Climate change alters the quantity and phenology of habitat for lake trout (Salvelinus namaycush) in small Boreal Shield lakes

We analyzed monitoring data (1970–2013) from small Boreal Shield lakes to understand how variations in air temperature and precipitation affect the phenology and amount of habitat for lake trout (Salvelinus namaycush). Annual air temperatures increased by ∼2 °C (significant in fall and winter). In r...

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Published inCanadian journal of fisheries and aquatic sciences Vol. 74; no. 6; pp. 871 - 884
Main Authors Guzzo, Matthew M, Blanchfield, Paul J
Format Journal Article
LanguageEnglish
Published Ottawa NRC Research Press 01.06.2017
Canadian Science Publishing NRC Research Press
Subjects
Air temperature
Analysis
Climate change
Cooling
Data processing
Environmental aspects
Freshwater
Habitats
Ice
Ice cover
Lakes
Natural history
Phenology
Precipitation
Salvelinus namaycush
Spawning
Studies
Summer
Surface temperature
Surface water
Temperature
Temperature effects
Thermal stress
Trout
Water springs
Water temperature
Canada
Canada, Boreal Plain
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Summary:We analyzed monitoring data (1970–2013) from small Boreal Shield lakes to understand how variations in air temperature and precipitation affect the phenology and amount of habitat for lake trout (Salvelinus namaycush). Annual air temperatures increased by ∼2 °C (significant in fall and winter). In response, ice cover was reduced by ∼19 days. Despite earlier ice-offs, springs became longer, allowing lake trout longer access to littoral regions when water temperatures were cool. Although summer surface water temperatures increased, the summer did not lengthen. Instead, later spring-warming and fall-cooling of lakes caused summer to shift later in the year, potentially delaying fall spawning. Complete loss of optimal oxythermal habitat volume occurred in all lakes and became more prevalent over time, more so in the darkest lakes. Although air temperatures did not become more variable, several habitat measures did, including mean summer surface water temperatures, duration of ice cover, timing of ice-off, and minimum volumes of optimal oxythermal habitat. Our results suggest that future warming will impose greater thermal stress on lake trout, but may be tempered by longer springs.
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ISSN:0706-652X
1205-7533
DOI:10.1139/cjfas-2016-0190