Modelling trophic recovery, interactions, and food web dynamics across smelter-damaged lakes
Date
2023-04-20
Authors
Journal Title
Journal ISSN
Volume Title
Publisher
Abstract
Unstable and simplified freshwater food webs threaten the long-term potential of Canadian
fisheries due to lack of resiliency in response to stressors including pollutants, climate change,
and invasive species. This study utilizes lakes in Sudbury, Ontario to highlight potential drivers
and limiting factors of trophic recovery from acidification and heavy-metal pollution from
historical nickel smelting emissions. Three lakes across the smelter-impact gradient were
selected: one severely damaged lake with a barren watershed (Baby Lake), one severely
damaged lake that received sub-watershed liming treatment but retained partial forest cover
(Daisy Lake), and one minimally impacted lake with intact forest but had previously been limed
to enhance a fish population (Nelson Lake). Two reference lakes far from Sudbury impacts were
selected for comparison. Twenty Sudbury region lakes were examined to contextualize fish
community assemblages and size data across the smelter deposition zone. Stable isotope ratios
of carbon (δ 13C) and nitrogen (δ 15N) were quantified in yellow perch (Perca flavescens),
smallmouth bass (Micropterus dolomieu), and baseline organisms to develop quantitative
population metrics and describe dietary niche partitioning in each study lake. The barren
watershed lake had lowest trophic positioning, smallest body size and niche area, and greatest
niche overlap among fish species. The semi-barren and forested watershed lakes were more
similar to reference lakes than barren lake in isotopic metrics, signifying significant trophic
recovery; however elevated niche overlap revealed additional recovery in these lakes is ongoing.
Including stable isotopes in recovering lake studies provides ecosystem insights overlooked by
traditional biomonitoring approaches that are critical in understanding freshwater food web
responses.
Description
Keywords
Lake restoration, trophic ecology, acidification, stable isotope analyses, niche compression