Document ID: EPA-HQ-OW-2004-0002-1872
Agency: epa
Document Type: Supporting & Related Material
Title: 
Posted Date: 2006-07-02T04:00Z

species
stage
year
impinged.
est
entrained.
est
junk
junk
­
99
­
99
­
99
gizzard.
shad
age01
1991
300,253
NA
yellow.
perch
age01
1991
515
NA
shiner.
spp
age01
1991
354
NA
freshwater.
drum
age01
1991
4,254
NA
white.
bass
age01
1991
686
NA
carp.
goldfish
age01
1991
405
NA
channel.
catfish
age01
1991
578
NA
white.
perch
age01
1991
8,698
NA
crappie.
spp
age01
1991
58
NA
sunfish.
spp
age01
1991
395
NA
bullhead.
spp
age01
1991
21
NA
walleye
age01
1991
2
NA
others
age01
1991
356
NA
gizzard.
shad
age01
1987
72,428
NA
yellow.
perch
age01
1987
892
NA
emerald.
shiner
age01
1987
5,475
NA
spottail.
shiner
age01
1987
129
NA
freshwater.
drum
age01
1987
886
NA
white.
bass
age01
1987
269
NA
carp.
goldfish
age01
1987
122
NA
channel.
catfish
age01
1987
250
NA
white.
perch
age01
1987
1,697
NA
sunfish.
spp
age01
1987
290
NA
crappie.
spp
age01
1987
181
NA
walleye
age01
1987
9
NA
bullhead.
spp
age01
1987
67
NA
others
age01
1987
177
NA
gizzard.
shad
larvae
1979
0
569,477,861
herring.
family
larvae
1979
0
80,561
rainbow.
smelt
larvae
1979
0
155,897
carp.
goldfish
larvae
1979
0
7,372,177
emerald.
shiner
larvae
1979
0
7,035,399
spottail.
shiner
larvae
1979
0
549,115
minnow.
spp
larvae
1979
0
55,015
bluntnose.
minnow
larvae
1979
0
41,095
minnow.
family
larvae
1979
0
1,527,606
carpsuckers.
buffaloes
larvae
1979
0
268,228
channel.
catfish
larvae
1979
0
28,918
white.
bass
larvae
1979
0
5,679,922
sunfish.
spp
larvae
1979
0
1,040,904
crappie.
spp
larvae
1979
0
132,964
yellow.
perch
larvae
1979
0
2,717,410
logperch
larvae
1979
0
191,471
perch.
family
larvae
1979
0
71,335
freshwater.
drum
larvae
1979
0
32,762,696
others
larvae
1979
NA
180,807
others
egg
1979
NA
553620137
gizzard.
shad
age01
1978
6,722,765
NA
yellow.
perch
age01
1978
120,031
NA
emerald.
shiner
age01
1978
520,580
NA
spottail.
shiner
age01
1978
170,935
NA
freshwater.
drum
age01
1978
36,200
NA
white.
bass
age01
1978
37,771
NA
goldfish
age01
1978
60,507
NA
common.
carp
age01
1978
19,318
NA
channel.
catfish
age01
1978
2,310
NA
logperch
age01
1978
1,898
NA
trout.
perch
age01
1978
4,924
NA
orangespotted.
sunfish
age01
1978
405
NA
crappie.
spp
age01
1978
771
NA
rainbow.
smelt
age01
1978
5,181
NA
sucker.
spp
age01
1978
1,420
NA
bullhead.
spp
age01
1978
1,239
NA
pumpkinseed
age01
1978
605
NA
walleye
age01
1978
7,204
NA
alewife
age01
1978
3,051
NA
gizzard.
shad
age01
1979
16,709,084
0
yellow.
perch
age01
1979
56,837
0
emerald.
shiner
age01
1979
505,244
0
spottail.
shiner
age01
1979
77,702
0
freshwater.
drum
age01
1979
31,353
0
white.
bass
age01
1979
35,226
0
goldfish
age01
1979
26,802
0
common.
carp
age01
1979
4,015
0
channel.
catfish
age01
1979
2,291
0
logperch
age01
1979
1,784
0
trout.
perch
age01
1979
3,294
0
orangespotted.
sunfish
age01
1979
550
0
crappie.
spp
age01
1979
364
0
rainbow.
smelt
age01
1979
433
0
sucker.
spp
age01
1979
660
0
bullhead.
spp
age01
1979
2,203
0
pumpkinseed
age01
1979
504
0
walleye
age01
1979
965
0
alewife
age01
1979
311
0
gizzard.
shad
age01
1980
8,859,922
NA
yellow.
perch
age01
1980
19,978
NA
emerald.
shiner
age01
1980
68,111
NA
spottail.
shiner
age01
1980
17,129
NA
freshwater.
drum
age01
1980
18,485
NA
white.
bass
age01
1980
22,175
NA
goldfish
age01
1980
8,910
NA
common.
carp
age01
1980
1,389
NA
channel.
catfish
age01
1980
2,316
NA
logperch
age01
1980
861
NA
trout.
perch
age01
1980
1,716
NA
orangespotted.
sunfish
age01
1980
551
NA
crappie.
spp
age01
1980
405
NA
rainbow.
smelt
age01
1980
111
NA
sucker.
spp
age01
1980
129
NA
bullhead.
spp
age01
1980
95
NA
pumpkinseed
age01
1980
278
NA
walleye
age01
1980
437
NA
alewife
age01
1980
161
NA
gizzard.
shad
age01
1981
2,605,856
NA
yellow.
perch
age01
1981
34,044
NA
emerald.
shiner
age01
1981
173,874
NA
spottail.
shiner
age01
1981
27,977
NA
freshwater.
drum
age01
1981
37,610
NA
white.
bass
age01
1981
19,421
NA
goldfish
age01
1981
6,587
NA
common.
carp
age01
1981
3,920
NA
channel.
catfish
age01
1981
1,903
NA
logperch
age01
1981
862
NA
trout.
perch
age01
1981
1,632
NA
orangespotted.
sunfish
age01
1981
1,897
NA
crappie.
spp
age01
1981
917
NA
rainbow.
smelt
age01
1981
723
NA
sucker.
spp
age01
1981
154
NA
bullhead.
spp
age01
1981
138
NA
pumpkinseed
age01
1981
193
NA
walleye
age01
1981
441
NA
alewife
age01
1981
605
NA
gizzard.
shad
age01
1982
610,812
NA
yellow.
perch
age01
1982
4,864
NA
emerald.
shiner
age01
1982
11,052
NA
spottail.
shiner
age01
1982
2,998
NA
freshwater.
drum
age01
1982
8,309
NA
white.
bass
age01
1982
5,612
NA
goldfish
age01
1982
1,137
NA
common.
carp
age01
1982
430
NA
channel.
catfish
age01
1982
1,832
NA
logperch
age01
1982
470
NA
trout.
perch
age01
1982
170
NA
orangespotted.
sunfish
age01
1982
530
NA
crappie.
spp
age01
1982
501
NA
rainbow.
smelt
age01
1982
8
NA
sucker.
spp
age01
1982
38
NA
bullhead.
spp
age01
1982
107
NA
pumpkinseed
age01
1982
116
NA
walleye
age01
1982
283
NA
gizzard.
shad
age01
1983
752,149
NA
yellow.
perch
age01
1983
3,431
NA
emerald.
shiner
age01
1983
9,000
NA
spottail.
shiner
age01
1983
2,217
NA
freshwater.
drum
age01
1983
2,297
NA
white.
bass
age01
1983
2,815
NA
goldfish
age01
1983
978
NA
common.
carp
age01
1983
196
NA
channel.
catfish
age01
1983
1,097
NA
logperch
age01
1983
174
NA
trout.
perch
age01
1983
1,124
NA
orangespotted.
sunfish
age01
1983
875
NA
crappie.
spp
age01
1983
655
NA
rainbow.
smelt
age01
1983
22
NA
sucker.
spp
age01
1983
29
NA
bullhead.
spp
age01
1983
64
NA
pumpkinseed
age01
1983
150
NA
walleye
age01
1983
83
NA
alewife
age01
1982
0
NA
alewife
age01
1983
0
NA
white.
perch
age01
1978
0
NA
bluntnose.
minnow
age01
1981
0
NA
others
age01
1978
NA
NA
others
age01
1980
NA
NA
others
age01
1981
NA
NA
others
age01
1982
NA
NA
others
age01
1983
NA
NA
notes
comments
junk
junk
From
[
26883]
Table
1
From
[
26883]
Table
1
From
[
26883]
Table
1
From
[
26883]
Table
1
From
[
26883]
Table
1
From
[
26883]
Table
1
From
[
26883]
Table
1
From
[
26883]
Table
1
From
[
26883]
Table
1
From
[
26883]
Table
1
From
[
26883]
Table
1
From
[
26883]
Table
1
From
[
26883]
Table
1
From
[
26884]
Table
1
From
[
26884]
Table
1
From
[
26884]
Table
1
From
[
26884]
Table
1
From
[
26884]
Table
1
From
[
26884]
Table
1
From
[
26884]
Table
1
From
[
26884]
Table
1
From
[
26884]
Table
1
From
[
26884]
Table
1
From
[
26884]
Table
1
From
[
26884]
Table
1
From
[
26884]
Table
1
From
[
26884]
Table
1
From
[
26886]
Table
5­
16
From
[
26886]
Table
5­
16
From
[
26886]
Table
5­
16
From
[
26886]
Table
5­
16
From
[
26886]
Table
5­
16
From
[
26886]
Table
5­
16
From
[
26886]
Table
5­
16
From
[
26886]
Table
5­
16
From
[
26886]
Table
5­
16
From
[
26886]
Table
5­
16
From
[
26886]
Table
5­
16
From
[
26886]
Table
5­
16
From
[
26886]
Table
5­
16
From
[
26886]
Table
5­
16
From
[
26886]
Table
5­
16
From
[
26886]
Table
5­
16
From
[
26886]
Table
5­
16
From
[
26886]
Table
5­
16
From
[
26886]
Table
5­
16
From
[
26886]
Table
5­
16
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
From
[
26885]
Table
2
M.
L.
added
this
data
From
[
26885]
Table
2
M.
L.
added
this
data
we
have
only
major
species
described
in
Table
2[
26885]
urposes
because
we
have
to
have
the
species;
even
if
0
we
have
only
major
species
described
in
Table
2[
26885]
we
have
only
major
species
described
in
Table
2[
26885]
cause
only
16
major
species
reported
in
Table
2
[
26885]
we
have
only
major
species
described
in
Table
2[
26885]
we
have
only
major
species
described
in
Table
2[
26885]
species
stage
stage.
sequencesurvival.
bystage.
fraction
nat.
mort.
m
fish.
mort.
f
bluntnose.
minnow
egg
1
0.1
2.3
0
bluntnose.
minnow
larvae
2
0.127279951
2.06136628
0
bluntnose.
minnow
age0
3
0.127279951
2.06136628
0
bluntnose.
minnow
age01
4
0.3679
1
0
bluntnose.
minnow
age02
5
0.3679
1
0
bluntnose.
minnow
age03
6
0.3679
1
0
emerald.
shiner
egg
1
0.1
2.302585093
0
gizzard.
shad
egg
1
0.1
2.302585093
0
channel.
catfish
egg
1
0.1
2.302585093
0
channel.
catfish
larvae
2
0.01
4.605170186
0
channel.
catfish
age0
3
0.25
1.386294361
0
channel.
catfish
age01
4
0.44
0.410490276
0.410490276
channel.
catfish
age02
5
0.44
0.410490276
0.410490276
channel.
catfish
age03
6
0.44
0.410490276
0.410490276
channel.
catfish
age04
7
0.44
0.410490276
0.410490276
channel.
catfish
age05
8
0.44
0.410490276
0.410490276
channel.
catfish
age06
9
0.44
0.410490276
0.410490276
channel.
catfish
age07
10
0.44
0.410490276
0.410490276
channel.
catfish
age08
11
0.44
0.410490276
0.410490276
channel.
catfish
age09
12
0.44
0.410490276
0.410490276
channel.
catfish
age10
13
0.44
0.410490276
0.410490276
channel.
catfish
age11
14
0.44
0.410490276
0.410490276
channel.
catfish
age12
15
0.44
0.410490276
0.410490276
freshwater.
drum
egg
1
0.10331218
2.27
0
freshwater.
drum
larvae
2
0.002178759
6.129
0
freshwater.
drum
age0
3
0.100660682
1.148
1.148
freshwater.
drum
age01
4
0.733446956
0.155
0.155
freshwater.
drum
age02
5
0.733446956
0.155
0.155
freshwater.
drum
age03
6
0.733446956
0.155
0.155
freshwater.
drum
age04
7
0.733446956
0.155
0.155
freshwater.
drum
age05
8
0.733446956
0.155
0.155
freshwater.
drum
age06
9
0.733446956
0.155
0.155
freshwater.
drum
age07
10
0.733446956
0.155
0.155
freshwater.
drum
age08
11
0.733446956
0.155
0.155
freshwater.
drum
age09
12
0.733446956
0.155
0.155
freshwater.
drum
age10
13
0.733446956
0.155
0.155
freshwater.
drum
age11
14
0.733446956
0.155
0.155
freshwater.
drum
age12
15
0.733446956
0.155
0.155
common.
carp
egg
1
0.10
2.302585093
0
common.
carp
larvae
2
0.01
4.605170186
0
common.
carp
age0
3
0.25
1.386294361
0
common.
carp
age01
4
0.7711
0.13
0.13
common.
carp
age02
5
0.7711
0.13
0.13
common.
carp
age03
6
0.7711
0.13
0.13
common.
carp
age04
7
0.7711
0.13
0.13
common.
carp
age05
8
0.7711
0.13
0.13
common.
carp
age06
9
0.7711
0.13
0.13
common.
carp
age07
10
0.7711
0.13
0.13
common.
carp
age08
11
0.7711
0.13
0.13
common.
carp
age09
12
0.7711
0.13
0.13
common.
carp
age10
13
0.7711
0.13
0.13
common.
carp
age11
14
0.7711
0.13
0.13
common.
carp
age12
15
0.7711
0.13
0.13
common.
carp
age13
16
0.7711
0.13
0.13
common.
carp
age14
17
0.7711
0.13
0.13
common.
carp
age15
18
0.7711
0.13
0.13
common.
carp
age16
19
0.7711
0.13
0.13
common.
carp
age17
20
0.7711
0.13
0.13
smallmouth.
bass
egg
1
0.15
1.897119985
0
smallmouth.
bass
larvae
2
0.0672
2.7
0
smallmouth.
bass
age0
3
0.64
0.446287103
0
smallmouth.
bass
age01
4
0.3362
0.86
0.23
smallmouth.
bass
age02
5
0.2247
1.1711
0.3220525
smallmouth.
bass
age03
6
0.3819
0.755022
0.20763105
smallmouth.
bass
age04
7
0.2625
1.049
0.288475
smallmouth.
bass
age05
8
0.3311
0.867
0.238425
smallmouth.
bass
age06
9
0.3311
0.867
0.238425
smallmouth.
bass
age07
10
0.3311
0.867
0.238425
smallmouth.
bass
age08
11
0.3311
0.867
0.238425
smallmouth.
bass
age09
12
0.3311
0.867
0.238425
herring.
family
egg
1
0.1
2.3
0
herring.
family
larvae
2
0.014196619
4.254751441
0
herring.
family
age0
3
0.014196619
4.254751441
0
herring.
family
age01
4
0.4966
0.7
0
herring.
family
age02
5
0.4966
0.7
0
herring.
family
age03
6
0.4966
0.7
0
white.
bass
egg
1
0.1
2.302585093
0
white.
bass
larvae
2
0.01
4.605170186
0
white.
bass
age0
3
0.25
1.386294361
0
white.
bass
age01
4
0.3263
0.42
0.7
white.
bass
age02
5
0.3263
0.42
0.7
white.
bass
age03
6
0.3263
0.42
0.7
white.
bass
age04
7
0.3263
0.42
0.7
white.
bass
age05
8
0.3263
0.42
0.7
white.
bass
age06
9
0.3263
0.42
0.7
white.
bass
age07
10
0.3263
0.42
0.7
crappie.
spp
egg
1
0.165298888
1.8
0
crappie.
spp
larvae
2
0.607744935
0.498
0
crappie.
spp
age0
3
0.053632503
2.9256
0
crappie.
spp
age01
4
0.557663246
0.292
0.292
crappie.
spp
age02
5
0.557663246
0.292
0.292
crappie.
spp
age03
6
0.557663246
0.292
0.292
crappie.
spp
age04
7
0.557663246
0.292
0.292
crappie.
spp
age05
8
0.557663246
0.292
0.292
crappie.
spp
age06
9
0.557663246
0.292
0.292
crappie.
spp
age07
10
0.557663246
0.292
0.292
crappie.
spp
age08
11
0.557663246
0.292
0.292
crappie.
spp
age09
12
0.557663246
0.292
0.292
bluegill
egg
1
0.177639334
1.728
0
bluegill
larvae
2
0.562142445
0.576
0
bluegill
age0
3
0.0099
4.615
0
bluegill
age01
4
0.6771
0.39
0
bluegill
age02
5
0.8595
0.151404454
0
bluegill
age03
6
0.23
0.734837985
0.734837985
bluegill
age04
7
0.23
0.734837985
0.734837985
bluegill
age05
8
0.23
0.734837985
0.734837985
bluegill
age06
9
0.23
0.734837985
0.734837985
bluegill
age07
10
0.23
0.734837985
0.734837985
bluegill
age08
11
0.23
0.734837985
0.734837985
bluegill
age09
12
0.23
0.734837985
0.734837985
bullhead.
spp
egg
1
0.1
2.302585093
0
bullhead.
spp
larvae
2
0.01
4.605170186
0
bullhead.
spp
age0
3
0.25
1.386294361
0
bullhead.
spp
age01
4
0.64
0.223143551
0.223143551
bullhead.
spp
age02
5
0.64
0.223143551
0.223143551
bullhead.
spp
age03
6
0.64
0.223143551
0.223143551
bullhead.
spp
age04
7
0.64
0.223143551
0.223143551
bullhead.
spp
age05
8
0.64
0.223143551
0.223143551
bullhead.
spp
age05
9
0.64
0.223143551
0.223143551
yellow.
perch
egg
1
0.063696542
2.753625
0
sunfish.
spp
egg
1
0.18
1.714798428
0
sunfish.
spp
larvae
2
0.5033317
0.686505883
0
sunfish.
spp
age0
3
0.5033317
0.686505883
0
sunfish.
spp
age01
4
0.2
1.609437912
0
sunfish.
spp
age02
5
0.2
1.609437912
0
sunfish.
spp
age03
6
0.05
1.497866137
1.497866137
sunfish.
spp
age04
7
0.05
1.497866137
1.497866137
sunfish.
spp
age05
8
0.05
1.497866137
1.497866137
sunfish.
spp
age06
9
0.05
1.497866137
1.497866137
sunfish.
spp
age07
10
0.05
1.497866137
1.497866137
sunfish.
spp
age08
11
0.05
1.497866137
1.497866137
sucker.
spp
egg
1
0.129250874
2.046
0
sucker.
spp
larvae
2
0.077498244
2.5575
0
sucker.
spp
age0
3
0.099858609
2.304
0
sucker.
spp
age01
4
0.578683259
0.2735
0.2735
sucker.
spp
age02
5
0.578683259
0.2735
0.2735
sucker.
spp
age03
6
0.578683259
0.2735
0.2735
sucker.
spp
age04
7
0.578683259
0.2735
0.2735
sucker.
spp
age05
8
0.578683259
0.2735
0.2735
sucker.
spp
age06
9
0.578683259
0.2735
0.2735
spotted.
sucker
egg
1
0.166293663
1.794
0
spotted.
sucker
larvae
2
0.06016888
2.8106
0
spotted.
sucker
age0
3
0.050026621
2.9952
0
spotted.
sucker
age01
4
0.578393989
0.5475
0
spotted.
sucker
age02
5
0.578393989
0.5475
0
spotted.
sucker
age03
6
0.578393989
0.5475
0
spotted.
sucker
age04
7
0.578393989
0.5475
0
spotted.
sucker
age05
8
0.578393989
0.5475
0
spotted.
sucker
age06
9
0.578393989
0.5475
0
golden.
redhorse
egg
1
0.100158635
2.301
0
golden.
redhorse
larvae
2
0.100158635
2.301
0
golden.
redhorse
age0
3
0.050337749
2.989
0
golden.
redhorse
age01
4
0.578393989
0.5475
0
golden.
redhorse
age02
5
0.578393989
0.5475
0
golden.
redhorse
age03
6
0.578393989
0.5475
0
golden.
redhorse
age04
7
0.578393989
0.5475
0
golden.
redhorse
age05
8
0.578393989
0.5475
0
golden.
redhorse
age06
9
0.578393989
0.5475
0
golden.
redhorse
age07
10
0.578393989
0.5475
0
muskellunge
egg
1
0.34
1.078809661
0
muskellunge
larvae
2
0.004138381
5.48745063
0
muskellunge
age0
3
0.004138381
5.48745063
0
muskellunge
age01
4
0.860707976
0.15
0
muskellunge
age02
5
0.860707976
0.15
0
muskellunge
age03
6
0.860707976
0.15
0
muskellunge
age04
7
0.860707976
0.15
0
muskellunge
age05
8
0.860707976
0.15
0
muskellunge
age06
9
0.860707976
0.15
0
muskellunge
age07
10
0.860707976
0.15
0
muskellunge
age08
11
0.860707976
0.15
0
muskellunge
age09
12
0.860707976
0.15
0
muskellunge
age10
13
0.860707976
0.075
0.075
muskellunge
age11
14
0.860707976
0.075
0.075
muskellunge
age12
15
0.860707976
0.075
0.075
muskellunge
age13
16
0.860707976
0.075
0.075
muskellunge
age14
17
0.860707976
0.075
0.075
muskellunge
age15
18
0.860707976
0.075
0.075
muskellunge
age16
19
0.860707976
0.075
0.075
muskellunge
age17
20
0.860707976
0.075
0.075
muskellunge
age18
21
0.860707976
0.075
0.075
muskellunge
age19
22
0.860707976
0.075
0.075
muskellunge
age20
23
0.860707976
0.075
0.075
muskellunge
age21
24
0.860707976
0.075
0.075
muskellunge
age22
25
0.860707976
0.075
0.075
muskellunge
age23
26
0.860707976
0.075
0.075
muskellunge
age24
27
0.860707976
0.075
0.075
muskellunge
age25
28
0.860707976
0.075
0.075
muskellunge
age26
29
0.860707976
0.075
0.075
muskellunge
age27
30
0.860707976
0.075
0.075
walleye
egg
1
0.35
1.049822124
0
walleye
larvae
2
0.028661515
3.5522
0
walleye
age0
3
0.144496499
1.9345
0
walleye
age01
4
0.523378692
0.04745
0.6
walleye
age02
5
0.523378692
0.04745
0.6
walleye
age03
6
0.523378692
0.04745
0.6
walleye
age04
7
0.523378692
0.04745
0.6
walleye
age05
8
0.523378692
0.04745
0.6
walleye
age06
9
0.523378692
0.04745
0.6
walleye
age07
10
0.523378692
0.04745
0.6
walleye
age09
11
0.523378692
0.04745
0.6
sauger
egg
1
0.35
1.049822124
0
sauger
larvae
2
0.028661515
3.5522
0
sauger
age0
3
0.198592558
1.6165
0
sauger
age01
4
0.79457333
0.114975
0.114975
sauger
age02
5
0.79457333
0.114975
0.114975
sauger
age03
6
0.79457333
0.114975
0.114975
sauger
age04
7
0.79457333
0.114975
0.114975
sauger
age05
8
0.79457333
0.114975
0.114975
sauger
age06
9
0.79457333
0.114975
0.114975
sauger
age07
10
0.79457333
0.114975
0.114975
sauger
age08
11
0.79457333
0.114975
0.114975
logperch
egg
1
0.1
2.302585093
0
logperch
larvae
2
0.149067545
1.903355754
0
logperch
age0
3
0.149067545
1.903355754
0
logperch
age01
4
0.496585304
0.7
0
logperch
age02
5
0.496585304
0.7
0
logperch
age03
6
0.496585304
0.7
0
bigmouth.
buffalo
egg
1
0.056698927
2.87
0
bigmouth.
buffalo
larvae
2
0.178173052
1.725
0
bigmouth.
buffalo
age0
3
0.050797913
2.98
0
bigmouth.
buffalo
age01
4
0.578393989
0.5475
0
bigmouth.
buffalo
age02
5
0.578393989
0.5475
0
bigmouth.
buffalo
age03
6
0.578393989
0.5475
0
bigmouth.
buffalo
age04
7
0.578393989
0.5475
0
bigmouth.
buffalo
age05
8
0.578393989
0.5475
0
bigmouth.
buffalo
age06
9
0.578393989
0.5475
0
bigmouth.
buffalo
age07
10
0.578393989
0.5475
0
bigmouth.
buffalo
age08
11
0.578393989
0.5475
0
bigmouth.
buffalo
age09
12
0.578393989
0.5475
0
bigmouth.
buffalo
age10
13
0.578393989
0.5475
0
bigmouth.
buffalo
age11
14
0.578393989
0.5475
0
bigmouth.
buffalo
age12
15
0.578393989
0.5475
0
bigmouth.
buffalo
age13
16
0.578393989
0.5475
0
bigmouth.
buffalo
age14
17
0.578393989
0.5475
0
bigmouth.
buffalo
age15
18
0.578393989
0.5475
0
alewife
egg
1
0.574934016
0.5535
0
alewife
ysl
2
0.162859893
1.814865
0
alewife
pysl
3
0.178708374
1.722
0
alewife
juv1
4
0.044818468
3.105135
0
alewife
juv2
5
0.044818468
3.105135
0
alewife
age01
6
0.740795996
0.30003
0
alewife
age02
7
0.740795996
0.30003
0
alewife
age03
8
0.740795996
0.30003
0
alewife
age04
9
0.40653307
0.90009
0
alewife
age05
10
0.223096693
1.50015
0
alewife
age06
11
0.223096693
1.50015
0
alewife
age07
12
0.223096693
1.50015
0
alewife
age08
13
0.223096693
1.50015
0
rainbow.
smelt
egg
1
0.03600000
3.32
0
rainbow.
smelt
larvae
2
0.07000000
2.65
0
rainbow.
smelt
age01
3
0.48678000
0.72
0
rainbow.
smelt
age02
4
0.32620000
0.72
0
rainbow.
smelt
age03
5
0.32620000
0.72
0
rainbow.
smelt
age04
6
0.32620000
0.72
0
rainbow.
smelt
age05
7
0.32620000
0.72
0
rainbow.
smelt
age06
8
0.32620000
0.72
0
yellow.
perch
larvae
2
0.028490061
3.5582
0
yellow.
perch
age0
3
0.080002292
2.5257
0
yellow.
perch
age01
4
0.696978998
0.361
0
yellow.
perch
age02
5
0.779969861
0.2485
0
yellow.
perch
age03
6
0.299991841
0.504
0.7
yellow.
perch
age04
7
0.299991841
0.504
0.7
yellow.
perch
age05
8
0.299991841
0.504
0.7
yellow.
perch
age06
9
0.299991841
0.504
0.7
emerald.
shiner
larvae
2
0.009993704
4.6058
0
emerald.
shiner
age0
3
0.460013243
0.7765
0
emerald.
shiner
age01
4
0.689974941
0.3711
0
emerald.
shiner
age02
5
0.009999702
4.6052
0
emerald.
shiner
age03
6
0.009999702
4.6052
0
gizzard.
shad
larvae
2
0.001789713
6.3257
0
gizzard.
shad
age0
3
0.600015374
0.5108
0
gizzard.
shad
age01
4
0.055337748
1.44715
1.44715
gizzard.
shad
age02
5
0.07860657
1.27165
1.27165
gizzard.
shad
age03
6
0.144829223
0.9661
0.9661
gizzard.
shad
age04
7
0.174592603
0.87265
0.87265
gizzard.
shad
age05
8
0.54541953
0.3031
0.3031
gizzard.
shad
age06
9
0.54541953
0.3031
0.3031
white.
perch
egg
1
0.063696542
2.753625
0
white.
perch
ysl
2
0.122701586
2.098
0
white.
perch
pysl
3
0.037897126
3.27288
0
white.
perch
juv1
4
0.387816496
0.947223
0
white.
perch
juv2
5
0.467911548
0.759476
0
white.
perch
age01
6
0.430352775
0.693135
0.150015
white.
perch
age02
7
0.430352775
0.693135
0.150015
white.
perch
age03
8
0.430352775
0.693135
0.150015
white.
perch
age04
9
0.432084115
0.68912
0.150015
white.
perch
age05
10
0.177720178
1.57753
0.150015
white.
perch
age06
11
0.185000824
1.53738
0.150015
white.
perch
age07
12
0.195198166
1.483725
0.150015
white.
perch
age08
13
0.200030585
1.45927
0.150015
white.
perch
age09
14
0.200030585
1.45927
0.150015
white.
perch
age10
15
0.200030585
1.45927
0.150015
bullhead.
spp
age07
10
0.64
0.223143551
0.223143551
bullhead.
spp
age08
11
0.64
0.223143551
0.223143551
bullhead.
spp
age09
12
0.64
0.223143551
0.223143551
fraction.
vulnerable
notes.
survival.
rate
0
assumed
by
AGRET
0
see
output
file.
Used
survival
larvae
to
age1
and
t
0
see
output
file.
Used
survival
larvae
to
age1
and
t
0.5
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
0
assumed
by
AGRET
0
assumed
by
AGRET
0
assumed
by
AGRET
0
[
21955];
Table
11;
Slarvae­
age2
=
Slarvae­
age0*
S
0
[
21955];
Table
11;
Slarvae­
age2
=
Slarvae­
age0*
S
0.5
E.
E.
Miller,
1966,
In:
Inland
Fisheries
Manageme
1
E.
E.
Miller,
1966,
In:
Inland
Fisheries
Manageme
1
E.
E.
Miller,
1966,
In:
Inland
Fisheries
Manageme
1
E.
E.
Miller,
1966,
In:
Inland
Fisheries
Manageme
1
E.
E.
Miller,
1966,
In:
Inland
Fisheries
Manageme
1
E.
E.
Miller,
1966,
In:
Inland
Fisheries
Manageme
1
E.
E.
Miller,
1966,
In:
Inland
Fisheries
Manageme
1
E.
E.
Miller,
1966,
In:
Inland
Fisheries
Manageme
1
E.
E.
Miller,
1966,
In:
Inland
Fisheries
Manageme
1
E.
E.
Miller,
1966,
In:
Inland
Fisheries
Manageme
1
E.
E.
Miller,
1966,
In:
Inland
Fisheries
Manageme
1
E.
E.
Miller,
1966,
In:
Inland
Fisheries
Manageme
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0.5
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
0
assumed
by
AGRET
0
[
21955];
Table
11;
Slarvae­
age2
=
Slarvae­
age0*
S
0
[
21955];
Table
11;
Slarvae­
age2
=
Slarvae­
age0*
S
0.5
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
0
P195;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
186/
0
Calculated
using
S=
e^­(
m+
f)
0
S576;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
186/
0.5
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
0
skipjack.
herring.
assumed
by
AGRET
0
skipjack.
herring.
see
output
file.
Used
survival
lara
0
skipjack.
herring.
see
output
file.
Used
survival
lara
0.5
skipjack.
herring.
Calculated
using
S=
e^­(
m+
f)
1
skipjack.
herring.
Calculated
using
S=
e^­(
m+
f)
1
skipjack.
herring.
Calculated
using
S=
e^­(
m+
f)
0
assumed
by
AGRET
0
[
21955];
Table
11;
Slarvae­
age2
=
Slarvae­
age0*
S
0
[
21955];
Table
11;
Slarvae­
age2
=
Slarvae­
age0*
S
0.5
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0.5
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0
S536;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
111/
1
0.5
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
1
1
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
1
1
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
1
1
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
1
1
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
1
1
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
1
1
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
1
0
assumed
by
AGRET
0
channel.
catfish.
[
21955];
Table
11;
Slarvae­
age2
0
channel.
catfish.
[
21955];
Table
11;
Slarvae­
age2
0.5
Brown.
bullhead.
M335
and
R280;
as
cited
in
Carla
1
Brown.
bullhead.
M335
and
R280;
as
cited
in
Carla
1
Brown.
bullhead.
M335
and
R280;
as
cited
in
Carla
1
Brown.
bullhead.
M335
and
R280;
as
cited
in
Carla
1
Brown.
bullhead.
M335
and
R280;
as
cited
in
Carla
1
Brown.
bullhead.
M335
and
R280;
as
cited
in
Carla
0
White.
perch.
PSEG,
1999
[
26046];
appendix
F,
A
0
Pumpkinseed.
M527;
as
cited
in
Carlander,
K.
D.,
0
Slarvae,
age1=
Safter.
age0/
Se,
l
=
0.04377325/
0.1
0
Slarvae,
age1=
Safter.
age0/
Se,
l
=
0.04560171/
0.1
0
Pumpkinseed.
R34;
as
cited
in
Carlander,
K.
D.,
1
0
Pumpkinseed.
R34;
as
cited
in
Carlander,
K.
D.,
1
0.5
Pumpkinseed.
R34;
as
cited
in
Carlander,
K.
D.,
1
1
Pumpkinseed.
R34;
as
cited
in
Carlander,
K.
D.,
1
1
Pumpkinseed.
R34;
as
cited
in
Carlander,
K.
D.,
1
1
Pumpkinseed.
R34;
as
cited
in
Carlander,
K.
D.,
1
1
Pumpkinseed.
R34;
as
cited
in
Carlander,
K.
D.,
1
1
Pumpkinseed.
R34;
as
cited
in
Carlander,
K.
D.,
1
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0.5
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0.5
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0.5
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
0
J62;
as
cited
in
Carlander,
K.
D.,
1969,
pg362/
Fe
0
see
output
file.
Used
survival
larave
to
age1
and
t
0
see
output
file.
Used
survival
larave
to
age1
and
t
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0.5
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
0
Table
9­
16,
C433;
as
cited
in
Carlander,
K.
D.
199
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0.5
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
0
assumed
to
be
same
than
walleye.
Table
9­
16,
C
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0.5
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
0
assumed
by
AGRET
0
see
output
file.
Used
survival
larave
to
age1
and
t
0
see
output
file.
Used
survival
larave
to
age1
and
t
0.5
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0
Calculated
using
S=
e^­(
m+
f)
0.5
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
1
Calculated
using
S=
e^­(
m+
f)
0
calculated
using
Se
=
exp
(­
m+
f)
0
calculated
using
Se
=
exp
(­
m+
f)
0
calculated
using
Se
=
exp
(­
m+
f)
0
calculated
using
Se
=
exp
(­
m+
f)
0
calculated
using
Se
=
exp
(­
m+
f)
0
calculated
using
Se
=
exp
(­
m+
f)
0
calculated
using
Se
=
exp
(­
m+
f)
0
calculated
using
Se
=
exp
(­
m+
f)
0.45
calculated
using
Se
=
exp
(­
m+
f)
0.9
calculated
using
Se
=
exp
(­
m+
f)
1
calculated
using
Se
=
exp
(­
m+
f)
1
calculated
using
Se
=
exp
(­
m+
f)
1
calculated
using
Se
=
exp
(­
m+
f)
0
Stone
and
Webster,
1977;
#
21644;
p.
6­
12­
1:
McK
0
Stone
and
Webster,
1977;
#
21644;
p.
6­
12­
1:
McK
0.5
calculated
using
Se
=
exp
(­
m­
f)
1
calculated
using
Se
=
exp
(­
m­
f)
1
calculated
using
Se
=
exp
(­
m­
f)
1
calculated
using
Se
=
exp
(­
m­
f)
1
calculated
using
Se
=
exp
(­
m­
f)
1
calculated
using
Se
=
exp
(­
m­
f)
0
calculated
using
s=
exp
(­(
m+
f))
0
calculated
using
s=
exp
(­(
m+
f))
0
calculated
using
s=
exp
(­(
m+
f))
0
calculated
using
s=
exp
(­(
m+
f))
0.5
calculated
using
s=
exp
(­(
m+
f))
1
calculated
using
s=
exp
(­(
m+
f))
1
calculated
using
s=
exp
(­(
m+
f))
1
calculated
using
s=
exp
(­(
m+
f))
0
calculated
using
s=
exp
(­(
m+
f))
0
calculated
using
s=
exp
(­(
m+
f))
0.5
calculated
using
s=
exp
(­(
m+
f))
1
calculated
using
s=
exp
(­(
m+
f))
1
calculated
using
s=
exp
(­(
m+
f))
0
calculated
using
s=
exp
(­(
m+
f))
0
calculated
using
s=
exp
(­(
m+
f))
0.5
calculated
using
s=
exp
(­(
m+
f))
1
calculated
using
s=
exp
(­(
m+
f))
1
calculated
using
s=
exp
(­(
m+
f))
1
calculated
using
s=
exp
(­(
m+
f))
1
calculated
using
s=
exp
(­(
m+
f))
1
calculated
using
s=
exp
(­(
m+
f))
0
calculated
using
Se
=
exp
(­
m+
f)
0
calculated
using
Se
=
exp
(­
m+
f)
0
calculated
using
Se
=
exp
(­
m+
f)
0
calculated
using
Se
=
exp
(­
m+
f)
0
calculated
using
Se
=
exp
(­
m+
f)
0
calculated
using
Se
=
exp
(­
m+
f)
0
calculated
using
Se
=
exp
(­
m+
f)
0.0008
calculated
using
Se
=
exp
(­
m+
f)
0.0266
calculated
using
Se
=
exp
(­
m+
f)
0.2119
calculated
using
Se
=
exp
(­
m+
f)
0.4804
calculated
using
Se
=
exp
(­
m+
f)
0.8376
calculated
using
Se
=
exp
(­
m+
f)
1
calculated
using
Se
=
exp
(­
m+
f)
1
calculated
using
Se
=
exp
(­
m+
f)
1
calculated
using
Se
=
exp
(­
m+
f)
1
Brown.
bullhead.
M335
and
R280;
as
cited
in
Carla
1
Brown.
bullhead.
M335
and
R280;
as
cited
in
Carla
1
Brown.
bullhead.
M335
and
R280;
as
cited
in
Carla
notes.
nat.
mort
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Calculated
using
S=
e^­(
m+
f)
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
Calculated
using
S=
e^­(
m+
f)
L178;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
186/
Lake
Michigan:
­
ln(
0.42)
B192;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
187/
Massie
C.,
OH
B192;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
187/
Massie
C.,
OH
B192;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
187/
Massie
C.,
OH
L178;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
186/
Lake
Michigan
L178;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
186/
Lake
Michigan
L178;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
186/
Lake
Michigan
L178;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
186/
Lake
Michigan
L178;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
186/
Lake
Michigan
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f)
Alewife.
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
or
Alewife.
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
or
Alewife.
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
or
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
black.
crappie.
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
En
black.
crappie.
hhttp://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
E
black.
crappie.
hhttp://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
E
black.
crappie.
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
En
black.
crappie.
hhttp://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
E
black.
crappie.
hhttp://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
E
black.
crappie.
hhttp://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
E
black.
crappie.
hhttp://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
E
black.
crappie.
hhttp://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
E
black.
crappie.
hhttp://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
E
black.
crappie.
hhttp://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
E
black.
crappie.
hhttp://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
E
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f);
half
mortality
nat.,
half
fishing
Calculated
using
S=
e^­(
m+
f);
half
mortality
nat.,
half
fishing
Calculated
using
S=
e^­(
m+
f);
half
mortality
nat.,
half
fishing
Calculated
using
S=
e^­(
m+
f);
half
mortality
nat.,
half
fishing
Calculated
using
S=
e^­(
m+
f);
half
mortality
nat.,
half
fishing
Calculated
using
S=
e^­(
m+
f);
half
mortality
nat.,
half
fishing
Calculated
using
S=
e^­(
m+
f);
half
mortality
nat.,
half
fishing
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f)
Pumpkinseed.
R34;
as
cited
in
Carlander,
K.
D.,
1977,
pg61/
IN;
half
fish.
Ha
Pumpkinseed.
R34;
as
cited
in
Carlander,
K.
D.,
1977,
pg61/
IN;
half
fish.
Ha
Pumpkinseed.
R34;
as
cited
in
Carlander,
K.
D.,
1977,
pg61/
IN;
half
fish.
Ha
Pumpkinseed.
R34;
as
cited
in
Carlander,
K.
D.,
1977,
pg61/
IN;
half
fish.
Ha
Pumpkinseed.
R34;
as
cited
in
Carlander,
K.
D.,
1977,
pg61/
IN;
half
fish.
Ha
Pumpkinseed.
R34;
as
cited
in
Carlander,
K.
D.,
1977,
pg61/
IN;
half
fish.
Ha
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
Shorthead.
redhorse.
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
rep
Shorthead.
redhorse.
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
rep
Shorthead.
redhorse.
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
rep
Shorthead.
redhorse.
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
rep
Shorthead.
redhorse.
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
rep
Shorthead.
redhorse.
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
rep
Shorthead.
redhorse.
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
rep
Shorthead.
redhorse.
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
rep
Shorthead.
redhorse.
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
rep
Shorthead.
redhorse.
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
rep
Fertile
eggs
in
lakes
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acces
Calculated
using
S=
e^­(
m+
f)
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
Calculated
using
S=
e^­(
m+
f)
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
used
0.076
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf;
half
fish,
a
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf;
half
fish,
a
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf;
half
fish,
a
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf;
half
fish,
a
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf;
half
fish,
a
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf;
half
fish,
a
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf;
half
fish,
a
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf;
half
fish,
a
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f)
Calculated
using
S=
e^­(
m+
f)
logperch.
Keyfacts.
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
logperch.
Keyfacts.
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
f
logperch.
Keyfacts.
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
f
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
juv.
divided
by
2.
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
juv.
divided
by
2.
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
calculated
using
Se
=
exp
(­
m+
f)
calculated
using
Se
=
exp
(­
m+
f)
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Acce
combined
prolarvae
and
postlarvae
[
26887];
Table
12
[
26887];
Table
12
[
26887];
Table
12
[
26887];
Table
12
[
26887];
Table
12
­
fishing
mortality
given
in
column
F
[
26887];
Table
12
­
fishing
mortality
given
in
column
F
[
26887];
Table
12
­
fishing
mortality
given
in
column
F
assumed
by
AGRET
to
be
same
than
Age05­
fishing
mortality
given
in
colum
combined
prolarvae
and
larvae:
[
26887];
Table
16
[
26887];
Table
16
[
26887];
Table
16
[
26887];
Table
16
assumed
by
AGRET
to
be
same
than
Age02
[
26887];
Table
14
[
26887];
Table
14
[
26887];
Table
14,
hlaf
nat.,
half
fishing.
mort
[
26887];
Table
14,
hlaf
nat.,
half
fishing.
mort
[
26887];
Table
14,
hlaf
nat.,
half
fishing.
mort
[
26887];
Table
14,
hlaf
nat.,
half
fishing.
mort
[
26887];
Table
14,
hlaf
nat.,
half
fishing.
mort
assumed
by
AGRET
to
be
same
than
Age05
hlaf
nat.,
half
fishing.
mort
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
notes.
fish.
mort
assumed
0
by
AGRET
based
on
Marca's
econ
table
assumed
0
by
AGRET
based
on
Marca's
econ
table
assumed
0
by
AGRET
based
on
Marca's
econ
table
assumed
0
by
AGRET
based
on
Marca's
econ
table
assumed
0
by
AGRET
based
on
Marca's
econ
table
assumed
0
by
AGRET
based
on
Marca's
econ
table
assumed
0
by
AGRET
based
on
Marca's
econ
table
assumed
0
by
AGRET
based
on
Marca's
econ
table
assumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
assumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
assumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a.
pdf;
divided
between
nat.
mort
and
fish
mort
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
20,
2001.
Mortality
at
48
Lm;
half
nat.,
half
fishing
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
20,
2001.
Mortality
at
48
Lm;
half
nat.,
half
fishing
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
20,
2001.
Mortality
at
48
Lm;
half
nat.,
half
fishing
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
20,
2001.
Mortality
at
48
Lm;
half
nat.,
half
fishing
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
20,
2001.
Mortality
at
48
Lm;
half
nat.,
half
fishing
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
20,
2001.
Mortality
at
48
Lm;
half
nat.,
half
fishing
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
20,
2001.
Mortality
at
48
Lm;
half
nat.,
half
fishing
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
20,
2001.
Mortality
at
48
Lm;
half
nat.,
half
fishing
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
20,
2001.
Mortality
at
48
Lm;
half
nat.,
half
fishing
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
20,
2001.
Mortality
at
48
Lm;
half
nat.,
half
fishing
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
20,
2001.
Mortality
at
48
Lm;
half
nat.,
half
fishing
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
20,
2001.
Mortality
at
48
Lm;
half
nat.,
half
fishing
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Dongjiang
River,
Guangdon;
China;
ha
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Dongjiang
River,
Guangdon;
China;
ha
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Dongjiang
River,
Guangdon;
China;
ha
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Dongjiang
River,
Guangdon;
China;
ha
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Dongjiang
River,
Guangdon;
China;
ha
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Dongjiang
River,
Guangdon;
China;
ha
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Dongjiang
River,
Guangdon;
China;
ha
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Dongjiang
River,
Guangdon;
China;
ha
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Dongjiang
River,
Guangdon;
China;
ha
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Dongjiang
River,
Guangdon;
China;
ha
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Dongjiang
River,
Guangdon;
China;
ha
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Dongjiang
River,
Guangdon;
China;
ha
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Dongjiang
River,
Guangdon;
China;
ha
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Dongjiang
River,
Guangdon;
China;
ha
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Dongjiang
River,
Guangdon;
China;
ha
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Dongjiang
River,
Guangdon;
China;
ha
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Dongjiang
River,
Guangdon;
China;
ha
Assumed
0
Assumed
0
assumed
by
AGRET
based
on
fishing
of
only
rec
fish
L178;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
186/
Lake
Michigan:
22%
of
58%
+
22%
=
27.5%
of
nat.
mort
assumed
27.5%
of
natural
mortality
to
be
fishing
mortality
according
to
L178
as
cited
in
Carlander,
K.
D.,
1977,
pg.
186/
Lake
Michigan:
22%
of
58%
assumed
27.5%
of
natural
mortality
to
be
fishing
mortality
according
to
L178
as
cited
in
Carlander,
K.
D.,
1977,
pg.
186/
Lake
Michigan:
22%
of
58%
assumed
27.5%
of
natural
mortality
to
be
fishing
mortality
according
to
L178
as
cited
in
Carlander,
K.
D.,
1977,
pg.
186/
Lake
Michigan:
22%
of
58%
assumed
27.5%
of
natural
mortality
to
be
fishing
mortality
according
to
L178
as
cited
in
Carlander,
K.
D.,
1977,
pg.
186/
Lake
Michigan:
22%
of
58%
assumed
27.5%
of
natural
mortality
to
be
fishing
mortality
according
to
L178
as
cited
in
Carlander,
K.
D.,
1977,
pg.
186/
Lake
Michigan:
22%
of
58%
assumed
27.5%
of
natural
mortality
to
be
fishing
mortality
according
to
L178
as
cited
in
Carlander,
K.
D.,
1977,
pg.
186/
Lake
Michigan:
22%
of
58%
assumed
27.5%
of
natural
mortality
to
be
fishing
mortality
according
to
L178
as
cited
in
Carlander,
K.
D.,
1977,
pg.
186/
Lake
Michigan:
22%
of
58%
assumed
27.5%
of
natural
mortality
to
be
fishing
mortality
according
to
L178
as
cited
in
Carlander,
K.
D.,
1977,
pg.
186/
Lake
Michigan:
22%
of
58%
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
McDermot
et
al.,
2000.
Ecological
Modelling,
Appendix
Table
4[
28091]
McDermot
et
al.,
2000.
Ecological
Modelling,
Appendix
Table
4[
28091]
McDermot
et
al.,
2000.
Ecological
Modelling,
Appendix
Table
4[
28091]
McDermot
et
al.,
2000.
Ecological
Modelling,
Appendix
Table
4[
28091]
McDermot
et
al.,
2000.
Ecological
Modelling,
Appendix
Table
4[
28091]
McDermot
et
al.,
2000.
Ecological
Modelling,
Appendix
Table
4[
28091]
McDermot
et
al.,
2000.
Ecological
Modelling,
Appendix
Table
4[
28091]
McDermot
et
al.,
2000.
Ecological
Modelling,
Appendix
Table
4[
28091]
McDermot
et
al.,
2000.
Ecological
Modelling,
Appendix
Table
4[
28091]
McDermot
et
al.,
2000.
Ecological
Modelling,
Appendix
Table
4[
28091]
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a.
pdf
/
half
assumed
to
be
fish.
mort,
half
nat.
mort
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a.
pdf
/
half
assumed
to
be
fish.
mort,
half
nat.
mort
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a.
pdf
/
half
assumed
to
be
fish.
mort,
half
nat.
mort
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a.
pdf
/
half
assumed
to
be
fish.
mort,
half
nat.
mort
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a.
pdf
/
half
assumed
to
be
fish.
mort,
half
nat.
mort
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a.
pdf
/
half
assumed
to
be
fish.
mort,
half
nat.
mort
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a.
pdf
/
half
assumed
to
be
fish.
mort,
half
nat.
mort
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a.
pdf
/
half
assumed
to
be
fish.
mort,
half
nat.
mort
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a.
pdf
/
half
assumed
to
be
fish.
mort,
half
nat.
mort
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
Calculated
using
S=
e^­(
m+
f);
half
mortality
nat.,
half
fishing
Calculated
using
S=
e^­(
m+
f);
half
mortality
nat.,
half
fishing
Calculated
using
S=
e^­(
m+
f);
half
mortality
nat.,
half
fishing
Calculated
using
S=
e^­(
m+
f);
half
mortality
nat.,
half
fishing
Calculated
using
S=
e^­(
m+
f);
half
mortality
nat.,
half
fishing
Calculated
using
S=
e^­(
m+
f);
half
mortality
nat.,
half
fishing
Calculated
using
S=
e^­(
m+
f);
half
mortality
nat.,
half
fishing
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
McDermot
et
al.,
2000.
Ecological
Modelling,
Appendix
Table
4[
28091]
Assumed
0
(
ABeaulieu)
Assumed
0
(
ABeaulieu)
Assumed
0
(
ABeaulieu)
assumed
by
AGRET
based
on
fishing
of
only
rec
fish
assumed
by
AGRET
based
on
fishing
of
only
rec
fish
Pumpkinseed.
R34;
as
cited
in
Carlander,
K.
D.,
1977,
pg61/
IN;
half
fish.
Half
nat.
mort
Pumpkinseed.
R34;
as
cited
in
Carlander,
K.
D.,
1977,
pg61/
IN;
half
fish.
Half
nat.
mort
Pumpkinseed.
R34;
as
cited
in
Carlander,
K.
D.,
1977,
pg61/
IN;
half
fish.
Half
nat.
mort
Pumpkinseed.
R34;
as
cited
in
Carlander,
K.
D.,
1977,
pg61/
IN;
half
fish.
Half
nat.
mort
Pumpkinseed.
R34;
as
cited
in
Carlander,
K.
D.,
1977,
pg61/
IN;
half
fish.
Half
nat.
mort
Pumpkinseed.
R34;
as
cited
in
Carlander,
K.
D.,
1977,
pg61/
IN;
half
fish.
Half
nat.
mort
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a.
pdf
;
half
nat.
and
half
fish.
mort
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a.
pdf
;
half
nat.
and
half
fish.
mort
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a.
pdf
;
half
nat.
and
half
fish.
mort
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a.
pdf
;
half
nat.
and
half
fish.
mort
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a.
pdf
;
half
nat.
and
half
fish.
mort
http://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a.
pdf
;
half
nat.
and
half
fish.
mort
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Lake
St.
Claire­
Michigan;
half
nat.
mort,
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Lake
St.
Claire­
Michigan;
half
nat.
mort,
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Lake
St.
Claire­
Michigan;
half
nat.
mort,
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Lake
St.
Claire­
Michigan;
half
nat.
mort,
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Lake
St.
Claire­
Michigan;
half
nat.
mort,
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Lake
St.
Claire­
Michigan;
half
nat.
mort,
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Lake
St.
Claire­
Michigan;
half
nat.
mort,
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Lake
St.
Claire­
Michigan;
half
nat.
mort,
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Lake
St.
Claire­
Michigan;
half
nat.
mort,
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Lake
St.
Claire­
Michigan;
half
nat.
mort,
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Lake
St.
Claire­
Michigan;
half
nat.
mort,
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Lake
St.
Claire­
Michigan;
half
nat.
mort,
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Lake
St.
Claire­
Michigan;
half
nat.
mort,
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Lake
St.
Claire­
Michigan;
half
nat.
mort,
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Lake
St.
Claire­
Michigan;
half
nat.
mort,
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Lake
St.
Claire­
Michigan;
half
nat.
mort,
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Lake
St.
Claire­
Michigan;
half
nat.
mort,
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Aug
13,
2001.
Yie,
F.,
1988.
Lake
St.
Claire­
Michigan;
half
nat.
mort,
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
[
28091];
McDermot
(
2000)
[
28091];
McDermot
(
2000)
[
28091];
McDermot
(
2000)
[
28091];
McDermot
(
2000)
[
28091];
McDermot
(
2000)
[
28091];
McDermot
(
2000)
[
28091];
McDermot
(
2000)
[
28091];
McDermot
(
2000)
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf;
half
fish,
and
half
nat.
mort
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf;
half
fish,
and
half
nat.
mort
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf;
half
fish,
and
half
nat.
mort
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf;
half
fish,
and
half
nat.
mort
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf;
half
fish,
and
half
nat.
mort
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf;
half
fish,
and
half
nat.
mort
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf;
half
fish,
and
half
nat.
mort
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf;
half
fish,
and
half
nat.
mort
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
according
to
Marca's
econvalues
according
to
Marca's
econvalues
according
to
Marca's
econvalues
according
to
Marca's
econvalues
according
to
Marca's
econvalues
according
to
Marca's
econvalues
according
to
Marca's
econvalues
according
to
Marca's
econvalues
according
to
Marca's
econvalues
according
to
Marca's
econvalues
assumed
by
Agret
assumed
by
Agret
assumed
by
Agret
assumed
by
Agret
Stone
and
Webster,
1977;
#
21644;
p.
6­
12­
1:
McKenzi(
1964)/
Miramichi
River
and
estuary,
New
Brunswick
Stone
and
Webster,
1977;
#
21644;
p.
6­
12­
1:
McKenzi(
1964)/
Miramichi
River
and
estuary,
New
Brunswick
Stone
and
Webster,
1977;
#
21644;
p.
6­
12­
1:
McKenzi(
1964)/
Miramichi
River
and
estuary,
New
Brunswick
Stone
and
Webster,
1977;
#
21644;
p.
6­
12­
1:
McKenzi(
1964)/
Miramichi
River
and
estuary,
New
Brunswick
McDermot
et
al.,
2000.
Ecological
Modelling,
Appendix
Table
4[
28091]
McDermot
et
al.,
2000.
Ecological
Modelling,
Appendix
Table
4[
28091]
McDermot
et
al.,
2000.
Ecological
Modelling,
Appendix
Table
4[
28091]
McDermot
et
al.,
2000.
Ecological
Modelling,
Appendix
Table
4[
28091]
McDermot
et
al.,
2000.
Ecological
Modelling,
Appendix
Table
4[
28091]
McDermot
et
al.,
2000.
Ecological
Modelling,
Appendix
Table
4[
28091]
McDermot
et
al.,
2000.
Ecological
Modelling,
Appendix
Table
4[
28091]
McDermot
et
al.,
2000.
Ecological
Modelling,
Appendix
Table
4[
28091]
assumed
0
by
AGRET
based
on
Marca's
econ
table
assumed
0
by
AGRET
based
on
Marca's
econ
table
assumed
0
by
AGRET
based
on
Marca's
econ
table
assumed
0
by
AGRET
based
on
Marca's
econ
table
assumed
0
by
AGRET
based
on
Marca's
econ
table
assumed
0
by
AGRET
based
on
Marca's
econ
table
assumed
0
by
AGRET
based
on
Marca's
econ
table
[
26887];
Table
14,
hlaf
nat.,
half
fishing.
mort
[
26887];
Table
14,
hlaf
nat.,
half
fishing.
mort
[
26887];
Table
14,
hlaf
nat.,
half
fishing.
mort
[
26887];
Table
14,
hlaf
nat.,
half
fishing.
mort
[
26887];
Table
14,
hlaf
nat.,
half
fishing.
mort
assumed
by
AGRET
to
be
same
than
Age05
hlaf
nat.,
half
fishing.
mort
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
Calculated
using
S=
e^­(
m+
f);
half
nat.,
half
fish.
mort
notes.
fraction.
vulnerable
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recreationally)
assumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recreationally)
assumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recreationally)
assumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recreationally)
assumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recreationally)
assumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recreationally)
assumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recreationally)
assumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recreationally)
assumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recreationally)
assumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recreationally)
assumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recreationally)
assumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recreationally)
assumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recreationally)
assumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recreationally)
assumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recreationally)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
assumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
assumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
assumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
assumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
assumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
assumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
assumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
assumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
assumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
assumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
assumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
assumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
assumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
assumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
assumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
assumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
assumed
by
AGRET
based
on
mortality
rates
assumed
by
AGRET
based
on
mortality
rates
assumed
by
AGRET
based
on
mortality
rates
assumed
by
AGRET
based
on
mortality
rates
assumed
by
AGRET
based
on
mortality
rates
assumed
by
AGRET
based
on
mortality
rates
assumed
by
AGRET
based
on
mortality
rates
assumed
by
AGRET
based
on
mortality
rates
assumed
by
AGRET
based
on
mortality
rates
assumed
by
AGRET
based
on
mortality
rates
assumed
by
AGRET
based
on
mortality
rates
assumed
by
AGRET
based
on
mortality
rates
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
based
on
fishing
mortality
assumed
by
AGRET
based
on
fishing
mortality
assumed
by
AGRET
based
on
fishing
mortality
assumed
by
AGRET
based
on
fishing
mortality
assumed
by
AGRET
based
on
fishing
mortality
assumed
by
AGRET
based
on
fishing
mortality
assumed
by
AGRET
based
on
fishing
mortality
assumed
by
AGRET
based
on
fishing
mortality
assumed
by
AGRET
based
on
fishing
mortality
assumed
by
AGRET
based
on
fishing
mortality
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
to
be
0
based
on
Marca's
econ
table
assumed
based
on
marca's
econ
table
assumed
based
on
marca's
econ
table
assumed
based
on
marca's
econ
table
assumed
based
on
marca's
econ
table
assumed
based
on
marca's
econ
table
assumed
based
on
marca's
econ
table
assumed
by
AGREt
Assumed
0
(
ABeaulieu)
Assumed
0
(
ABeaulieu)
Assumed
0
(
ABeaulieu)
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
http://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inches
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGadded
by
Jhazen
on
2/
12/
02
to
match
length
data
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
(
1
are
for
modeling
purposes)
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
assumed
by
Agret
assumed
by
Agret
assumed
by
Agret
assumed
by
Agret
assumed
by
Agret
assumed
by
Agret
assumed
by
Agret
assumed
by
Agret
assumed
by
AGREt
assumed
by
AGREt
assumed
by
AGREt
assumed
by
AGREt
assumed
by
AGREt
assumed
by
AGREt
assumed
by
AGREt
assumed
by
AGREt
assumed
by
AGREt
assumed
by
AGREt
assumed
by
AGREt
assumed
by
AGREt
assumed
by
AGREt
assumed
by
AGREt
assumed
by
AGREt
assumed
by
AGREt
assumed
by
AGREt
assumed
by
AGREt
assumed
by
AGREt
assumed
by
AGREt
assumed
by
AGREt
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
PSEG,
1999
[
26046];
appendix
F,
Attachment
F
assumed
baseadded
by
Jhazen
on
2/
12/
02
to
match
length
data
assumed
baseadded
by
Jhazen
on
2/
12/
02
to
match
length
data
assumed
baseadded
by
Jhazen
on
2/
12/
02
to
match
length
data
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
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than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
to
be
fished
not
earlier
than
age
10)
species
alpha.
as.
in.
Froese
alpha.
mm.
to.
gm
beta.
mm.
to.
gm
crappie.
spp
0.0118000
0.0000101
3.0660000
bluegill
0.0070000
0.0000043
3.2090000
bluntnose.
minnow
0.0977000
0.0004466
2.3400000
common.
carp
0.0116000
0.0000110
3.0250000
channel.
catfish
0.0040000
0.0000029
3.1330000
yellow.
perch
1.0000000
1.0000000
1.0000000
freshwater.
drum
0.0000000
1.0000000
1.0000000
gizzard.
shad
1.0000000
1.0000000
1.0000000
herring.
family
0.0372000
0.0000760
2.6900000
smallmouth.
bass
0.0206000
0.0000249
2.9170000
white.
bass
NA
1.0000000
1.0000000
emerald.
shiner
­
3.9417000
0.0001144
2.9218000
sunfish.
spp
0.0061000
0.0000033
3.2620000
sucker.
spp
0.0077000
0.0000061
3.0990000
spotted.
sucker
0.0077000
0.0000061
3.0990000
golden.
redhorse
0.0132000
0.0000140
2.9750000
muskellunge
0.0058000
0.0000056
3.0160000
walleye
0.0039000
0.0000023
3.2300000
sauger
0.0093000
0.0000081
3.0580000
logperch
­
6.2807000
0.0000005
3.6412000
bullhead.
spp
0.0101000
0.0000088
3.0600000
bigmouth.
buffalo
­
5.6200000
0.0000024
3.3000000
alewife
NA
1.0000000
1.0000000
rainbow.
smelt
NA
0.0000052
3.1140000
white.
perch
NA
1.0000000
1.0000000
notes
black.
crappie.
hFroese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Sep.
3,
2001.
Carlander,
K.
D.,
1977.
Handbook
of
freshwater
fishery
biology,
volume
2.
The
Iowa
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
15,
2001.

Fessler,
F.
R.,
1949.
Iowa,
ponds/
IA.
Alpha
reported
as
0.007
cm
TL
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
November
29,
2001.
Chadwick,
E.
M.
P.,
1976
Fathead
Minnow,
Red
Deer
Lake,
Canada.
(
was
Froese,
R.
and
D
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
15,
2001.
Runnström,
S.,
1952.
/
Des
Moines
R.,
Iowa.
Alpha
reported
as
0.0116
cm
TL
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
15,
2001.
Muncy,
R.
J.,
1959
.
/
Des
Moines
R.,
Iowa.
Alpha
reported
as
0.0040
cm
TL
weights
are
known,
therefore
1
for
modeling
purposes
assumed
to
be
1,
because
we
have
good
weight
data
for
the
species
at
Salem,
which
we
use
to
estimate
YPR
and
PFG
weights
are
known,
therefore
1
for
modeling
purposes
skipjack.
herring.
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
15,
2001.

Swingle,
W.
E.,
1965.
/
Alabama.
Alpha
reported
as
0.0372
cm
TL
(
took
small
size)

Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
July
1,
2001.
Brown,
E.
H.,
Jr.,
1960.
/
Little
Miami
R.,
OH.
Alpha
reported
as
0.0206
cm
TL
assumed
to
be
1,
have
weight
data.
(
was
M591,
as
cited
in
Carlander,
1997,
pg.
16.
Lake
Sangchris,
IL.,
was
­
5.815,
0.0000015311,
2.7280)

Fuchs,
1967.
[
27527]
(
was
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
15,
2001.

Swingle,
W.
E.,
1965.
/
Alabama.
Alpha
reported
as
0.0195
cm
TL,

Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Pumpkinseed.
Accessed
Sep.
10,
2001.
Cooper,
E.
L.,
C.
C.
Wagner
and
G.
E.
Krantz,
1971.
Bluegills
dominate
production
i
River.
Carpsucker.
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Sep.
10,
2001Carlander,
K.
D.,

1969.
Handbook
of
freshwater
fishery
biology,
volume
1.
The
Iowa
State
University
Press,
Ames.
Iowa/
Missouri
River.
Carpsucker.
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Sep.
10,
2001Carlander,
K.
D.,

1969.
Handbook
of
freshwater
fishery
biology,
volume
1.
The
Iowa
State
University
Press,
Ames.
Iowa/
Missouri
Golden.
Redhorse.
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Sep.
10,
2001Carlander,
K.
D.,

1969.
Handbook
of
freshwater
fishery
biology,
volume
1.
The
Iowa
State
University
Press,
Ames.
Iowa
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Sep.
10,
2001
Bryant,
W.
C.
and
K.
D.
Smith,

1988.
The
status
of
the
muskellunge
in
Lake
St.
Clair,
Michigan,
1978­
86.
Michigan
Dept.
Nat.
Res.,
Fish.
Div.,
Fish.
Res.
Rep.
No.

1955.
13
p
/
St.
Claire
Michigan
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Sep.
10,
2001.
Stephenson,
S.
A.
and
W.
T.
Momot,
1991.
Food
habits
and
growth
of
walleye,
Stizostedion
vitreum
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Sep.
10,
2001.
Carlander,
K.
D.,
1950.
Handbook
of
freshwater
fishery
biology.
Wm.
C.
Brown
Co.,
Dubuque,
Iowa.
427
p
logperch.
T155,
as
cited
in
Carlander,
1997,
pg.
80.
IL
Black.
bullhead.
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Sept.
2,
2001.
Moorman,
R.
B.,
1957
/
Iowa
ponds
(
median
record)

Carlander,
1969,
p.
498,
AL.
(
was
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Sept.
2,
2001.
Carlander,
K.
D.,
1969.
Handbook
of
freshwater
fishery
biology,

assumed
to
be
1,
because
we
have
good
weight
data
for
the
species
at
Salem,
which
we
use
to
estimate
YPR
and
PFG
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
7,
2001
Carlander,
K.
D.,
1953.
First
supplement
to
the
Handbook
of
freshwater
fishery
biology.
Wm.
C.
Bro
assumed
to
be
1,
because
we
have
good
weight
data
for
the
species
at
Salem,
which
we
use
to
estimate
YPR
and
PFG
wa
State
University
Press,
Ames,
Iowa
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
15,
2001.

Small,
J.
W.
Jr.,
1975.
/
Elkhorn
Cr.,
Kentucky.
Alpha
reported
as
0.0011
cm
TL
,
beta
3.193)

L,
beta
was
2.73)

n
in
mixed
populations
of
fishes.
Ecology
52(
2):
280­
290.

eum,
smallmouth
bass,
Micropterus
dolomieui,
and
northern
pike,
Esox
lucius,
in
the
Kaministiquia
River,
Ontario.
Can.
Field
Nat.
105(
4):
517­
521/
Kaministiquia
River
gy,
volume
1.
The
Iowa
State
University
Press,
Ames.
Iowa.
Alpha
=
0.0067,
beta
=
3.403)

Brown,
Dubuque,
Iowa.
p.
277­
429
species
stage
stage.
sequencetotal.
len.
mm
weight.
g
weight.
lbs
notes.
maximum.
ag
bluntnose.
minnow
egg
1
1
NA
NA
NA
bluntnose.
minnow
larvae
2
12.67
NA
NA
NA
bluntnose.
minnow
age0
3
26.33
NA
NA
NA
bluntnose.
minnow
age01
4
41
NA
NA
NA
bluntnose.
minnow
age02
5
56
NA
NA
NA
bluntnose.
minnow
age03
6
60
NA
NA
NA
channel.
catfish
egg
1
3.75
NA
NA
NA
channel.
catfish
larvae
2
12.8
NA
NA
NA
channel.
catfish
age0
3
94
9
0.019841607
NA
channel.
catfish
age01
4
163
36
0.079366428
NA
channel.
catfish
age02
5
241
91
0.200620693
NA
channel.
catfish
age03
6
315
227
0.500449421
NA
channel.
catfish
age04
7
368
608
1.340410784
NA
channel.
catfish
age05
8
437
1397
3.079858331
NA
channel.
catfish
age06
9
472
1252
2.760187996
NA
channel.
catfish
age07
10
533
NA
NA
NA
channel.
catfish
age08
11
561
2041
4.499635543
NA
channel.
catfish
age09
12
607
NA
NA
NA
channel.
catfish
age10
13
711
NA
NA
NA
channel.
catfish
age11
14
720
NA
NA
NA
channel.
catfish
age12
15
724
NA
NA
Appelget
&
Smith,
freshwater.
drum
egg
1
0.0005
0.0005
1.10231E­
06
NA
freshwater.
drum
larvae
2
0.00134
0.00134
2.95419E­
06
NA
freshwater.
drum
age0
3
7.55
7.55
0.016644904
NA
freshwater.
drum
age01
4
22.67
22.67
0.049978803
NA
freshwater.
drum
age02
5
93.55
93.55
0.206242482
NA
freshwater.
drum
age03
6
198.44
198.44
0.437485388
NA
freshwater.
drum
age04
7
289.16
289.16
0.637488787
NA
freshwater.
drum
age05
8
360.03
360.03
0.793730419
NA
freshwater.
drum
age06
9
430.91
430.91
0.949994097
NA
freshwater.
drum
age07
10
496.11
496.11
1.093735517
NA
freshwater.
drum
age08
11
572.66
572.66
1.262499407
NA
freshwater.
drum
age09
12
652.03
652.03
1.437480335
NA
freshwater.
drum
age10
13
725.74
725.74
1.599983096
NA
freshwater.
drum
age11
14
805.12
805.12
1.77498607
NA
freshwater.
drum
age12
15
907.18
907.18
1.999989893
NA
common.
carp
egg
1
1.8
NA
NA
NA
common.
carp
larvae
2
7.75
NA
NA
NA
common.
carp
age0
3
94
NA
NA
NA
common.
carp
age01
4
305
313
0.690046999
NA
common.
carp
age02
5
351
550
1.21254265
NA
common.
carp
age03
6
401
717
1.580714691
NA
common.
carp
age04
7
566
NA
NA
NA
common.
carp
age05
8
580
NA
NA
NA
common.
carp
age06
9
590
NA
NA
NA
common.
carp
age07
10
620
NA
NA
NA
common.
carp
age08
11
660
NA
NA
NA
common.
carp
age09
12
670
NA
NA
NA
common.
carp
age10
13
680
NA
NA
NA
common.
carp
age11
14
700
9980
22.00213754
NA
common.
carp
age12
15
710
NA
NA
NA
common.
carp
age13
16
720
NA
NA
NA
common.
carp
age14
17
730
NA
NA
Iowa
Conserv.
Com
common.
carp
age15
18
740
11058
24.37872113
NA
common.
carp
age16
19
750
10101
22.26889692
Carlander,
K.
D.,
19
common.
carp
age17
20
760
15430
34
McCrimmon,
1968,
smallmouth.
bass
egg
1
1.85
NA
NA
NA
smallmouth.
bass
larvae
2
7.525
NA
NA
NA
smallmouth.
bass
age0
3
76
NA
NA
NA
smallmouth.
bass
age01
4
178
NA
NA
NA
smallmouth.
bass
age02
5
246
NA
NA
NA
smallmouth.
bass
age03
6
277
NA
NA
NA
smallmouth.
bass
age04
7
312
NA
NA
NA
smallmouth.
bass
age05
8
349
NA
NA
NA
smallmouth.
bass
age06
9
406
NA
NA
NA
smallmouth.
bass
age07
10
425.3
NA
NA
NA
smallmouth.
bass
age08
11
444.7
NA
NA
NA
smallmouth.
bass
age09
12
464
NA
NA
S133;
as
cited
in
C
white.
bass
egg
1
1.20597E­
05
NA
NA
NA
white.
bass
larvae
2
0.00078926
NA
NA
NA
white.
bass
age0
3
79
NA
NA
NA
white.
bass
age01
4
212
212
0.467380076
NA
white.
bass
age02
5
292
292
0.643749916
NA
white.
bass
age03
6
462
462
1.018535826
NA
white.
bass
age04
7
526
458
1.009717334
NA
white.
bass
age05
8
570
570
1.25663511
NA
white.
bass
age06
9
755
755
1.664490365
NA
white.
bass
age07
10
760
749
1.651262627
multiple,
as
cited
in
herring.
family
egg
1
2.7
NA
NA
NA
herring.
family
larvae
2
17.7
NA
NA
NA
herring.
family
age0
3
114
NA
NA
NA
herring.
family
age01
4
211.3
NA
NA
NA
herring.
family
age02
5
308.6
NA
NA
NA
herring.
family
age03
6
406
NA
NA
NA
crappie.
spp
egg
1
0.93
NA
NA
NA
crappie.
spp
larvae
2
6.96
NA
NA
NA
crappie.
spp
age0
3
74
NA
NA
NA
crappie.
spp
age01
4
160
NA
NA
NA
crappie.
spp
age02
5
183
NA
NA
NA
crappie.
spp
age03
6
237
NA
NA
NA
crappie.
spp
age04
7
272
NA
NA
NA
crappie.
spp
age05
8
301
NA
NA
NA
crappie.
spp
age06
9
305
NA
NA
NA
crappie.
spp
age07
10
310
NA
NA
NA
crappie.
spp
age08
11
321
NA
NA
NA
crappie.
spp
age09
12
337
NA
NA
mult.
refs;
as
cited
bluegill
egg
1
1.04
NA
NA
NA
bluegill
larvae
2
4.9
NA
NA
NA
bluegill
age0
3
70
24
0.052910952
NA
bluegill
age01
4
75
14
0.030864722
NA
bluegill
age02
5
108
113
0.249122399
NA
bluegill
age03
6
131
147
0.324079581
NA
bluegill
age04
7
156
110
0.24250853
NA
bluegill
age05
8
188
NA
NA
NA
bluegill
age06
9
189
NA
NA
NA
bluegill
age07
10
194
NA
NA
NA
bluegill
age08
11
228
NA
NA
NA
bluegill
age09
12
236
NA
NA
mult.
refs;
as
cited
sunfish.
spp
egg
1
1
NA
NA
NA
sunfish.
spp
larvae
2
4.5
NA
NA
NA
sunfish.
spp
age0
3
36
NA
NA
NA
sunfish.
spp
age01
4
67
NA
NA
NA
sunfish.
spp
age02
5
103
NA
NA
NA
sunfish.
spp
age03
6
131
NA
NA
NA
sunfish.
spp
age04
7
141
NA
NA
NA
sunfish.
spp
age05
8
171
NA
NA
NA
sunfish.
spp
age06
9
184
NA
NA
NA
sunfish.
spp
age07
10
194
NA
NA
NA
sunfish.
spp
age08
11
199
NA
NA
mult.
refs;
as
cited
sucker.
spp
egg
1
1
NA
NA
NA
sucker.
spp
larvae
2
5
NA
NA
NA
sucker.
spp
age0
3
20
NA
NA
NA
sucker.
spp
age01
4
127
NA
NA
NA
sucker.
spp
age02
5
221
NA
NA
NA
sucker.
spp
age03
6
236
NA
NA
NA
sucker.
spp
age04
7
295
NA
NA
NA
sucker.
spp
age05
8
325
NA
NA
NA
sucker.
spp
age06
9
338
NA
NA
as
cited
in
Carland
spotted.
sucker
egg
1
1
NA
NA
NA
spotted.
sucker
larvae
2
5
NA
NA
NA
spotted.
sucker
age0
3
100
NA
NA
NA
spotted.
sucker
age01
4
157
NA
NA
NA
spotted.
sucker
age02
5
307
NA
NA
NA
spotted.
sucker
age03
6
371
NA
NA
NA
spotted.
sucker
age04
7
411
NA
NA
NA
spotted.
sucker
age05
8
427
NA
NA
NA
spotted.
sucker
age06
9
432
NA
NA
C270;
as
cited
in
C
golden.
redhorse
egg
1
1
NA
NA
NA
golden.
redhorse
larvae
2
5
NA
NA
NA
golden.
redhorse
age0
3
99
NA
NA
NA
golden.
redhorse
age01
4
124
NA
NA
NA
golden.
redhorse
age02
5
188
NA
NA
NA
golden.
redhorse
age03
6
264
NA
NA
NA
golden.
redhorse
age04
7
290
NA
NA
NA
golden.
redhorse
age05
8
325
NA
NA
NA
golden.
redhorse
age06
9
472
NA
NA
NA
golden.
redhorse
age07
10
488
NA
NA
M395;
as
cited
in
C
muskellunge
egg
1
2.54
NA
NA
NA
muskellunge
larvae
2
100
NA
NA
NA
muskellunge
age0
3
150
NA
NA
NA
muskellunge
age01
4
300
NA
NA
NA
muskellunge
age02
5
432
NA
NA
NA
muskellunge
age03
6
483
NA
NA
NA
muskellunge
age04
7
584
NA
NA
NA
muskellunge
age05
8
767
NA
NA
NA
muskellunge
age06
9
800
NA
NA
NA
muskellunge
age07
10
866
NA
NA
NA
muskellunge
age08
11
963
NA
NA
NA
muskellunge
age09
12
1002
NA
NA
NA
muskellunge
age10
13
1064
NA
NA
NA
muskellunge
age11
14
1113
NA
NA
NA
muskellunge
age12
15
1206
NA
NA
NA
muskellunge
age13
16
1224
NA
NA
NA
muskellunge
age14
17
1295
NA
NA
NA
muskellunge
age15
18
1328
NA
NA
NA
muskellunge
age16
19
1354
NA
NA
NA
muskellunge
age17
20
1488
NA
NA
NA
muskellunge
age18
21
1490
NA
NA
NA
muskellunge
age19
22
1510
NA
NA
NA
muskellunge
age20
23
1521
NA
NA
NA
muskellunge
age21
24
1522
NA
NA
NA
muskellunge
age22
25
1523
NA
NA
NA
muskellunge
age23
26
1524
NA
NA
NA
muskellunge
age24
27
1525
NA
NA
NA
muskellunge
age25
28
1526
NA
NA
NA
muskellunge
age26
29
1527
NA
NA
NA
muskellunge
age27
30
1528
NA
NA
Froese,
R.
and
D.
P
walleye
egg
1
1
NA
NA
NA
walleye
larvae
2
19.7
NA
NA
NA
walleye
age0
3
125
NA
NA
NA
walleye
age01
4
262
NA
NA
NA
walleye
age02
5
359
NA
NA
NA
walleye
age03
6
442
NA
NA
NA
walleye
age04
7
482
NA
NA
NA
walleye
age05
8
539
NA
NA
NA
walleye
age06
9
567
NA
NA
NA
walleye
age07
10
596
NA
NA
NA
walleye
age08
11
630
NA
NA
NA
walleye
age09
12
636
NA
NA
as
cited
in
Carland
sauger
egg
1
1
NA
NA
NA
sauger
larvae
2
19.7
NA
NA
NA
sauger
age0
3
113
NA
NA
NA
sauger
age01
4
273
NA
NA
NA
sauger
age02
5
345
NA
NA
NA
sauger
age03
6
392
NA
NA
NA
sauger
age04
7
441
NA
NA
NA
sauger
age05
8
446
NA
NA
NA
sauger
age06
9
529
NA
NA
NA
sauger
age07
10
564
NA
NA
NA
sauger
age08
11
570
NA
NA
as
cited
in
Carland
logperch
egg
1
1.31
NA
NA
NA
logperch
larvae
2
30
NA
NA
NA
logperch
age0
3
60
NA
NA
NA
logperch
age01
4
86
NA
NA
NA
logperch
age02
5
106
NA
NA
NA
logperch
age03
6
121
NA
NA
logperch.
L256:
as
c
bullhead.
spp
egg
1
3
NA
NA
NA
bullhead.
spp
larvae
2
20
NA
NA
NA
bullhead.
spp
age0
3
38
NA
NA
NA
bullhead.
spp
age01
4
112
NA
NA
NA
bullhead.
spp
age02
5
145
NA
NA
NA
bullhead.
spp
age03
6
173
NA
NA
NA
bullhead.
spp
age04
7
206
NA
NA
NA
bullhead.
spp
age05
8
246
NA
NA
NA
bullhead.
spp
age06
9
292
NA
NA
NA
bullhead.
spp
age07
10
302
NA
NA
NA
bullhead.
spp
age08
11
310
NA
NA
NA
bullhead.
spp
age09
12
311
NA
NA
NA
bigmouth.
buffalo
egg
1
1.5
NA
NA
NA
bigmouth.
buffalo
larvae
2
50
NA
NA
NA
bigmouth.
buffalo
age0
3
76
NA
NA
NA
bigmouth.
buffalo
age01
4
335
NA
NA
NA
bigmouth.
buffalo
age02
5
386
NA
NA
NA
bigmouth.
buffalo
age03
6
432
NA
NA
NA
bigmouth.
buffalo
age04
7
470
NA
NA
NA
bigmouth.
buffalo
age05
8
513
NA
NA
NA
bigmouth.
buffalo
age06
9
526
NA
NA
NA
bigmouth.
buffalo
age07
10
668
NA
NA
NA
bigmouth.
buffalo
age08
11
696
NA
NA
NA
bigmouth.
buffalo
age09
12
757
NA
NA
NA
bigmouth.
buffalo
age10
13
882
NA
NA
NA
bigmouth.
buffalo
age11
14
884
NA
NA
NA
bigmouth.
buffalo
age12
15
955
NA
NA
NA
bigmouth.
buffalo
age13
16
956
NA
NA
NA
bigmouth.
buffalo
age14
17
957
NA
NA
NA
bigmouth.
buffalo
age15
18
958
NA
NA
NA
alewife
egg
1
0.01
0.01
0.000
NA
alewife
ysl
2
2.75
2.75
0.006
NA
alewife
pysl
3
5.49
5.49
0.012
NA
alewife
juv1
4
8.23
8.23
0.018
NA
alewife
juv2
5
10.97
10.97
0.024
NA
alewife
age01
6
13.73524
13.73524
0.030
NA
alewife
age02
7
56.85267
56.85267
0.125
NA
alewife
age03
8
115.0299
115.0299
0.254
NA
alewife
age04
9
172.0205
172.0205
0.379
NA
alewife
age05
10
219.77
219.77
0.485
NA
alewife
age06
11
256.46
256.46
0.565
NA
alewife
age07
12
283.24
283.24
0.625
NA
alewife
age08
13
302.16
302.16
0.666
PSEG,
1999
[
2604
rainbow.
smelt
egg
1
1
NA
NA
NA
rainbow.
smelt
larvae
2
5.5
NA
NA
NA
rainbow.
smelt
age01
3
100
NA
NA
NA
rainbow.
smelt
age02
4
127
NA
NA
NA
rainbow.
smelt
age03
5
203
NA
NA
NA
rainbow.
smelt
age04
6
250
NA
NA
NA
rainbow.
smelt
age05
7
290
NA
NA
NA
rainbow.
smelt
age06
8
300
NA
NA
NA
yellow.
perch
egg
1
0.001
NA
NA
NA
yellow.
perch
larvae
2
0.00174
0.00033
7.27526E­
07
NA
yellow.
perch
age0
3
10.54
10.54
0.023236726
NA
yellow.
perch
age01
4
11.13
11.13
0.024537454
NA
yellow.
perch
age02
5
19.74
19.74
0.043519258
NA
yellow.
perch
age03
6
44.78
44.78
0.098723018
NA
yellow.
perch
age04
7
59.77
59.77
0.131770317
NA
yellow.
perch
age05
8
75.27
75.27
0.165941973
NA
yellow.
perch
age06
9
96.85
96.85
0.213517738
NA
gizzard.
shad
egg
1
0.001
NA
NA
NA
gizzard.
shad
larvae
2
0.003006
0.000072
1.58733E­
07
NA
gizzard.
shad
age0
3
4.85
4.85
0.010692422
NA
gizzard.
shad
age01
4
63.78
63.78
0.140610855
NA
gizzard.
shad
age02
5
216.28
216.28
0.476815862
NA
gizzard.
shad
age03
6
290.39
290.39
0.640200473
NA
gizzard.
shad
age04
7
401.43
401.43
0.885001811
NA
gizzard.
shad
age05
8
528.72
528.72
1.165628273
NA
gizzard.
shad
age06
9
696.86
696.86
1.536313584
NA
emerald.
shiner
egg
1
1
NA
NA
NA
emerald.
shiner
larvae
2
20
NA
NA
NA
emerald.
shiner
age0
3
41.5
NA
NA
NA
emerald.
shiner
age01
4
52
NA
NA
NA
emerald.
shiner
age02
5
64
NA
NA
NA
emerald.
shiner
age03
6
84
NA
NA
Campbell
&
Maccri
white.
perch
egg
1
0.01
0.01
0.000
NA
white.
perch
ysl
2
4.29
4.29
0.009
NA
white.
perch
pysl
3
8.57
8.57
0.019
NA
white.
perch
juv1
4
12.85
12.85
0.028
NA
white.
perch
juv2
5
17.13
17.13
0.038
NA
white.
perch
age01
6
21.41
21.41
0.047
NA
white.
perch
age02
7
25.7
25.7
0.057
NA
white.
perch
age03
8
46.5
46.5
0.103
NA
white.
perch
age04
9
68.1
68.1
0.150
NA
white.
perch
age05
10
97.2
97.2
0.214
NA
white.
perch
age06
11
120
120
0.265
NA
white.
perch
age07
12
161.4
161.4
0.356
NA
white.
perch
age08
13
175.5
175.5
0.387
NA
white.
perch
age09
14
234.1
234.1
0.516
NA
white.
perch
age10
15
280.7
280.7
0.619
PSEG,
1999
[
2604
note.
length
note.
weight
assumed
by
AGRET
Keeton,
1963;
as
cited
in
Carlander,
K.
D.,
1969,
Average
of
fry
at
hatching
&
age
0
fish­
H91,
pg.
439
and
L132,
R82
pg.
437;
as
cited
in
C
Keeton,
1963;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
438/
Des
Moines
R.,
IA
(
average
of
age0)
Keeton,
1963;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
438/
Des
Moines
R.,
IA
Keeton,
1963;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
438/
Des
Moines
R.,
IA
Assumed
to
be
not
much
bigger
than
age02
Scott
&
Crossman,
1973;
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9/
html/
sp­
channel­
catfish.
html
As
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9/
html/
sp­
channel­
catfish.
html
Davis,
1959;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
543/
Kansas
rivers
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
544/
IL
and
IA
rivers
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
544/
IL
and
IA,
Miss.
&
Mo.
R.
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
544/
IL
and
IA,
Miss.
&
Mo.
R.
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
545/
IL
and
IA,
Miss.
&
Mo.
R.
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
545/
Miss.
&
Mo.
R.
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
545/
Miss.
&
Mo.
R.
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
546/
Miss.
&
Mo.
R.
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
546/
Miss.
&
Mo.
R.
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
546/
Miss.
R.
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
546/
Miss.
R.
assumed
by
AGRET
to
be
higher
than
age10
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
546/
Miss.
R.
these
are
not
lengths,
but
weights;
because
model
needs
leassumed
by
AGRET
based
on
larval
weight
these
are
not
lengths,
but
weights;
because
model
needs
lehttp://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a.
pd
these
are
not
lengths,
but
weights;
because
model
needs
lehttp://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
a.
pd
these
are
not
lengths,
but
weights;
because
model
needs
leScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
males
&
these
are
not
lengths,
but
weights;
because
model
needs
leScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
males
&
these
are
not
lengths,
but
weights;
because
model
needs
leScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
males
&
these
are
not
lengths,
but
weights;
because
model
needs
leScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
males
&
these
are
not
lengths,
but
weights;
because
model
needs
leScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
males
&
these
are
not
lengths,
but
weights;
because
model
needs
leScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
males
&
these
are
not
lengths,
but
weights;
because
model
needs
leScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
males
&
these
are
not
lengths,
but
weights;
because
model
needs
leScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
males
&
these
are
not
lengths,
but
weights;
because
model
needs
leScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
males
&
these
are
not
lengths,
but
weights;
because
model
needs
leScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
males
&
these
are
not
lengths,
but
weights;
because
model
needs
leScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
males
&
these
are
not
lengths,
but
weights;
because
model
needs
leScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
males
&
Slastenenko,
1958;
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9/
Jones
et
al.
1978,
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9/
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
375/
IA
streams
Iowa
Conserv.
Comm.,
1961;
as
cited
in
Carlander,
K.
D.,
19Iowa
Conserv.
Comm.,
1961;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
376/
IA
­
Mi
Iowa
Conserv.
Comm.,
1961;
as
cited
in
Carlander,
K.
D.,
19Iowa
Conserv.
Comm.,
1961;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
377/
IA
­
Mi
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
378/
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
378/
IA
rivers
Christenson,
M.,
1957;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
379/
Mississippi
R.,
MN
assumed
by
AGRET
to
be
higher
than
last
age
assumed
by
AGRET
to
be
higher
than
last
age
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
380/
Ohio
Lopinot,
1958;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
381/
IL
assumed
by
AGRET
to
be
higher
than
last
age
assumed
by
AGRET
to
be
higher
than
last
age
assumed
by
AGRET
to
be
higher
than
last
age
assumed
by
AGRET
to
be
higher
than
last
age
assumed
by
AGRET
to
be
higher
than
last
age
assumed
by
AGRET
to
be
higher
than
last
age
assumed
by
AGRET
to
be
higher
than
last
age
assumed
by
AGRET
to
be
higher
than
last
age
assumed
by
AGRET
to
be
higher
than
last
age
Scott
&
Crossman,
1973
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
160/
MO
streams
C182;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
161/
Sandusky
R.,
OH
C182;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
162/
Sandusky
R.,
OH
C182;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
163/
Sandusky
R.,
OH
C182;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
164/
Sandusky
R.,
OH
L123,
P74;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
165/
MO
streams
(
was
assumed
by
Abeualieu
to
show
increase
400)
C182;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
165/
Sandusky
R.,
OH
assumed
by
Jhazen,
based
on
age06
and
age08
to
show
increase
assumed
by
Jhazen,
based
on
age06
and
age08
to
show
increase
multiple
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
167/
WI
Lakes.
(
was
593,
but
this
was
only
for
one
fish!
S133;
as
cited
in
Carlander,
K
not
lengths,
but
weights
in
grams
because
not
a
good
formucalculated
from
assumed
length
of
1mm
using
a=
1.206x10^­
5,
b=
3.132,
Van
O
not
lengths,
but
weights
in
grams
because
not
a
good
formucalculated
from
length
of
3.8
mm
using
a=
1.206x10^­
5,
b=
3.132,
Van
Oosten,
not
lengths,
but
weights
in
grams
because
not
a
good
formumultiple,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
18/
multiple
sites
not
lengths,
but
weights
in
grams
because
not
a
good
formumultiple,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
18/
IA,
KS,
MN,
SD,
WI
not
lengths,
but
weights
in
grams
because
not
a
good
formumultiple,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
18/
IA,
KS,
MN,
SD,
OH
not
lengths,
but
weights
in
grams
because
not
a
good
formumultiple,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
18/
IA,
IN,
KS,
MN,
SD,
OH
not
lengths,
but
weights
in
grams
because
not
a
good
formumultiple,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
19/
L.
Erie
not
lengths,
but
weights
in
grams
because
not
a
good
formumultiple,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
19/
IA,
KS,
MN,
SD
not
lengths,
but
weights
in
grams
because
not
a
good
formumultiple,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
19/
IA,
KS,
IN
not
lengths,
but
weights
in
grams
because
not
a
good
formuassumed
to
be
higher
than
age06
skipjack.
herring.
Wallus
et
al.,
1990,
pg.
117/
Lake
Michigan
mean
ysl
and
pysl:
Wallus
et
al.,
1990,
pg.
117/
TN
&
OH
Riv.
Basin
(
changed
from
11.125
to
17.7
by
JH
­
average
of
min
ysl
and
max
py
Wallus
et
al.,
1990,
pg.
121/
TN
&
OH
Riv.
Basin
(
changed
from
30.5
to
114
actually
for
age0)
extrapolated
from
age0
to
age3
(
was
114
Etnier,
&
Starnes;
Smith,
1979,
as
cited
in
Wallus
et
al.,
1990,
pg.
122)
extrapolated
from
age0
to
age3
(
was
Average
of
ages
1
&
3)
skipjack.
herring.
Trautman,
1981,
pg
196./
OH
(
max
of
adult
range)
black.
crappie.
hMarriner,
1971,
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9
black.
crappie.
hAverage
of
length
at
hatching
&
postlarvae
length
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9.(
Siefert,
1969­
length
at
h
black.
crappie.
hmultiple;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
314/
MN,
WI
black.
crappie.
hU8;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
314/
IA,
Miss.
R.
black.
crappie.
hU4,
U8;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
315/
IA,
IL,
Miss.
R.
black.
crappie.
hmult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
315/
MN,
Miss.
R.
black.
crappie.
hmult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
317/
MN,
Miss.
R.
black.
crappie.
hmult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
317/
MN,
Miss.
R.
black.
crappie.
hmult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
317/
MN,
Miss.
R.
black.
crappie.
hassumed
by
Abeualieu
to
show
increase
black.
crappie.
hmult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
318/
MI,
MN,
SD,
WI
vmult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
318/
MN,
SD,
WI
Toetz,
1965,
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9
Wang
and
Kernehan,
1979
(
size
at
completion
of
yolk­
sac
stage),
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9/
html/
sp­
bluegill.
html
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
87/
IN,
IL,
IA
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
88/
OH
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
89/
OH
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
90/
OH
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
91/
OH
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
92/
OH
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
92/
OH
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
93/
OH
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
93/
OH,
IN,
IL,
IA
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
93/
OH,
IN
http://
dlp.
cs.
berkeley.
edu/
kopec/
tr9/
html/
sp­
pumpkinseed.
html
http://
dlp.
cs.
berkeley.
edu/
kopec/
tr9/
html/
sp­
pumpkinseed.
html
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
57/
Pumpkinseed,
MI
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
57/
Pumpkinseed,
MI,
MN
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
57/
Pumpkinseed,
MI,
MN,
WI
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
58/
Pumpkinseed,
MI,
MN,
WI
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
58/
Pumpkinseed,
MI,
MN,
WI
mean
ysl
and
pysl:
Reighard
1906,
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9/
(
avg
of
length
at
hatch
&
post­
yolk
sac
stage)
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
58/
Pumpkinseed,
MI,
MN,
WI
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
59/
Pumpkinseed,
MI,
MN,
WI
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
59/
Pumpkinseed,
MI
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
59/
Pumpkinseed,
MI
assumed
by
AGRET
assumed
by
AGRET
M215;
as
cited
in
Carlander,
K.
D.
1969,
p.
458/
Big
Blue
River
B180;
as
cited
in
Carlander,
K.
D.
1969,
p.
459/
Des
Moines
River
B180;
as
cited
in
Carlander,
K.
D.
1969,
p.
459/
Des
Moines
River
B180;
as
cited
in
Carlander,
K.
D.
1969,
p.
459/
Des
Moines
River
B180;
as
cited
in
Carlander,
K.
D.
1969,
p.
459/
Des
Moines
River
B180;
as
cited
in
Carlander,
K.
D.
1969,
p.
459/
Des
Moines
River
B180;
as
cited
in
Carlander,
K.
D.
1969,
p.
456/
Des
Moines
River
assumed
by
AGRET
assumed
by
AGRET
assumed
by
Agret
to
be
lower
than
next
stage
C270;
as
cited
in
Carlander,
K.
D.
1969,
p.
505­
506/
Mississippi
River
C270;
as
cited
in
Carlander,
K.
D.
1969,
p.
505­
506/
Mississippi
River
C270;
as
cited
in
Carlander,
K.
D.
1969,
p.
505­
506/
Mississippi
River
C270;
as
cited
in
Carlander,
K.
D.
1969,
p.
505­
506/
Mississippi
River
C270;
as
cited
in
Carlander,
K.
D.
1969,
p.
505­
506/
Mississippi
River
C270;
as
cited
in
Carlander,
K.
D.
1969,
p.
505­
506/
Mississippi
River
assumed
by
AGRET
assumed
by
AGRET
L108;
as
cited
in
Carlander,
K.
D.
1969,
p.
512/
Big
Creek
M395;
as
cited
in
Carlander,
K.
D.
1969,
p.
512­
513/
Des
Moines
River
M395;
as
cited
in
Carlander,
K.
D.
1969,
p.
512­
513/
Des
Moines
River
M395;
as
cited
in
Carlander,
K.
D.
1969,
p.
512­
513/
Des
Moines
River
M395;
as
cited
in
Carlander,
K.
D.
1969,
p.
512­
513/
Des
Moines
River
M395;
as
cited
in
Carlander,
K.
D.
1969,
p.
512­
513/
Des
Moines
River
M395;
as
cited
in
Carlander,
K.
D.
1969,
p.
512­
513/
Des
Moines
River
M395;
as
cited
in
Carlander,
K.
D.
1969,
p.
512­
513/
Des
Moines
River
as
cited
in
Carlander,
K.
D.
1969,
p.
362
assumed
by
AGRET
P69;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
TN
Streams
K69;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
George
Lake
G152,
S499;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
George
Lake
G152,
S499;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
George
Lake
G152,
S499;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
George
Lake
C227;
M329;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
ON
Nogies
M329;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
Nogies
M329;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
Nogies
C227;
M329;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
ON
Nogies
C227;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
ON
Nogies
G23;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
NY
J15;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
WI
J15;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
WI
S2;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
WI
S2;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
WI
H15;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
ON
H15;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
ON
S2;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
WI
assumed
by
AGREt
(
higher
than
last
stage)
S2;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
WI
assumed
by
AGREt
(
higher
than
last
stage)
assumed
by
AGREt
(
higher
than
last
stage)
assumed
by
AGREt
(
higher
than
last
stage)
assumed
by
AGREt
(
higher
than
last
stage)
assumed
by
AGREt
(
higher
than
last
stage)
assumed
by
AGREt
(
higher
than
last
stage)
assumed
by
AGREt
(
higher
than
last
stage)
assumed
by
AGREt
(
higher
than
last
stage)
assumed
by
AGRET
N97;
as
cited
in
Carlander,
K.
D.
1997,
p.
221
mean
of
7.4
and
32
mm
mult.
references;
as
cited
in
Carlander,
K.
D.
1997,
p.
223/
combined
unweighted
means
in
August
4S;
as
cited
in
Carlander,
K.
D.
1997,
p.
225­
227/
rivers
4S;
as
cited
in
Carlander,
K.
D.
1997,
p.
225­
227/
rivers
4S;
as
cited
in
Carlander,
K.
D.
1997,
p.
225­
227/
rivers
4S;
as
cited
in
Carlander,
K.
D.
1997,
p.
225­
227/
rivers
4S;
as
cited
in
Carlander,
K.
D.
1997,
p.
225­
227/
rivers
4S;
as
cited
in
Carlander,
K.
D.
1997,
p.
225­
227/
rivers
4S;
as
cited
in
Carlander,
K.
D.
1997,
p.
225­
227/
rivers
assumed
by
agret
(
higher
than
last
stage)
4S;
as
cited
in
Carlander,
K.
D.
1997,
p.
225­
227/
rivers
assumed
by
AGRET
assumed
to
be
same
than
walleye.
N97;
as
cited
in
Carlander,
K.
D.
1997,
p.
221
mean
of
7.4
and
32
mm
4:
as
cited
in
Carlander,
K.
D.
1997,
p.
186­
189/
Rivers
or
Reservoirs
4:
as
cited
in
Carlander,
K.
D.
1997,
p.
186­
189/
Rivers
or
Reservoirs
4:
as
cited
in
Carlander,
K.
D.
1997,
p.
186­
189/
Rivers
or
Reservoirs
4:
as
cited
in
Carlander,
K.
D.
1997,
p.
186­
189/
Rivers
or
Reservoirs
4:
as
cited
in
Carlander,
K.
D.
1997,
p.
186­
189/
Rivers
or
Reservoirs
4:
as
cited
in
Carlander,
K.
D.
1997,
p.
186­
189/
Rivers
or
Reservoirs
4:
as
cited
in
Carlander,
K.
D.
1997,
p.
186­
189/
Rivers
or
Reservoirs
4:
as
cited
in
Carlander,
K.
D.
1997,
p.
186­
189/
Rivers
or
Reservoirs
nder,
K.
D.
1997,
p.
189/
northern
United
States
reservoirs
and
rivers
logperch.
W164:
as
cited
in
Carlander,
K.
D.
1997,
p.
82/
average
of
10
eggs
assumed
by
AGRET
logperch.
L256:
as
cited
in
Carlander,
K.
D.
1997,
p.
80/
WI
central
logperch.
L256:
as
cited
in
Carlander,
K.
D.
1997,
p.
81/
WI
central
logperch.
L256:
as
cited
in
Carlander,
K.
D.
1997,
p.
81/
WI
central
logperch.
L256:
as
cited
in
Carlander,
K.
D.
1997,
p.
81/
WI
central
Scott
&
Crossman,
1973
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9/
html/
sp­
black­
bullhead.
html
assumed
by
AGRET
based
on
age0
size
C284;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
527/
OH
M448;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
528/
IA,
Chariton
R.
M448;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
528/
IA,
Chariton
R.
M448;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
529/
IA,
Chariton
R.
M448;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
529/
IA,
Chariton
R.
F65;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
529/
IA,
Clear
Lk.
F65;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
530/
IA,
Clear
Lk.
F65;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
530/
IA,
Clear
Lk.
F65;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
530/
IA,
Clear
Lk.
assumed
by
AGRET,
as
value
in
Carlander,
1969,
p.
530
would
go
down
Kleinholtz,
2000.
http://
agpublications.
tamu.
edu/
pubs/
efish/
723fs.
pdf
assumed
by
AGRET
based
on
age0
B2,
B3;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
499/
Age
0,
Aug./
IA
lakes
S16;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
499/
TN,
Reelfoot
Lk.
S16;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
499/
TN,
Reelfoot
Lk.
I10;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
499/
IA,
Missouri
R.
I10;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
499/
IA,
Missouri
R.
H150,
J25;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
500/
OK,
Illinois
R.
H150,
J25;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
500/
OK,
Illinois
R.
S16;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
500/
TN,
Reelfoot
Lk.
E3;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
501/
MN
E3;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
501/
MN
E3;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
501/
MN
E3;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
501/
MN
E3;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
501/
MN
assumed
by
AGRET
to
be
higher
than
age
10
assumed
by
AGRET
to
be
higher
than
age
11
assumed
by
AGRET
to
be
higher
than
age
12
these
are
not
lengths,
but
weights;
because
model
needs
leassumed
by
AGRET
these
are
not
lengths,
but
weights;
because
model
needs
leextrapolated
from
egg
to
age01
these
are
not
lengths,
but
weights;
because
model
needs
leextrapolated
from
egg
to
age01
these
are
not
lengths,
but
weights;
because
model
needs
leextrapolated
from
egg
to
age01
these
are
not
lengths,
but
weights;
because
model
needs
leextrapolated
from
egg
to
age01
these
are
not
lengths,
but
weights;
because
model
needs
lePSEG,
1999
[
26046];
appendix
F,
Attachment
F
these
are
not
lengths,
but
weights;
because
model
needs
lePSEG,
1999
[
26046];
appendix
F,
Attachment
F
these
are
not
lengths,
but
weights;
because
model
needs
lePSEG,
1999
[
26046];
appendix
F,
Attachment
F
these
are
not
lengths,
but
weights;
because
model
needs
lePSEG,
1999
[
26046];
appendix
F,
Attachment
F
these
are
not
lengths,
but
weights;
because
model
needs
lePSEG,
1999
[
26046];
appendix
F,
Attachment
F
these
are
not
lengths,
but
weights;
because
model
needs
lePSEG,
1999
[
26046];
appendix
F,
Attachment
F
these
are
not
lengths,
but
weights;
because
model
needs
lePSEG,
1999
[
26046];
appendix
F,
Attachment
F
these
are
not
lengths,
but
weights;
because
model
needs
lePSEG,
1999
[
26046];
appendix
F,
Attachment
F
Able
and
Fahay,
1998;
#
25580;
p.
71
NA
Able
and
Fahay,
1998;
#
25580;
p.
71
NA
assumed
by
AGRET
NA
Scott
and
Scott,
1988[
26762],
p.
151
NA
Scott
and
Scott,
1988[
26762],
p.
151
NA
assumed
by
AGRET
NA
assumed
by
AGRET
NA
assumed
to
be
5.6
cm
less
than
maximum
reported
ever.
FrNA
weight
in
grams:
assumed
by
AGRET
are
weights
in
grams:
Table
8[
26887]
are
weights
in
grams:
Table
12[
26887]
are
weights
in
grams:
Table
12[
26887]
are
weights
in
grams:
Table
12[
26887]
are
weights
in
grams:
Table
12[
26887]
are
weights
in
grams:
Table
12[
26887]
are
weights
in
grams:
Table
12[
26887]
are
weights
in
grams:
Table
12[
26887]
weight
in
grams:
assumed
by
AGRET
mean
post
and
prolarvae
are
weights
in
grams:
Table
8[
26887]
are
weights
in
grams:
Table
8[
26887]
are
weights
in
grams:
Table
14[
26887]
are
weights
in
grams:
Table
14[
26887]
are
weights
in
grams:
Table
14[
26887]
are
weights
in
grams:
Table
14[
26887]
are
weights
in
grams:
Table
14[
26887]
are
weights
in
grams:
Table
14[
26887]
assumed
by
AGRET
assumed
by
AGRET
Trautman,
1981,
pg
318./
OH
Trautman,
1981,
pg
318./
OH
Trautman,
1981,
pg
318./
OH
Trautman,
1981,
pg
318./
OH
these
are
not
lengths,
but
weights;
because
model
needs
leassumed
by
AGRET
these
are
not
lengths,
but
weights;
because
model
needs
leextrapolated
from
egg
to
age01
these
are
not
lengths,
but
weights;
because
model
needs
leextrapolated
from
egg
to
age01
these
are
not
lengths,
but
weights;
because
model
needs
leextrapolated
from
egg
to
age01
these
are
not
lengths,
but
weights;
because
model
needs
leextrapolated
from
egg
to
age01
these
are
not
lengths,
but
weights;
because
model
needs
lePSEG,
1999
[
26046];
appendix
F,
Attachment
F
these
are
not
lengths,
but
weights;
because
model
needs
lePSEG,
1999
[
26046];
appendix
F,
Attachment
F
these
are
not
lengths,
but
weights;
because
model
needs
lePSEG,
1999
[
26046];
appendix
F,
Attachment
F
these
are
not
lengths,
but
weights;
because
model
needs
lePSEG,
1999
[
26046];
appendix
F,
Attachment
F
these
are
not
lengths,
but
weights;
because
model
needs
lePSEG,
1999
[
26046];
appendix
F,
Attachment
F
these
are
not
lengths,
but
weights;
because
model
needs
lePSEG,
1999
[
26046];
appendix
F,
Attachment
F
these
are
not
lengths,
but
weights;
because
model
needs
lePSEG,
1999
[
26046];
appendix
F,
Attachment
F
these
are
not
lengths,
but
weights;
because
model
needs
lePSEG,
1999
[
26046];
appendix
F,
Attachment
F
these
are
not
lengths,
but
weights;
because
model
needs
lePSEG,
1999
[
26046];
appendix
F,
Attachment
F
these
are
not
lengths,
but
weights;
because
model
needs
lePSEG,
1999
[
26046];
appendix
F,
Attachment
F
in
Carlander,
K.
D.,
1969/
MN,
OH.

.
pdf
using
10
days
.
pdf
using
164
days
&
females
for
wt.
(
assumed
50/
50
ratio)
&
females
for
wt.
(
assumed
50/
50
ratio)
&
females
for
wt.
(
assumed
50/
50
ratio)
&
females
for
wt.
(
assumed
50/
50
ratio)
&
females
for
wt.
(
assumed
50/
50
ratio)
&
females
for
wt.
(
assumed
50/
50
ratio)
&
females
for
wt.
(
assumed
50/
50
ratio)
&
females
for
wt.
(
assumed
50/
50
ratio)
&
females
for
wt.
(
assumed
50/
50
ratio)
&
females
for
wt.
(
assumed
50/
50
ratio)
&
females
for
wt.
(
assumed
50/
50
ratio)
&
females
for
wt.
(
assumed
50/
50
ratio)

Missouri
R.
Missouri
R.
r,
K.
D.,
1977,
pg.
166/
WV
streams)
n
Oosten,
[
26645]
(
assumed
by
AGRET
length
was
1)
n,
[
26645]
(
length
was
mean
ysl,
pysl:
Carlander,
K.
D.,
1997,
pg.
26,
length
was
3.8)

pysl)

t
hatching).
species
stage
fraction.
mature
mean.
fecundity
notes.
fraction.
mature
bluntnose.
minnow
age01
0.00
0
W26;
as
cited
in
Carlander,
K.
D.,
196
bluntnose.
minnow
age02
1.00
2447
W26;
as
cited
in
Carlander,
K.
D.,
196
bluntnose.
minnow
age03
1.00
2447
W26;
as
cited
in
Carlander,
K.
D.,
196
herring.
family
age01
0.00
0
skipjack.
herring.
Wallus
et
al.,
1990
pa
herring.
family
age02
0.50
200000
skipjack.
herring.
Wallus
et
al.,
1990
pa
herring.
family
age03
1.00
200000
skipjack.
herring.
Wallus
et
al.,
1990
pa
muskellunge
age01
0
NA
assumed
by
AGRET
muskellunge
age02
0
NA
assumed
by
AGRET
muskellunge
age03
0.5
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age04
0.5
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age05
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age06
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age07
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age08
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age09
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age10
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age11
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age12
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age13
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age14
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age15
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age16
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age17
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age18
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age19
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age20
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age21
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age22
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age23
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age24
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age25
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age26
1
NA
http://
www.
kenschultz.
com/
template2.
muskellunge
age27
1
NA
http://
www.
kenschultz.
com/
template2.
logperch
age01
0.5
NA
http://
www.
kenschultz.
com/
template2.
logperch
age02
1
NA
http://
www.
kenschultz.
com/
template2.
logperch
age03
1
NA
http://
www.
kenschultz.
com/
template2.
yellow.
perch
age01
0.01
17000
Assumed
based
on
S697,
as
cited
in
yellow.
perch
age02
0.47
23000
S697,
as
cited
in
Carlander,
K.
D.,
199
yellow.
perch
age03
0.51
27000
S697,
as
cited
in
Carlander,
K.
D.,
199
yellow.
perch
age04
0.86
27000
S697,
as
cited
in
Carlander,
K.
D.,
199
yellow.
perch
age05
1.00
27000
Assumed
based
on
S697,
as
cited
in
yellow.
perch
age06
1.00
34000
Assumed
based
on
S697,
as
cited
in
yellow.
perch
age07
1.00
34000
Assumed
based
on
S697,
as
cited
in
yellow.
perch
age08
1.00
34000
Assumed
based
on
S697,
as
cited
in
yellow.
perch
age09
1.00
34000
Assumed
based
on
S697,
as
cited
in
yellow.
perch
age10
1.00
34000
Assumed
based
on
S697,
as
cited
in
notes.
mean.
fecundity
lifetime.
fecundity
notes.
lifetime.
fecundity
Assumed
0
NA
H91,
as
cited
in
Carlander,
K.
D.,
1969,
pg.
439/
MI
(
includeNA
H91,
as
cited
in
Carlander,
K.
D.,
1969,
pg.
439/
MI
(
includeNA
calculated
using
Saila
method
skipjack.
herring.
Wallus
et
al.,
1990
page
116./
TN
(
assumNA
skipjack.
herring.
Wallus
et
al.,
1990
page
116./
TN
(
assumNA
skipjack.
herring.
Wallus
et
al.,
1990
page
116./
TN
(
assumNA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
2,000,000
Max.
lifetime
=
3,000,000,
therefore:
average
~
2,000
NA
NA
NA
NA
NA
2000
logperch.
Max.
lifetime
=
3000,
therefore:
average
~
V21,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
165/
MN
(
basedNA
V21,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
165/
MN
(
basedNA
V21,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
165/
MN
(
basedNA
V21,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
165/
MN
(
basedNA
V21,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
165/
MN
(
basedNA
V21,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
165/
MN
(
basedNA
V21,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
165/
MN
(
basedNA
V21,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
165/
MN
(
basedNA
V21,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
165/
MN
(
basedNA
V21,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
165/
MN
(
basedNA
000,000
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Sep.
10,
2001Hugg,
D.
O.,
1996.
MAPFISH
ge
e
~
2,000Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Sep.
10,
2001Hugg,
D.
O.,
1996.
MAPFISH
ge
georeferenced
mapping
database.
Freshwater
and
estuarine
fishes
of
North
America.
Life
Science
Software.
Dennis
O.
and
Steven
Hug
georeferenced
mapping
database.
Freshwater
and
estuarine
fishes
of
North
America.
Life
Science
Software.
Dennis
O.
and
Steven
Hug
ugg,
1278
Turkey
Point
Road,
Edgewater,
Maryland,
USA.

ugg,
1278
Turkey
Point
Road,
Edgewater,
Maryland,
USA./
Ohio
River
Worksheet
Description
Data
Source
losses01
Reported
impingement
&
entrainment
losses
at
JR
Whiting
lifehistory02
Life
history
data
for
speicies
impinged/
entrained
lbs.
from.
mm03
Conversion
factor
(
lbs
to
mm)
for
each
species
species.
growth04
Average
growth
per
species
per
life
stage
fecundity05
Fecundity
of
each
species
Additional
Notes
losses01
See
workbook
p:/
intake/
ohio/
ohio­
Science/
data/
tanners_
stage.
xls
for
entrainment
calculations
losses01
Assumed
age01
for
all
species
for
impingement.

QA/
QC
procedure:
author
transposing
from
qa
Losses
ML
AG
NA/
O
JH
AG
LH
AB
AG
Overview
AG
Input
data
for
I&
E
loss
at
Tanners
Creek
Power
Plant
Workbook
compiled
for
use
in
fish
impingement/
entainment
loss
model.
Amy
Beaulieu,
6/
13/
01
qa/
qc
file
to
final
input.
data.
xls