Climate‐influenced phenology of larval fish transport in a large lake

Spencer T. Gardner; Mark D. Rowe; Pengfei Xue; Xing Zhou; Peter J. Alsip; David B. Bunnell; Paris D. Collingsworth; Edward S. Rutherford; Tomas O. Höök

doi:10.1002/lol2.10414

Limnology and Oceanography Letters (Aug 2024)

Climate‐influenced phenology of larval fish transport in a large lake

Spencer T. Gardner,
Mark D. Rowe,
Pengfei Xue,
Xing Zhou,
Peter J. Alsip,
David B. Bunnell,
Paris D. Collingsworth,
Edward S. Rutherford,
Tomas O. Höök

Affiliations

Spencer T. Gardner: Department of Forestry and Natural Resources Purdue University West Lafayette Indiana USA
Mark D. Rowe: Great Lakes Environmental Research Laboratory National Oceanic and Atmospheric Administration Ann Arbor Michigan USA
Pengfei Xue: Department of Civil, Environmental, and Geospatial Engineering Michigan Technological University Houghton Michigan USA
Xing Zhou: Department of Civil, Environmental, and Geospatial Engineering Michigan Technological University Houghton Michigan USA
Peter J. Alsip: Cooperative Institute for Great Lakes Research, School for Environment and Sustainability University of Michigan Ann Arbor Michigan USA
David B. Bunnell: US Geological Survey, Great Lakes Science Center Ann Arbor Michigan USA
Paris D. Collingsworth: Department of Forestry and Natural Resources Purdue University West Lafayette Indiana USA
Edward S. Rutherford: Great Lakes Environmental Research Laboratory National Oceanic and Atmospheric Administration Ann Arbor Michigan USA
Tomas O. Höök: Department of Forestry and Natural Resources Purdue University West Lafayette Indiana USA

DOI: https://doi.org/10.1002/lol2.10414
Journal volume & issue: Vol. 9, no. 4
pp. 376 – 387

Abstract

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Abstract Elucidating physical transport phenologies in large lakes can aid understanding of larval recruitment dynamics. Here, we integrate a series of climate, hydrodynamic, biogeochemical, and Lagrangian particle dispersion models to: (1) simulate hatch and transport of fish larvae throughout an illustrative large lake, (2) evaluate patterns of historic and potential future climate‐induced larval transport, and (3) consider consequences for overlap with suitable temperatures and prey. Simulations demonstrate that relative offshore transport increases seasonally, with shifts toward offshore transport occurring earlier during relatively warm historic and future simulations. Intra‐ and inter‐annual trends in transport were robust to assumed pelagic larval duration and precise location and timing of hatching. Larvae retained nearshore generally encountered more favorable temperatures and zooplankton densities compared to larvae transported offshore. Larval exploitation of nearshore resources under climate change may depend on a concomitant shift to earlier spawning and hatch times in advance of earlier offshore transport.

Published in Limnology and Oceanography Letters

ISSN: 2378-2242 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Geography. Anthropology. Recreation: Oceanography
Website: https://aslopubs.onlinelibrary.wiley.com/journal/23782242

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