Welcome, Guest
Username: Password: Remember me
  • Page:
  • 1

TOPIC:

Lake Trout diet of northern Michigan Oct 04, 2015 9:44 am #3779

  • Lickety-Split
  • Lickety-Split's Avatar Topic Author
  • Offline
  • Platinum Member
  • Platinum Member
  • Posts: 2487
  • Thank you received: 1780
Published by: International Association for Great Lakes Research

« previous article : next article »
Select Language​▼
translator disclaimer


Journal of Great Lakes Research 36(2):312-317. 2010
doi: dx.doi.org/10.1016/j.jglr.2010.02.007

Diet of Lake Trout and Burbot in Northern Lake Michigan During Spring: Evidence of Ecological Interaction
No Access
Gregory R. Jacobsa,*,1, Charles P. Madenjianb, David B. Bunnellb, Jeffrey D. Holuszkob
a University of Michigan School of Natural Resources and Environment, 440 Church St., Ann Arbor, Michigan 48109, USA
b US Geological Survey, Great Lakes Science Center, 1451 Green Road, Ann Arbor, Michigan 48105, USA
1 Present address: US Geological Survey, Great Lakes Science Center, 1451 Green Road, Ann Arbor, Michigan 48105, USA.
* Corresponding author. E-mail address: This email address is being protected from spambots. You need JavaScript enabled to view it. (G.R. Jacobs).
Communicated by John Janssen
ABSTRACT
We used analyses of burbot (Lota lota) and lake trout (Salvelinus namaycush) diets taken during spring gillnet surveys in northern Lake Michigan in 2006–2008 to investigate the potential for competition and predator-prey interactions between these two species. We also compared our results to historical data from 1932. During 2006–2008, lake trout diet consisted mainly of alewives (Alosa pseudoharengus) and rainbow smelt (Osmerus mordax), whereas burbot utilized a much wider prey base including round goby (Neogobius melanostomus), rainbow smelt, alewives, and sculpins. Using the Schoener's diet overlap index, we found a higher potential for interspecific competition in 1932 than in 2006–2008, though diet overlap was not significant in either time period. No evidence of cannibalism by lake trout or lake trout predation on burbot was found in either time period. In 2006–2008, however, lake trout composed 5.4% (by weight) of burbot diet. To determine whether this predation could be having an impact on lake trout rehabilitation efforts in northern Lake Michigan, we developed a bioenergetic-based consumption estimate for burbot on Boulder Reef (a representative reef within the Northern Refuge) and found that burbot alone can consume a considerable proportion of the yearling lake trout stocked annually, depending on burbot density. Overall, we conclude that predation, rather than competition, is the more important ecological interaction between burbot and lake trout, and burbot predation may be contributing to the failed lake trout rehabilitation efforts in Lake Michigan.

Received: June 9, 2009; Accepted: December 14, 2009
Keywords: Predation, Competition, Rehabilitation, Bioenergetics, Schoener, Recruitment

References
Bronte, C.R., Holey, M.E., Madenjian, C.P., Jonas, J.L., Claramunt, R.M., McKee, P.C., et al., 2007. Relative abundance, site fidelity, and survival of adult lake trout in Lake Michigan from 1999 to 2001: implications for future restoration strategies. North Am J Fish Manage 27, 137–155.
Bruesewitz, R.E., 1990. Population dynamics of burbot (Lotalota) in western Lake Michigan and Green Bay. M.S. thesis, University of Wisconsin, Stevens Point.
Bunnell, D.B., Madenjian, C.P., Claramunt, R.M., 2006. Long-term changes of the Lake Michigan fish community following the reduction of exotic alewife (Alosa pseudoharengus). Can J Fish Aquat Sci 63, 2434–2446.
Carl, L.M., 1992. The response of burbot (Lotalota) to change in lake trout (Salvelinus namaycush) abundance in Lake Opeongo, Ontario. Hydrobiologia 243 (244), 228–235.
Carl, L.M., 2008. Lake trout demographics in relation to burbot and coregonine populations in the Algonquin Highlands, Ontario. Environ Biol Fish 83, 127–138.
Claramunt, R.A., Jonas, J.L., Fitzsimmons, J.D., Marsden, J.E., 2005. Influences of spawning habitat characteristics and interstitial predators on lake trout egg deposition and mortality. Trans Am Fish Soc 134, 1048–1057.
Dawson, K.A., Eshenroder, R.H., Holey, M.E., Ward, C., 1997. Quantification of historic lake trout (Salvelinus namaycush) spawning aggregations in Lake Michigan. Can J Fish Aquat Sci 54, 2290–2302.
Day, A.C. 1983. Biological and population characteristics of, and interactions between an exploited burbot (Lota lota) population and an exploited lake trout (Salvelinus namaycush) population from Lake Athapapuskow, Manitoba. M.Sc. Thesis. University of Manitoba, Winnipeg, p 77.
Eck, G.W., Wells, L., 1983. Biology, population structure, and estimated forage requirements of lake trout in Lake Michigan. U.S. Fish and Wildlife Service Technical Paper, 111. Washington, DC.
Edsall, T.A., Kennedy, G.W., Horns, W.H., 1993. Distribution, abundance, and resting microhabitat of burbot on Julians Reef, southwestern Lake Michigan. Trans Am Fish Soc 122, 560–574.
Elliott, R.F., Peeters, P.J., Ebener, M.P., Rybicki, R.W., Schneeberger, P.J., Hess, R., et al., 1996. Conduction diet studies of Lake Michigan piscivores: a protocol. U.S. Fish and Wildlife Service, Fishery Resources Office, Report 96-2, Green Bay, Wisconsin.
Elrod, J.H., 1987. Dispersal of three strains of hatchery-reared lake trout in Lake Ontario. J Great Lakes Res 13, 157–167.
Fratt, T.W., Coble, D.W., Copes, F., Bruesewitz, R.E., 1997. Diet of burbot in Green Bay and western Lake Michigan with comparison to other waters. J Great Lakes Res 23, 1–10.
Great Lakes Fishery Commission, 2009. Great Lakes Fish Stocking Database. Great Lakes Fishery Commission. Available from: www.glfc.org/fishstocking. (May 2009).
Hackney, P.A. 1973. Ecology of the burbot (Lota lota) with special reference to its role in the Lake Opeongo fish community. Ph.D. Thesis, University of Toronto, Toronto, p 152.
Hanson, P.C., Johnson, T.B., Schindler, D.E., Kitchell, J.F., 1997. Fish bioenergetics 3.0. University of Wisconsin-Madison Center for Limnology and University of Wisconsin Sea Grant Institute, Madison.
Hensler, S.P., Jude, D.J., He, J., 2008. Burbot growth and diets in Lakes Michigan and Huron: an ongoing shift from native species to round gobies. Burbot: Ecology, Management, and Culture: American Fisheries Society, Symposium, 59, pp. 91–107. Bethesda, Maryland.
Holey, M.E., Rybicki, R.W., Eck, G.W., Brown Jr, E.H., Marsden, J.E., Lavis, D.S., et al., 1995. Progress toward lake trout restoration in Lake Michigan. J Great Lakes Res 21, 128–151.
Hondorp, D.W., Pothoven, S.A., Brandt, S.B., 2005. Influence of Diporeia density on diet composition, relative abundance, and energy density of planktivorous fishes in southeast Lake Michigan. Trans Am Fish Soc 134, 588–601. CrossRef
Honeyfield, D.C., Hinterkopf, J.P., Fitzsimmons, J.D., Tillitt, D.E., Zajicek, J.L., Brown, S.B., 2005. Development of thiamine deficiencies and early mortality syndrome in lake trout by feeding experimental and feral fish diets containing thiaminase. J Aquat Anim Health 17, 4–12.
Janssen, J., Jude, D.J., Edsall, T.A., Paddock, R.W., Wattrus, N., Toneys, M., et al., 2006. Evidence of lake trout reproduction at Lake Michigan's Mid-Lake Reef Complex. J Great Lakes Res 32, 749–763. BioOne
Johnson, T.B., Mason, D.M., Schram, S.T., Kitchell, J.F., 1999. Ontogenetic and seasonal patterns in the energy content of piscivorous fishes in Lake Superior. J Great Lakes Res 25, 275–281.
Krueger, C.C., Perkins, D.L., Mills, E.L., Marsden, J.E., 1995. Predation by alewives on lake trout fry in Lake Ontario: role of an exotic species in preventing restoration of a native species. J Great Lakes Res 21 (Suppl. 1), 458–469.
Lavis, D.S., Hallett, A., Koon, E.M., McAuley, T.C., 2003. History of and advances in barriers as an alternative method to suppress sea lampreys in the Great Lakes. J. Great Lakes Res 29 (Suppl), 1362–1372.
Lee, V.A., Johnson, T.B., 2005. Development of a bioenergetics model for the round goby. J Great Lakes Res 31, 125–134.
Madenjian, C.P., DeSorcie, T.J., Stedman, R.A., 1998. Ontogenetic and spatial patterns in diet and growth of lake trout in Lake Michigan. Trans Am Fish Soc 127, 236–252. CrossRef
Madenjian, C.P., Desorcie, T.J., 1999. Status of lake trout rehabilitation in the Northern Refuge of Lake Michigan. North Am J Fish Manage 19, 658–669.
Madenjian C.P. and Desorcie, T.J., 2010. Lake trout population dynamics in the Northern Refuge of Lake Michigan: implications for future rehabilitation. North Am J Fish Manage 30.
Madenjian, C.P., Höök, T.O., Rutherford, E.S., Szalai, E., Bence, J.R., Mason, D.M., et al., 2005. Recruitment variability of alewives in Lake Michigan. Trans Am Fish Soc 134, 218–230. CrossRef
Madenjian, C.P., Pothoven, S.A., Dettmers, J.M., Holuszko, J.D., 2006. Changes in seasonal energy density of alewife (Alosapseudoharengus) in Lake Michigan after invasion of dreissenid mussels. Can J Fish Aquat Sci 63, 1–12.
Madenjian, C.P., O'Gorman, R., Bunnell, D.B., Argyle, R.L., Roseman, E.F., Warner, D.M., et al., 2008. Adverse effects of alewives on Laurentian Great Lakes fish communities. North Am J Fish Manage 28, 263–282. CrossRef
Milner, J.W., 1874. Report on the fisheries of the Great Lakes: the result of inquiries prosecuted in 1871 and 1872. U.S. Commission of Fish and Fisheries, Report of the Commissioner for 1872 and 1873, pp. 1–75.
Parker, J.F., Lafferty, R., Potterville, W.D., Bernard, D.R., 1989. Stock assessment and biological characteristics of burbot in lakes of interior Alaska during 1988. Alaska Department of Fish and Game.: Fishery Data Series, 98. Juneau.
Ray, B.A., Hrabik, T.R., Ebener, M.P., Gorman, O.T., Schreiner, D.R., Schram, S.T., et al., 2007. Diet and prey selection by Lake Superior lake trout during spring 1981–2001. J Great Lakes Res 33, 104–113. BioOne
Rudstam, L.G., Peppard, P.E., Fratt, T.W., Bruesewitz, R.E., Coble, D.W., Copes, F.A., et al., 1995. Prey consumption by the burbot (Lota lota) population in Green Bay, Lake Michigan, based on a bioenergetics model. Can J Fish Aquat Sci 52, 1074–1082.
Schneeberger, P.J., Toneys, M., Elliott, R., Jonas, J., Clapp, D., Hess, R., et al., 1997. Lakewide assessment plan for Lake Michigan fish communities. Lake Michigan Technical Committee, Great Lakes Fishery Commission. Available from: www.glfc.org/pubs/SpecialPubs/lwasses01.pdf.
Schoener, T.W., 1970. Nonsynchronous spatial overlap of lizards in patchy habitats. Ecology 51, 408–418. CrossRef
Schram, S.T., Johnson, T.B., Seider, M.J., 2006. Burbot consumption and relative abundance in the Apostle Islands region of Lake Superior. J Great Lakes Res 32, 798–805. BioOne
Sinclair, A.R.E., Pech, R.P., Dickman, C.R., Hik, D., Manon, P., Newsome, A.E., 1998. Predicting effects of predation on conservation of endangered prey. Con Biol 12, 564–575. CrossRef
Stapanian, M.A., Madenjian, C.P., Bronte, C.R., Ebener, M.P., Lantry, B.F., Stockwell, J.D., 2008. Status of burbot populations in the Laurentian Great Lakes. Trans Am Fish Soc 59, 111–130.
Stewart, D.J., Weininger, D., Rottiers, D.V., Edsall, T.A., 1983. An energetics model for lake trout, Salvelinus namaycush—application to the Lake Michigan population. Can J Fish Aquat Sci 40, 681–698. CrossRef
Van Oosten, J., Deason, H.J., 1938. The food of the lake trout (Cristivomernamaycush) and of the lawyer (Lota maculosa) of Lake Michigan. Trans Am Fish Soc 67, 155–177.
Wallace, R.K., 1981. An assessment of diet-overlap indexes. Trans Am Fish Soc 110, 72–76. CrossRef
Ward, D.M., Nislow, K.H., Folt, C.L., 2008. Predators reverse the direction of density dependence for juvenile salmon mortality. Oecologia 156, 515–522.
Yako, L.A., Mather, M.A., Juanes, F., 2000. Assessing the contribution of anadromous herring to largemouth bass growth. Trans Am Fish Soc 129, 77–88. CrossRef
click this button to close
Article Views
» Abstract & References

Full Text

PDF (392 KB)

click this button to open
Social Tools
Share on citeulikeShare on twitterShare on facebookShare on deliciousShare on linkedinShare on researchgateMore Sharing Services
Print Friendly and PDF Print Friendly

Article Tools
Email

Disable search highlighting

Add to Favorites

Sign Up for E-alerts

Download to Citation Manager

Alert me when this article is cited: Email | RSS

click this button to open
Citing Articles

List of Issues
Current Issue
Category: BioOne.2
Aims & Scope



Print ISSN: 0380-1330

Current: Dec 2010 : Volume , 36 Issue 4

BioOne Member Since: 2008 (Active through 2010)

Frequency: Quarterly

Impact Factor: 1.748

ISI Journal Citation Reports® Rankings:

106/221 - Environmental Sciences

7/20 - Limnology

39/102 - Marine & Freshwater Biology

Eigenfactor™: Journal of Great Lakes Research

click this button to close
Title Tools
click this button to close Most Read Articles
Rapid Invasion of a Great Lakes Coastal Wetland by Non-native Phragmites australis and Typha

Preparing for a Changing Climate: The Chicago Climate Action Plan's Adaptation Strategy

Introduction: Assessing the Effects of Climate Change on Chicago and the Great Lakes

Occurrence and Food Habits of the Round Goby in the Profundal Zone of Southwestern Lake Ontario

Persistence and Potential Growth of the Fecal Indicator Bacteria, Escherichia coli, in Shoreline Sand at Lake Huron

click this button to open Most Cited Articles
Transport and Mixing Between the Coastal and Offshore Waters in the Great Lakes: a Review

Rapid Invasion of a Great Lakes Coastal Wetland by Non-native Phragmites australis and Typha

Long-term Trends in Benthic Macroinvertebrate Populations in Lake Huron over the Past Four Decades

How Non-native Species in Lake Erie Influence Trophic Transfer of Mercury and Lead to Top Predators

Environmental and Ecological Conditions Surrounding the Production of Large Year Classes of Walleye (Sander vitreus) in Saginaw Bay, Lake Huron

More

Sign up for e-alerts

RSS RSS Feeds


BioOne is the product of innovative collaboration between scientific societies, libraries, academe and the private sector.

21 Dupont Circle NW, Suite 800, Washington, DC 20036 • Phone 202.296.1605 • Fax 202.87
Lickety-Split

Life is not measured by the breaths you take
but by the moments that take your breath away

Please Log in or Create an account to join the conversation.

  • Page:
  • 1