Document ID: EPA-HQ-OW-2002-0033-0336
Agency: epa
Document Type: Supporting & Related Material
Title: 
Posted Date: 2003-04-14T04:00Z

MEMORANDUM
TO:
Charles
Tamulonis
cc:
Lynn
Knight,
ERG
Shari
Barash,
EPA
FROM:
Jim
Buchert,
Kathy
Coon
110476.1000.017
File
DATE:
December
31,
2001
SUBJECT:
Tasks
in
Technical
Directive
of
December
6,
2001
Regarding
the
MP&
M
Rule
This
Memorandum
is
in
response
to
your
Technical
Directive
of
December
6,
2001,
under
Work
Assignment:
0­
17,
of
Contract
No:
68­
C01­
073,
where
you
requested
ERG
to
perform
several
tasks
in
regard
to
the
MP&
M
rule.
Each
task
of
your
Technical
Directive
is
discussed
separately
below.

Tasks
1
&
2.
Read
the
highlighted
portions
of
the
comments
attached
to
Elenda
Besedin's
email,
and
check
the
bioconcentration
factor
for
lead
in
fish
tissue
Versar
recommends
the
following
responses
to
the
commenter's
concerns:

Comment
1:
"
EPA
used
a
bioconcentration
factor
of
49
L/
kg
for
estimating
lead
concentrations
in
fish,
but
other
recent
EPA
documents
proposed
a
bioconcentration
for
lead
in
fish
tissue
of
0.09
L/
kg,
a
differential
factor
of
more
than
500."

Response:

EPA
believes
the
use
of
a
BCF
value
of
49
L/
kg
for
lead
in
fish
tissue
is
justified.
This
value,
which
indicates
that
lead
has
a
slight
potential
to
bioaccumulate,
is
based
on
the
"
weighted
average
BCF
for
lead
and
the
edible
portion
of
all
freshwater
and
estuarine
aquatic
organisms
consumed
by
Americans"
as
reported
in
the
1980
ambient
water
quality
criteria
document
for
lead
(
EPA
440/
5­
80­
057).
This
value
is
also
currently
reported
in
the
1996
Superfund
Chemical
Data
Matrix
(
EPA
540/
R­
96/
028).
The
median
BCF
value
of
42
for
fish,
presented
in
ATSDR's
Toxicological
Profile
for
Lead
is
very
similar.
Typically,
a
conservative
value
(
i.
e.,
the
highest
BCF)
among
comparable
candidate
values
is
selected
for
human
health
effect
estimations.
In
the
case
of
lead,
the
value
of
49
L/
kg
was
selected
by
EPA.
EPA
considers
its
selection
to
be
consistent
with
the
BCF
value
and
guidelines
used
in
numerous
past
rule
makings.

Comment
2:
"
For
the
31
pollutants
projected
to
exceed
aquatic
life­
based
AWQC,
numerical
water
quality
criteria
are
available
for
only
14.
EPA
has,
therefore,
imputed
water
quality
criteria
from
some
unknown
source
and
both
their
applicability
and
validity
are
suspect
until
substantial
scientific
and
peerreviewed
data
are
provided
in
the
record.
Nearly
56
percent
of
the
baseline
exposures
in
EPA's
assessment
are
attributable
to
pollutants
for
which
no
AWQC
exist."

Response:

As
acknowledged
by
the
commentor,
ideally,
EPA
would
have
developed
a
full
suite
of
ambient
freshwater
and
saltwater
quality
criteria
for
the
protection
of
aquatic
life
and
human
health
for
all
2
pollutants
considered
in
the
environmental
benefits
assessment.
However,
EPA
has
not
been
able
to
develop
this
suite
of
criteria
and
thus,
must
estimate
"
criteria
values"
using
available
data
within
the
context
of
a
scientifically
defensible
methodology
for
prioritizing
and
selecting
values
most
representative
of
a
chemical's
toxicity.
The
methodology
developed
by
EPA
for
selecting
these
values
is
explained
in
Attachment
1]
References
and
codes
for
the
values
used
for
the
pollutants
of
concern
are
also
provided
(
See
Attachments
2
and
3).
The
record
has
been
updated
accordingly.

Comment
3:
"
EPA
included
two
chemicals
in
the
projected
exceedances
for
human
health­
based
AWQC
for
which
there
are
no
AWQC,
p­
cresol
and
pyridine.
EEBA,
Table
E.
8.
Theses
chemicals
account
for
18
of
11,343
exceedances
at
baseline
conditions,
resulting
in
a
modest
overestimate
of
projected
exceedances."

Response:

See
response
to
Comment
2.

Comment
4:
"
In
its
environmental
benefits
analysis,
EPA
projected
substantial
reductions
in
water
quality
exceedances
associated
with
manganese
and
iron.
The
naturally
occurring
concentrations
of
these
two
constituents
are
often
above
the
water
quality
criteria
concentrations.
Furthermore,
the
projected
reduction
in
water
quality
exceedances
associated
with
consumption
of
organisms
is
attributable
to
only
two
compounds
­
arsenic
and
manganese.
Such
exceedances
attributable
solely
to
manganese
comprise
about
51
percent
of
this
total.
Accordingly,
it
is
inappropriate
to
include
manganese
and
iron
in
the
evaluation
of
benefitting
reaches,
unless
background
levels
of
these
elements
are
taken
into
consideration."

Response:

EPA
does
not
agree
with
the
commentor's
contention
that
manganese
and
iron
should
not
be
considered
pollutants
of
concern
because
they
are
common
components
of
natural
waters.
EPA
acknowledges
that
both
manganese
and
iron
may
be
present
at
concentrations
that
may
be
greater
than
the
water
quality
criteria
concentrations.
However,
the
environmental
assessment
assumes
that
the
background
concentrations
of
each
pollutant,
both
in
the
receiving
stream
and
in
the
POTW
influent
are
equal
to
zero;
therefore,
the
analysis
evaluates
only
the
impacts
of
discharging
facilities.
This
is
consistent
with
the
assessments
conducted
for
other
rule
makings.
In
addition,
the
toxicological
data
for
these
compounds
indicate
that
above
certain
concentrations,
impacts
may
occur.

Comment
5:
"
Of
the
31
chemicals
presented
in
Table
X­
1,
numerical
AWQC
are
actually
available
for
only
14.
EPA
has
not
provided
the
proper
information
in
the
record
showing
and
justifying
the
values
used
for
AWQC
for
these
constituents.
Until
such
justification
is
provided,
exceedances
attributed
to
these
constituents
are
not
valid.
For
the
constituents
in
question,
removal
of
acute
and
chronic
exceedances
due
to
unjustified
AWQC
represents
a
decrease
in
baseline
exceedances
of
8
percent
and
39
percent,
respectively."

Response:
1Note
that
the
technical
directive
cites
incorrect
table
references.
The
aquatic
life
values
in
Appendix
E
are
in
Table
E.
3,
not
E.
10.
Also,
Table
13.3
appears
to
only
include
POCs
for
which
human
health
values
have
been
used.
The
complete
list
of
all
POCs
is
in
Table
E.
2.
In
addition,
phosphate
(
but
not
elemental
phosphorus)
is
on
the
list
of
aquatic
life
and
human
values
in
Appendix
E,
Tables
E.
3
and
E.
2;
conversely,
elemental
phosphorus
(
but
not
phosphate)
is
on
the
list
of
human
health
values
in
Table
13.3.
We
have
included
phosphate
on
our
tables
in
Attachment
2
based
on
your
directions.
Diethyl
ether
has
not
been
included
even
though
it
appears
on
Table
13.3,
but
not
on
Tables
E.
2
or
E.
3
(
which
state
132
POCs
in
the
title,
but
include
only
131
POCs).
This
was
also
based
on
your
direction.

3
See
response
to
Comment
2.

Comment
6:
These
sulfide
exceedances
comprise
25
percent
of
all
projected
chronic
aquatic
life
exceedances.
In
addition,
sulfide
comprises
17
percent
of
the
projected
reductions
in
exceedances
based
on
the
proposed
option.
However,
sulfide
is
a
very
volatile
constituent,
and
is
likely
transient
and
shortlived
once
it
enters
a
receiving
stream.
It
is
likely
that
any
benefits
attributable
to
sulfide
are
overestimated."

Response:

Hydrogen
sulfide
is
a
soluble,
highly
poisonous,
gaseous
compound
having
the
characteristic
odor
of
rotten
eggs.
It
will
dissolve
in
water
at
4,000
mg/
L
at
20
°
C
and
1
atmosphere
of
pressure.
When
soluble
sulfides
are
added
to
water,
they
react
with
hydrogen
ions
to
form
HS!
or
H2S,
the
proportion
of
each
depending
on
the
pH.
The
degree
of
hazard
exhibited
by
sulfide
to
aquatic
animal
life
is
dependent
on
the
temperature,
pH,
and
dissolved
oxygen.
At
lower
pH
values
a
greater
proportion
is
in
the
form
of
the
toxic
undissociated
H2S.
Long­
term
data,
both
in
field
situations
and
under
controlled
conditions,
demonstrate
hydrogen
sulfide
toxicity
at
low
concentrations.
EPA
has
established
AWQC
at
2
µ
g/
L
(
chronic
aquatic
life).

EPA
also
recognizes
that
the
hazard
from
hydrogen
sulfide
to
aquatic
life
is
often
localized
and
transient.
However,
the
environmental
assessment
is
designed
to
evaluate
aquatic
life
impacts
at
the
point
of
discharge,
not
considering
pollutant
fate
processes,
using
estimated
concentrations
that
are
environmentally
conservative.
These
assumptions
are
consistent
with
other
rulemakings.

Task
3.
Check
the
numbers
for
all
the
AWQCs
(
AWQCs
for
human
health
and
those
for
Aquatic
Life)
used
for
the
MP&
M
rule.
You
can
find
tables
of
the
AWQCs
for
the
MP&
M
rule
in
the
Economic,
Environmental,
and
Benefits
Assessment
in
Chapter
13
(
Table
13.3
for
Human
AWQCs)
and
Appendix
E
for
aquatic
life
(
in
particular
Table
E.
10).
The
EEBA
can
be
found,
by
chapter,
on
the
MP&
M
website
at:
"
www.
epa.
gov/
ost/
guide/
mpm/
rule.
html"
1
This
task
was
accomplished
by
comparing
the
aquatic
life
values
in
the
current
version
of
EPA's
Toxics
Data
Base
(
TDB)
to
the
aquatic
life
values
in
Appendix
E,
Table
E.
3
of
the
MP&
M
Economic,
Environmental,
and
Benefits
Assessment.
Similarly,
the
human
health
values
in
the
current
version
of
EPA's
Toxics
Data
Base
(
TDB)
were
compared
to
the
human
health
values
in
Appendix
E,
Table
E.
2
of
the
MP&
M
Economic,
Environmental,
and
Benefits
Assessment.
The
inconsistencies
discovered
are
discussed
below
in
Table
1.
Please
note
the
units
for
the
Henry's
Law
Constants
(
HLC)
in
the
TDB
are
atm­
m3/
mol.
4
Table
1:
Inconsistencies
With
Human
Health
and
Aquatic
Life
Toxicity
Data
Chemical
CAS
Number
Comments
Fluorene
86737
A
Bioconcentration
Factor
(
BCF)
of
30
L/
kg
is
given
in
Table
E.
3.
The
BCF
was
revised
to
288
L/
kg
on
April
26,
2000.
Based
on
this
revised
BCF,
the
Human
Health,
water
and
organisms
value
was
revised
to
720
µ
g/
L
and
the
Human
Health,
organisms
only
value
was
revised
to
1,500
µ
g/
L.
The
EPA
WAM
was
notified
of
this
change.
See
Toxic
and
Pollutant
Weighting
Factor
Report,
August,
2000.

N­
nitrosopiperidine
100754
The
BCF
value
is
missing
on
Table
E.
3.
The
BCF
should
be
1.1
L/
kg.
This
value
has
remained
the
same
in
the
TDB
since
at
least
1994.

Diphenyl
Ether
101848
References
for
toxicity
and
physical/
chemical
property
data
as
reported
in
Tables
E.
2
and
E.
3
are
unknown.
Versar
did
not
supply
these
values.
Since
1994,
the
TDB
reflects
values
for
diphenyl
ether
as
noted
here:
BCF
value
=
930
L/
kg;
Koc
value
=
7,800;
Acute
Freshwater
Aquatic
Life
value
=
4,000
µ
g/
L;
and
Chronic
Saltwater
Aquatic
Life
value
=
240
µ
g/
L.
The
current
version
of
the
TDB
does
not
have
a
value
for
biodegradation
half
life.

2,4­
dimethylphenol
105679
HLC
was
revised
to
9.51E­
7
atm­
m3/
mol
on
May
15,
2000.
The
EPA
WAM
was
notified
of
this
change.

p­
Cresol
106445
HLC
was
revised
to
1.0E­
6
atm­
m3/
mol
on
May
15,
2000.
The
EPA
WAM
was
notified
of
this
change.

Xylene,
m­
108383
HLC
was
revised
to
7.18E­
3
atm­
m3/
mol
on
May
15,
2000.
The
EPA
WAM
was
notified
of
this
change.

Nickel
7440020
The
drinking
water
value
of
100
µ
g/
L
was
remanded
in
1995.
The
EPA
WAM
was
notified
of
this
change.

Ammonia
as
N
7664417
The
chronic
freshwater
aquatic
life
value
of
2,280
µ
g/
L
was
revised
to
3,060
µ
g/
L
on
January
19,
2000,
based
on
December
1999
AWQC
update.
The
EPA
WAM
was
notified
of
this
change.
See
Toxic
and
Pollutant
Weighting
Factor
Report,
August
2000.
HLC
was
revised
to
1.61E­
5
atm­
m3/
mol
on
May
15,
2000.

Sulfide
18496258
BCF
and
RfD
values
missing
on
Tables
E.
3
and
E.
2.
BCF
should
be
3.1
L/
kg
and
RfD
should
be
0.003
mg/
kg/
day.
Based
on
this
new
BCF
and
RfD,
the
human
health,
water
and
organisms
value
is
100
µ
g/
L
and
the
human
health,
organisms
only
value
is
10,000
µ
g/
L.
The
EPA
WAM
was
notified
of
this
change.
See
Toxic
and
Pollutant
Weighting
Factor
Report,
August
2000.
These
values
were
added
to
the
TDB
on
February
23,
2000.
5
Task
4.
Provide
proper
documentation
for
all
AWQCs
used
in
the
analysis.
We
will
need
this
for
the
record,
but
we
can
discuss
whether
we
need
a
listing
of
references
and
citations
or
actual
copies
of
studies.

All
of
the
references
for
the
AWQCs
and
physical­
chemical
property
data
used
in
the
analysis
are
provided
in
the
tables
located
in
Attachment
2.
These
references
were
originally
provided
in
October
1999
and
were
revised
for
the
August
2000
Toxic
and
Pollutant
Weighting
Factor
Report.
At
a
minimum,
the
tables
contain
the
particular
value
and
the
reference.
In
some
cases,
additional
information
(
e.
g.,
species)
is
provided
to
assist
in
the
verification
of
the
data.
Citations
for
the
reference
numbers
listed
in
the
tables
and
a
description
of
the
codes
are
provided
in
Attachment
3.

Please
note
that
we
are
unable
to
guarantee,
as
you
requested,
that
the
values
reported
in
Attachment
2
will
not
change
in
the
next
6
months
to
1
year.
At
this
time,
we
are
not
planning
any
revisions
with
the
exception
of
dioxins
and
furans.

If
you
have
any
questions,
please
give
us
a
call.
A1­
1
ATTACHMENT
1
Selection
of
Toxicity
and
Physical­
Chemical
Property
Data
A1­
2
Water
Quality
Criteria
The
analysis
obtains
the
AWQC
(
or
toxic
effect
levels)
for
the
protection
of
aquatic
life
and
human
health
from
a
variety
of
sources,
including
EPA
criteria
documents,
EPA's
ASTER,
and
EPA's
IRIS.
It
uses
ecological
toxicity
estimations
when
published
values
are
not
available.
The
hierarchies
used
to
select
the
appropriate
aquatic
life
and
human
health
values
are
described
in
the
following
sections.

(
a)
Aquatic
Life
EPA
establishes
AWQC
for
many
pollutants
for
the
protection
of
freshwater
aquatic
life
(
acute
and
chronic
criteria).
The
acute
value
represents
a
maximum
allowable
1­
hour
average
concentration
of
a
pollutant
at
any
time
and
can
be
related
to
acute
toxic
effects
on
aquatic
life.
The
chronic
value
represents
the
average
allowable
concentration
of
a
toxic
pollutant
over
a
4­
day
period
at
which
a
diverse
genera
of
aquatic
organisms
and
their
uses
should
not
be
unacceptably
affected,
provided
that
these
levels
are
not
exceeded
more
than
once
every
3
years.

For
pollutants
for
which
no
AWQC
are
developed,
the
analysis
uses
specific
toxicity
values
(
acute
and
chronic
effect
concentrations
reported
in
published
literature
or
estimated
using
various
application
techniques).
When
selecting
values
from
the
literature,
the
analysis
prefers
measured
concentrations
from
flow­
through
studies
under
typical
pH
and
temperature
conditions.
The
test
organism
has
to
be
a
North
American
resident
species
of
fish
or
invertebrate.
The
hierarchies
used
to
select
the
appropriate
acute
and
chronic
values
are
listed
below
in
descending
order
of
priority.

Acute
Aquatic
Life
Values:

1.
National
acute
freshwater/
saltwater
quality
criteria
2.
Lowest
reported
acute
test
values
(
96­
hour
LC50
for
fish
and
48­
hour
EC50/
LC50
for
daphnids)

3.
Lowest
reported
LC50
test
value
of
shorter
duration,
adjusted
to
estimate
a
96­
hour
exposure
period
4.
Lowest
reported
LC50
test
value
of
longer
duration,
up
to
a
maximum
of
2
weeks
of
exposure
5.
Estimated
96­
hour
LC50
from
the
ASTER
QSAR
model
Chronic
Aquatic
Life
Values:
A1­
3
(
Eq.
1)

(
Eq.
2)
1.
National
chronic
freshwater/
saltwater
quality
criteria
2.
Lowest
reported
maximum
allowable
toxicant
concentration
(
MATC),
lowest­
observed­
effect
concentration
(
LOEC),
or
no­
observed­
effect
concentration
(
NOEC)

3.
Lowest
reported
chronic
growth
or
reproductive
toxicity
test
concentration
4.
Estimated
chronic
toxicity
concentration
from
a
measured
acute:
chronic
ratio
for
a
less
sensitive
species,
QSAR
model
(
U.
S.
EPA,
1998/
1999),
or
default
acute:
chronic
ratio
of
10:
1
(
b)
Human
Health
EPA
establishes
AWQC
for
the
protection
of
human
health
in
terms
of
a
pollutant's
toxic
effects,

including
carcinogenic
potential,
using
two
exposure
routes:
(
1)
ingesting
the
pollutant
via
contaminated
aquatic
organisms
only,
and
(
2)
ingesting
the
pollutant
via
both
water
and
contaminated
aquatic
organisms.
The
values
are
determined
as
follows.

For
Toxicity
Protection
(
ingestion
of
organisms
only):

where:

HHoo
=
human
health
value
(
µ
g/
L)
RfD
=
reference
dose
for
a
70­
kg
individual
(
mg/
day)
IRf
=
fish
ingestion
rate
(
0.0065
kg/
day)
BCF
=
bioconcentration
factor
(
L/
kg)
CF
=
conversion
factor
for
units
(
1,000
µ
g/
mg)

For
Carcinogenic
Protection
(
ingestion
of
organisms
only):

where:
A1­
4
(
Eq.
3)

(
Eq.
4)
HHoo
=
human
health
value
(
µ
g/
L)
BW
=
body
weight
(
70
kg)
RL
=
risk
level
(
10­
6)
SF
=
cancer
slope
factor
(
mg/
kg­
day)­
1
IRf
=
fish
ingestion
rate
(
0.0065
kg/
day)
BCF
=
bioconcentration
factor
(
L/
kg)
CF
=
conversion
factor
for
units
(
1,000
µ
g/
mg)

For
Toxicity
Protection
(
ingestion
of
water
and
organisms):

where:

HHwo
=
human
health
value
(
µ
g/
L)
RfD
=
reference
dose
for
a
70­
kg
individual
(
mg/
day)
IRw
=
water
ingestion
rate
(
2
L/
day)
IRf
=
fish
ingestion
rate
(
0.0065
kg/
day)
BCF
=
bioconcentration
factor
(
L/
kg)
CF
=
conversion
factor
for
units
(
1000
µ
g/
mg)

For
Carcinogenic
Protection
(
ingestion
of
water
and
organisms):

where:

HHwo
=
human
health
value
(
µ
g/
L)
BW
=
body
weight
(
70
kg)
RL
=
risk
level
(
10­
6)
SF
=
cancer
slope
factor
(
mg/
kg­
day)­
1
IRw
=
water
ingestion
rate
(
2
L/
day)
IRf
=
fish
ingestion
rate
(
0.0065
kg/
day)
BCF
=
bioconcentration
factor
(
L/
kg)
CF
=
conversion
factor
for
units
(
1,000
µ
g/
mg)
A1­
5
The
analysis
derives
the
values
for
ingesting
water
and
organisms
by
assuming
an
average
daily
ingestion
rate
of
2
liters
of
water,
an
average
daily
fish
consumption
rate
of
6.5
grams
of
potentially
contaminated
fish
products,
and
an
average
adult
body
weight
of
70
kilograms
(
U.
S.
EPA,
1991).
If
EPA
has
established
a
slope
factor,
the
analysis
uses
values
protective
of
carcinogenicity
to
assess
the
potential
effects
on
human
health.

The
analysis
develops
protective
concentration
levels
for
carcinogens
in
terms
of
nonthreshold
lifetime
risk
level,
using
criteria
at
a
risk
level
of
10­
6
(
1E­
6).
This
risk
level
indicates
a
probability
of
1
additional
case
of
cancer
for
every
1
million
persons
exposed.
Toxic
effects
criteria
for
noncarcinogens
include
systemic
effects
(
e.
g.,
reproductive,
immunological,
neurological,
circulatory,
or
respiratory
toxicity),
organ­
specific
toxicity,
developmental
toxicity,
mutagenesis,
and
lethality.

The
hierarchy
used
to
select
the
most
appropriate
human
health
criteria
values
is
listed
below
in
descending
order
of
priority:

1.
Human
health
criteria
values
calculated
using
EPA's
IRIS
RfDs
or
SFs
in
conjunction
with
adjusted
3
percent
lipid
BCF
values
derived
from
Quality
Criteria
for
Water
(
U.
S.
EPA,
1980).
Three
percent
is
the
mean
lipid
content
of
fish
tissue
reported
in
the
study
from
which
the
average
daily
fish
consumption
rate
of
6.5
g/
day
is
derived.

2.
Human
health
criteria
values
calculated
using
current
IRIS
RfDs
or
SFs
and
representative
BCF
values
for
common
North
American
species
of
fish
or
invertebrates
or
estimated
BCF
values.

3.
Human
health
criteria
values
calculated
using
RfDs
or
SFs
from
EPA's
HEAST
or
EPA's
Region
III
RBC
Table
in
conjunction
with
adjusted
3
percent
lipid
BCF
values
derived
from
Quality
Criteria
for
Water
(
U.
S.
EPA,
1980).

4.
Human
health
criteria
values
calculated
using
current
RfDs
or
SFs
from
HEAST
or
EPA's
Region
III
RBC
Table
and
representative
BCF
values
for
common
North
American
species
of
fish
or
invertebrates
or
estimated
BCF
values.

5.
Criteria
from
the
Quality
Criteria
for
Water
(
U.
S.
EPA,
1980).

6.
Human
health
values
calculated
using
RfDs
or
SFs
from
data
sources
other
than
IRIS,
HEAST,
or
Region
III
RBC
Table.

This
hierarchy
is
based
on
Section
2.4.6
of
the
Technical
Support
Document
for
Water
Qualitybased
Toxics
Control
(
U.
S.
EPA,
1991),
which
recommends
using
the
most
current
risk
information
from
A1­
6
IRIS
when
estimating
human
health
risks.
In
cases
where
chemicals
have
both
RfDs
and
SFs
from
the
same
level
of
the
hierarchy,
the
analysis
calculates
human
health
values
using
the
formulas
for
carcinogenicity,
which
always
result
in
the
more
stringent
value,
given
the
risk
levels
employed.

Physical­
Chemical
Property
Data
The
analysis
uses
3
measures
of
physical­
chemical
properties
to
evaluate
environmental
fate:

Henry's
Law
constant
(
HLC),
organic­
carbon
adsorption
partition
coefficient
(
Koc)
and
biodegradation
half­
life
(
BD).

HLC
is
the
ratio
of
vapor
pressure
to
solubility
and
is
indicative
of
the
propensity
of
a
chemical
to
volatilize
from
surface
water
(
Lyman
et
al.,
1982).
The
larger
the
HLC,
the
more
likely
that
the
chemical
will
volatilize.
The
analysis
obtains
most
HLCs
from
EPA's
Office
of
Pesticides
and
Toxic
Substances'

(
OPTS)
1989
Toxic
Chemical
Release
Inventory
Risk
Screening
Guide
(
U.
S.
EPA,
1989),
and
Syracuse
Research
Corporation's
CHEMFATE
database.

Koc
is
indicative
of
the
propensity
of
an
organic
compound
to
adsorb
to
soil
or
sediment
particles
and,
therefore,
to
partition
to
such
media.
The
larger
the
Koc,
the
more
likely
that
the
chemical
will
adsorb
to
solid
material.
The
analysis
obtains
most
Kocs
from
Syracuse
Research
Corporation's
CHEMFATE
database.

The
biodegradation
half­
life
(
BD)
is
the
empirically
derived
length
of
time
during
which
half
the
amount
of
a
chemical
in
water
is
degraded
by
microbial
action
in
the
presence
of
oxygen.
BD
is
indicative
of
the
environmental
persistence
of
a
chemical
released
into
the
water
column.
The
analysis
obtains
most
BDs
from
the
Handbook
of
Environmental
Degradation
Rates
(
Howard,
1991).
A2­
1
ATTACHMENT
2
Toxicity
and
Physical­
Chemical
Property
Data
Attachment
2:
AWQC
Values
and
References
for
MP&
M
Rule
CAS
Value
Code
Species
Ref
Value
Code
Species
Ref
Value
Ref
Number
Chemical
Name
(
L/
kg)
1
51285
2,4­
DINITROPHENOL
1160
L9
RT
300
790
LM
FM
301
1.51
1
2
57125
CYANIDE
22
C
NA
1
5.2
C
NA
1
1
1
3
59507
4­
CHLORO­
3­
METHYLPHENOL
4050
L9
FM
301
1300
REP
DM
300
79
114
4
62533
ANILINE
250
L4
DM
300
4
REP
DM
300
19.9
200
5
62759
N­
NITROSODIMETHYLAMINE
280000
L9
SC
300
4000
ECGR
GA
300
0.026
1
6
65850
BENZOIC
ACID
180000
L9
MF
300
17178
@
LM
FM
301
15
114
7
67641
2­
PROPANONE
6210000
L9
FM
301
1866000
LN
CD
300
0.39
200
8
67663
CHLOROFORM
13300
L9
BG
301
6300
REP
DM
300
3.75
1
9
68122
N,
N­
DIMETHYLFORMAMIDE
7100000
L9
BG
301
710000
@
A10
NA
NA
0.005
17
10
75003
CHLOROETHANE
65614
@
L9
CF
301
21069
@
LM
FM
301
7.2
200
11
75092
METHYLENE
CHLORIDE
330000
L9
FM
301
82500
GRO
FM
301
0.91
1
12
75150
CARBON
DISULFIDE
2100
L4
DM
300
2
C
NA
3
11.5
200
13
75354
1,1­
DICHLOROETHENE
11600
L4
DM
300
5114
@
LM
FM
301
5.6
1
14
75694
TRICHLOROFLUOROMETHANE
17387
@
L9
RT
301
6412
@
LM
FM
301
49
114
15
78591
ISOPHORONE
120000
L4
DM
300
11000
GRO
FM
300
4.38
1
16
78831
ISOBUTYL
ALCOHOL
949000
L9
CY
301
4000
REP
DM
300
2.2
34
17
78933
2­
BUTANONE
3220000
L9
FM
301
233550
@
LM
FM
301
1
200
18
79016
TRICHLOROETHENE
40700
L9
FM
301
14850
LL
FL
300
10.6
1
19
80626
METHYL
METHACRYLATE
191000
L9
BG
301
19100
@
AAB
NA
2
6.6
200
20
83329
ACENAPHTHENE
580
L9
BR
301
208
GRO
FM
301
242
1
21
84742
DI­
N­
BUTYL
PHTHALATE
850
L9
FM
301
500
REP
DM
300
89
1
22
85018
PHENANTHRENE
180
LR7
BA
301
19
GRO
RT
301
486
1
23
85687
BUTYL
BENZYL
PHTHALATE
820
L9
RT
300
260
REP
DM
301
414
1
24
86306
N­
NITROSODIPHENYLAMINE
5800
L9
BG
300
1000
LO
DM
6
136
1
25
86737
FLUORENE
212
L4
DM
300
8
REP
DM
300
288
1
26
88755
2­
NITROPHENOL
160000
L9
FM
301
3451
@
LM
FM
301
13.5
200
27
91203
NAPHTHALENE
1600
L9
RT
300
370
GRO
CO
300
10.5
1
28
91576
2­
METHYLNAPHTHALENE
1133
@
L9
RT
301
417
@
LM
FM
301
2566
300
29
92524
BIPHENYL
360
L4
DM
301
230
REP
DM
301
436
200
30
95476
O­
XYLENE
3820
L4
DM
300
1332
@
LM
FM
301
208
191
31
95487
O­
CRESOL
14000
L9
FM
301
2251
@
LM
FM
301
18
200
32
98555
ALPHA­
TERPINEOL
12742
@
L9
RT
301
4879
@
LM
FM
301
48
301
33
98862
ACETOPHENONE
162000
L9
FM
301
31094
@
LM
FM
301
11
114
34
99876
P­
CYMENE
6500
L4
DM
300
237
@
LM
FM
301
770
114
35
100027
4­
NITROPHENOL
7680
L4
DM
300
1300
REP
DM
300
79
200
36
100414
ETHYLBENZENE
9090
L9
FM
301
4600
ECGR
GA
300
37.5
1
37
100425
STYRENE
4020
L9
FM
301
402
@
A10
NA
NA
13.5
200
38
100516
BENZYL
ALCOHOL
10000
L9
BG
300
1000
@
A10
NA
NA
4
114
39
100754
N­
NITROSOPIPERIDINE
1019538
@
L9
DM
301
282592
@
LM
FM
301
1.1
200
40
101848
DIPHENYL
ETHER
4000
L9
FM
301
213
@
LM
FM
301
930
114
41
105679
2,4­
DIMETHYLPHENOL
2120
L9
NA
1
1970
GRO
FM
301
94
1
42
106445
P­
CRESOL
7500
L9
RT
301
2570
GRO
FM
300
17.6
200
43
107028
ACROLEIN
14
L9
FM
301
5.8
@
ACR
DM
1
215
1
44
108101
4­
METHYL­
2­
PENTANONE
505000
L9
FM
301
50445
@
LM
FM
301
2.4
200
45
108372
1­
BROMO­
3­
CHLOROBENZENE
1784
@
L9
RT
301
682
@
LM
FM
301
190
43
46
108383
M­
XYLENE
16000
L9
FM
301
3900
ECGR
GA
300
208
191
47
108883
TOLUENE
5500
L9
CO
300
1000
REP
DM
300
10.7
1
48
108907
CHLOROBENZENE
2370
L9
GF
301
2100
GRO
RT
300
10.3
1
49
108952
PHENOL
4200
L4
DM
301
200
GRO
RT
301
1.4
1
50
110861
PYRIDINE
93800
L9
FM
301
25000
GRO
DM
300
2
200
51
112403
N­
DODECANE
18000
L4
DM
(
1)
1300
LN
DM
(
1)
14500
114
52
112958
N­
EICOSANE
18000
L4
DM
(
1)
1300
LN
DM
(
1)
100000
301
53
117817
BIS(
2­
ETHYLHEXYL)
PHTHALATE
130
1
54
117840
DI­
N­
OCTYL
PHTHALATE
690
LR7
CF
1
69
@
A10
NA
NA
5460
200
55
120127
ANTHRACENE
2.78
L9
BG
300
2.2
REP
DM
300
478
1
56
122394
DIPHENYLAMINE
3790
L9
FM
301
734
@
LM
FM
301
269
114
57
123911
1,4­
DIOXANE
9850000
L9
FM
301
1457300
@
LM
FM
301
0.4
200
58
124185
N­
DECANE
18000
L4
DM
300
1300
LN
DM
300
8800
114
59
127184
TETRACHLOROETHENE
4990
L9
RT
301
510
GRO
DM
300
30.6
1
60
129000
PYRENE
591
@
L9
RT
301
61
@
LM
FM
301
1110
1
61
131113
DIMETHYL
PHTHALATE
33000
L4
DM
1
1700
LO
DM
6
36
1
62
132650
DIBENZOTHIOPHENE
420
L4
DM
300
122
@
LM
FM
301
1100
17
63
137304
ZIRAM
/
CYMATE
8
L9
FM
300
1.8
GRO
RT
300
0.001
17
64
142621
HEXANOIC
ACID
320000
L9
FM
301
15170
@
LM
FM
301
16
114
65
206440
FLUORANTHENE
45
L4
CD
301
7.1
LC
FM
300
1150
1
66
544763
N­
HEXADECANE
18000
L4
DM
(
1)
1300
LN
DM
(
1)
32300
114
67
591786
2­
HEXANONE
428000
L9
FM
301
38868
@
LM
FM
301
6.6
114
68
593453
N­
OCTADECANE
18000
L4
DM
(
1)
1300
LN
DM
(
1)
10100
114
69
606202
2,6­
DINITROTOLUENE
18500
L9
FM
300
60
REP
DM
300
12
200
Acute
Values
(
ug/
L)
Chronic
Values
(
ug/
L)
Bioconcentration
Factor
(
BCF)
Table
1:
Freshwater
Aquatic
Life
Values
A2
­
2
3/
11/
2003
Attachment
2:
AWQC
Values
and
References
for
MP&
M
Rule
CAS
Value
Code
Species
Ref
Value
Code
Species
Ref
Value
Ref
Number
Chemical
Name
(
L/
kg)
Acute
Values
(
ug/
L)
Chronic
Values
(
ug/
L)
Bioconcentration
Factor
(
BCF)
Table
1:
Freshwater
Aquatic
Life
Values
70
629594
N­
TETRADECANE
18000
L4
DM
(
1)
1300
LN
DM
(
1)
19500
114
71
629970
N­
DOCOSANE
530000
L4
DM
300
68000
LN
DM
300
100000
301
72
630013
N­
HEXACOSANE
530000
L4
DM
(
1)
68000
LN
DM
(
1)
73
630024
N­
OCTACOSANE
530000
L4
DM
(
1)
68000
LN
DM
(
1)
74
638686
N­
TRIACONTANE
530000
L4
DM
(
1)
68000
LN
DM
(
1)
75
646311
N­
TETRACOSANE
530000
L4
DM
(
1)
68000
LN
DM
(
1)
100000
301
76
694804
1­
BROMO­
2­
CHLOROBENZENE
2942
@
L9
RT
301
1196
@
LM
FM
301
240
17
77
832699
1­
METHYLPHENANTHRENE
555
@
L9
RT
301
54
@
LM
FM
301
4790
17
78
1576676
3,6­
DIMETHYLPHENANTHRENE
543
@
L9
RT
301
21
@
LM
FM
301
33000
17
79
1730376
1­
METHYLFLUORENE
627
@
L9
RT
301
115
@
LM
FM
301
3300
17
80
2027170
2­
ISOPROPYLNAPHTHALENE
540
@
L9
RT
301
78
@
LM
FM
301
3200
17
81
7429905
ALUMINUM
750
C
NA
1
87
C
NA
1
231
1
82
7439896
IRON
1000
C
NA
3
83
7439921
LEAD
65
C
NA
1
2.5
C
NA
1
49
18
84
7439954
MAGNESIUM
64700
L9
SC
300
6470
@
A10
NA
NA
85215
190
85
7439965
MANGANESE
388
LO
RT
15
86
7439976
MERCURY
1.4
C
NA
1
0.77
C
NA
1
5500
18
87
7439987
MOLYBDENUM
27.8
LO
RT
15
88
7440020
NICKEL
470
C
NA
1
52
C
NA
1
47
1
89
7440224
SILVER
3.4
C
NA
1
0.34
@
A10
NA
NA
0.5
1
90
7440235
SODIUM
1640000
L4
DM
300
1020000
ECRE
DM
300
91
7440280
THALLIUM
1400
L4
DM
1
40
LC
FM
1
116
1
92
7440315
TIN
18.6
LO
RT
15
93
7440326
TITANIUM
191
LO
RT
15
94
7440360
ANTIMONY
3500
L4
CD
1
1600
LC
FM
1
1
1
95
7440382
ARSENIC
340
C
NA
1
150
C
NA
1
44
1
96
7440393
BARIUM
410000
L4
DM
300
2813
LO
RT
15
97
7440417
BERYLLIUM
130
L9
GU
1
5.3
LC
DM
1
19
1
98
7440428
BORON
31.6
LO
RT
15
99
7440439
CADMIUM
4.3
C
NA
1
2.2
C
NA
1
64
1
100
7440473
CHROMIUM
570
C
NA
1
74
C
NA
1
16
1
101
7440484
COBALT
1620
L4
DM
59
49
GRO
FM
300
102
7440508
COPPER
13
C
NA
1
9
C
NA
1
360
1
103
7440575
GOLD
104
7440622
VANADIUM
11200
L9
FL
12
9
LO
RT
15
105
7440655
YTTRIUM
106
7440666
ZINC
120
C
NA
1
120
C
NA
1
47
1
107
7440702
CALCIUM
200000
LO
BG
300
108
7664417
AMMONIA
AS
NITROGEN
13300
C
NA
1
3060
C
NA
1
109
7782492
SELENIUM
12.83
C
NA
1
5
C
NA
1
4.8
1
110
14265442
TOTAL
PHOSPHORUS
111
14808798
SULFATE
1000000
GRO
DW
300
112
16887006
CHLORIDE
860000
C
NA
1
230000
C
NA
1
113
16984488
FLUORIDE
1600
L9
NA
14
160
@
A10
NA
NA
114
18496258
TOTAL
SULFIDE
2
C
NA
1
3.1
114
115
18540299
HEXAVALENT
CHROMIUM
16
C
NA
1
11
C
NA
1
16
1
116
20324338
TRIPROPYLENEGLYCOL
METHYL
ETHER
2484600
@
L9
DM
301
683870
@
LM
FM
301
0.2
43
117
136777612
O+
P
XYLENE
2600
L9
RT
300
1205
@
LM
FM
301
208
191
118
179601231
M+
P
XYLENE
2600
L9
RT
300
1205
@
LM
FM
301
208
191
119
C003
BOD
5­
DAY
(
CARBONACEOUS)
120
C004
CHEMICAL
OXYGEN
DEMAND
(
COD)
121
C009
TOTAL
SUSPENDED
SOLIDS
122
C010
TOTAL
DISSOLVED
SOLIDS
123
C012
TOTAL
ORGANIC
CARBON
(
TOC)
124
C021
TOTAL
KJELDAHL
NITROGEN
125
C020
TOTAL
RECOVERABLE
PHENOLICS
126
C025
AMENABLE
CYANIDE
127
C036
OIL
AND
GREASE
(
AS
HEM)
128
C037
TOTAL
PETROLEUM
HYDROCARBONS
(
AS
SGT­
HEM)
129
C042
WEAK­
ACID
DISSOCIABLE
CYANIDE
130
PHOSPHORUS
as
PO4
131
OIL
AND
GREASE
A2
­
3
3/
11/
2003
Attachment
2:
AWQC
Values
and
References
for
MP&
M
Rule
CAS
Number
Chemical
Name
1
51285
2,4­
DINITROPHENOL
2
57125
CYANIDE
3
59507
4­
CHLORO­
3­
METHYLPHENOL
4
62533
ANILINE
5
62759
N­
NITROSODIMETHYLAMINE
6
65850
BENZOIC
ACID
7
67641
2­
PROPANONE
8
67663
CHLOROFORM
9
68122
N,
N­
DIMETHYLFORMAMIDE
10
75003
CHLOROETHANE
11
75092
METHYLENE
CHLORIDE
12
75150
CARBON
DISULFIDE
13
75354
1,1­
DICHLOROETHENE
14
75694
TRICHLOROFLUOROMETHANE
15
78591
ISOPHORONE
16
78831
ISOBUTYL
ALCOHOL
17
78933
2­
BUTANONE
18
79016
TRICHLOROETHENE
19
80626
METHYL
METHACRYLATE
20
83329
ACENAPHTHENE
21
84742
DI­
N­
BUTYL
PHTHALATE
22
85018
PHENANTHRENE
23
85687
BUTYL
BENZYL
PHTHALATE
24
86306
N­
NITROSODIPHENYLAMINE
25
86737
FLUORENE
26
88755
2­
NITROPHENOL
27
91203
NAPHTHALENE
28
91576
2­
METHYLNAPHTHALENE
29
92524
BIPHENYL
30
95476
O­
XYLENE
31
95487
O­
CRESOL
32
98555
ALPHA­
TERPINEOL
33
98862
ACETOPHENONE
34
99876
P­
CYMENE
35
100027
4­
NITROPHENOL
36
100414
ETHYLBENZENE
37
100425
STYRENE
38
100516
BENZYL
ALCOHOL
39
100754
N­
NITROSOPIPERIDINE
40
101848
DIPHENYL
ETHER
41
105679
2,4­
DIMETHYLPHENOL
42
106445
P­
CRESOL
43
107028
ACROLEIN
44
108101
4­
METHYL­
2­
PENTANONE
45
108372
1­
BROMO­
3­
CHLOROBENZENE
46
108383
M­
XYLENE
47
108883
TOLUENE
48
108907
CHLOROBENZENE
49
108952
PHENOL
50
110861
PYRIDINE
51
112403
N­
DODECANE
52
112958
N­
EICOSANE
53
117817
BIS(
2­
ETHYLHEXYL)
PHTHALATE
54
117840
DI­
N­
OCTYL
PHTHALATE
55
120127
ANTHRACENE
56
122394
DIPHENYLAMINE
57
123911
1,4­
DIOXANE
58
124185
N­
DECANE
59
127184
TETRACHLOROETHENE
60
129000
PYRENE
61
131113
DIMETHYL
PHTHALATE
62
132650
DIBENZOTHIOPHENE
63
137304
ZIRAM
/
CYMATE
64
142621
HEXANOIC
ACID
65
206440
FLUORANTHENE
66
544763
N­
HEXADECANE
67
591786
2­
HEXANONE
68
593453
N­
OCTADECANE
69
606202
2,6­
DINITROTOLUENE
Value
Code
Species
Ref
Value
Code
Species
Ref
Value
Ref
(
L/
kg)
1500
L9
SM
300
940
GRO
SM
300
1.51
1
1
C
NA
1
1
C
NA
1
1
1
79
114
29400
L9
SS
300
2940
@
A10
NA
NA
19.9
200
4300000
LA7
MC
300
430000
@
AAB
NA
NA
0.026
1
15
114
5640000
L9
GS
300
10000
GRO
HC
300
0.39
200
19610
LD
BS
301
1961
@
A10
NA
NA
3.75
1
0.005
17
7.2
200
256000
L9
MS
1
2560
@
A10
NA
NA
0.91
1
2
C
NA
3
11.5
200
224000
L9
OS
300
22400
@
A10
NA
NA
5.6
1
49
114
12900
L9
MS
1
1290
@
AAB
NA
NA
4.38
1
600000
L9
BR
300
60000
@
AAB
NA
NA
2.2
34
1287000
LA2
BR
300
128700
@
A10
NA
NA
1
200
14000
L9
OS
300
2000
LC
GS
1
10.6
1
6.6
200
970
L9
MS
1
710
LC
SM
1
242
1
450
L9
SC
300
3.4
EC50
DF
300
89
1
110
LD
BR
301
11
@
A10
NA
NA
486
1
510
L9
SP
300
400
LN
MS
5
414
1
3300000
L9
MC
1
33000
@
AAB
NA
NA
136
1
1000
L9
PW
300
100
@
AAB
NA
NA
288
1
32000
L9
SM
300
16000
LM
SM
300
13.5
200
1200
L9
OG
300
120
GRO
OG
300
10.5
1
600
L9
BW
300
60
@
A10
NA
NA
2566
300
4600
L9
SM
300
460
@
A10
NA
NA
436
200
6000
L9
DC
300
600
@
A10
NA
NA
208
191
10200
L9
SC
300
1020
@
A10
NA
NA
18
200
48
301
11
114
4400
L9
OS
300
440
@
A10
NA
NA
770
114
7170
L9
MS
1
1900
GRO
SM
300
79
200
430
L9
SB
1
43
@
A10
NA
NA
37.5
1
9100
L9
SM
300
910
@
A10
NA
NA
13.5
200
15000
L9
IS
300
1500
@
AAB
NA
NA
4
114
1.1
200
2400
L9
SM
300
240
@
A10
NA
NA
930
114
94
1
NA
NA
NA
NA
17.6
200
55
L9
EO
1
5.5
@
AAB
NA
NA
215
1
812000
L9
BR
300
81200
@
A10
NA
NA
2.4
200
190
43
12000
L9
DC
300
1200
@
A10
NA
NA
208
191
6300
L9
SB
1
5000
LC
SM
1
10.7
1
10500
L9
SM
1
1050
@
AAB
NA
NA
10.3
1
5800
L9
GS
1
2410
REP
OS
301
1.4
1
2
200
500000
L9
SM
(
1)
50000
@
A10
NA
NA
14500
114
500000
L9
SM
(
1)
50000
@
A10
NA
NA
100000
301
130
1
5460
200
40
E
NA
25
16
E
NA
25
478
1
269
114
0.4
200
500000
L9
SM
300
50000
@
A10
NA
NA
8800
114
10200
L9
MS
1
450
LC
MS
1
30.6
1
1110
1
58000
L9
SM
1
5800
@
AAB
NA
NA
36
1
1100
17
5200
LA4
LK
180
520
@
AAB
NA
2
0.001
17
16
114
40
L9
MS
1
16
LV
MS
1
1150
1
500000
L9
SM
(
1)
50000
@
A10
NA
NA
32300
114
6.6
114
500000
L9
SM
(
1)
50000
@
A10
NA
NA
10100
114
12
200
Acute
Values
(
ug/
L)
Chronic
Values
(
ug/
L)
Bioconcentration
Factor
(
BCF)
Table
2:
Saltwater
Aquatic
Life
Values
A2
­
4
3/
11/
2003
Attachment
2:
AWQC
Values
and
References
for
MP&
M
Rule
CAS
Number
Chemical
Name
70
629594
N­
TETRADECANE
71
629970
N­
DOCOSANE
72
630013
N­
HEXACOSANE
73
630024
N­
OCTACOSANE
74
638686
N­
TRIACONTANE
75
646311
N­
TETRACOSANE
76
694804
1­
BROMO­
2­
CHLOROBENZENE
77
832699
1­
METHYLPHENANTHRENE
78
1576676
3,6­
DIMETHYLPHENANTHRENE
79
1730376
1­
METHYLFLUORENE
80
2027170
2­
ISOPROPYLNAPHTHALENE
81
7429905
ALUMINUM
82
7439896
IRON
83
7439921
LEAD
84
7439954
MAGNESIUM
85
7439965
MANGANESE
86
7439976
MERCURY
87
7439987
MOLYBDENUM
88
7440020
NICKEL
89
7440224
SILVER
90
7440235
SODIUM
91
7440280
THALLIUM
92
7440315
TIN
93
7440326
TITANIUM
94
7440360
ANTIMONY
95
7440382
ARSENIC
96
7440393
BARIUM
97
7440417
BERYLLIUM
98
7440428
BORON
99
7440439
CADMIUM
100
7440473
CHROMIUM
101
7440484
COBALT
102
7440508
COPPER
103
7440575
GOLD
104
7440622
VANADIUM
105
7440655
YTTRIUM
106
7440666
ZINC
107
7440702
CALCIUM
108
7664417
AMMONIA
AS
NITROGEN
109
7782492
SELENIUM
110
14265442
TOTAL
PHOSPHORUS
111
14808798
SULFATE
112
16887006
CHLORIDE
113
16984488
FLUORIDE
114
18496258
TOTAL
SULFIDE
115
18540299
HEXAVALENT
CHROMIUM
116
20324338
TRIPROPYLENEGLYCOL
METHYL
ETHER
117
136777612
O+
P
XYLENE
118
179601231
M+
P
XYLENE
119
C003
BOD
5­
DAY
(
CARBONACEOUS)
120
C004
CHEMICAL
OXYGEN
DEMAND
(
COD)
121
C009
TOTAL
SUSPENDED
SOLIDS
122
C010
TOTAL
DISSOLVED
SOLIDS
123
C012
TOTAL
ORGANIC
CARBON
(
TOC)
124
C021
TOTAL
KJELDAHL
NITROGEN
125
C020
TOTAL
RECOVERABLE
PHENOLICS
126
C025
AMENABLE
CYANIDE
127
C036
OIL
AND
GREASE
(
AS
HEM)
128
C037
TOTAL
PETROLEUM
HYDROCARBONS
(
AS
SGT­
HEM)
129
C042
WEAK­
ACID
DISSOCIABLE
CYANIDE
130
PHOSPHORUS
as
PO4
131
OIL
AND
GREASE
Value
Code
Species
Ref
Value
Code
Species
Ref
Value
Ref
(
L/
kg)
Acute
Values
(
ug/
L)
Chronic
Values
(
ug/
L)
Bioconcentration
Factor
(
BCF)
Table
2:
Saltwater
Aquatic
Life
Values
500000
L9
SM
(
1)
50000
@
A10
NA
NA
19500
114
500000
L9
SM
300
50000
@
A10
NA
NA
100000
301
500000
L9
SM
(
1)
50000
@
A10
NA
NA
500000
L9
SM
(
1)
50000
@
A10
NA
NA
500000
L9
SM
(
1)
50000
@
A10
NA
NA
500000
L9
SM
(
1)
50000
@
A10
NA
NA
100000
301
240
17
4790
17
33000
17
3300
17
3200
17
231
1
33000
L4
SS
300
3300
@
A10
NA
NA
210
C
NA
1
8.1
C
NA
1
49
18
85215
190
10
GRO
PO
300
1.8
C
NA
1
0.94
C
NA
1
5500
18
74
C
NA
1
8.2
C
NA
1
47
1
1.9
C
NA
1
0.19
@
A10
NA
NA
0.5
1
2130
L9
MS
1
213
@
A10
NA
NA
116
1
4800
L9
PH
1
2900
LC
IS
1
1
1
69
C
NA
1
36
C
NA
1
44
1
19
1
42
C
NA
1
9.3
C
NA
1
64
1
1100
L9
NA
1
50
C
NA
1
16
1
NA
10
GRO
PO
300
4.8
C
NA
1
3.1
C
NA
1
360
1
90
C
NA
1
81
C
NA
1
47
1
3800
570
290
C
NA
1
71
C
NA
1
4.8
1
2
C
NA
1
3.1
114
1100
C
NA
1
50
C
NA
1
16
1
0.2
43
6000
L9
DC
300
600
@
A10
NA
NA
208
191
6000
L9
DC
300
600
@
A10
NA
NA
208
191
A2
­
5
3/
11/
2003
Attachment
2:
AWQC
Values
and
References
for
MP&
M
Rule
CAS
Number
Chemical
Name
1
51285
2,4­
DINITROPHENOL
2
57125
CYANIDE
3
59507
4­
CHLORO­
3­
METHYLPHENOL
4
62533
ANILINE
5
62759
N­
NITROSODIMETHYLAMINE
6
65850
BENZOIC
ACID
7
67641
2­
PROPANONE
8
67663
CHLOROFORM
9
68122
N,
N­
DIMETHYLFORMAMIDE
10
75003
CHLOROETHANE
11
75092
METHYLENE
CHLORIDE
12
75150
CARBON
DISULFIDE
13
75354
1,1­
DICHLOROETHENE
14
75694
TRICHLOROFLUOROMETHANE
15
78591
ISOPHORONE
16
78831
ISOBUTYL
ALCOHOL
17
78933
2­
BUTANONE
18
79016
TRICHLOROETHENE
19
80626
METHYL
METHACRYLATE
20
83329
ACENAPHTHENE
21
84742
DI­
N­
BUTYL
PHTHALATE
22
85018
PHENANTHRENE
23
85687
BUTYL
BENZYL
PHTHALATE
24
86306
N­
NITROSODIPHENYLAMINE
25
86737
FLUORENE
26
88755
2­
NITROPHENOL
27
91203
NAPHTHALENE
28
91576
2­
METHYLNAPHTHALENE
29
92524
BIPHENYL
30
95476
O­
XYLENE
31
95487
O­
CRESOL
32
98555
ALPHA­
TERPINEOL
33
98862
ACETOPHENONE
34
99876
P­
CYMENE
35
100027
4­
NITROPHENOL
36
100414
ETHYLBENZENE
37
100425
STYRENE
38
100516
BENZYL
ALCOHOL
39
100754
N­
NITROSOPIPERIDINE
40
101848
DIPHENYL
ETHER
41
105679
2,4­
DIMETHYLPHENOL
42
106445
P­
CRESOL
43
107028
ACROLEIN
44
108101
4­
METHYL­
2­
PENTANONE
45
108372
1­
BROMO­
3­
CHLOROBENZENE
46
108383
M­
XYLENE
47
108883
TOLUENE
48
108907
CHLOROBENZENE
49
108952
PHENOL
50
110861
PYRIDINE
51
112403
N­
DODECANE
52
112958
N­
EICOSANE
53
117817
BIS(
2­
ETHYLHEXYL)
PHTHALATE
54
117840
DI­
N­
OCTYL
PHTHALATE
55
120127
ANTHRACENE
56
122394
DIPHENYLAMINE
57
123911
1,4­
DIOXANE
58
124185
N­
DECANE
59
127184
TETRACHLOROETHENE
60
129000
PYRENE
61
131113
DIMETHYL
PHTHALATE
62
132650
DIBENZOTHIOPHENE
63
137304
ZIRAM
/
CYMATE
64
142621
HEXANOIC
ACID
65
206440
FLUORANTHENE
66
544763
N­
HEXADECANE
67
591786
2­
HEXANONE
68
593453
N­
OCTADECANE
69
606202
2,6­
DINITROTOLUENE
Value
Code
Ref
Value
Code
Ref
Value
Ref
Value
Ref
70
@
T
14000
@
T
0.002
303
700
@
T
220000
@
T
0.02
303
56000
@
T
270000
@
T
2
302
5.8
@
C
95
@
C
0.0057
303
0.00069
@
C
8.1
@
C
51
303
130000
@
T
2900000
@
T
4
303
3500
@
T
2800000
@
T
0.1
303
5.7
@
C
470
@
C
0.0061
303
0.01
303
3500
@
T
220000000
@
T
0.1
302
12
@
C
520
@
C
0.0029
305
0.4
305
4.7
@
C
1600
@
C
0.0075
303
0.06
303
3400
@
T
94000
@
T
0.1
303
0.057
@
C
3.2
@
C
0.6
303
0.009
303
9100
@
T
66000
@
T
0.3
303
36
@
C
2600
@
C
0.00095
303
0.2
303
10000
@
T
1500000
@
T
0.3
303
21000
@
T
6500000
@
T
0.6
303
3.1
@
C
92
@
C
0.011
305
0.006
305
48000
@
T
2300000
@
T
1.4
303
1200
@
T
2700
@
T
0.06
303
2700
@
T
12000
@
T
0.1
303
3000
@
T
5200
@
T
0.2
303
5
@
C
16
@
C
0.0049
303
720
@
T
1500
@
T
0.04
303
680
@
T
21000
@
T
0.02
303
75
@
T
84
@
T
0.02
305
720
@
T
1200
@
T
0.05
303
42000
@
T
100000
@
T
2
302
1700
@
T
30000
@
T
0.05
303
3400
@
T
98000
@
T
0.1
303
220
@
T
1100
@
T
0.008
305
3100
@
T
29000
@
T
0.1
303
6700
@
T
160000
@
T
0.2
303
10000
@
T
810000
@
T
0.3
302
540
@
T
2300
@
T
0.02
303
170
@
T
3100
@
T
0.005
302
410
@
T
1000
@
T
0.02
302
2800
@
T
360000
@
T
0.08
302
42000
@
T
100000
@
T
2
302
6800
@
T
200000
@
T
0.2
303
680
@
T
21000
@
T
0.02
303
21000
@
T
4600000
@
T
0.6
303
35
@
T
5400
@
T
0.001
303
1.8
@
C
5.9
@
C
0.014
303
0.02
303
37
@
T
39
@
T
0.02
302
4100
@
T
6800
@
T
0.3
303
470
@
T
1000
@
T
0.025
303
3.2
@
C
2400
@
C
0.011
303
320
@
T
3500
@
T
0.052
305
0.01
303
230
@
T
290
@
T
0.03
303
310000
C
1
2900000
C
1
700
@
T
220000000
@
T
0.02
146
300
@
T
370
@
T
0.04
303
1400
@
T
65000
@
T
0.04
305
34
@
T
900
@
T
0.001
302
Water
&
Organisms
Organisms
Only
Slope
Factor
(
mg/
kg/
day)
(
mg/
kg/
d)­
1
Reference
Dose
(
RfD)
Value
(
ug/
L)
Table
3:
Human
Health
Values
Value
(
ug/
L)

A2
­
6
3/
11/
2003
Attachment
2:
AWQC
Values
and
References
for
MP&
M
Rule
CAS
Number
Chemical
Name
70
629594
N­
TETRADECANE
71
629970
N­
DOCOSANE
72
630013
N­
HEXACOSANE
73
630024
N­
OCTACOSANE
74
638686
N­
TRIACONTANE
75
646311
N­
TETRACOSANE
76
694804
1­
BROMO­
2­
CHLOROBENZENE
77
832699
1­
METHYLPHENANTHRENE
78
1576676
3,6­
DIMETHYLPHENANTHRENE
79
1730376
1­
METHYLFLUORENE
80
2027170
2­
ISOPROPYLNAPHTHALENE
81
7429905
ALUMINUM
82
7439896
IRON
83
7439921
LEAD
84
7439954
MAGNESIUM
85
7439965
MANGANESE
86
7439976
MERCURY
87
7439987
MOLYBDENUM
88
7440020
NICKEL
89
7440224
SILVER
90
7440235
SODIUM
91
7440280
THALLIUM
92
7440315
TIN
93
7440326
TITANIUM
94
7440360
ANTIMONY
95
7440382
ARSENIC
96
7440393
BARIUM
97
7440417
BERYLLIUM
98
7440428
BORON
99
7440439
CADMIUM
100
7440473
CHROMIUM
101
7440484
COBALT
102
7440508
COPPER
103
7440575
GOLD
104
7440622
VANADIUM
105
7440655
YTTRIUM
106
7440666
ZINC
107
7440702
CALCIUM
108
7664417
AMMONIA
AS
NITROGEN
109
7782492
SELENIUM
110
14265442
TOTAL
PHOSPHORUS
111
14808798
SULFATE
112
16887006
CHLORIDE
113
16984488
FLUORIDE
114
18496258
TOTAL
SULFIDE
115
18540299
HEXAVALENT
CHROMIUM
116
20324338
TRIPROPYLENEGLYCOL
METHYL
ETHER
117
136777612
O+
P
XYLENE
118
179601231
M+
P
XYLENE
119
C003
BOD
5­
DAY
(
CARBONACEOUS)
120
C004
CHEMICAL
OXYGEN
DEMAND
(
COD)
121
C009
TOTAL
SUSPENDED
SOLIDS
122
C010
TOTAL
DISSOLVED
SOLIDS
123
C012
TOTAL
ORGANIC
CARBON
(
TOC)
124
C021
TOTAL
KJELDAHL
NITROGEN
125
C020
TOTAL
RECOVERABLE
PHENOLICS
126
C025
AMENABLE
CYANIDE
127
C036
OIL
AND
GREASE
(
AS
HEM)
128
C037
TOTAL
PETROLEUM
HYDROCARBONS
(
AS
SGT­
HEM)
129
C042
WEAK­
ACID
DISSOCIABLE
CYANIDE
130
PHOSPHORUS
as
PO4
131
OIL
AND
GREASE
Value
Code
Ref
Value
Code
Ref
Value
Ref
Value
Ref
Water
&
Organisms
Organisms
Only
Slope
Factor
(
mg/
kg/
day)
(
mg/
kg/
d)­
1
Reference
Dose
(
RfD)
Value
(
ug/
L)
Table
3:
Human
Health
Values
Value
(
ug/
L)

20000
@
T
47000
@
T
1
305
300
T
1
0.3
305
50
T
1
100
T
1
0.14
303
0.05
T
1
0.051
T
1
0.005
303
610
@
T
4600
@
T
0.02
303
170
@
T
110000
@
T
0.005
303
1.8
@
T
6.5
@
T
0.00007
305
0.6
302
4
305
14
@
T
4300
@
T
0.0004
303
0.02
@
C
0.16
@
C
1.5
303
0.0003
303
1000
T
1
0.07
303
66
@
T
1100
@
T
0.002
303
0.09
303
14
@
T
84
@
T
0.0005
303
50000
@
T
1000000
@
T
1.5
303
0.06
305
650
@
T
1200
@
T
0.04
305
0.007
302
9100
@
T
69000
@
T
0.3
303
170
@
T
11000
@
T
0.005
303
0.06
303
100
@
T
10000
@
T
0.003
303
100
@
T
2000
@
T
0.003
303
42000
@
T
100000
@
T
2
302
42000
@
T
100000
@
T
2
302
A2
­
7
3/
11/
2003
Attachment
2:
AWQC
Values
and
References
for
MP&
M
Rule
CAS
Number
Chemical
Name
1
51285
2,4­
DINITROPHENOL
2
57125
CYANIDE
3
59507
4­
CHLORO­
3­
METHYLPHENOL
4
62533
ANILINE
5
62759
N­
NITROSODIMETHYLAMINE
6
65850
BENZOIC
ACID
7
67641
2­
PROPANONE
8
67663
CHLOROFORM
9
68122
N,
N­
DIMETHYLFORMAMIDE
10
75003
CHLOROETHANE
11
75092
METHYLENE
CHLORIDE
12
75150
CARBON
DISULFIDE
13
75354
1,1­
DICHLOROETHENE
14
75694
TRICHLOROFLUOROMETHANE
15
78591
ISOPHORONE
16
78831
ISOBUTYL
ALCOHOL
17
78933
2­
BUTANONE
18
79016
TRICHLOROETHENE
19
80626
METHYL
METHACRYLATE
20
83329
ACENAPHTHENE
21
84742
DI­
N­
BUTYL
PHTHALATE
22
85018
PHENANTHRENE
23
85687
BUTYL
BENZYL
PHTHALATE
24
86306
N­
NITROSODIPHENYLAMINE
25
86737
FLUORENE
26
88755
2­
NITROPHENOL
27
91203
NAPHTHALENE
28
91576
2­
METHYLNAPHTHALENE
29
92524
BIPHENYL
30
95476
O­
XYLENE
31
95487
O­
CRESOL
32
98555
ALPHA­
TERPINEOL
33
98862
ACETOPHENONE
34
99876
P­
CYMENE
35
100027
4­
NITROPHENOL
36
100414
ETHYLBENZENE
37
100425
STYRENE
38
100516
BENZYL
ALCOHOL
39
100754
N­
NITROSOPIPERIDINE
40
101848
DIPHENYL
ETHER
41
105679
2,4­
DIMETHYLPHENOL
42
106445
P­
CRESOL
43
107028
ACROLEIN
44
108101
4­
METHYL­
2­
PENTANONE
45
108372
1­
BROMO­
3­
CHLOROBENZENE
46
108383
M­
XYLENE
47
108883
TOLUENE
48
108907
CHLOROBENZENE
49
108952
PHENOL
50
110861
PYRIDINE
51
112403
N­
DODECANE
52
112958
N­
EICOSANE
53
117817
BIS(
2­
ETHYLHEXYL)
PHTHALATE
54
117840
DI­
N­
OCTYL
PHTHALATE
55
120127
ANTHRACENE
56
122394
DIPHENYLAMINE
57
123911
1,4­
DIOXANE
58
124185
N­
DECANE
59
127184
TETRACHLOROETHENE
60
129000
PYRENE
61
131113
DIMETHYL
PHTHALATE
62
132650
DIBENZOTHIOPHENE
63
137304
ZIRAM
/
CYMATE
64
142621
HEXANOIC
ACID
65
206440
FLUORANTHENE
66
544763
N­
HEXADECANE
67
591786
2­
HEXANONE
68
593453
N­
OCTADECANE
69
606202
2,6­
DINITROTOLUENE
Value
Temp
Ref
(
oF)
Value
Ref
Value
Ref
Value
Code
Ref
0.000000443
NS
200
2386
191
263
229
45
114
16
301
200
M
304
0.0000025
NS
36
604
36
100
301
0.0000019
NS
200
54
206
26
206
0.000000263
NS
200
12
206
180
229
0.00000154
20
301
182
206
16
301
0.00004
NS
200
18
206
7
229
0.00367
NS
200
40
206
180
229
100
THM
304
0.000000018
25
43
6.1
43
16
301
0.00882
NS
200
37.6
206
28
229
0.00219
NS
200
28
206
28
229
5
M
304
0.0303
NS
200
89
206
0.0261
NS
200
343
206
180
229
7
M
304
0.097
25
206
93
206
360
229
0.00000576
NS
114
25
206
28
229
0.0000118
25
206
61.7
34
7.2
229
0.00006
NS
200
5.2
206
7
229
0.0103
NS
200
104
206
360
229
5
M
304
0.00034
25
200
22
200
28
229
0.00009
NS
18
3890
206
102
229
0.00000181
23
206
6310
206
23
229
0.00002
NS
206
18800
206
200
229
0.00000126
NS
200
17000
206
7
229
0.000005
NS
200
1200
206
34
229
0.00006
25
206
2830
206
60
229
0.00000947
NS
200
114
206
28
229
0.00048
NS
200
871
206
20
229
0.00052
NS
230
8500
206
20
301
0.0003
NS
200
1400
206
7
229
0.00519
NS
200
129
206
28
229
10000
M
304
0.0000012
NS
200
103
206
7
229
0.0000544
20
301
589
301
15
301
0.00001
NS
100
45
206
16
301
0.011
25
206
4000
114
100
301
4.15E­
10
25
206
236
206
7
229
0.00788
NS
1
250
206
10
229
700
M
304
0.00283
NS
200
920
206
28
229
100
M
304
0.000000743
25
301
6.1
36
16
301
0.000000275
NS
200
9
206
180
229
0.000448
20
301
7800
36
0.000000951
25
206
18
206
7
229
0.000001
25
206
49
206
0.667
229
0.00012
NS
200
5
206
28
229
0.00014
NS
200
19
206
7
229
0.00078
25
43
1500
43
100
301
0.00718
25
206
190
206
28
229
10000
M
304
0.00664
NS
200
95
206
22
229
1000
M
304
0.00377
NS
200
275
206
150
229
100
M
304
0.000000333
NS
200
30.2
206
3.5
229
0.00000888
NS
200
5
200
7
229
95000
114
17
301
30000000
301
17
301
0.0000001
25
230
87420
206
23
229
6
M
304
0.000000445
NS
200
2390
206
28
229
0.00007
NS
200
16000
206
460
229
0.000000496
20
206
1910
34
20
301
0.0000048
NS
200
17
200
180
229
58200
114
17
301
0.0184
NS
200
363
206
360
229
5
M
304
0.000011
25
307
62700
206
1900
229
0.000000105
NS
200
40
206
7
229
0.00002
25
43
11000
43
0.4
114
0.0000225
20
301
38
36
12
301
0.0000161
25
307
41700
206
440
229
207000
114
17
301
0.000113
25
301
12
36
16
301
66900
114
17
301
0.000000747
NS
200
100
200
180
229
Henry's
Law
Constant
(
Koc)
Half­
life
(
days)
Drinking
Water
degradation
Bio­
Coefficient
Adsorption
Table
4:
Physical/
Chemical
Properties
Value
(
ug/
L)
(
atm/
m3­
mole)

A2
­
8
3/
11/
2003
Attachment
2:
AWQC
Values
and
References
for
MP&
M
Rule
CAS
Number
Chemical
Name
70
629594
N­
TETRADECANE
71
629970
N­
DOCOSANE
72
630013
N­
HEXACOSANE
73
630024
N­
OCTACOSANE
74
638686
N­
TRIACONTANE
75
646311
N­
TETRACOSANE
76
694804
1­
BROMO­
2­
CHLOROBENZENE
77
832699
1­
METHYLPHENANTHRENE
78
1576676
3,6­
DIMETHYLPHENANTHRENE
79
1730376
1­
METHYLFLUORENE
80
2027170
2­
ISOPROPYLNAPHTHALENE
81
7429905
ALUMINUM
82
7439896
IRON
83
7439921
LEAD
84
7439954
MAGNESIUM
85
7439965
MANGANESE
86
7439976
MERCURY
87
7439987
MOLYBDENUM
88
7440020
NICKEL
89
7440224
SILVER
90
7440235
SODIUM
91
7440280
THALLIUM
92
7440315
TIN
93
7440326
TITANIUM
94
7440360
ANTIMONY
95
7440382
ARSENIC
96
7440393
BARIUM
97
7440417
BERYLLIUM
98
7440428
BORON
99
7440439
CADMIUM
100
7440473
CHROMIUM
101
7440484
COBALT
102
7440508
COPPER
103
7440575
GOLD
104
7440622
VANADIUM
105
7440655
YTTRIUM
106
7440666
ZINC
107
7440702
CALCIUM
108
7664417
AMMONIA
AS
NITROGEN
109
7782492
SELENIUM
110
14265442
TOTAL
PHOSPHORUS
111
14808798
SULFATE
112
16887006
CHLORIDE
113
16984488
FLUORIDE
114
18496258
TOTAL
SULFIDE
115
18540299
HEXAVALENT
CHROMIUM
116
20324338
TRIPROPYLENEGLYCOL
METHYL
ETHER
117
136777612
O+
P
XYLENE
118
179601231
M+
P
XYLENE
119
C003
BOD
5­
DAY
(
CARBONACEOUS)
120
C004
CHEMICAL
OXYGEN
DEMAND
(
COD)
121
C009
TOTAL
SUSPENDED
SOLIDS
122
C010
TOTAL
DISSOLVED
SOLIDS
123
C012
TOTAL
ORGANIC
CARBON
(
TOC)
124
C021
TOTAL
KJELDAHL
NITROGEN
125
C020
TOTAL
RECOVERABLE
PHENOLICS
126
C025
AMENABLE
CYANIDE
127
C036
OIL
AND
GREASE
(
AS
HEM)
128
C037
TOTAL
PETROLEUM
HYDROCARBONS
(
AS
SGT­
HEM)
129
C042
WEAK­
ACID
DISSOCIABLE
CYANIDE
130
PHOSPHORUS
as
PO4
131
OIL
AND
GREASE
Value
Temp
Ref
(
oF)
Value
Ref
Value
Ref
Value
Code
Ref
Henry's
Law
Constant
(
Koc)
Half­
life
(
days)
Drinking
Water
degradation
Bio­
Coefficient
Adsorption
Table
4:
Physical/
Chemical
Properties
Value
(
ug/
L)
(
atm/
m3­
mole)

126000
114
17
301
110000000
301
17
301
17
301
17
301
17
301
420000000
301
17
301
0.0006
25
43
1500
43
100
301
0.0000078
25
43
36000
43
0.0000053
25
43
330000
43
20
301
0.00008
25
43
33000
43
0.00063
25
43
33000
43
50
SM
304
300
SM
304
15
TT
304
50
SM
304
0.018
NS
114
30000
114
2
M
304
300
114
100
SM
304
2
M
304
6
M
304
50
M
304
2000
M
304
4
M
304
5
M
304
100
M
304
1300
TT
304
5000
SM
304
0.0000161
25
206
3.1
18
16
191
50
M
304
250000
SM
304
250000
SM
304
4000
M
304
100
M
304
1E­
10
25
43
46
43
16
301
0.0076
NS
200
260
206
28
229
10000
M
304
0.0076
NS
200
260
206
28
229
10000
M
304
A2
­
9
3/
11/
2003
A3­
1
ATTACHMENT
3
Aquatic
Life
and
Human
Health
Coding
Sheet
and
References
A3­
2
AQUATIC
LIFE
AND
HUMAN
HEALTH
DATA
CODES
Aquatic
Life
Data
Codes
Acute
Toxicity
Codes
C
EPA
CRITERIA
E
ESTIMATED
(
NEELY,
1983)
EC50
LOWEST
REPORTED
LA2
ADJUSTED
24­
HOUR
LC50
(
X
0.66)
LA7
ADJUSTED
72­
HOUR
LC50
(
X
0.92)
LD
ADJUSTED
24­
HOUR
EC50
(
X
0.53)
LL
LOWEST
REPORTED
LOEL
VALUE
LR7
LOWEST
REPORTED
7­
DAY
LC50
LT
LOWEST
TOXIC
CONCENTRATION
(
NO
TIME
GIVEN)
L4
LOWEST
REPORTED
48­
HOUR
EC50
LA4
ADJUSTED
48­
HOUR
LC50
(
X0.81)
L9
LOWEST
REPORTED
96­
HOUR
LC50
@
L9
QSAR
ESTIMATED
96­
HOUR
LC50
Chronic
Toxicity
Codes
C
EPA
CRITERIA
E
ESTIMATED
(
NEELY,
1983)
ECGR
LOWEST
REPORTED
96
HR
EC50
FOR
ALGAE
(
GROWTH
EFFECT)
ECRE
LOWEST
REPORTED
96­
HR
EC50
FOR
ALGAE
(
REPRODUCTIVE
EFFECT)
GRO
LOWEST
REPORTED
VALUE
FROM
CHRONIC
GROWTH
TEST
LC
LOWEST
REPORTED
CHRONIC
VALUE
LM
LOWEST
REPORTED
MATC
VALUE
LN
LOWEST
REPORTED
NOEC
VALUE
LO
LOWEST
REPORTED
OTHER
VALUE
LV
LOWEST
REPORTED
VALUE
REP
LOWEST
REPORTED
VALUE
FROM
CHRONIC
REPRODUCTION
TEST
@
LM
QSAR
ESTIMATED
MATC
VALUE
@
A10
ESTIMATED
FROM
ACUTE
VALUE
USING
ACUTE:
CHRONIC
RATIO
OF
10
@
AAB
ESTIMATED
FROM
ACUTE
VALUE
USING
ACUTE:
CHRONIC
RATIO
OF
10
(
PREVIOUSLY
RATIO
OF
100)
@
ACR
ESTIMATED
FROM
ACUTE
VALUE
USING
CHEMICAL
SPECIFIC
ACUTE:
CHRONIC
RATIO
AQUATIC
LIFE
AND
HUMAN
HEALTH
DATA
CODES
(
CONT'D)

A3­
3
Freshwater
Aquatic
Species
Codes
AC
ATLANTIC
COD
GADUS
MORHUA
BA
BASS
MICROPTERUS
SPP
BG
BLUEGILL
LEPOMIS
MACROCHIRUS
BR
BROWN
TROUT
(
FRESHWATER)
SALMO
TRUTTA,
SALVENLINUS
FONINALIS
BR
BRINE
SHRIMP
(
SALTWATER)
ARTEMIA
SALINA
BS
BRINE
SHRIMP
ARTEMIA
SALINA
BW
BROWN
SHRIMP
PENAEUS
AZTECUS
CD
WATER
FLEA
CERIODAPHNIA
DUBIA
CERIODAPHNIA
RETICULATA,
ETC.
CF
CATFISH
HETROPNEUSTES
FOSSILIS,
ICTALURUS
PUNCTATUS
CO
COHO
SALMON
ONCORHYCHUS
KISUTCH
CY
CRAYFISH
DC
DUNGENESS
CRAB
CANCER
MAGISTER
DF
DINOFLAGELLATE
(
SALTWATER)
GYMNODINIUM
BREVE
DM
WATER
FLEA
DAPHNIA
MAGNA
DW
DUCKWEED
LEMNA
MINOR
EO
EASTERN
OYSTER
CRASSOSTREA
VIRGININA
FL
FLAGFISH
JORDANELLA
FLORIDAE
FM
FATHEAD
MINNOW
PIMEPHALES
PROMELAS
GA
GREEN
ALGAE
GF
GOLDFISH
CARASSIUS
AURATUS
GS
GRASS
SHRIMP
PALAEMONETES
KADIAKENSIS/
PUGIO
GU
GUPPY
POECILIA
RETICULATA
HC
HARD
CLAM
MERCENARIA
MERCENARIA
IS
INLAND
SILVERSIDE
MENIDA
BERYLLINA
LK
LONGNOSE
KILLIFISH
FUNDULUS
SIMILIS
MC
MUMMICHOG
FUNDULUS
HETEROCLITUS
MF
MOSQUITO
FISH
GAMBUSIA
AFFINIS
MS
MYSID
SHRIMP
MYSIDOPSIS
BAHIA
NA
NOT
AVAILABLE/
APPLICABLE
OG
PINK
SALMON
ONCORHYNCHUS
GORBUSCHA
OS
OPPOSUM
SHRIMP
MYSIDOPSIS
BAHIA
PH
PACIFIC
HERRING
CLUPEA
HARENGUS
PALIASI
PO
PACIFIC
OYSTER
CRASSOSTREA
GIGAS
PW
POLYCHAETE
WORM
NEANTHES/
NEREIS
ARENACEODENTATA
RT
RAINBOW
TROUT
SALMO
GAIRDNERI,
ONCORHYNCHUS
MYKISS
SB
STRIPED
BASS
MORONE
SAXATILIUS
SC
SCUD
(
SALTWATER)
COROPHIUM
ACHERUSICUM/
ELASMOPUS
PECTINICRUS
SC
SCUD
(
FRESHWATER)
GAMMARUS
SPP.
SM
SHEEPSHEAD
MINNOW
CYPRINDON
VARIEGATUS
SP
SHINER
PERCH
CYMATOGASTER
AGGREATA
SS
SAND
SHRIMP
CRANGON
CRAGON/
SEPTERMSPINOSA/
VULGARIS
AQUATIC
LIFE
AND
HUMAN
HEALTH
DATA
CODES
(
CONT'D)

A3­
4
Human
Health
Data
Codes
C
CRITERION
FOR
CARCINOGENICITY
PROTECTION
(
Risk
Level
=
10E­
6)
T
CRITERION
FOR
SYSTEMIC
TOXICITY
PROTECTION
@
C
NON­
CRITERION
CALCULATED
VALUE
FOR
CARCINOGENICITY
PROTECTION
@
T
NON­
CRITERION
CALCULATED
VALUE
FOR
SYSTEMIC
TOXICITY
PROTECTION
Drinking
Water
Criteria
Codes
M
MAXIMUM
CONTAMINANT
LEVEL
ESTABLISHED
FOR
HEALTH­
BASED
EFFECT
SM
SECONDARY
MAXIMUM
CONTAMINANT
LEVEL
(
SMCL)
ESTABLISHED
FOR
TASTE
OR
AESTHETIC
EFFECT
THM
MCL
ESTABLISHED
FOR
TRIHALOMETHANES
TT
TREATMENT
TECHNOLOGY
ACTION
LEVEL
ESTABLISHED
R­
1
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