Linking fish population dynamics to habitat conditions: insights from the application of a process-oriented approach to several Great Lakes species

Authored by Daniel Hayes, Michael Jones, Nigel Lester, Cindy Chu, Susan Doka, John Netto, Jason Stockwell, Bradley Thompson, Charles K Minns, Brian Shuter, Nicholas Collins

Date Published: 2009

DOI: 10.1007/s11160-009-9103-8

Sponsors: Great Lakes Fisheries Trust Ministries of Ontario

Platforms: No platforms listed

Model Documentation: Other Narrative Flow charts

Model Code URLs: Model code not found

Abstract

One of the major challenges facing fishery scientists and managers today is determining how fish populations are influenced by habitat conditions. Many approaches have been explored to address this challenge, all of which involve modeling at one level or another. In this paper, we explore a process-oriented model approach whereby the critical population processes of birth and death rates are explicitly linked to habitat conditions. Application of this approach to five species of Great Lakes fishes including: walleye (Sander vitreus), lake trout (Salvelinus namaycush), smallmouth bass (Micropterus dolomieu), yellow perch (Perca flavescens), and rainbow trout (Onchorynchus mykiss), yielded a number of insights into the modeling process. One of the foremost insights is that processes determining movement and transport of fish are critical components of such models since these processes largely determine the habitats fish occupy. Because of the importance of fish location, an individual-based model appears to be a nearly inescapable modeling requirement. There is, however, a paucity of field-based data directly relating birth, death, and movement rates to habitat conditions experienced by individual fish. There is also a paucity of habitat information at a fine temporal and spatial scale for many important habitat variables. Finally, the general occurrence of strong ontogenetic changes in the response of different life stages to habitat conditions emphasizes the need for a modeling approach that considers all life stages in an integrated fashion.

Tags

Individual-based model Atlantic salmon Stizostedion-vitreum-vitreum Trout Michigan Chesapeake bay Ontario Yellow perch Perch perca-flavescens Walleye eggs