


antinqnt
UC/L
5*0 LT
ARSENIC
UC/L
S*0 LT
tȣRVLLlU*
UC/L
1*9 LT
CADMIUM
UC/L
S*0 LT
CHROMIUM
UG/L
24*0
CO«t«
UC/L
20.0 Lf
LEAD
UC/L
90*0 LT
MCRCUOV
UC/L
• 1 LT
NICKEL
UC/L
50*0 LT
SELENIUM
UC/L
S.O
SILVER
UC/L
{*0 lt
thallium
UC/L
10*0 LT
2 INC
UC/L
220*0
otmfrs


CYAN IOC
UC/L
20*0 LT
BPUCCttttSai 1 OTjtL.BSIflU	


aluminum
UC/L
640*0
BARIUM
US/L
T|*0
Q0RON
UC/L
120*0
CALCIUM
UC/L
96400*0
iV ¦ LESS THAN
ct s create* tmam
mo * not octccteo
MS ¦ MOT SAIPLCO
POUUfAMTS MOT LISTCO
¦cm mot ocrecrco
nau c-o*
MO	ORT «CATHC« COMPOSITE
PftAlft	MANCM
M BKU»	TA* BATE*
I1005	11006
200.1	9*0 LV
MS«0	W-O Lf
MS	14*9
121*0	MS
U8.I	S22«0
ISJ.O	26.0
*«.0	4*0 Lf
ite.o	«*o
104.O	26*0
550.0	316*0
l.« LT	1*0 Lf
+7*0	21 .O
4*5	1.0 LT
2460.0	5.0 LT
II.O	5.0 LT
S.O LT
9.P LT
t*0 lt
S.O LT
06*0
20*0 LT
50*0 Lf
• 6
120*0
6*0
1*0 LT
10*0 Lf
44*0
S.O
LT
S.O
LT
1*0
LT
s*o
LT
• o.o
LT
20.0
LT
SO.Q
LT
• J
LT
so.o
LT
S.O
LT
1*0
LT
10*0
LT
20*0
LT
I2S*0
20*0 LT
2S20.O
09*0
200*0
5/300*0
40*0 LT
46*0
20.0 LT
2J000«O
-------
r*n.c c-o*
ST.LOU IS. NO	OAT »C*TMtP COM»OStTC


branch

muitf
0OANCH



0« KCO
OV ftKU)
TAP VAVCO
mUffMT
UNITS
llO»«

IIOS5
11096

COOA1.T
OC/U
5.0
IT
5.0 LT
5.0
LT
IHON
uca
IMO.O

3480.O
5O.0

MACKMUM
OC/L
to%oo.o

ZtBOO.O
t*700.0

nangancsc
UG/l
170.0

270.0
10.0
LT
HOLTeOCMUR
UOA.
IO.O
lt
10.0 lt
10.0
LT
SCOIIM
••i/t
I J6I00.9

77300.0
4|500.0

»IN
uc/c
30.O
tT
ito.e
30.0
LT
TITANIUM
UC/L
20.O
LT
«o*o
20.0
LT
VANAOIUH
UG/L
4*0
LT
9«Q
5.0
LT
vrroiuM
UC/L
5.0
L T
5.0 LT
5.0
Lf
YQL&lILC-OBfi&lliCS	






CM.OROFOIM
U6/1
6.7

NO
24.0

roLuCMC
uc/l
1.9

245.0

NO
CTHrLKNZCfK
Ufi/L

NO
311.0

NO
MEfHTUNE CHLONIOC
U6A.


172.0
31 .0

TerftACHLOROeTltftC
UC/L
i.a

NO

NO
1 • 1 ml •*- Tt TAACHLOROCTHAME
UC/L

NO
%•%

NO
TRAWS-I •2-frlCHLOftQCTNCMe
UC/L
2.»

NO

NO
TftlCHLOftOE THE ME
U6/L
3*0

NO

NO
SeoUCQL A IiLE-OftSANlCS	-¦






&ESld(QL&IlU.IU5£afiUtlULL.





01C f HVL^HTHALA re
UG/L

HO


NO
MAPHTHALCN6
UC/L

NO
140.0

NO
ai sl 2-c rHYLNEKn.iPHrHM.Afc
UC/L

NO
40.0

NO
OI-N-SUfVL PHlHACArfi
UO/L

MO


NO
iEHIVQLATItt ACID






2,4'OINETHVLPNeNOL
U6/L

NO
1392.0

NO
PHfHOL
U6/L

NO
1236.0

NO
euiituumiuttixi
tr * LESS TMN
cr * uttrc* than
no * not £>e re cr eo
NS » NOT S*Nt»«.EQ
POLLUTANTS MIT listed
KM NOT DETECTED
-------
Sf.LOMlS.
BAANCH


«• BCGO
POLLUTANT
UM1T4
a 1097


BIOCHEMICAL OArCCN OCMAt
O MCA.
99*6
CHEMICAL OKTCCN OCMANO
MG/L
210.0
TOTAL ORGANIC CARBON
MG/L
NS
non-particul*te toc
MG/L
55.0
total solids
HG/C
94 S. O
total volatile solros
MG/L
166.0
total vol SVS SOL1 OS
MG/L
60.0
TOTAL Sll&PENDEO SOLlOS
MG/L
06. 0
TOTAL VOL OIS S'JLlOS
MG/L
90.0
total dissolved SOL1OS
MG/L
1159*0
tf TrUABLI: SOLIDS
ml/l
I.S
chloride
MG/L
670*0
AMMONIA NITROGEN
MG/L
1.0 Lt
total phenol
UG/L
23*0
OIL AND GREASE
MG/L
21 .0
fe£l4L&	


ANTIMONY
UG/L
S.0 lt
ARSENIC
UG/L
10.0 LT
BERYLLIUM
UG/L
1.0 lt
CADMIUM
UG/L
7.0
CHROMIUM
UG/L
30. 0
COPPER
UG/L
23.0
Lt-AO
UG/L
SO.O lt
MERCURY
UG/L
*3
NICKEL
UG/L
SC.O tf
SELENIUM
UG/L
10.0 lt
SILVER
UG/L
• S LT
THALLIUM
UG/L
S.O lt
Z INC
UG/L
720.O
QlttCBS. . „ 	


CTANIOE
UG/L
25.0
BQtiCOMEetttX0irAL.KUL^	

ALUMINUM
UG/L
690.0
BARIUM
UG/L
52.0
80<*0N
UG/L
210*0
CALCIUM
UG/L
43400*0
lt * Less Than
GT t GREATER THAN
no > not oerccTco •
MS a NOT SAMPLED
POLLUTANT? NOT LlSTEO KCRC NOT OETECTEO
i«ac (*u
SVOM CVCnT OMC
BRANCH	0RAMCH	BRANCH	BRANCH	BRANCH
cs?	cso	riosr ^lusn runoff	mciP
BIOS*	||Oa<)	II09O	11091	11097
4j#e	*9«o	az.o	i9«o	^o.o it
170.0	2SO.O	JJO.O	M.O	2S.0 LT
MS N5 MS	NS	7.5
24.0	22.0	37.O	JO.O	NS
*79.0	620*0	JI4.0	768.0	77.0
CA2.0	135.0	J6S* 0	151.0	3S.0
AO.O	96.0	92.0	14.0	|9.0
J62«0	4)7.0	47.O	179,0	51.0
102*0	3«»*0	2 76-0	117.0	I6»0
217*0	105.0	267.0	609*0	2«.0
1.9	Z.I	3.1	1-0 LT	t.O LT
71.0	71.0	1*0.0	4.6	3.2
1.3	|«7	2.4	4*0 LT	4.0 LT
12.0	*.«	13.0	12.0	ft.7
20*0	29.0	27.0	10*0 LT	10.0 LT
r»*0 LT	S.O LT	5.0 LT	S.O LT	S.O LT
14.0	16.0	10.0 L*	10.0 LT	10.0 LT
t.O LT	1.0 LT	I.O LT	1.0 LT	1.0 LT
5*0 LT	S.O LT	5*0 LT	5.0 LT	S.O LT
40*0	32*0	100.0	10.0	10.0 LT
94.0	100*0	163^0	37.0	10.0 LT
360*0	420*0	470*0	360*0	50.0 LT
• 4	.4	.7	.3 LT	. 3 LT
50*0 LT	SO.O LT	"50.0 LT	50.0 LT	50.0 LT
10.0 LT	10.0 LT	10.0 LT	10.0 l_T	10.0 LT
.1 LT	.5 LT	.7	.5 LT	-S i_ J
S.O tf	S.O LT	S.O LT	S.O LT	S.O LT
420*0	490*0	630*0	230*0	110*0
20*0 LT	20*0 LT	23*0	20*0 LT	20.0 LT
CT9J0.C
ISO.O
02.0
26000*0
9630*0
210*0
77. O
27O00 *0
0730*0
220.0
75.0
34BOO mO
1520.0
49.0
*0.0
19600.0
40.0 LT
10.0 LT
20.0 LT
-------
TAM.E C-IO
ST.LOtMS. NO	STORN EVENT ONE


0RANCH

0RANCH

BRANCH

ORANCH

BRANCH

BRANCH



«¦ BKGO
CSF

cso

fcast FLUSH
RUSOF*

PRECIP

POLLUTANT
UNITS
11097

I ioaa

1I0H9

t 1090

a i09i

1 1097

COBALT
UG/L
5*0
LT
5.0
LT
5.0
Lf
T*0

9.0
LT
3*0
LT
1PON
tIG/L
940*0

12900.0

I++00.0

(1900.0

3330.0

. 3' • 0

MAGNESIUM
U&/L
22000*0

6620*0

61 30*0

09 70*9

23&0.0

t»2.Q

MAMOAN£St
UG/L
120.0

•3*0.0

jeo.o

320*0

1 30.0

10.0
LT
"OLYBOfcNUN
UG/L
10.0
LT
10*0
LT
to*o
LT
10.0
LT
|0»0
LT
10.0
LT
SCOI UK
UG/L
2IOOOQ.O

22300.0

26900.0

39S00.0

22A0.0

2000.1
LT
TfN
UC/L
30*0
LT
30*0
LT
3O.0
LT
JO.O
LT
30. 0
LT
J0*0
r
TItan.uh
UC/L
50»0
lt
99.O

12O.0

too .a

SO.©
LT
SG,0
LT
VANAOfUN
UG/L
s.o
LT
1^*0

22*0

20.0

5.0
Lf
0.0
LT
YTTRIUM
UC/L
s.o
LT
5.0
f.T
5.0
LT
5.0
LT
5.0
LT
5.0
L r
*OC A ZlL£_0Sfi&ttl£l	













CHLOflO'O^tt
UG/L

NO

NO

NO
~ .7


NO

NO
fOLUENE
UG/L
12.*

I J*o

9*2

9*7


NO
5. J

ecNZENe
UG/L
2*4


NO
l*T


NO

NO

NO
(THTiBENZENE
UG/L
6*5


NO
J. A

3.2

2.2


NO
MelHTLCW CH.ORIOC
UG/L
7*0

32*0

39.0

6.2

ft.2

1 t .2

TeiffACHLQUOCrHfiNE
UG/L
3.9


NO

NO

NO

NO

NO
1•1•1-TfflCHLOaOETNANe
UG/L

NO
so.o

69*0

»
O
•
o


NO

HO
.2~OICHLOAOCTh£N£
UG/L
*» +


NO

NO

NO

NO

NO
TlilCHLOftOE THEn£
UG/L
5*1


NO
».0


NO

NO

NO
:-taiXQL4Il1.E_QffiiAtllCS	













5Cttl^¥QL&£ iL£_fiAS££U£liIBALS-












&(-N2U( K )Ft UWANIKCNE
UC/L

NO

NO
4*0


NO

NO

M3
OIMCTHVLCHTMALATe
UG/L
20*0


NO

NO

NO

NO

NO
PLUORAnTHENE
UG/L

NO

NO
A.O


NO

NO

ND
naphthalene
UC/L
•*fr


NO

NO

NO

NO

NO
aiS(2*ETHVLHEkVL)PMTHAt.ATe
UG/L
20*0


NO
20.0

n.o

1A • 0

13*0

OI-n*butvl phtkalatc
UG/L
#•7


NO

NO

NO

NO

NO
SEfllVOLATrLfi ACIO













PHENOL
UG/L

NO

NO

NO

NO

NO
16.0

e£SIl£10e_eKlBd£tABLES.
LT a LESS THAN
«T a COCHTCR THAM
no * not oetecreo
MS • NOT SAMPLCO
rauuimra not listed
¦{« MOT OETECTE0
-------
f>M.e c-io
ST.LOUIS. MO	STCMtM EVENT ONE


PRAIA

MAIR

PRAIA

PRAIA

PRAIA

BRANCH



WW OKGO
CSf

cso

FIRST flush
RUNOFF

PflECIP

PQLJLUTAMT
UNITS
11092

1109 J

1109*

1 109S

1 1096

1 1097

BIOCHEMICAL OXVGCN OClUK)
NG/C
lOO.O

01.0

*5*0

160. O

15.0
CT
SO .0
LT
CKNICM. 0*t&EN OCMAMO
«6A
230*0

jso.o

270.0

340.0

*7.0

2S .0
L*
TOTAL OOUNfC CAftfiON
«C/L

NS

NS

MS

NS

N>
7.5

NQH*PAfif ICUtAIC TOC
MGA.
*9.0

~o.o

3**0

4ft.0

21 .0


NS
total socios
NG/L
*72.0

1009*0

96S.0

10 02•O

312.0

77.0

TOTAL VOLATILC SOCIOS
MG/C
394*0

|4|.0

419.0

2 70.0

1 07.0

35 .0

TOfAC VOL SUS SOCIOS
NC/L
S5.0

1 16*0

344*0

150.0

35.0

19.0

fOTAC SOSPCKJEO SOCIOS
NG/L
101.0

797.0

444 .0

7 10.0

1 76.0

5 3.0

TOTAC voc ois SOCIOS
»*c/t
J39*0

Zi.e

75*0

1 12.O

72.0

16.0

TCTAC DISSOLVED SOCIOS
wc/c
371 .0

212*0

124 .0

204.0

1 36. 0

2* .0

SC1TUAUX SOC IDS
NL/L
1.4

2.2

1 .B

i.6

1 >0
CT
1.0
LT
chloride
MG/C
160.0

68.0

29.0

92.0

53.0

3.2
CT
AMMQHIA N|TR06EN
MG/C
1.0
CT
2.7

I.S

4.0

1 .0
CT
I *0
TQ'AC PMCNOC
UG/C
7400.0

2000.0

1700.0

2000.0

5.0
LT
H. 7

OIL AND GREASE
NG/C
20.0

14.o

IO.O
CT
10.0
IT
IO.O
LT
10.0
LT
sciaus.. 	-- ...












Lf
ANf 1 K-*MV
UG/C
5.0
C?
5.0
CT
5*0
CT
5.0
LT
s.o
LT
5.0
ANStNtC
UG/C
IO.O
CT
IO.O
IT
IO.O
CT
10.0
LT
10.0
LT
10.0
LT
0FRVCCIUN
UG/C
l«0
CT
1 *0
CT
1 .0
cr
1 .0
lt
1.0
LT
1.0
LT
CAOMtUM
UG/C
5.0
CT
5.0
CT
5*0
CT
5.0
CT
5.0
LT
S.O
LT
CMQOM|*JM
UG/C
120.0

79. O

60.0

140.0

1 7.0

10.0
Ll
COPPER
UG/C
310*0

1 tO.Q

140.0

310.0

44.0

10*0
LT
LEAD
UG/C
76.0

37 O.O

430.0

SfrO.O

220.0

50.0
Lt
mercury
UG/C
• J

• 6

.6

• 3
lt
. J
LT
. 3
LT
N1CKCC
UG/C
S6.0

42.0

64*0

1 60.0

so.o
LT
SO.O
Lf
SECENIUN
UG/C
10*0
CT
IO.O
CT
IO.O
CT
10.0
lt
10.0
LT
10. 0
LT
SILVER
UG/C
*S
CT
*S
CT
•5
CT
• 5
Cf
.5
LT
.5
LT
THALLIUM
UG/C
S.O
CT
5.0
CT
s*o
CT
5.0
It
5.0
LT
5.0
LT
/INC
UG/C
91.0

450.O

470.0

640.0

290.0

1 IO.O

n'tfrzn.













CTANIOE
UG/C
SIO.O

>4*0

20.0
CT
N
O
•
o
CT
20.0
LT
20.0
L T
tWt&OMYEWTIOMM. fCTACS	













ALUMINUM
UG/C
1S3O.0

7600*0

9320*0

13800*0

29R0.0

40.0
LT
HARIUM
UG/C
59.0

I0O.O

2IO.O

320.0

74.0

IO.O
LT
OORON
UG/C
JOO.O

» jo.o

S4*0

100*0

40.0

20 .0
CT
CACCIIM
UG/C
47900.0

*0903.0

35TOO.O

5*700.0

*0300.0

IT70.0

Lt • LESS THAN
OT « MCMtd THtN
NO a NOT OETECTEO
NS x NOT SAMPLED
POLLUTANTS NOT LISTED WERE NOT OETECTEO
-------
~A8LE C-IO
ST .LOUIS* MO	STORM £vEnT OnE


PRAIR

PRAIA

PRAIR

PRAIR

PRAIR

BRANCH



«W OKGO
CSF

cso

FIRST FLUSH
RUNOFF

PHECIP

POLLUTANT
UNITS
11092

1 1093

11094

1095

1 1096

1 1097

coqalt
UG/L
S.O
IT
S.O
LT
S.O
LT
5*0
LT
S.O
LT
S.O
LT
IRON
UG/L
1250*0

11700*0

13800*0

20100*0

4890*0

37. 0

MAGNESIUM
UG/L
22100.0

97«#0*0

6000*0

154 00*0

3920.0

62 *0

MANGANESE
UG/L
I9O.0

360.0

350*0

54O.0

160*0

10.0
LT
MOLYBDENUM
UG/L
10.0
LT
10.0
LT
IO.0
LT
10*0
LT
10*0
LT
IO.O
L I
SOOIU4
UG/L
94300.0

22000*0

10300*0

34800*0

12900.0

2000.0
L T
TIM
UG/L
420*0

120*0

30*0
LT
2(10.0

30*0
LT
JO.O
LT
TITANIUM
UG/L
50.0
LT
91 *0

110*0

160*0

50*0
LT
50*0
LT
vanadium
UG/L
S.O
LT
IS.O

23*0

27*0

S.O

S.O
l r
YTTRIUM
UG/L
s*o
LT
5.0
LT
5*0
LT
5*0
LT
5.0
LT
5.0
L T
y 0L4£i LE_08&At*L£S	













CHLOROFORM
UG/L
*2*0

1 2 *S

117*0

22*0


NO

NO
tolufne
UG/L
605*0

393*0

293.0

296*0

6.0

5.3

£ thvlbenzene
UG/L
344.O

63*0

59.0

61 *0


NO

NO
METHYLENE CM.ORIDE
UG/L
1499*0

21 *0

30*0

26.0

9.3

It .2

I.I.I-TRICMLOROETHANE
ug/l

NO
3*2

3.2

5*0


NO

NO
$fcfll^XQUAIlLE-.BASE£UCUlfi&LS













acenaphthene
ug/l
88*0


NO

NO

NO

MO

NO
fib NZOf K KLUOHANT^NE
ug/l

NO

NO

NO

NO
12.0


NO
NAPHTHALENE
UG/L
4*2

12*5

S.O

6*5


NO

NO
01 S12-E THYLHE A YL1 PH TH AL ATE
UG/L
S4*0

32*0

38.0

48*0

II.0

13.0

OI-N-flUT YL PHTHALATE
UG/L
6*7

5.1


NO
5*1


NO

NO
SL«l¥QLAKL£_AtlQ	













2««-0|M£ TM YLPHENOL
"ug/l
612*0

181 *0

125.0

183*0


NO

NO
PHENOL
ug/l
|6S2*0

708 .0

toi.o

404*0


NO
16*0

et5IlXIOt-EH9AClAW.es 	













LT * LCSS THAN
OT k GREATER THAN
HO t NOT 0£TECTEO
N'j * not sampled
POLLUTANTS NOT LISTED
WERE NOT OETECTEO
-------
table c-ti
sr.LOUIS. MO	STORM
MtNCN	aMNCH	BAMCH	BRAMCH	«W»NCM	BP41CH
N BKCO	CSf	CSO	FIUST FLUSH	ftUNOFF	OXECIP
POLLUTANT	UNITS	SI0<»0	11094	IIIDS	lltOt	11102	III3K
BtOCHCKICAI. OXTGCN OCHAM)
MC/L
90«0

r*«o

32*0

76*0

26.0

is.o
LT
COMICAL 0#VG€N OC**NO
MC/L
220*0

2*0.0

140.0

250.0

9S.0

6« • 0

TOTAL ORGANIC CAftBQN
MC/L

MS

NS

NS

NS

NS
e. o

NON-P««nCULATe TOC
MG/L
S6*0

3ft .0

24.0

42.0

40.0


NS
TOTAL SOLIDS
MC/L
uoo.o

70^.0

266. 0

S36.0

496.0

12.0

TOTAL VOLATUE tOLlOS
MC/L
ist.o

20*.0

07.0

96.0

66.0

22.0

TOTAL vol sus solids
MC/L
45.O

a«s.o

30.0

«7.0

34*0

22.0

total strveioeo solios
MC/L
6S.O

%r«.o

9fr.O

161.0

99.0

4.0
LT
TOTAL VOL OIS SOL!OS
MC/L
IO6.0

61*0

S7.0

31.0

34.0

4. 0
LT
TOTAL 01SSOLVEO SOLIDS
MC/L
1115*0

3IS.0

170.0

3S7.0

99*0

to. 0

scttlcaole solids
nl/l
l»*

9.1

1.0
LT
2.3

t .0
lt
1 - 0
LT
CHLOaIDE
MC/L
330.0

S9.0

2.3

*7.0

i. A

2. J

AMMONIA NimOCEN
MC/L
7.0

3.0

2.2

3.3

1.0
lt
1 .0
LT
total phenol
UG/L
25.0

16.0

7.0

12.0

10.0

s.«
LT
OIL ANO GftEASC
MC/L
10.0

33.0

IA.0

34.0

9,0

10.0
L T
etUk^	













ANTINOMY
UG/L
S.O
LT
S.O
LT
S.O
LT
S.O
LT
S.O
Lt
s.o
LT
ARSENIC
UG/L
10.0
LT
10.0
L?
10.0
LT
10.0
LT
10.0
LT
10.0
LT
BCPVLLIOM
UC/L
1.0
LT
i «o
LT
1.0
LT
1.0
LT
1.0
LT
1.0
L T
CADMIUM
UG/L
s.o
LT
s.o
LT
5.0
Lt
s.o
LT
s.o
LT
s.o
LT
CHHONIUM
UG/L
23.0

2S.0

IO.O

22.O

10.0
LT
IO.O
LT
COPPEK
UG/L
10.0

90.0

39.0

76.0

31.0

10.0
L T
LEAD
UG/L
so.o
LT
240.0

9a.o

iao.0

350.0

52. 0
LT
MEDCURT
UG/L
• J

• 6

• 3

•s

.5

. 3
L T
NICKEL
UG/L
50.0
LT
50.0
LT
50.0
LT
50.0
LT
50.0
LT
50.0
L T
SELENIUM
UG/L
10,0
LT
10.0
LT
10.0
LT
10.0
LT
10.0
LT
10.0
L T
SILVER
UG/L
.7

• ft

*s

•s
LT
.5
LT
. 5
LT
thallium
UG/L
9.0
LT
5.0
LT
s.o
LT
s.o
LT
s.o
LT
S.O
LT
l INC
UG/L
300*0

3SO.O

160.0

310.0

2 70.0

120.0

OTHFRS













CVANlOe
UG/L
20. O
LT
20.0
LT
20.0
LT
20*0
LT
20.0
LT
20.0
LT
MQiicgingtMi i ortin we t ms	













aluminum
UC/L
12SO.O

S420.O

3020.0

3920.0

I7AO.O

56.0

BARIUM
UC/L
60.O

I60.O

59.0

140.0

61.0

IO.O
LT
BORON
UG/L
470.0

100.0

~ S.O

8S.0

72.0

20.0
LT
CALCIUM
UC/L
69000.0

3IA00.0

16400.0

32400.0

1 75 00 . 0

1260.0

LT * LESS TMAM
CT « CCEirC* THAN
no * not octccteo
MS « NOT S*N>t£0
POaUUKtS MOT Listto
•e«c not octectco
-------
sr. louis
pQauTAur
UNITS
BRANCH
WW 0KCO
11099
COBALT
IRON
MAGNESIUM
MANGANESE
MOLYBDENUM
SOOIUM
tin
TITANIUM
VANAOIUM
YTTRIUM
IMA.
U6/L
UO/L
UC/L
U6/L
(«G/L
UG/L
UG/L
UG/L
UG/L
5.0 LT
|T*0.0
184 00.0
260*0
ta.o
2II9000.0
30.0
20.0
SI «o
*•0 LT
LT
LT
LT
U>
X0L A IlLE-QfiG Alll£S-
CHLOROFORM	UG/L
TOLUENE	UG/L
CHLOAOBENZEIC	UG/L
E ThvlBENXENC	UG/L
METHYLENE CM.0R10E	UG/L
TETRACHLOROCTHCNE	UG/L
i•i•i-rn(chlonqethaic	ug/l
trans-a .z-oichlorocthene ug/l
TRICMLOROfc TMtMC	UG/L
I J.O
s.a
2.1
%.s
a.2
NO
NO
*•1
J.5
StEIUVQLftI lt-g BASE/NEUTRALS
OIE THTLFNf MM.ATE	UG/L
l»mw€	UG/L
NAPHTHALENE	UG/L
SIS(2*ETHTLH?XTL|PNTNALAT6 UG/L
OI-N-8UTTL PmTHALATE	UG/L
A.2
19.0
J.I
&ESI*QV4I1LX-AC
e&&ii£iO£-£&ia&ci&ai.c
LT » LESS THAN
GT * GREATER THAN
NO * NOT DETECTED
NS a NOT SAMPLED
POLLUTANTS JOT LISTED MERE NOT DETECTED
table c-tt
MO	STORM EVENT T«Q
BRANCH
CSF
11099
BRANCH
CSO
• 1100
BRANCH
FIRST FLUSH
lltOI
BRANCH
RUNOFF
I 1102
894HCM
PPEC IP
I I I OA
S.O LT
9720.0
8*30.0
230.0
10.0 LT
95*00.0
30.0 LT
7«.0
29.0
S.O LT
S.O LT
*563.0
3060*0
1*0.0
10.0 LT
11600.0
JO.O LT
39.0
56.0
S.O LT
S.O LT
ooso.o
0710.0
210.0
10.O LT
65S00.0
30.0 LT
60.0
36.0
S.O LT
5.0 LT
35*0.0
2220.0
I6O.0
IO.O LT
2060.0
JO.O LT
27.0
20 • 0
S.O LT
5.0 LT
ae.o
I 10.0
10.0 LT
10.0 LT
2000.0 LT
JO.O LT
20.0 LT
S.O LT
5.0 LT
S.O
8.2
NO
NO
NO
NO
NO
A.9
* .6
I m<*
2.*
BO. 3
3.7
6.3
I .8
NO
6.*
12.*
I.*
11.2
2.1
S.O
I .5
NO
3.3
2. J
2.0
2.7
9.3
NO
NO
NO
NO
2.3
11.9
5.9
NO
HO
NO
3*2
3.t
25.O
*.6
NO
NO
NO
11.6
*•0
NO
NO
3.3
IO.O
3.6
ND
NO
NO
19.0
T.O
MO
NO
ND
NO
NO
-------
sr.LOutv*
PRAtR
«¦ 6KCO
HULCUTANT	units	It 10J


HIOCHeNtCAl OXYGEN OfcKANO
M6/L
t*o.o
CMtMICU. JJlYGEN OENANO
NO f\.
370.0
total organic carhon
NC/L
NS
NON*PAR7ICVLAr£ TQC
Ma/L
120.0
TOTAL SCCtOS
NC/L
766.0
TOTAL VOLATILE SOL IOS
MG/L
166*0
TUTAL VOL SUS SOLIi>S
NG/L
64.0
TOTAL SUSPLNOEO SOLIDS
MG/L
102.0
TOTAL VOL OIS SOL IDS
NG/L
107.0
TOTAL DISSOLVED SOLIDS
NG/L
6t*4.0
SLTTLCAtJLE SCLI0S
*l/l
2*4
CHL0*I0b
MG/L
0 1.0
AMM JN | A TR-JUCN
MG/L
6.0
TOTAL PHtfNOL
UG/L
I6r>30.0
OIL AND CUBASE
NG/L
16.0
S tlfiUa


antinomy
UC/L
s.t» lt
AWSfcNlC
UG/L
io.o lt
HEkra.LlUN
UG/L
t.O lt
CAOHIUM
UG/L
9.0 LT
CHMCMlifN
UG/L
35.0
COWE.M
•JC./L
IIO.O
LEAD
UG/L
50.0 LT
NMRCUtt*
UG/L
1.0
NIOU
UG/L
1 30.0
SELlNIOM
UG/L
to.o lt
S (LVtLM
UG/L
.5 LT
ThAlL ion
UG/L
s.o lt
£\u c
UG/L
52.0



	.....				
cyanide
UG/L
140.0
UU*CQUXCttti£XUL-a££*L*	


ALUKiHUN
UG/L
1100.0
C3A^1UN
UG/L
40.0
0OA(JN
UG/L
920.0
C ALL 1 UN
UG/L
49300.0
lt » less Chan
tiT c GWEArEII THAN
NO * HOT detected
MS * NOT iAH'-tt)
PUU,OfAMf$ HOT Ll'tfCb
•ERE NOT DETECTED
TAiH t£ C-1 I
>o
SCORN EVENT
TtfO






PKAI4

PNATtt

PRAfR

.^RAYP

BRANCH

CSF

CSO

FIRST FLUSH
RUNOFF

FREC IP

II 10*

11105

1 1 106

11107

111 OA

34.0

46.0

67.0

15.0
UT
15.0
LT
140.0

170.0

I MO .0

25.0
LT
*4 .0


Nil

NS

NS
10.0

ft.O

27.0

29.0

3A.0


NS

NS
111 .0

207.0

2<#5.0

105.0

12.0

Q2.0

109.0

0*4.0

40.0

?2 .0

4<>.0

42.0

44.0

12.0

22 .0

4 J » 0

¦ 25.0

1 2O.0

47.0

4 • 0
LT
4 I.J

67.0

20.O

2ft. 0

« .0
LT
I -3H . 0

H2.0

166.0

5H.0

IO.O

1 .o
lt
1.1

1. 1

i.a
LT
t .0
LT
*• %

6.3

11.0

3. tt

2.3

1 .4

2.0

4.1

1 .0
LT
1 .0
LT
ftttl.O

BSO.O

16 30.0

7. 3

s.o
LT
21 .0

ltt.0

27.0

5.0
LT
10.0
L T
5.0
lt
5.0
t-T
5.0
LT
5-0
LT
5.0
LT
IO.O
lt
IO.O
LT
10.0
lt
10.0
LT
10.0
LT
1.0
lt
1 .0
LT
1.0
LT
1.0
LT
1 .0
LT
5.0
LT
5.0
LT
9.0
LT
5.0
LT
^-0
LT
lfl.0

24 .0

40.0

10.0
LT
10.0
LT
3«.0

55.0

61 .0

17.0

10.0
LT


160.0

160. O

52.0

52.0
L T
.4

.4

.4

• 3
LT
• 1
LT
5O.0
LT
50.0
LT
50.0
LT
50.0
LT
50.0
L T
IO.O
LT
IO.O
LT
IO.O
LT
10.0
LT
10.0
LT
.5
lt
.5
LT
.5
LT
.5
LT
.5
LT
0*0
LI
5.0
LT
5.0
LT
5.0
LT
5.0
LT
160.0

210.O

250.0

1 30.0

1 30.0

20.0
LT
20.0
LT
20.0
LT
20.0
LT
20.0
LT
1B70.0

3620.0

3610.0

A 30.0

50 .0

17,0

71 .0

76.0

23.0

10.0
I T
Ga.o

7"#.0

01 .0

20.0
LT
?0.4
LT
rtton.o

20TOO.0

24300.0

I €>600,0

1 2f>0 • O

-------
f»T* LOUIS


PRAIM


M« DKO!>
POLLUTANl
UNI TS
(1(03
CilttAL*
UG/L
5.0 LT
IKON
UG/L
I2ZO.O
MAkNiSlUK
UG/L
21200.0
MANUAL &C
UG/L
200.0
*UL7»iOC.MUN
UC/L
10.0 lt
SOOlU*
UG/L
iiiooo.o
TIN
UG/L
t 10.0
T1FANfUM
UG/L
20.0 (.T
VANADIUM
UG/L
0.0
rfTfliun
UG/L
O.O lt
kULfiIllt.US&&t*l£2	


CHLU«0»-O"H
UG/L
1 3.9
rriLut'Nt
UG/L
(16. 0
ACHYLONITOILC
UG/L
37.0
ETtlVLtttNZENE.
UC/L
236.0
•*£fnrcENC CH.a«10£
UG/L
42-J-0
TtiMACHLO^OETHtNC
UG/L
J9. 0
I.I.I-THICMLO*OfcTHANE
IK»/L
NO
1.1.2-THICHLUnOfcTMANE
UG/L
NU
1 . 2-D 1 CHLUMOf. TmANC
UG/L
NO
I .J-OICMLOl'UPKOPAuE
UG/L
nl>
tWANV- 1 .2-l>ICHLO«OeTH£Nt
UG/L
2. I
TftlCHLOdQTTHcMC
UG/L
2. t
jL«lz¥QCAIlL£._tiAS£ZttEUl3ACS_

Ol L T•IVLPHT HAL A Tfc
UG/L
4.2
Oft-N-UCTVL l*HTHALATC
ug/l
5.2
napmthalc'ne
ug/l
3.4
U1M*-fc THTLHfcXVL1PH THALATE
UG/L
52.O
0 1-N-tJUTru PmTHALATE
UG/L
9. 1
S£9XXQLftXlLt.ACl&	


2iA-DIMEfH*L*»HENOC
UG/L
A20.0
PHtNol
UG/L
3-4 00.0
££JiIi£ia£-£*Itt&£IfttH£S	
cr - U&S THAN
or « CHtUEQ THAN
NO X NUT OfcTgcreO
MS S NOT SAWLEO
POLLUTANr^ NOT ll^TCA
•F«t Ntlt OCTfcCTCO
r«uL£ c-n
•HO	HTUWH tVlNT two
PHAt*
C1F
l|!Q«
WAIM
cso
1I I OS
P4A (**
MUST FLUSH
11 I OO
P<>4 1*4
RUN'JFF
I 1107
HWAMCM
PHfcC IP
I 11 Or)
s.o lt
J4BO.O
3 100,0
I 10.0
10.0
1220<1.0
JO *0
20.0
t 7.0
S.O uf
IT
LT
LT
s.o lt
6160.0
17O0•0
I
io.o l r
9*00.0
31 .o
45*0
I 7.0
r>.0 LT
s.o lt
7640.0
4UH0 «Q
IrtU.O
10.0 LT
1*700.0
Or..Q
44*0
23.0
b.O LT
r>.0 LT
I 1-40.0
|f>0.0
• ft. 0
10.0
67*0.0
30.0
20.O LT
16.0
r>.o lt
l r
LT
s. 0 L T
HB.O
1 to .0
10.0	LT
I 0 . 0	T
2000.O	L T
.10.0	LT
20.0	L T
r. . 0	L t
5. U	L T
6.*	no r».*	NO
397.0	216.0 9*7.0	l.S	9.9
NO	NO NO	NO	NO
7S.0	*0.0 I HI. 0	NO	2.3
bh2*Q	444*0 1174.0	174,9	11.9
|7«.0	I6M.0 351.0	HO	5.9
NO	2*4 2.0	NO	NO
NO	NO NO	1.4	NO
NO	NO	NO	NO
19.0	NO NO	NO	NO
2.«	1.7 5.4	NO	NO
92.0	202.0	NO	NO
NO
NO
0*6
20 .O
• •4
NO
NO
11*2
12.0
NO
NO
19.0
19.0
4*3
NO
NO
NO
NO
NO
NO
NO
HO
NO
NO
90.0
2%«0
114.0
319.0
I 12.0
667.0
NO
NO
NO
NO
-------
taulc c-i2
sr.touis. no	stoon cvcnt rnntF


8HANCM

fMANCH

ftrtANCH

UAANCM

BRANCH
•JRANCH



«« BKUO
C5*

csrj

FIRST *LUSH
RUNOFF
PBtC IP

pollutant
UNITS
1 1109

II 1 10

II111

11112

1111 1
t 1 t 1 <»













HlOLHtMICAL OXVCCN 06MAND
NG/L
VJ.O

¦vl*0



ftO.O

NS
10*0
lT
CHEMICAL (IKY&EN OEMANO
MO XL
2MO.O

290.O

460.0

S *0 . 0

NS
25.O
LT
1UVAL 0«t»ANlC CAHBON
MG/L
9i .a


NS

NS

MS
NS
6.5

NUM-PAHT1CULATC TOC
MG/L

NS
Z5,0

I7.0

*©• 0

NS

NS
TO fAL SOLIUM
MG/L
7tt0«0

«#70.0

1 706*0

OSrt.O

NS
J9.0

total volatile SOU OS
mo/l
2 *2.0

IQH.O

;U6iO

261.0

NS
36*0

Total vol bu<> solids
mg/l
54*0

oo.o

2lrt.O

1 37.O

NS
A.0

larAL wytfCen SCLIOS
MG/L
65.0

S02.0

#**0.0

« w.e

NS
1 1 -o

TOTAL VOL Uts VJLlDS
»H,/L
t IH.O

lO'l.O

«fH.O



NS
2* • 0

TOTAL 0tV*0LV£0 SOLIOS
Kb/L
Mo,n

jro.o

262*0

A26.0

NS
^ri .0

btULtAtlU SOLIOS
ML/L
i .n
LT
?.<»

4.6

3.6

NS
1 . 0
Li
CHLOttlOSi
MU/L
a j.o

To.O

6J.0

*v.o

NS
1 .*

AMMONIA NlTDMofN
MG/L
is.o

i .«#

« . J

3.*

NS
t .0
f.r
TUTAL IHttNOL
UG/L
S1.0

JUi»0

7.6

47.0

NS
*7.0

OIL AllO fcKSASe
MC/L
3^0

ii>«a

(••O

2* -O

22 »0
20.0
LT
fitlAl*.. .. --	-












ANTIMONY
UG/L
4*0
lt
4*0
LT
4*0
L T
4*0
LT
«S
4*0
LT
A^r>tNtC
MC/L
».o
LT
J*o
LT
1.0
Li
3*0
LT
NS
J.O
L r
^HVLLIUN
UG/L
2*0
lt
2 *0
LT
2*0
LT
2.0
LT
NS
2*0
LT
CAllHttM
UG/L
23.0

2?»Q

2H »0

jo.o

NS
IS.O

CH4UNIUH
UG/L
Ol .0

ss*o

611.0

59,0

NS
25.0
LT

UG/L
*»A«0

1 i i«o

146.0

t 19.0

NS
20 .0
LT
LLAQ
UG/L
-EOO.O
LT
S40«0

85S.O

510.O

NS
200 .0
LT
^.MCUMV
UG/L
1*0
LT
1.0
LT
1*0
Li
1*0
LT
NS
1 *0
L ?
N|L^£L
UU/L
ton.o

75.0
LT
B2*0

75*0
LT
NS
75.0
LT
HLtt4(UN
UC/L
4,0
LT
«»o
lt
4*0
LT
4*0
LT
NS
*«0
LT
SILV6W
UG/L
122.0

to*o
LT
10.0
Li
10.0
LT
NS
to.o
LT
TmALLIU*
UG/L
n.o
LT
75.O
LT
75.0
LT
75*0
LT
NS
TS.O
LT
/INC
UG/L
S2.0

JV^.O

610.0

400*3

NS
1 8.1.0

OTrttttS












CTUtIK
UG/L
20*t>
LT
*o«o
LT
20.O
LT
21*0

20.0 LT
*o
LT
SlUiiLQaieuiligbAC-StXALS..	












ALUMfNUt
UG/L
470.O

95JO.O

17600*0

4 tSO * 0

NS
I0S. 0
LT
tfAHlUM
UG/L
*6.0

I6t.«

25V.0

w.o

NS
25. 0
LT
dObON
UG/L
JI9.D

^t6«U

U2*0

JOb.O

NS
21 .0

CALCIUM
UG/L
502UC.0

>M00«0

33000*0

S4000.0

NS
ltff>0.0

Li « Ltss than
Ul a oneAfeo THAN
no * Mor uErecTto
N*» S NOV SAMPLED
fmolANTS NOT A. t ST CO •€*>€ NOT OCTCCrCO
-------
TAOLt C-12
ST •LOUIS. MQ	STO««M ttfCNr T M»ee


BRANCH

aaArioi

BRANCH

MftANCH

BRANCH

tMANCH



Vtf BKOO
CSF

CM

FIWST FLUSH
RVHQF*

Mrf£C IP

mX.LUl ANT
UNITS
ItIO*

II11(1

111 1 1

Illt2

1 1 1 1 J

1 1 1 1 «

COBALT
UC/L
JS.O
Lf
)S*0
LT
jn,«*
LT
1S.0
LT

NS
JO.O
LT
(HON
IKi/L
HJ7.0

I2TOO.O

22SOO.U

t»b /O.0


N$
t 38 .0

MAGNCSIUH
IK./L
l*3O0«O

mio.o

76HO.O

<1900*0


NS


MAMOANE^C
UO/L
Ib2*0

A«%A «0

TTI .O

J47.0


NS
S.O

KOLTUMHIM
UC/l
AO* 0
LT
•o*o
LT
40.0
LT
~0.0
LT

NS
~ O.O
LT
^OOtUM
vo/u
b'HOOrO

tK>000*0

53200.0

S^HOO.O


NS
5000.o
LT
t IN

tsso.o
LT
HSO.C
LT
itso.o
LT
HSO.O
LT

NS
tiso.o
Lf
flTANlUM
uo/t
IA*0

24S.0

A*5«0

<12.0


NS
I2.0
LT
VIHA0IU4
UC/L
tS.O
LT
)NO

%4.0

15.0
LT

NS
1 *>* O
LT
vi TMitm
UC/L
12.0
L*
12.0
LT
|6.0

12.0
LT

NS
I2« 0
LT
xuuxjLt-osfi&tiics	













Cnlu^uF ym
UC/L
s.a

S.A

4.A

4> • fe


NO


TCX-UCMF
W./l
S.J




NO
i.a


NO
1.6

CTH*Li.*tHZtNe
1IC/L
1.2


NO

NO

NO

NO

NO
KfriirLENE C»KfflOC
UC/L
len.o

13.0

|A.O

22*0

0*2

6*2

TlTHACtCQUOETMENf
UC/L

NO
1 *6

1*7

2«0


NO

NO
1*1 • | —TwICHLOWOf THAHt
uu.a
6.0

72.O

iJ.O

Att*0


NO

NO
1 ^-UlCllLOHOPDOPANt'
UO/L



NO

NO

NO

NO

NO
t a A*r>~»• 2- o ICK.OROC rncic
UC/L
%A


NO

NO
2.0


NO

NO
TKICHLOftOt TNtKfc
U6/L
l#9

l*CV


NO

NO

NO

NO













FI.UWAHTMENC
uc/L

MD

NO
3.9


NO

NS

NO

UCA.

NO

NO
3.S


NO

NS

NO
1 .Z-OICtCOtfOBCN/CNE
uta

NO

NO

NO
*»0


NS

NO
KAPHtHAlENC
ur^v

NO

NO

MO
X.2


NS

NO
AU( 2-t IHVLIC «n.|PHllULATC
UCA.

HO


A*S

*•1


NS
« *o

xgiwurueaUtt	













KSTUlQC£tf8iCI tbies	
tr « ifs*i rtMn
Ut * MtiAfCR THAN
HO 3 NUT ocrtcrto
NS * NOT SANPLCO
'HXLUVANtS MOT IUUO U£N£ NOT OCTCCTCO
-------
TAOLC C-t?


$t*louis»
MO
STORM EVtNT
Tnnee








rs*u

POAIH

PttAIR

P«*A|»

P«A|*I

b**n«9

MS

MS

MS
s.s

KGN-PACriCULATE f OC
«/c

MS
26«'i

27.0

S7.0

24.0


KS
TGT*L SOLXOS

TOS.O

7O3.0

1200,0

10*0.0

510.0

3^> • 0

TUTM. VCLATlUt SOL ID*
MGA.
230.0

174.0

179.0

2O3.0

120.0

16 .0

total vol sus solids
MG'L
«6*0

rtd.O

117. .

ISO.O

G J.O

a • s

ruiM. VUSPCNDEO SOLIDS
MC/L
67. 0

SI7.0

1060.0

759.O

365.0

11.0

total vol ois sextos
•K./L
|A4«0

4ft.O

62.0

1 t J.O

S7.0

«'H . D

TOTAL DISSOLVED folios
MCA.
634.Q

i s«..o

132.0

27*. 0

145.0

2m.0

SfcTTLLAULt SQLIOS
N-/t
1 -o
tr
i .a

J.3

«.9

I .0
LT
1*0
LT
ClLU^lOt
*»A.
6«*0

II.0

S.2

23.0

5.5

1 . 4

AMMONti Nt1HO(*€N
«C/L
S.7

1*3

1 .2

2.3

t .o
LT
1*0
LT
lot AL Pm£nIL
VC/L
I9oo.n

700.O

700 .0

2BOO.O

IH.O

27.0

UlL AT*& U*£.AS€
Koa
43*. 0

*6.0

17,0

35.0

22 .0

. 20 .0
LT
		













ANT | MOttY
UG/L
A.O
IT
A.O
LT
* .0
LT
A.O
LT
4.0
LT
4.0
LT
A***»LN|C
u&a
3.0
LT
2.0
cr
3.0
LT
J.O
LT
3.0
LT
3.0
LT
UfcttYLLlUM
uoa
2*0
IT
2*0
LT
2*0
LT
2.0
LT
2.0
LT
2.C
LT
cadmium
UG/L
t6.0

33.0

SR9.0

32.0

2*.0

15.0

CHMCMIUM
uc/t.
202.0

so.o

84 .O

1 63.O

4f* . 0

20 . 0
LT
COPl*tW
uc/t
13V. 3

120.0

too .0

203.0

99.0

20 .0
LT
Lt AD
OG/t
200.0
LT
477. o

*•09.0

744.0

437.0

200.0
LT
Ntkcuf«y
iKi/L
1*0
LT
1 *0
LT
1 .0
LT
1 .0
LT
1.0
LT
1.0
LT
NICKEL
UG/L
ei.o

75.O
LT
IS*.o

1 1 7.0

75.0
LT
7b. O
LT
St LF.NIU*
UG/L
4.0
LT
4.0
LT
4 .0
LT
4 • O
LT
4*0
LT
4 . O
L T
S1LVCP
UG/l
*0.0
LT
10.0
LT
10.o
LT
io.a
LT
10.0
L*
10.O
lt
thallium
uca
7S.O
LT
75.0
LT
rs.o
LT
rs.o
LT
7S.0
LT
7S.0
LT
4 InC
uG/l
3S4.0

4*52.0

679.0

66 J. 0

4 62 • 0

181*0

ir-tfw.













CVANlOfc
OGA.
110*0

1200*0

t100.0

oa.o

20.0
LT
20.0
LT
ttQtJLQH: 'HI IQfil Al_3£l&LS	











LT
ALUMINUM
UG/l
789*0

29SO.O

9030*0

ioooo.o

6633 • 0

10%. 0
.4Atf|UM
UG/L
28.0

123.0

214.0

223.0

1 39.0

2> .0
LT
«owat4
UGA.
46A.0

133.0

263.0

259.0

tss.o

21 .0

calcium
uga.
A3000*0

A2SOO.O

AO 300.0

sosoo.o

62000.0

ittoo.o

tr * li ss than
bt » uHCATER THAN
no * nut uerecrto
NS * HOT SanplCO
~HJLLUfANft. NOT LISTfeO «C»C NOT OtTECTCO
-------
st.louis


PNA9P


mm 9kgo
KJLLUfAMl
UNITS
11 t 14
cuualt
IIG/L
JS.Q LT
IKON
UG/t
V4?*0
NAOn&SIUN
UO/L
16*00*0
MfcK(*AN£.SC
UCA.
JJ^.O
M0LT<*0£NUN
UC/L
40*0 LT

UO/L
69500.0
TIN
UO/L
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t 1 TANlUM
UO/L
2S.O
VANAOlU*
UO/L
t*i*0 lt
V TT*|UN
UO/L
12*0 LT
* QL AI1Lt-QS&ftale S			


olorcf o**n
UO/L
4* 1
tatth?.
UO/L
42*0
tSbNlhNE
UG/L
NO
E fHVLti£NUNC
UO/L
5*1
NtTHTLfcNfe CtlOQtOi
UO/L
9,4
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UO/L
2*1
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UO/L
t * 3
TMANS~1 •2-OICHL»}Q£ Th£**
UO/L
1*4
fHKHLQMOtfHENt
UO/L
2*0
St^zXGLflliLt-Ufl^atUlSAUS-

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UO/L
NO
(>LN20(A}PVQEN£
UO/L
MO
C««ftV*»ENC
UG/L
NO
fLUQilANTHtrit
UO/L
NO
HtRACHLO^UCTrtANf
UO/L
NO
«fcHfc
UO/L
NO
UtNZG ( A ) AN THRACCNC
UG/L
NO
1 •J*DtCHLOft(X)£N;£NE
UO/L
2*2
naphthalene
UO/L
NO
U1St2~£ THTLHCKVLlPHTHALATe
UG/L
3*6
bmiVOUAllLt ACID


A - CHLOHO-J - Nfc THYL phenol
UG/L
MO.O
2*4-01 NtTMVLPHfc'NOL
UG/L
HO
PHCNOL
ir,#L
170*0
fc>LSllCID£^ESTtf*tTAfli_E<, 4 .

LI m USS THAN
or a oDCArEP TtMM
no * i*or ucT&creo
H«i a N3T S«M»tEO
POLLUfANrs NQP Ltsrco
*ERfc NOT DfSTCCrCO
U5H.E C— 42
MO	&T3ftK EveNT THKtC
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OF
1111*1
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cso
111 16
pQAin
FI»iT FLUSH
t :»i7
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branch
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I ! 1 19
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6t9ti«0
6m>o«o
J62.0
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12.0 LT
I'i.O LT
I 2 « O LT
% •«»
ba.o
2J.0
17.Q
2*1*
NO
NO
NO
~ .I
St .0
I *2
11*0
2t> »T
2* J
NO
NO
NO
$.6
164.0
2.0
S7.0
52.0
6.1
I *4
2.4
3*9
2.2
23*0
NO
NO
NO
NO
ND
NO
NO
t *6
e»*2
NO
NO
NO
NO
NO
NO
4*0
7*0
NO

NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
NO
ii.o
2.%
3.6
NO
ND
NO
NO
NO
NO
*•6
a.s
*•0
3*9
9*0
0.0
3*9
NO
NO
NO
NO
NO
NO
NO
ND
NO
NO
NO
NO
16.O
NO
NO
NO
90.0
74*0
169*0
159*0
NO
NO
NO
NO
NO
-------
ST. PAUL
tus
OH tlKr»0
pollutant
UNI fS
1096 1


tflOCHfcttlCAL OATGLN D€ MANO
MO/L
22.0 LT
CHLMIC4L OKVGCN OEMAND
MG/L
270.0
fUlAL UROANIC CANUUN
MG/L
NS
NUN-PAKf ICULA VC f OC
MO/L
24.0
TOTAL WHO'.
MG/L
lt»9.0
rnTM. VUIATIK SOLlUt*
MO/L
34.0
roT*t_ VOL SOLI US
MG/L
6.0
IOTAL SUSPENOLC SOL IDS
HG/L
2J.0
TOTAL VOL OlS SOLIDS
MO/L
2M.0
roTAL OlSsULVtO SOLIDS
MC/L
166.0
St » rLLAUtfc SJL lOS
ml/l
1.0 lt
CtLO'M'A
MG/L
29.0
ANMOfUA N| TllOGCN
MO/L
6. A
fljfAL PHtNOL
UG/L
40.0
il|L ANU (A£AOL
MG/L
S.O LT
"t-IALU- 	


AlittHUNV
UG/L
4.0 lt
AH'jCNIC
UG/L
J.O lt
HtHULlU*
UG/L
6.0
L40M|i#*4
MG/L
S.O
chromium
UG/L
1940.0
CUMPC.H
UG/L
JJl.O
LiAU
UG/L
61 7.0
Mr UCUWV
UG/L
1 .0 lt
NICKEL
UG/L
40.0 LT
S(rtr.NIUK
UG/L
4.0 lt
SlLVtt*
UG/L
io.o lt
Thallium
•K./L
100.0 lt
I |I«L
UG/L
230.0
uiuta^			


C TANIDfc
UG/L
20.0 LT
UUtiLUtlXCfilIiOeiAL.*£XAUa...-.


ALUMINUM
ug/l
J6-1.0
BARIUM
UG/L
JO.O
BORCIN
UG/L
200.0
CALLlUM
UG/L
2A3OO.0
If ¦ I.CSS THAN
gt *. bWCATift Than
na M NUT tlCILLfCO
N'j m NO! SAM^tLD
tmurANf!, hot listeo vcpc not otTecTeo
VAI&C C-iB
MN OAV	tb'ATHtA COMPOSITE
MHA SAN	PHA STM FUS
OK tlKuO	rox M20 TAP VATCP
|0*#OJ	1096 J I
»00«0	22#0 LT	5*0 LT
2*00.0	tiO.O	JO.O
NS	4.0	1A • 0
490 .O	NS	N'j
11 10.0	J4/.0	I 42.0
OMiO	72.0	24*0
144*0	4.0	4*0 LT
J40.0	4.0	4.0 LT
520.0	(.A.O	24.0
7#M.O	JJrt.U	142.0
J.O	1.0 LT	1,0 LT
I 1.0	.15.0	10.0
7.rt	1.0 IT	I .0 LT
JH•0	H.O	7.0
15.0	1.0 CT	25.0
4.0 LT	4
1.0 lt	J
6.0	7
4.0	fe
22.0	IH
76.0	6
160.0	£50
1.0 lt	I
40.0 LT	46
4.0 LT	4
7.0	7
100.0 LT	100
102.0	9
20.0 LT	ZO
767.0	35
41.0	6*»
I6H.0	34
464 00.0	9*400
• 0
LT
4.0
LT
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LT
J.O
LT
• O

7.0

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2.0
LT
.0

H.O
LT
• 0
LT
1 J.O

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5J.0

.0
LT
1.0
LT
.0

40.0
LT
• 0
LT
4.0
LT
.0
LT
7.0
LT
• 0
LT
100.0
LT
.0
LT
96.0

• 0
LT
20.0
LT
• 0
LT
910.0

• 0

4.0
LT
• 0
LT
J4 .0
LT
.0

4 68.0

-------
«>r. I'AUL
POLLUTANT
UNITS
CU'j
f>i» uicr4)
ioooi
COtlALf
tMltf*
MULVtlDCNUM
^•M>| IJtf
UN
1|tANIUM
VANADIUM
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VC/L
vo/b
UO/L
UO/L
UO/L
Ufc/L
UG/L
IfO/L
UO/C
(K»/W
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4tf/•»
0
17.0
LT
2 J900.fl
3 IftO.O
6«Q
16.0
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pitrMriPMfHAiAa	uo/c
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0« ItKf.O
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lt
LT
I 4 • O
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moo.o
JO', .o
i-».o
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JO.O
2.0
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LT
7.0 LT
2J7.0
1 I 4 • <1
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37*00.0
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5,0
|(t*0 lt
2*0 LT
NO
2*1
30.O
1.2
NO
NO
2 3.*
NO
NO
10* I
NO
NO
NO
4*N
|*«0 NO
0*1
NO
NO
-------
C-l.


ST*
PAUL*
MN

torn rvENT
ONE








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cus

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EUS

EUS



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POCLUTAMf
UNITS
10465

(6V66

IO-167

1 09AK

I0'J6<>

10176

CQt4tttJllU£*4L£tfdt»£atlX£*li.Qtl&l.












HtOCMKMICAL UArGFN OF MANO
M&/C
26.0

IS.O
LT
IS.O

17.0

15.0
LT

NS
COMICAL DKYUtN DCMANQ
MG/L
Tb.O

%.o

140.0

1 30*0

J4.0


NS
TOTAL ORGANIC CAAdOh
MG/L
43.5


NS

NS

NS

NS

NS
NON-PAWTICOLAIE TOC
MG/L

NS


14.5

17.0

14.S


NS
rufAi ^ULiOb
MG/L
2T(J.O

210 .a

249.0

2AO.O

St .O


NS
TOfAL VULATtLfc SllLlOS
MG/L
tt»*0

<#J.O

95.0

1 1 1.0

1 1.0


NS
TOTAL VOL SMS SOLIDS
MG/L
27.0

61 .0

61.0

62.0

A.O


NS
TOTAL SUViWiO SOtlOS
MG/L
32*0

1 J7.D

IB9.0

IS2.0

IS.O


NS
forAC VOL UlS SOLIDS
MG/L
61 *0

J^.U

J2.0

44.0

?.o


NS
total dissolvco solids
MG/L
246*0

73.0

60*0

an »

16.C


NS
SI: r TLtAtfLt SOL IDS
ML/L
1.0
IT
1.1

2*1

t. %

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LT

NS
CmuOWIUE
KG/ l
' 120.0

24.0

11*0

27.0

H. 1


NS
AMMONIA k! t*ugen
MG/L
12.0

1 .T

1 .0

1 .6

1 «o
LT

NS
TUfAL »VtLNUL
UG/L
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«#.r

9.7

a. i

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NS
OIL ANO GWEASE
MG/L
JO.O
LT
6.0

4.0

a.o

S*0
LT

NS
FtT.fit*	 		













ANT I MONV
UG/L
4 *0
LT
A *0
LT
4 .O
LT
4.0
LT
4 0
LT
4.0
LT
AWSfcNIC
UG/L
J.O
LT
3.0
LT
J.O
LT
J.O
LT
J.O
LT
3*0
LT
»£»*rLLiuM
UG/L
2.0
LT
2.0
lt
2*0
LT
2.0
LT
2.0
LT
2.0
L T
CADMIUM
UG/L
10.0
lt
10.0
LT
10.0
LT
10.0
LT
13.0
LT
to >0
L T
CHROMIUM
UG/L
20*0
LT
2O.0
LT
20*0
LT
20*0
LT
20.0
LT
20 .0
LT

UG/L
40.0
lt
40.0
LT
40.0
LT
40.0
LT
40 . 0
LT
40.0
L T
Lt AO
ug/l
150.0
LT
3?3.0

3dA.O

2 44 . 0

150.0
LT
150.0
LT
MtRCUH*
UG/L
1*1.
t T
I .0
LT
1.0
LT
1 .0
LT
1 .0
LT
1 .0
LT
NlUU
UG/L
60.0
LT
60.0
LT
60.0
LT
60.P
LT
6C-0
1. T
60 . 0
L T
SfcLtNtU*
UG/L
4.0
LT
•4.0
LT
4*0
LT
4.0
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4.0
LT
4.0
L T
SlLVEM
UG/L
10*0
LT
10*0
LT
IO*0
LT
to.o
LT
10.0
LT
to.o
t T
Thallium
UG/L
100.0
LT
too.o
LT
100*0
LT
100*0
LT
too.o
LT
100.0
L T
zinc
MG/L
ttS.O

I6J.0

2<#4 *0

2M«o

74 . O

23.0

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CYANIDE
ug/l
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20*0
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NS
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ALUMINUM
ug/l
J7J.O

2370.0

4060 .0

JOSO.O

607.O

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LT
BARIUH
UG/t
44.0

40 • ©

70.0

69.0

10. 0
LT
10.0
LT
BORON
UG/L
JO.O
LT
JO.O
LT
10*0
LT
30.0
LT
30*0
LT
30.0
L T
L ALC 1 UM
UG/L
26600.0

12100.0

14000.0

|40 00.O

bion.o

4 10.0

LI • LCM Than
or m GUEAT fcU THAN
NO s MOT OE TEC JED
MS * NUT SUMPLLD
Puaur4N>« nor listed
MERE NOT DETECTED
-------
ST* PAUL*


CUS


«tf nxbP
»»ocwtant
UNITS
1 090V
CO.-fACT
UC/L
1 1.0
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UG/L
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MAUNtSIUM
UG/L
6260.0
NANCANESt
UC/L
44*0
MOtVBOCNUH
UO/L
J'i.0 lt
SOOlUM
ur./L
2*200.0
tin
UO/L
A50.C LT
TITANIUM
UG/L
12.0 LT
VANADIUM
UC/L
25.0 LT
YTTRIUM
UO/L
10*0 LT
*vJLfiHLC-0Bi«6MiCti	


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UG/L
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NO
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9.*
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UG/L
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fLUO^ANrHtNt
UG/L
NO
MHCNANfMHLNt
UG/L
NO
PYMcNt
UG/L
NO
HE NZOI A) ANThMACCNC
UG/L
NO
ai 1»(2-E TMTLHEXVL IfHTMALATC
UG/L
36.0
Dl-h-uura MMfHALATE
UG/L
73.0
lifc!UKUL4llL£_fl£I Q	
et.iiii.iuc_tai«4Ci4tiLts
ir « uus nuN
or * Gtt£AT£ft VHAN
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CUS

CM*#

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c so

FIRST FLUSH
ttUNOFF

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1 096H

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16*0

4*0
LT
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5.0
LT
iri»o.o

7TJO.O

fcjrn.o

6 1 f> • 0

IS .0
LT
J590 .o

6X70.0

5370*0

1000.0

6H.0

I 10*0

1 HA .0

1 50 . 0

21 .0

39 .0

35 .o
LT
V».0
LT
35.0
LT
J5.r>
LT
3fi. 0
L T
5000 .0
LT
5000.0
LT
5000.0
LT
5000.0
LT
5000.0
L T
~ 50. *>
LT
A 50 • 0
LT
« 00.0
LT
A 50 • 0
LT
A5O.0
LT
bs « 0

t *W . 0

1 21 .0

12.0
LT
I* .O
LT
25 .0
LT
r»*o
LT
25.0
LT
25.0
LT
25.0
LT
10.0
LT
10.0
LT
1O.0
LT
10.0
LT
10.0
I T

NO
A.7


NO

NO

NS
1 .o

1 .0

1 .3


NO

NS
7.5

8.6

7.A

2 J .2


N5
3*0

6« 1

5.0


NO

N5

NO
A.S

5.6


NO

NS

NO
6*9

5.3


NO

MS

NO
3.rt


NO

NO

NS

NO
5.M

5*0


NO

NS

NO
A.O

A.O


NO

NS
J3«0

3f» . 0

3* *0


NO

NS
1 I «0

10.7

16.0


NO

NS
-------
tAbi t C-l
st. Paul* mm	s»r
ME.* SAN	PHA VAN
VW 'J«CO	C!i*
MUtLUTANt	UNITS	I0<«tl2	lO«lrtl
&gcjxtttiiaa&L£au!fCf»vt«£iutt6i




mocHCKKAt OMfcitN n+.MAMO
MC/l

NS

MS
CH&NICAL UXVGtN O£*A*0
MG/L
940.0

2f*0*O

T^TAL UXUNIC CAffttdK
HC/L

NS

MS
NO*t-**AWT ICOLAT& TOC
MG/L
210.0

57.0

TOTAL MJLI0S
MG/L
Aao.o

247*0

TOTAL VOL A TILL sanos
*0#L
401 *0

1 St *0

f.JliL VOL SuS SOLIDS
MC/L
337.O

b'i.o

VOTAL SU>'f M)l:0 SOLltf*
MG/L
47O.0

12S.0

fjT-L VOL OI!» SOL ID'#
MO/L
164.0

r>r»*0

total oissolvlo solio*
MG/L
402*0

122*0

Sf Tf LfcAULL SOLID*.
ML/4.
1 J|*0

1*7

CfA-OKlufc
MG/L
22.0

l.rt

AHMUNIA NITRUWtH
MG/L
10.0

1 *0
LT
Total phluol.
UG/L
J J.O

37*0

Ult An|> wlau
MG/L
51.0

I 1 *0

•JdlOLS		





AWf1 Mum*
UG/L
4*0
LT
4.0
lt
AMSC.NIC
UC/L
3.0
LT
3*0
LT
ftt"*LL(U*
UG/L
2.0
LT
2*0
LT
CAUMIU4
UG/L
10*0
LT
lO.O
lt
CHWOtlUN
UC/L
20.0
LT
20*0
lt
CUPPf»
UG/L
71*0

40*0
lt
LfcAD
IK»/L
202*0

1SO.O
lt

UC/L
1*0
LT
1 »o
LT
HICAkL
UC./L
60.O
LT
60*0
Lt
SFLLNIUM
UG/L
4.0
LT
4.0
LT
SILVC*
UG/L
10*0
LT
10*0
LT
thallium
ug/l
100.0
LT
100.0
LT
/IMC
UG/L
SM)*Q

I2(**0

Of»ft-(I5





crANiue
UG/L
20*0
LT
20*0
LT
*UttL(ttf2£2*XI09Ml^e!lLXALS	





ALOMlMiM
UG/L
5040,0

2TV0.0

tfAMIU*
UG/L
129.0

34.0

bOMOU
UG/L
176*0

30*0
LT
CALC lUM
UG/L
41300*0

10400*0

Lf * Less fHAM
(•I i (idfArtM THAN
HO a NU1 OLItCTEO
M*» * tlUI SAMl*L£0
hAXUTANf', NOT LUrtU
•e«c not oerecrco
CVS NT ONC
PMA SAN	PHA 5Alt	PHA SA+t	P$4A STM	PHA
CbO	f IflST FUbH	POWVf	SS	PPtCIP
io.0
4*0
JiH
1 .0
12.O
LT
|3.0
150.0
l«.0
NS
LT
LT
62.0
2T.O
4*0
4,0
24 .o
60, 0
I, o LT
~ 7
1.0 Lf
t 2.0
10.o LT
*•0 Li
3*0 LT
2*0 LT
10.0 if
2O*0 Lf
4Q.0 LT
130*0 Lf
1*0 LT
00*0 LT
• *0 LT
10*0 LT
100*0 LT
137*0
4*0 LT
.>*0 LT
2*0 LT
(0.0 LT
20.0 LT
40*0 LT
150*0 LT
1 *0 LT
60*0 L*
4.0 LT
10.0 LT
I 00 * O L T
304 .0
4*0 LT
3.0 LT
2.0 LT
10*0 LT
20.0 IT
+ 0.0 LT
150*0 LT
I .0 LT
*0.0 LT
4*0 IT
10.0 LT
I Ort.O LT
I Jft*0
4*0 I T
3.0	LT
2,0	IT
10*0	LT
2O*0 LT
*0.0 lt
150.0	L T
I «0	L T
60.0	LT
4 • O	L t
10,0 LT
I 00 .0 LT
101.0
4*1) IT
3.0 L T
*.0 LT
10.0 L T
*0.O LT
40.0 lt
150.0 LT
1.0 LT
60.0 LT
4 . O L T
10.0 L r
100.0 LT
6S.0
20.0 LT
20*0 LT
20*0 LT
1040*0	30*0*0	3410*0	1690.0	224.0
43*0	99.0	45*0	49.0	10.0 LT
10*0 LT	40.0	30.0 LT	30.0	LT 30.0 LT
IO|O0«O	17400.0	IISOO.O	24t»On.O	1620.O
-------
tABLl OI4
ST. PAUL* MN	&r()MN LVtNT (>Nt


PHA SAN
PHA SAN
PHA SAN


«W HKM>
CS*

cso

pollutant
UNI 15
10*1(12

lO^HJ

IOVf»*

coualt
UG/L
fl.O

'..0
LT
s.o
LT
IWON
UC/L
6i*o.o

4VIO«0

SI IO.O

KAGNi^llH
UG/L
|4M0O*0

•190*0

4130.0

MAM.AN6M.
UG/L
2»i.o

141 *0

I4M.0

MULVHUCNtJM
UG/L
JS.O
L*
11.0
L*
35.0
LT
SODIUM
UC/L
50700.0

5000*0
LT
sooo.o
LT
TIN
UG/L
4S0.0
LT
4S0.0
LT
4Sl».0
LT
T1 TANIU*
UC/L
ma.o

*1.0

SJ..0

VAMAOIUN
UC/L
2*.o
LT
20*0
LT
2S.0
LT
rrfKiuM
UG/L
IO.O
LT
to.o
LT
10.0
LI
			







CHLU»IOFURM
UG/L
7.0


NO
4.S

tULUfc'Nt'
UG/L
24. S

2.1

2*1

t THTLrJfcNZtNt
UG/L
10.2


NO

NO
UttONOMiTHANE
UG/L
9.2


NO

NO
CMlU»*0«C THAN£
UG/L
I*. I


ND

NO
MtTHTUiNt CHLOMIOC
UG/L
3a.o

1 J.O

12.1

TttMACHLUaOtTHE Nfc
UG/L

ND

NO

NO
ifL«i-xai&llU._tl&S££C)£UlflALS..






t-'LUOnA.'lTHLNC
UG/L

NO

HO

NO
PHtNAHrHRI-Ne
UG/L

NO
JJ.O


NO
atS(2-eTMVLHfcAVLlPHTMALATe
UG/L

NO
13*0

11*0

O 1 — N-LSilT VL PHTHALATe
UG/L

NO

NO

NO
iLilUClLailLt-ftClQ	
etui!Lii;c_tsieaciAULt5.
LT * UiS THAN
(if * GtttATfcf* THAN
NO * NOT OETtCTCO
MS t NOT sampuo
POLLUTANTS NOT LISTED
«£»t NOT DETECTED
PHA SAN
PHA SAN
PHA ST*
P»«A

[NOT *LUSH
PUNOtF

SS PL

PWEC IP

IOVHO

torn

109**

I09SS

O.O
LT
5.0
LT
V.»

S.O
LT
•tfid*o

4SSO.0

22 HO•0

UH,0

7140.0

JSSO.O

1 1 * 00 . o

^•60.0

2 IS • 0

ITh.O

2 41 .0

J. 0
LT
JS.O
LT
JS.O
LT
JS. 3
LT
J>.0
LT
SOOO.O
LT
0000.0
LT
SOOO.O
LT
SOOO.CI
LT
4S0.0
LT
*50.0
LT
450.0
LT
• SO .0
LT
1 15.0

1*0.0

U. 0

12.0
LT
20.0
LT
21.0
LT
2S.P
LT
2«». C
LT
10.0
LT
IO.O
LT
10.C
L T
10.0
LT
s.o


ND

NO

NS
2.4


NO

NO

NS

NO

NO

NO

NS

NO

Nt>

NO

NS

NO

NO

NO

NS
20.0

10. «

11 .2


NS
t .6


NO

NO

NS
6.1


NO

NO

NS
3.8


NO

ND

NS
26*0

11.0

12.0


NS
3.7


NO

NO

NS
-------
t>H.( C-IS
ST. Paul, mn	or on* Event two
OH* SAN	PIIA S«N	PH» SAN	PHU SAN	PH* SAN	PHI ST«
«W BKCO	ISF	CSU	rl»SI FLUSH	»UNOFf	SS Fl
pollutant	units	io>ro	iot?i	lo**r;	loqrj	io<>7«
£WXEifll(tt&L£iia*& .0
LT
tHtfflCAl. OKTUEN DEMAND
mc/l
790*0

430.0

400.0

700.0

1 JO .9

7«.0

TUT AC ORGANIC CARBON
MC/L
2C0.0

150*0

170.0

! no.o

32.0

Sfr.O

total solids
mq/l
7 23*0

399*0

4*J3«0

592.0

2 10.0

2'>4 • 0

total v*l*til£ solids
Mf./L
390.0

I4S.0

28S.0

JOft.O

1 Jt. • 0

1 JO. 0

TOTAL VOL UUS SOLID'J
M&/L
215.0

12*1.0

16rt.0

201.0

27.0

is.o

TOTAL SUSPENDED SOLIDS
MC/L
393.0

2 3S.0

305.0

3HI .0

1 14.0

21 .0

toial vol ois sglios»
MO/L
101*0

70.0

117.0

10 7,0

1 09.0

1 1 !» • 0

TOTAL Dt j>OLVED UOtlOS
MWL
32*.0

164 .0

lai.o

21 1.0

1 16.0

24 1.0

StTTLtABLE SOL I OS
ml/l
11*0

7.3

H.rt

7.S

1.0
LT
1.0
LT
CHL LW 1 U£
HG/C
^•o

1 J.O

i

19. 0

W5

** . I

AMMONIA N1TU0GEN
MG/L
T.«

3.9

3.S

4.H

t .0
LT
t .0
LT
TOTAL PHENOL
UO/L

Ni
H')«0

77.O

39.O

690.0

H.S

OIL AH0 CREASE
KG/L
31.0

2S.0

(9.0

25.0

14 «0

5.0
LT
&L14L i — 		













ANt 1 MONV
UC/L
4«0
LT
4.0
LT
4.0
LT
4 . O
L T
4.0
L 7
4 • 0
LT
ARSUNIC
UC/L
J.O
LT
7.0
LT
3.0
Lt
3.0
LT
3.0
LT
3 .0
LT
HLMVLLlUM
UC/L
2.0
LT
2.0
LT
2.0
LT
2.0
LT
2. O
LT
* .0
LT
CADMIUM
UC/L
16*0

15.0

. 15.0

17.0

15.0
LT
17.0

CHROMIUM
UC/L
52.O

40*0
L T
40.0
LT
40.0
LT
42.0

40. O
LT
COPPEH
UG/L
1 JO.O

94.0

91 .0

1 06.0

60.0

S7.0

L€ AO
UC/L
204.0

I9J.O

201 .0

2*2.O

2or*. 0

IHO.O
LT
MtMCUKV
UC/L
I.O
LT
1 .0
LT
1 .0
LT
1.0
LT
1 .0
LT
1 .0
LT
NKKtL
UG/L
1 M.O

99.0

91 .0

VI.0

ttJ.O

201.0

'ifcLENlUM
Ub/L
4.0
LT
4.0
LT
4 . li
LT
4.0
LT
4.0
LT
* .0
LT
SILVER
UG/L
10.0
LT
10.0
LT
IO.0
LT
10.0
LT
10.0
LT
10 .0
L T
Thallium
UCA.
70.O
LT
70.0
LT
70.0
LT
70.0
LT
70.0
LT
70 .0
L T
t INC
uc/l
J99,0

234.0

243.0

31 1.0

1 ftH.O

6 1 .0

oTHt»;i 				













CfANlue
UC/L
2S.O

20.0
LT
2O.0
LT
K
O
•
o
LT
20.0
LT
20 .0
L T
MOJjCQ£#X£fittIflMAk_a£lAL5	













aluminum
UC/L
3070.0

4110.0

3690.0

47O0.0

34 80.0

749.0

UA'IIUM
UC/L
165.0

9S.O

95.0

1 23.0

62. 0

77.0

UOfcON
UG/L
244.0

111*0

44*0

80.0

20.0
LT
99.0

CALCIUM
UC/L
412QO.O

20300.0

19300.0

271 OO.O

9510.0

493 no•0

cobalt
UC/L
35.0

30*0
LT
30*0
LT
3rt.O

10.0
LT
37. 0

LT m	Less Than
CI x	CRttrER THAN
NO >	NOT UE TEC TED
NS •	HOI SANPlEO
pollutants nor listed
WERC NOT DETECTED
-------
ST. MAUL
pollutamt
units
PHA jM
«« n«cr»o
I097O
IMON
MAGNt&tU*
MANOANtbk
MULTUDLNUN
SOO I OM
tin
rt tan*um
VANAOtU*
vrmiUN
VH*/U
uc/i
uc/t
Ufe'L
UO/L
UO/'I.
Wi/l'
UO/L
uc/t
7|60*Q
io^oo.o
^8>ltO
• S.O Lf
*S.?00.0
rtOO.O 1.1
i«sr.o
2O»0 LT
IS.O Lf
XUIA Z ILt-dtiHtllCi—		
C ML OKI* ohm	UG/L
lULllCf*	UC/L
MCfHVLtNC O4.UUI0C	U&/L
Tt tHAC 'LOHUbTHCNC	UG/(,
I «^-OtCHLQRUMRO>ANC	UO/L
NO
NO
NO
NO
NO
?
m
:iU!X=XULlLliWL_llA&Ue£lll8AV&_
AMfHrfACLtt	UGSl
FLUUWANThLN€	UC/l
BcNZUUtANVlMACCNC	OG/l
BIM2-C rHrLHt-XVDPHfNAUTe UC/L
NO
NO
NO
NO
>&9l2aLAilL£.&UQ—
*.*-OI<,MLOPQMm£NOL
* •*-01 NE fHtLPKENCt
PMlNUL
PL N f ALNLGMOPH* NOL
UCA.
UG/t
UG/t
UG/t
S.6
NO
NO
et:«ixciat.U(X8i£i*aLC2
Lt « L€SS Than
GT m gs(4TER Than
NO « NOT OC If-CTtO
NS * NOT SAMPLIO
POUUIANT& NO I CISTCO
VCPC NUT dctcctco
fAtlLL C-lf*
MN	CV£nr TfO
PHA *» AN
C'»K
in^M
PHA SAM
Cf.0
tO'172
PHA SAN
fI1ST FLUSH
I 097 J
PHA SAN
RUNOFF
109 7*
PMA STM
55 h L
I09 7S
O7J0.O
M*>«0
AO.O lT
jjiqo.o
MSO.O L.T
utl«0
20.0 lT
4S.9 Lf
6soo««
199*0
*0*0 Lf
2*jdr)f>« 0
nr>o«o lt
I JU.O
20 . o lt
15.0 lt
61 *a«0
»t«60,0
2 J2.0
*r>.o lt
A62C0.0
rso.o lt
i j**.o
20 *0 LT
10*0 lt
S6TO.O
2AI0.0
IV*. 0
• S.O LT
I l*>l>0.0
KOO.O LT
ITO.O
20.0 LT
lr>.0 LT
b>>}*0
2IHOO.0
2«»S>Q
4T..0 LT
?JiU0.0
H?»0.0 LI
• 0
20.0 L T
10.D LT
I I .o
S.2
20.0
7*4
A«6
21 .0
3*2
7.9
7.0
41 .0
NO
4.1
2.9
W • 9
NO
NO
ltt.0
I
NO
NO
NO
2*«0
IA.0
5.9
2A.0
A.5
«•*
4.9
K.O
11 *0
NO
NO
NO
NO
NO
NO
NO
NO
9*2
NO
<>•0
11*0
NO
NO
NO
?»0
952.0
NO
NO
ND
NO
NO
-------
fAMLC t-$5
st. Paul* m*	.roftM fcvf.Nr r«o
tus	m/s	eu'j	cufj	eu*>
CV	CSO	f (M&r *LU5H	«UM)Ff	WtCtP
pollu taut	units	twrr*	io«»n	to* no	ioo*u	uouu
CQtnftfc£lttJ&L£!»£toCQ*2&tfLiQtlAL
tilUCIteHlCAL OKTGCN OfcMANO
MC/L
in.o
Lf
f».o
lt
ftO.O

15.0
Lf
45.0
LT
CHEMICAL UVTGfcH ULNANO
MO/l
77.0

67.0

V0.0

<»0.0

25.0
LT
rot AC ORGAN K C Ai'UOH
*6/L


2.T.©

1 50* 0

»2-0

5.0
LT
TOTAL SOLI OS
MG/L
1 2 J.O

165.0

<34.0

50.0

50.0

TOTAL VOLATlLt SOlIUj
NG/L
67*0

ttfl «o

l« j«o

JH.O

55 * O

TOTAL VOI. Sift VKlO'i
Mfe/i
2« .0

10.0

105 *0

9.0

5.0

total so'^'iKOto *>otro!»
NG/L
/fl.O

VJ.I)

2irt.o

17.0

4.0
Lf
rgtH VOL DlS UKIU!t
MG/L
«.i.o

71 .0

IH.O

29.0

50.0

fafAL OlMULVtD SOL 101
MG/L
45*0

72.tf

104*0

J3-0

50*0

StTTLtAOLt FOLIOS
ML/L
1*0
LT
K .0
LT
7. 4

1 .0
LT
I .0
LT
CHLUifloe
MG/L
J.5

2.1

2 J.O

. 7

.7

AMMONIA NlVWOOtN
MG/L
1*0
Lf
1 .o
Lf
1 1 .0

1 .0
LT
1 .0
Lf
Torac mnot
UG/L
7.5

7.rt

.10.0

1 1.0

5.2

UIL ANU GRfeA5fc
ng/l
10*0
LT
»o.o
LT
KuU

IO.O
LT
to.o
Lf
CLlAl*	 . — —











ANflMONF
UC/L
4*0
L t
4*0
LT
4.0
LT
4*0
LT
4.0
Lf
AHSiNK
uo/u
1.0
LT
1.0
LT
3*0
LT
3.0
L f
3.0
LI
tfiwriiiun
UG/L
2.0
lt
2*0
lt
2.0
l r
2.0
Lf
2.0
Lf
CAOMION
UG/L
12.O
t.T
IJ.O
LT
12.0
U*
i:.-o
Lf
12 .O
LT
CHNUNIIlft
UG/L
29.0

JB.O

.140.0

2S.0
Lf
25.0
LT
COI'fLH
UG/L
JH.O

32.0

22'.0

20.0
Lf
20.0
L f
LI. All
UC/L
JOfc.O

4|7.O

461 .0

200*0
Lf
2 00, 0
L f
HE MCUUV
UG/L
1.0
LT
1 .0
LT
1 -o
lt
t«0
Lf
1 .0
LT
NICKEL
UG/L
75*0
LT
75.0
LT
7^.0

75.0
Lf
75.0
Lf
*JtLf NIU*
UG/L
4.0
LT
4.0
LT
4.0
lT
4.0
Lf
% .0
Lf
•>ILVC«
UG/L
IO.0
Lf
IO.O
Lf
10.0
LT
IO.O
Lf
10.0
Lf
THAUlUt
UG/L
7*1.0
lt
75.0
LT
75.0
lt
70.0
i_f
75.0
t f
/INC
UG/L
1 39.0

161.0

416.0

W.O

5.0
Lf
OTifEtIS











CVANtoe
UG/L
O
•
o
N
Li
20.0
LT
20.0
LT
20.0
Lf

NS
t#U!rtUfttfcetflQtlflU..E?tIALS	











AlUMIfrUW
UG/L
20QO.0

2510.0

3010.0

573.0

1 05.0
Lf
tfARIUM
UG/L
43*0

44 .0

72.0

25*0
LT
25.0
Lf
tfOWUN
UG/L
J2«0

IO.O
Lf
-------
*?• MAUI.
tus
csp
POLtUTANT
UNITS
109/'I
NON
UO/L
W »O,0
KAON^SIUN
UO/L
JObo.o
MAWiANCbl
UC/L
1 l#.0
MUU1itC£NUM
UO/L
•a*o lt
UUOlUH
UC/L
flMO.O
TIM
UO/L
Ar>0.0 IT
titanium
UO/L
Hf*0
vanaoioh
UO/L
15.o lt
VTMlUN
UO/L
u«o lt
fcyLAllLt_0tfW4Ml.CU	


t1M.Ot.NL
UO/L
1.7
MtTHVLtNE CMLOPIUC
UO/L
IT.O
rLTMACMLOMObTKCNE
UO/L
NO
ub?izyuc6iiLk.aA^t^tfeuXBAkS-
H(-NZU|d|FLUOI'ANTHlNe	UO/L	2*0
rftNZU(A|MVMtr4l	UO/L	NO
- CHLUHU1	) e TmCD UC/L	NO
FLUOUANIHcNc	Ub/L	NO
«Ol

1 1 ooo

41 JO.II

*070.0

1 2 30 • 0

40.0
LT
JI60.0

«.1l 0*0



3?.0

1/4*0

706.A

40.0

J.O
LT
40«f)
Lf
40*0
LT
40.0
LT
«0*0
LT
¦*000.0
LT
25400*0

nooo.o
LT
4000.0
LT
Hf»0«Q
LT
6S0.0
Lf
650.0
LT
aso.o
LT
vtt.u

llrt.O

27.0

12.0
lt
10*0
LT
13*0
LT
15.0
LT
15.0
LT
12.0
LT
12*0
LT
12*0
LT
12.0
LT

NO

ND

NO

NO
fe.r

15.0

14.0

26.0


ND
)?.0


NO

NO
2.0

J.O


NO

NO

NO
2.1


NO

NO

NO
r.o


NO

NO

ND



NO

NO

NO
4.0


NO

NO

NO
4.0


NO

NO
6.7

21 .0

4.0


NO

NO
6*0


NO

NO
-------
TABLE C-H
SEDIHEST RESLLTS
rrovidence
	St. Paul		Seattle		Ernest Interceptor
Pollutant	l!nlt»	Euatia Phalen	Lander Mic&irao	at Allea*	Lipe
MetiU
Astlaony
Mt/kt
3,000
<400
2,600
1,900
4,900
640
Artfjic
Mt/k|
1,700
3.200
27,000
11,000
290,CM
3,600
krylliu*
MAC
70
70
UO
460
171
210
Cadaiua
Ml/kg
360
£60
600
4,>00
320
4,400
Chcoalua
M|/k|
310,000
17,000
6,000
31,000
32,000
120,000
Copper
ft/Its
SI ,00b
26.000
4(0,000
110,COO
150,SCO
500,000
lead
Ml/Its
200,000
490,000
140,000
260,000
SO,000
330,000
Mercury
Ml/k|
'.J
:,joo
UO
>,400
17,00
1,200
Sicfcel
Mt/kt
33,000
7.JC0
26,000
37,000
96,000
74,COO
S-leniua
M|/k t
<400
<400
<500
<500
<200
<10,000
SiIver
Mt/kt
640
1,100
460
3,200
2,000
520
Thalli.ua
Ml/kg
<2,000
<200
<200
<200
<70
<400
line
Mt/kg
96,000
'.00,000
140,000
320,000
240,000
1,000,000
Othtrt







Cyanide
Mt/k«
<12,000
<45,000
1,400
7,500
12,tOO
3,400
IOC
Mt/kt
9t
204
4,tOO
1,500
8,400
>10,000
COD
Mt/k|
10,000
13,000
60,000
ISO,000
44,000
66,000
Volatiles







1,1-dlcbloroethane
Mf/k(
SD
NO
K>
150
75
NO
Trlchloraetbena
MS/kg
ND
SO
3D
NO
7S
SD
1,1,1-tricbloroethane
Mt/kf
SD
XL
SO
570
ND
630
1,l'dicbloroetheae
MI/kg
KB
¦VD
m
57
ND
ND
Toluene
Mt/kt
SIS
MD
SD
300
KD
3,400
112-trane-dlchloioethy Una
Mt/kt
80
SO
KD
ND
SD
490
Etbylbenzene
Ml/kg
as
3ID
SO
KD
ND
530
AciJi







laae/Seutrala







Saptbalene
Mt/kt
2,600
SO
SD
ND
SD
1,200
11*(2-«thyItexy1)phthalit*
Mt/kt
MO
1,400
ND
960
SO
36,000
¦utyl benzyl pbthalate
Mt/kt
71
310
NO
ND
SD
1,200
#eaio(a)aat!iracena
Mt/kt
2,400
340
SD
ND
ND
:,4oo
l«nzo(j)pyrcnc
Mt/k|
1,100
210
ND
MS
ND
1,600
B*nxo(k)f luonntheae
Mt/kt
1,700
1,400
ND
ND
ND
SD
Chryaeoe
Mt/kt
5,400
910
KD
ND
ND
1,100
Anthracene
Mt/kt
4S0
92
KD
ND
62
880
Fluorene
Mt/kt
1,000
SD
ND
SD
ND
790
FhenencUteaa
Mt/kt
4,300
510
NO
XD
380
3,800
Dlbeuo(« ,h)anthraetne
Mt/k|
320
ISO
ND
ND
ND
MD
¦«n»(f ,b.i)perylen*
Mt/kt
KD
tt
ND
ND
ND
ND
Fluoraalbcna
Mt/kt
ND
NO
NP
SD
460
3,300
Pyrene
Mt/kt
KD
ND
ND
ND
460
2,800
N"nitrctod:ph*nylaaln«
Mt/kt
ND
ND
1,900
ND
ND
ND
Di-o-butyl phttulate
Mt/kt
KD
ND
170
KD
SD
SD
AceaeplittieiM
Mt/kt
JfD
ND
Nl)
SD
SD
360
t ,2 ,4- tricholocobaaieoe
Mt/kt
KD
KD
ND
KD
ND
400
t ,4-dlctiolorob«axes«
Mt/kt
KD
ND
ND

ND
2,700
fsllutanti not lifted wart not detected.
C-54
-------
APPENDIX D
QUALITY ASSURANCE/QUALITY CONTROL RESULTS
0-\
-------
TABLE 0-1. PERCENT RECOVERIES - WASTEWATER VOLATILE ORGANIC POLLUTANTS
Providiuce	Satttlt	Sc. Louii	St. Paul	Total
Surrot«t«	lKc»n ± c (¦>)! fMe»n ± g (*)1 |Me«n t CT (»)] t.leula (»)1 fMtan ± C (*)1
A. Method Spike
Acryl»ottrile-dj
90 t
17
(6)



76 i
9
(4)
93 i
26
(5)
87 t
18
(IS)
Baniant-d^
102 i
13
(6)



114 1
IS
(4)
97 ±
26
(S)
104 t
19
(15)
Carboa-llC Tetrachloride
85 i
14
(«)



95 1
8
(4)
100 i
15
(5)
• 93 t
13
(IS)
Cblorebeezene-dj
101 ±
9
(«)



110 t
13
(4)
102 t
6
(5)
104 t
9
(15)
1,2-Dlcbloroethanc-d^
82 t
5
(6)
79 ± 13
(3)
99 1
13
(4)
103 ±
9
(5)
91 ±
9
(18)
l,l,l*Ttlcliloro«th»ne-dj
86 t
14
(6)



91 «
8
(4)
92 1
10
(5)
89 1
11
(15)
1,l-Dlcbloroethane-2,2,2-d^
91 ±
14
(6)



98 i 10
(4)
99 t
8
(5)
96 t
11
(IS)
It 1,2'Trlchlorscthane-iaCj
97 t
16
(6)



106 i
19
(4)
108 t
8
(5)
103 1
14
(IS)
l,1.2,2-T«trBchloroethia«-<]2
91 ±
8
(6)



84 1
5
(4)
84 t
10
(5)
87 t
8
(15)
Cttlorefora-llC
17 ± 16
(6)



93 1
10
(4)
92 t
10
(5)
90 t
12
(15)
1,l-Dlchloroetbylene-dj
91 t
15
(6)



99 i
13
(4)
99 t
9
(5)
96 1
12
(IS)
1,2-Dicbleropropane-dg
99 *
14
(6)



111 t
18
(4)
111 t
7
(5)
106 i
13
(IS)
Etbflb«ataaa-dj0
100 t
7
(6)
89 t
2
(I)
108 t
13
(4)
103 1
6
(5)
101 t
8
(17)
Methylene Chloride-d2
97 t
10
(«)



99 i
11
(4)
101 t
7
(5)
99 1
9
(IS)
»roaofona-l*C
•9 1
10
(«)



80 1
4
(4)
80 t
9
(5)
84 t
8
(15)
Toluaaa-J^^^^-dj
102 t
1
(«)
92 t
S
(3)
109 t
IS
(4)
106 t
S
(5)
103 ±
8
(18)
Meaa 1 a
93 i
13
(96)
86 * 7 (8)
98 t
12
(64)
98 t
11
(80)
96 t
12
(248)
B. Matrix Srika















Acryloaltrllt-dj
91 t
17
(46)



73 t 23
(44)
100 4
21
(38)
87 t
20
(128)
Beasea**dg
103 i
13
(46)



109 t
18
(45)
103 t
17
(38)
105 ±
16
(129)
Carbon-lsC Tetrachloride
91 t
IS
(46)



86 1
IS
(45)
98 t
IS
(38)
91 t
IS
(129)
Cblorobeaiene-dj
100 i
12
(46)



105 ±
15
(45)
104 t
7
(38)
103 t
12
(129)
1,2-Dlchloroethaae-d^
97 t
19
(47)
101 t
15
(4)
93 *
16
(42)
104 *
10
(38)
98 t
15
(131)
1,1,1-Trlchloroethane-dj
101 t 20
(45)



86 t
15
(45)
94 t
10
(38)
94 t
IS
(128)
l,l-Dlcbloroethaae-2,2,2-dj
100 ±
12
(46)



90 1
15
(45)
102 t
11
(38)
97 i
13
(129)
1,1,2-Trichloro«th*a«-1
102 ±
13
(46)



102 t
15
(45)
110 t
9
(38)
104 t
8
(129)
l,l,2,2-T«tr*chloro«th«a*-dj
105 t 20
(46)



85 i
15
(45)
88 t
9
(38)
93 t
15
(129)
Chloroform-1JC
96 *
17
(46)



87 ±
15
(45)
95 i
11
(38)
93 t
15
(129)
1,1-Dichloroethylene-dj
91 *
11
(46)



91 1
15
(45)
100 *
9
(38)
94 t
12
(129)
1,2-DicMeropropana-dj
104 1
14
(43)



104 t 22
(45)
112 *
9
(38)
106 t
15
(128)
Ethylbeueoe-djQ
101 t 11
(47)
109 t
17
<4)
101 t
16
(45)
103 t
7
(38)
102 t
12
(134)
Methyleae Chloride-d^
9t t
12
(46)



102 t 36
(*5)
106 «
19
(38)
102 t
22
(129)
Bro«ofor»-uC
91 t
10
(46)



83 S 71
(45)
84 t
11
(38)
86 ±
14
(129)
Tolueae-2,3,4,S,6-dj
100 ±
11
(47)
110 t
IS
(4)
101 t
14
(45)
105 t
7
(38)
102 t
11
(134)
Haaa t 0
98 * 14(737)
107 t 16 (12)
90 * 18(716)
101 t
11(608)
96 t
15
(2,073
0 Standard deviation
(*) NiiAii lo p*r«nth«aii li tha auatwr of data polnta
D-lCv.
-------
TA31£ 0-2. JllTfMCE RELATIVE PERCEVT DIFFERENCE FOR DUPLZCATE
ANALYSIS-VA£7TWIXR VOLAHU ORCA/iIC POllWAVTS
Fo22utJnc
Providence
f!»e« (*)]
Seattle
fSe.o f*)l
St. Louie
r*«» (*>]
St. Paul
Oleao (*)l
Total'
(Mean (*)
A. Unsplketl V«»tev«ti!r Duplicate!




Beoiene
>.
121.0(1)
*.0(1)
-•
64.5(2)
Carbon Tetrachloride
0.0(1)
--
—
—
C.0(1)
1,1,1-Tricbloroethane
15.6(4)
—
--
2R.«(2)
20.1(6)
1,1-DUhloroetbaoe
3-UD
0.0(1)
"
47.9(1)
13.1(4)
1,1,2-Trichloroethaaa
—
IS.7(2)
—
—
11.7(2)
111,2,2-Tetrachleroethaae
—
--
14.6(1)
—
14.6(1)
Cfclorofora
6.6(4)
3.7(2)
22.7(2)
21.1(3)
14.9(1)
1,1-Dlchloroethyleaa
*.0O)
--
—
—
9.0(3)
Ethylbenzene
13.8(3)
10.5(1)
4.3(2)
7.1(1)
9.6(7)
Methylene Chletide
14.2(5)
17.9(3)
*9.6(4)
47.4(6)
44.4(1*)
Broaofora
—
16.7(1)

—
16.7(1)
Toluene
33.0(4)
3»4(3)
53.3(3)
1*.»(2)
36.6(12)
1,2-Tran»-Dichloroethyleue
12.0(1)
—
26.1(2)
—
19.4(4)
Tetttcbloroethyltac
22.7(4)
131.0(2)
14.2(2)
4.7(1)
42.9(9)
Trichloroetlylene
16.9(4)
73.5(4)
24.1(2)
26.7(1)
39.7(11)
Vinyl Chloride
27.9(2)
"

—
27.9(2)
E. Sulked Vaeteweter Duplicate!




^crylonitrile-dj'
10.D (S)

33.1 (5)
16.3 (6)
19.9 (16)
Beueae-d^
10.t (5)

IS.S (5)
2.3 (6)
(.9 (16)
Citboa-,3C Tetrachloride
U.9 (5)

10.9 (5)
4.8 (6)
».?  1,2,2-Tetrtchloroethjiue-iij
• * (5)
hrfenel
4.6 (5)
6.4 (6)
6.6 (16)
ChloroloPB-^C
7.4 (3)

10.1 (5)
7.3 (6)
4.4 (l»)
l.l-Dichloroethylece-dj
*.1 (5)

11.3 (5)
3.7 {*)
*.2 (16)
1 ll-Mchloroprop»»*'j
I I (5)

S.I (S)
6.1 «>
«.» (16)
tUylbeoiene-d<0
12.* (S)

13.6 (3)
3.9 (6)
9.7 (16)
Methylene Chijride-dj
6.0 (S>

11.1 (5)
14.1 (6)
14.7 (16)
Bro«ofone-J1C
9.* IS)

».» (5)
T.O (6)
*.4 (16)
Tolueoe-2,3,4,J,6-4j
U.9 (S)

T.9 (5)
3.* (6)
• 4 (14)
(*) Muabat is |tr«ath«ii» ii tb« auat«r ot datt palate
— Pollutjnt not detected.
-------
tabu #-j. rwcmr ucovuctts • kastowatu mh-moitiiai. rou.uTAirro
S«rroj»l«				
tUiiIn Sgtjw
bese •i «(2-et by Ihccyl) rfctlulat«-3,4,J.t-4^
Difkitirt ffctb»l»tt-3,4.S,6-^
Dl-B-cKlyl
DiaetSyl r1ilkjl3t«-l,4fS,4-^
Clir]ra*nc-4|2
AaU>rarrae-d|g
HwraiH|S
fheMMl hr«a*-

S3
ft
IS
(45)
S7
ft
9
(34)
t4
ft
15
(127)
S2
t
35
(IS)

91
ft
31
(36)
*5
ft
26
(32)
89
1
31
(106)
S5
2
22
(65)

59
ft
24
(*«)
64
ft
20
(34)
59
ft
22
(121)
52
ft
24
{«)

49
ft
IS
(42)
61
ft
It
(34)
53
t
19
(121)
JJ
ft
16
(45)

77
ft
16
(47)
S3
ft
13
(34)
77
ft
15
(126)
lit
t
27
(65)

104
ft
41
(44)
107
ft
20
(34)
109
ft
30
(123)
M
t
2*
(45)
»» 5 (3)
7*
ft
It
(45)
16
1
24
(J*)
63
1
22
(127)
110
t
21
(45)
St ft 47 (3)
96
ft
2B
(43)
95
ft
22
(34)
too
ft
27
(12*)
•7
t
21
(45)

SI
ft
16
(43)
85
ft
15
(34)
84
1
18
(122)
U
±
»
(44)

76
ft
25
(42)
95
ft
22
(34)
S4
1
28
(120)
71
t
2S
(45)

t4
ft
16
(44)
It
ft
15
(34)
83
t
20
(121)
S4
ft
>1
(~~)

76
ft
27
(45)
101
t
27
(34)
16
ft
28
(123)
27
ft
16
(45)

29
ft
It
(44)
24
ft
9
(34)
27
ft
15
(123)
n
t
22
(44)

71
ft
29
(45)
100
ft
33
(34)
88
ft
28
(123)
92
ft
SI
(43)

69
t
37
(45)
92
ft
33
(31)
63
ft
41
(119)
II
ft
22
(U)
« i * (J)
78
ft
29
(45)
100
ft
33
(34)
87
ft
27
(126)
•3
ft
17
(45)

t9
ft
24
(45)
95
ft
It
(34)
88
ft
21
(126)
It
ft
1}
(45)
S7 ft * (3)
92
ft
It
(45)
104
1
21
(34)
92
ft
17
(127)
•I
i
17
(45)

S9
ft
24
(45)
95
t
18
(34)
88
ft
20
(124)
S7
ft
21
(«)

90
ft
26
(45)
102
t
21
(34)
92
ft
21
(124)
79
*
24(8S7)
65 ft 15(12)
7S
ft
24(179)
tt
ft
21(675)
SI
ft
23(2,453)
-------
TAME B-4. AVEUOt ULATIVK PIKER DtlTtaUCXS FM DUTLICATE AM ALTS It - ttttmcVATEH MSK-RUmUL fOLUITAm
Mlrtwt ____________
A.	IhtflM llHtlwUI PmllciUI
ft*rl irmtt
CH
liv.» (*n
St. Umlt
St. CnI
Tot. I
|te«n (*)i
iit»-«(trii«iyi)rUk>liu
Dt-a-tatylphthalat*
bptbltu
UlethyIpfctkjlat*
133.0(1)
33.0(1)
67.0(1)
•11.0(1)
l».0(t)
17.9(5)
16.2(1)
0.0(1)
38.8(2)
37.1(6)
2*.6(2)
33.5(2)
11).0(1)
153.0(1)
38.8(2)
I. _ Mltil M»ilewt«t D»pllcat«»
Arviuptitlwie-il^
Hi ¦ (2-chlorMtky l)Etlker-4^(cli] oroothy 1-1,1,2,2-d^)
1,2-0icltlorofe«irei»e-3,4,5,6-d^
1,6-fll tfclotab«»itw-2,3ti >6"d^
4-Chlorof>b«ay I MmtyI-4-j Etker
1 •o|>lioro«ie-dB(3-tlctfcy l-dj-5 ,W laKtkylryclohcX-2
Naphthalene-dg
mtnbciMw^
N-HilruWMtiplienyl-2,2' .4,4' ,6
lla(2*«llif!liciyl) FhllulaU-3
Ut-a-batyl Fhthalatc-S.^.S.i-d^
Dt-i-ociyt nitkilatc-},4,J,('il^
Dlntkyl
I ,lalcMaalliiiC(M<rtormt4
14.1(5)
71.MI)
3».7(4)
38.0(4)
19.2(5)
36.5(5}
32.7(5)
19.7(5)
25.4(5)
46.9(5)
16.6(5)
47.0(5)
41.5(5)
39.7(5)
66.8(5)
39.9(5)
IS.2(5)
10.7(5)
18.2(5)
26.3(4}
10.6(6)
68.7(5)
70.9(6)
70.9(6)
21.2(6)
7.4(6)
14.5(6)
14.0(C)
22.5(6)
25.5(6)
23.7(6)
20.1(6)
55.6(b)
12.9(6)
47.7(6)
12.9(6)
16.0(6)
7.0(6)
16.0(6)
11.6(6)
II.7(16)
57.4(12)
50.1(15)
50.6(15)
III.7(16)
21.0(16)
21.1(16)
15.2(16)
22.6(15)
33.1(16)
19.90S)
33.9(16)
40.0(15)
23.8(15)
',0.1(15)
19.8(16)
13.9(16)
8.2(16)
14.6(1})
20.4(16)
(4) Umber In |urailk»li la Uw noli rr of data point*
— Pollutant not detected.
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TABLE D-5. PERCENT RECOVERIES - WASTEWATER ACID EXTRACTABLE POLLUTANTS
Surrogate
Providence Seattle St. Louis St. Paul Total
Mean ± o (*)	Mean ± a (*) Mean ± q (*)	Mean ± d (*)	Mean ± a (*)
Matrix Spike
2,4,6-Trichlorophenol-3,5-d^
A-Chloro-3-«#ethylphenol-2,6-d2
2-Chlotophenol-3,4,5,6-d,
* 3
2,4-Dichlorophenol-3,5,6-d
2,4-Dimethylphenol-3,5,6-d^
2-Mitrophenol-3,4,5,6-d^
2,4-Oinitroptienol-3,5,6-d^
V 4,6-Dinitro-2-n»ethylphenol-3,5-d,
Ul	*
Pentachlorophenol-13
Phenol-d.
64
±
18
(45)
65
±
22
(39)
72
+
20
(34)
67
+
20
(HP)
81
±
27
(45)
80
+
28
(39)
80
+
21
(34)
80
+
26
(118)
67
±
26
(44)
58

27
(38)
72
+
20
(34)
66
+
25
(116)
63
+
18
(45)
70
+
28
(39)
70
+
22
(34)
67
+
22
(118)
49
±
25
(45)
69

30
(39)
68
+
25
(34)
61
+
27
(118)
69
+
21
(45)
69
±
29
(4'0
77
+
19
(34)
71
+
23
(121)
40
±
42
(44)
30
±
3*
(38)
14
+
22
(34)
29
+
34
(116)
49
±
34
(45)
34

25
(38)
39
+
22
(34)
41
+
28
("')
81
+
26
(45)
71
+
37
(39)
95
+
41
(34)
82
±
34
(118)
53
+
23
(45)
35 ± 3 (3) 39
+
20
(38)
41
+
14
(34)
45
±
19
(120)
Mean ± o
62 ± 26(448)
35 ± 3 (3) 59 ± 28(389)
63 ± 23(340)
61 ± 26(1,180)
a Standard deviation
(*) Number in parenthesis is the number of data points
-------
TABU »-*. AVCSAGK KIAT1W KtCEMT PIIUJBJHXS FM DWLICATK ANALYSIS - VASTKWATK* ACID EXTRACTABLE POLLOTAKTS
Pollutant
FmMeaM
(»"» (*»
Seattle
life.. (*M_
St. Ionia
I*"" <»)!
St. Faal
iHeaa (*)|
Total
C*>1
*!	VMtUwfr EwlUaf
<-CUvi«-]-wtt|r)fknwl
RkmI
2,4-DiaethyIphenol
I. Spiked MtiUaaUt BwUulw
2,4,6-TricUtoro|>hee«l-3,5-d2
*-Chlor«-3-«ethyIpheiw>l-2,6-dj
2-Chl o ropheool -J, * ,5 ,*-d^
2l4-Diebloropbeaol-3,$,6-d'
2l4-Diaelbylpbe»l*3lS|6-d^
2-M11 ropheiiol -3, *,5,6-d^
2 ,4-Dinil ropitenol-3 .5 ,4-dj
4,6-Dlaltro-2-»etttjlphenol-3, S"-2
Prut*cUJoropbc«ol-13
Pfc.no I-d.
K«(l>
12.4(1)
1.7(1)
9.9(2)
25.3(3)
1.7(1)
10.0(5)

W.l(S)
22.4(6)
15.9(16)
*.*(5)

20.8(5)
31.4(6)
27.8(16)
*2.5(5)

38.3(3)
40.4(6)
40.7(14)
14.3(5)
Duplicate
15-1(5)
2S.i(6)
18.9(16)
32.8(5)
Spiked
18.3(5)
32.8(6)
28.3(16)
24.0(5)
Analysis
18.9(5)
29.5(6)
24.5(16)
165(4)
Sot
98.4(3)
69.1(2)
55.S(9)
23.»(5)
Perforated
77.1(4)
36.2(4)
44 £,.13)
22.2(5)

47.0(5)
31.1(6)
33.5(16)
*2.3(5)

23.0(4)
45.0(6)
38.2(15)
{*) Nuaber ia paresthesia is tke Mifaer »f data polats
— (alUtiat was not detected.
-------
TABLE D-7. PERCENT RECOVERIES - WASTEWATER PRIORITY POLLUTANT METALS
Priority Providence	Seattle	St. Louis	St. Paul	Total
Pollutant	Heap t a (*) Mean ± o (*) Mean ± o (*) Mean 1 O (*) Hean t o (*)
A. Method Spike
Antimony
82
±
11
(4)

NA
100
±
0
(1)
82
± ]
13
(3)
84
±
10 (8)
Arsenic
95
t
6
(4)

NA
86
±
0
(1)
94
t
3
(4)
94
+
4 (9)
Beryllium
93
±
3
(4)
99
(1)
98
±
1
(3)
96
±
1
(4)
96

2 (12)
Cadaiiua
94
±
3
(4)
99
(1)
95
±
8
(3)
95
±
3
(4)
95
±
4 (12)
Chrosiua
93
±
4
(4)
99
(1)
97
±
4
(3)
92
+
1
(4)
94
±
3 (12)
Copper
95
±
6
(4)
100
(1)
99
+
2
(3)
96
+
2
(4)
97
±
3 (12)
Lead
96
±
6
(4)
99
(1)
95
±
8
(3)
98
±
6
(4)
97
+
6 (12)
Mercury
95
4-
A
4
(4)

NA
103
i
0
(1)
99
±
2
(4)
97
+
2 (9)
Nickel
94
t
3
(4)
100
(1)
97
±
5
(3)
97
±
2
(4)
96
±
3 (12)
Selenium
91
±
7
(4)

NA
100
±
0
(1)
93
±
1
(4)
93
+
4 (9)
Silver
91
±
6
(4)

NA
92
±
0
(1)
89
±
7
(4)
90
±
6 (9)
Thalliua
93
t
2
(4)

NA
93
±
0
(1)
86
+
4
(4)
90
±
3 (12)
Zinc
95
±
2
(4)
99
(1)
99
±
1
(3)
9?

3
(4)
97
±
2 (12)
Hean 1 O
93
±
5
(52)
99 ± 1(7)
97
±
3
(27)
92
±
4
(51)
94
±
4(137)
B. Hatrix Spike

















Antimony
121
t
20
(3)
84
(1)
95
±
21
(3)
132
±
0
(1)
108
+
15 (8)
Arsenic
115
±
23
(3)
103
(1)
102
±
4
(3)
120
±
7
(3)
111
±
10 (10)
Beryllium
83
±
6
(3)
109
(I)
105
~
7
(2)
87
±
6
(3)
92
±
6 (9)
Cadraiuin
91
±
4
(3)
107
(I)
98
±
11
(3)
91
±
2
(3)
95
±
5 (10)
Chromium
93
±
4
(3)
112
(1)
102
±
7
(3)
91
±
0
(1)
99
+
4 (8)
Copper
85
±
16
(3)
92
(1)
98
±
2
(2)
86
±
8
(3)
89
±
8 (9)
Lead
79
t
0
(1)
106
(1)
100
±
9
(3)
98
±
0
(2)
97
±
4 (7)
Hercury
90
t
0
(1)

NA
95
±
12
(3)
110
±
0
(1)
97
±
'7 (5)
Nickel
88
t
0
(1)
103
(1)
97
1
8
(3)

NA


96
±
5 (5)
Selenium
91
±
24
(3)
94
(1)
97
±
16
(3)
111
±
9
(3)
99
±
15 (10)
Silver

NA

99
(1)
79
±
27
(2)

NA


86
t
18 (3)
Thalliua

NA

79
(1)
75
±
18
(2)

NA


76
±
12 (3)
Zinc
85
±
6
(3)
100
(1)
104
±
2
(2)
88
±
3
(3)
92
±
3 (9)
Mean ± a
94
±
11
(27)
99 t 10(12)
96
1
11
(34)
99
±
5
(23)
97
±
8 (96)
a Standard deviation
(*) Number in parenthesis is the number of data points
NA Not available
-------
TABLE D-8. AVERAGE RELATIVE PERCENT DIFFERENCES RK DUPLICATE AHALYSIS-
VASTEWATER PRIORITY POLLUTANT METALS
Priority Providence Seattle St. Louis St. Paul Total
Pollutant	Mean (*)	Wean (*)	Mean (*)	Mean (*)	Mean (*)
A. Wastewater Duplicate!
Antimony
0.0
(5)
0.0
(1)
0.0
(2)
0.0
(2)
0
(10)
Arsenic
0.0
(5)
18.1
(1)
10.3
(2)
0.0
(2)
3.9
(10)
Beryllium
0.0
(6)
0.0
(1)
0.0
(3)
6.0
(3)
1.4
(13)
Cadniua
11.1
(6)
18.1
Cl)
14.4
(3)
4.4
(3)
7.1
(13)
Cbromi ua
6.1
(6)
3.6
(I)
33.7
(3)
1.5
(3)
11.2
(13)
Copper
4.3
(6)
4.4
(1)
23.1
(3)
5.5
(3)
8.9
(13)
Lead
6.4
(6)
0.0
(1)
3.7
(3)
9.3
(3)
6.0
(13)
Mercury
0.0
(4)


0.0
(2)
0.0
(2)
0.0
(8)
Nickel
4.2
(6)
6.8
(1)
4.1
(3)
0.0
(3)
3.4
(13)
Seleniua
0.0
(5)
0.0
(1)
0.0
(2)
0.0
(2)
0.0
(10)
Silver
108.0
(2)
18.1
(1)
0.0
(2)
46.1
(2)
46.5
(7)
Thalliua
40.4
(2)
0.0
(1)
0.0
(2)
1.9
(2)
12.1
(7)
Zinc
2.8
(6)
3.8
(1)
24.9
(3)
8.7
(2)
9.4
(12)
B. Spiked Duplicates - Hot Applicable
(*) Nunber in parenthesis is the number of data points
-------
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-------