Increase in lake trout reproduction in Lake Huron following the collapse of alewife: Relief from thiamine deficiency or larval predation?

Authors

  • John D. Fitzsimons Department of Fisheries and Oceans Canada, Burlington, Ontario
  • Scott Brown Environment Canada, Burlington, Ontario
  • Lisa Brown Environment Canada, Burlington, Ontario
  • Dale Honeyfield US Geological Survey, Wellsboro, Pennsylvania
  • Ji He Michigan Department of Natural Resources, Alpena, Michigan
  • James E. Johnson Michigan Department of Natural Resources, Alpena, Michigan

Keywords:

early mortality syndrome, restoration, predator-prey

Abstract

In the Great Lakes there is still uncertainty as to the population level effects of a thiamine deficiency on salmonines caused by high consumption of alewives Alosa pseudoharengus. A resurgence of lake trout Salvelinus namaycush reproduction in Lake Huron following the crash of alewife stocks between 2002 and 2004 provided an opportunity to evaluate the relative effects of this crash on reproduction through relief from either alewife mediated thiamine deficiency or alewife predation on larval lake trout relative to possible changes in the size of the lake trout spawning stock. Changes in mean lake trout egg thiamine concentration post crash at one spawning reef in Parry Sound, where mean thiamine concentration increased by almost two-fold, were consistent with diet switching from alewives to rainbow smelt Osmerus mordax, the next most abundant prey fish in Lake Huron. Although thiamine levels for lake trout collected at a second reef in Parry Sound did not change post-crash, levels both pre- and post-crash were consistent with a rainbow smelt diet. A reef specific fry emergence index was found to be positively related to reef specific egg thiamine concentration but negatively related to reef specific occurrence of EMS, a thiamine deficiency related mortality syndrome. We found little evidence for overlap between the timing of spring shoreward migration of alewives and lake trout emergence, suggesting that relief from alewife predation effects had relatively little effect on the observed increase in lake trout recruitment. Numbers of spawners in the north, north-central, and southern zones of the lake increased from 2000 onwards. Overall the abundance post-2003 was higher than from pre-2004, suggesting that spawner abundance may also have contributed to increased lake trout reproduction. However, predicted numbers of spawners and measured abundance of wild recruits in assessment gear were poorly correlated suggesting that the increase in reproduction was not totally spawner dependent and hence relief from thiamine deficiency was also likely involved. We conclude from this that eliminating the effects of an alewife diet mediated thiamine deficiency can have positive effects on lake trout reproduction but more research is required to understand the effect of spawner number and the role of spawning habitat availability.

References

Anderson, D. M. and Collins, J. J. 1995. Natural reproduction by stocked lake trout (Salvelinus namaycush) and hybrid (Backcross) lake trout in south Bay, Lake Huron. J. Great Lakes Res., 21(Supplement 1): 253–259.

Brown, E. 1968. Population characteristics and physical conditions of alewives Alosa pseudoharengus in a massive die-off in Lake Michigan, 1967, Great Lakes Fishery Commission. Tech. Rep. No. 13

Brown, S. B., Fitzsimons, J., Palace, V. P. and Vandenbyllaardt, L. 1998a. “Thiamine and early mortality syndrome in lake trout (Salvelinus namaycush)”. In Early Life stage mortality syndrome in fishes of the Great Lakes and the Baltic Sea, Edited by: McDonald, G., Fitzsimons, J. and Honeyfield, D. C. 18–25. Bethesda, Maryland: American Fisheries Society. Symposium 21

Brown, S. B., Honeyfield, D. C. and Vandenbyllaardt, L. 1998b. “Thiamine analysis in fish tissues”. In Life Stage Mortality Syndrome in Fishes of the Great Lakes and the Baltic Sea, Edited by: McDonald, G., Fitzsimons, J. D. and Honeyfield, D. C. 73–81. Bethesda, Maryland: American Fisheries Society. Symposium 21

Brown, S. B., Fitzsimons, J. D., Honeyfield, D. and Tillitt, D. E. 2005a. Implications of thiamine deficiency in Great Lakes salmonines. J. Aquat. Anim. Health, 17: 113–124.

Collins, J. J. 1975. An emergent fry trap for lake spawning Salmonines and Coregonines. Progressive Fish- Culturist, 37: 140–142.

Conner, D. J., Bronte, C. R., Selgeby, J. H. and Collins, H. L. 1993. Food of salmonine predators in Lake Superior Great Lakes Fishery Commission Technical Report 59

Dobiesz, N. E. 2003. An evaluation of the role of top piscivores in the fish community of the main basin of Lake Huron, Ph.D. dissertation East Lansing, MI: Michigan State Univ..

Edsall, T. A., Manny, B. A. and Kennedy, G. W. 2003. Starvation resistance in lake trout fry. J. Great Lakes Res., 29: 375–382.

Ellrott, B. J., Marsden, J. E., Fitzsimons, J. D., Jonas, J. L. and Claramunt, R. M. 2007. Effects of temperature and density on consumption of trout eggs by Orconectes propinquus Orusticus. J. Great Lakes Res., 33: 7–14.

Eshenroder, R. L., Payne, N. R., Johnson, J. E., Bowen, C. II and Ebener, M. P. 1995. Lake trout rehabilitation in Lake Huron. J. Great Lakes Res., 21(Suppl. 1): 108–127.

Fitzsimons, J. D. 1995. Assessment of lake trout spawning habitat and egg deposition and survival in Lake Ontario. J. Great Lakes Res., 21(Suppl. 1): 337–347.

Fitzsimons, J. D. and Brown, S. B. 1998. “Reduced egg thiamine levels in inland and Great Lakes lake trout and their relationship with diet”. In Early life stage mortality syndrome in fishes of the Great Lakes and the Baltic Sea, Edited by: McDonald, G., Fitzsimons, J. and Honeyfield, D. C. 160–171. Bethesda, Maryland: American Fisheries Society. Symposium 21

Fitzsimons, J. D., Huestis, S. and Williston, B. 1995. Occurrence of a swim-up syndrome in Lake Ontario lake trout in relation to contaminants and cultural practices. J. Great Lakes Res., 21(Suppl. 1): 277–285.

Fitzsimons, J. D., Brown, S. B. and Vandenbyllaardt, L. 1998. “Thiamine levels in the food chains of the Great Lakes”. In Early Life Stage Mortality Syndrome in Fishes of the Great Lakes and the Baltic Sea, Edited by: McDonald, G., Fitzsimons, J. D. and Honeyfield, D. C. 90–98. Bethesda, Maryland: American Fisheries Society. Symposium 21

Fitzsimons, J. D., Brown, S. B., Honeyfield, D. C. and Hnath, J. G. 1999. A review of early mortality syndrome in Great Lakes salmonids and its relationship with thiamine. Ambio, 28: 9–15.

Fitzsimons, J. D., Perkins, D. L. and Krueger, C. C. 2002. Sculpins and crayfish on lake trout spawning areas in Lake Ontario: Estimates of abundance and egg predation. J. Great Lakes Res, 28: 421–436.

Fitzsimons, J. D., Lantry, B. and O'Gorman, R. 2003. “A review of lake trout (Salvelinus namaycush) restoration in Lake Ontario from an early life history perspective”. In State of Lake Ontario: Past, Present, and Future, Edited by: Munawar, M. 493–516. Burlington, Ontario: Ecovision World Monograph Series, Aquatic Ecosystem Health and Management Society.

Fitzsimons, J. D., Williston, B., Williston, G., Brown, L., El-Shaarawi, A., Vandenbyllaardt, L., Honeyfield, D. C., Tillitt, D., Wolgamood, M. and Brown, S. B. 2007. Egg thiamine status of Lake Ontario salmonines 1995–2004 with emphasis on lake trout. J. Great Lakes Res., 33: 93–107.

Fitzsimons, J. D., Brown, S. B., Williston, B., Williston, G., Brown, L. R., Moore, K., Honeyfield, D. C. and Tillitt, D. E. 2009. Influence of thiamine deficiency on lake trout larval growth, foraging and predator avoidance. J. Aquat. Anim. Health, 21: 302–314.

Harvey, C. J. and Kitchell, J. F. 2000. A stable isotope evaluation of the structure and spatial heterogeneity of a Lake Superior food web. Can J. Fish. Aquat.Sci., 57: 1395–1403.

Honeyfield, D. C., Hinterkopf, J., Fitzsimons, J. D., Tillitt, D. E., Zajicek, J. L. and 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.

Hudson, P. L., Savino, J. S. and Bronte, C. R. 1995. Predator-prey relations and competition for food between age-O lake trout and slimy sculpins in the Apostle Island Region of Lake Superior. J. Great Lakes Res., 21(Supp1. 1): 445–457.

Jonas, J. L., Claramunt, R. M., Fitzsimons, J. D., Marsden, J. E. and Ellrott, B. J. 2005. Estimates of egg deposition and effects of lake trout (Salvelinus namaycush) egg predators in three regions of the Great Lakes. Can. J. Fish. Aquat. Sc., 62: 2254–2264.

Krueger, C. C., Perkins, D. L., Mills, E. L. and 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.

Madenjian, C. P., Desorcie, T. J., McClain, J. R., Woldt, A. P., Holuszko, J. D. and Bowen, C. A. II. 2004. Status of lake trout rehabilitation on Six Fathom Bank and Yankee Reef in Lake Huron. N. A. J. Fish. Manage., 24: 1003–1016.

Madenjian, C. P., Holuuszko, J. D. and Desorcie, T. J. 2006. Spring-summer diet of lake trout on Six Fathom Bank and Yankee Reef in Lake Huron. J. Great Lakes Res., 32: 200–208.

Marcquenski, S. V. and Brown, S. B. 1997. “Early mortality syndrome (EMS) in salmonid fishes from the Great Lakes”. In Chemically induced alterations in functional development and reproduction of fishes, Edited by: Rolland, R. M., Gilbertson, M. and Peterson, R. E. 135–152. Pensacola, Florida: SETAC Press.

Marsden, J. E., Casselman, J. M., Edsall, T. A., Elliot, R. F., Fitzsimons, J. D., Horns, W. H., Manny, B. A., McAughey, S. C., Sly, P. G. and Swanson, B. L. 1995. Lake trout spawning habitat in the Great Lakes-a review of current knowledge. J. Great Lakes Res., 21(Suppl. 1): 487–497.

Marsden, J. E., Ellrott, B. J., Claramunt, R. M., Jonas, J. L. and Fitzsimons, J. D. 2005. A comparison of lake trout spawning, fry emergence, and habitat use in lakes Michigan, Huron, and Champlain. J. Great Lakes Res., 31: 492–508.

Martin, N. V. and Olver, C. H. 1980. “The lake charr, Salvelinus namaycush”. In Charrs: salmonid fishes of the genus Salvelinus, Edited by: Balon, E. K. 205–277. The Hague, , the Netherlands: Dr. W. Junk Publishers.

Nester, R. T. and Poe, T. P. 1984. First evidence of successful natural reproduction of planted lake trout in Lake Huron. N. A. J. Fish. Manage., 4: 126–128.

O'Gorman, R., Elrod, J. H., Owens, R. W., Schneieder, C. P., Eckert, T. H. and Lantry, B. F. 2000. Shifts in depth distributions of alewives, rainbow smelt, and age-2 lake trout in southern Lake Ontario following establishment of dreissenids. Trans. Amer. Fish. Soc., 129: 1096–1106.

O'Gorman, R., Elrod, J. H. and Schneider, C. P. 2003. Reproductive potential and fecundity of lake trout strains in southern and eastern waters of Lake Ontario, 1977–1994. J. Great Lakes Res., 24: 131–144.

Owens, R. W., O'Gorman, R., Eckert, T. H. and Lantry, B. F. 2003. “The offshore fish community in southern Lake Ontario, 1972–1998”. In The State of Lake Ontario: Past, Present, and Future, World Monograph Series Edited by: Munawar, M. 407–442. Burlington, Ontario: Aquatic Ecosystem Health and Management Society.

Peck, J. W. 1982. Extended residence of young-of-the-year lake trout in shallow water. Trans. Am. Fish. Soc., 111: 775–778.

Riley, S. C., Hi, J., Johnson, J. E., O'Brien, T. P. and Schaeffer, J. S. 2007. Evidence of widespread natural reproduction by lake trout Salvelinus namaycush in the Michigan waters of Lake Huron. J. Great Lakes Res., 33: 917–921.

Roseman, E. F., Schaeffer, J. S., O'Brien, T. P., French, J. R. P., Kiley, C. S. and Riley, S. C. 2007. Status and trends of the Lake Huron deepwater demersal fish community, 2006, Ann Arbor, MI: Great Lakes Science Center. U. S. Geological Survey Annual Report

Royce, W. F. 1951. Breeding habits of lake trout in New York. U. S. Fish. Wildl. Ser. Fish. Bull., 52: 59–76.

Savino, J. F. and Miller, J. E. 1991. Crayfish (Orconectes virilis) feeding on young lake trout (Salvelinus namaycush): effect of rock size. J. Fresh. Ecol., 6: 161–170.

Schaeffer, J. S., Roseman, E. F., Riley, S. C., Faul, C. S., O'Brien, T. P. and Fouilleroux, A. 2005. Status and Trends of the Lake Huron Deepwater Fish Community, 2004 Report to the Great Lakes Fishery Commission, Upper Lakes meetings, Ypsilanti, MI, March 2005

Skea, J. C., Symula, J. and Miccoli, J. 1985. Separating starvation losses from other early feeding fry mortality in steelhead trout Salmo gairdneri, chinook salmon Oncorhynchus tshawytscha. and lake trout Salvelinus namaycush.. Bull. Environ. Cont. Toxicol., 35: 82–91.

Strakosh, T. R. and Krueger, C. C. 2005. Behavior of post-emergent lake trout fry in the presence of the alewife, a non-native predator. J. Great Lakes Res., 31: 296–305.

Swedberg, D. V. and Peck, J. W. 1984. Food of young-of-the-year lake trout (Salvelinus namaycush) in Presque Isle Harbor, Lake Superior. J. Great Lakes Res., 10: 280–285.

Tillitt, D. E., Zajicek, J. L., Brown, S. B., Brown, L. R., Fitzsimons, J. D., Honeyfield, D. C., Holey, M. E. and Wright, G. M. 2005. Thiamine and thiaminase status in forage fish of salmonines from Lake Michigan. J. Aquat. Anim. Health., 17: 26–35.

Warner, D. M., O'Brien, T. P., Faul, C. S. and Stickel, R. G. 2005. Status of pelagic prey fish in Lake Huron in 1997 and 2004 Report to the Great Lakes Fishery Commission, Upper Lakes meetings, Ypsilanti, MI, March 2006

Wells, L. 1968. Seasonal depth distribution of fish in southeastern Lake Michigan. U. S. Fish and Wildlife Service Fishery Bulletin, 67: 1–15.

Wilberg, M. J., Hansen, M. J. and Bronte, C. R. 2003. Historic and modern abundance of wild lean lake trout in Michigan waters of Lake Superior: implications for restoration goals. N. A. J. Fish Manage., 23: 100–108.

Downloads

Published

2010-02-26

Issue

Vol. 13 No. 1 (2010): Changing Great Lakes of the World and Rift Valley Lakes: Sustainability, Integrity & Management (GLOW V, Part I)

Section

Research article

License

Manuscripts must be original. They must not be published or be under consideration for publication elsewhere, in whole or in part. It is required that the lead author of accepted papers complete and sign the MSU Press AEHM Author Publishing Agreement and provide it to the publisher upon acceptance.