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Climate change impacts on native cutthroat trout habitat in Colorado streams
Authors:Chenchen Ma  Ryan R. Morrison  Daniel C. White  James Roberts  Yoichiro Kanno
Affiliation:1. Civil and Environmental Engineering, Colorado State University, Fort Collins, Colorado, USA;2. U.S. Geological Survey, Great Lakes Science Center – Lake Erie Biological Station, Huron, Ohio, USA;3. Fish, Wildlife, and Conservation Biology, Colorado State University, Fort Collins, Colorado, USA
Abstract:Headwater streams support vital aquatic habitat yet are vulnerable to changing climate due to their high elevation and small size. Coldwater fish are especially sensitive to the altered streamflow and water temperature regimes during summer low flow periods. Though previous studies have provided insights on how changes in climate and alterations in stream discharge may affect habitat availability for various native cutthroat trout species, suitable physical habitats have not been evaluated under future climate projections for the threatened Greenback Cutthroat Trout (GBCT) native to headwater regions of Colorado, USA. Thus, this study used field data collected from selected headwater streams across the current distribution of GBCT to construct one-dimensional hydraulic models to evaluate streamflow and physical habitat under four future climate projections. Results illustrate reductions in both predicted streamflow and physical habitat for all future climate projections across study sites. The projected mean summer streamflow shows greater decline (−52% on average) compared to the projected decline in mean August flow (−21% on average). Moreover, sites located at a relative higher elevation with larger substrate and steeper slope were projected to experience more reductions in physical habitat due to streamflow reductions. Specifically, streams with step-pool morphologies may experience grater changes in available habitat compared to pool-riffle streams. Future climate change studies related to coldwater fish that examine spatial variation in flow alteration could provide novel data to complement the existing literature on the thermal characteristics. Tailoring reintroduction and management efforts for GBCT to the individual headwater stream with adequate on-site monitoring could provide a more holistic conservation approach.
Keywords:aquatic habitat  climate change  headwater streams  hydraulic modelling  Rocky Mountains  trout
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