Burbot Early Life History Strategies in the Great Lakes

Burbot Lota lota exhibit four previously known reproductive strategies in the Great Lakes region. In this paper we review those strategies and provide evidence for a fifth one—delayed deepwater spawning. The four known, shallow‐water strategies are as follows: (1) spawning by self‐sustaining, landlo...

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Published in:Transactions of the American Fisheries Society
Main Authors: Jude, David J., Wang, Yu, Hensler, Stephen R., Janssen, John
Format: Article in Journal/Newspaper
Language:unknown
Published: Taylor & Francis Group 2013
Subjects:
Natural Resources and Environment
Science
Mansfield
Southern Lake
Burbot
Lota lota
lota
Online Access:http://hdl.handle.net/2027.42/141895
https://doi.org/10.1080/00028487.2013.795192
id ftumdeepblue:oai:deepblue.lib.umich.edu:2027.42/141895
record_format openpolar
institution Open Polar
collection University of Michigan: Deep Blue
op_collection_id ftumdeepblue
language unknown
topic Natural Resources and Environment
Science
spellingShingle Natural Resources and Environment
Science
Jude, David J.
Wang, Yu
Hensler, Stephen R.
Janssen, John
Burbot Early Life History Strategies in the Great Lakes
topic_facet Natural Resources and Environment
Science
description Burbot Lota lota exhibit four previously known reproductive strategies in the Great Lakes region. In this paper we review those strategies and provide evidence for a fifth one—delayed deepwater spawning. The four known, shallow‐water strategies are as follows: (1) spawning by self‐sustaining, landlocked populations, (2) spawning in tributaries in winter and the exit of larvae to a Great Lake, (3) spawning by residents in a spawning stream with access to a Great Lake, and (4) spawning on unconsolidated and rocky areas in shallow water in winter in the lake proper. Resident, landlocked populations exist in some Michigan and Wisconsin rivers (e.g., the Muskegon River in Michigan). The evidence for winter tributary spawning is the appearance of newly hatched Burbot in the St. Marys and Bark rivers during April–June. Evidence for Burbot juveniles leaving spawning streams is U.S. Fish and Wildlife Service tributory mouth trap data. The evidence for winter nearshore spawning comes from power plant monthly entrainment studies (Mansfield et al. 1983). Our proposed fifth strategy is spring and summer spawning at deep reefs, where there is probably cobble or boulder habitat. Our evidence comes from midlake reefs in Lake Michigan and offshore areas of Lake Huron: (1) we collected adult Burbot at midlake reefs in Lake Michigan, (2) we collected many Burbot larvae (many of which were newly hatched) from Lakes Michigan and Huron in June–August, and (3) we collected a Burbot egg in a PONAR grab in mid‐July from 73 m in southern Lake Huron. An important question remains, namely, which life history strategy provides the highest recruitment success for this species. It may be that adaptability ensures the survival of this important, top‐predator fish during periods of crisis (e.g., encounters with dams, Sea Lamprey Petromyzon marinus predation). Peer Reviewed https://deepblue.lib.umich.edu/bitstream/2027.42/141895/1/tafs1733.pdf
format Article in Journal/Newspaper
author Jude, David J.
Wang, Yu
Hensler, Stephen R.
Janssen, John
author_facet Jude, David J.
Wang, Yu
Hensler, Stephen R.
Janssen, John
author_sort Jude, David J.
title Burbot Early Life History Strategies in the Great Lakes
title_short Burbot Early Life History Strategies in the Great Lakes
title_full Burbot Early Life History Strategies in the Great Lakes
title_fullStr Burbot Early Life History Strategies in the Great Lakes
title_full_unstemmed Burbot Early Life History Strategies in the Great Lakes
title_sort burbot early life history strategies in the great lakes
publisher Taylor & Francis Group
publishDate 2013
url http://hdl.handle.net/2027.42/141895
https://doi.org/10.1080/00028487.2013.795192
long_lat ENVELOPE(-45.733,-45.733,-60.650,-60.650)
ENVELOPE(-94.333,-94.333,62.217,62.217)
geographic Mansfield
Southern Lake
geographic_facet Mansfield
Southern Lake
genre Burbot
Lota lota
lota
genre_facet Burbot
Lota lota
lota
op_relation Jude, David J.; Wang, Yu; Hensler, Stephen R.; Janssen, John (2013). "Burbot Early Life History Strategies in the Great Lakes." Transactions of the American Fisheries Society 142(6): 1733-1745.
0002-8487
1548-8659
http://hdl.handle.net/2027.42/141895
doi:10.1080/00028487.2013.795192
Transactions of the American Fisheries Society
K. Muth, 1973. In Population dynamics and life history of Burbot Lota lota (Linnaeus), in Lake of the Woods, Minnesota, Doctoral dissertation. University of Minnesota, Minneapolis.
T. Næsje, B. Jonssons and J. Skurdal, 1995 Spring flood: a primary cue for hatching of river spawning Coregoninae, Canadian Journal of Fisheries and Aquatic Sciences, 52: Pages 2190 – 2196.
R. Nash and A. Geffen, 1991 Spatial and temporal changes in offshore larval fish assemblages in southeastern Lake Michigan, Journal of Great Lakes Research, 17: Pages 25 – 32.
J. Oyadomari and N. Auer, 2004 Inshore‐offshore distribution of larval fishes in Lake Superior off the western coast of the Keweenaw Peninsula, Michigan, Journal of Great Lakes Research, 30 Supplement 1, Pages 369 – 384.
C. Prada and M. E. Hellberg, 2013 Long prereproductive selection and divergence by depth in a Caribbean candelabrum coral, Proceedings of the National Academy of Sciences of the USA, 110: Pages 3961 – 3966.
W. N. Probst and R. Eckmann, 2009a Diet overlap between young‐of‐the‐year perch, Perca fluviatilis L., and Burbot, Lota lota (L.), during early life‐history stages, Ecology of Freshwater Fish, 18: Pages 527 – 537.
W. N. Probst and R. Eckmann, 2009b The influence of light on the diel vertical migration of young‐of‐the‐year Burbot Lota lota in Lake Constance, Journal of Fish Biology, 74: Pages 150 – 166.
J. A. Rice, L. B. Crowder and M. E. Holey, 1987 Exploration of mechanisms regulating larval survival in Coregonus hoyi: do otoliths ring true?, Transactions of the American Fisheries Society, 114: Pages 532 – 539.
R. A. Ryder and J. Pesendorfer, 1992 Food, growth, habitat, and community interactions of young‐of‐the‐year Burbot, Lota lota L., in a Precambrian shield lake, Hydrobiologia, 243/244: Pages 211 – 227.
W. B. Scott and E. J. Crossman, 1973, “ Freshwater fishes of Canada ”, Fisheries Research Board of Canada Bulletin 184.
P. W. Seelbach and M. J. Wiley, 1997. In Overview of the Michigan Rivers inventory project, Michigan Department of Natural Resources, Fisheries Technical Report 97‐3, Ann Arbor.
V. G. Sideleva, 2003. In The endemic fishes of Lake Baikal, Backhuys, Leiden, The Netherlands.
T. Stauffer and W. Wagner, 1979. In Fish predation on Lake Trout eggs and fry in the Great Lakes, 1973–1978, Michigan Department of Natural Resources, Report 1864, Lansing.
J. H. Steele, 1985 A comparison of terrestrial and marine ecological systems, Nature, 313: Pages 355 – 358.
N. J. Thurber and D. J. Jude, 1985. In Impingement losses at the D. C. Cook Nuclear Power Plant during 1975–1982 with a discussion of factors responsible and possible impact on local populations, University of Michigan, Great Lakes Research Division, Special Report 115, Ann Arbor.
D. Ullman, J. Brown, P. Cornillon and T. Mavor, 1998 Surface temperature fronts in the Great Lakes, Journal of Great Lakes Research, 24: Pages 753 – 775.
N. Wang and A. Appenzeller, 1998 Abundance, depth distribution, diet composition and growth of perch ( Perca fluviatilis ) and Burbot ( Lota lota ) larvae and juveniles in the pelagic zone of Lake Constance, Ecology of Freshwater Fish, 7: Pages 176 – 183.
Y. Wang, T. R. Consi, T. Hansen and J. Janssen, 2012 The relationship between coastal Mysis diluviana abundance and spring thermal bar dynamics, Journal of Great Lakes Research, 38 Supplement 2, Pages 68 – 72.
J. Wojcik, M. Evans and D. Jude, 1982 Food of Deepwater Sculpin, Myoxocephalus thompsoni, from southeastern Lake Michigan, Journal of Great Lakes Research, 12: Pages 225 – 231.
1982. Edited by: N. A. Auer. In Identification of larval fish of the Great Lakes Basin with emphasis on the Lake Michigan drainage, Great Lakes Fishery Commission, Special Publication 82‐3, Ann Arbor, Michigan.
M. M. Bailey, 1972 Age, growth, reproduction, and food of the Burbot, Lota lota (Linnaeus), in southwestern Lake Superior, Transactions of the American Fisheries Society, 101: Pages 667 – 674.
R. M. Bailey, W. C. Latta and G. R. Smith, 2004, “ An atlas of Michigan fishes with keys and illustrations for their identification ”, University of Michigan Museum of Zoology Miscellaneous Publication 192.
R. P. Barbiero, M. Balcer, D. C. Rockwell and M. L. Tuchman, 2009 Recent shifts in the crustacean zooplankton community in Lake Huron, Canadian Journal of Fisheries and Aquatic Sciences, 66: Pages 816 – 828.
R. Barbiero and M. Tuchman, 2001 Results from EPA’s biological open water surveillance program in the Laurentian Great Lakes: I. Introduction and phytoplankton, Journal of Great Lakes Research, 27: Pages 134 – 154.
R. Barbiero and M. Tuchman, 2002. In Results from the biological open water surveillance program of the Great Lakes 1999, U.S. Environmental Protection Agency, Great Lakes National Program Office, EPA‐905‐R, Chicago.
R. Barbiero and M. Tuchman, 2004 Changes in the crustacean communities of Lakes Michigan, Huron, and Erie after the invasion of the predatory cladoceran Bythotrepes longimanus, Canadian Journal of Fisheries and Aquatic Sciences, 61: Pages 2111 – 2118.
C. Bassett and M. Herman, 2009. In Whitefish River fishery status report, Michigan Department of Natural Resources, Lansing.
C. Bassett and D. Kramer, 2009. In Sturgeon River fishery status report, Michigan Department of Natural Resources, Lansing.
P. B. Bayley, 1995 Understanding large river–floodplain ecosystems, Bioscience, 45: Pages 153 – 158.
George C. Becker, 1983. In Fishes of Wisconsin, University of Wisconsin Press, Madison.
D. Beletsky, D. Mason, D. J. Schwab, E. Rutherford, J. Janssen, D. Clapp and J. Dettmers, 2007 Biophysical model of larval Yellow Perch advection and settlement in Lake Michigan, Journal of Great Lakes Research, 33: Pages 842 – 866.
E. E. Bjorn, 1939 Preliminary observations and experimental study of the Ling Lota maculosa (LeSeur), in Wyoming, Transactions of the American Fisheries Society, 69: Pages 192 – 196.
L. F. Boyer, R. A. Cooper, D. T. Long and T. M. Askew, 1989 Burbot ( Lota lota ) biogenic sedimentary structures in Lake Superior, Journal of Great Lakes Research, 15: Pages 174 – 185.
S. Campana, 1999 Chemistry and composition of fish otoliths: pathways, mechanisms and applications, Marine Ecology Progress Series, 188: Pages 263 – 297.
M. Cardinale, J. Hjelm and M. Casini, 2008, “ Disentangling the effect of adult biomass and temperature on the recruitment dynamics of fishes ”, Pages 231 – 238. Edited by: G. H. Kruse, K. Drinkwater, J. N. Ianelli, J. S. Link, D. L. Stram, V. Westpestad, D. Woodby, Resiliency of gadid stocks to fishing and climate change. Alaska Sea Grant Program, QAK‐SG‐08‐01, Fairbanks.
M. Clady, 1976 Distribution and abundance of larval Ciscoes, Coregonus artedii, and Burbot, Lota lota, in Oneida Lake, Journal of Great Lakes Research, 2: Pages 234 – 247.
D. Coble, R. Bruesewitz, T. Fratt and J. Scheirer, 1990 Lake Trout, Sea Lamprey, and overfishing in the upper Great Lakes: a review and reanalysis, Transactions of the American Fisheries Society, 119: Pages 985 – 995.
D. H. Cushing, 1982. In Climate and fisheries, Academic Press, New York.
J. M. Dettmers, J. Janssen, B. Pientka, R. S. Fulford and D. J. Jude, 2005 Evidence across multiple scales for offshore transport of Yellow Perch ( Perca flavescens ) larvae in Lake Michigan, Canadian Journal of Fisheries and Aquatic Sciences, 62: Pages 2683 – 2693.
C. J. Dixon and J. C. Vokoun, 2009 Burbot resource selection in small streams near the southern extent of the species range, Ecology of Freshwater Fish, 18: Pages 234 – 246.
M. T. Donner and R. Eckmann, 2011 Diel vertical migration of larval and early juvenile Burbot optimizes survival and growth in a deep, pre‐alpine lake, Freshwater Biology, 56: Pages 916 – 925.
T. Edsall, G. Kennedy and W. Horns, 1993 Distribution, abundance, and resting microhabitat of Burbot on Julian’s Reef, southwestern Lake Michigan, Transactions of the American Fisheries Society, 122: Pages 560 – 574.
P. Fischer, 1999 Otolith microstructure during the pelagic, settlement and benthic phases in Burbot, Journal of Fish Biology, 54: Pages 1231 – 1243.
P. Fischer and R. Eckmann, 1997 Seasonal changes in fish abundance, biomass, and species richness in the littoral zone of a large European lake, Lake Constance, Germany, Archiv fuer Hydrobiologia, 139: Pages 433 – 448.
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container_title Transactions of the American Fisheries Society
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spelling ftumdeepblue:oai:deepblue.lib.umich.edu:2027.42/141895 2023-08-20T04:05:41+02:00 Burbot Early Life History Strategies in the Great Lakes Jude, David J. Wang, Yu Hensler, Stephen R. Janssen, John 2013-11 application/pdf http://hdl.handle.net/2027.42/141895 https://doi.org/10.1080/00028487.2013.795192 unknown Taylor & Francis Group Wiley Periodicals, Inc. Jude, David J.; Wang, Yu; Hensler, Stephen R.; Janssen, John (2013). "Burbot Early Life History Strategies in the Great Lakes." Transactions of the American Fisheries Society 142(6): 1733-1745. 0002-8487 1548-8659 http://hdl.handle.net/2027.42/141895 doi:10.1080/00028487.2013.795192 Transactions of the American Fisheries Society K. Muth, 1973. In Population dynamics and life history of Burbot Lota lota (Linnaeus), in Lake of the Woods, Minnesota, Doctoral dissertation. University of Minnesota, Minneapolis. T. Næsje, B. Jonssons and J. Skurdal, 1995 Spring flood: a primary cue for hatching of river spawning Coregoninae, Canadian Journal of Fisheries and Aquatic Sciences, 52: Pages 2190 – 2196. R. Nash and A. Geffen, 1991 Spatial and temporal changes in offshore larval fish assemblages in southeastern Lake Michigan, Journal of Great Lakes Research, 17: Pages 25 – 32. J. Oyadomari and N. Auer, 2004 Inshore‐offshore distribution of larval fishes in Lake Superior off the western coast of the Keweenaw Peninsula, Michigan, Journal of Great Lakes Research, 30 Supplement 1, Pages 369 – 384. C. Prada and M. E. Hellberg, 2013 Long prereproductive selection and divergence by depth in a Caribbean candelabrum coral, Proceedings of the National Academy of Sciences of the USA, 110: Pages 3961 – 3966. W. N. Probst and R. Eckmann, 2009a Diet overlap between young‐of‐the‐year perch, Perca fluviatilis L., and Burbot, Lota lota (L.), during early life‐history stages, Ecology of Freshwater Fish, 18: Pages 527 – 537. W. N. Probst and R. Eckmann, 2009b The influence of light on the diel vertical migration of young‐of‐the‐year Burbot Lota lota in Lake Constance, Journal of Fish Biology, 74: Pages 150 – 166. J. A. Rice, L. B. Crowder and M. E. Holey, 1987 Exploration of mechanisms regulating larval survival in Coregonus hoyi: do otoliths ring true?, Transactions of the American Fisheries Society, 114: Pages 532 – 539. R. A. Ryder and J. Pesendorfer, 1992 Food, growth, habitat, and community interactions of young‐of‐the‐year Burbot, Lota lota L., in a Precambrian shield lake, Hydrobiologia, 243/244: Pages 211 – 227. W. B. Scott and E. J. Crossman, 1973, “ Freshwater fishes of Canada ”, Fisheries Research Board of Canada Bulletin 184. P. W. Seelbach and M. J. Wiley, 1997. In Overview of the Michigan Rivers inventory project, Michigan Department of Natural Resources, Fisheries Technical Report 97‐3, Ann Arbor. V. G. Sideleva, 2003. In The endemic fishes of Lake Baikal, Backhuys, Leiden, The Netherlands. T. Stauffer and W. Wagner, 1979. In Fish predation on Lake Trout eggs and fry in the Great Lakes, 1973–1978, Michigan Department of Natural Resources, Report 1864, Lansing. J. H. Steele, 1985 A comparison of terrestrial and marine ecological systems, Nature, 313: Pages 355 – 358. N. J. Thurber and D. J. Jude, 1985. In Impingement losses at the D. C. Cook Nuclear Power Plant during 1975–1982 with a discussion of factors responsible and possible impact on local populations, University of Michigan, Great Lakes Research Division, Special Report 115, Ann Arbor. D. Ullman, J. Brown, P. Cornillon and T. Mavor, 1998 Surface temperature fronts in the Great Lakes, Journal of Great Lakes Research, 24: Pages 753 – 775. N. Wang and A. Appenzeller, 1998 Abundance, depth distribution, diet composition and growth of perch ( Perca fluviatilis ) and Burbot ( Lota lota ) larvae and juveniles in the pelagic zone of Lake Constance, Ecology of Freshwater Fish, 7: Pages 176 – 183. Y. Wang, T. R. Consi, T. Hansen and J. Janssen, 2012 The relationship between coastal Mysis diluviana abundance and spring thermal bar dynamics, Journal of Great Lakes Research, 38 Supplement 2, Pages 68 – 72. J. Wojcik, M. Evans and D. Jude, 1982 Food of Deepwater Sculpin, Myoxocephalus thompsoni, from southeastern Lake Michigan, Journal of Great Lakes Research, 12: Pages 225 – 231. 1982. Edited by: N. A. Auer. In Identification of larval fish of the Great Lakes Basin with emphasis on the Lake Michigan drainage, Great Lakes Fishery Commission, Special Publication 82‐3, Ann Arbor, Michigan. M. M. Bailey, 1972 Age, growth, reproduction, and food of the Burbot, Lota lota (Linnaeus), in southwestern Lake Superior, Transactions of the American Fisheries Society, 101: Pages 667 – 674. R. M. Bailey, W. C. Latta and G. R. Smith, 2004, “ An atlas of Michigan fishes with keys and illustrations for their identification ”, University of Michigan Museum of Zoology Miscellaneous Publication 192. R. P. Barbiero, M. Balcer, D. C. Rockwell and M. L. Tuchman, 2009 Recent shifts in the crustacean zooplankton community in Lake Huron, Canadian Journal of Fisheries and Aquatic Sciences, 66: Pages 816 – 828. R. Barbiero and M. Tuchman, 2001 Results from EPA’s biological open water surveillance program in the Laurentian Great Lakes: I. Introduction and phytoplankton, Journal of Great Lakes Research, 27: Pages 134 – 154. R. Barbiero and M. Tuchman, 2002. In Results from the biological open water surveillance program of the Great Lakes 1999, U.S. Environmental Protection Agency, Great Lakes National Program Office, EPA‐905‐R, Chicago. R. Barbiero and M. Tuchman, 2004 Changes in the crustacean communities of Lakes Michigan, Huron, and Erie after the invasion of the predatory cladoceran Bythotrepes longimanus, Canadian Journal of Fisheries and Aquatic Sciences, 61: Pages 2111 – 2118. C. Bassett and M. Herman, 2009. In Whitefish River fishery status report, Michigan Department of Natural Resources, Lansing. C. Bassett and D. Kramer, 2009. In Sturgeon River fishery status report, Michigan Department of Natural Resources, Lansing. P. B. Bayley, 1995 Understanding large river–floodplain ecosystems, Bioscience, 45: Pages 153 – 158. George C. Becker, 1983. In Fishes of Wisconsin, University of Wisconsin Press, Madison. D. Beletsky, D. Mason, D. J. Schwab, E. Rutherford, J. Janssen, D. Clapp and J. Dettmers, 2007 Biophysical model of larval Yellow Perch advection and settlement in Lake Michigan, Journal of Great Lakes Research, 33: Pages 842 – 866. E. E. Bjorn, 1939 Preliminary observations and experimental study of the Ling Lota maculosa (LeSeur), in Wyoming, Transactions of the American Fisheries Society, 69: Pages 192 – 196. L. F. Boyer, R. A. Cooper, D. T. Long and T. M. Askew, 1989 Burbot ( Lota lota ) biogenic sedimentary structures in Lake Superior, Journal of Great Lakes Research, 15: Pages 174 – 185. S. Campana, 1999 Chemistry and composition of fish otoliths: pathways, mechanisms and applications, Marine Ecology Progress Series, 188: Pages 263 – 297. M. Cardinale, J. Hjelm and M. Casini, 2008, “ Disentangling the effect of adult biomass and temperature on the recruitment dynamics of fishes ”, Pages 231 – 238. Edited by: G. H. Kruse, K. Drinkwater, J. N. Ianelli, J. S. Link, D. L. Stram, V. Westpestad, D. Woodby, Resiliency of gadid stocks to fishing and climate change. Alaska Sea Grant Program, QAK‐SG‐08‐01, Fairbanks. M. Clady, 1976 Distribution and abundance of larval Ciscoes, Coregonus artedii, and Burbot, Lota lota, in Oneida Lake, Journal of Great Lakes Research, 2: Pages 234 – 247. D. Coble, R. Bruesewitz, T. Fratt and J. Scheirer, 1990 Lake Trout, Sea Lamprey, and overfishing in the upper Great Lakes: a review and reanalysis, Transactions of the American Fisheries Society, 119: Pages 985 – 995. D. H. Cushing, 1982. In Climate and fisheries, Academic Press, New York. J. M. Dettmers, J. Janssen, B. Pientka, R. S. Fulford and D. J. Jude, 2005 Evidence across multiple scales for offshore transport of Yellow Perch ( Perca flavescens ) larvae in Lake Michigan, Canadian Journal of Fisheries and Aquatic Sciences, 62: Pages 2683 – 2693. C. J. Dixon and J. C. Vokoun, 2009 Burbot resource selection in small streams near the southern extent of the species range, Ecology of Freshwater Fish, 18: Pages 234 – 246. M. T. Donner and R. Eckmann, 2011 Diel vertical migration of larval and early juvenile Burbot optimizes survival and growth in a deep, pre‐alpine lake, Freshwater Biology, 56: Pages 916 – 925. T. Edsall, G. Kennedy and W. Horns, 1993 Distribution, abundance, and resting microhabitat of Burbot on Julian’s Reef, southwestern Lake Michigan, Transactions of the American Fisheries Society, 122: Pages 560 – 574. P. Fischer, 1999 Otolith microstructure during the pelagic, settlement and benthic phases in Burbot, Journal of Fish Biology, 54: Pages 1231 – 1243. P. Fischer and R. Eckmann, 1997 Seasonal changes in fish abundance, biomass, and species richness in the littoral zone of a large European lake, Lake Constance, Germany, Archiv fuer Hydrobiologia, 139: Pages 433 – 448. IndexNoFollow Natural Resources and Environment Science Article 2013 ftumdeepblue https://doi.org/10.1080/00028487.2013.795192 2023-07-31T20:51:52Z Burbot Lota lota exhibit four previously known reproductive strategies in the Great Lakes region. In this paper we review those strategies and provide evidence for a fifth one—delayed deepwater spawning. The four known, shallow‐water strategies are as follows: (1) spawning by self‐sustaining, landlocked populations, (2) spawning in tributaries in winter and the exit of larvae to a Great Lake, (3) spawning by residents in a spawning stream with access to a Great Lake, and (4) spawning on unconsolidated and rocky areas in shallow water in winter in the lake proper. Resident, landlocked populations exist in some Michigan and Wisconsin rivers (e.g., the Muskegon River in Michigan). The evidence for winter tributary spawning is the appearance of newly hatched Burbot in the St. Marys and Bark rivers during April–June. Evidence for Burbot juveniles leaving spawning streams is U.S. Fish and Wildlife Service tributory mouth trap data. The evidence for winter nearshore spawning comes from power plant monthly entrainment studies (Mansfield et al. 1983). Our proposed fifth strategy is spring and summer spawning at deep reefs, where there is probably cobble or boulder habitat. Our evidence comes from midlake reefs in Lake Michigan and offshore areas of Lake Huron: (1) we collected adult Burbot at midlake reefs in Lake Michigan, (2) we collected many Burbot larvae (many of which were newly hatched) from Lakes Michigan and Huron in June–August, and (3) we collected a Burbot egg in a PONAR grab in mid‐July from 73 m in southern Lake Huron. An important question remains, namely, which life history strategy provides the highest recruitment success for this species. It may be that adaptability ensures the survival of this important, top‐predator fish during periods of crisis (e.g., encounters with dams, Sea Lamprey Petromyzon marinus predation). Peer Reviewed https://deepblue.lib.umich.edu/bitstream/2027.42/141895/1/tafs1733.pdf Article in Journal/Newspaper Burbot Lota lota lota University of Michigan: Deep Blue Mansfield ENVELOPE(-45.733,-45.733,-60.650,-60.650) Southern Lake ENVELOPE(-94.333,-94.333,62.217,62.217) Transactions of the American Fisheries Society 142 6 1733 1745

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