Document ID: EPA-HQ-OW-2004-0002-1858
Agency: epa
Document Type: Supporting & Related Material
Title: 
Posted Date: 2006-06-29T04:00Z

junk
species
stagege.
sequence
survival.
bystage.
fraction
nat.
mort.
m
fish.
mort.
f
dummy
dummy
dummy
­
999
­
999
­
999
­
999
junk
alewife
egg
1
0.00001
11.51
0
junk
alewife
larvae
2
0.00409
5.5
0
junk
alewife
juv
3
0.00201
6.21
0
junk
alewife
age01
4
0.60653
0.5
0
junk
alewife
age02
5
0.60653
0.5
0
junk
alewife
age03
6
0.60653
0.5
0
junk
alewife
age04
7
0.60653
0.5
0
junk
alewife
age05
8
0.60653
0.5
0
junk
alewife
age06
9
0.60653
0.5
0
junk
alewife
age07
10
0.60653
0.5
0
junk
black.
bullhead
egg
1
0.15000
1.897119985
0
junk
black.
bullhead
larvae
2
0.01
4.605170186
0
junk
black.
bullhead
juv
3
0.25
1.386294361
0
junk
black.
bullhead
age01
4
0.64
0.446287103
0
junk
black.
bullhead
age02
5
0.64
0.223143551
0.223143551
junk
black.
bullhead
age03
6
0.64
0.223143551
0.223143551
junk
black.
bullhead
age04
7
0.64
0.223143551
0.223143551
junk
black.
bullhead
age05
8
0.64
0.223143551
0.223143551
junk
black.
bullhead
age06
9
0.64
0.223143551
0.223143551
junk
black.
bullhead
age07
10
0.64
0.223143551
0.223143551
junk
black.
bullhead
age08
11
0.64
0.223143551
0.223143551
junk
black.
bullhead
age09
12
0.64
0.223143551
0.223143551
junk
black.
crappie
egg
1
0.16530
1.8
0
junk
black.
crappie
larvae
2
0.60774
0.498
0
junk
black.
crappie
juv
3
0.05363
2.9256
0
junk
black.
crappie
age01
4
0.74677
0.292
0
junk
black.
crappie
age02
5
0.55766
0.292
0.292
junk
black.
crappie
age03
6
0.55766
0.292
0.292
junk
black.
crappie
age04
7
0.55766
0.292
0.292
junk
black.
crappie
age05
8
0.55766
0.292
0.292
junk
black.
crappie
age06
9
0.55766
0.292
0.292
junk
black.
crappie
age07
10
0.55766
0.292
0.292
junk
black.
crappie
age08
11
0.55766
0.292
0.292
junk
black.
crappie
age09
12
0.55766
0.292
0.292
junk
bluegill
egg
1
0.17764
1.728
0
junk
bluegill
larvae
2
0.56214
0.576
0
junk
bluegill
juv
3
0.00990
4.615
0
junk
bluegill
age01
4
0.67706
0.39
0
junk
bluegill
age02
5
0.8595
0.151404454
0
junk
bluegill
age03
6
0.23000
0.734837985
0.734837985
junk
bluegill
age04
7
0.23000
0.734837985
0.734837985
junk
bluegill
age05
8
0.23000
0.734837985
0.734837985
junk
bluegill
age06
9
0.23000
0.734837985
0.734837985
junk
bluegill
age07
10
0.23000
0.734837985
0.734837985
junk
bluegill
age08
11
0.23000
0.734837985
0.734837985
junk
bluegill
age09
12
0.23000
0.734837985
0.734837985
junk
bluntnose.
minnow
egg
1
0.15000
1.897119985
0
junk
bluntnose.
minnow
larvae
2
0.12727
2.061444465
0
junk
bluntnose.
minnow
juv
3
0.12727
2.061444465
0
junk
bluntnose.
minnow
age01
4
0.36788
1
0
junk
bluntnose.
minnow
age02
5
0.36788
1
0
junk
bluntnose.
minnow
age03
6
0.36788
1
0
junk
brown.
bullhead
egg
1
0.15000
1.897119985
0
junk
brown.
bullhead
larvae
2
0.01
4.605170186
0
junk
brown.
bullhead
juv
3
0.25
1.386294361
0
junk
brown.
bullhead
age01
4
0.64
0.446287103
0
junk
brown.
bullhead
age02
5
0.64
0.223143551
0.223143551
junk
brown.
bullhead
age03
6
0.64
0.223143551
0.223143551
junk
brown.
bullhead
age04
7
0.64
0.223143551
0.223143551
junk
brown.
bullhead
age05
8
0.64
0.223143551
0.223143551
junk
brown.
bullhead
age06
9
0.64
0.223143551
0.223143551
junk
bullhead.
spp
egg
1
0.15000
1.897119985
0
junk
bullhead.
spp
larvae
2
0.01
4.605170186
0
junk
bullhead.
spp
juv
3
0.25
1.386294361
0
junk
bullhead.
spp
age01
4
0.64
0.446287103
0
junk
bullhead.
spp
age02
5
0.64
0.223143551
0.223143551
junk
bullhead.
spp
age03
6
0.64
0.223143551
0.223143551
junk
bullhead.
spp
age04
7
0.64
0.223143551
0.223143551
junk
bullhead.
spp
age05
8
0.64
0.223143551
0.223143551
junk
bullhead.
spp
age06
9
0.64
0.223143551
0.223143551
junk
bullhead.
spp
age07
10
0.64
0.223143551
0.223143551
junk
bullhead.
spp
age08
11
0.64
0.223143551
0.223143551
junk
bullhead.
spp
age09
12
0.64
0.223143551
0.223143551
junk
burbot
egg
1
0.15000
1.897119985
0
junk
burbot
larvae
2
0.000796821
7.134880127
0
junk
burbot
juv
3
0.4
0.916290732
0
junk
burbot
age01
4
0.57
0.562118918
0
junk
burbot
age02
5
0.57
0.562118918
0
junk
burbot
age03
6
0.57
0.562118918
0
junk
burbot
age04
7
0.57
0.562118918
0
junk
burbot
age05
8
0.57
0.562118918
0
junk
burbot
age06
9
0.57
0.562118918
0
junk
burbot
age07
10
0.57
0.562118918
0
junk
burbot
age08
11
0.57
0.562118918
0
junk
burbot
age09
12
0.57
0.562118918
0
junk
burbot
age10
13
0.57
0.562118918
0
junk
carp
egg
1
0.15000
1.897119985
0
junk
carp
larvae
2
0.01
4.605170186
0
junk
carp
juv
3
0.25
1.386294361
0
junk
carp
age01
4
0.87810
0.13
0
junk
carp
age02
5
0.87810
0.13
0
junk
carp
age03
6
0.87810
0.13
0
junk
carp
age04
7
0.87810
0.13
0
junk
carp
age05
8
0.87810
0.13
0
junk
carp
age06
9
0.87810
0.13
0
junk
carp
age07
10
0.87810
0.13
0
junk
carp
age08
11
0.87810
0.13
0
junk
carp
age09
12
0.87810
0.13
0
junk
carp
age10
13
0.87810
0.13
0
junk
carp
age11
14
0.87810
0.13
0
junk
carp
age12
15
0.87810
0.13
0
junk
carp
age13
16
0.87810
0.13
0
junk
carp
age14
17
0.87810
0.13
0
junk
carp
age15
18
0.87810
0.13
0
junk
carp
age16
19
0.87810
0.13
0
junk
carp
age17
20
0.87810
0.13
0
junk
channel.
catfish
egg
1
0.15000
1.897119985
0
junk
channel.
catfish
larvae
2
0.01
4.605170186
0
junk
channel.
catfish
juv
3
0.25
1.386294361
0
junk
channel.
catfish
age01
4
0.44
0.410490276
0.410490276
junk
channel.
catfish
age02
5
0.44
0.410490276
0.410490276
junk
channel.
catfish
age03
6
0.44
0.410490276
0.410490276
junk
channel.
catfish
age04
7
0.44
0.410490276
0.410490276
junk
channel.
catfish
age05
8
0.44
0.410490276
0.410490276
junk
channel.
catfish
age06
9
0.44
0.410490276
0.410490276
junk
channel.
catfish
age07
10
0.44
0.410490276
0.410490276
junk
channel.
catfish
age08
11
0.44
0.410490276
0.410490276
junk
channel.
catfish
age09
12
0.44
0.410490276
0.410490276
junk
channel.
catfish
age10
13
0.44
0.410490276
0.410490276
junk
channel.
catfish
age11
14
0.44
0.410490276
0.410490276
junk
channel.
catfish
age12
15
0.44
0.410490276
0.410490276
junk
crappie
egg
1
0.16530
1.8
0
junk
crappie
larvae
2
0.60774
0.498
0
junk
crappie
juv
3
0.05363
2.9256
0
junk
crappie
age01
4
0.74677
0.292
0
junk
crappie
age02
5
0.55766
0.292
0.292
junk
crappie
age03
6
0.55766
0.292
0.292
junk
crappie
age04
7
0.55766
0.292
0.292
junk
crappie
age05
8
0.55766
0.292
0.292
junk
crappie
age06
9
0.55766
0.292
0.292
junk
crappie
age07
10
0.55766
0.292
0.292
junk
crappie
age08
11
0.55766
0.292
0.292
junk
crappie
age09
12
0.55766
0.292
0.292
junk
emerald.
shiner
egg
1
0.15000
1.897119985
0
junk
emerald.
shiner
larvae
2
0.00999
4.6058
0
junk
emerald.
shiner
juv
3
0.46001
0.7765
0
junk
emerald.
shiner
age01
4
0.68997
0.3711
0
junk
emerald.
shiner
age02
5
0.01000
4.6052
0
junk
emerald.
shiner
age03
6
0.01000
4.6052
0
junk
freshwater.
drum
egg
1
0.10331
2.27
0
junk
freshwater.
drum
larvae
2
0.00218
6.129
0
junk
freshwater.
drum
juv
3
0.10066
2.296
0
junk
freshwater.
drum
age01
4
0.73345
0.31
0
junk
freshwater.
drum
age02
5
0.73345
0.155
0.155
junk
freshwater.
drum
age03
6
0.73345
0.155
0.155
junk
freshwater.
drum
age04
7
0.73345
0.155
0.155
junk
freshwater.
drum
age05
8
0.73345
0.155
0.155
junk
freshwater.
drum
age06
9
0.73345
0.155
0.155
junk
freshwater.
drum
age07
10
0.73345
0.155
0.155
junk
freshwater.
drum
age08
11
0.73345
0.155
0.155
junk
freshwater.
drum
age09
12
0.73345
0.155
0.155
junk
freshwater.
drum
age10
13
0.73345
0.155
0.155
junk
freshwater.
drum
age11
14
0.73345
0.155
0.155
junk
freshwater.
drum
age12
15
0.73345
0.155
0.155
junk
gizzard.
shad
egg
1
0.15000
1.897119985
0
junk
gizzard.
shad
larvae
2
0.00179
6.3257
0
junk
gizzard.
shad
juv
3
0.60002
0.5108
0
junk
gizzard.
shad
age01
4
0.23524
1.44715
0
junk
gizzard.
shad
age02
5
0.28037
1.27165
0
junk
gizzard.
shad
age03
6
0.38056
0.9661
0
junk
gizzard.
shad
age04
7
0.41784
0.87265
0
junk
gizzard.
shad
age05
8
0.73853
0.3031
0
junk
gizzard.
shad
age06
9
0.73853
0.3031
0
junk
golden.
redhorse
egg
1
0.10016
2.301
0
junk
golden.
redhorse
larvae
2
0.10016
2.301
0
junk
golden.
redhorse
juv
3
0.05034
2.989
0
junk
golden.
redhorse
age01
4
0.57839
0.5475
0
junk
golden.
redhorse
age02
5
0.57839
0.5475
0
junk
golden.
redhorse
age03
6
0.57839
0.5475
0
junk
golden.
redhorse
age04
7
0.57839
0.5475
0
junk
golden.
redhorse
age05
8
0.57839
0.5475
0
junk
golden.
redhorse
age06
9
0.57839
0.5475
0
junk
golden.
redhorse
age07
10
0.57839
0.5475
0
junk
logperch
egg
1
0.15000
1.897119985
0
junk
logperch
larvae
2
0.149067545
1.903355754
0
junk
logperch
juv
3
0.149067545
1.903355754
0
junk
logperch
age01
4
0.49659
0.7
0
junk
logperch
age02
5
0.49659
0.7
0
junk
logperch
age03
6
0.49659
0.7
0
junk
muskellunge
egg
1
0.34000
1.078809661
0
junk
muskellunge
larvae
2
0.004138381
5.48745063
0
junk
muskellunge
juv
3
0.004138381
5.48745063
0
junk
muskellunge
age01
4
0.86071
0.15
0
junk
muskellunge
age02
5
0.86071
0.15
0
junk
muskellunge
age03
6
0.86071
0.15
0
junk
muskellunge
age04
7
0.86071
0.15
0
junk
muskellunge
age05
8
0.86071
0.15
0
junk
muskellunge
age06
9
0.86071
0.15
0
junk
muskellunge
age07
10
0.86071
0.15
0
junk
muskellunge
age08
11
0.86071
0.15
0
junk
muskellunge
age09
12
0.86071
0.15
0
junk
muskellunge
age10
13
0.86071
0.075
0.075
junk
muskellunge
age11
14
0.86071
0.075
0.075
junk
muskellunge
age12
15
0.86071
0.075
0.075
junk
muskellunge
age13
16
0.86071
0.075
0.075
junk
muskellunge
age14
17
0.86071
0.075
0.075
junk
muskellunge
age15
18
0.86071
0.075
0.075
junk
muskellunge
age16
19
0.86071
0.075
0.075
junk
muskellunge
age17
20
0.86071
0.075
0.075
junk
muskellunge
age18
21
0.86071
0.075
0.075
junk
muskellunge
age19
22
0.86071
0.075
0.075
junk
muskellunge
age20
23
0.86071
0.075
0.075
junk
muskellunge
age21
24
0.86071
0.075
0.075
junk
muskellunge
age22
25
0.86071
0.075
0.075
junk
muskellunge
age23
26
0.86071
0.075
0.075
junk
muskellunge
age24
27
0.86071
0.075
0.075
junk
muskellunge
age25
28
0.86071
0.075
0.075
junk
muskellunge
age26
29
0.86071
0.075
0.075
junk
muskellunge
age27
30
0.86071
0.075
0.075
junk
shiner.
spp
egg
1
0.15000
1.897119985
0
junk
shiner.
spp
larvae
2
0.0100
4.6058
0
junk
shiner.
spp
juv
3
0.4600
0.7765
0
junk
shiner.
spp
age01
4
0.6900
0.3711
0
junk
shiner.
spp
age02
5
0.0100
4.6052
0
junk
shiner.
spp
age03
6
0.0100
4.6052
0
junk
smallmouth.
bass
egg
1
0.15000
1.897119985
0
junk
smallmouth.
bass
larvae
2
0.06721
2.7
0
junk
smallmouth.
bass
juv
3
0.64
0.446287103
0
junk
smallmouth.
bass
age01
4
0.42316
0.86
0
junk
smallmouth.
bass
age02
5
0.22466
1.1711
0.3220525
junk
smallmouth.
bass
age03
6
0.38188
0.755022
0.20763105
junk
smallmouth.
bass
age04
7
0.26251
1.049
0.288475
junk
smallmouth.
bass
age05
8
0.33107
0.867
0.238425
junk
smallmouth.
bass
age06
9
0.33107
0.867
0.238425
junk
smallmouth.
bass
age07
10
0.33107
0.867
0.238425
junk
smallmouth.
bass
age08
11
0.33107
0.867
0.238425
junk
smallmouth.
bass
age09
12
0.33107
0.867
0.238425
junk
rainbow.
smelt
egg
1
0.00001
11.51
0
junk
rainbow.
smelt
larvae
2
0.00409
5.5
0
junk
rainbow.
smelt
juv
3
0.40000000
0.916290732
0
junk
rainbow.
smelt
age01
4
0.67032
0.4
0
junk
rainbow.
smelt
age02
5
0.65051
0.4
0.03
junk
rainbow.
smelt
age03
6
0.65051
0.4
0.03
junk
rainbow.
smelt
age04
7
0.65051
0.4
0.03
junk
rainbow.
smelt
age05
8
0.65051
0.4
0.03
junk
rainbow.
smelt
age06
9
0.65051
0.4
0.03
junk
spotted.
sucker
egg
1
0.16629
1.794
0
junk
spotted.
sucker
larvae
2
0.06017
2.8106
0
junk
spotted.
sucker
juv
3
0.05003
2.9952
0
junk
spotted.
sucker
age01
4
0.57839
0.5475
0
junk
spotted.
sucker
age02
5
0.57839
0.5475
0
junk
spotted.
sucker
age03
6
0.57839
0.5475
0
junk
spotted.
sucker
age04
7
0.57839
0.5475
0
junk
spotted.
sucker
age05
8
0.57839
0.5475
0
junk
spotted.
sucker
age06
9
0.57839
0.5475
0
junk
sucker.
spp
egg
1
0.12925
2.046
0
junk
sucker.
spp
larvae
2
0.07750
2.5575
0
junk
sucker.
spp
juv
3
0.09986
2.304
0
junk
sucker.
spp
age01
4
0.76071
0.2735
0
junk
sucker.
spp
age02
5
0.76071
0.2735
0
junk
sucker.
spp
age03
6
0.76071
0.2735
0
junk
sucker.
spp
age04
7
0.76071
0.2735
0
junk
sucker.
spp
age05
8
0.76071
0.2735
0
junk
sucker.
spp
age06
9
0.76071
0.2735
0
junk
sunfish
egg
1
0.18000
1.714798428
0
junk
sunfish
larvae
2
0.5033317
0.686505883
0
junk
sunfish
juv
3
0.5033317
0.686505883
0
junk
sunfish
age01
4
0.2
1.609437912
0
junk
sunfish
age02
5
0.2
1.609437912
0
junk
sunfish
age03
6
0.05
1.497866137
1.497866137
junk
sunfish
age04
7
0.05
1.497866137
1.497866137
junk
sunfish
age05
8
0.05
1.497866137
1.497866137
junk
sunfish
age06
9
0.05
1.497866137
1.497866137
junk
sunfish
age07
10
0.05
1.497866137
1.497866137
junk
sunfish
age08
11
0.05
1.497866137
1.497866137
junk
walleye
egg
1
0.35000
1.049822124
0
junk
walleye
larvae
2
0.02866
3.5522
0
junk
walleye
juv
3
0.14450
1.9345
0
junk
walleye
age01
4
0.65
0.430782916
0.00
junk
walleye
age02
5
0.65
0.160782916
0.27
junk
walleye
age03
6
0.65
0.160782916
0.27
junk
walleye
age04
7
0.65
0.160782916
0.27
junk
walleye
age05
8
0.65
0.160782916
0.27
junk
walleye
age06
9
0.65
0.160782916
0.27
junk
walleye
age07
10
0.65
0.160782916
0.27
junk
walleye
age08
11
0.65
0.160782916
0.27
junk
walleye
age09
12
0.65
0.160782916
0.27
junk
white.
bass
egg
1
0.15000
1.897119985
0
junk
white.
bass
larvae
2
0.01
4.605170186
0
junk
white.
bass
juv
3
0.25
1.386294361
0
junk
white.
bass
age01
4
0.65705
0.42
0
junk
white.
bass
age02
5
0.32628
0.42
0.7
junk
white.
bass
age03
6
0.32628
0.42
0.7
junk
white.
bass
age04
7
0.32628
0.42
0.7
junk
white.
bass
age05
8
0.32628
0.42
0.7
junk
white.
bass
age06
9
0.32628
0.42
0.7
junk
white.
bass
age07
10
0.32628
0.42
0.7
junk
white.
perch
egg
1
0.06370
2.753625
0
junk
white.
perch
larvae
2
0.00465
5.37088
0
junk
white.
perch
juv
3
0.18146
1.706699
0
junk
white.
perch
age01
4
0.50001
0.693135
0
junk
white.
perch
age02
5
0.50001
0.693135
0
junk
white.
perch
age03
6
0.50001
0.693135
0
junk
white.
perch
age04
7
0.50202
0.68912
0
junk
white.
perch
age05
8
0.20648
1.57753
0
junk
white.
perch
age06
9
0.21494
1.53738
0
junk
white.
perch
age07
10
0.22679
1.483725
0
junk
white.
perch
age08
11
0.23241
1.45927
0
junk
white.
perch
age09
12
0.23241
1.45927
0
junk
white.
perch
age10
13
0.23241
1.45927
0
junk
whitefish
egg
1
0.15000
1.897119985
0
junk
whitefish
larvae
2
0.00027
8.2
0
junk
whitefish
juv
3
0.77880
0.25
0
junk
whitefish
age01
4
0.28737
0.25
0.997
junk
whitefish
age02
5
0.28737
0.25
0.997
junk
whitefish
age03
6
0.28737
0.25
0.997
junk
whitefish
age04
7
0.28737
0.25
0.997
junk
whitefish
age05
8
0.28737
0.25
0.997
junk
whitefish
age06
9
0.28737
0.25
0.997
junk
whitefish
age07
10
0.28737
0.25
0.997
junk
whitefish
age08
11
0.28737
0.25
0.997
junk
whitefish
age09
12
0.28737
0.25
0.997
junk
whitefish
age10
13
0.28737
0.25
0.997
junk
whitefish
age11
14
0.28737
0.25
0.997
junk
whitefish
age12
15
0.28737
0.25
0.997
junk
whitefish
age13
16
0.28737
0.25
0.997
junk
whitefish
age14
17
0.28737
0.25
0.997
junk
whitefish
age15
18
0.28737
0.25
0.997
junk
whitefish
age16
19
0.28737
0.25
0.997
junk
yellow.
perch
egg
1
0.06370
2.753625
0
junk
yellow.
perch
larvae
2
0.02849
3.5582
0
junk
yellow.
perch
juv
3
0.08000
2.5257
0
junk
yellow.
perch
age01
4
0.69698
0.361
0
junk
yellow.
perch
age02
5
0.77997
0.2485
0
junk
yellow.
perch
age03
6
0.29999
0.844
0.36
junk
yellow.
perch
age04
7
0.29999
0.844
0.36
junk
yellow.
perch
age05
8
0.29999
0.844
0.36
junk
yellow.
perch
age06
9
0.29999
0.844
0.36
junk
non.
ris.
forage
egg
1
0.35204
1.044
0
junk
non.
ris.
forage
larvae
2
0.00045
7.70000000
0
junk
non.
ris.
forage
juv
3
0.27527
1.29000000
0
junk
non.
ris.
forage
age01
4
0.19706
1.62425
0
junk
non.
ris.
forage
age02
5
0.19706
1.62425
0
junk
non.
ris.
forage
age03
6
0.19706
1.62425
0
junk
non.
ris.
rec
egg
1
0.12500000
2.079441542
0
junk
non.
ris.
rec
larvae
2
0.00331649
5.708847403
0
junk
non.
ris.
rec
juv
3
0.05758900
2.854423702
0
junk
non.
ris.
rec
age01
4
0.63763
0.45
0
junk
non.
ris.
rec
age02
5
0.28650
0.45
0.8
junk
non.
ris.
rec
age03
6
0.28650
0.45
0.8
junk
non.
ris.
rec
age04
7
0.28650
0.45
0.8
junk
non.
ris.
rec
age05
8
0.28650
0.45
0.8
junk
non.
ris.
rec
age06
9
0.28650
0.45
0.8
from
phase3
sculpin.
spp
egg
1
0.099958518
2.303
0
from
phase3
sculpin.
spp
larvae
2
0.022686165
3.7860
0
from
phase3
sculpin.
spp
juv
3
0.40011631
0.9160
0
from
phase3
sculpin.
spp
age01
4
0.398519041
0.4200
0.5
from
phase3
sculpin.
spp
age02
5
0.398519041
0.4200
0.5
from
phase3
sculpin.
spp
age03
6
0.398519041
0.4200
0.5
from
phase3
bullhead.
spp
egg
1
0.15000
1.897119985
0
from
phase3
bullhead.
spp
larvae
2
0.01
4.605170186
0
from
phase3
bullhead.
spp
juv
3
0.25
1.386294361
0
from
phase3
bullhead.
spp
age01
4
0.64
0.446287103
0
from
phase3
bullhead.
spp
age02
5
0.64
0.223143551
0.223143551
from
phase3
bullhead.
spp
age03
6
0.64
0.223143551
0.223143551
from
phase3
bullhead.
spp
age04
7
0.64
0.223143551
0.223143551
from
phase3
bullhead.
spp
age05
8
0.64
0.223143551
0.223143551
from
phase3
bullhead.
spp
age06
9
0.64
0.223143551
0.223143551
from
phase3
bullhead.
spp
age07
10
0.64
0.223143551
0.223143551
from
phase3
bullhead.
spp
age08
11
0.64
0.223143551
0.223143551
from
phase3
bullhead.
spp
age09
12
0.64
0.223143551
0.223143551
from
phase3
burbot
egg
1
0.15000
1.897119985
0
from
phase3
burbot
larvae
2
0.000796821
7.134880127
0
from
phase3
burbot
juv
3
0.4
0.916290732
0
from
phase3
burbot
age01
4
0.57
0.562118918
0
from
phase3
burbot
age02
5
0.57
0.562118918
0
from
phase3
burbot
age03
6
0.57
0.562118918
0
from
phase3
burbot
age04
7
0.57
0.562118918
0
from
phase3
burbot
age05
8
0.57
0.562118918
0
from
phase3
burbot
age06
9
0.57
0.562118918
0
from
phase3
burbot
age07
10
0.57
0.562118918
0
from
phase3
burbot
age08
11
0.57
0.562118918
0
from
phase3
burbot
age09
12
0.57
0.562118918
0
from
phase3
burbot
age10
13
0.57
0.562118918
0
from
phase3
herrings
egg
1
0.1
2.3026
0
from
phase3
herrings
larvae
2
0.01
4.6052
0
from
phase3
herrings
juv
3
0.5
0.6931
0
from
phase3
herrings
age01
4
0.623
0.4732
0
from
phase3
herrings
age02
5
0.6225
0.4740
0
from
phase3
herrings
age03
6
0.6225
0.4740
0
from
phase3
herrings
age04
7
0.62249
0.4740
0
from
phase3
herrings
age05
8
0.622452
0.4741
0
from
phase3
herrings
age06
9
0.62272
0.4737
0
from
phase3
herrings
age07
10
0.622503
0.4740
0
from
phase3
herrings
age08
11
0.62246
0.4741
0
from
phase3
herrings
age09
12
0.62246
0.4741
0
from
phase3
herrings
age10
13
0.62246
0.4741
0
from
phase3
herrings
age11
14
0.62246
0.4741
0
from
phase3
chinook.
salmon
egg
1
0.1
2.3026
0
from
phase3
chinook.
salmon
larvae
2
0.006479153
5.0392
0
from
phase3
chinook.
salmon
juv
3
0.4
0.9163
0
from
phase3
chinook.
salmon
age01
4
0.852143789
0.16
0
from
phase3
chinook.
salmon
age02
5
0.852143789
0.16
0
from
phase3
chinook.
salmon
age03
6
0.852143789
0.16
0
from
phase3
chinook.
salmon
age04
7
0.852143789
0.16
0
from
phase3
chinook.
salmon
age05
8
0.852143789
0.16
0
from
phase3
other.
forage
egg
1
0.35204
1.044
0
from
phase3
other.
forage
larvae
2
0.00045
7.70000000
0
from
phase3
other.
forage
juv
3
0.27527
1.29000000
0
from
phase3
other.
forage
age01
4
0.19706
1.62425
0
from
phase3
other.
forage
age02
5
0.19706
1.62425
0
from
phase3
other.
forage
age03
6
0.19706
1.62425
0
from
phase3
hogchoker
egg
1
0.106
2.244316185
0
from
phase3
hogchoker
larvae
2
0.00119
6.73079203
0
from
phase3
hogchoker
juv
3
0.40000
0.916290732
0
from
phase3
hogchoker
age01
4
0.778800783
0.25
0
from
phase3
hogchoker
age02
5
0.778800783
0.25
0
from
phase3
hogchoker
age03
6
0.778800783
0.25
0
from
phase3
hogchoker
age04
7
0.778800783
0.25
0
from
phase3
hogchoker
age05
8
0.778800783
0.25
0
from
phase3
hogchoker
age06
9
0.778800783
0.25
0
from
phase3
other.
rec
egg
1
0.12500000
2.079441542
0
from
phase3
other.
rec
larvae
2
0.00331649
5.708847403
0
from
phase3
other.
rec
juv
3
0.05758900
2.854423702
0
from
phase3
other.
rec
age01
4
0.63763
0.45
0
from
phase3
other.
rec
age02
5
0.28650
0.45
0.8
from
phase3
other.
rec
age03
6
0.28650
0.45
0.8
from
phase3
other.
rec
age04
7
0.28650
0.45
0.8
from
phase3
other.
rec
age05
8
0.28650
0.45
0.8
from
phase3
other.
rec
age06
9
0.28650
0.45
0.8
from
phase3
other.
rec.
com
egg
1
0.12500000
2.079441542
0
from
phase3
other.
rec.
com
ysl
2
0.05758900
2.854423702
0
from
phase3
other.
rec.
com
pysl
3
0.05758900
2.854423702
0
from
phase3
other.
rec.
com
juv1
4
0.239977082
1.427211851
0
from
phase3
other.
rec.
com
juv2
5
0.239977082
1.427211851
0
from
phase3
other.
rec.
com
age01
6
0.63762815
0.45
0
from
phase3
other.
rec.
com
age02
7
0.28650480
0.45
0.8
from
phase3
other.
rec.
com
age03
8
0.28650480
0.45
0.8
from
phase3
other.
rec.
com
age04
9
0.28650480
0.45
0.8
from
phase3
other.
rec.
com
age05
10
0.28650480
0.45
0.8
from
phase3
other.
rec.
com
age06
11
0.28650480
0.45
0.8
from
phase3
salmon
egg
1
0.1
2.3026
0
from
phase3
salmon
larvae
2
0.006479153
5.0392
0
from
phase3
salmon
juv
3
0.4
0.9163
0
from
phase3
salmon
age01
4
0.726149037
0.16
0.16
from
phase3
salmon
age02
5
0.726149037
0.16
0.16
from
phase3
salmon
age03
6
0.726149037
0.16
0.16
from
phase3
salmon
age04
7
0.726149037
0.16
0.16
from
phase3
salmon
age05
8
0.726149037
0.16
0.16
from
phase3
silversides
egg
1
0.512
0.6694
0
from
phase3
silversides
larvae
2
0.000340
7.9868
0
from
phase3
silversides
juv
3
0.65704682
0.42
0
from
phase3
silversides
age01
4
0.65704682
0.42
0
from
phase3
silversides
age02
5
0.65704682
0.42
0
from
phase3
silversides
age03
6
0.65704682
0.42
0
from
phase3
silversides
age04
7
0.65704682
0.42
0
from
phase3
silversides
age05
8
0.65704682
0.42
0
from
phase3
silversides
age06
9
0.65704682
0.42
0
from
phase3
silversides
age07
10
0.65704682
0.42
0
from
phase3
silversides
age08
11
0.65704682
0.42
0
from
phase3
silversides
age09
12
0.65704682
0.42
0
from
phase3
silversides
age10
13
0.65704682
0.42
0
from
phase3
silversides
age11
14
0.65704682
0.42
0
from
phase3
smelts
egg
1
0.05522
2.8964
0
from
phase3
smelts
larvae
2
0.000340
7.9868
0
from
phase3
smelts
juv
3
0.410655753
0.74
0.15
from
phase3
smelts
age01
4
0.410655753
0.74
0.15
from
phase3
smelts
age02
5
0.410655753
0.74
0.15
from
phase3
smelts
age03
6
0.410655753
0.74
0.15
from
phase3
smelts
age04
7
0.410655753
0.74
0.15
from
phase3
smelts
age05
8
0.410655753
0.74
0.15
from
phase3
threespine.
sticklebegg
1
0.7500
0.2877
0
from
phase3
threespine.
stickleblarvae
2
0.1200
2.1203
0
from
phase3
threespine.
sticklebjuv
3
0.1818
1.7048
0
from
phase3
threespine.
sticklebage01
4
0.2420
1.4188
0
from
phase3
threespine.
sticklebage02
5
0.2420
1.4188
0
from
phase3
threespine.
sticklebage03
6
0.2420
1.4188
0
from
phase3
menhaden.
spp
egg
1
0.12500000
2.079441542
0
from
phase3
menhaden.
spp
larvae
2
0.00331649
5.708847403
0
from
phase3
menhaden.
spp
juv
3
0.05758900
2.854423702
0
from
phase3
menhaden.
spp
age01
4
0.637628152
0.45
0
from
phase3
menhaden.
spp
age02
5
0.286504797
0.45
0.8
from
phase3
menhaden.
spp
age03
6
0.286504797
0.45
0.8
from
phase3
menhaden.
spp
age04
7
0.286504797
0.45
0.8
from
phase3
menhaden.
spp
age05
8
0.286504797
0.45
0.8
from
phase3
menhaden.
spp
age06
9
0.286504797
0.45
0.8
from
phase3
pallid.
sturgeon
egg
1
0.10000
2.302585093
0
from
phase3
pallid.
sturgeon
larvae
2
0.04000
3.218875825
0
from
phase3
pallid.
sturgeon
juv
3
0.40000
0.916290732
0
from
phase3
pallid.
sturgeon
age01
4
0.6000
0.5108
0
from
phase3
pallid.
sturgeon
age02
5
0.7000
0.3567
0
from
phase3
pallid.
sturgeon
age03
6
0.8000
0.2231
0
from
phase3
pallid.
sturgeon
age04
7
0.7000
0.3567
0
from
phase3
pallid.
sturgeon
age05
8
0.6000
0.5108
0
from
phase3
pallid.
sturgeon
age06
9
0.8000
0.2231
0
from
phase3
pallid.
sturgeon
age07
10
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age08
11
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age09
12
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age10
13
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age11
14
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age12
15
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age13
16
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age14
17
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age15
18
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age16
19
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age17
20
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age18
21
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age19
22
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age20
23
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age21
24
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age22
25
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age23
26
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age24
27
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age25
28
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age26
29
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age27
30
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age28
31
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age29
32
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age30
33
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age31
34
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age32
35
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age33
36
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age34
37
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age35
38
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age36
39
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age37
40
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age38
41
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age39
42
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age40
43
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age41
44
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age42
45
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age43
46
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age44
47
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age45
48
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age46
49
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age47
50
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age48
51
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age49
52
0.9000
0.1054
0
from
phase3
pallid.
sturgeon
age50
53
0.9000
0.1054
0
from
phase3
sturgeon.
spp
egg
1
0.10000
2.302585093
0
from
phase3
sturgeon.
spp
larvae
2
0.04000
3.218875825
0
from
phase3
sturgeon.
spp
juv
3
0.40000
0.916290732
0
from
phase3
sturgeon.
spp
age01
4
0.6000
0.4608
0.05
from
phase3
sturgeon.
spp
age02
5
0.7000
0.3067
0.05
from
phase3
sturgeon.
spp
age03
6
0.8000
0.1731
0.05
from
phase3
sturgeon.
spp
age04
7
0.7000
0.3067
0.05
from
phase3
sturgeon.
spp
age05
8
0.6000
0.4608
0.05
from
phase3
sturgeon.
spp
age06
9
0.8000
0.1731
0.05
from
phase3
sturgeon.
spp
age07
10
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age08
11
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age09
12
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age10
13
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age11
14
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age12
15
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age13
16
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age14
17
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age15
18
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age16
19
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age17
20
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age18
21
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age19
22
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age20
23
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age21
24
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age22
25
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age23
26
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age24
27
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age25
28
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age26
29
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age27
30
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age28
31
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age29
32
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age30
33
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age31
34
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age32
35
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age33
36
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age34
37
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age35
38
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age36
39
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age37
40
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age38
41
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age39
42
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age40
43
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age41
44
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age42
45
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age43
46
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age44
47
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age45
48
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age46
49
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age47
50
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age48
51
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age49
52
0.9000
0.0554
0.05
from
phase3
sturgeon.
spp
age50
53
0.9000
0.0554
0.05
from
phase3
rec.
sea.
basses
egg
1
0.75
0.287682072
0
from
phase3
rec.
sea.
basses
larvae
2
0.3679
1.0000
0
from
phase3
rec.
sea.
basses
juv
3
0.826959134
0.19
0
from
phase3
rec.
sea.
basses
age01
4
0.826959134
0.19
0
from
phase3
rec.
sea.
basses
age02
5
0.826959134
0.19
0
from
phase3
rec.
sea.
basses
age03
6
0.826959134
0.19
0
from
phase3
rec.
sea.
basses
age04
7
0.826959134
0.19
0
from
phase3
rec.
sea.
basses
age05
8
0.639543908
0.19
0.257
from
phase3
rec.
sea.
basses
age06
9
0.639543908
0.19
0.257
from
phase3
rec.
sea.
basses
age07
10
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age08
11
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age09
12
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age10
13
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age11
14
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age12
15
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age13
16
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age14
17
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age15
18
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age16
19
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age17
20
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age18
21
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age19
22
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age20
23
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age21
24
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age22
25
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age23
26
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age24
27
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age25
28
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age26
29
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age27
30
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age28
31
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age29
32
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age30
33
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age31
34
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age32
35
0.580421915
0.287
0.257
from
phase3
rec.
sea.
basses
age33
36
0.580421915
0.287
0.257
fraction.
vulnerable
notes.
survival.
rate
notes.
nat.
mort
notes.
fish.
mort
tes.
fraction.
vulnerableoriginal.
source
­
999
dummy
dummy
dummy
dummy
dummy
0culated
using
Se
=
exp
(­(
m+
f))
[
21960];
lake
Michigan
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
[
21960];
lake
Michigan
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
d
to
be
the
same
as
larvae.
data
for
the
Great
Lakesta
for
the
Great
Lakes
.
0culated
using
Se
=
exp
(­(
m+
f))
[
21960];
lake
Michigan
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
[
21960];
lake
Michigan
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
[
21960];
lake
Michigan
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
[
21960];
lake
Michigan
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
[
21960];
lake
Michigan
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
[
21960];
lake
Michigan
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
[
21960];
lake
Michigan
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0other
species
in
this
ecosystem
Calculated
using
Se
=
exp
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
wh.
sammis
0age0*
Sage0­
age1*
Sage1­
age2
Calculated
using
Se
=
exp
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
wh.
sammis
0age0*
Sage0­
age1*
Sage1­
age2
Calculated
using
Se
=
exp
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
wh.
sammis
0Clear
Lk.
And
Folsom
Lake,
CA
Calculated
using
Se
=
expAssumed
to
enter
fishery
enter
fishery
at
age02
wh.
sammis
0.5Clear
Lk.
And
Folsom
Lake,
CA+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
wh.
sammis
1Clear
Lk.
And
Folsom
Lake,
CA+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
wh.
sammis
1Clear
Lk.
And
Folsom
Lake,
CA+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
wh.
sammis
1Clear
Lk.
And
Folsom
Lake,
CA+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
wh.
sammis
1Clear
Lk.
And
Folsom
Lake,
CA+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
wh.
sammis
1Clear
Lk.
And
Folsom
Lake,
CA+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
wh.
sammis
1Clear
Lk.
And
Folsom
Lake,
CA+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
wh.
sammis
1Clear
Lk.
And
Folsom
Lake,
CA+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
wh.
sammis
0culated
using
Se
=
exp
(­(
m+
f))
Ch/
app­
a.
pdf
using
37
days
Assumed
to
be
0enter
fishery
at
age02
wh.
sammis
0culated
using
Se
=
exp
(­(
m+
f))
Ch/
app­
a.
pdf
using
10
days
Assumed
to
be
0enter
fishery
at
age02
wh.
sammis
0culated
using
Se
=
exp
(­(
m+
f))
ports/
Env16­
Ch/
app­
a.
pdf
Assumed
to
be
0enter
fishery
at
age02
wh.
sammis
0culated
using
Se
=
exp
(­(
m+
f))
o
be
fish.
mort,
half
nat.
mort
be
fish.
mort,
half
nat.
mort
enter
fishery
at
age02
wh.
sammis
0.5culated
using
Se
=
exp
(­(
m+
f))
o
be
fish.
mort,
half
nat.
mort
be
fish.
mort,
half
nat.
mort
enter
fishery
at
age02
wh.
sammis
1culated
using
Se
=
exp
(­(
m+
f))
o
be
fish.
mort,
half
nat.
mort
be
fish.
mort,
half
nat.
mort
enter
fishery
at
age02
wh.
sammis
1culated
using
Se
=
exp
(­(
m+
f))
o
be
fish.
mort,
half
nat.
mort
be
fish.
mort,
half
nat.
mort
enter
fishery
at
age02
wh.
sammis
1culated
using
Se
=
exp
(­(
m+
f))
o
be
fish.
mort,
half
nat.
mort
be
fish.
mort,
half
nat.
mort
enter
fishery
at
age02
wh.
sammis
1culated
using
Se
=
exp
(­(
m+
f))
o
be
fish.
mort,
half
nat.
mort
be
fish.
mort,
half
nat.
mort
enter
fishery
at
age02
wh.
sammis
1culated
using
Se
=
exp
(­(
m+
f))
o
be
fish.
mort,
half
nat.
mort
be
fish.
mort,
half
nat.
mort
enter
fishery
at
age02
wh.
sammis
1culated
using
Se
=
exp
(­(
m+
f))
o
be
fish.
mort,
half
nat.
mort
be
fish.
mort,
half
nat.
mort
enter
fishery
at
age02
wh.
sammis
1culated
using
Se
=
exp
(­(
m+
f))
o
be
fish.
mort,
half
nat.
mort
be
fish.
mort,
half
nat.
mort
enter
fishery
at
age02
wh.
sammis
0culated
using
Se
=
exp
(­(
m+
f))
Ch/
app­
a.
pdf
using
30
days
Assumed
to
be
0enter
fishery
at
age02
monroe
0culated
using
Se
=
exp
(­(
m+
f))
Ch/
app­
a.
pdf
using
10
days
Assumed
to
be
0enter
fishery
at
age02
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ports/
Env16­
Ch/
app­
a.
pdf
Assumed
to
be
0enter
fishery
at
age02
monroe
0culated
using
Se
=
exp
(­(
m+
f))
er,
K.
D.,
1950
/
5
lakes,
IL
Assumed
to
be
0enter
fishery
at
age02
monroe
0
S536;
as
cited
in
Carlander,
KCalculated
using
Se
=
expAssumed
to
be
0
Assumed
to
enter
fismonroe
0.5
Calculated
using
Se
=
exp
(­(
mMult.
refs;
as
cited
in
Carlamult.
refs;
as
cited
in
CaAssumed
to
enter
fismonroe
1culated
using
Se
=
exp
(­(
m+
f))
lf
mortality
nat.,
half
fishing
mortality
nat.,
half
fishingenter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
lf
mortality
nat.,
half
fishing
mortality
nat.,
half
fishingenter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
lf
mortality
nat.,
half
fishing
mortality
nat.,
half
fishingenter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
lf
mortality
nat.,
half
fishing
mortality
nat.,
half
fishingenter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
lf
mortality
nat.,
half
fishing
mortality
nat.,
half
fishingenter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
lf
mortality
nat.,
half
fishing
mortality
nat.,
half
fishingenter
fishery
at
age02
monroe
0other
species
in
this
ecosystemted
using
Se
=
exp
(­(
m+
f))
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0t
to
get
survival
larvae
and
age0ted
using
Se
=
exp
(­(
m+
f))
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0t
to
get
survival
larvae
and
age1ted
using
Se
=
exp
(­(
m+
f))
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
2001.
Mortality
at
11.7
cm.
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
2001.
Mortality
at
11.7
cm.
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
2001.
Mortality
at
11.7
cm.
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0other
species
in
this
ecosystem
Calculated
using
Se
=
exp
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
wh.
sammis
0age0*
Sage0­
age1*
Sage1­
age2
Calculated
using
Se
=
exp
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
wh.
sammis
0age0*
Sage0­
age1*
Sage1­
age2
Calculated
using
Se
=
exp
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
wh.
sammis
0Clear
Lk.
And
Folsom
Lake,
CA
Calculated
using
Se
=
expAssumed
to
enter
fishery
enter
fishery
at
age02
wh.
sammis
0.5Clear
Lk.
And
Folsom
Lake,
CA+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
wh.
sammis
1Clear
Lk.
And
Folsom
Lake,
CA+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
wh.
sammis
1Clear
Lk.
And
Folsom
Lake,
CA+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
wh.
sammis
1Clear
Lk.
And
Folsom
Lake,
CA+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
wh.
sammis
1Clear
Lk.
And
Folsom
Lake,
CA+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
wh.
sammis
0other
species
in
this
ecosystemted
using
Se
=
exp
(­(
m+
f))
to
enter
fishery
at
age02enter
fishery
at
age02
monroe
0age0*
Sage0­
age1*
Sage1­
age2ted
using
Se
=
exp
(­(
m+
f))
to
enter
fishery
at
age02enter
fishery
at
age02
monroe
0age0*
Sage0­
age1*
Sage1­
age2ted
using
Se
=
exp
(­(
m+
f))
to
enter
fishery
at
age02enter
fishery
at
age02
monroe
0Clear
Lk.
And
Folsom
Lake,
CA
Calculated
using
Se
=
expAssumed
to
enter
fishery
enter
fishery
at
age02
monroe
0.5Clear
Lk.
And
Folsom
Lake,
CA+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
monroe
1Clear
Lk.
And
Folsom
Lake,
CA+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
monroe
1Clear
Lk.
And
Folsom
Lake,
CA+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
monroe
1Clear
Lk.
And
Folsom
Lake,
CA+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
monroe
1Clear
Lk.
And
Folsom
Lake,
CA+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
monroe
1Clear
Lk.
And
Folsom
Lake,
CA+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
monroe
1Clear
Lk.
And
Folsom
Lake,
CA+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
monroe
1Clear
Lk.
And
Folsom
Lake,
CA+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
enter
fishery
at
age02
monroe
0other
species
in
this
ecosystemys
at
6.1
degrees
C
(
F&
P))
to
enter
fishery
at
age02enter
fishery
at
age02
monroe
003187)
divided
by
juv.
survival.
ys
at
6.1
degrees
C
(
F&
P))
to
enter
fishery
at
age02enter
fishery
at
age02
monroe
0
Assumed
(
D.
Cacela).
ys
at
6.1
degrees
C
(
F&
P))
to
enter
fishery
at
age02enter
fishery
at
age02
.
0congress/
1998/
BURBINT.
PDFted
using
Se
=
exp
(­(
m+
f))
ess/
1998/
BURBINT.
PDFenter
fishery
at
age02
monroe
0congress/
1998/
BURBINT.
PDFted
using
Se
=
exp
(­(
m+
f))
ess/
1998/
BURBINT.
PDFenter
fishery
at
age02
monroe
0congress/
1998/
BURBINT.
PDFted
using
Se
=
exp
(­(
m+
f))
ess/
1998/
BURBINT.
PDFenter
fishery
at
age02
monroe
0congress/
1998/
BURBINT.
PDFted
using
Se
=
exp
(­(
m+
f))
ess/
1998/
BURBINT.
PDFenter
fishery
at
age02
monroe
0congress/
1998/
BURBINT.
PDFted
using
Se
=
exp
(­(
m+
f))
ess/
1998/
BURBINT.
PDFenter
fishery
at
age02
monroe
0congress/
1998/
BURBINT.
PDFted
using
Se
=
exp
(­(
m+
f))
ess/
1998/
BURBINT.
PDFenter
fishery
at
age02
monroe
0congress/
1998/
BURBINT.
PDFted
using
Se
=
exp
(­(
m+
f))
ess/
1998/
BURBINT.
PDFenter
fishery
at
age02
monroe
0congress/
1998/
BURBINT.
PDFted
using
Se
=
exp
(­(
m+
f))
ess/
1998/
BURBINT.
PDFenter
fishery
at
age02
monroe
0congress/
1998/
BURBINT.
PDFted
using
Se
=
exp
(­(
m+
f))
ess/
1998/
BURBINT.
PDFenter
fishery
at
age02
monroe
0congress/
1998/
BURBINT.
PDFted
using
Se
=
exp
(­(
m+
f))
ess/
1998/
BURBINT.
PDFenter
fishery
at
age02
monroe
0other
species
in
this
ecosystemted
using
Se
=
exp
(­(
m+
f))
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0age0*
Sage0­
age1*
Sage1­
age2ted
using
Se
=
exp
(­(
m+
f))
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0age0*
Sage0­
age1*
Sage1­
age2ted
using
Se
=
exp
(­(
m+
f))
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ina;
half
fish,
half
nat.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ina;
half
fish,
half
nat.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ina;
half
fish,
half
nat.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ina;
half
fish,
half
nat.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ina;
half
fish,
half
nat.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ina;
half
fish,
half
nat.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ina;
half
fish,
half
nat.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ina;
half
fish,
half
nat.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ina;
half
fish,
half
nat.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ina;
half
fish,
half
nat.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ina;
half
fish,
half
nat.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ina;
half
fish,
half
nat.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ina;
half
fish,
half
nat.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ina;
half
fish,
half
nat.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ina;
half
fish,
half
nat.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ina;
half
fish,
half
nat.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ina;
half
fish,
half
nat.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0other
species
in
this
ecosystemted
using
Se
=
exp
(­(
m+
f))
s
hake
(
Saila
et
al.,
1997)
fished
recreationally)
monroe
0age0*
Sage0­
age1*
Sage1­
age2ted
using
Se
=
exp
(­(
m+
f))
s
hake
(
Saila
et
al.,
1997)
fished
recreationally)
monroe
0age0*
Sage0­
age1*
Sage1­
age2ted
using
Se
=
exp
(­(
m+
f))
s
hake
(
Saila
et
al.,
1997)
fished
recreationally)
monroe
0.5ssumed
same
pct.
for
all
ages)
+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
fished
recreationally)
monroe
1ssumed
same
pct.
for
all
ages)
+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
fished
recreationally)
monroe
1ssumed
same
pct.
for
all
ages)
+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
fished
recreationally)
monroe
1ssumed
same
pct.
for
all
ages)
+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
fished
recreationally)
monroe
1ssumed
same
pct.
for
all
ages)
+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
fished
recreationally)
monroe
1ssumed
same
pct.
for
all
ages)
+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
fished
recreationally)
monroe
1ssumed
same
pct.
for
all
ages)
+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
fished
recreationally)
monroe
1ssumed
same
pct.
for
all
ages)
+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
fished
recreationally)
monroe
1ssumed
same
pct.
for
all
ages)
+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
fished
recreationally)
monroe
1ssumed
same
pct.
for
all
ages)
+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
fished
recreationally)
monroe
1ssumed
same
pct.
for
all
ages)
+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
fished
recreationally)
monroe
1ssumed
same
pct.
for
all
ages)
+
f));
half
nat.,
half
fish.
mort
f));
half
nat.,
half
fish.
mort
fished
recreationally)
monroe
0culated
using
Se
=
exp
(­(
m+
f))
Ch/
app­
a.
pdf
using
37
days
Assumed
to
be
0enter
fishery
at
age02
monroe
0culated
using
Se
=
exp
(­(
m+
f))
Ch/
app­
a.
pdf
using
10
days
Assumed
to
be
0enter
fishery
at
age02
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ports/
Env16­
Ch/
app­
a.
pdf
Env16­
Ch/
app­
a.
pdfenter
fishery
at
age02
monroe
0culated
using
Se
=
exp
(­(
m+
f))
o
be
fish.
mort,
half
nat.
mort
be
fish.
mort,
half
nat.
mort
enter
fishery
at
age02
monroe
0.5culated
using
Se
=
exp
(­(
m+
f))
o
be
fish.
mort,
half
nat.
mort
be
fish.
mort,
half
nat.
mort
enter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
o
be
fish.
mort,
half
nat.
mort
be
fish.
mort,
half
nat.
mort
enter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
o
be
fish.
mort,
half
nat.
mort
be
fish.
mort,
half
nat.
mort
enter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
o
be
fish.
mort,
half
nat.
mort
be
fish.
mort,
half
nat.
mort
enter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
o
be
fish.
mort,
half
nat.
mort
be
fish.
mort,
half
nat.
mort
enter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
o
be
fish.
mort,
half
nat.
mort
be
fish.
mort,
half
nat.
mort
enter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
o
be
fish.
mort,
half
nat.
mort
be
fish.
mort,
half
nat.
mort
enter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
o
be
fish.
mort,
half
nat.
mort
be
fish.
mort,
half
nat.
mort
enter
fishery
at
age02
monroe
0other
species
in
this
ecosystemted
using
Se
=
exp
(­(
m+
f))
data
for
the
Great
Lakesta
for
the
Great
Lakes
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
d
larvae:
[
26887];
Table
16
data
for
the
Great
Lakesta
for
the
Great
Lakes
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
[
26887];
Table
16
data
for
the
Great
Lakesta
for
the
Great
Lakes
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
[
26887];
Table
16
data
for
the
Great
Lakesta
for
the
Great
Lakes
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
[
26887];
Table
16
data
for
the
Great
Lakesta
for
the
Great
Lakes
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
umed
to
be
same
as
age02
data
for
the
Great
Lakesta
for
the
Great
Lakes
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
pp­
a.
pdf
assumed
10
daysorts/
Env16­
Ch/
app­
a.
pdf;
enter
fishery
at
age02
monroe
0culated
using
Se
=
exp
(­(
m+
f))
app­
a.
pdf
assumed
27daysorts/
Env16­
Ch/
app­
a.
pdf;
enter
fishery
at
age02
monroe
0
Calculated
using
Se
=
exp
(­(
mhttp://
www.
mvr.
usace.
armAssumed
to
enter
fisheryAssumed
to
enter
fismonroe
0
Calculated
using
Se
=
exp
(­(
mFroese,
R.
and
D.
Pauly
(
eAssumed
to
enter
fisheryAssumed
to
enter
fismonroe
0.5
Calculated
using
Se
=
exp
(­(
mFroese,
R.
and
D.
Pauly
(
eFroese,
R.
and
D.
PaulyAssumed
to
enter
fismonroe
1culated
using
Se
=
exp
(­(
m+
f))
8
Lm;
half
nat.,
half
fishing
Lm;
half
nat.,
half
fishingenter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
8
Lm;
half
nat.,
half
fishing
Lm;
half
nat.,
half
fishingenter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
8
Lm;
half
nat.,
half
fishing
Lm;
half
nat.,
half
fishingenter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
8
Lm;
half
nat.,
half
fishing
Lm;
half
nat.,
half
fishingenter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
8
Lm;
half
nat.,
half
fishing
Lm;
half
nat.,
half
fishingenter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
8
Lm;
half
nat.,
half
fishing
Lm;
half
nat.,
half
fishingenter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
8
Lm;
half
nat.,
half
fishing
Lm;
half
nat.,
half
fishingenter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
8
Lm;
half
nat.,
half
fishing
Lm;
half
nat.,
half
fishingenter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
8
Lm;
half
nat.,
half
fishing
Lm;
half
nat.,
half
fishingenter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
8
Lm;
half
nat.,
half
fishing
Lm;
half
nat.,
half
fishingenter
fishery
at
age02
monroe
0other
species
in
this
ecosystemted
using
Se
=
exp
(­(
m+
f))
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
[
26887];
Table
14
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
[
26887];
Table
14
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f)),
hlaf
nat.,
half
fishing.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f)),
hlaf
nat.,
half
fishing.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f)),
hlaf
nat.,
half
fishing.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f)),
hlaf
nat.,
half
fishing.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f)),
hlaf
nat.,
half
fishing.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f));
half
nat.,
half
fishing.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
Ch/
app­
a.
pdf
using
30
days
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
Ch/
app­
a.
pdf
using
30
days
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ports/
Env16­
Ch/
app­
a.
pdf
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ports/
Env16­
Ch/
app­
a.
pdf
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ports/
Env16­
Ch/
app­
a.
pdf
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ports/
Env16­
Ch/
app­
a.
pdf
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ports/
Env16­
Ch/
app­
a.
pdf
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ports/
Env16­
Ch/
app­
a.
pdf
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ports/
Env16­
Ch/
app­
a.
pdf
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ports/
Env16­
Ch/
app­
a.
pdf
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0other
species
in
this
ecosystemted
using
Se
=
exp
(­(
m+
f))
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0t
to
get
survival
larvae
and
age0ted
using
Se
=
exp
(­(
m+
f))
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0t
to
get
survival
larvae
and
age0ted
using
Se
=
exp
(­(
m+
f))
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
.
Accessed
June
20,
2001.
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
.
Accessed
June
20,
2001.
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
.
Accessed
June
20,
2001.
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
069,
pg362/
Fertile
eggs
in
lakested
using
Se
=
exp
(­(
m+
f))
d
not
earlier
than
age
10)
ot
earlier
than
age
10)
monroe
0t
to
get
survival
larvae
and
age0ted
using
Se
=
exp
(­(
m+
f))
d
not
earlier
than
age
10)
ot
earlier
than
age
10)
monroe
0t
to
get
survival
larvae
and
age0ted
using
Se
=
exp
(­(
m+
f))
d
not
earlier
than
age
10)
ot
earlier
than
age
10)
monroe
0culated
using
Se
=
exp
(­(
m+
f))
88.
Lake
St.
Claire­
Michigand
not
earlier
than
age
10)
ot
earlier
than
age
10)
monroe
0culated
using
Se
=
exp
(­(
m+
f))
88.
Lake
St.
Claire­
Michigand
not
earlier
than
age
10)
ot
earlier
than
age
10)
monroe
0culated
using
Se
=
exp
(­(
m+
f))
88.
Lake
St.
Claire­
Michigand
not
earlier
than
age
10)
ot
earlier
than
age
10)
monroe
0culated
using
Se
=
exp
(­(
m+
f))
88.
Lake
St.
Claire­
Michigand
not
earlier
than
age
10)
ot
earlier
than
age
10)
monroe
0culated
using
Se
=
exp
(­(
m+
f))
88.
Lake
St.
Claire­
Michigand
not
earlier
than
age
10)
ot
earlier
than
age
10)
monroe
0culated
using
Se
=
exp
(­(
m+
f))
88.
Lake
St.
Claire­
Michigand
not
earlier
than
age
10)
ot
earlier
than
age
10)
monroe
0culated
using
Se
=
exp
(­(
m+
f))
88.
Lake
St.
Claire­
Michigand
not
earlier
than
age
10)
ot
earlier
than
age
10)
monroe
0culated
using
Se
=
exp
(­(
m+
f))
88.
Lake
St.
Claire­
Michigand
not
earlier
than
age
10)
ot
earlier
than
age
10)
monroe
0culated
using
Se
=
exp
(­(
m+
f))
88.
Lake
St.
Claire­
Michigand
not
earlier
than
age
10)
ot
earlier
than
age
10)
monroe
0.5culated
using
Se
=
exp
(­(
m+
f))
half
nat.
mort,
half
fish.
mort
alf
nat.
mort,
half
fish.
mort
ot
earlier
than
age
10)
monroe
1culated
using
Se
=
exp
(­(
m+
f))
half
nat.
mort,
half
fish.
mort
alf
nat.
mort,
half
fish.
mort
ot
earlier
than
age
10)
monroe
1culated
using
Se
=
exp
(­(
m+
f))
half
nat.
mort,
half
fish.
mort
alf
nat.
mort,
half
fish.
mort
ot
earlier
than
age
10)
monroe
1culated
using
Se
=
exp
(­(
m+
f))
half
nat.
mort,
half
fish.
mort
alf
nat.
mort,
half
fish.
mort
ot
earlier
than
age
10)
monroe
1culated
using
Se
=
exp
(­(
m+
f))
half
nat.
mort,
half
fish.
mort
alf
nat.
mort,
half
fish.
mort
ot
earlier
than
age
10)
monroe
1culated
using
Se
=
exp
(­(
m+
f))
half
nat.
mort,
half
fish.
mort
alf
nat.
mort,
half
fish.
mort
ot
earlier
than
age
10)
monroe
1culated
using
Se
=
exp
(­(
m+
f))
half
nat.
mort,
half
fish.
mort
alf
nat.
mort,
half
fish.
mort
ot
earlier
than
age
10)
monroe
1culated
using
Se
=
exp
(­(
m+
f))
half
nat.
mort,
half
fish.
mort
alf
nat.
mort,
half
fish.
mort
ot
earlier
than
age
10)
monroe
1culated
using
Se
=
exp
(­(
m+
f))
half
nat.
mort,
half
fish.
mort
alf
nat.
mort,
half
fish.
mort
ot
earlier
than
age
10)
monroe
1culated
using
Se
=
exp
(­(
m+
f))
half
nat.
mort,
half
fish.
mort
alf
nat.
mort,
half
fish.
mort
ot
earlier
than
age
10)
monroe
1culated
using
Se
=
exp
(­(
m+
f))
half
nat.
mort,
half
fish.
mort
alf
nat.
mort,
half
fish.
mort
ot
earlier
than
age
10)
monroe
1culated
using
Se
=
exp
(­(
m+
f))
half
nat.
mort,
half
fish.
mort
alf
nat.
mort,
half
fish.
mort
ot
earlier
than
age
10)
monroe
1culated
using
Se
=
exp
(­(
m+
f))
half
nat.
mort,
half
fish.
mort
alf
nat.
mort,
half
fish.
mort
ot
earlier
than
age
10)
monroe
1culated
using
Se
=
exp
(­(
m+
f))
half
nat.
mort,
half
fish.
mort
alf
nat.
mort,
half
fish.
mort
ot
earlier
than
age
10)
monroe
1culated
using
Se
=
exp
(­(
m+
f))
half
nat.
mort,
half
fish.
mort
alf
nat.
mort,
half
fish.
mort
ot
earlier
than
age
10)
monroe
1culated
using
Se
=
exp
(­(
m+
f))
half
nat.
mort,
half
fish.
mort
alf
nat.
mort,
half
fish.
mort
ot
earlier
than
age
10)
monroe
1culated
using
Se
=
exp
(­(
m+
f))
half
nat.
mort,
half
fish.
mort
alf
nat.
mort,
half
fish.
mort
ot
earlier
than
age
10)
monroe
1culated
using
Se
=
exp
(­(
m+
f))
half
nat.
mort,
half
fish.
mort
alf
nat.
mort,
half
fish.
mort
ot
earlier
than
age
10)
monroe
0other
species
in
this
ecosystemted
using
Se
=
exp
(­(
m+
f))
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0calculated
using
s=
exp
(­(
m+
f))
d
larvae:
[
26887];
Table
16
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0calculated
using
s=
exp
(­(
m+
f))
ld
shiner.
[
26887];
Table
16
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0calculated
using
s=
exp
(­(
m+
f))
ld
shiner.
[
26887];
Table
16
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0calculated
using
s=
exp
(­(
m+
f))
ld
shiner.
[
26887];
Table
16
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0calculated
using
s=
exp
(­(
m+
f))
AGret
to
be
same
as
age02
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0,
pg.
186/
Little
Saline
Cr.,
MO
ted
using
Se
=
exp
(­(
m+
f))
to
enter
fishery
at
age02enter
fishery
at
age02
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ays
­
mortality
rate
for
eggs
to
enter
fishery
at
age02enter
fishery
at
age02
monroe
06/
unknown
ponds
(
fingerlings)
ted
using
Se
=
exp
(­(
m+
f))
to
enter
fishery
at
age02enter
fishery
at
age02
monroe
0culated
using
Se
=
exp
(­(
m+
f))
6/
Lake
Michigan:
­
ln(
0.42)
22%
=
27.5%
of
nat.
mort
enter
fishery
at
age02
monroe
0.5culated
using
Se
=
exp
(­(
m+
f))
77,
pg.
187/
Massie
C.,
OH
22%
=
27.5%
of
nat.
mort
enter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
77,
pg.
187/
Massie
C.,
OH
22%
=
27.5%
of
nat.
mort
enter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
77,
pg.
187/
Massie
C.,
OH
22%
=
27.5%
of
nat.
mort
enter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
77,
pg.
186/
Lake
Michigan
22%
=
27.5%
of
nat.
mort
enter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
77,
pg.
186/
Lake
Michigan
22%
=
27.5%
of
nat.
mort
enter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
77,
pg.
186/
Lake
Michigan
22%
=
27.5%
of
nat.
mort
enter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
77,
pg.
186/
Lake
Michigan
22%
=
27.5%
of
nat.
mort
enter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
77,
pg.
186/
Lake
Michigan
22%
=
27.5%
of
nat.
mort
enter
fishery
at
age02
monroe
0culated
using
Se
=
exp
(­(
m+
f))
[
21960]
[
21960]
enter
fishery
at
age02
monroe
0culated
using
Se
=
exp
(­(
m+
f))
[
21960]
[
21960]
enter
fishery
at
age02
monroe
0
Assumed
(
D.
Cacela).
ted
using
Se
=
exp
(­(
m+
f))
to
be
the
same
as
larvae.
enter
fishery
at
age02
.
0culated
using
Se
=
exp
(­(
m+
f))
[
21960]
[
21960]
enter
fishery
at
age02
monroe
0.5culated
using
Se
=
exp
(­(
m+
f))
[
21960]
[
21960]
enter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
[
21960]
[
21960]
enter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
[
21960]
[
21960]
enter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
[
21960]
[
21960]
enter
fishery
at
age02
monroe
1culated
using
Se
=
exp
(­(
m+
f))
[
21960]
[
21960]
enter
fishery
at
age02
monroe
0culated
using
Se
=
exp
(­(
m+
f))
Ch/
app­
a.
pdf
using
30
days
data
for
the
Great
Lakesta
for
the
Great
Lakes
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
Ch/
app­
a.
pdf
using
47
days
data
for
the
Great
Lakesta
for
the
Great
Lakes
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
ports/
Env16­
Ch/
app­
a.
pdf
data
for
the
Great
Lakesta
for
the
Great
Lakes
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
ports/
Env16­
Ch/
app­
a.
pdf
data
for
the
Great
Lakesta
for
the
Great
Lakes
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
ports/
Env16­
Ch/
app­
a.
pdf
data
for
the
Great
Lakesta
for
the
Great
Lakes
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
ports/
Env16­
Ch/
app­
a.
pdf
data
for
the
Great
Lakesta
for
the
Great
Lakes
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
ports/
Env16­
Ch/
app­
a.
pdf
data
for
the
Great
Lakesta
for
the
Great
Lakes
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
ports/
Env16­
Ch/
app­
a.
pdf
data
for
the
Great
Lakesta
for
the
Great
Lakes
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
ports/
Env16­
Ch/
app­
a.
pdf
data
for
the
Great
Lakesta
for
the
Great
Lakes
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
Ch/
app­
a.
pdf
using
20
days
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
Ch/
app­
a.
pdf
using
25days
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ports/
Env16­
Ch/
app­
a.
pdf
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
;
half
nat.
and
half
fish.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
;
half
nat.
and
half
fish.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
;
half
nat.
and
half
fish.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
;
half
nat.
and
half
fish.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
;
half
nat.
and
half
fish.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0culated
using
Se
=
exp
(­(
m+
f))
;
half
nat.
and
half
fish.
mort
data
for
the
Great
Lakesta
for
the
Great
Lakes
monroe
0n
Carlander,
K.
D.,
1977,
pg62/
ted
using
Se
=
exp
(­(
m+
f))
to
enter
fishery
at
age02
half
fish.
Half
nat.
mort
monroe
0
and
sqaure
for
larvae
and
age
0ted
using
Se
=
exp
(­(
m+
f))
to
enter
fishery
at
age02
half
fish.
Half
nat.
mort
monroe
0
and
sqaure
for
larvae
and
age
0ted
using
Se
=
exp
(­(
m+
f))
to
enter
fishery
at
age02
half
fish.
Half
nat.
mort
monroe
0
IN,
assumed
same
as
age
II­
III
ted
using
Se
=
exp
(­(
m+
f))
to
enter
fishery
at
age02
half
fish.
Half
nat.
mort
monroe
0arlander,
K.
D.,
1977,
pg61/
INted
using
Se
=
exp
(­(
m+
f))
to
enter
fishery
at
age02
half
fish.
Half
nat.
mort
monroe
0.5g61/
IN;
half
fish.
Half
nat.
mort
/
IN;
half
fish.
Half
nat.
mort
IN;
half
fish.
Half
nat.
mort
half
fish.
Half
nat.
mort
monroe
1g61/
IN;
half
fish.
Half
nat.
mort
/
IN;
half
fish.
Half
nat.
mort
IN;
half
fish.
Half
nat.
mort
half
fish.
Half
nat.
mort
monroe
1g61/
IN;
half
fish.
Half
nat.
mort
/
IN;
half
fish.
Half
nat.
mort
IN;
half
fish.
Half
nat.
mort
half
fish.
Half
nat.
mort
monroe
1g61/
IN;
half
fish.
Half
nat.
mort
/
IN;
half
fish.
Half
nat.
mort
IN;
half
fish.
Half
nat.
mort
half
fish.
Half
nat.
mort
monroe
1g61/
IN;
half
fish.
Half
nat.
mort
/
IN;
half
fish.
Half
nat.
mort
IN;
half
fish.
Half
nat.
mort
half
fish.
Half
nat.
mort
monroe
1g61/
IN;
half
fish.
Half
nat.
mort
/
IN;
half
fish.
Half
nat.
mort
IN;
half
fish.
Half
nat.
mort
half
fish.
Half
nat.
mort
monroe
0.285:
mean
31­
99
mortality
rateted
using
Se
=
exp
(­(
m+
f))
search/
reports/
2054rr.
pdf
enter
fishery
at
age02
monroe
0culated
using
Se
=
exp
(­(
m+
f))
eports/
Env16­
Ch/
app­
a.
pdf
search/
reports/
2054rr.
pdf
enter
fishery
at
age02
monroe
0culated
using
Se
=
exp
(­(
m+
f))
eports/
Env16­
Ch/
app­
a.
pdf
search/
reports/
2054rr.
pdf
enter
fishery
at
age02
monroe
0bra/
research/
reports/
2054rr.
pdf
ted
using
Se
=
exp
(­(
m+
f))
h/
reports/
2054rr.
pdfenter
fishery
at
age02
monroe
0.5bra/
research/
reports/
2054rr.
pdf
ted
using
Se
=
exp
(­(
m+
f))
search/
reports/
2054rr.
pdf
enter
fishery
at
age02
monroe
1bra/
research/
reports/
2054rr.
pdf
ted
using
Se
=
exp
(­(
m+
f))
search/
reports/
2054rr.
pdf
enter
fishery
at
age02
monroe
1bra/
research/
reports/
2054rr.
pdf
ted
using
Se
=
exp
(­(
m+
f))
search/
reports/
2054rr.
pdf
enter
fishery
at
age02
monroe
1bra/
research/
reports/
2054rr.
pdf
ted
using
Se
=
exp
(­(
m+
f))
search/
reports/
2054rr.
pdf
enter
fishery
at
age02
monroe
1bra/
research/
reports/
2054rr.
pdf
ted
using
Se
=
exp
(­(
m+
f))
search/
reports/
2054rr.
pdf
enter
fishery
at
age02
monroe
1bra/
research/
reports/
2054rr.
pdf
ted
using
Se
=
exp
(­(
m+
f))
search/
reports/
2054rr.
pdf
enter
fishery
at
age02
monroe
1bra/
research/
reports/
2054rr.
pdf
ted
using
Se
=
exp
(­(
m+
f))
search/
reports/
2054rr.
pdf
enter
fishery
at
age02
monroe
1bra/
research/
reports/
2054rr.
pdf
ted
using
Se
=
exp
(­(
m+
f))
search/
reports/
2054rr.
pdf
enter
fishery
at
age02
monroe
0other
species
in
this
ecosystemted
using
Se
=
exp
(­(
m+
f))
Appendix
Table
4[
28091]
ed
on
fishing
mortality
monroe
0age0*
Sage0­
age1*
Sage1­
age2ted
using
Se
=
exp
(­(
m+
f))
Appendix
Table
4[
28091]
ed
on
fishing
mortality
monroe
0age0*
Sage0­
age1*
Sage1­
age2ted
using
Se
=
exp
(­(
m+
f))
Appendix
Table
4[
28091]
ed
on
fishing
mortality
monroe
0culated
using
Se
=
exp
(­(
m+
f))
r
and
Lake
Whitney,
Texas.
Appendix
Table
4[
28091]
ed
on
fishing
mortality
monroe
0.5culated
using
Se
=
exp
(­(
m+
f))
r
and
Lake
Whitney,
Texas.
Appendix
Table
4[
28091]
ed
on
fishing
mortality
monroe
1culated
using
Se
=
exp
(­(
m+
f))
r
and
Lake
Whitney,
Texas.
Appendix
Table
4[
28091]
ed
on
fishing
mortality
monroe
1culated
using
Se
=
exp
(­(
m+
f))
r
and
Lake
Whitney,
Texas.
Appendix
Table
4[
28091]
ed
on
fishing
mortality
monroe
1culated
using
Se
=
exp
(­(
m+
f))
r
and
Lake
Whitney,
Texas.
Appendix
Table
4[
28091]
ed
on
fishing
mortality
monroe
1culated
using
Se
=
exp
(­(
m+
f))
r
and
Lake
Whitney,
Texas.
Appendix
Table
4[
28091]
ed
on
fishing
mortality
monroe
1culated
using
Se
=
exp
(­(
m+
f))
r
and
Lake
Whitney,
Texas.
Appendix
Table
4[
28091]
ed
on
fishing
mortality
monroe
0culated
using
Se
=
exp
(­(
m+
f))
];
appendix
F,
Attachment
Fappendix
F,
Attachment
Fendix
F,
Attachment
F
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
];
appendix
F,
Attachment
Fappendix
F,
Attachment
Fendix
F,
Attachment
F
.
0culated
using
Se
=
exp
(­(
m+
f))
];
appendix
F,
Attachment
Fappendix
F,
Attachment
Fendix
F,
Attachment
F
.
0culated
using
Se
=
exp
(­(
m+
f))
];
appendix
F,
Attachment
Fappendix
F,
Attachment
Fendix
F,
Attachment
F
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
];
appendix
F,
Attachment
Fappendix
F,
Attachment
Fendix
F,
Attachment
F
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
];
appendix
F,
Attachment
Fappendix
F,
Attachment
Fendix
F,
Attachment
F
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
];
appendix
F,
Attachment
Fappendix
F,
Attachment
Fendix
F,
Attachment
F
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
];
appendix
F,
Attachment
Fappendix
F,
Attachment
Fendix
F,
Attachment
F
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
];
appendix
F,
Attachment
Fappendix
F,
Attachment
Fendix
F,
Attachment
F
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
];
appendix
F,
Attachment
Fappendix
F,
Attachment
Fendix
F,
Attachment
F
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
];
appendix
F,
Attachment
Fappendix
F,
Attachment
Fendix
F,
Attachment
F
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
];
appendix
F,
Attachment
Fappendix
F,
Attachment
Fendix
F,
Attachment
F
jr.
whiting
0culated
using
Se
=
exp
(­(
m+
f))
];
appendix
F,
Attachment
Fappendix
F,
Attachment
Fendix
F,
Attachment
F
jr.
whiting
0other
species
in
this
ecosystemted
using
Se
=
exp
(­(
m+
f))
[
27012]
Lake
Erie
[
27012]
Lake
Erie
monroe
0culated
using
Se
=
exp
(­(
m+
f))
of
0.2
*
larval
duration
of
41
[
27012]
Lake
Erie
[
27012]
Lake
Erie
monroe
0culated
using
Se
=
exp
(­(
m+
f))
mortality
rate
=
0.25
(
22%).
[
27012]
Lake
Erie
[
27012]
Lake
Erie
monroe
0.5culated
using
Se
=
exp
(­(
m+
f))
mortality
rate
=
0.25
(
22%).
reational
mortality
(
0.456).
[
27012]
Lake
Erie
monroe
1culated
using
Se
=
exp
(­(
m+
f))
mortality
rate
=
0.25
(
22%).
reational
mortality
(
0.456).
[
27012]
Lake
Erie
monroe
1culated
using
Se
=
exp
(­(
m+
f))
mortality
rate
=
0.25
(
22%).
reational
mortality
(
0.456).
[
27012]
Lake
Erie
monroe
1culated
using
Se
=
exp
(­(
m+
f))
mortality
rate
=
0.25
(
22%).
reational
mortality
(
0.456).
[
27012]
Lake
Erie
monroe
1culated
using
Se
=
exp
(­(
m+
f))
mortality
rate
=
0.25
(
22%).
reational
mortality
(
0.456).
[
27012]
Lake
Erie
monroe
1culated
using
Se
=
exp
(­(
m+
f))
mortality
rate
=
0.25
(
22%).
reational
mortality
(
0.456).
[
27012]
Lake
Erie
monroe
1culated
using
Se
=
exp
(­(
m+
f))
mortality
rate
=
0.25
(
22%).
reational
mortality
(
0.456).
[
27012]
Lake
Erie
monroe
1culated
using
Se
=
exp
(­(
m+
f))
mortality
rate
=
0.25
(
22%).
reational
mortality
(
0.456).
[
27012]
Lake
Erie
monroe
1culated
using
Se
=
exp
(­(
m+
f))
mortality
rate
=
0.25
(
22%).
reational
mortality
(
0.456).
[
27012]
Lake
Erie
monroe
1culated
using
Se
=
exp
(­(
m+
f))
mortality
rate
=
0.25
(
22%).
reational
mortality
(
0.456).
[
27012]
Lake
Erie
monroe
1culated
using
Se
=
exp
(­(
m+
f))
mortality
rate
=
0.25
(
22%).
reational
mortality
(
0.456).
[
27012]
Lake
Erie
monroe
1culated
using
Se
=
exp
(­(
m+
f))
mortality
rate
=
0.25
(
22%).
reational
mortality
(
0.456).
[
27012]
Lake
Erie
monroe
1culated
using
Se
=
exp
(­(
m+
f))
mortality
rate
=
0.25
(
22%).
reational
mortality
(
0.456).
[
27012]
Lake
Erie
monroe
1culated
using
Se
=
exp
(­(
m+
f))
mortality
rate
=
0.25
(
22%).
reational
mortality
(
0.456).
[
27012]
Lake
Erie
monroe
1culated
using
Se
=
exp
(­(
m+
f))
mortality
rate
=
0.25
(
22%).
reational
mortality
(
0.456).
[
27012]
Lake
Erie
monroe
1culated
using
Se
=
exp
(­(
m+
f))
mortality
rate
=
0.25
(
22%).
reational
mortality
(
0.456).
[
27012]
Lake
Erie
monroe
0046];
appendix
F,
Attachment
F];
appendix
F,
Attachment
Fsearch/
reports/
2054rr.
pdf
assumed
by
AGret
monroe
0culated
using
Se
=
exp
(­(
m+
f))
ostlarvae
[
26887];
Table
12search/
reports/
2054rr.
pdf
assumed
by
AGret
monroe
0culated
using
Se
=
exp
(­(
m+
f))
[
26887];
Table
12search/
reports/
2054rr.
pdf
assumed
by
AGret
monroe
0culated
using
Se
=
exp
(­(
m+
f))
[
26887];
Table
12search/
reports/
2054rr.
pdf
assumed
by
AGret
monroe
0culated
using
Se
=
exp
(­(
m+
f))
[
26887];
Table
12search/
reports/
2054rr.
pdf
assumed
by
AGret
monroe
0.5culated
using
Se
=
exp
(­(
m+
f))
mortality
given
in
column
Fsearch/
reports/
2054rr.
pdf
assumed
by
AGret
monroe
1culated
using
Se
=
exp
(­(
m+
f))
mortality
given
in
column
Fsearch/
reports/
2054rr.
pdf
assumed
by
AGret
monroe
1culated
using
Se
=
exp
(­(
m+
f))
mortality
given
in
column
Fsearch/
reports/
2054rr.
pdf
assumed
by
AGret
monroe
1culated
using
Se
=
exp
(­(
m+
f))
mortality
given
in
column
Fsearch/
reports/
2054rr.
pdf
assumed
by
AGret
monroe
0culated
using
Se
=
exp
(­(
m+
f))
];
appendix
F;
Attachment
Fappendix
F;
Attachment
Fendix
F;
Attachment
F
0culated
using
Se
=
exp
(­(
m+
f))
];
appendix
F;
Attachment
Fappendix
F;
Attachment
Fendix
F;
Attachment
F
0culated
using
Se
=
exp
(­(
m+
f))
lculated
based
on
juv1­
juv4appendix
F;
Attachment
Fendix
F;
Attachment
F
0culated
using
Se
=
exp
(­(
m+
f))
];
appendix
F;
Attachment
Fappendix
F;
Attachment
Fendix
F;
Attachment
F
0culated
using
Se
=
exp
(­(
m+
f))
];
appendix
F;
Attachment
Fappendix
F;
Attachment
Fendix
F;
Attachment
F
0culated
using
Se
=
exp
(­(
m+
f))
];
appendix
F;
Attachment
Fappendix
F;
Attachment
Fendix
F;
Attachment
F
0);
#
25834;
p.
66/
Pilgrim
station
Calculated
using
Se
=
exp
in
et
al.;
1983)
(#
26382).
assumed
by
Agret
0
Calculated
based
on
Entergy
NCalculated
using
Se
=
exp
in
et
al.;
1983)
(#
26382).
pp.
4;
Attchm.
F;
p.
14
0
0.000191)
provided
by
Entergy
Calculated
using
Se
=
exp
in
et
al.;
1983)
(#
26382).
assumed
by
Agret
0culated
using
Se
=
exp
(­(
m+
f))
P.
HTM.
Accessed
3/
19/
01in
et
al.;
1983)
(#
26382).
assumed
by
Agret
0.5culated
using
Se
=
exp
(­(
m+
f))
P.
HTM.
Accessed
3/
19/
01in
et
al.;
1983)
(#
26382).
assumed
by
Agret
1culated
using
Se
=
exp
(­(
m+
f))
P.
HTM.
Accessed
3/
19/
01in
et
al.;
1983)
(#
26382).
assumed
by
Agret
1culated
using
Se
=
exp
(­(
m+
f))
P.
HTM.
Accessed
3/
19/
01in
et
al.;
1983)
(#
26382).
assumed
by
Agret
1culated
using
Se
=
exp
(­(
m+
f))
P.
HTM.
Accessed
3/
19/
01in
et
al.;
1983)
(#
26382).
assumed
by
Agret
1culated
using
Se
=
exp
(­(
m+
f))
P.
HTM.
Accessed
3/
19/
01in
et
al.;
1983)
(#
26382).
assumed
by
Agret
0.00
0
0
0.5
1
1
0
0
0
0
0.5
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0.5
1
1
1
1
0
0
0
0
0
0
0.5
1
1
1
1
0
0
0
0.5
1
1
1
1
0.00
0.00
0
0
0
0
0
0
0
0
0
0
0
0
0
0.00
0.5
1
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0.5
1
1
1
1
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0.5
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
0
0
0
0
0
0
0
0.5
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
1
species
alpha.
cm.
to.
gm
alpha.
mm.
to.
gm
beta.
mm.
to.
gm
notes
original.
source
dummy
­
999.00
­
999.00
­
999.00
dummy
dummy
alewife
.
1.0
1.0
Weights
are
given,
L:
W
=
1:
1
monroe
black.
bullhead
0.0101
0.0000087967
3.0600
Black
bullhead.
Froese,
R.
andwh.
sammis
black.
crappie
0.0118
0.0000101364
3.0660
Froese,
R.
and
D.
Pauly
(
eds.)
wh.
sammis
bluegill
0.007
0.0000043261
3.2090
Froese,
R.
and
D.
Pauly
(
eds.)
monroe
bluntnose.
minnow
0.0977
0.0004465752
2.3400
Froese,
R.
and
D.
Pauly
(
eds.)
monroe
brown.
bullhead
0.0087
0.0000074906
3.0650
Froese,
R.
and
D.
Pauly
(
eds.)
wh.
sammis
bullhead.
spp
0.0101
0.0000087967
3.0600
Black
bullhead.
Froese,
R.
andmonroe
burbot
.
0.000002084
3.208
Johnson
in
http://
www­
heb.
pacmonroe
carp
0.0116
0.0000109511
3.0250
Froese,
R.
and
D.
Pauly
(
eds.)
monroe
channel.
catfish
0.0123
0.0000136115
2.9560
Fishbase,
8/
1/
2003
(
Lake
Eriemonroe
crappie
0.0118
0.0000101364
3.0660
Black
crappie.
Froese,
R.
and
monroe
emerald.
shiner
0.0195000
0.0000363107
2.7300000
Fuchs,
1967.
[
27527]
(
was
Frojr.
whiting
freshwater.
drum
.
1.0
1.0
Weights
are
given,
L:
W
=
1:
1
monroe
gizzard.
shad
.
1.0
1.0
Weights
are
given,
L:
W
=
1:
1
monroe
golden.
redhorse
0.0132
0.0000139821
2.975
Golden
redhorse.
Froese,
R.
amonroe
logperch
0.007850
0.0000064844
3.0830
Assumed
to
be
similar
to
yellomonroe
muskellunge
0.0058
0.0000055902
3.016
Froese,
R.
and
D.
Pauly
(
eds.)
monroe
shiner.
spp
0.0195000
0.0000363107
2.7300000
Fuchs,
1967.
[
27527]
(
was
Frojr.
whiting
smallmouth.
bass
0.0206
0.0000249383
2.9170
Froese,
R.
and
D.
Pauly
(
eds.)
monroe
rainbow.
smelt
.
1.0
1.0
Weights
are
given,
L:
W
=
1:
1
brayton
spotted.
sucker
0.0077000
0.0000061304
3.0990000
River
carpsucker.
Froese,
R.
ajr.
whiting
sucker.
spp
0.0137
0.0000142141
2.984
Fishbase,
8/
1/
2003.
River
car.
sunfish
0.0061
0.0000033368
3.262
Froese,
R.
and
D.
Pauly
(
eds.)
monroe
walleye
0.0039
0.0000022965
3.23
Froese,
R.
and
D.
Pauly
(
eds.)
monroe
white.
bass
.
1.0
1.0
Weights
are
given,
L:
W
=
1:
1
monroe
white.
perch
.
1.0
1.0
Weights
are
given,
L:
W
=
1:
1
jr.
whiting
whitefish
0.0067
0.0000047214
3.152
Froese
and
Pauly
2001.
Lakemonroe
yellow.
perch
.
1.0
1.0
Weights
are
given,
L:
W
=
1:
1
monroe
non.
ris.
forage
.
1.0
1.0
Weights
are
given,
L:
W
=
1:
1
.
non.
ris.
rec
.
1.0
1.0
Weights
are
given,
L:
W
=
1:
1
.
egg.
diameter.
weight.
g
virtual.
egg.
lennotes.
egg.
diameter
­
999.00
­
999.00
­
999.00
dummy
1.035
0.000580523
0.000580523
Froese
&
Pauly,
2003.
avg.
of
min
&
max.
3
0.014137167
11.16158372
Scott
&
Crossman,
1973
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9/
html/
sp­
black­
bu
0.93
0.00042116
3.372157477
Marriner,
1971,
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9
1.04
0.000588977
4.623861972
Toetz,
1965,
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9
1
0.000523599
1.070364382
assumed
by
AGRET
1
0.000523599
3.997493098
assumed
by
AGRET
based
on
age0
size
3
0.014137167
11.16158372
Scott
&
Crossman,
1973
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9/
html/
sp­
black­
bu
1.1
0.00069691
6.12167122
Snyder
http://
www­
heb.
pac.
dfo­
mpo.
gc.
ca/
congress/
Burbot.
pdf
average
of
reported
range
1.8
0.003053628
6.432545384
Slastenenko,
1958;
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9/
3.6
0.024429024
12.61282154
Based
on
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9/
html/
sp­
channel­
catfish.
html
0.93
0.00042116
3.372157477
black.
crappie.
hMarriner,
1971,
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9
1.6
0.002144661
4.454886205
Based
on
sand
shiner.
Fishbase,
2003.
Accessed
8/
12/
2003.
1
0.000523599
0.000523599
http://
fwie.
fw.
vt.
edu/
TN/
TN00020h.
htm,
accessed
7/
31/
2003
0.75
0.000220893
0.000220893
Fishbase,
7/
31/
2003.
1
0.000523599
3.379731886
assumed
by
AGRET
1.31
0.001177098
5.403925165
logperch.
W164:
as
cited
in
Carlander,
K.
D.
1997,
p.
82/
average
of
10
eggs
2.54
0.008580247
11.38648942
as
cited
in
Carlander,
K.
D.
1969,
p.
362
1.6
0.002144661
4.454886205
Based
on
sand
shiner.
Fishbase,
2003.
Accessed
8/
12/
2003.
1.85
0.003315231
5.345941457
Scott
&
Crossman,
1973
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9
0.95
0.000448921
0.000448921
Froese
&
Pauly,
2003.
avg.
of
min
&
max.
1
0.000523599
4.200182081
assumed
by
AGRET
3
0.014137167
10.10582225
Fishbase,
7/
31/
2003.
Longnose
sucker.
1
0.000523599
4.710913012
http://
dlp.
cs.
berkeley.
edu/
kopec/
tr9/
html/
sp­
pumpkinseed.
html
1.75
0.002806162
9.031137714
Fishbase,
7/
31/
2003
0.7
0.000179594
0.000179594
http://
fwie.
fw.
vt.
edu/
TN/
TN00222h.
htm,
accessed
7/
31/
2003
.
0.000149625
0.000149625
Length
of
entrainable
and
impingeable
life
stages
from
PSEG,
Appendix
L,
11;
L­
W
Regr
2.75
0.010889218
11.66586233
[
27012]
average
of
length
at
extrusion
and
maximum
size
after
24
hrs
in
water.
.
.
.
.
0.000325
0.000325
Used
values
from
Atlantic
menhaden.
Able
&
Fahay
1998
and
USFWS
1978,
L­
W
relationship
for
early
0.000325
0.000325
Used
values
from
Atlantic
menhaden.
Able
&
Fahay
1998
and
USFWS
1978,
L­
W
relationship
for
early
­
bullhead.
html
­
bullhead.
html
nge
gression
based
on
arithmetic
average
of
coefficients
from
Horseman
&
Shirey,
1974.

rly
life
stages
calculated
from
PSE&
G
impingement,
1978­
98
rly
life
stages
calculated
from
PSE&
G
impingement,
1978­
98
species
stage
stage.
se
total.
len.
mm
weight.
g
weight.
lbs
notes.
maximum.
age
dummy
dummy
­
999
­
999
­
999
­
999
dummy
alewife
egg
1
0.00058
0.00058
.
.
alewife
larvae
2
0.0006
0.0006
.
.
alewife
juv
3
2.2
2.2
.
.
alewife
age01
4
7.24
7.24
0.030
.
alewife
age02
5
22.90
22.9
0.125
.
alewife
age03
6
34.67
34.67
0.254
.
alewife
age04
7
42.66
42.66
0.379
.
alewife
age05
8
48.98
48.98
0.485
.
alewife
age06
9
58.88
58.88
0.565
.
alewife
age07
10
67.61
67.61
0.625
.
black.
bullhead
egg
1
11.1616
0.014137167
.
.
black.
bullhead
larvae
2
20.00
.
.
.
black.
bullhead
juv
3
38.00
.
.
.
black.
bullhead
age01
4
112.00
.
.
.
black.
bullhead
age02
5
145.00
.
.
.
black.
bullhead
age03
6
173.00
.
.
.
black.
bullhead
age04
7
206.00
.
.
.
black.
bullhead
age05
8
246.00
.
.
.
black.
bullhead
age06
9
292.00
.
.
.
black.
bullhead
age07
10
302.00
.
.
.
black.
bullhead
age08
11
310.00
.
.
.
black.
bullhead
age09
12
311.00
.
.
.
black.
crappie
egg
1
3.3722
0.00042116
.
.
black.
crappie
larvae
2
6.96
.
.
.
black.
crappie
juv
3
74.00
.
.
.
black.
crappie
age01
4
160.00
.
.
.
black.
crappie
age02
5
183.00
.
.
.
black.
crappie
age03
6
237.00
.
.
.
black.
crappie
age04
7
272.00
.
.
.
black.
crappie
age05
8
301.00
.
.
.
black.
crappie
age06
9
305.00
.
.
.
black.
crappie
age07
10
310.00
.
.
.
black.
crappie
age08
11
321.00
.
.
.
black.
crappie
age09
12
337.00
.
.7,
pg.
318/
MN,
SD,
WI
bluegill
egg
1
4.6239
0.000588977
.
.
bluegill
larvae
2
4.90
.
.
.
bluegill
juv
3
70.00
24
0.052910952
.
bluegill
age01
4
75.00
14
0.030864722
.
bluegill
age02
5
108.00
113
0.249122399
.
bluegill
age03
6
131.00
147
0.324079581
.
bluegill
age04
7
156.00
110
0.24250853
.
bluegill
age05
8
188.00
.
.
.
bluegill
age06
9
189.00
.
.
.
bluegill
age07
10
194.00
.
.
.
bluegill
age08
11
228.00
.
.
.
bluegill
age09
12
236.00
.
.
D.,
1977,
pg.
93/
OH,
IN
bluntnose.
minnow
egg
1
1.0704
0.000523599
.
.
bluntnose.
minnow
larvae
2
12.67
.
.
.
bluntnose.
minnow
juv
3
26.33
.
.
.
bluntnose.
minnow
age01
4
41.00
.
.
.
bluntnose.
minnow
age02
5
56.00
.
.
.
bluntnose.
minnow
age03
6
64.77
.
.
.
brown.
bullhead
egg
1
3.9975
0.000523599
.
.
brown.
bullhead
larvae
2
10.00
.
.
.
brown.
bullhead
juv
3
48.70
.
.
.
brown.
bullhead
age01
4
157.60
.
.
.
brown.
bullhead
age02
5
194.80
.
.
.
brown.
bullhead
age03
6
227.71
.
.
.
brown.
bullhead
age04
7
241.00
.
.
.
brown.
bullhead
age05
8
288.00
.
.
.
brown.
bullhead
age06
9
290.00
.
.
.
bullhead.
spp
egg
1
11.1616
0.014137167
.
.
bullhead.
spp
larvae
2
20.00
.
.
.
bullhead.
spp
juv
3
38.00
.
.
.
bullhead.
spp
age01
4
112.00
.
.
.
bullhead.
spp
age02
5
145.00
.
.
.
bullhead.
spp
age03
6
173.00
.
.
.
bullhead.
spp
age04
7
206.00
.
.
.
bullhead.
spp
age05
8
246.00
.
.
.
bullhead.
spp
age06
9
292.00
.
.
.
bullhead.
spp
age07
10
302.00
.
.
.
bullhead.
spp
age08
11
310.00
.
.
.
bullhead.
spp
age09
12
311.00
.
.
.
burbot
egg
1
6.1217
0.00069691
.
.
burbot
larvae
2
6.20
.
.
.
burbot
juv
3
108.10
.
.
.
burbot
age01
4
210.00
.
.
.
burbot
age02
5
322.70
.
.
.
burbot
age03
6
376.50
.
.
.
burbot
age04
7
424.00
.
.
.
burbot
age05
8
492.10
.
.
.
burbot
age06
9
539.90
.
.
.
burbot
age07
10
557.80
.
.
.
burbot
age08
11
579.10
.
.
.
burbot
age09
12
590.60
.
.
.
burbot
age10
13
616.00
.
.
[
27012]
L.
Erie,
Ont.
carp
egg
1
6.4325
0.003053628
.
.
carp
larvae
2
7.75
.
.
.
carp
juv
3
94.00
.
.
.
carp
age01
4
305.00
313
0.690046999
.
carp
age02
5
351.00
550
1.21254265
.
carp
age03
6
401.00
717
1.580714691
.
carp
age04
7
566.00
.
.
.
carp
age05
8
580.00
.
.
.
carp
age06
9
590.00
.
.
.
carp
age07
10
620.00
.
.
.
carp
age08
11
660.00
.
.
.
carp
age09
12
670.00
.
.
.
carp
age10
13
680.00
.
.
.
carp
age11
14
700.00
9980
22.00213754
.
carp
age12
15
710.00
.
.
.
carp
age13
16
720.00
.
.
.
carp
age14
17
730.00
.
.
K.
D.,
1969,
pg.
382/
IA
carp
age15
18
740.00
11058
24.37872113
.
carp
age16
19
750.00
10101
22.26889692
Carlander,
K.
D.,
1969
carp
age17
20
760.00
15430
34/
Lake
Simcoe,
Canada
channel.
catfish
egg
1
12.6128
0.024429024
.
.
channel.
catfish
larvae
2
12.80
.
.
.
channel.
catfish
juv
3
94.00
9
0.019841607
.
channel.
catfish
age01
4
163.00
36
0.079366428
.
channel.
catfish
age02
5
241.00
91
0.200620693
.
channel.
catfish
age03
6
315.00
227
0.500449421
.
channel.
catfish
age04
7
368.00
608
1.340410784
.
channel.
catfish
age05
8
437.00
1397
3.079858331
.
channel.
catfish
age06
9
472.00
1252
2.760187996
.
channel.
catfish
age07
10
533.00
.
.
.
channel.
catfish
age08
11
561.00
2041
4.499635543
.
channel.
catfish
age09
12
607.00
.
.
.
channel.
catfish
age10
13
711.00
.
.
.
channel.
catfish
age11
14
720.00
.
.
.
channel.
catfish
age12
15
724.00
.
.
6640)/
Miss.
Riv.,
Iowa
crappie
egg
1
3.3722
0.00042116
.
.
crappie
larvae
2
6.96
.
.
.
crappie
juv
3
74.00
.
.
.
crappie
age01
4
160.00
.
.
.
crappie
age02
5
183.00
.
.
.
crappie
age03
6
237.00
.
.
.
crappie
age04
7
272.00
.
.
.
crappie
age05
8
301.00
.
.
.
crappie
age06
9
305.00
.
.
.
crappie
age07
10
310.00
.
.
.
crappie
age08
11
321.00
.
.
.
crappie
age09
12
337.00
.
.7,
pg.
318/
MN,
SD,
WI
emerald.
shiner
egg
1
4.4549
.
.
.
emerald.
shiner
larvae
2
20.00
.
.
.
emerald.
shiner
juv
3
41.50
.
.
.
emerald.
shiner
age01
4
52.00
.
.
.
emerald.
shiner
age02
5
64.00
.
.
.
emerald.
shiner
age03
6
84.00
.
.
/
Lake
Simcoe,
Canada.
freshwater.
drum
egg
1
0.0005
0.00052
.
.
freshwater.
drum
larvae
2
0.00134
0.00134
2.95419E­
06
.
freshwater.
drum
juv
3
7.55
7.55
0.016644904
.
freshwater.
drum
age01
4
22.67
22.67
0.049978803
.
freshwater.
drum
age02
5
93.55
93.55
0.206242482
.
freshwater.
drum
age03
6
198.44
198.44
0.437485388
.
freshwater.
drum
age04
7
289.16
289.16
0.637488787
.
freshwater.
drum
age05
8
360.03
360.03
0.793730419
.
freshwater.
drum
age06
9
430.91
430.91
0.949994097
.
freshwater.
drum
age07
10
496.11
496.11
1.093735517
.
freshwater.
drum
age08
11
572.66
572.66
1.262499407
.
freshwater.
drum
age09
12
652.03
652.03
1.437480335
.
freshwater.
drum
age10
13
725.74
725.74
1.599983096
.
freshwater.
drum
age11
14
805.12
805.12
1.77498607
.
freshwater.
drum
age12
15
907.18
907.18
1.999989893
.
gizzard.
shad
egg
1
0.0002
0.000220893
.
.
gizzard.
shad
larvae
2
0.0030
0.0030
1.58733E­
07
.
gizzard.
shad
juv
3
4.85
4.85
0.010692422
.
gizzard.
shad
age01
4
63.78
63.78
0.140610855
.
gizzard.
shad
age02
5
216.28
216.28
0.476815862
.
gizzard.
shad
age03
6
290.39
290.39
0.640200473
.
gizzard.
shad
age04
7
401.43
401.43
0.885001811
.
gizzard.
shad
age05
8
528.72
528.72
1.165628273
.
gizzard.
shad
age06
9
696.86
696.86
1.536313584
.
golden.
redhorse
egg
1
3.3797
0.000523599
.
.
golden.
redhorse
larvae
2
5.00
.
.
.
golden.
redhorse
juv
3
99.00
.
.
.
golden.
redhorse
age01
4
124.00
.
.
.
golden.
redhorse
age02
5
188.00
.
.
.
golden.
redhorse
age03
6
264.00
.
.
.
golden.
redhorse
age04
7
290.00
.
.
.
golden.
redhorse
age05
8
325.00
.
.
.
golden.
redhorse
age06
9
472.00
.
.
.
golden.
redhorse
age07
10
488.00
.
.
2513/
Des
Moines
River
logperch
egg
1
5.4039
.
.
.
logperch
larvae
2
30.00
.
.
.
logperch
juv
3
60.00
.
.
.
logperch
age01
4
86.00
.
.
.
logperch
age02
5
106.00
.
.
.
logperch
age03
6
121.00
.
.
1997,
p.
81/
WI
central
muskellunge
egg
1
11.3865
0.008580247
.
.
muskellunge
larvae
2
100.00
.
.
.
muskellunge
juv
3
150.00
.
.
.
muskellunge
age01
4
300.00
.
.
.
muskellunge
age02
5
432.00
.
.
.
muskellunge
age03
6
483.00
.
.
.
muskellunge
age04
7
584.00
.
.
.
muskellunge
age05
8
767.00
.
.
.
muskellunge
age06
9
800.00
.
.
.
muskellunge
age07
10
866.00
.
.
.
muskellunge
age08
11
963.00
.
.
.
muskellunge
age09
12
1002.00
.
.
.
muskellunge
age10
13
1064.00
.
.
.
muskellunge
age11
14
1113.00
.
.
.
muskellunge
age12
15
1206.00
.
.
.
muskellunge
age13
16
1224.00
.
.
.
muskellunge
age14
17
1295.00
.
.
.
muskellunge
age15
18
1328.00
.
.
.
muskellunge
age16
19
1354.00
.
.
.
muskellunge
age17
20
1488.00
.
.
.
muskellunge
age18
21
1490.00
.
.
.
muskellunge
age19
22
1510.00
.
.
.
muskellunge
age20
23
1521.00
.
.
.
muskellunge
age21
24
1522.00
.
.
.
muskellunge
age22
25
1523.00
.
.
.
muskellunge
age23
26
1524.00
.
.
.
muskellunge
age24
27
1525.00
.
.
.
muskellunge
age25
28
1526.00
.
.
.
muskellunge
age26
29
1527.00
.
.
.
muskellunge
age27
30
1528.00
.
.
cessed
June
15,
2001.
shiner.
spp
egg
1
4.4549
.
.
.
shiner.
spp
larvae
2
20.00
.
.
.
shiner.
spp
juv
3
41.50
.
.
.
shiner.
spp
age01
4
52.00
.
.
.
shiner.
spp
age02
5
64.00
.
.
.
shiner.
spp
age03
6
84.00
.
.
/
Lake
Simcoe,
Canada.
smallmouth.
bass
egg
1
5.3459
0.003315231
.
.
smallmouth.
bass
larvae
2
7.53
.
.
.
smallmouth.
bass
juv
3
76.00
.
.
.
smallmouth.
bass
age01
4
178.00
.
.
.
smallmouth.
bass
age02
5
246.00
.
.
.
smallmouth.
bass
age03
6
277.00
.
.
.
smallmouth.
bass
age04
7
312.00
.
.
.
smallmouth.
bass
age05
8
349.00
.
.
.
smallmouth.
bass
age06
9
406.00
.
.
.
smallmouth.
bass
age07
10
425.30
.
.
.
smallmouth.
bass
age08
11
444.70
.
.
.
smallmouth.
bass
age09
12
464.00
.
.
s
(
oldest
fish
in
region)
rainbow.
smelt
egg
1
0.000448921
0.000448921
.
.
rainbow.
smelt
larvae
2
0.5
0.5
.
.
rainbow.
smelt
juv
3
1.79
1.79
.
.
rainbow.
smelt
age01
4
8.25
8.25
.
.
rainbow.
smelt
age02
5
20.85
20.85
.
.
rainbow.
smelt
age03
6
38.57
38.57
.
.
rainbow.
smelt
age04
7
59.45
59.45
.
.
rainbow.
smelt
age05
8
81.55
81.55
.
.
rainbow.
smelt
age06
9
103.36
103.36
.
[
28558];
Table
F1­
8
spotted.
sucker
egg
1
4.2002
0.000523599
.
.
spotted.
sucker
larvae
2
5.00
.
.
.
spotted.
sucker
juv
3
100.00
.
.
.
spotted.
sucker
age01
4
157.00
.
.
.
spotted.
sucker
age02
5
307.00
.
.
.
spotted.
sucker
age03
6
371.00
.
.
.
spotted.
sucker
age04
7
411.00
.
.
.
spotted.
sucker
age05
8
427.00
.
.
.
spotted.
sucker
age06
9
432.00
.
.
5­
506/
Mississippi
River
sucker.
spp
egg
1
10.1058
0.014137167
.
.
sucker.
spp
larvae
2
10.43
0.015550884
.
.
sucker.
spp
juv
3
20.00
.
.
.
sucker.
spp
age01
4
127.00
.
.
.
sucker.
spp
age02
5
221.00
.
.
.
sucker.
spp
age03
6
236.00
.
.
.
sucker.
spp
age04
7
295.00
.
.
.
sucker.
spp
age05
8
325.00
.
.
.
sucker.
spp
age06
9
338.00
.
.
p.
464/
Des
Moines
River
sunfish
egg
1
4.7109
0.000523599
.
.
sunfish
larvae
2
4.80
.
.
.
sunfish
juv
3
36.00
.
.
.
sunfish
age01
4
67.00
.
.
.
sunfish
age02
5
103.00
.
.
.
sunfish
age03
6
131.00
.
.
.
sunfish
age04
7
141.00
.
.
.
sunfish
age05
8
171.00
.
.
.
sunfish
age06
9
184.00
.
.
.
sunfish
age07
10
194.00
.
.
.
sunfish
age08
11
199.00
.
.
r,
K.
D.,
1977,
pg.
59/
MI
walleye
egg
1
9.0311
0.002806162
.
.
walleye
larvae
2
19.70
.
.
.
walleye
juv
3
125.00
.
.
.
walleye
age01
4
262.00
.
.
.
walleye
age02
5
359.00
.
.
.
walleye
age03
6
442.00
.
.
.
walleye
age04
7
482.00
.
.
.
walleye
age05
8
539.00
.
.
.
walleye
age06
9
567.00
.
.
.
walleye
age07
10
596.00
.
.
.
walleye
age08
11
630.00
.
.
.
walleye
age09
12
636.00
.
.
bers
for
river
p.
225­
227
white.
bass
egg
1
0.0002
0.000179594
.
.
white.
bass
larvae
2
0.0008
0.0008
.
.
white.
bass
juv
3
79.00
79
.
.
white.
bass
age01
4
212.00
212
0.467380076
.
white.
bass
age02
5
292.00
292
0.643749916
.
white.
bass
age03
6
462.00
462
1.018535826
.
white.
bass
age04
7
526.00
526.00
.
.
white.
bass
age05
8
570.00
570
1.25663511
.
white.
bass
age06
9
755.00
755
1.664490365
.
white.
bass
age07
10
760.00
760
1.67551348nder,
K.
D.,
1997,
pg.
19
white.
perch
egg
1
0.000150
0.0001496
.
.
white.
perch
larvae
2
0.0012
0.001229827
.
.
white.
perch
juv
3
1.17
1.174920565
.
.
white.
perch
age01
4
9.00000
9.00000
.
.
white.
perch
age02
5
25.70000
25.70000
0.06
.
white.
perch
age03
6
46.50000
46.50000
0.10
.
white.
perch
age04
7
68.10000
68.10000
0.15
.
white.
perch
age05
8
97.20000
97.20000
0.21
.
white.
perch
age06
9
120.00000
120.00000
0.26
.
white.
perch
age07
10
161.40000
161.40000
0.36
.
white.
perch
age08
11
175.50000
175.50000
0.39
.
white.
perch
age09
12
234.10000
234.10000
0.52
.
white.
perch
age10
13
280.70000
280.70000
0.62pendix
F,
Attachment
F
whitefish
egg
1
11.6659
0.010889218
.
.
whitefish
larvae
2
21.75
.
.
.
whitefish
juv
3
83.00
.
.
.
whitefish
age01
4
305.00
254.011744
0.56
.
whitefish
age02
5
368.00
498.95164
1.1
.
whitefish
age03
6
445.00
907.1848
2
.
whitefish
age04
7
475.00
1133.981
2.5
.
whitefish
age05
8
508.00
1360.7772
3
.
whitefish
age06
9
533.00
1632.93264
3.6
.
whitefish
age07
10
559.00
1859.72884
4.1
.
whitefish
age08
11
592.00
2449.39896
5.4
.
whitefish
age09
12
593.00
2494.7582
5.5
.
whitefish
age10
13
597.00
2540.11744
5.6
.
whitefish
age11
14
605.00
2585.47668
5.7
.
whitefish
age12
15
627.00
2812.27288
6.2
.
whitefish
age13
16
635.00
3129.78756
6.9
.
whitefish
age14
17
640.00
3175.1468
7
.
whitefish
age15
18
641.00
3401.943
7.5
.
whitefish
age16
19
676.00
3991.61312
8.8
[
27012]
L.
Erie.
yellow.
perch
egg
1
0.0003
0.00030
.
.
yellow.
perch
larvae
2
0.00033
0.00033
7.27526E­
07
.
yellow.
perch
juv
3
10.54
10.54
0.023236726
.
yellow.
perch
age01
4
11.13
11.13
0.024537454
.
yellow.
perch
age02
5
19.74
19.74
0.043519258
.
yellow.
perch
age03
6
44.78
44.78
0.098723018
.
yellow.
perch
age04
7
59.77
59.77
0.131770317
.
yellow.
perch
age05
8
75.27
75.27
0.165941973
.
yellow.
perch
age06
9
96.85
96.85
0.213517738
.
non.
ris.
forage
egg
1
0.00001
0.00001
0
0
non.
ris.
forage
larvae
2
0.00072
0.00072
0
0
non.
ris.
forage
juv
3
0.21807
0.21807
0
0
non.
ris.
forage
age01
4
1.73000
1.73000
0
1
non.
ris.
forage
age02
5
2.25000
2.25000
0
1
non.
ris.
forage
age03
6
2.29000
2.29000
0
1
non.
ris.
rec
egg
1
0.00032
0.00032
.
.
non.
ris.
rec
larvae
2
0.00092
0.00092
.
.
non.
ris.
rec
juv
3
0.33843
0.33843
.
.
non.
ris.
rec
age01
4
42.50000
42.50000
.
.
non.
ris.
rec
age02
5
161.50000
161.50000
.
.
non.
ris.
rec
age03
6
307.90000
307.90000
.
.
non.
ris.
rec
age04
7
441.70000
441.70000
.
.
non.
ris.
rec
age05
8
547.90000
547.90000
.
.
non.
ris.
rec
age06
9
626.80000
626.80000
.
.
note.
length
note.
weight
original.
source
dummy
dummy
dummy
Represents
virtual.
length
as
calculated
Calculated
bas
ayton
(
modified)
Values
represent
weights,
not
lengths.
Calculated
as
1
brayton
Values
represent
weights,
not
lengths.
[
28558]
brayton
Represents
weights,
not
lengths.
[
21960];
lake
Mmonroe
Represents
weights,
not
lengths.
[
21960];
lake
Mmonroe
Represents
weights,
not
lengths.
[
21960];
lake
Mmonroe
Represents
weights,
not
lengths.
[
21960];
lake
Mmonroe
Represents
weights,
not
lengths.
[
21960];
lake
Mmonroe
Represents
weights,
not
lengths.
[
21960];
lake
Mmonroe
Represents
weights,
not
lengths.
[
21960];
lake
Mmonroe
Represents
virtual.
length
as
calculated
.
wh.
sammis
assumed
by
AGRET
based
on
age0
siz.
wh.
sammis
C284;
as
cited
in
Carlander,
K.
D.,
1969.
wh.
sammis
M448;
as
cited
in
Carlander,
K.
D.,
1969.
wh.
sammis
M448;
as
cited
in
Carlander,
K.
D.,
1969.
wh.
sammis
M448;
as
cited
in
Carlander,
K.
D.,
1969.
wh.
sammis
M448;
as
cited
in
Carlander,
K.
D.,
1969.
wh.
sammis
F65;
as
cited
in
Carlander,
K.
D.,
1969,
.
wh.
sammis
F65;
as
cited
in
Carlander,
K.
D.,
1969,
.
wh.
sammis
F65;
as
cited
in
Carlander,
K.
D.,
1969,
.
wh.
sammis
F65;
as
cited
in
Carlander,
K.
D.,
1969,
.
wh.
sammis
assumed
by
AGRET,
as
value
in
Carlan.
wh.
sammis
Represents
virtual.
length
as
calculated
.
wh.
sammis
Average
of
length
at
hatching
&
postlarv.
wh.
sammis
multiple;
as
cited
in
Carlander,
K.
D.,
19.
wh.
sammis
U8;
as
cited
in
Carlander,
K.
D.,
1977,
p.
wh.
sammis
U4,
U8;
as
cited
in
Carlander,
K.
D.,
197.
wh.
sammis
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
wh.
sammis
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
wh.
sammis
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
wh.
sammis
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
wh.
sammis
assumed
by
Abeualieu
to
show
increase.
wh.
sammis
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
wh.
sammis
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
wh.
sammis
Represents
virtual.
length
as
calculated
.
monroe
Wang
and
Kernehan,
1979
(
size
at
com.
monroe
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
monroe
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
monroe
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
monroe
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
monroe
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
monroe
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
monroe
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
monroe
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
monroe
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
monroe
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
monroe
Represents
virtual.
length
as
calculated
.
monroe
Keeton,
1963;
as
cited
in
Carlander,
K.
D.
monroe
Keeton,
1963;
as
cited
in
Carlander,
K.
D.
monroe
Keeton,
1963;
as
cited
in
Carlander,
K.
D.
monroe
Keeton,
1963;
as
cited
in
Carlander,
K.
D.
monroe
http://
www.
dnr.
state.
oh.
us/
wildlife/
Fishin.
monroe
Represents
virtual.
length
as
calculated
.
wh.
sammis
assumed
by
AGRET
based
on
age0
siz.
wh.
sammis
Brown.
bullhead.
mult.
refs;
as
cited
in
C.
wh.
sammis
Brown.
bullhead.
mult.
refs;
as
cited
in
C.
wh.
sammis
Brown.
bullhead.
mult.
refs;
as
cited
in
C.
wh.
sammis
Brown.
bullhead.
mult.
refs;
as
cited
in
C.
wh.
sammis
Brown.
bullhead.
mult.
refs;
as
cited
in
C.
wh.
sammis
Brown.
bullhead.
mult.
refs;
as
cited
in
C.
wh.
sammis
Brown.
bullhead.
mult.
refs;
as
cited
in
C.
wh.
sammis
Represents
virtual.
length
as
calculated
.
monroe
assumed
by
AGRET
based
on
age0
siz.
monroe
Black
bullhead.
C284;
as
cited
in
Carlan.
monroe
Black
bullhead.
M448;
as
cited
in
Carlan.
monroe
Black
bullhead.
M448;
as
cited
in
Carlan.
monroe
Black
bullhead.
M448;
as
cited
in
Carlan.
monroe
Black
bullhead.
M448;
as
cited
in
Carlan.
monroe
Black
bullhead.
F65;
as
cited
in
Carland.
monroe
Black
bullhead.
F65;
as
cited
in
Carland.
monroe
Black
bullhead.
F65;
as
cited
in
Carland.
monroe
Black
bullhead.
F65;
as
cited
in
Carland.
monroe
assumed
by
AGRET,
as
value
in
Carlan.
monroe
Represents
virtual.
length
as
calculated
.
monroe
Based
on
Snyder
http://
www­
heb.
pac.
d.
monroe
Average
of
larvae
&
age01.
.
.
[
27012]
L.
Erie,
Ont.
SL
.
monroe
[
27012]
L.
Erie,
Ont.
SL
.
monroe
[
27012]
L.
Erie,
Ont.
SL
.
monroe
[
27012]
L.
Erie,
Ont.
SL
.
monroe
[
27012]
L.
Erie,
Ont.
SL
.
monroe
[
27012]
L.
Erie,
Ont.
SL
.
monroe
[
27012]
L.
Erie,
Ont.
SL
.
monroe
[
27012]
L.
Erie,
Ont.
SL
.
monroe
[
27012]
L.
Erie,
Ont.
SL
.
monroe
[
27012]
L.
Erie,
Ont.
SL
.
monroe
Represents
virtual.
length
as
calculated
.
monroe
Jones
et
al.
1978,
as
cited
in
http://
elib.
c.
monroe
multiple
sources;
as
cited
in
Carlander,
.
monroe
Iowa
Conserv.
Comm.,
1961;
as
cited
inIowa
Conserv.
Cmonroe
Iowa
Conserv.
Comm.,
1961;
as
cited
inIowa
Conserv.
Cmonroe
multiple
sources;
as
cited
in
Carlander,
multiple
sourcemonroe
Christenson,
M.,
1957;
as
cited
in
Carla.
monroe
assumed
by
AGRET
to
be
higher
than
l.
monroe
assumed
by
AGRET
to
be
higher
than
l.
monroe
multiple
sources;
as
cited
in
Carlander,
.
monroe
Lopinot,
1958;
as
cited
in
Carlander,
K.
D.
monroe
assumed
by
AGRET
to
be
higher
than
l.
monroe
assumed
by
AGRET
to
be
higher
than
l.
monroe
assumed
by
AGRET
to
be
higher
than
l.
monroe
assumed
by
AGRET
to
be
higher
than
l.
monroe
assumed
by
AGRET
to
be
higher
than
l.
monroe
assumed
by
AGRET
to
be
higher
than
l.
monroe
assumed
by
AGRET
to
be
higher
than
l.
monroe
assumed
by
AGRET
to
be
higher
than
l.
monroe
assumed
by
AGRET
to
be
higher
than
l.
monroe
Represents
virtual.
length
as
calculated
.
monroe
As
cited
in
http://
elib.
cs.
berkeley.
edu/
ko.
monroe
Davis,
1959;
as
cited
in
Carlander,
K.
D..
monroe
multiple
sources;
as
cited
in
Carlander,
.
monroe
multiple
sources;
as
cited
in
Carlander,
.
monroe
multiple
sources;
as
cited
in
Carlander,
.
monroe
multiple
sources;
as
cited
in
Carlander,
.
monroe
multiple
sources;
as
cited
in
Carlander,
.
monroe
multiple
sources;
as
cited
in
Carlander,
.
monroe
multiple
sources;
as
cited
in
Carlander,
.
monroe
multiple
sources;
as
cited
in
Carlander,
.
monroe
multiple
sources;
as
cited
in
Carlander,
.
monroe
multiple
sources;
as
cited
in
Carlander,
.
monroe
assumed
by
AGRET
to
be
higher
than
a.
monroe
multiple
sources;
as
cited
in
Carlander,
.
monroe
Represents
virtual.
length
as
calculated
.
monroe
black.
crappie.
hAverage
of
length
at
hat.
monroe
black.
crappie.
hmultiple;
as
cited
in
Car.
monroe
black.
crappie.
hU8;
as
cited
in
Carlande.
monroe
black.
crappie.
hU4,
U8;
as
cited
in
Carl.
monroe
black.
crappie.
hmult.
refs;
as
cited
in
Ca.
monroe
black.
crappie.
hmult.
refs;
as
cited
in
Ca.
monroe
black.
crappie.
hmult.
refs;
as
cited
in
Ca.
monroe
black.
crappie.
hmult.
refs;
as
cited
in
Ca.
monroe
black.
crappie.
hassumed
by
Abeualieu
.
monroe
black.
crappie.
hmult.
refs;
as
cited
in
Ca.
monroe
vmult.
refs;
as
cited
in
Carlander,
K.
D.,
.
monroe
Represents
virtual.
length
as
calculated
.
jr.
whiting
assumed
by
AGRET
.
jr.
whiting
Trautman,
1981,
pg
318./
OH
.
jr.
whiting
Trautman,
1981,
pg
318./
OH
.
jr.
whiting
Trautman,
1981,
pg
318./
OH
.
jr.
whiting
Trautman,
1981,
pg
318./
OH
.
jr.
whiting
Represents
virtual.
length
as
calculated
.
.
Represents
weights,
not
lengths.
http://
www.
mvrmonroe
Represents
weights,
not
lengths.
http://
www.
mvrmonroe
Represents
weights,
not
lengths.
Scott
&
Crossmmonroe
Represents
weights,
not
lengths.
Scott
&
Crossmmonroe
Represents
weights,
not
lengths.
Scott
&
Crossmmonroe
Represents
weights,
not
lengths.
Scott
&
Crossmmonroe
Represents
weights,
not
lengths.
Scott
&
Crossmmonroe
Represents
weights,
not
lengths.
Scott
&
Crossmmonroe
Represents
weights,
not
lengths.
Scott
&
Crossmmonroe
Represents
weights,
not
lengths.
Scott
&
Crossmmonroe
Represents
weights,
not
lengths.
Scott
&
Crossmmonroe
Represents
weights,
not
lengths.
Scott
&
Crossmmonroe
Represents
weights,
not
lengths.
Scott
&
Crossmmonroe
Represents
weights,
not
lengths.
Scott
&
Crossmmonroe
Represents
virtual.
length
as
calculated
Calculated
usin.
Represents
weights,
not
lengths.
Weight
in
grammonroe
Represents
weights,
not
lengths.
Weights
in
gramonroe
Represents
weights,
not
lengths.
Weights
in
gramonroe
Represents
weights,
not
lengths.
Weights
in
gramonroe
Represents
weights,
not
lengths.
Weights
in
gramonroe
Represents
weights,
not
lengths.
Weights
in
gramonroe
Represents
weights,
not
lengths.
Weights
in
gramonroe
Represents
weights,
not
lengths.
Weights
in
gramonroe
Represents
virtual.
length
as
calculated
.
monroe
assumed
by
AGRET
.
monroe
L108;
as
cited
in
Carlander,
K.
D.
1969,.
monroe
M395;
as
cited
in
Carlander,
K.
D.
1969.
monroe
M395;
as
cited
in
Carlander,
K.
D.
1969.
monroe
M395;
as
cited
in
Carlander,
K.
D.
1969.
monroe
M395;
as
cited
in
Carlander,
K.
D.
1969.
monroe
M395;
as
cited
in
Carlander,
K.
D.
1969.
monroe
M395;
as
cited
in
Carlander,
K.
D.
1969.
monroe
M395;
as
cited
in
Carlander,
K.
D.
1969.
monroe
Represents
virtual.
length
as
calculated
.
monroe
assumed
by
AGRET
.
monroe
logperch.
L256:
as
cited
in
Carlander,
K.
monroe
logperch.
L256:
as
cited
in
Carlander,
K.
monroe
logperch.
L256:
as
cited
in
Carlander,
K.
monroe
logperch.
L256:
as
cited
in
Carlander,
K.
monroe
Represents
virtual.
length
as
calculated
.
monroe
assumed
by
AGRET
.
monroe
P69;
as
cited
in
Carlander,
K.
D.
1969,
p.
monroe
K69;
as
cited
in
Carlander,
K.
D.
1969,
p.
monroe
G152,
S499;
as
cited
in
Carlander,
K.
D.
monroe
G152,
S499;
as
cited
in
Carlander,
K.
D.
monroe
G152,
S499;
as
cited
in
Carlander,
K.
D.
monroe
C227;
M329;
as
cited
in
Carlander,
K.
D.
monroe
M329;
as
cited
in
Carlander,
K.
D.
1969.
monroe
M329;
as
cited
in
Carlander,
K.
D.
1969.
monroe
C227;
M329;
as
cited
in
Carlander,
K.
D.
monroe
C227;
as
cited
in
Carlander,
K.
D.
1969,.
monroe
G23;
as
cited
in
Carlander,
K.
D.
1969,
p.
monroe
J15;
as
cited
in
Carlander,
K.
D.
1969,
p.
monroe
J15;
as
cited
in
Carlander,
K.
D.
1969,
p.
monroe
S2;
as
cited
in
Carlander,
K.
D.
1969,
p..
monroe
S2;
as
cited
in
Carlander,
K.
D.
1969,
p..
monroe
H15;
as
cited
in
Carlander,
K.
D.
1969,
p.
monroe
H15;
as
cited
in
Carlander,
K.
D.
1969,
p.
monroe
S2;
as
cited
in
Carlander,
K.
D.
1969,
p..
monroe
assumed
by
AGREt
(
higher
than
last
st.
monroe
S2;
as
cited
in
Carlander,
K.
D.
1969,
p..
monroe
assumed
by
AGREt
(
higher
than
last
st.
monroe
assumed
by
AGREt
(
higher
than
last
st.
monroe
assumed
by
AGREt
(
higher
than
last
st.
monroe
assumed
by
AGREt
(
higher
than
last
st.
monroe
assumed
by
AGREt
(
higher
than
last
st.
monroe
assumed
by
AGREt
(
higher
than
last
st.
monroe
assumed
by
AGREt
(
higher
than
last
st.
monroe
assumed
by
AGREt
(
higher
than
last
st.
monroe
Represents
virtual.
length
as
calculated
.
monroe
Emerald
shiner.
assumed
by
AGRET
.
monroe
Emerald
shiner.
Trautman,
1981,
pg
31.
monroe
Emerald
shiner.
Trautman,
1981,
pg
31.
monroe
Emerald
shiner.
Trautman,
1981,
pg
31.
monroe
Emerald
shiner.
Trautman,
1981,
pg
31.
monroe
Represents
virtual.
length
as
calculated
.
monroe
mean
ysl
and
pysl:
Reighard
1906,
as
c.
monroe
mult.
refs;
as
cited
in
Carlander,
K.
D.,
.
monroe
C182;
as
cited
in
Carlander,
K.
D.,
1977.
monroe
C182;
as
cited
in
Carlander,
K.
D.,
1977.
monroe
C182;
as
cited
in
Carlander,
K.
D.,
1977.
monroe
C182;
as
cited
in
Carlander,
K.
D.,
1977.
monroe
L123,
P74;
as
cited
in
Carlander,
K.
D.,
.
monroe
C182;
as
cited
in
Carlander,
K.
D.,
1977.
monroe
assumed
by
Jhazen,
based
on
age06
a.
monroe
assumed
by
Jhazen,
based
on
age06
a.
monroe
multiple
refs;
as
cited
in
Carlander,
K.
D.
monroe
Represents
virtual.
length
as
calculated
Calculated
bas.
assumed
by
AGret
based
on
other
weigNA
.
Values
represent
weights;
not
lengths.
[
28558];
Tablebrayton
Values
represent
weights;
not
lengths.
[
28558];
Tablebrayton
Values
represent
weights;
not
lengths.
[
28558];
Tablebrayton
Values
represent
weights;
not
lengths.
[
28558];
Tablebrayton
Values
represent
weights;
not
lengths.
[
28558];
Tablebrayton
Values
represent
weights;
not
lengths.
[
28558];
Tablebrayton
Values
represent
weights;
not
lengths.
[
28558];
Tablebrayton
Represents
virtual.
length
as
calculated
.
jr.
whiting
assumed
by
AGRET
.
jr.
whiting
assumed
by
Agret
to
be
lower
than
next.
jr.
whiting
C270;
as
cited
in
Carlander,
K.
D.
1969,.
jr.
whiting
C270;
as
cited
in
Carlander,
K.
D.
1969,.
jr.
whiting
C270;
as
cited
in
Carlander,
K.
D.
1969,.
jr.
whiting
C270;
as
cited
in
Carlander,
K.
D.
1969,.
jr.
whiting
C270;
as
cited
in
Carlander,
K.
D.
1969,.
jr.
whiting
C270;
as
cited
in
Carlander,
K.
D.
1969,.
jr.
whiting
Represents
virtual.
length
as
calculated
.
.
Calculated
based
on
weight.
Assumed
to
be.
M215;
as
cited
in
Carlander,
K.
D.
1969.
monroe
B180;
as
cited
in
Carlander,
K.
D.
1969,.
monroe
B180;
as
cited
in
Carlander,
K.
D.
1969,.
monroe
B180;
as
cited
in
Carlander,
K.
D.
1969,.
monroe
B180;
as
cited
in
Carlander,
K.
D.
1969,.
monroe
B180;
as
cited
in
Carlander,
K.
D.
1969,.
monroe
B180;
as
cited
in
Carlander,
K.
D.
1969,.
monroe
Represents
virtual.
length
as
calculated
.
monroe
http://
dlp.
cs.
berkeley.
edu/
kopec/
tr9/
htm.
monroe
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
monroe
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
monroe
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
monroe
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
monroe
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
monroe
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
monroe
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
monroe
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
monroe
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1.
monroe
Represents
virtual.
length
as
calculated
.
.
N97;
as
cited
in
Carlander,
K.
D.
1997,
p.
monroe
mult.
references;
as
cited
in
Carlander,
K.
monroe
4S;
as
cited
in
Carlander,
K.
D.
1997,
p..
monroe
4S;
as
cited
in
Carlander,
K.
D.
1997,
p..
monroe
4S;
as
cited
in
Carlander,
K.
D.
1997,
p..
monroe
4S;
as
cited
in
Carlander,
K.
D.
1997,
p..
monroe
4S;
as
cited
in
Carlander,
K.
D.
1997,
p..
monroe
4S;
as
cited
in
Carlander,
K.
D.
1997,
p..
monroe
4S;
as
cited
in
Carlander,
K.
D.
1997,
p..
monroe
assumed
by
agret
(
higher
than
last
stag.
monroe
4S;
as
cited
in
Carlander,
K.
D.
1997,
p..
monroe
Represents
virtual.
length
as
calculated
.
.
Represents
weights,
not
lengths.
calculated
frommonroe
Represents
weights,
not
lengths.
multiple,
as
citemonroe
Represents
weights,
not
lengths.
multiple,
as
citemonroe
Represents
weights,
not
lengths.
multiple,
as
citemonroe
Represents
weights,
not
lengths.
multiple,
as
citemonroe
Represents
weights,
not
lengths.
multiple,
as
citemonroe
Represents
weights,
not
lengths.
multiple,
as
citemonroe
Represents
weights,
not
lengths.
multiple,
as
citemonroe
Represents
weights,
not
lengths.
assumed
to
bemonroe
Represents
virtual.
length
as
calculated
.
mid.
atlantic.
LH.
data.
xls
Represents
weights,
not
lengths.
extrapolated
fromid.
atlantic.
LH.
data.
xls
Represents
weights,
not
lengths.
extrapolated
fromid.
atlantic.
LH.
data.
xls
Represents
weights,
not
lengths.
PSEG,
1999
[
2mid.
atlantic.
LH.
data.
xls
Represents
weights,
not
lengths.
PSEG,
1999
[
2mid.
atlantic.
LH.
data.
xls
Represents
weights,
not
lengths.
PSEG,
1999
[
2mid.
atlantic.
LH.
data.
xls
Represents
weights,
not
lengths.
PSEG,
1999
[
2mid.
atlantic.
LH.
data.
xls
Represents
weights,
not
lengths.
PSEG,
1999
[
2mid.
atlantic.
LH.
data.
xls
Represents
weights,
not
lengths.
PSEG,
1999
[
2mid.
atlantic.
LH.
data.
xls
Represents
weights,
not
lengths.
PSEG,
1999
[
2mid.
atlantic.
LH.
data.
xls
Represents
weights,
not
lengths.
PSEG,
1999
[
2mid.
atlantic.
LH.
data.
xls
Represents
weights,
not
lengths.
PSEG,
1999
[
2mid.
atlantic.
LH.
data.
xls
Represents
weights,
not
lengths.
PSEG,
1999
[
2mid.
atlantic.
LH.
data.
xls
Represents
virtual.
length
as
calculated
.
.
[
26676]
average
of
length
at
1
wk
and
le.
monroe
[
26676]
yearling
length
.
monroe
[
27012]
L.
Erie
TL
[
27012]
L.
Eriemonroe
[
27012]
L.
Erie
TL
[
27012]
L.
Eriemonroe
[
27012]
L.
Erie
TL
[
27012]
L.
Eriemonroe
[
27012]
L.
Erie
TL
[
27012]
L.
Eriemonroe
[
27012]
L.
Erie
TL
[
27012]
L.
Eriemonroe
[
27012]
L.
Erie
TL
[
27012]
L.
Eriemonroe
[
27012]
L.
Erie
TL
[
27012]
L.
Eriemonroe
[
27012]
L.
Erie
TL
[
27012]
L.
Eriemonroe
assumed
assumed
monroe
[
27012]
L.
Erie
TL
assumed
monroe
[
27012]
L.
Erie
TL
assumed
monroe
[
27012]
L.
Erie
TL
[
27012]
L.
Eriemonroe
[
27012]
L.
Erie
TL
[
27012]
L.
Eriemonroe
[
27012]
L.
Erie
TL
assumed
monroe
assumed
assumed
monroe
[
27012]
L.
Erie
TL
[
27012]
L.
Eriemonroe
Calculated
as
10%
less
than
larval
weigCalculated
as
1.
Represents
weights,
not
lengths.
Weights
in
gramonroe
Represents
weights,
not
lengths.
Weights
in
gramonroe
Represents
weights,
not
lengths.
Weights
in
gramonroe
Represents
weights,
not
lengths.
Weights
in
gramonroe
Represents
weights,
not
lengths.
Weights
in
gramonroe
Represents
weights,
not
lengths.
Weights
in
gramonroe
Represents
weights,
not
lengths.
Weights
in
gramonroe
Represents
weights,
not
lengths.
Weights
in
gramonroe
Represents
weights,
not
lengths.
n
&
Price
1973.
F;
Attachment
F;
Attachment
F
sl,
pysl1,
and
pysl2
from
non.
ris.
forage1n
&
Price
1973.
F;
Attachment
F;
Attachment
F
Avg
of
juv1­
juv4
from
non.
ris.
forage1n
&
Price
1973.
F;
Attachment
F;
Attachment
F
nchovy
according
to
App.
F;
Attch.
4;
p.
14F;
Attachment
F;
Attachment
F;
Attachment
F
nchovy
according
to
App.
F;
Attch.
4;
p.
14F;
Attachment
F;
Attachment
F;
Attachment
F
nchovy
according
to
App.
F;
Attch.
4;
p.
14F;
Attachment
F;
Attachment
F;
Attachment
F
Represents
weights,
not
lengths.
Able
&
Fahay
1998
and
USFWS
1978,
L­
W
relationship
for
early
life
stages
calculated
from
PSE&
G
imp
Avg
of
ysl
and
pysl
from
atlantic.
menhaAverage
of
ysl
and
pysl
from
atlantic.
menhaden1
Represents
weights,
not
lengths.
Able
&
Fahay
1998
and
USFWS
1978,
L­
W
relationship
for
early
life
stages
calculated
from
PSE&
G
imp
Represents
weights,
not
lengths.
Able
&
Fahay
1998
and
USFWS
1978,
L­
W
relationship
for
early
life
stages
calculated
from
PSE&
G
imp
Represents
weights,
not
lengths.
Able
&
Fahay
1998
and
USFWS
1978,
L­
W
relationship
for
early
life
stages
calculated
from
PSE&
G
imp
Represents
weights,
not
lengths.
Able
&
Fahay
1998
and
USFWS
1978,
L­
W
relationship
for
early
life
stages
calculated
from
PSE&
G
imp
Represents
weights,
not
lengths.
Able
&
Fahay
1998
and
USFWS
1978,
L­
W
relationship
for
early
life
stages
calculated
from
PSE&
G
imp
Represents
weights,
not
lengths.
Able
&
Fahay
1998
and
USFWS
1978,
L­
W
relationship
for
early
life
stages
calculated
from
PSE&
G
imp
Represents
weights,
not
lengths.
Able
&
Fahay
1998
and
USFWS
1978,
L­
W
relationship
for
early
life
stages
calculated
from
PSE&
G
imp
impingement,
1978­
98
impingement,
1978­
98
impingement,
1978­
98
impingement,
1978­
98
impingement,
1978­
98
impingement,
1978­
98
impingement,
1978­
98
impingement,
1978­
98
species
stage
fraction.
mature
mean.
fecundity
notes.
fraction.
mature
notes.
mean.
fecundity
lifetime.
fecundity
dummy
dummy
­
999
­
999
dummy
dummy
­
999
logperch
age01
0.5
NA
http://
www.
kenschultz.
coNA
NA
logperch
age02
1
NA
http://
www.
kenschultz.
coNA
NA
logperch
age03
1
NA
http://
www.
kenschultz.
coNA
2000
muskellunge
age01
0
NA
assumed
by
AGRET
NA
NA
muskellunge
age02
0
NA
assumed
by
AGRET
NA
NA
muskellunge
age03
0.5
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age04
0.5
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age05
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age06
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age07
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age08
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age09
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age10
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age11
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age12
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age13
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age14
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age15
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age16
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age17
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age18
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age19
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age20
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age21
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age22
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age23
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age24
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age25
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age26
1
NA
http://
www.
kenschultz.
coNA
NA
muskellunge
age27
1
NA
http://
www.
kenschultz.
coNA
2,000,000
yellow.
perch
age01
0.01
17000
Assumed
based
on
S69V21,
as
cited
in
CarlandNA
yellow.
perch
age02
0.47
23000
S697,
as
cited
in
CarlanV21,
as
cited
in
CarlandNA
yellow.
perch
age03
0.51
27000
S697,
as
cited
in
CarlanV21,
as
cited
in
CarlandNA
yellow.
perch
age04
0.86
27000
S697,
as
cited
in
CarlanV21,
as
cited
in
CarlandNA
yellow.
perch
age05
1.00
27000
Assumed
based
on
S69V21,
as
cited
in
CarlandNA
yellow.
perch
age06
1.00
34000
Assumed
based
on
S69V21,
as
cited
in
CarlandNA
yellow.
perch
age07
1.00
34000
Assumed
based
on
S69V21,
as
cited
in
CarlandNA
yellow.
perch
age08
1.00
34000
Assumed
based
on
S69V21,
as
cited
in
CarlandNA
yellow.
perch
age09
1.00
34000
Assumed
based
on
S69V21,
as
cited
in
CarlandNA
yellow.
perch
age10
1.00
34000
Assumed
based
on
S69V21,
as
cited
in
CarlandNA
darter.
spp
age01
0.5
NA
http://
www.
kenschultz.
coNA
NA
darter.
spp
age02
1
NA
http://
www.
kenschultz.
coNA
NA
darter.
spp
age03
1
NA
http://
www.
kenschultz.
coNA
2000
burbot
age01
0
0
burbot
age02
0.5
45600
assumed
based
on
[
270[
27012]
egg
number
in
343
mm
female
burbot
age03
1
210150.875
assumed
based
on
[
270extrapolated
burbot
age04
1
374701.75
assumed
based
on
[
270extrapolated
burbot
age05
1
539252.625
assumed
based
on
[
270extrapolated
burbot
age06
1
703803.5
assumed
based
on
[
270extrapolated
burbot
age07
1
868354.375
assumed
based
on
[
270extrapolated
burbot
age08
1
1032905.25
assumed
based
on
[
270extrapolated
burbot
age09
1
1197456.125
assumed
based
on
[
270extrapolated
burbot
age10
1
1362007
assumed
based
on
[
270[
27012]
egg
number
in
643
mm
female
bluntnose.
minnow
age01
0.00
0
W26;
as
cited
in
CarlanAssumed
0
NA
bluntnose.
minnow
age02
1.00
2447
W26;
as
cited
in
CarlanH91,
as
cited
in
CarlandNA
bluntnose.
minnow
age03
1.00
2447
W26;
as
cited
in
CarlanH91,
as
cited
in
CarlandNA
notes.
lifetime.
fecundity
dummy
logperch.
Max.
lifetime
=
3000,
therefore:
average
~
2,000Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Sep.
10,
20
Max.
lifetime
=
3,000,000,
therefore:
average
~
2,000,000
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Sep.
10,
20
logperch.
Max.
lifetime
=
3000,
therefore:
average
~
2,000Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Sep.
10,
20
calculated
using
Saila
method
,
2001Hugg,
D.
O.,
1996.
MAPFISH
georeferenced
mapping
database.
Freshwater
and
estuarine
fishes
of
North
America.
Life
Science
S
,
2001Hugg,
D.
O.,
1996.
MAPFISH
georeferenced
mapping
database.
Freshwater
and
estuarine
fishes
of
North
America.
Life
Science
S
,
2001Hugg,
D.
O.,
1996.
MAPFISH
georeferenced
mapping
database.
Freshwater
and
estuarine
fishes
of
North
America.
Life
Science
S
e
Software.
Dennis
O.
and
Steven
Hugg,
1278
Turkey
Point
Road,
Edgewater,
Maryland,
USA./
Ohio
River
e
Software.
Dennis
O.
and
Steven
Hugg,
1278
Turkey
Point
Road,
Edgewater,
Maryland,
USA.

e
Software.
Dennis
O.
and
Steven
Hugg,
1278
Turkey
Point
Road,
Edgewater,
Maryland,
USA./
Ohio
River
Life
history
data
for
Great
Lakes
species.
Mostly
derived
from
the
workbook
Q:\
Elibrary\
Intake\
databases\
monroe.
input.
data.
xls.
Workbook
compiled
for
use
in
fish
impingement/
entainment
loss
model.
A.
Gage,
7/
30/
2003
Worksheet
Description
lifehistory02
Life
history
data
for
species
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