species
stage
year
impinged.
est
entrained.
est
junk
junk
­
99
­
99
­
99
lamprey
age01
1975
129
0
longnose.
gar
age01
1975
185
0
bowfin
age01
1975
18
0
alewife
age01
1975
15521
0
gizzard.
shad
age01
1975
2446528
0
coho.
salmon
age01
1975
48
0
chinook.
salmon
age01
1975
62
0
smelt
age01
1975
29400
0
northern.
pike
age01
1975
281
0
muskellunge
age01
1975
89
0
goldfish
age01
1975
19246
0
carp
age01
1975
1896
0
shiner.
spp
age01
1975
861279
0
white.
sucker
age01
1975
368
0
black.
bullhead
age01
1975
18
0
yellow.
bullhead
age01
1975
999
0
brown.
bullhead
age01
1975
96
0
channel.
catfish
age01
1975
4031
0
troutperch
age01
1975
30856
0
white.
bass
age01
1975
337687
0
rock.
bass
age01
1975
2091
0
sunfish
age01
1975
4057
0
smallmouth.
bass
age01
1975
436
0
largemouth.
bass
age01
1975
155
0
white.
crappie
age01
1975
1379
0
yellow.
perch
age01
1975
625580
0
walleye
age01
1975
8316
0
logperch
age01
1975
7996
0
freshwater.
drum
age01
1975
290752
0
clupeidae
larvae
1974
NA
168900000
carp
larvae
1974
NA
132600000
white.
bass
larvae
1974
NA
95200000
yellow.
perch
larvae
1974
NA
83100000
channel.
catfish
larvae
1974
NA
28600000
freshwater.
drum
larvae
1974
NA
20300000
shiner.
spp
larvae
1974
NA
15700000
sunfish
larvae
1974
NA
8600000
bass
larvae
1974
NA
700000
smelt
larvae
1974
NA
700000
crappie
larvae
1974
NA
300000
walleye
larvae
1974
NA
200000
suckers
larvae
1974
NA
200000
troutperch
larvae
1974
NA
200000
logperch
larvae
1974
NA
100000
clupeidae
larvae
1975
0
62900000
carp
larvae
1975
0
25700000
white.
bass
larvae
1975
0
7800000
yellow.
perch
larvae
1975
0
29300000
channel.
catfish
larvae
1975
0
1700000
freshwater.
drum
larvae
1975
0
100000
shiner.
spp
larvae
1975
0
10300000
sunfish
larvae
1975
0
1400000
bass
larvae
1975
0
900000
smelt
larvae
1975
0
3200000
crappie
larvae
1975
0
0
walleye
larvae
1975
0
0
suckers
larvae
1975
0
0
troutperch
larvae
1975
0
200000
logperch
larvae
1975
0
1000000
gizzard.
shad
age01
1982
30000000
0
yellow.
perch
age01
1982
370000
0
white.
perch
age01
1982
350000
0
emerald.
shiner
age01
1982
280000
0
white.
bass
age01
1982
180000
0
freshwater.
drum
age01
1982
160000
0
troutperch
age01
1982
90000
0
spottail.
shiner
age01
1982
40000
0
walleye
age01
1982
26000
0
northern.
hog.
sucker
age01
1982
8000
0
logperch
age01
1982
6800
0
pumpkinseed
age01
1982
6700
0
carp
age01
1982
4500
0
goldfish
age01
1982
2600
0
rainbow.
smelt
age01
1982
2300
0
channel.
catfish
age01
1982
1300
0
brown.
bullhead
age01
1982
1000
0
black.
crappie
age01
1982
870
0
bluegill
age01
1982
750
0
black.
bullhead
age01
1982
720
0
tadpole.
madtom
age01
1982
580
0
rock.
bass
age01
1982
540
0
white.
crappie
age01
1982
440
0
silver.
lamprey
age01
1982
270
0
alewife
age01
1982
250
0
white.
sucker
age01
1982
230
0
hornyhead.
chub
age01
1982
210
0
fathead.
minnow
age01
1982
170
0
green.
sunfish
age01
1982
160
0
longnose.
gar
age01
1982
140
0
smallmouth.
bass
age01
1982
110
0
northern.
pike
age01
1982
86
0
largemouth.
bass
age01
1982
84
0
rainbow.
trout
age01
1982
68
0
mottled.
sculpin
age01
1982
60
0
quillback
age01
1982
48
0
flathead.
catfish
age01
1982
33
0
coho.
salmon
age01
1982
18
0
hybrid.
sunfish
age01
1982
12
0
yellow.
bullhead
age01
1982
12
0
central.
mudminnow
age01
1982
12
0
golden.
redhorse
age01
1982
12
0
muskellunge
age01
1982
7
0
spotfin.
shiner
age01
1982
6
0
bluntnose.
minnow
age01
1982
6
0
common.
shiner
age01
1982
6
0
gizzard.
shad
larvae
1982
0
4080000000
freshwater.
drum
larvae
1982
0
158000000
white.
bass.
white.
perch
larvae
1982
0
156000000
yellow.
perch
larvae
1982
0
128000000
carp
larvae
1982
0
79700000
damaged.
unknown
larvae
1982
0
38300000
emerald.
shiner
larvae
1982
0
22600000
rainbow.
smelt
larvae
1982
0
11000000
spottail.
shiner
larvae
1982
0
5020000
quillback
larvae
1982
0
4870000
channel.
catfish
larvae
1982
0
4160000
cyprinidae
larvae
1982
0
2800000
burbot
larvae
1982
0
2770000
troutperch
larvae
1982
0
2380000
walleye
larvae
1982
0
2080000
white.
sucker
larvae
1982
0
1210000
lepomis.
spp
larvae
1982
0
923000
logperch
larvae
1982
0
603000
largemouth.
bass
larvae
1982
0
599000
pomoxis.
spp
larvae
1982
0
580000
coregoninae
larvae
1982
0
190000
northern.
hog.
sucker
larvae
1982
0
124000
gizzard.
shad
age01
1985
9310023
NA
white.
perch
age01
1985
461268
NA
troutperch
age01
1985
137854
NA
white.
bass
age01
1985
106282
NA
freshwater.
drum
age01
1985
96847
NA
yellow.
perch
age01
1985
78246
NA
emerald.
shiner
age01
1985
29458
NA
spottail.
shiner
age01
1985
11033
NA
walleye
age01
1985
7374
NA
smelt
age01
1985
6221
NA
other
age01
1985
24817
NA
notes
comments
junk
junk
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18299;
Table
3;
pg.
18­
20assumed
age01
#
18242;
Table
36;
pg.
126
they
should
be.

#
18242;
Table
36;
pg.
126rids
(
text;
p.
83)

#
18242;
Table
36;
pg.
126
#
18242;
Table
36;
pg.
126
#
18242;
Table
36;
pg.
126
#
18242;
Table
36;
pg.
126
#
18242;
Table
36;
pg.
126
ners
(
text;
p.
83)

#
18242;
Table
36;
pg.
126
#
18242;
Table
36;
pg.
126
bass
(
table
30)

#
18242;
Table
36;
pg.
126
#
18242;
Table
36;
pg.
126
#
18242;
Table
36;
pg.
126
#
18242;
Table
36;
pg.
126ucker
(
table
30)

#
18242;
Table
36;
pg.
126
#
18242;
Table
36;
pg.
126
#
18242;
Table
36;
pg.
126
they
should
be.

#
18242;
Table
36;
pg.
126rids
(
text;
p.
83)

#
18242;
Table
36;
pg.
126
#
18242;
Table
36;
pg.
126
#
18242;
Table
36;
pg.
126
#
18242;
Table
36;
pg.
126
#
18242;
Table
36;
pg.
126
ners
(
text;
p.
83)

#
18242;
Table
36;
pg.
126
#
18242;
Table
36;
pg.
126
bass
(
table
30)

#
18242;
Table
36;
pg.
126
#
18242;
Table
36;
pg.
126o
gets
0;
not
NA
#
18242;
Table
36;
pg.
126
#
18242;
Table
36;
pg.
126s
gets
0;
not
NA
#
18242;
Table
36;
pg.
126
#
18242;
Table
36;
pg.
126
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)
age
assumed
Jude
et
al.;
1983.
(
see
readme
for
cite)

Jude
et
al.;
1983.
(
see
readme
for
cite)

Jude
et
al.;
1983.
(
see
readme
for
cite)

Jude
et
al.;
1983.
(
see
readme
for
cite)

Jude
et
al.;
1983.
(
see
readme
for
cite)

Jude
et
al.;
1983.
(
see
readme
for
cite)

Jude
et
al.;
1983.
(
see
readme
for
cite)

Jude
et
al.;
1983.
(
see
readme
for
cite)

Jude
et
al.;
1983.
(
see
readme
for
cite)

Jude
et
al.;
1983.
(
see
readme
for
cite)

Jude
et
al.;
1983.
(
see
readme
for
cite)

Jude
et
al.;
1983.
(
see
readme
for
cite)
NER
dace
chub
Jude
et
al.;
1983.
(
see
readme
for
cite)

Jude
et
al.;
1983.
(
see
readme
for
cite)

Jude
et
al.;
1983.
(
see
readme
for
cite)

Jude
et
al.;
1983.
(
see
readme
for
cite)

Jude
et
al.;
1983.
(
see
readme
for
cite)
s
centrarchidae
Jude
et
al.;
1983.
(
see
readme
for
cite)

Jude
et
al.;
1983.
(
see
readme
for
cite)

Jude
et
al.;
1983.
(
see
readme
for
cite)
crappie
species
Jude
et
al.;
1983.
(
see
readme
for
cite)
whitefish
Jude
et
al.;
1983.
(
see
readme
for
cite)

A.
Nuhfer
pers
com
(
see
readme)
age01
assumed
A.
Nuhfer
pers
com
(
see
readme)
age01
assumed
A.
Nuhfer
pers
com
(
see
readme)
age01
assumed
A.
Nuhfer
pers
com
(
see
readme)
age01
assumed
A.
Nuhfer
pers
com
(
see
readme)
age01
assumed
A.
Nuhfer
pers
com
(
see
readme)
age01
assumed
A.
Nuhfer
pers
com
(
see
readme)
age01
assumed
A.
Nuhfer
pers
com
(
see
readme)
age01
assumed
A.
Nuhfer
pers
com
(
see
readme)
age01
assumed
A.
Nuhfer
pers
com
(
see
readme)
age01
assumed
A.
Nuhfer
pers
com
(
see
readme)
age01
assumed
species
stage
stage.
sequencsurvival.
bystage.
fracnat.
mort.
m
fish.
mort.
f
fraction.
vu
bullhead.
spp
egg
1
0.1
2.302585093
0
0
bullhead.
spp
larvae
2
0.01
4.605170186
0
0
bullhead.
spp
age0
3
0.25
1.386294361
0
0
bullhead.
spp
age01
4
0.64
0.223143551
0.223143551
0.5
bullhead.
spp
age02
5
0.64
0.223143551
0.223143551
1
bullhead.
spp
age03
6
0.64
0.223143551
0.223143551
1
bullhead.
spp
age04
7
0.64
0.223143551
0.223143551
1
bullhead.
spp
age05
8
0.64
0.223143551
0.223143551
1
bullhead.
spp
age06
9
0.64
0.223143551
0.223143551
1
bullhead.
spp
age07
10
0.64
0.223143551
0.223143551
1
bullhead.
spp
age08
11
0.64
0.223143551
0.223143551
1
bullhead.
spp
age09
12
0.64
0.223143551
0.223143551
1
carp
egg
1
0.10
2.302585093
0
0
carp
larvae
2
0.01
4.605170186
0
0
carp
age0
3
0.25
1.386294361
0
0
carp
age01
4
0.7711
0.13
0.13
0.5
carp
age02
5
0.7711
0.13
0.13
1
carp
age03
6
0.7711
0.13
0.13
1
carp
age04
7
0.7711
0.13
0.13
1
carp
age05
8
0.7711
0.13
0.13
1
carp
age06
9
0.7711
0.13
0.13
1
carp
age07
10
0.7711
0.13
0.13
1
carp
age08
11
0.7711
0.13
0.13
1
carp
age09
12
0.7711
0.13
0.13
1
carp
age10
13
0.7711
0.13
0.13
1
carp
age11
14
0.7711
0.13
0.13
1
carp
age12
15
0.7711
0.13
0.13
1
carp
age13
16
0.7711
0.13
0.13
1
carp
age14
17
0.7711
0.13
0.13
1
carp
age15
18
0.7711
0.13
0.13
1
carp
age16
19
0.7711
0.13
0.13
1
carp
age17
20
0.7711
0.13
0.13
1
channel.
catfish
egg
1
0.1
2.302585093
0
0
channel.
catfish
larvae
2
0.01
4.605170186
0
0
channel.
catfish
age0
3
0.25
1.386294361
0
0
channel.
catfish
age01
4
0.44
0.410490276
0.410490276
0.5
channel.
catfish
age02
5
0.44
0.410490276
0.410490276
1
channel.
catfish
age03
6
0.44
0.410490276
0.410490276
1
channel.
catfish
age04
7
0.44
0.410490276
0.410490276
1
channel.
catfish
age05
8
0.44
0.410490276
0.410490276
1
channel.
catfish
age06
9
0.44
0.410490276
0.410490276
1
channel.
catfish
age07
10
0.44
0.410490276
0.410490276
1
channel.
catfish
age08
11
0.44
0.410490276
0.410490276
1
channel.
catfish
age09
12
0.44
0.410490276
0.410490276
1
channel.
catfish
age10
13
0.44
0.410490276
0.410490276
1
channel.
catfish
age11
14
0.44
0.410490276
0.410490276
1
channel.
catfish
age12
15
0.44
0.410490276
0.410490276
1
crappie
egg
1
0.165298888
1.8
0
0
crappie
larvae
2
0.607744935
0.498
0
0
crappie
age0
3
0.053632503
2.9256
0
0
crappie
age01
4
0.557663246
0.292
0.292
0.5
crappie
age02
5
0.557663246
0.292
0.292
1
crappie
age03
6
0.557663246
0.292
0.292
1
crappie
age04
7
0.557663246
0.292
0.292
1
crappie
age05
8
0.557663246
0.292
0.292
1
crappie
age06
9
0.557663246
0.292
0.292
1
crappie
age07
10
0.557663246
0.292
0.292
1
crappie
age08
11
0.557663246
0.292
0.292
1
crappie
age09
12
0.557663246
0.292
0.292
1
freshwater.
drum
egg
1
0.10331218
2.27
0
0
freshwater.
drum
larvae
2
0.002178759
6.129
0
0
freshwater.
drum
age0
3
0.100660682
1.148
1.148
0.5
freshwater.
drum
age01
4
0.733446956
0.155
0.155
1
freshwater.
drum
age02
5
0.733446956
0.155
0.155
1
freshwater.
drum
age03
6
0.733446956
0.155
0.155
1
freshwater.
drum
age04
7
0.733446956
0.155
0.155
1
freshwater.
drum
age05
8
0.733446956
0.155
0.155
1
freshwater.
drum
age06
9
0.733446956
0.155
0.155
1
freshwater.
drum
age07
10
0.733446956
0.155
0.155
1
freshwater.
drum
age08
11
0.733446956
0.155
0.155
1
freshwater.
drum
age09
12
0.733446956
0.155
0.155
1
freshwater.
drum
age10
13
0.733446956
0.155
0.155
1
freshwater.
drum
age11
14
0.733446956
0.155
0.155
1
freshwater.
drum
age12
15
0.733446956
0.155
0.155
1
gizzard.
shad
egg
1
0.1
2.302585093
0
0
gizzard.
shad
larvae
2
0.001789713
6.3257
0
0
gizzard.
shad
age0
3
0.600015374
0.5108
0
0
gizzard.
shad
age01
4
0.055337748
1.44715
1.44715
0.5
gizzard.
shad
age02
5
0.07860657
1.27165
1.27165
1
gizzard.
shad
age03
6
0.144829223
0.9661
0.9661
1
gizzard.
shad
age04
7
0.174592603
0.87265
0.87265
1
gizzard.
shad
age05
8
0.54541953
0.3031
0.3031
1
gizzard.
shad
age06
9
0.54541953
0.3031
0.3031
1
logperch
egg
1
0.1
2.302585093
0
0
logperch
larvae
2
0.149067545
1.903355754
0
0
logperch
age0
3
0.149067545
1.903355754
0
0
logperch
age01
4
0.496585304
0.7
0
0.5
logperch
age02
5
0.496585304
0.7
0
1
logperch
age03
6
0.496585304
0.7
0
1
muskellunge
egg
1
0.34
1.078809661
0
0
muskellunge
larvae
2
0.004138381
5.48745063
0
0
muskellunge
age0
3
0.004138381
5.48745063
0
0
muskellunge
age01
4
0.860707976
0.15
0
0
muskellunge
age02
5
0.860707976
0.15
0
0
muskellunge
age03
6
0.860707976
0.15
0
0
muskellunge
age04
7
0.860707976
0.15
0
0
muskellunge
age05
8
0.860707976
0.15
0
0
muskellunge
age06
9
0.860707976
0.15
0
0
muskellunge
age07
10
0.860707976
0.15
0
0
muskellunge
age08
11
0.860707976
0.15
0
0
muskellunge
age09
12
0.860707976
0.15
0
0
muskellunge
age10
13
0.860707976
0.075
0.075
0.5
muskellunge
age11
14
0.860707976
0.075
0.075
1
muskellunge
age12
15
0.860707976
0.075
0.075
1
muskellunge
age13
16
0.860707976
0.075
0.075
1
muskellunge
age14
17
0.860707976
0.075
0.075
1
muskellunge
age15
18
0.860707976
0.075
0.075
1
muskellunge
age16
19
0.860707976
0.075
0.075
1
muskellunge
age17
20
0.860707976
0.075
0.075
1
muskellunge
age18
21
0.860707976
0.075
0.075
1
muskellunge
age19
22
0.860707976
0.075
0.075
1
muskellunge
age20
23
0.860707976
0.075
0.075
1
muskellunge
age21
24
0.860707976
0.075
0.075
1
muskellunge
age22
25
0.860707976
0.075
0.075
1
muskellunge
age23
26
0.860707976
0.075
0.075
1
muskellunge
age24
27
0.860707976
0.075
0.075
1
muskellunge
age25
28
0.860707976
0.075
0.075
1
muskellunge
age26
29
0.860707976
0.075
0.075
1
muskellunge
age27
30
0.860707976
0.075
0.075
1
shiner.
spp
egg
1
0.1
2.302585093
0
0
shiner.
spp
larvae
2
0.009993704
4.6058
0
0
shiner.
spp
age0
3
0.460013243
0.7765
0
0
shiner.
spp
age01
4
0.689974941
0.3711
0
0.5
shiner.
spp
age02
5
0.009999702
4.6052
0
1
shiner.
spp
age03
6
0.009999702
4.6052
0
1
smallmouth.
bass
egg
1
0.15
1.897119985
0
0
smallmouth.
bass
larvae
2
0.0672
2.7
0
0
smallmouth.
bass
age0
3
0.64
0.446287103
0
0
smallmouth.
bass
age01
4
0.3362
0.86
0.23
0.5
smallmouth.
bass
age02
5
0.2247
1.1711
0.3220525
1
smallmouth.
bass
age03
6
0.3819
0.755022
0.20763105
1
smallmouth.
bass
age04
7
0.2625
1.049
0.288475
1
smallmouth.
bass
age05
8
0.3311
0.867
0.238425
1
smallmouth.
bass
age06
9
0.3311
0.867
0.238425
1
smallmouth.
bass
age07
10
0.3311
0.867
0.238425
1
smallmouth.
bass
age08
11
0.3311
0.867
0.238425
1
smallmouth.
bass
age09
12
0.3311
0.867
0.238425
1
suckers
egg
1
0.129250874
2.046
0
0
suckers
larvae
2
0.077498244
2.5575
0
0
suckers
age0
3
0.099858609
2.304
0
0
suckers
age01
4
0.578683259
0.2735
0.2735
0.5
suckers
age02
5
0.578683259
0.2735
0.2735
1
suckers
age03
6
0.578683259
0.2735
0.2735
1
suckers
age04
7
0.578683259
0.2735
0.2735
1
suckers
age05
8
0.578683259
0.2735
0.2735
1
suckers
age06
9
0.578683259
0.2735
0.2735
1
sunfish
egg
1
0.18
1.714798428
0
0
sunfish
larvae
2
0.5033317
0.686505883
0
0
sunfish
age0
3
0.5033317
0.686505883
0
0
sunfish
age01
4
0.2
1.609437912
0
0
sunfish
age02
5
0.2
1.609437912
0
0
sunfish
age03
6
0.05
1.497866137
1.497866137
0.5
sunfish
age04
7
0.05
1.497866137
1.497866137
1
sunfish
age05
8
0.05
1.497866137
1.497866137
1
sunfish
age06
9
0.05
1.497866137
1.497866137
1
sunfish
age07
10
0.05
1.497866137
1.497866137
1
sunfish
age08
11
0.05
1.497866137
1.497866137
1
white.
bass
egg
1
0.1
2.302585093
0
0
white.
bass
larvae
2
0.01
4.605170186
0
0
white.
bass
age0
3
0.25
1.386294361
0
0
white.
bass
age01
4
0.3263
0.42
0.7
0
white.
bass
age02
5
0.3263
0.42
0.7
0.5
white.
bass
age03
6
0.3263
0.42
0.7
1
white.
bass
age04
7
0.3263
0.42
0.7
1
white.
bass
age05
8
0.3263
0.42
0.7
1
white.
bass
age06
9
0.3263
0.42
0.7
1
white.
bass
age07
10
0.3263
0.42
0.7
1
yellow.
perch
egg
1
0.063696542
2.753625
0
0
yellow.
perch
larvae
2
0.028490061
3.5582
0
0
yellow.
perch
age0
3
0.080002292
2.5257
0
0
yellow.
perch
age01
4
0.696978998
0.361
0
0
yellow.
perch
age02
5
0.779969861
0.2485
0
0
yellow.
perch
age03
6
0.299991841
0.844
0.36
0.5
yellow.
perch
age04
7
0.299991841
0.844
0.36
1
yellow.
perch
age05
8
0.299991841
0.844
0.36
1
yellow.
perch
age06
9
0.299991841
0.844
0.36
1
smelt
egg
1
0.00001003
11.51
0
0
smelt
larvae
2
0.00408677
5.5
0
0
smelt
age01
3
0.65050909
0.4
0.03
0.5
smelt
age02
4
0.65050909
0.4
0.03
1
smelt
age03
5
0.65050909
0.4
0.03
1
smelt
age04
6
0.65050909
0.4
0.03
1
smelt
age05
7
0.65050909
0.4
0.03
1
smelt
age06
8
0.65050909
0.4
0.03
1
burbot
egg
1
0.1
2.302585093
0
0
burbot
larvae
2
0.000318729
8.051170858
0
0
burbot
age01
3
0.57
0.462118918
0.1
0.5
burbot
age02
4
0.57
0.462118918
0.1
1
burbot
age03
5
0.57
0.462118918
0.1
1
burbot
age04
6
0.57
0.462118918
0.1
1
burbot
age05
7
0.57
0.462118918
0.1
1
burbot
age06
8
0.57
0.462118918
0.1
1
burbot
age07
9
0.57
0.462118918
0.1
1
burbot
age08
10
0.57
0.462118918
0.1
1
burbot
age09
11
0.57
0.462118918
0.1
1
burbot
age10
12
0.57
0.462118918
0.1
1
whitefish
egg
1
0.1
2.302585093
0
0
whitefish
larvae
2
0.000274654
8.2
0
0
whitefish
juv
3
0.778800783
0.25
0
0
whitefish
age01
4
0.287365602
0.25
0.997
0.5
whitefish
age02
5
0.287365602
0.25
0.997
1
whitefish
age03
6
0.287365602
0.25
0.997
1
whitefish
age04
7
0.287365602
0.25
0.997
1
whitefish
age05
8
0.287365602
0.25
0.997
1
whitefish
age06
9
0.287365602
0.25
0.997
1
whitefish
age07
10
0.287365602
0.25
0.997
1
whitefish
age08
11
0.287365602
0.25
0.997
1
whitefish
age09
12
0.287365602
0.25
0.997
1
whitefish
age10
13
0.287365602
0.25
0.997
1
whitefish
age11
14
0.287365602
0.25
0.997
1
whitefish
age12
15
0.287365602
0.25
0.997
1
whitefish
age13
16
0.287365602
0.25
0.997
1
whitefish
age14
17
0.287365602
0.25
0.997
1
whitefish
age15
18
0.287365602
0.25
0.997
1
whitefish
age16
19
0.287365602
0.25
0.997
1
bluegill
egg
1
0.177639334
1.728
0
0
bluegill
larvae
2
0.562142445
0.576
0
0
bluegill
age0
3
0.0099
4.615
0
0
bluegill
age01
4
0.6771
0.39
0
0
bluegill
age02
5
0.8595
0.151404454
0
0
bluegill
age03
6
0.23
0.734837985
0.734837985
0.5
bluegill
age04
7
0.23
0.734837985
0.734837985
1
bluegill
age05
8
0.23
0.734837985
0.734837985
1
bluegill
age06
9
0.23
0.734837985
0.734837985
1
bluegill
age07
10
0.23
0.734837985
0.734837985
1
bluegill
age08
11
0.23
0.734837985
0.734837985
1
bluegill
age09
12
0.23
0.734837985
0.734837985
1
bluntnose.
minnow
egg
1
0.1
2.3
0
0
bluntnose.
minnow
larvae
2
0.12727
2.061444465
0
0
bluntnose.
minnow
age0
3
0.12727
2.061444465
0
0
bluntnose.
minnow
age01
4
0.3679
1
0
0.5
bluntnose.
minnow
age02
5
0.3679
1
0
1
bluntnose.
minnow
age03
6
0.3679
1
0
1
golden.
redhorse
egg
1
0.100158635
2.301
0
0
golden.
redhorse
larvae
2
0.100158635
2.301
0
0
golden.
redhorse
age0
3
0.050337749
2.989
0
0
golden.
redhorse
age01
4
0.578393989
0.5475
0
0.5
golden.
redhorse
age02
5
0.578393989
0.5475
0
1
golden.
redhorse
age03
6
0.578393989
0.5475
0
1
golden.
redhorse
age04
7
0.578393989
0.5475
0
1
golden.
redhorse
age05
8
0.578393989
0.5475
0
1
golden.
redhorse
age06
9
0.578393989
0.5475
0
1
golden.
redhorse
age07
10
0.578393989
0.5475
0
1
alewife
egg
1
1.00293E­
05
11.51
0
0
alewife
larvae
2
0.004086771
5.5
0
0
alewife
age01
3
0.60653066
0.5
0
0
alewife
age02
4
0.60653066
0.5
0
0
alewife
age03
5
0.60653066
0.5
0
0
alewife
age04
6
0.60653066
0.5
0
0.45
alewife
age05
7
0.60653066
0.5
0
0.9
alewife
age06
8
0.60653066
0.5
0
1
alewife
age07
9
0.60653066
0.5
0
1
walleye
egg
1
0.35
1.049822124
0
0
walleye
larvae
2
0.028661515
3.5522
0
0
walleye
age0
3
0.144496499
1.9345
0
0
walleye
age01
4
0.449328964
0.7
0.1
0.5
walleye
age02
5
0.449328964
0.7
0.1
1
walleye
age03
6
0.449328964
0.7
0.1
1
walleye
age04
7
0.449328964
0.7
0.1
1
walleye
age05
8
0.449328964
0.7
0.1
1
walleye
age06
9
0.449328964
0.7
0.1
1
walleye
age07
10
0.449328964
0.7
0.1
1
walleye
age08
11
0.449328964
0.7
0.1
1
walleye
age09
12
0.449328964
0.7
0.1
1
notes.
survival.
rate
notes.
nat.
mort
notes.
fish.
mortnotes.
fraction.
vulnerable
assumed
by
AGRET
Calculated
usinassumed
to
beassumed
to
be
0
based
on
Marca's
econ
table
channel.
catfish.
[
21955];
TableCalculated
usinassumed
to
beassumed
to
be
0
based
on
Marca's
econ
table
channel.
catfish.
[
21955];
TableCalculated
usinassumed
to
beassumed
to
be
0
based
on
Marca's
econ
table
Brown.
bullhead.
M335
and
R28Calculated
usinCalculated
usinassumed
based
on
marca's
econ
table
Brown.
bullhead.
M335
and
R28Calculated
usinCalculated
usinassumed
based
on
marca's
econ
table
Brown.
bullhead.
M335
and
R28Calculated
usinCalculated
usinassumed
based
on
marca's
econ
table
Brown.
bullhead.
M335
and
R28Calculated
usinCalculated
usinassumed
based
on
marca's
econ
table
Brown.
bullhead.
M335
and
R28Calculated
usinCalculated
usinassumed
based
on
marca's
econ
table
Brown.
bullhead.
M335
and
R28Calculated
usinCalculated
usinassumed
based
on
marca's
econ
table
Brown.
bullhead.
M335
and
R28Calculated
usinCalculated
usinassumed
based
on
marca's
econ
table
Brown.
bullhead.
M335
and
R28Calculated
usinCalculated
usinassumed
based
on
marca's
econ
table
Brown.
bullhead.
M335
and
R28Calculated
usinCalculated
usinassumed
based
on
marca's
econ
table
assumed
by
AGRET
Calculated
usinassumed
to
beassumed
by
AGRET
(
1
are
for
modeling
purposes)
[
21955];
Table
11;
Slarvae­
ageCalculated
usinassumed
to
beassumed
by
AGRET
(
1
are
for
modeling
purposes)
[
21955];
Table
11;
Slarvae­
ageCalculated
usinassumed
to
beassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AAassumed
by
AAGRET
based
on
Marca's
econtable
assumed
by
AGRET
Calculated
usinassumed
to
beassumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recr
[
21955];
Table
11;
Slarvae­
ageCalculated
usinassumed
to
beassumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recr
[
21955];
Table
11;
Slarvae­
ageCalculated
usinassumed
to
beassumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recr
E.
E.
Miller,
1966,
In:
Inland
FisCalculated
usinCalculated
usinassumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recr
E.
E.
Miller,
1966,
In:
Inland
FisCalculated
usinCalculated
usinassumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recr
E.
E.
Miller,
1966,
In:
Inland
FisCalculated
usinCalculated
usinassumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recr
E.
E.
Miller,
1966,
In:
Inland
FisCalculated
usinCalculated
usinassumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recr
E.
E.
Miller,
1966,
In:
Inland
FisCalculated
usinCalculated
usinassumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recr
E.
E.
Miller,
1966,
In:
Inland
FisCalculated
usinCalculated
usinassumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recr
E.
E.
Miller,
1966,
In:
Inland
FisCalculated
usinCalculated
usinassumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recr
E.
E.
Miller,
1966,
In:
Inland
FisCalculated
usinCalculated
usinassumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recr
E.
E.
Miller,
1966,
In:
Inland
FisCalculated
usinCalculated
usinassumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recr
E.
E.
Miller,
1966,
In:
Inland
FisCalculated
usinCalculated
usinassumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recr
E.
E.
Miller,
1966,
In:
Inland
FisCalculated
usinCalculated
usinassumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recr
E.
E.
Miller,
1966,
In:
Inland
FisCalculated
usinCalculated
usinassumed
to
be
same
as
hake
(
Saila
et
al.,
1997)
(
because
only
fished
recr
Calculated
using
S=
e^­(
m+
f)
black.
crappie.
hassumed
to
beassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
black.
crappie.
hassumed
to
beassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
black.
crappie.
hassumed
to
beassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
black.
crappie.
hhttp://
www.
mvrassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
black.
crappie.
hhttp://
www.
mvrassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
black.
crappie.
hhttp://
www.
mvrassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
black.
crappie.
hhttp://
www.
mvrassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
black.
crappie.
hhttp://
www.
mvrassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
black.
crappie.
hhttp://
www.
mvrassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
black.
crappie.
hhttp://
www.
mvrassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
black.
crappie.
hhttp://
www.
mvrassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
black.
crappie.
hhttp://
www.
mvrassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
http://
www.
mvr.
assumed
to
beassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
http://
www.
mvr.
assumed
to
beassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
http://
www.
mvr.
http://
www.
mvrassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andassumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
Calculated
usinassumed
0
by
assumed
by
AGRET
(
1
are
for
modeling
purposes)
calculated
using
s=
exp
(­(
m+
f)[
26887];
Table
1assumed
0
by
assumed
by
AGREt
calculated
using
s=
exp
(­(
m+
f)[
26887];
Table
1assumed
0
by
assumed
by
AGREt
calculated
using
s=
exp
(­(
m+
f)[
26887];
Table
1[
26887];
Table
assumed
by
AGREt
calculated
using
s=
exp
(­(
m+
f)[
26887];
Table
1[
26887];
Table
assumed
by
AGREt
calculated
using
s=
exp
(­(
m+
f)[
26887];
Table
1[
26887];
Table
assumed
by
AGREt
calculated
using
s=
exp
(­(
m+
f)[
26887];
Table
1[
26887];
Table
assumed
by
AGREt
calculated
using
s=
exp
(­(
m+
f)[
26887];
Table
1[
26887];
Table
assumed
by
AGREt
calculated
using
s=
exp
(­(
m+
f)
assumed
by
AGassumed
by
AGassumed
by
AGREt
assumed
by
AGRET
Calculated
usinassumed
by
AGassumed
by
AGRET
see
output
file.
Used
survival
laCalculated
usinassumed
by
AGassumed
by
AGRET
see
output
file.
Used
survival
laCalculated
usinassumed
by
AGassumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
logperch.
Keyfaassumed
by
AGassumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
logperch.
Keyfacassumed
by
AGassumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
logperch.
Keyfacassumed
by
AGassumed
by
AGRET
J62;
as
cited
in
Carlander,
K.
DCalculated
usinassumed
to
beassumed
by
AGRET
see
output
file.
Used
survival
laCalculated
usinassumed
by
AGhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
see
output
file.
Used
survival
laCalculated
usinassumed
by
AGhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
assumed
by
AGhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
assumed
by
AGhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
assumed
by
AGhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
assumed
by
AGhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
assumed
by
AGhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
assumed
by
AGhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
assumed
by
AGhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
assumed
by
AGhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
assumed
by
AGhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
Froese,
R.
andhttp://
www.
pabulletin.
com/
secure/
data/
vol29/
29­
28/
29_
28_
rr.
pdf
(
36
inche
Emerald
shiner.
assumed
by
AEmerald
shiner.
Emerald
shinerEmerald
shiner.
assumed
by
AGRET
(
1
are
for
modeling
purposes)
Emerald
shiner.
calculated
usiEmerald
shiner.
Emerald
shinerEmerald
shiner.
assumed
by
AGREt
Emerald
shiner.
calculated
usiEmerald
shiner.
Emerald
shinerEmerald
shiner.
assumed
by
AGREt
Emerald
shiner.
calculated
usiEmerald
shiner.
Emerald
shinerEmerald
shiner.
assumed
by
AGREt
Emerald
shiner.
calculated
usiEmerald
shiner.
Emerald
shinerEmerald
shiner.
assumed
by
AGREt
Emerald
shiner.
calculated
usiEmerald
shiner.
Emerald
shinerEmerald
shiner.
assumed
by
AGREt
P195;
as
cited
in
Carlander,
KCalculated
usinAssumed
0
assumed
by
AGRET
based
on
mortality
rates
Calculated
using
S=
e^­(
m+
f)
http://
www.
mvr.
Assumed
0
assumed
by
AGRET
based
on
mortality
rates
S576;
as
cited
in
Carlander,
KCalculated
usinassumed
by
AGassumed
by
AGRET
based
on
mortality
rates
Calculated
using
S=
e^­(
m+
f)
L178;
as
cited
inL178;
as
cited
assumed
by
AGRET
based
on
mortality
rates
Calculated
using
S=
e^­(
m+
f)
B192;
as
cited
iassumed
27.5%
assumed
by
AGRET
based
on
mortality
rates
Calculated
using
S=
e^­(
m+
f)
B192;
as
cited
iassumed
27.5%
assumed
by
AGRET
based
on
mortality
rates
Calculated
using
S=
e^­(
m+
f)
B192;
as
cited
iassumed
27.5%
assumed
by
AGRET
based
on
mortality
rates
Calculated
using
S=
e^­(
m+
f)
L178;
as
cited
inassumed
27.5%
assumed
by
AGRET
based
on
mortality
rates
Calculated
using
S=
e^­(
m+
f)
L178;
as
cited
inassumed
27.5%
assumed
by
AGRET
based
on
mortality
rates
Calculated
using
S=
e^­(
m+
f)
L178;
as
cited
inassumed
27.5%
assumed
by
AGRET
based
on
mortality
rates
Calculated
using
S=
e^­(
m+
f)
L178;
as
cited
inassumed
27.5%
assumed
by
AGRET
based
on
mortality
rates
Calculated
using
S=
e^­(
m+
f)
L178;
as
cited
inassumed
27.5%
assumed
by
AGRET
based
on
mortality
rates
Calculated
using
S=
e^­(
m+
f)
http://
www.
mvr.
assumed
to
beassumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
http://
www.
mvr.
assumed
to
beassumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
http://
www.
mvr.
assumed
to
beassumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
http://
www.
mvr.
http://
www.
mvrassumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
http://
www.
mvr.
http://
www.
mvrassumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
http://
www.
mvr.
http://
www.
mvrassumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
http://
www.
mvr.
http://
www.
mvrassumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
http://
www.
mvr.
http://
www.
mvrassumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
http://
www.
mvr.
http://
www.
mvrassumed
by
AGRET
Pumpkinseed.
M527;
as
cited
Calculated
usinAssumed
0
(
ABAssumed
0
(
ABeaulieu)
Slarvae,
age1=
Safter.
age0/
Se,
lCalculated
usinAssumed
0
(
ABAssumed
0
(
ABeaulieu)
Slarvae,
age1=
Safter.
age0/
Se,
lCalculated
usinAssumed
0
(
ABAssumed
0
(
ABeaulieu)
Pumpkinseed.
R34;
as
cited
inCalculated
usinassumed
by
AGassumed
by
AGRET
Pumpkinseed.
R34;
as
cited
inCalculated
usinassumed
by
AGassumed
by
AGRET
Pumpkinseed.
R34;
as
cited
inPumpkinseed.
RPumpkinseed.
Rassumed
by
AGRET
Pumpkinseed.
R34;
as
cited
inPumpkinseed.
RPumpkinseed.
Rassumed
by
AGRET
Pumpkinseed.
R34;
as
cited
inPumpkinseed.
RPumpkinseed.
Rassumed
by
AGRET
Pumpkinseed.
R34;
as
cited
inPumpkinseed.
RPumpkinseed.
Rassumed
by
AGRET
Pumpkinseed.
R34;
as
cited
inPumpkinseed.
RPumpkinseed.
Rassumed
by
AGRET
Pumpkinseed.
R34;
as
cited
inPumpkinseed.
RPumpkinseed.
Rassumed
by
AGRET
assumed
by
AGRET
Calculated
usinMcDermot
et
aassumed
by
AGRET
based
on
fishing
mortality
[
21955];
Table
11;
Slarvae­
ageCalculated
usinMcDermot
et
aassumed
by
AGRET
based
on
fishing
mortality
[
21955];
Table
11;
Slarvae­
ageCalculated
usinMcDermot
et
aassumed
by
AGRET
based
on
fishing
mortality
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
McDermot
et
aassumed
by
AGRET
based
on
fishing
mortality
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
McDermot
et
aassumed
by
AGRET
based
on
fishing
mortality
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
McDermot
et
aassumed
by
AGRET
based
on
fishing
mortality
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
McDermot
et
aassumed
by
AGRET
based
on
fishing
mortality
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
McDermot
et
aassumed
by
AGRET
based
on
fishing
mortality
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
McDermot
et
aassumed
by
AGRET
based
on
fishing
mortality
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
McDermot
et
aassumed
by
AGRET
based
on
fishing
mortality
White.
perch.
PSEG,
1999
[
26PSEG,
1999
[
26http://
www.
dnr.
assumed
by
AGREt
calculated
using
s=
exp
(­(
m+
f)
combined
prolarhttp://
www.
dnr.
assumed
by
AGREt
calculated
using
s=
exp
(­(
m+
f)[
26887];
Table
1http://
www.
dnr.
assumed
by
AGREt
calculated
using
s=
exp
(­(
m+
f)[
26887];
Table
1http://
www.
dnr.
assumed
by
AGREt
calculated
using
s=
exp
(­(
m+
f)[
26887];
Table
1http://
www.
dnr.
assumed
by
AGREt
calculated
using
s=
exp
(­(
m+
f)[
26887];
Table
1http://
www.
dnr.
assumed
by
AGREt
calculated
using
s=
exp
(­(
m+
f)[
26887];
Table
1http://
www.
dnr.
assumed
by
AGREt
calculated
using
s=
exp
(­(
m+
f)[
26887];
Table
1http://
www.
dnr.
assumed
by
AGREt
calculated
using
s=
exp
(­(
m+
f)
assumed
by
AGhttp://
www.
dnr.
assumed
by
AGREt
calculated
using
Se
=
exp
(­
m­[
21960]
[
21960]
assumed
by
Agret
calculated
using
Se
=
exp
(­
m­[
21960]
[
21960]
assumed
by
Agret
calculated
using
Se
=
exp
(­
m­[
21960]
[
21960]
assumed
by
Agret
calculated
using
Se
=
exp
(­
m­[
21960]
[
21960]
assumed
by
Agret
calculated
using
Se
=
exp
(­
m­[
21960]
[
21960]
assumed
by
Agret
calculated
using
Se
=
exp
(­
m­[
21960]
[
21960]
assumed
by
Agret
calculated
using
Se
=
exp
(­
m­[
21960]
[
21960]
assumed
by
Agret
calculated
using
Se
=
exp
(­
m­[
21960]
[
21960]
assumed
by
Agret
assumed
by
JHAZEN
Calculated
using
S=
e^­(
m+
f)
(
FYI:
egg
duration
30
days
at
6.1
degrees
C
(
F&
P))
see
output
file
Total
annual
mortality
=
43%,
tcalculated
usingassumed
baseassumed.
No
minimum
size
for
fishing.
http://
sites.
state.
pa.
us/
Fish/
2001s­
Total
annual
mortality
=
43%,
tcalculated
usingassumed
baseassumed.
No
minimum
size
for
fishing
Total
annual
mortality
=
43%,
tcalculated
usingassumed
baseassumed.
No
minimum
size
for
fishing
Total
annual
mortality
=
43%,
tcalculated
usingassumed
baseassumed.
No
minimum
size
for
fishing
Total
annual
mortality
=
43%,
tcalculated
usingassumed
baseassumed.
No
minimum
size
for
fishing
Total
annual
mortality
=
43%,
tcalculated
usingassumed
baseassumed.
No
minimum
size
for
fishing
Total
annual
mortality
=
43%,
tcalculated
usingassumed
baseassumed.
No
minimum
size
for
fishing
Total
annual
mortality
=
43%,
tcalculated
usingassumed
baseassumed.
No
minimum
size
for
fishing
Total
annual
mortality
=
43%,
tcalculated
usingassumed
baseassumed.
No
minimum
size
for
fishing
Total
annual
mortality
=
43%,
tcalculated
usingassumed
baseassumed.
No
minimum
size
for
fishing
assumed
by
JHAZEN
Calculated
using
S=
e^­(
m+
f)
(
FYI
­
F&
P.
duration
is
140
d.
(
http://
www.
mnr.
gov.
on.
ca/
MNR/
pubs/
Whit
calculated
using
s=
exp
(­(
m+
f)
Froese
&
Pauly
M
(
1/
d)
of
0.2
*
larval
duration
of
41
calculated
using
s=
exp
(­(
m+
f)
http://
www.
dnr.
state.
mi.
us/
www/
ifr/
ifrlibra/
research/
reports/
2034rr.
pdf
Lake
Superior.
Instantaneous
natu
calculated
using
s=
exp
(­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.[
27012]
Lake
Eassumed
no
minimum
size
http://
www.
dnr.
state.
mi.
us/
pdfs
calculated
using
s=
exp
(­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.[
27012]
Lake
Eassumed
no
minimum
size
http://
www.
dnr.
state.
mi.
us/
pdfs
calculated
using
s=
exp
(­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.[
27012]
Lake
Eassumed
no
minimum
size
http://
www.
dnr.
state.
mi.
us/
pdfs
calculated
using
s=
exp
(­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.[
27012]
Lake
Eassumed
no
minimum
size
http://
www.
dnr.
state.
mi.
us/
pdfs
calculated
using
s=
exp
(­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.[
27012]
Lake
Eassumed
no
minimum
size
http://
www.
dnr.
state.
mi.
us/
pdfs
calculated
using
s=
exp
(­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.[
27012]
Lake
Eassumed
no
minimum
size
http://
www.
dnr.
state.
mi.
us/
pdfs
calculated
using
s=
exp
(­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.[
27012]
Lake
Eassumed
no
minimum
size
http://
www.
dnr.
state.
mi.
us/
pdfs
calculated
using
s=
exp
(­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.[
27012]
Lake
Eassumed
no
minimum
size
http://
www.
dnr.
state.
mi.
us/
pdfs
calculated
using
s=
exp
(­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.[
27012]
Lake
Eassumed
no
minimum
size
http://
www.
dnr.
state.
mi.
us/
pdfs
calculated
using
s=
exp
(­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.[
27012]
Lake
Eassumed
no
minimum
size
http://
www.
dnr.
state.
mi.
us/
pdfs
calculated
using
s=
exp
(­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.[
27012]
Lake
Eassumed
no
minimum
size
http://
www.
dnr.
state.
mi.
us/
pdfs
calculated
using
s=
exp
(­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.[
27012]
Lake
Eassumed
no
minimum
size
http://
www.
dnr.
state.
mi.
us/
pdfs
calculated
using
s=
exp
(­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.[
27012]
Lake
Eassumed
no
minimum
size
http://
www.
dnr.
state.
mi.
us/
pdfs
calculated
using
s=
exp
(­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.[
27012]
Lake
Eassumed
no
minimum
size
http://
www.
dnr.
state.
mi.
us/
pdfs
calculated
using
s=
exp
(­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.[
27012]
Lake
Eassumed
no
minimum
size
http://
www.
dnr.
state.
mi.
us/
pdfs
calculated
using
s=
exp
(­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.[
27012]
Lake
Eassumed
no
minimum
size
http://
www.
dnr.
state.
mi.
us/
pdfs
Calculated
using
S=
e^­(
m+
f)
http://
www.
mvr.
assumed
to
beassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
http://
www.
mvr.
assumed
to
beassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
http://
www.
mvr.
assumed
to
beassumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
assumed
to
beassumed
by
AGRET
(
1
are
for
modeling
purposes)
S536;
as
cited
in
Carlander,
KCalculated
usinassumed
to
beassumed
by
AGRET
(
1
are
for
modeling
purposes)
mult.
refs;
as
cited
in
Carlandemult.
refs;
as
citassumed
to
beassumed
by
AGRET
(
1
are
for
modeling
purposes)
mult.
refs;
as
cited
in
Carlandemult.
refs;
as
citassumed
to
beassumed
by
AGRET
(
1
are
for
modeling
purposes)
mult.
refs;
as
cited
in
Carlandemult.
refs;
as
citassumed
to
beassumed
by
AGRET
(
1
are
for
modeling
purposes)
mult.
refs;
as
cited
in
Carlandemult.
refs;
as
citassumed
to
beassumed
by
AGRET
(
1
are
for
modeling
purposes)
mult.
refs;
as
cited
in
Carlandemult.
refs;
as
citassumed
to
beassumed
by
AGRET
(
1
are
for
modeling
purposes)
mult.
refs;
as
cited
in
Carlandemult.
refs;
as
citassumed
to
beassumed
by
AGRET
(
1
are
for
modeling
purposes)
mult.
refs;
as
cited
in
Carlandemult.
refs;
as
citassumed
to
beassumed
by
AGRET
(
1
are
for
modeling
purposes)
assumed
by
AGRET
Calculated
usinassumed
0
by
assumed
by
AGRET
(
1
are
for
modeling
purposes)
bluntnose.
minnow.
see
output
Calculated
usinassumed
0
by
assumed
by
AGRET
(
1
are
for
modeling
purposes)
bluntnose.
minnow.
see
output
Calculated
usinassumed
0
by
assumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
assumed
0
by
assumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
assumed
0
by
assumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
Froese,
R.
and
assumed
0
by
assumed
by
AGRET
(
1
are
for
modeling
purposes)
Calculated
using
S=
e^­(
m+
f)
Shorthead.
redhassumed
to
beassumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
Shorthead.
redhassumed
to
beassumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
Shorthead.
redhassumed
to
beassumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
Shorthead.
redhassumed
to
beassumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
Shorthead.
redhassumed
to
beassumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
Shorthead.
redhassumed
to
beassumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
Shorthead.
redhassumed
to
beassumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
Shorthead.
redhassumed
to
beassumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
Shorthead.
redhassumed
to
beassumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
Shorthead.
redhassumed
to
beassumed
by
AGRET
calculated
using
Se
=
exp
(­
m+[
21960];
lake
MiPSEG,
1999
[
2PSEG,
1999
[
26046];
appendix
F,
Attachment
F
calculated
using
Se
=
exp
(­
m+[
21960];
lake
Miaccording
to
MPSEG,
1999
[
26046];
appendix
F,
Attachment
F
calculated
using
Se
=
exp
(­
m+[
21960];
lake
Miaccording
to
MPSEG,
1999
[
26046];
appendix
F,
Attachment
F
calculated
using
Se
=
exp
(­
m+[
21960];
lake
Miaccording
to
MPSEG,
1999
[
26046];
appendix
F,
Attachment
F
calculated
using
Se
=
exp
(­
m+[
21960];
lake
Miaccording
to
MPSEG,
1999
[
26046];
appendix
F,
Attachment
F
calculated
using
Se
=
exp
(­
m+[
21960];
lake
Miaccording
to
MPSEG,
1999
[
26046];
appendix
F,
Attachment
F
calculated
using
Se
=
exp
(­
m+[
21960];
lake
Miaccording
to
MPSEG,
1999
[
26046];
appendix
F,
Attachment
F
calculated
using
Se
=
exp
(­
m+[
21960];
lake
Miaccording
to
MPSEG,
1999
[
26046];
appendix
F,
Attachment
F
calculated
using
Se
=
exp
(­
m+[
21960];
lake
Miaccording
to
MPSEG,
1999
[
26046];
appendix
F,
Attachment
F
Table
9­
16,
C433;
as
cited
in
CCalculated
usinhttp://
www.
dnr.
assumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
http://
www.
mvr.
http://
www.
dnr.
assumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
http://
www.
mvr.
http://
www.
dnr.
assumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.
assumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.
assumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.
assumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.
assumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.
assumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.
assumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.
assumed
by
AGRET
Calculated
using
S=
e^­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.
assumed
by
AGadded
by
Jhazen
on
2/
12/
02
to
match
length
data
Calculated
using
S=
e^­(
m+
f)
http://
www.
dnr.
shttp://
www.
dnr.
assumed
by
AGRET
ecreationally)
ecreationally)
ecreationally)
ecreationally)
ecreationally)
ecreationally)
ecreationally)
ecreationally)
ecreationally)
ecreationally)
ecreationally)
ecreationally)
ecreationally)
ecreationally)
ecreationally)
adjust
these
mortalities
as
we
did
in
Ohio???
adjust
these
mortalities
as
we
did
in
Ohio???
adjust
these
mortalities
as
we
did
in
Ohio???
adjust
these
mortalities
as
we
did
in
Ohio???
adjust
these
mortalities
as
we
did
in
Ohio???
adjust
these
mortalities
as
we
did
in
Ohio???
adjust
these
mortalities
as
we
did
in
Ohio???
adjust
these
mortalities
as
we
did
in
Ohio???
adjust
these
mortalities
as
we
did
in
Ohio???
adjust
these
mortalities
as
we
did
in
Ohio???
adjust
these
mortalities
as
we
did
in
Ohio???
adjust
these
mortalities
as
we
did
in
Ohio???
adjust
these
mortalities
as
we
did
in
Ohio???

hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
hes
are
914
mm,
which
is
about
age
10:
therefore
assumed
to
be
fished
not
earlier
than
age
10)
1s­
4.
pdf
hitefish_
bibliog.
pdf
Hindley,
B.
A.
1984.
Lake
trout
and
lake
whitefish
egg
survival
in
Lake
Simcoe.
M.
Sc.
Thesis,
York
University.
Toront
atural
mortality
rate
=
0.25
(
22%).
fs/
fishing/
fishguide/
fgpage24.
htm
fs/
fishing/
fishguide/
fgpage24.
htm
fs/
fishing/
fishguide/
fgpage24.
htm
fs/
fishing/
fishguide/
fgpage24.
htm
fs/
fishing/
fishguide/
fgpage24.
htm
fs/
fishing/
fishguide/
fgpage24.
htm
fs/
fishing/
fishguide/
fgpage24.
htm
fs/
fishing/
fishguide/
fgpage24.
htm
fs/
fishing/
fishguide/
fgpage24.
htm
fs/
fishing/
fishguide/
fgpage24.
htm
fs/
fishing/
fishguide/
fgpage24.
htm
fs/
fishing/
fishguide/
fgpage24.
htm
fs/
fishing/
fishguide/
fgpage24.
htm
fs/
fishing/
fishguide/
fgpage24.
htm
fs/
fishing/
fishguide/
fgpage24.
htm
fs/
fishing/
fishguide/
fgpage24.
htm
onto,
Ontario.
78
p.
experimental
natural
mortality
of
0­
24%.)
species
alpha.
as.
in.
Froese
alpha.
mm.
to.
gm
beta.
mm.
to.
gm
notes
dummy
­
99.00
­
99.00
­
99.00
dummy
alewife
NA
1.00000000
1.00000000
assumed
to
be
bullhead.
spp
0.0101
0.0000087967
3.0600
Black.
bullhead.
carp
0.0116
0.0000109511
3.0250
Froese,
R.
and
channel.
catfish
0.004
0.0000029448
3.1330
Froese,
R.
and
crappie
0.0118
0.0000101364
3.0660
black.
crappie.
h
freshwater.
drum
0
1.0000000000
1.0000
assumed
to
be
gizzard.
shad
1
1
1
weights
are
kno
logperch
­
6.2807
5.23962E­
07
3.6412
logperch.
T155,
muskellunge
0.0058
0.0000055902
3.016
Froese,
R.
and
shiner.
spp
­
3.9417
0.0001143668
2.9218
Emerald
shiner
smallmouth.
bass
0.0206
0.0000249383
2.9170
Froese,
R.
and
suckers
0.0077
0.0000061304
3.099
River.
Carpsuc
sunfish
0.0061
0.0000033368
3.262
Froese,
R.
and
walleye
0.0039
0.0000022965
3.23
Froese,
R.
and
white.
bass
NA
1.0000000000
1.0000
assumed
to
be
yellow.
perch
1
1
1
weights
are
kno
smelt
NA
0.00000523
3.11400
Rainbow
smelt.
burbot
NA
0.000002084
3.208
Johnson
in
http
whitefish
0.0067
0.0000047214
3.152
Froese
and
Pau
bluegill
0.007
0.0000043261
3.2090
Froese,
R.
and
bluntnose.
minnow
0.0977
0.0004465752
2.3400
Froese,
R.
and
golden.
redhorse
0.0132
0.0000139821
2.975
Golden.
Redhor
be
1,
because
we
have
good
weight
data
for
the
species
at
Salem,
which
we
use
to
estimate
YPR
and
PFG
ad.
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Sept.
2,
2001.
Moorman,
R.
B.,
1957
/
Iowa
ponds
(
nd
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
15,
2001.
Runnström,
S.,
1952.
/
Des
Moines
R.,
Iowa.
Alpha
nd
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
15,
2001.
Muncy,
R.
J.,
1959
.
/
Des
Moines
R.,
Iowa.
Alpha
r
e.
hFroese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Sep.
3,
2001.
Carlander,
K.
D.,
1977.
Handbook
of
f
be
1,
because
we
have
good
weight
data
for
the
species
at
Salem,
which
we
use
to
estimate
YPR
and
PFG
known,
therefore
1
for
modeling
purposes
55,
as
cited
in
Carlander,
1997,
pg.
80.
IL
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Sep.
10,
2001
Bryant,
W.
C.
and
K.
D.
Smith,
1988.
The
status
of
th
ner.
Fuchs,
1967.
[
27527]
nd
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
July
1,
2001.
Brown,
E.
H.,
Jr.,
1960.
/
Little
Miami
R.,
OH.
Alpha
re
ucker.
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Sep.
10,
2001Carlander,
K.
D.,
1969.
Handbook
nd
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Pumpkinseed.
Accessed
Sep.
10,
2001.
Cooper,
E.
L.,
C.
C.
Wagner
and
G.
E.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Sep.
10,
2001.
Stephenson,
S.
A.
and
W.
T.
Momot,
1991.
Food
hab
be
1,
because
we
have
weight
data.
known,
therefore
1
for
modeling
purposes
elt.
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
7,
2001
Carlander,
K.
D.,
1953.
First
supplem
ttp://
www­
heb.
pac.
dfo­
mpo.
gc.
ca/
congress/
Burbot.
pdf*
for
Lake
Superior
(
Froese
and
Pauly
2001.
Lake
Vygozero,
Former
USSR.
Has
Pauly
2001.
Lake
Erie.
Lake
whitefish
nd
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
15,
2001.

Fessler,
F.
R.,
1949.
Iowa,
ponds/
IA.
Alpha
report
nd
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
November
29,
2001.
Chadwick,
E.
M.
P.,
1976
Fathead
Minnow,
Re
horse.
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
Sep.
10,
2001Carlander,
K.
D.,
1969.
Handbook
o
s
(
median
record)
ha
reported
as
0.0116
cm
TL
a
reported
as
0.0040
cm
TL
of
freshwater
fishery
biology,
volume
2.
The
Iowa
State
University
Press,
Ames,
Iowa
f
the
muskellunge
in
Lake
St.
Clair,
Michigan,
1978­
86.
Michigan
Dept.
Nat.
Res.,
Fish.
Div.,
Fish.
Res.
Rep.
No.
1955.
13
p
/
St.
Claire
M
reported
as
0.0206
cm
TL
ok
of
freshwater
fishery
biology,
volume
1.
The
Iowa
State
University
Press,
Ames.
Iowa/
Missouri
.
E.
Krantz,
1971.
Bluegills
dominate
production
in
mixed
populations
of
fishes.
Ecology
52(
2):
280­
290.
habits
and
growth
of
walleye,
Stizostedion
vitreum,
smallmouth
bass,
Micropterus
dolomieui,
and
northern
pike,
Esox
lucius,
in
the
Kamin
ement
to
the
Handbook
of
freshwater
fishery
biology.
Wm.
C.
Brown,
Dubuque,
Iowa.
p.
277­
429
as
SL
a=
0.006
b=
3.11)

orted
as
0.007
cm
TL
ed
Deer
Lake,
Canada.
(
was
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishbase.
org.
Accessed
June
15,
2001.

Smal
k
of
freshwater
fishery
biology,
volume
1.
The
Iowa
State
University
Press,
Ames.
Iowa
e
Michigan
ministiquia
River,
Ontario.
Can.
Field
Nat.
105(
4):
517­
521/
Kaministiquia
River
all,
J.
W.
Jr.,
1975.
/
Elkhorn
Cr.,
Kentucky.
Alpha
reported
as
0.0011
cm
TL
,
beta
3.193)
species
stage
stage.
sequence
total.
len.
mm
weight.
g
weight.
lbs
bullhead.
spp
egg
1
3
NA
NA
bullhead.
spp
larvae
2
20
NA
NA
bullhead.
spp
age0
3
38
NA
NA
bullhead.
spp
age01
4
112
NA
NA
bullhead.
spp
age02
5
145
NA
NA
bullhead.
spp
age03
6
173
NA
NA
bullhead.
spp
age04
7
206
NA
NA
bullhead.
spp
age05
8
246
NA
NA
bullhead.
spp
age06
9
292
NA
NA
bullhead.
spp
age07
10
302
NA
NA
bullhead.
spp
age08
11
310
NA
NA
bullhead.
spp
age09
12
311
NA
NA
carp
egg
1
1.8
NA
NA
carp
larvae
2
7.75
NA
NA
carp
age0
3
94
NA
NA
carp
age01
4
305
313
0.690046999
carp
age02
5
351
550
1.21254265
carp
age03
6
401
717
1.580714691
carp
age04
7
566
NA
NA
carp
age05
8
580
NA
NA
carp
age06
9
590
NA
NA
carp
age07
10
620
NA
NA
carp
age08
11
660
NA
NA
carp
age09
12
670
NA
NA
carp
age10
13
680
NA
NA
carp
age11
14
700
9980
22.00213754
carp
age12
15
710
NA
NA
carp
age13
16
720
NA
NA
carp
age14
17
730
NA
NA
carp
age15
18
740
11058
24.37872113
carp
age16
19
750
10101
22.26889692
carp
age17
20
760
15430
34
channel.
catfish
egg
1
3.75
NA
NA
channel.
catfish
larvae
2
12.8
NA
NA
channel.
catfish
age0
3
94
9
0.019841607
channel.
catfish
age01
4
163
36
0.079366428
channel.
catfish
age02
5
241
91
0.200620693
channel.
catfish
age03
6
315
227
0.500449421
channel.
catfish
age04
7
368
608
1.340410784
channel.
catfish
age05
8
437
1397
3.079858331
channel.
catfish
age06
9
472
1252
2.760187996
channel.
catfish
age07
10
533
NA
NA
channel.
catfish
age08
11
561
2041
4.499635543
channel.
catfish
age09
12
607
NA
NA
channel.
catfish
age10
13
711
NA
NA
channel.
catfish
age11
14
720
NA
NA
channel.
catfish
age12
15
724
NA
NA
crappie
egg
1
0.93
NA
NA
crappie
larvae
2
6.96
NA
NA
crappie
age0
3
74
NA
NA
crappie
age01
4
160
NA
NA
crappie
age02
5
183
NA
NA
crappie
age03
6
237
NA
NA
crappie
age04
7
272
NA
NA
crappie
age05
8
301
NA
NA
crappie
age06
9
305
NA
NA
crappie
age07
10
310
NA
NA
crappie
age08
11
321
NA
NA
crappie
age09
12
337
NA
NA
freshwater.
drum
egg
1
0.0005
0.0005
1.10231E­
06
freshwater.
drum
larvae
2
0.00134
0.00134
2.95419E­
06
freshwater.
drum
age0
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
0.001
NA
NA
gizzard.
shad
larvae
2
0.003006
0.000072
1.58733E­
07
gizzard.
shad
age0
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
logperch
egg
1
1.31
NA
NA
logperch
larvae
2
30
NA
NA
logperch
age0
3
60
NA
NA
logperch
age01
4
86
NA
NA
logperch
age02
5
106
NA
NA
logperch
age03
6
121
NA
NA
muskellunge
egg
1
2.54
NA
NA
muskellunge
larvae
2
100
NA
NA
muskellunge
age0
3
150
NA
NA
muskellunge
age01
4
300
NA
NA
muskellunge
age02
5
432
NA
NA
muskellunge
age03
6
483
NA
NA
muskellunge
age04
7
584
NA
NA
muskellunge
age05
8
767
NA
NA
muskellunge
age06
9
800
NA
NA
muskellunge
age07
10
866
NA
NA
muskellunge
age08
11
963
NA
NA
muskellunge
age09
12
1002
NA
NA
muskellunge
age10
13
1064
NA
NA
muskellunge
age11
14
1113
NA
NA
muskellunge
age12
15
1206
NA
NA
muskellunge
age13
16
1224
NA
NA
muskellunge
age14
17
1295
NA
NA
muskellunge
age15
18
1328
NA
NA
muskellunge
age16
19
1354
NA
NA
muskellunge
age17
20
1488
NA
NA
muskellunge
age18
21
1490
NA
NA
muskellunge
age19
22
1510
NA
NA
muskellunge
age20
23
1521
NA
NA
muskellunge
age21
24
1522
NA
NA
muskellunge
age22
25
1523
NA
NA
muskellunge
age23
26
1524
NA
NA
muskellunge
age24
27
1525
NA
NA
muskellunge
age25
28
1526
NA
NA
muskellunge
age26
29
1527
NA
NA
muskellunge
age27
30
1528
NA
NA
shiner.
spp
egg
1
1
NA
NA
shiner.
spp
larvae
2
20
NA
NA
shiner.
spp
age0
3
41.5
NA
NA
shiner.
spp
age01
4
52
NA
NA
shiner.
spp
age02
5
64
NA
NA
shiner.
spp
age03
6
84
NA
NA
smallmouth.
bass
egg
1
1.85
NA
NA
smallmouth.
bass
larvae
2
7.525
NA
NA
smallmouth.
bass
age0
3
76
NA
NA
smallmouth.
bass
age01
4
178
NA
NA
smallmouth.
bass
age02
5
246
NA
NA
smallmouth.
bass
age03
6
277
NA
NA
smallmouth.
bass
age04
7
312
NA
NA
smallmouth.
bass
age05
8
349
NA
NA
smallmouth.
bass
age06
9
406
NA
NA
smallmouth.
bass
age07
10
425.3
NA
NA
smallmouth.
bass
age08
11
444.7
NA
NA
smallmouth.
bass
age09
12
464
NA
NA
suckers
egg
1
1
NA
NA
suckers
larvae
2
5
NA
NA
suckers
age0
3
20
NA
NA
suckers
age01
4
127
NA
NA
suckers
age02
5
221
NA
NA
suckers
age03
6
236
NA
NA
suckers
age04
7
295
NA
NA
suckers
age05
8
325
NA
NA
suckers
age06
9
338
NA
NA
sunfish
egg
1
1
NA
NA
sunfish
larvae
2
4.5
NA
NA
sunfish
age0
3
36
NA
NA
sunfish
age01
4
67
NA
NA
sunfish
age02
5
103
NA
NA
sunfish
age03
6
131
NA
NA
sunfish
age04
7
141
NA
NA
sunfish
age05
8
171
NA
NA
sunfish
age06
9
184
NA
NA
sunfish
age07
10
194
NA
NA
sunfish
age08
11
199
NA
NA
walleye
egg
1
1
NA
NA
walleye
larvae
2
19.7
NA
NA
walleye
age0
3
125
NA
NA
walleye
age01
4
262
NA
NA
walleye
age02
5
359
NA
NA
walleye
age03
6
442
NA
NA
walleye
age04
7
482
NA
NA
walleye
age05
8
539
NA
NA
walleye
age06
9
567
NA
NA
walleye
age07
10
596
NA
NA
walleye
age08
11
630
NA
NA
walleye
age09
12
636
NA
NA
white.
bass
egg
1
1.20597E­
05
NA
NA
white.
bass
larvae
2
0.00078926
NA
NA
white.
bass
age0
3
79
79
NA
white.
bass
age01
4
212
212
0.467380076
white.
bass
age02
5
292
292
0.643749916
white.
bass
age03
6
462
462
1.018535826
white.
bass
age04
7
526
458
1.009717334
white.
bass
age05
8
570
570
1.25663511
white.
bass
age06
9
755
755
1.664490365
white.
bass
age07
10
760
760
1.67551348
yellow.
perch
egg
1
0.001
NA
NA
yellow.
perch
larvae
2
0.00174
0.00033
7.27526E­
07
yellow.
perch
age0
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
smelt
egg
1
1
NA
NA
smelt
larvae
2
5.5
NA
NA
smelt
age01
3
100
NA
NA
smelt
age02
4
127
NA
NA
smelt
age03
5
203
NA
NA
smelt
age04
6
250
NA
NA
smelt
age05
7
290
NA
NA
smelt
age06
8
300
NA
NA
burbot
egg
1
1.35
NA
NA
burbot
larvae
2
6
NA
NA
burbot
age01
3
210
NA
NA
burbot
age02
4
322.7
NA
NA
burbot
age03
5
376.5
NA
NA
burbot
age04
6
424
NA
NA
burbot
age05
7
492.1
NA
NA
burbot
age06
8
539.9
NA
NA
burbot
age07
9
557.8
NA
NA
burbot
age08
10
579.1
NA
NA
burbot
age09
11
590.6
NA
NA
burbot
age10
12
616
NA
NA
whitefish
egg
1
2.75
NA
NA
whitefish
larvae
2
21.75
NA
NA
whitefish
juv
3
83
NA
NA
whitefish
age01
4
305
254.011744
0.56
whitefish
age02
5
368
498.95164
1.1
whitefish
age03
6
445
907.1848
2
whitefish
age04
7
475
1133.981
2.5
whitefish
age05
8
508
1360.7772
3
whitefish
age06
9
533
1632.93264
3.6
whitefish
age07
10
559
1859.72884
4.1
whitefish
age08
11
592
2449.39896
5.4
whitefish
age09
12
593
2494.7582
5.5
whitefish
age10
13
597
2540.11744
5.6
whitefish
age11
14
605
2585.47668
5.7
whitefish
age12
15
627
2812.27288
6.2
whitefish
age13
16
635
3129.78756
6.9
whitefish
age14
17
640
3175.1468
7
whitefish
age15
18
641
3401.943
7.5
whitefish
age16
19
676
3991.61312
8.8
bluegill
egg
1
1.04
NA
NA
bluegill
larvae
2
4.9
NA
NA
bluegill
age0
3
70
24
0.052910952
bluegill
age01
4
75
14
0.030864722
bluegill
age02
5
108
113
0.249122399
bluegill
age03
6
131
147
0.324079581
bluegill
age04
7
156
110
0.24250853
bluegill
age05
8
188
NA
NA
bluegill
age06
9
189
NA
NA
bluegill
age07
10
194
NA
NA
bluegill
age08
11
228
NA
NA
bluegill
age09
12
236
NA
NA
bluntnose.
minnow
egg
1
1
NA
NA
bluntnose.
minnow
larvae
2
12.67
NA
NA
bluntnose.
minnow
age0
3
26.33
NA
NA
bluntnose.
minnow
age01
4
41
NA
NA
bluntnose.
minnow
age02
5
56
NA
NA
bluntnose.
minnow
age03
6
60
NA
NA
golden.
redhorse
egg
1
1
NA
NA
golden.
redhorse
larvae
2
5
NA
NA
golden.
redhorse
age0
3
99
NA
NA
golden.
redhorse
age01
4
124
NA
NA
golden.
redhorse
age02
5
188
NA
NA
golden.
redhorse
age03
6
264
NA
NA
golden.
redhorse
age04
7
290
NA
NA
golden.
redhorse
age05
8
325
NA
NA
golden.
redhorse
age06
9
472
NA
NA
golden.
redhorse
age07
10
488
NA
NA
alewife
egg
1
0.01
0.01
0.000
alewife
larvae
2
5
5
0.024
alewife
age01
3
7.24
7.24
0.030
alewife
age02
4
22.9
22.9
0.125
alewife
age03
5
34.67
34.67
0.254
alewife
age04
6
42.66
42.66
0.379
alewife
age05
7
48.98
48.98
0.485
alewife
age06
8
58.88
58.88
0.565
alewife
age07
9
67.61
67.61
0.625
notes.
maximum.
age
note.
length
note.
weight
NA
Scott
&
Crossman,
1973
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9/
html/
sp­
black­
bullhead.
html
NA
assumed
by
AGRET
based
on
age0
size
NA
Black
bullhead.
C284;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
527/
OH
NA
Black
bullhead.
M448;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
528/
IA,
Chariton
R.
NA
Black
bullhead.
M448;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
528/
IA,
Chariton
R.
NA
Black
bullhead.
M448;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
529/
IA,
Chariton
R.
NA
Black
bullhead.
M448;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
529/
IA,
Chariton
R.
NA
Black
bullhead.
F65;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
529/
IA,
Clear
Lk.
NA
Black
bullhead.
F65;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
530/
IA,
Clear
Lk.
NA
Black
bullhead.
F65;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
530/
IA,
Clear
Lk.
NA
Black
bullhead.
F65;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
530/
IA,
Clear
Lk.
NA
assumed
by
AGRET,
as
value
in
Carlander,
1969,
p.
530
would
go
down
NA
Slastenenko,
1958;
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9/
NA
Jones
et
al.
1978,
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9/
NA
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
375/
IA
streams
NA
Iowa
Conserv.
Comm.,
1961;
as
cited
inIowa
Conserv.
Comm.,
1961;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
376/
IA
NA
Iowa
Conserv.
Comm.,
1961;
as
cited
inIowa
Conserv.
Comm.,
1961;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
377/
IA
NA
multiple
sources;
as
cited
in
Carlander,
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
378/
IA
rivers
NA
Christenson,
M.,
1957;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
379/
Mississippi
R.,
MN
NA
assumed
by
AGRET
to
be
higher
than
last
age
NA
assumed
by
AGRET
to
be
higher
than
last
age
NA
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
380/
Ohio
NA
Lopinot,
1958;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
381/
IL
NA
assumed
by
AGRET
to
be
higher
than
last
age
NA
assumed
by
AGRET
to
be
higher
than
last
age
NA
assumed
by
AGRET
to
be
higher
than
last
age
NA
assumed
by
AGRET
to
be
higher
than
last
age
NA
assumed
by
AGRET
to
be
higher
than
last
age
Iowa
Conserv.
Comm.,
assumed
by
AGRET
to
be
higher
than
last
age
NA
assumed
by
AGRET
to
be
higher
than
last
age
Carlander,
K.
D.,
1969
assumed
by
AGRET
to
be
higher
than
last
age
McCrimmon,
1968,
pgassumed
by
AGRET
to
be
higher
than
last
age
NA
Scott
&
Crossman,
1973;
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9/
html/
sp­
channel­
catfish.
html
NA
As
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9/
html/
sp­
channel­
catfish.
html
NA
Davis,
1959;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
543/
Kansas
rivers
NA
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
544/
IL
and
IA
rivers
NA
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
544/
IL
and
IA,
Miss.
&
Mo.
R.
NA
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
544/
IL
and
IA,
Miss.
&
Mo.
R.
NA
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
545/
IL
and
IA,
Miss.
&
Mo.
R.
NA
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
545/
Miss.
&
Mo.
R.
NA
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
545/
Miss.
&
Mo.
R.
NA
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
546/
Miss.
&
Mo.
R.
NA
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
546/
Miss.
&
Mo.
R.
NA
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
546/
Miss.
R.
NA
multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
546/
Miss.
R.
NA
assumed
by
AGRET
to
be
higher
than
age10
Appelget
&
Smith,
195multiple
sources;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
546/
Miss.
R.
NA
black.
crappie.
hMarriner,
1971,
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9
NA
black.
crappie.
hAverage
of
length
at
hatching
&
postlarvae
length
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9.(
S
NA
black.
crappie.
hmultiple;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
314/
MN,
WI
NA
black.
crappie.
hU8;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
314/
IA,
Miss.
R.
NA
black.
crappie.
hU4,
U8;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
315/
IA,
IL,
Miss.
R.
NA
black.
crappie.
hmult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
315/
MN,
Miss.
R.
NA
black.
crappie.
hmult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
317/
MN,
Miss.
R.
NA
black.
crappie.
hmult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
317/
MN,
Miss.
R.
NA
black.
crappie.
hmult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
317/
MN,
Miss.
R.
NA
black.
crappie.
hassumed
by
Abeualieu
to
show
increase
NA
black.
crappie.
hmult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
318/
MI,
MN,
SD,
WI
mult.
refs;
as
cited
in
Cvmult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
318/
MN,
SD,
WI
NA
these
are
not
lengths,
but
weights;
becaassumed
by
AGRET
based
on
larval
weight
NA
these
are
not
lengths,
but
weights;
becahttp://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
NA
these
are
not
lengths,
but
weights;
becahttp://
www.
mvr.
usace.
army.
mil/
pdw/
nav_
study/
env_
reports/
Env16­
Ch/
app­
NA
these
are
not
lengths,
but
weights;
becaScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
male
NA
these
are
not
lengths,
but
weights;
becaScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
male
NA
these
are
not
lengths,
but
weights;
becaScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
male
NA
these
are
not
lengths,
but
weights;
becaScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
male
NA
these
are
not
lengths,
but
weights;
becaScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
male
NA
these
are
not
lengths,
but
weights;
becaScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
male
NA
these
are
not
lengths,
but
weights;
becaScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
male
NA
these
are
not
lengths,
but
weights;
becaScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
male
NA
these
are
not
lengths,
but
weights;
becaScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
male
NA
these
are
not
lengths,
but
weights;
becaScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
male
NA
these
are
not
lengths,
but
weights;
becaScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
male
NA
these
are
not
lengths,
but
weights;
becaScott
&
Crossman,
1973
(
doc
#
25640).
Pg
815
/
Lake
Erie.
Averaged
male
NA
weight
in
grams:
assumed
by
AGRET
NA
mean
post
and
prolarvae
are
weights
in
grams:
Table
8[
26887]
NA
are
weights
in
grams:
Table
8[
26887]
NA
are
weights
in
grams:
Table
14[
26887]
NA
are
weights
in
grams:
Table
14[
26887]
NA
are
weights
in
grams:
Table
14[
26887]
NA
are
weights
in
grams:
Table
14[
26887]
NA
are
weights
in
grams:
Table
14[
26887]
NA
are
weights
in
grams:
Table
14[
26887]
NA
logperch.
W164:
as
cited
in
Carlander,
K.
D.
1997,
p.
82/
average
of
10
eggs
NA
assumed
by
AGRET
NA
logperch.
L256:
as
cited
in
Carlander,
K.
D.
1997,
p.
80/
WI
central
NA
logperch.
L256:
as
cited
in
Carlander,
K.
D.
1997,
p.
81/
WI
central
NA
logperch.
L256:
as
cited
in
Carlander,
K.
D.
1997,
p.
81/
WI
central
logperch.
L256:
as
citedlogperch.
L256:
as
cited
in
Carlander,
K.
D.
1997,
p.
81/
WI
central
NA
as
cited
in
Carlander,
K.
D.
1969,
p.
362
NA
assumed
by
AGRET
NA
P69;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
TN
Streams
NA
K69;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
George
Lake
NA
G152,
S499;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
George
Lake
NA
G152,
S499;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
George
Lake
NA
G152,
S499;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
George
Lake
NA
C227;
M329;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
ON
Nogies
NA
M329;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
Nogies
NA
M329;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
Nogies
NA
C227;
M329;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
ON
Nogies
NA
C227;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
ON
Nogies
NA
G23;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
NY
NA
J15;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
WI
NA
J15;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
WI
NA
S2;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
WI
NA
S2;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
WI
NA
H15;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
ON
NA
H15;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
ON
NA
S2;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
WI
NA
assumed
by
AGREt
(
higher
than
last
stage)
NA
S2;
as
cited
in
Carlander,
K.
D.
1969,
p.
356/
WI
NA
assumed
by
AGREt
(
higher
than
last
stage)
NA
assumed
by
AGREt
(
higher
than
last
stage)
NA
assumed
by
AGREt
(
higher
than
last
stage)
NA
assumed
by
AGREt
(
higher
than
last
stage)
NA
assumed
by
AGREt
(
higher
than
last
stage)
NA
assumed
by
AGREt
(
higher
than
last
stage)
NA
assumed
by
AGREt
(
higher
than
last
stage)
Froese,
R.
and
D.
Pauassumed
by
AGREt
(
higher
than
last
stage)
NA
Emerald
shiner.
assumed
by
AGRET
NA
Emerald
shiner.
assumed
by
AGRET
NA
Emerald
shiner.
Trautman,
1981,
pg
318./
OH
NA
Emerald
shiner.
Trautman,
1981,
pg
318./
OH
NA
Emerald
shiner.
Trautman,
1981,
pg
318./
OH
Campbell
&
MaccrimmEmerald
shiner.
Trautman,
1981,
pg
318./
OH
NA
Scott
&
Crossman,
1973
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9
NA
NA
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
160/
MO
streams
NA
C182;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
161/
Sandusky
R.,
OH
NA
C182;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
162/
Sandusky
R.,
OH
NA
C182;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
163/
Sandusky
R.,
OH
NA
C182;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
164/
Sandusky
R.,
OH
NA
L123,
P74;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
165/
MO
streams
NA
C182;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
165/
Sandusky
R.,
OH
NA
assumed
by
Jhazen,
based
on
age06
and
age08
to
show
increase
NA
assumed
by
Jhazen,
based
on
age06
and
age08
to
show
increase
S133;
as
cited
in
Carlmultiple
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
167/
WI
Lakes.
NA
assumed
by
AGRET
NA
assumed
by
AGRET
NA
M215;
as
cited
in
Carlander,
K.
D.
1969,
p.
458/
Big
Blue
River
NA
B180;
as
cited
in
Carlander,
K.
D.
1969,
p.
459/
Des
Moines
River
NA
B180;
as
cited
in
Carlander,
K.
D.
1969,
p.
459/
Des
Moines
River
NA
B180;
as
cited
in
Carlander,
K.
D.
1969,
p.
459/
Des
Moines
River
NA
B180;
as
cited
in
Carlander,
K.
D.
1969,
p.
459/
Des
Moines
River
NA
B180;
as
cited
in
Carlander,
K.
D.
1969,
p.
459/
Des
Moines
River
as
cited
in
Carlander,
B180;
as
cited
in
Carlander,
K.
D.
1969,
p.
456/
Des
Moines
River
NA
http://
dlp.
cs.
berkeley.
edu/
kopec/
tr9/
html/
sp­
pumpkinseed.
html
NA
http://
dlp.
cs.
berkeley.
edu/
kopec/
tr9/
html/
sp­
pumpkinseed.
html
NA
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
57/
Pumpkinseed,
MI
NA
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
57/
Pumpkinseed,
MI,
MN
NA
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
57/
Pumpkinseed,
MI,
MN,
WI
NA
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
58/
Pumpkinseed,
MI,
MN,
WI
NA
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
58/
Pumpkinseed,
MI,
MN,
WI
NA
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
58/
Pumpkinseed,
MI,
MN,
WI
NA
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
59/
Pumpkinseed,
MI,
MN,
WI
NA
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
59/
Pumpkinseed,
MI
mult.
refs;
as
cited
in
Cmult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
59/
Pumpkinseed,
MI
NA
assumed
by
AGRET
NA
N97;
as
cited
in
Carlander,
K.
D.
1997,
p.
221
mean
of
7.4
and
32
mm
NA
mult.
references;
as
cited
in
Carlander,
K.
D.
1997,
p.
223/
combined
unweighted
means
in
August
NA
4S;
as
cited
in
Carlander,
K.
D.
1997,
p.
225­
227/
rivers
NA
4S;
as
cited
in
Carlander,
K.
D.
1997,
p.
225­
227/
rivers
NA
4S;
as
cited
in
Carlander,
K.
D.
1997,
p.
225­
227/
rivers
NA
4S;
as
cited
in
Carlander,
K.
D.
1997,
p.
225­
227/
rivers
NA
4S;
as
cited
in
Carlander,
K.
D.
1997,
p.
225­
227/
rivers
NA
4S;
as
cited
in
Carlander,
K.
D.
1997,
p.
225­
227/
rivers
NA
4S;
as
cited
in
Carlander,
K.
D.
1997,
p.
225­
227/
rivers
NA
assumed
by
agret
(
higher
than
last
stage)
as
cited
in
Carlander,
4S;
as
cited
in
Carlander,
K.
D.
1997,
p.
225­
227/
rivers
NA
not
lengths,
but
weights
in
grams
becaucalculated
from
assumed
length
of
1mm
using
a=
1.206x10^­
5,
b=
3.132,
V
NA
not
lengths,
but
weights
in
grams
becaucalculated
from
length
of
3.8
mm
using
a=
1.206x10^­
5,
b=
3.132,
Van
Oos
NA
not
lengths,
but
weights
in
grams
becaumultiple,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
18/
multiple
sites
NA
not
lengths,
but
weights
in
grams
becaumultiple,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
18/
IA,
KS,
MN,
SD,
WI
mean
ysl
and
pysl:
Reighard
1906,
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9/
(
avg
of
length
at
hatch
&
post­
y
NA
not
lengths,
but
weights
in
grams
becaumultiple,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
18/
IA,
KS,
MN,
SD,
OH
NA
not
lengths,
but
weights
in
grams
becaumultiple,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
18/
IA,
IN,
KS,
MN,
SD,
OH
NA
not
lengths,
but
weights
in
grams
becaumultiple,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
19/
L.
Erie
NA
not
lengths,
but
weights
in
grams
becaumultiple,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
19/
IA,
KS,
MN,
SD
NA
not
lengths,
but
weights
in
grams
becaumultiple,
as
cited
in
Carlander,
K.
D.,
1997,
pg.
19/
IA,
KS,
IN
multiple,
as
cited
in
Canot
lengths,
but
weights
in
grams
becauassumed
to
be
higher
than
age06
NA
weight
in
grams:
assumed
by
AGRET
NA
are
weights
in
grams:
Table
8[
26887]
NA
are
weights
in
grams:
Table
12[
26887]
NA
are
weights
in
grams:
Table
12[
26887]
NA
are
weights
in
grams:
Table
12[
26887]
NA
are
weights
in
grams:
Table
12[
26887]
NA
are
weights
in
grams:
Table
12[
26887]
NA
are
weights
in
grams:
Table
12[
26887]
NA
are
weights
in
grams:
Table
12[
26887]
NA
rainbow
smelt.
Able
and
Fahay,
1998;
#
NA
NA
rainbow
smelt.
Able
and
Fahay,
1998;
#
NA
NA
rainbow
smelt.
assumed
by
AGRET
NA
NA
rainbow
smelt.
Scott
and
Scott,
1988[
26NA
NA
rainbow
smelt.
Scott
and
Scott,
1988[
26NA
NA
rainbow
smelt.
assumed
by
AGRET
NA
NA
rainbow
smelt.
assumed
by
AGRET
NA
NA
rainbow
smelt.
assumed
to
be
5.6
cm
leNA
NA
Snyder
http://
www­
heb.
pac.
dfo­
mpo.
gc.
ca/
congress/
Burbot.
pdf
average
of
reported
range
NA
Snyder
http://
www­
heb.
pac.
dfo­
mpo.
gc.
ca/
congress/
Burbot.
pdf
average
of
reported
range
NA
[
27012]
L.
Erie,
Ont.
SL
NA
[
27012]
L.
Erie,
Ont.
SL
NA
[
27012]
L.
Erie,
Ont.
SL
NA
[
27012]
L.
Erie,
Ont.
SL
NA
[
27012]
L.
Erie,
Ont.
SL
NA
[
27012]
L.
Erie,
Ont.
SL
NA
[
27012]
L.
Erie,
Ont.
SL
NA
[
27012]
L.
Erie,
Ont.
SL
NA
[
27012]
L.
Erie,
Ont.
SL
[
27012]
L.
Erie,
Ont.
[
27012]
L.
Erie,
Ont.
SL
NA
[
27012]
average
of
length
at
extrusion
and
maximum
size
after
24
hrs
in
water.
NA
[
26676]
average
of
length
at
1
wk
and
length
when
take
on
adult
characteristics.
NA
[
26676]
yearling
length
NA
[
27012]
L.
Erie
TL
[
27012]
L.
Erie
NA
[
27012]
L.
Erie
TL
[
27012]
L.
Erie
NA
[
27012]
L.
Erie
TL
[
27012]
L.
Erie
NA
[
27012]
L.
Erie
TL
[
27012]
L.
Erie
NA
[
27012]
L.
Erie
TL
[
27012]
L.
Erie
NA
[
27012]
L.
Erie
TL
[
27012]
L.
Erie
NA
[
27012]
L.
Erie
TL
[
27012]
L.
Erie
NA
[
27012]
L.
Erie
TL
[
27012]
L.
Erie
NA
assumed
assumed
NA
[
27012]
L.
Erie
TL
assumed
NA
[
27012]
L.
Erie
TL
assumed
NA
[
27012]
L.
Erie
TL
[
27012]
L.
Erie
NA
[
27012]
L.
Erie
TL
[
27012]
L.
Erie
NA
[
27012]
L.
Erie
TL
assumed
NA
assumed
assumed
[
27012]
L.
Erie.
[
27012]
L.
Erie
TL
[
27012]
L.
Erie
NA
Toetz,
1965,
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9
NA
Wang
and
Kernehan,
1979
(
size
at
completion
of
yolk­
sac
stage),
as
cited
in
http://
elib.
cs.
berkeley.
edu/
kopec/
tr9/
h
NA
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
87/
IN,
IL,
IA
NA
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
88/
OH
NA
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
89/
OH
NA
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
90/
OH
NA
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
91/
OH
NA
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
92/
OH
NA
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
92/
OH
NA
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
93/
OH
NA
mult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
93/
OH,
IN,
IL,
IA
mult.
refs;
as
cited
in
Cmult.
refs;
as
cited
in
Carlander,
K.
D.,
1977,
pg.
93/
OH,
IN
NA
assumed
by
AGRET
NA
Keeton,
1963;
as
cited
in
Carlander,
K.
D.,
1969,
Average
of
fry
at
hatching
&
age
0
fish­
H91,
pg.
439
and
L132,
R
NA
Keeton,
1963;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
438/
Des
Moines
R.,
IA
(
average
of
age0)
NA
Keeton,
1963;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
438/
Des
Moines
R.,
IA
NA
Keeton,
1963;
as
cited
in
Carlander,
K.
D.,
1969,
pg.
438/
Des
Moines
R.,
IA
NA
Assumed
to
be
not
much
bigger
than
age02
NA
assumed
by
AGRET
NA
assumed
by
AGRET
NA
L108;
as
cited
in
Carlander,
K.
D.
1969,
p.
512/
Big
Creek
NA
M395;
as
cited
in
Carlander,
K.
D.
1969,
p.
512­
513/
Des
Moines
River
NA
M395;
as
cited
in
Carlander,
K.
D.
1969,
p.
512­
513/
Des
Moines
River
NA
M395;
as
cited
in
Carlander,
K.
D.
1969,
p.
512­
513/
Des
Moines
River
NA
M395;
as
cited
in
Carlander,
K.
D.
1969,
p.
512­
513/
Des
Moines
River
NA
M395;
as
cited
in
Carlander,
K.
D.
1969,
p.
512­
513/
Des
Moines
River
NA
M395;
as
cited
in
Carlander,
K.
D.
1969,
p.
512­
513/
Des
Moines
River
M395;
as
cited
in
CarlaM395;
as
cited
in
Carlander,
K.
D.
1969,
p.
512­
513/
Des
Moines
River
NA
these
are
not
lengths,
but
weights;
becaassumed
by
AGRET
NA
these
are
not
lengths,
but
weights;
becaassumed
by
AGRET
NA
these
are
not
lengths,
but
weights;
beca[
21960];
lake
Michigan
NA
these
are
not
lengths,
but
weights;
beca[
21960];
lake
Michigan
NA
these
are
not
lengths,
but
weights;
beca[
21960];
lake
Michigan
NA
these
are
not
lengths,
but
weights;
beca[
21960];
lake
Michigan
NA
these
are
not
lengths,
but
weights;
beca[
21960];
lake
Michigan
NA
these
are
not
lengths,
but
weights;
beca[
21960];
lake
Michigan
NA
these
are
not
lengths,
but
weights;
beca[
21960];
lake
Michigan
IA
­
Missouri
R.
IA
­
Missouri
R.

9.(
Siefert,
1969­
length
at
hatching).
pp­
a.
pdf
using
10
days
pp­
a.
pdf
using
164
days
ales
&
females
for
wt.
(
assumed
50/
50
ratio)
ales
&
females
for
wt.
(
assumed
50/
50
ratio)
ales
&
females
for
wt.
(
assumed
50/
50
ratio)
ales
&
females
for
wt.
(
assumed
50/
50
ratio)
ales
&
females
for
wt.
(
assumed
50/
50
ratio)
ales
&
females
for
wt.
(
assumed
50/
50
ratio)
ales
&
females
for
wt.
(
assumed
50/
50
ratio)
ales
&
females
for
wt.
(
assumed
50/
50
ratio)
ales
&
females
for
wt.
(
assumed
50/
50
ratio)
ales
&
females
for
wt.
(
assumed
50/
50
ratio)
ales
&
females
for
wt.
(
assumed
50/
50
ratio)
ales
&
females
for
wt.
(
assumed
50/
50
ratio)
,
Van
Oosten,
[
26645]
(
assumed
by
AGRET
length
was
1)
osten,
[
26645]
t­
yolk
sac
stage)
OH
r9/
html/
sp­
bluegill.
html
2,
R82
pg.
437;
as
cited
in
Carlander,
K.
D.,
1969/
MN,
OH.
species
stage
fraction.
mature
mean.
fecundity
notes.
fraction.
mature
notes.
mean.
fec
logperch
age01
0.5
NA
http://
www.
kenschultz.
com/
template2NA
logperch
age02
1
NA
http://
www.
kenschultz.
com/
template2NA
logperch
age03
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age01
0
NA
assumed
by
AGRET
NA
muskellunge
age02
0
NA
assumed
by
AGRET
NA
muskellunge
age03
0.5
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age04
0.5
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age05
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age06
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age07
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age08
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age09
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age10
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age11
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age12
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age13
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age14
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age15
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age16
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age17
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age18
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age19
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age20
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age21
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age22
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age23
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age24
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age25
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age26
1
NA
http://
www.
kenschultz.
com/
template2NA
muskellunge
age27
1
NA
http://
www.
kenschultz.
com/
template2NA
yellow.
perch
age01
0.01
17000
Assumed
based
on
S697,
as
cited
inV21,
as
cited
in
yellow.
perch
age02
0.47
23000
S697,
as
cited
in
Carlander,
K.
D.,
19V21,
as
cited
in
yellow.
perch
age03
0.51
27000
S697,
as
cited
in
Carlander,
K.
D.,
19V21,
as
cited
in
yellow.
perch
age04
0.86
27000
S697,
as
cited
in
Carlander,
K.
D.,
19V21,
as
cited
in
yellow.
perch
age05
1.00
27000
Assumed
based
on
S697,
as
cited
inV21,
as
cited
in
yellow.
perch
age06
1.00
34000
Assumed
based
on
S697,
as
cited
inV21,
as
cited
in
yellow.
perch
age07
1.00
34000
Assumed
based
on
S697,
as
cited
inV21,
as
cited
in
yellow.
perch
age08
1.00
34000
Assumed
based
on
S697,
as
cited
inV21,
as
cited
in
yellow.
perch
age09
1.00
34000
Assumed
based
on
S697,
as
cited
inV21,
as
cited
in
yellow.
perch
age10
1.00
34000
Assumed
based
on
S697,
as
cited
inV21,
as
cited
in
darter.
spp
age01
0.5
NA
http://
www.
kenschultz.
com/
template2NA
darter.
spp
age02
1
NA
http://
www.
kenschultz.
com/
template2NA
darter.
spp
age03
1
NA
http://
www.
kenschultz.
com/
template2NA
burbot
age01
0
0
burbot
age02
0.5
45600
assumed
based
on
[
27012]
[
27012]
egg
nu
burbot
age03
1
210150.875
assumed
based
on
[
27012]
extrapolated
burbot
age04
1
374701.75
assumed
based
on
[
27012]
extrapolated
burbot
age05
1
539252.625
assumed
based
on
[
27012]
extrapolated
burbot
age06
1
703803.5
assumed
based
on
[
27012]
extrapolated
burbot
age07
1
868354.375
assumed
based
on
[
27012]
extrapolated
burbot
age08
1
1032905.25
assumed
based
on
[
27012]
extrapolated
burbot
age09
1
1197456.125
assumed
based
on
[
27012]
extrapolated
burbot
age10
1
1362007
assumed
based
on
[
27012]
[
27012]
egg
nu
bluntnose.
minnow
age01
0.00
0
W26;
as
cited
in
Carlander,
K.
D.,
19Assumed
0
bluntnose.
minnow
age02
1.00
2447
W26;
as
cited
in
Carlander,
K.
D.,
19H91,
as
cited
in
bluntnose.
minnow
age03
1.00
2447
W26;
as
cited
in
Carlander,
K.
D.,
19H91,
as
cited
in
lifetime.
fecundnotes.
lifetime.
fecundity
NA
NA
2000
logperch.
Max.
lifetime
=
3000,
therefore:
average
~
2,000Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishba
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
2,000,000
Max.
lifetime
=
3,000,000,
therefore:
average
~
2,000,000
Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishba
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
NA
2000
logperch.
Max.
lifetime
=
3000,
therefore:
average
~
2,000Froese,
R.
and
D.
Pauly
(
eds.).
2001.
FishBase.
www.
fishba
number
in
343
mm
female
number
in
643
mm
female
NA
NA
NA
calculated
using
Saila
method
base.
org.
Accessed
Sep.
10,
2001Hugg,
D.
O.,
1996.
MAPFISH
georeferenced
mapping
database.
Freshwater
and
estuarine
fishes
of
hbase.
org.
Accessed
Sep.
10,
2001Hugg,
D.
O.,
1996.
MAPFISH
georeferenced
mapping
database.
Freshwater
and
estuarine
fishes
of
base.
org.
Accessed
Sep.
10,
2001Hugg,
D.
O.,
1996.
MAPFISH
georeferenced
mapping
database.
Freshwater
and
estuarine
fishes
of
of
North
America.
Life
Science
Software.
Dennis
O.
and
Steven
Hugg,
1278
Turkey
Point
Road,
Edgewater,
Maryland,
USA./
Ohio
River
of
North
America.
Life
Science
Software.
Dennis
O.
and
Steven
Hugg,
1278
Turkey
Point
Road,
Edgewater,
Maryland,
USA.

of
North
America.
Life
Science
Software.
Dennis
O.
and
Steven
Hugg,
1278
Turkey
Point
Road,
Edgewater,
Maryland,
USA./
Ohio
River
ver
ver
Input
data
for
I&
E
loss
at
Monroe
Power
Plant
Workbook
compiled
for
use
in
fish
impingement/
entainment
loss
model.
Amy
Beaulieu,
11/
28/
01
Additional
data
added
by
J.
Hazen,
2/
5/
02
Jude,
D.
J.,
P.
J.
Mansfield,
and
M.
Perrone,
Jr.
1983.
Impingement
and
entrainment
of
fish
and
effectiveness
of
the
fish
return
system
at
the
Monroe
A.
Nuhfer,
personal
communication
(
currently
from
Dodge,
1998
table
22)
Spoke
with
Andrew
Nuhfer
on
2/
5/
02.
Method:
traveling
screen
dumped
Worksheet
Description
losses01
Reported
impingement
&
entrainment
losses
at
JR
Whiting
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
otherlosses
from
another
document
­
may
use
if
entrainment
losses
methods
not
acceptable.
Lifehistory
compiled
by
Jhazen
on
11/
30/
01.
Most
lifehistory
information
taken
from
JR
Whiting
(
with
the
exception
of
darter.
spp
from
Cardinal)

Design
master
0/
NA
distinction
1973
No
impingment
collected.
Entrainment
data
presented
but
do
not
represent
an
entire
year.
Neither
can
be
evaluated.
All
get
NA
Impingement
gets
NA;
Entrainment
gets
NA.

1974
No
impingment
collected.
Entrainment
assumed
to
be
comprehensive.
Impingement
gets
NA;
Entrainment
gets
value
or
0.

1975
Impingement
does
not
include
all
individuals.
Report
[
18299]
indicates
that
original
raw
data
included
many
individuals
that
were
not
identified
and
not
counted.
Entrainment
assumed
to
be
comprehensive.
Impingement
gets
value
or
NA;
Entrainment
gets
value
or
0
1982
Impingement
assumed
to
be
comprehensive.
Entrainment
assumed
to
be
comprehensive
Impingement
gets
value
or
0.
Entrainment
gets
value
or
0
1985
Impingement
assumed
to
be
comprehensive.
No
entrainment
data
at
this
time.
Impingement
gets
value
or
0.
Entrainment
gets
NA.

Entrainment:
(
note,
did
not
use
entrainment
data
from
#
18299,
because,
even
though
it
was
recalc
values
are
an
improvement
over
those
presented
in
the
original
316b
document,
they
still
are
flawe
techniques.
Thus
it
was
decided
to
use
data
from
the
EPA
study
#
18242).

1973
sampling
was
completed
in
mid­
June,
so
many
species
are
incompletely
represented
and
num
they
should
be
(#
18242,
pg.
127).
Do
not
use
entrainment
data
from
1973.

Samples
were
collected
with
a
571
micron,
1
meter
net.
In
1973,
2
samples
each
were
taken
at
the
and
surface,
for
a
total
of
6
samples
per
station.
In
1974
and
1975,
5
oblique
tow
samples
were
col
to
surface,
at
a
constant
rate
from
about
5
meters
deep
to
the
surface
for
2.5
minutes.
Towing
spee
1
m/
sec.
A
1.8
liter
plankton
bucket
was
attached
and
a
flow
meter
was
fitted
at
the
center
of
the
ne
Larvae
were
preserved
in
5%
formalin
and
later
counted
and
identified
to
the
most
specific
taxa
pos
dye
was
added
to
ease
sorting
and
were
standardized
to
number
per
100
m^
3
Daily
entrainment
was
calculated
by
multiplying
the
number
of
larvae
per
100
m^
3
for
a
sampling
d
discharge
by
the
volume
flow
through
the
cooling
system
on
that
date.
The
daily
estimate
was
assu
that
sampling
date
plus
half
the
number
of
days
to
a
subsequent
sampling
date.
Each
daily
estimate
the
number
of
days
that
it
represented
and
the
sum
of
these
gave
the
annual
estimate
of
entrainme
are
not
given
explicitly
nor
are
the
flows
for
those
days,
although
some
flows
are
presented
in
table
(#
28452).)
Entrainment
was
calculated
from
samples
collected
at
location
"
P2"
which
is
located
at
t
discharge
canal
in
figure
2,
and
described
as
the
"
upper"
end
of
the
discharge
in
the
text
on
page
2
using
average
flows
from
table
A­
2
and
larval
densities
at
P2
from
table
A­
26,
give
results
in
the
ba
presented
in
table
36.
using
average
flows
from
table
A­
2
and
larval
densities
at
P2
from
table
A­
26,
give
results
in
the
ba
presented
in
table
36.

The
text
describes
the
most
abundant
species
as
together
accounting
for
92%
of
the
total
catch
at
a
oblique
plankton
tows
were
conducted
(
p.
83).
Then
it
states
that
"
Less
abundant
species
are
listed
B26")
(
table
A26
is
assumed).
When
the
densitites
in
table
30
for
a
species
are
summed
and
divide
percentages
come
out
similar
to
those
presented
in
the
text.
Thus
it
is
assumed
that
the
species
pre
entire
collection,
and
there
was
no
unidentified
entrainment
component.

Impingement:

Impingement
monitoring
began
in
April
1972
for
Unit
1,
June
1972
for
Unit
2,
March
1973
for
Unit
3
Unit
4.
Screens
were
washed
prior
to
sampling
and
a
basket
was
placed
at
the
end
of
the
common
unit.
After
a
24
hour
period,
all
fish
in
the
basket
were
counted
and
identified.
It
was
attempted
to
co
week,
although
in
August
1975,
only
2
samples
were
collected.
The
original
216b
document
stated
counted
and
identified,
and
that
representative
specimins
were
weighed,
measured,
and
checked
fo
Because
the
document
did
not
state
that
all
impinged
fish
were
washed
into
the
baskets,
the
evalua
(#
18299)
suggests
that
not
all
of
the
impinged
fish
may
have
been
counted
(
p.
6).
The
evaluation
d
that
most
of
the
monthly
impingement
estimates
were
based
on
samples
taken
from
only
some
of
t
most
dates
are
based
on
samplings
from
only
50%
of
the
screens,
primarily
from
screenhouse
1.
Th
screens"
in
this
house,
which
had
technology
designed
to
recover
some
of
the
fish.

Original
316b
monthly
estimates
were
made
by
dividing
the
number
of
fish
impinged
by
the
numbe
the
2
test
screens,
doing
the
same
for
the
rest
of
the
screens,
summing
the
two,
and
then
multiplyin
days
in
the
month.
This
method
was
problematic
because
it
did
NOT
take
into
account
flows.
It
ass
of
the
pumps
were
operating
and
thus
sampling
50%
of
the
screens
would
be
representative.
Howe
of
the
time,
the
plant
was
operating
at
>
50%
capacity.
In
addition,
fish
recovered
from
the
test
scre
considered
impinged,
yet
the
impingement
numbers
from
these
screens
were
extrapolated
to
the
re
most
of
the
impingement
estimates
were
underestimates.
In
addition
the
data
sheets
indicated
man
and
discrepancies.

Thus,
the
evaluation
document
recalculated
impingement
(
These
are
the
numbers
we
use).
They
a
impinged
on
test
screens,
saved
from
test
screens,
and
impinged
on
nonrest
screend,
multiplied
thi
screens
in
units
where
screens
were
checked
divided
by
the
number
of
checked
screens,
and
multi
roe
Power
Plant,
western
Lake
Erie,
1982­
1983.
University
of
Michigan,
Great
Lakes
Research
Division,
Special
Report
101,
Ann
Arbor,
ed
fish
onto
truck.
Weekly,
counted
subsample
of
fish
and
extrapolated
to
totals.

calculated
and
the
lawed
by
sampling
numbers
are
lower
than
t
the
bottom,
mid
depth,
e
collected
from
bottom
speed
was
approximately
e
net
opening
(
p.
23).
a
possible.
Rose­
bengal
ing
date
at
the
upper
assumed
to
represent
imate
was
multiplied
by
inment
(
these
numbers
table
A­
4
of
the
appendix
at
the
beginning
of
the
ge
24.
Rough
calculations
e
ballpark
of
the
figures
e
ballpark
of
the
figures
h
at
all
stations
where
listed
in
tables
30
and
ivided
into
the
total,
the
s
presented
represent
the
nit
3,
and
May
1974
for
on
sluiceway
for
each
to
collect
one
sample
per
ated
that
all
fish
were
ed
for
deformities.
aluation
document
ion
document
indicates
of
the
16
screens
and
1.
There
were
two
"
test
mber
of
days
sampled
for
iplying
by
the
number
of
It
assumed
that
only
50%
However,
more
than
70%
screens
were
not
he
rest
of
the
plant.
Thus
many
calculation
errors
hey
added
up
all
fish
d
this
by
the
number
of
ultiplied
this
by
the
total
or,
Michigan.
(
currently
taken
from
the
Dodge,
1998.
River
Raisin
Assessment
table
23).
lifehistory.
name
species.
to.
lump
alewife
alewife
clupeidae
bullhead.
spp
black.
bullhead
brown.
bullhead
yellow.
bullhead
carp
common.
carp
goldfish
bowfin
channel.
catfish
channel.
catfish
flathead.
catfish
crappie
crappie
pomoxis.
spp
white.
crappie
black.
crappie
freshwater.
drum
freshwater.
drum
gizzard.
shad
gizzard.
shad
logperch
logperch
troutperch
muskellunge
muskellunge
shiner.
spp
cyprinidae
emerald.
shiner
shiner.
spp
spottail.
shiner
spotfin.
shiner
common.
shiner
smallmouth.
bass
largemouth.
bass
smallmouth.
bass
bass
suckers
northern.
hog.
sucker
suckers
white.
sucker
quillback
sunfish
lepomis.
spp
sunfish
pumpkinseed
green.
sunfish
hybrid.
sunfish
rock.
bass
walleye
walleye
white.
bass
white.
bass
white.
bass.
white.
perch
white.
perch
yellow.
perch
yellow.
perch
smelt
rainbow.
smelt
smelt
burbot
burbot
whitefish
coregoninae
species
stage
year
impinged.
est
entrained.
est
notes
clupeidae
egg
1975
.
4,307,867
#
18299,
Table
19,
pg.
65
clupeidae
larvae
1975
.
8,941,542
#
18299,
Table
19,
pg.
65
alewife
egg
1975
.
4,237,210
#
18299,
Table
19,
pg.
65
alewife
larvae
1975
.
5,173
#
18299,
Table
19,
pg.
65
gizzard.
shad
egg
1975
.
0
#
18299,
Table
19,
pg.
65
gizzard.
shad
larvae
1975
.
87,338
#
18299,
Table
19,
pg.
65
smelt
egg
1975
.
0
#
18299,
Table
19,
pg.
65
smelt
larvae
1975
.
701,318
#
18299,
Table
19,
pg.
65
northern.
pike
egg
1975
.
0
#
18299,
Table
19,
pg.
65
northern.
pike
larvae
1975
.
6,951
#
18299,
Table
19,
pg.
65
channel.
catfish
egg
1975
.
0
#
18299,
Table
19,
pg.
65
channel.
catfish
larvae
1975
.
720,081
#
18299,
Table
19,
pg.
65
goldfish
egg
1975
0
#
18299,
Table
19,
pg.
78
goldfish
larvae
1975
309,289
#
18299,
Table
19,
pg.
78
carp
egg
1975
7,892
#
18299,
Table
19,
pg.
78
carp
larvae
1975
480,401
#
18299,
Table
19,
pg.
78
sucker.
spp
egg
1975
0
#
18299,
Table
19,
pg.
78
sucker.
spp
larvae
1975
421
#
18299,
Table
19,
pg.
78
emerald.
shiner
egg
1975
0
#
18299,
Table
19,
pg.
78
emerald.
shiner
larvae
1975
169,861
#
18299,
Table
19,
pg.
78
spottail.
shiner
egg
1975
0
#
18299,
Table
19,
pg.
78
spottail.
shiner
larvae
1975
4,359
#
18299,
Table
19,
pg.
78
lepomis.
spp
egg
1975
0
#
18299,
Table
19,
pg.
78
lepomis.
spp
larvae
1975
9,532
#
18299,
Table
19,
pg.
78
brindled.
madtom
egg
1975
0
#
18299,
Table
19,
pg.
85
brindled.
madtom
larvae
1975
5,404
#
18299,
Table
19,
pg.
85
burbot
egg
1975
17,358
#
18299,
Table
19,
pg.
85
burbot
larvae
1975
0
#
18299,
Table
19,
pg.
85
trout.
perch
egg
1975
0
#
18299,
Table
19,
pg.
85
trout.
perch
larvae
1975
19,673
#
18299,
Table
19,
pg.
85
white.
bass
egg
1975
0
#
18299,
Table
19,
pg.
85
white.
bass
larvae
1975
379,618
#
18299,
Table
19,
pg.
85
freshwater.
drum
egg
1975
0
#
18299,
Table
19,
pg.
85
freshwater.
drum
larvae
1975
1,826,026
#
18299,
Table
19,
pg.
85
brook.
silverside
egg
1975
0
#
18299,
Table
19,
pg.
85
brook.
silverside
larvae
1975
5,404
#
18299,
Table
19,
pg.
85
johnny.
darter
egg
1975
0
#
18299,
Table
19,
pg.
92
johnny.
darter
larvae
1975
0
#
18299,
Table
19,
pg.
92
logperch
egg
1975
0
#
18299,
Table
19,
pg.
92
logperch
larvae
1975
47,525
#
18299,
Table
19,
pg.
92
yellow.
perch
egg
1975
256,413
#
18299,
Table
19,
pg.
92
yellow.
perch
larvae
1975
4,963,524
#
18299,
Table
19,
pg.
92
walleye
egg
1975
0
#
18299,
Table
19,
pg.
92
walleye
larvae
1975
384,367
#
18299,
Table
19,
pg.
92
unidentified
egg
1975
18,701,436
#
18299,
Table
19,
pg.
92
unidentified
larvae
1975
1,673,666
#
18299,
Table
19,
pg.
92
clupeidae
larvae
1973
NA
800,000
#
18242,
Table
36,
pg.
126
Incomplete
year
­
numbers
are
carp
larvae
1973
NA
3,300,000
#
18242,
Table
36,
pg.
126
Incomplete
year
­
numbers
are
white.
bass
larvae
1973
NA
2,600,000
#
18242,
Table
36,
pg.
126
Incomplete
year
­
numbers
are
yellow.
perch
larvae
1973
NA
2,200,000
#
18242,
Table
36,
pg.
126
Incomplete
year
­
numbers
are
channel.
catfish
larvae
1973
NA
100,000
#
18242,
Table
36,
pg.
126
Incomplete
year
­
numbers
are
freshwater.
drum
larvae
1973
NA
0
#
18242,
Table
36,
pg.
126
Incomplete
year
­
numbers
are
shiner.
spp
larvae
1973
NA
1,600,000
#
18242,
Table
36,
pg.
126
Incomplete
year
­
numbers
are
sunfish
larvae
1973
NA
300,000
#
18242,
Table
36,
pg.
126
Incomplete
year
­
numbers
are
bass
larvae
1973
NA
0
#
18242,
Table
36,
pg.
126
Incomplete
year
­
numbers
are
smelt
larvae
1973
NA
200,000
#
18242,
Table
36,
pg.
126
Incomplete
year
­
numbers
are
crappie
larvae
1973
NA
600,000
#
18242,
Table
36,
pg.
126
Incomplete
year
­
numbers
are
walleye
larvae
1973
NA
100,000
#
18242,
Table
36,
pg.
126
Incomplete
year
­
numbers
are
suckers
larvae
1973
NA
200,000
#
18242,
Table
36,
pg.
126
Incomplete
year
­
numbers
are
troutperch
larvae
1973
NA
100,000
#
18242,
Table
36,
pg.
126
Incomplete
year
­
numbers
are
logperch
larvae
1973
NA
100,000
#
18242,
Table
36,
pg.
126
Incomplete
year
­
numbers
are
are
lower
than
they
should
be.
are
lower
than
they
should
be.
are
lower
than
they
should
be.
are
lower
than
they
should
be.
are
lower
than
they
should
be.
are
lower
than
they
should
be.
are
lower
than
they
should
be.
are
lower
than
they
should
be.
are
lower
than
they
should
be.
are
lower
than
they
should
be.
are
lower
than
they
should
be.
are
lower
than
they
should
be.
are
lower
than
they
should
be.
are
lower
than
they
should
be.
are
lower
than
they
should
be.
