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New species listed first, current list of species at the end of document.
Species
Common Name
*Yellowfin tuna
not in correct format
Scientific name
Published citation source
Thunnus albacares
Olson, R.J. and C.H. Boggs. 1986. Apex predation
by yellowfin tuna (Thunnus albacares):
independent estimates from gastric evacuation and
stomach contents, bioenergetic, and cesium
concentrations. Can. J. Fish. Aquat. Sci. 43: 17601775.
Olson, R. J. 1990. A bioenergetics analysis of
yellowfin tuna (Thunnus albacares) predation in the
eastern Pacific Ocean. Ph.D. Thesis, Univ.
Wisconsin, Madison, WI. 154 pp.
blue shark
T. Essington et al., manuscript
vendace
Coregonus albula
Helminen, H., J. Karjalainen, et. al. 1997.
Quantification of the variance in food consumption
of age-0 vendace (Coregonus albula) with the aid of
a stochastic bioenergetics model. Arch. Hydrobiol.
Spec. Issues Advanc. Limnol. 49: 9-86.
Smelt
Osmerus eperlanus
Karjalainen, J., et. al. 1997. Food selection and
consumption of 0+ smelt (Osmerus eperlanus (L.))
and vendace (Coregonus albula (L.)) in pelagial
zone of Finnish lakes. Arch. Hydrobiol. Spec.
Issues Advanc. Limnol. 49: 37-49.
roach
Rutilus rutilus
Karjalainen, J., et.al. 1997. The estimation of food
consumption in larval and juvenile fish:
experimental evaluation of bioenergetics models. J.
of Fish Biol. 51: 39-51.
northern pike (Finland)
Esox lucius (L.)
Heikinheimo, O., Pekka Korhonen. Food
consumption of northern pike (Esox lucius L.)
estimated with a bioenergetics model. in press, J. of
Freshwater Fish.
Burbot
Lota lota
Rudstram, L.G., et. al. 1995. Prey consumption by
the burbot population in Green Bay, Lake
Michigan, based on a bioenergetics model. Can. J.
Fish. Aquat. Sci. 52: 1074-1082.
Eurasian Perch
Perca fluviatilis
Karas, P., and G. Thorensson. 1992. An
application of a bioenergetics model to Eurasian
perch (Perca fluviatilis). J. of Fish Biology. 41:
217-230.
perch
Perca fluviatilis
Karjalainen, J., D. Miserque, and H. Huuskonen.
1997. The estimation of food consumption in larval
and juvenile fish: experimental evaluation of
bioenergetics models. J. Fish Bio. 51: 39-51.
bay anchovy
Anchoa mitchili
Luo, J.G., and S.B. Brandt. 1993. Bay anchovy
Anchoa mitchili production and consumption in
mid-Chesapeake Bay based on a bioenergetics
model and acoustic measures of fish abundance.
Mar. Ecol. Prog. Ser. 98: 223-236.
Fathead minnow
Pimphales promelas
Duffy, W.G. 1998. Population dynamics,
production, and prey consumption on fathead
minnows (Pimphales promelas) in prairie wetlands:
a bioenergetics approach. Can. J. Fish. Aquat. Sci.
55(1): 15-27.
Common carp
Cyprinus carpio
W. Foreman. Unpublished MS thesis, Univ.
Wisconsin
Rock bass (age 0, age 1)
Ambloplites rupestris
Roell, M.J. and D.J. Orth. 1993. Trophic basics of
production of stream-dwelling smallmouth bass,
rock bass, and flathead catfish in relation to
invertebrate bait harvest. Trans. Am. Fish. Soc.
122:46-62.
Smallmouth bass
Micropterus dolomieu
Roell, M.J. and D.J. Orth. 1993. Trophic basics of
production of stream-dwelling smallmouth bass,
rock bass, and flathead catfish in relation to
invertebrate bait harvest. Trans. Am. Fish. Soc.
122:46-62.
Flathead catfish (age 0, age 1)Pylodictis olivaris
Roell, M.J. and D.J. Orth. 1993. Trophic basics of
production of stream-dwelling smallmouth bass,
rock bass, and flathead catfish in relation to
invertebrate bait harvest. Trans. Am. Fish. Soc.
122:46-62.
Baltic herring (0 group)
Arrhenius, F. 1998. Variable length of daily
feeding period in bioenergetics modelling: a test
Clupea harengus
with 0-group Baltic herring. J. of Fish Biology. 52:
855-860.
Whitefish (Larval, juvenile) Coregonus lavaretus
Possible revision of current parameters
Huuskonen, H. et al. 1998. Energy allocation in
larval and juvenile Coregonus lavaretus: validation
of a bioenergetics model. J. of Fish Biology. 52:
962-972.
Snakehead (Juvenile)
Channa striatus
Qin, J., X. He, and A.W. Fast. 1997. A
bioenergetics model for an air-breathing fish,
Channa striatus. Environmental Bio. Fishes. 50:
309-318.
zebra mussel
Dreissena polymorph
Schneider, D.W. 1992. A bioenergetics model of
zebra mussel, Dreissena polymorpha, growth in the
great lakes. Can. J. Fish. Aquat. Sci. 49: 14061416.
Nile perch
Lates niloticus
Kitchell, J.F., et.al. 1997. The nile perch in Lake
Victoria: interactions between predation and
fisheries. Ecological Applications. 7(2):653-664.
SE Atlantic flatfish
(southern flounder)
Paralichthys lethostigma
Burke, B.J. 1998. The Dynamics of a Linked
Foraging and Bioenergetics Model for Southern
Flounder (Paralichthys lethostigma). M.S. Thesis,
Department of Zoology, North Carolina State
University, Raleigh. 51 pp.
Northern pikeminnow
Vendace (age 0, juv., larval) Coregonus albula
Karjalainen, J., D. Miserque, and H. Huuskonen.
1997. The estimation of food consumption of
bioenergetics models. J. Fish. Bio. 51: 39-51.
Striped bass (Age 0 revision) Morone spp.
Hartman, K.J. and S.B. Brandt. 1993. Systematic
sources of Bias in a bioenergetics model: Examples
for age-0 striped bass. Trans. Am. Fish. Soc. 122:
912-926.
smallmouth bass (adult)
typo from original
Micropterus dolomieui
Hanson et. al. 1997 UA, should be 0.068 not 1.068
Shuter, B.J., and J.R. Post. 1990. Climate,
population variability, and the zoogeography of
temperate fishes. Trans. Amer. Fish. Soc. 119:314336.
North Sea Cod
Gadus morhua
Hansson, S., et. al. 1996. Predation rates by North
(Gadus morhua) - predictions from models on
evacuation and bioenergetics. ICES J. Mar. Sci.
53: 107-114.
* Begin current species list *
Alewife (YOY, juv, adult)
Alosa pseudoharengus
Stewart, D.J., and F.P. Binkowski. 1986.
Dynamics of consumption and food conversion by
Lake Michigan alewives: an energetics modeling
synthesis. Trans. Amer. Fish. Soc. 115:643-661.
bloater chub (adult)
Coregonus hoyi
Rudstam, L.G., F.P. Binkowski, and M.A. Miller.
1994. A bioenergetics model for analysis of food
consumption patterns of bloater in Lake Michigan.
Trans. Amer. Fish. Soc. 123:344-357.
Bluegill (juvenile, adult)
Lepomis macrochirus
Kitchell, J.F., J.F. Koonce, R.V. O’Neill, H.H.
Shugart, Jr., J.J. Magnuson, and R.S. Booth. 1974.
Model of fish biomass dynamics. Trans. Amer.
Fish. Soc. 103:786-798.
coho salmon (Adult)
Oncorhynchus kisutch
Stewart, D.J. and M. Ibarra. 1991. Predation and
production by salmonine fishes in Lake Michigan,
1978-88. Can. J. Fish. Aquat. Sci. 48:909-922.
chinook salmon (Adult)
Oncorhynchus tshawytscha
Stewart, D.J. and M. Ibarra. 1991. Predation and
production by salmonine fishes in Lake Michigan,
1978-88. Can. J. Fish. Aquat. Sci. 48:909-922.
Dace (adult)
Chrosomus spp.
He, X. 1986. Population dynamics of northern
redbelly dace (Phoxinus eos), finescale dace
(Phoxinus neogaeus), and central mudminnow
(Umbra limi), in two manipulated lakes. M.S.
thesis. University of Wisconsin- Madison.
Gen. coregonid (YOY, juv, adult)Coregonus spp.
Rudstam, L.G., F.P. Binkowski, and M.A. Miller.
1994. A bioenergetics model for analysis of food
consumption patterns of bloater in Lake Michigan.
Trans. Amer. Fish. Soc. 123:344-357.
herring (juvenile, adult)
Clupea harengus
Rudstam, L.G. 1989. A bioenergetic model for
Mysis growth and consumption applied to a Baltic
population of Mysis mixta. J. Plankton Res.
11:971-983.
lake trout (adult)
Salvelinus namaycush
Stewart, D.J., D. Weininger, D.V. Rottiers, and T.A.
Edsall. 1983. An energetics model for lake trout,
Salvelinus namaycush: application to the Lake
Michigan populaiton. Can. J. Fish. Aquat. Sci.
40:681-698.
largemouth bass (adult)
Micropterus salmoides
Rice, J.A., J.E. Breck, S.M. Bartell, and J.F.
Kitchell. 1983. Evaluating the constraints of
temperature, activity and consumption on growth of
largemouth bass. Environ. Biol. Fish. 9:263-275.
larval yellow perch (larvae) Perca flavescens
Post, J.R. 1990. Metabolic allometry of larval and
juvenile yellow perch (Perca flavescens) - In situ
estimates
and bioenergetic models. Can. J. Fish. Aquat. Sci.
47:554-560.
muskellunge (adult)
Esox masquinongy
Bevelhimer, M.S., R.A. Stein, and R.F. Carline.
1985. Assessing significance of physiological
differences among three esocids with a
bioenergetics model. Can. J. Fish. Aquat. Sci.
42:57-69.
Mysis
Mysis mixta
Rudstam, L.G. 1989. A bioenergetic model for
Mysis growth and consumption applied to a Baltic
population of Mysis mixta. J. Plankton Res.
11:971-983.
northern pike (adult)
Esox lucius
Bevelhimer, M.S., R.A. Stein, and R.F. Carline.
1985. Assessing significance of physiological
differences among three esocids with a
bioenergetics model. Can. J. Fish. Aquat. Sci.
42:57-69.
pink (adult)
Oncorhynchus gorbuscha
Beauchamp, D.A., D.J. Stewart, and G.L. Thomas.
1989. Corroboration of a bioenergetics model for
sockeye salmon. Trans. Amer. Fish. Soc. 118:597607.
sea lamprey
Petromyzon marinus
Kitchell, J.F., and J.E. Breck. 1980. Bioenergetics
model and foraging hypothesis for sea lamprey
(Petromyzon marinus). Can. J. Fish. Aquat. Sci.
37:2159-2168.
smallmouth bass (adult)
Micropterus dolomieui
Shuter, B.J., and J.R. Post. 1990. Climate,
population variability, and the zoogeography of
temperate fishes. Trans. Amer. Fish. Soc. 119:314-
336.
smelt (YOY, juv, adult)
Osmerus morda
Lantry, B.F. and D.J. Stewart. 1993. Ecological
energetics of rainbow smelt in the Laurentian Great
Lakes - an interlake comparison. Trans. Amer.
Fish. Soc. 122:386-389.
sockeye (adult)
Oncorhynchus nerka
Beauchamp, D.A., D.J. Stewart, and G.L. Thomas.
1989. Corroboration of a bioenergetics model for
sockeye salmon. Trans. Amer. Fish. Soc. 118:597607.
steelhead (adult)
Oncorhynchus mykiss
Rand, P.J., D.J. Stewart, P.W. Seelbach, M.L.
Jones, and L.R. Wedge. 1993. Modeling steelhead
population energetics in Lakes Michigan and
Ontario. Trans. Amer. Fish. Soc. 122:977-1001.
striped bass (age-1, age-2, adult) Morone saxatilis
Hartman, K.J. and S.B. Brandt. 1995. Predatory
demand and impact of striped bass, bluefish, and
weakfish in the Chesapeake Bay - Applications of
bioenergetics models. Can. J. Fish Aquat. Sci.
52:1667-1687.
striped bass (age-0)
Morone saxatilis
Hartman, K.J. and S.B. Brandt. 1995. Predatory
demand and impact of striped bass, bluefish, and
weakfish in the Chesapeake Bay - Applications of
bioenergetics models. Can. J. Fish Aquat. Sci.
52:1667-1687.
striped bass (larvae)
Morone spp.
Johnson, T.B. 1995. Long-term dynamics of the
zooplanktivorous fish community in Lake Mendota,
Wisconsin. Ph.D. thesis. University of Wisconsin
Madison.
tilapia (adult)
Sarotheradon spp.
Nitithamyong, C. 1988. Bioenergetics approach to
the stu
methytestosterone in blue tilapia, Oreochromis
aureus. Ph.D. thesis, University of WisconsinMadison.
walleye (adult)
Stizostedion vitreum
Kitchell, J.F., D.J. Stewart, and D. Weininger. 1977.
Applications of a bioenergetics model to yellow
perch (Perca flavescens) and walleye (Stizostedion
vitreum vitreum). J. Fish. Res. Board Can.
34:1922-1935.
walleye (juvenile)
Stizostedion vitreum
Madon, S.P., and D.A. Culver. 1993.
Bioenergetics model for larval and juvenile
walleyes - an in-situ approach with experimental
ponds. Trans. Amer. Fish. Soc. 122:797-813.
walleye pollock (juvenile)
Theragra chalcogramma
Mason et al., unpublished
walleye pollock (adult)
Theragra chalcogramma
Mason et al., unpublished
yellow perch (juv, adult)
Perca flavescens
Kitchell, J.F., D.J. Stewart, and D. Weininger. 1977.
Applications of a bioenergetics model to yellow
perch (Perca flavescens) and walleye (Stizostedion
vitreum vitreum). J. Fish. Res. Board Can.
34:1922-1935.
bluefish (YOY, juv, adult)
Pomatomus saltatrix
Hartman, K.J. and S.B. Brandt. 1995. Predatory
demand and impact of striped bass, bluefish, and
weakfish in the Chesapeake Bay - Applications of
bioenergetics models. Can. J. Fish Aquat. Sci.
52:1667-1687.
weakfish (age-0)
Cynoscion regalis
Hartman, K.J. and S.B. Brandt. 1995. Predatory
demand and impact of striped bass, bluefish, and
weakfish in the Chesapeake Bay - Applications of
bioenergetics models. Can. J. Fish Aquat. Sci.
52:1667-1687.
weakfish (age-1 and older)
Cynoscion regalis
Hartman, K.J. and S.B. Brandt. 1995. Predatory
demand and impact of striped bass, bluefish, and
weakfish in the Chesapeake Bay - Applications of
bioenergetics models. Can. J. Fish Aquat. Sci.
52:1667-1687.