Lake trout in northern Lake Huron spawn on submerged drumlins

Stephen C. Riley; Thomas R. Binder; Nigel J. Wattrus; Matthew D. Faust; John Janssen; John Menzies; J. Ellen Marsden; Mark P. Ebener; Charles R. Bronte; Ji X. He; Taaja R. Tucker; Michael J. Hansen; Henry T. Thompson; Andrew M. Muir; Charles C. Krueger

doi:10.1016/j.jglr.2014.03.011

Lake trout in northern Lake Huron spawn on submerged drumlins

Stephen C. Riley, Thomas R. Binder, Nigel J. Wattrus, Matthew D. Faust, John Janssen, John Menzies, J. Ellen Marsden, Mark P. Ebener, Charles R. Bronte, Ji X. He, Taaja R. Tucker, Michael J. Hansen, Henry T. Thompson, Andrew M. Muir, Charles C. Krueger

Earth & Environmental Sciences-Duluth

Research output: Contribution to journal › Article › peer-review

32 Scopus citations

Abstract

Recent observations of spawning lake trout Salvelinus namaycush near Drummond Island in northern Lake Huron indicate that lake trout use drumlins, landforms created in subglacial environments by the action of ice sheets, as a primary spawning habitat. From these observations, we generated a hypothesis that may in part explain locations chosen by lake trout for spawning. Most salmonines spawn in streams where they rely on streamflows to sort and clean sediments to create good spawning habitat. Flows sufficient to sort larger sediment sizes are generally lacking in lakes, but some glacial bedforms contain large pockets of sorted sediments that can provide the interstitial spaces necessary for lake trout egg incubation, particularly if these bedforms are situated such that lake currents can penetrate these sediments. We hypothesize that sediment inclusions from glacial scavenging and sediment sorting that occurred during the creation of bedforms such as drumlins, end moraines, and eskers create suitable conditions for lake trout egg incubation, particularly where these bedforms interact with lake currents to remove fine sediments. Further, these bedforms may provide high-quality lake trout spawning habitat at many locations in the Great Lakes and may be especially important along the southern edge of the range of the species. A better understanding of the role of glacially-derived bedforms in the creation of lake trout spawning habitat may help develop powerful predictors of lake trout spawning locations, provide insight into the evolution of unique spawning behaviors by lake trout, and aid in lake trout restoration in the Great Lakes.

Original language	English (US)
Pages (from-to)	415-420
Number of pages	6
Journal	Journal of Great Lakes Research
Volume	40
Issue number	2
DOIs	https://doi.org/10.1016/j.jglr.2014.03.011
State	Published - Jun 2014

Bibliographical note

Funding Information:
Funding was provided by the Great Lakes Restoration Initiative administered by the U.S. Environmental Protection Agency through a project awarded to the Great Lakes Fishery Commission. We thank C. Holbrook, E. Larson, J. Van Effen, L. Lesmeister, M. Lancewicz, Z. Holmes, D. Operhall, J. Osga, S. Meihls, C. Wright, B. Lamoreux, S. Seegert, S. Farha, B. Maitland, K. Smith, and R. Darnton for their technical assistance in conducting the acoustic telemetry study. Thanks also to R. Reining, A. Handziak, D. Pine, and P. Barbeaux for their assistance in procuring lake trout. We thank L. Mohr, R. Eshenroder, and B. Lantry for their comments on an earlier draft of this manuscript. The use of trade names or commercial products does not imply endorsement by the U. S. Government. This is Contribution 1841 of the USGS Great Lakes Science Center and Contribution 1 of the Society for Trout and Glacier Research (STAGR) (GL - 00E23010-3).

Keywords

Drumlin
Glacial bedforms
Glaciation
Lake Huron
Lake trout
Spawning habitat

UN SDGs

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Riley, S. C., Binder, T. R., Wattrus, N. J., Faust, M. D., Janssen, J., Menzies, J., Marsden, J. E., Ebener, M. P., Bronte, C. R., He, J. X., Tucker, T. R., Hansen, M. J., Thompson, H. T., Muir, A. M., & Krueger, C. C. (2014). Lake trout in northern Lake Huron spawn on submerged drumlins. Journal of Great Lakes Research, 40(2), 415-420. https://doi.org/10.1016/j.jglr.2014.03.011

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abstract = "Recent observations of spawning lake trout Salvelinus namaycush near Drummond Island in northern Lake Huron indicate that lake trout use drumlins, landforms created in subglacial environments by the action of ice sheets, as a primary spawning habitat. From these observations, we generated a hypothesis that may in part explain locations chosen by lake trout for spawning. Most salmonines spawn in streams where they rely on streamflows to sort and clean sediments to create good spawning habitat. Flows sufficient to sort larger sediment sizes are generally lacking in lakes, but some glacial bedforms contain large pockets of sorted sediments that can provide the interstitial spaces necessary for lake trout egg incubation, particularly if these bedforms are situated such that lake currents can penetrate these sediments. We hypothesize that sediment inclusions from glacial scavenging and sediment sorting that occurred during the creation of bedforms such as drumlins, end moraines, and eskers create suitable conditions for lake trout egg incubation, particularly where these bedforms interact with lake currents to remove fine sediments. Further, these bedforms may provide high-quality lake trout spawning habitat at many locations in the Great Lakes and may be especially important along the southern edge of the range of the species. A better understanding of the role of glacially-derived bedforms in the creation of lake trout spawning habitat may help develop powerful predictors of lake trout spawning locations, provide insight into the evolution of unique spawning behaviors by lake trout, and aid in lake trout restoration in the Great Lakes.",

keywords = "Drumlin, Glacial bedforms, Glaciation, Lake Huron, Lake trout, Spawning habitat",

author = "Riley, {Stephen C.} and Binder, {Thomas R.} and Wattrus, {Nigel J.} and Faust, {Matthew D.} and John Janssen and John Menzies and Marsden, {J. Ellen} and Ebener, {Mark P.} and Bronte, {Charles R.} and He, {Ji X.} and Tucker, {Taaja R.} and Hansen, {Michael J.} and Thompson, {Henry T.} and Muir, {Andrew M.} and Krueger, {Charles C.}",

note = "Funding Information: Funding was provided by the Great Lakes Restoration Initiative administered by the U.S. Environmental Protection Agency through a project awarded to the Great Lakes Fishery Commission. We thank C. Holbrook, E. Larson, J. Van Effen, L. Lesmeister, M. Lancewicz, Z. Holmes, D. Operhall, J. Osga, S. Meihls, C. Wright, B. Lamoreux, S. Seegert, S. Farha, B. Maitland, K. Smith, and R. Darnton for their technical assistance in conducting the acoustic telemetry study. Thanks also to R. Reining, A. Handziak, D. Pine, and P. Barbeaux for their assistance in procuring lake trout. We thank L. Mohr, R. Eshenroder, and B. Lantry for their comments on an earlier draft of this manuscript. The use of trade names or commercial products does not imply endorsement by the U. S. Government. This is Contribution 1841 of the USGS Great Lakes Science Center and Contribution 1 of the Society for Trout and Glacier Research (STAGR) (GL - 00E23010-3).",

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AU - Riley, Stephen C.

AU - Binder, Thomas R.

AU - Wattrus, Nigel J.

AU - Faust, Matthew D.

AU - Janssen, John

AU - Menzies, John

AU - Marsden, J. Ellen

AU - Ebener, Mark P.

AU - Bronte, Charles R.

AU - He, Ji X.

AU - Tucker, Taaja R.

AU - Hansen, Michael J.

AU - Thompson, Henry T.

AU - Muir, Andrew M.

AU - Krueger, Charles C.

N1 - Funding Information: Funding was provided by the Great Lakes Restoration Initiative administered by the U.S. Environmental Protection Agency through a project awarded to the Great Lakes Fishery Commission. We thank C. Holbrook, E. Larson, J. Van Effen, L. Lesmeister, M. Lancewicz, Z. Holmes, D. Operhall, J. Osga, S. Meihls, C. Wright, B. Lamoreux, S. Seegert, S. Farha, B. Maitland, K. Smith, and R. Darnton for their technical assistance in conducting the acoustic telemetry study. Thanks also to R. Reining, A. Handziak, D. Pine, and P. Barbeaux for their assistance in procuring lake trout. We thank L. Mohr, R. Eshenroder, and B. Lantry for their comments on an earlier draft of this manuscript. The use of trade names or commercial products does not imply endorsement by the U. S. Government. This is Contribution 1841 of the USGS Great Lakes Science Center and Contribution 1 of the Society for Trout and Glacier Research (STAGR) (GL - 00E23010-3).

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N2 - Recent observations of spawning lake trout Salvelinus namaycush near Drummond Island in northern Lake Huron indicate that lake trout use drumlins, landforms created in subglacial environments by the action of ice sheets, as a primary spawning habitat. From these observations, we generated a hypothesis that may in part explain locations chosen by lake trout for spawning. Most salmonines spawn in streams where they rely on streamflows to sort and clean sediments to create good spawning habitat. Flows sufficient to sort larger sediment sizes are generally lacking in lakes, but some glacial bedforms contain large pockets of sorted sediments that can provide the interstitial spaces necessary for lake trout egg incubation, particularly if these bedforms are situated such that lake currents can penetrate these sediments. We hypothesize that sediment inclusions from glacial scavenging and sediment sorting that occurred during the creation of bedforms such as drumlins, end moraines, and eskers create suitable conditions for lake trout egg incubation, particularly where these bedforms interact with lake currents to remove fine sediments. Further, these bedforms may provide high-quality lake trout spawning habitat at many locations in the Great Lakes and may be especially important along the southern edge of the range of the species. A better understanding of the role of glacially-derived bedforms in the creation of lake trout spawning habitat may help develop powerful predictors of lake trout spawning locations, provide insight into the evolution of unique spawning behaviors by lake trout, and aid in lake trout restoration in the Great Lakes.

AB - Recent observations of spawning lake trout Salvelinus namaycush near Drummond Island in northern Lake Huron indicate that lake trout use drumlins, landforms created in subglacial environments by the action of ice sheets, as a primary spawning habitat. From these observations, we generated a hypothesis that may in part explain locations chosen by lake trout for spawning. Most salmonines spawn in streams where they rely on streamflows to sort and clean sediments to create good spawning habitat. Flows sufficient to sort larger sediment sizes are generally lacking in lakes, but some glacial bedforms contain large pockets of sorted sediments that can provide the interstitial spaces necessary for lake trout egg incubation, particularly if these bedforms are situated such that lake currents can penetrate these sediments. We hypothesize that sediment inclusions from glacial scavenging and sediment sorting that occurred during the creation of bedforms such as drumlins, end moraines, and eskers create suitable conditions for lake trout egg incubation, particularly where these bedforms interact with lake currents to remove fine sediments. Further, these bedforms may provide high-quality lake trout spawning habitat at many locations in the Great Lakes and may be especially important along the southern edge of the range of the species. A better understanding of the role of glacially-derived bedforms in the creation of lake trout spawning habitat may help develop powerful predictors of lake trout spawning locations, provide insight into the evolution of unique spawning behaviors by lake trout, and aid in lake trout restoration in the Great Lakes.

KW - Drumlin

KW - Glacial bedforms

KW - Glaciation

KW - Lake Huron

KW - Lake trout

KW - Spawning habitat

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JO - Journal of Great Lakes Research

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Lake trout in northern Lake Huron spawn on submerged drumlins

Abstract

Bibliographical note

Keywords

UN SDGs

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