Landscape characteristics influence climate change effects on juvenile chinook and coho salmon rearing habitat in the Kenai River watershed

Thesis (M.S.) University of Alaska Fairbanks, 2020 Changes in temperature and precipitation as a result of ongoing climate warming in south-central Alaska are affecting juvenile salmon rearing habitat differently across watersheds. Work presented here simulates summer growth rates of juvenile Chinoo...

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Bibliographic Details
Main Author: Meyer, Benjamin
Other Authors: Rinella, Daniel, Wipfli, Mark, Schoen, Erik, Falke, Jeffrey
Format: Thesis
Language:English
Published: 2020
Subjects:
Chinook salmon
Coho salmon
Habitat
Global warming
Alaska
Kenai River Watershed
Master of Science in Fisheries
Arctic
Fairbanks
Climate change
Online Access:http://hdl.handle.net/11122/12313
Description
Summary:Thesis (M.S.) University of Alaska Fairbanks, 2020 Changes in temperature and precipitation as a result of ongoing climate warming in south-central Alaska are affecting juvenile salmon rearing habitat differently across watersheds. Work presented here simulates summer growth rates of juvenile Chinook and coho salmon in streams under future climate and feeding scenarios in the Kenai River (Alaska) watershed across a spectrum of landscape settings from lowland to glacially-influenced. I used field-derived data on water temperature, diet, and body size as inputs to bioenergetics models to simulate growth for the 2030-2039 and 2060-2069 time periods, comparing back to 2010-2019. My results suggest decreasing growth rates under most future scenarios; predicted changes were of lower magnitude in the cooler glacial watershed and main stem and more in montane and lowland watersheds. The results demonstrate how stream and landscape types differentially filter a climate signal to juvenile rearing salmon habitat and contribute to a broader portfolio of habitats in early life stages. Additionally, I examined two years of summer water temperature data from sites throughout our study tributaries to assess the degree to which lower-reach sites are representative of upstream thermal regimes. I found that the lower reaches in the lowland and glacial study watersheds were reasonably representative of daily and seasonal main stem thermal conditions upstream, while in the montane study watershed (elevation and gradient mid-way between the lowland watershed) upstream conditions were less consistent and thus less suitable for thermal characterization by a lower-reach site alone. Together, this work highlights examples of the importance of accounting for habitat diversity when assessing climate change impacts to salmon-bearing streams. University of Alaska Fairbanks Arctic Biology Summer Graduate Research Award, Nicholas Hughes Memorial Scholarship, University of Alaska Department of Biology and Wildlife General introduction -- ...

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