Litcius/Paper detail

Resisting ecosystem transformation through an intensive whole‐lake fish removal experiment

Holly S. Embke, Stephen R. Carpenter, Daniel A. Isermann, Giancarlo Coppola, T. Douglas Beard, Abigail J. Lynch, Greg G. Sass, Zachary S. Feiner, M. Jake Vander Zanden

2022Fisheries Management and Ecology29 citationsDOIOpen Access PDF

Abstract

Abstract Lake ecosystems are shifting due to many drivers including climate change and landscape‐scale habitat disturbance, diminishing their potential to support some fisheries. Walleye Sander vitreus (Mitchill) populations, which support recreational and tribal fisheries across North America, have declined in some lakes. Climate change, harvest, invasive species and concurrent increases in warm‐water fishes (e.g. Centrarchidae) may have contributed to declines. To test the utility of an intensive management action to resist walleye loss, an experimental removal of ~285,000 centrarchids from a 33‐ha lake over 4 years was conducted while monitoring the fish community response. Centrarchid abundance declined and yellow perch Perca flavescens (Mitchill) increased, yet no evidence of walleye recruitment was observed. These findings explore the feasibility of intensive resistance as a management strategy in supporting walleye facing environmental change and provide a platform for management discussions to move beyond resist strategies in the Resist‐Accept‐Direct (RAD) framework to navigate ecosystem change.

Topics & Concepts

FisheryPerchEcosystemClimate changeHabitatFisheries managementEcologyRecreationEnvironmental scienceGeographyFish <Actinopterygii>BiologyFishingFish Ecology and Management StudiesAquatic Invertebrate Ecology and BehaviorHydrology and Sediment Transport Processes
Resisting ecosystem transformation through an intensive whole‐lake fish removal experiment | Litcius