Alternative migratory strategies related to life history differences in the Walleye (Sander vitreus)

Graydon McKee; Rachael L Hornsby; Friedrich Fischer; Erin S Dunlop; Robert Mackereth; Thomas C Pratt; Michael Rennie

doi:10.1186/s40462-022-00308-7

Alternative migratory strategies related to life history differences in the Walleye (Sander vitreus)

Mov Ecol. 2022 Mar 2;10(1):10. doi: 10.1186/s40462-022-00308-7.

Authors

Graydon McKee¹, Rachael L Hornsby², Friedrich Fischer², Erin S Dunlop³, Robert Mackereth⁴, Thomas C Pratt⁵, Michael Rennie^{6

7}

Affiliations

¹ Department of Biology, Lakehead University, Thunder Bay, ON, P7B5E1 , Canada. gmckee@lakeheadu.ca.
² Upper Great Lakes Management Unit, Ontario Ministry of Natural Resources and Forestry, Thunder Bay, ON, P7E6S7, Canada.
³ Aquatic Research and Monitoring Section, Ontario Ministry of Natural Resources, Peterborough, ON, K0L0G2, Canada.
⁴ Center for Northern Forest Ecosystem Research, Ontario Ministry of Natural Resources and Forestry, Thunder Bay, ON, P7E2V6, Canada.
⁵ Great Lakes Laboratory for Fisheries and Aquatic Sciences, Fisheries and Oceans Canada, Sault Ste. Marie, ON, P6A2E5, Canada.
⁶ Department of Biology, Lakehead University, Thunder Bay, ON, P7B5E1 , Canada.
⁷ International Institute for Sustainable Development Experimental Lakes Area, Winnipeg, MB, R3B0Y4, Canada.

Abstract

Background: While Pace of Life Syndrome predicts behavioural differences between individuals with differential growth and survival, testing these predictions in nature is challenging due to difficulties with measuring individual behaviour in the field. However, recent advances in acoustic telemetry technology have facilitated measurements of individual behaviour at scales not previously possible in aquatic ecosystems.

Methods: Using a Walleye (Sander vitreus) population inhabiting Black Bay, Lake Superior, we examine whether life history characteristics differ between more and less mobile individuals as predicted by Pace of Life Syndrome. We tracked the movement of 192 individuals from 2016 to 2019 using an acoustic telemetry study, relating patterns in annual migratory behaviour to individual growth, and seasonal changes in optimal thermal-optical habitat.

Results: We observed two consistent movement patterns in our study population-migratory individuals left Black Bay during late summer to early fall before returning to the bay, whereas residents remained within the bay year-round. The average maximum length of migrant Walleye was 5.5 cm longer than residents, and the sex ratios of Walleye caught during fall surveys was increasingly female-biased towards the mouth of Black Bay, suggesting that a majority of migrants were females. Further, Walleye occupancy outside of Black Bay was positively associated with increasing thermal-optical habitat.

Conclusions: Walleye in Black Bay appear to conform to Pace of Life Syndrome, with migrant individuals gaining increased fitness through increased maximum size, which, given size-dependent fecundity in this species, likely results in greater reproductive success (via greater egg deposition vs. non-migrants). Further, apparent environmental (thermal) controls on migration suggest that migratory Walleye (more so than residents) may be more sensitive to changing environmental conditions (e.g., warming climate) than residents.

Keywords: GLATOS; Laurentian Great Lakes; Multistate mark-resight; Pace of Life Syndrome (POLS); Sexual dimorphism; Telemetry; Thermal-Optical Habitat Area (TOHA).

Grants and funding

RGPIN-2016-04016/Natural Sciences and Engineering Research Council of Canada