2022
DOI: 10.1002/ecs2.4265
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Tough places and safe spaces: Can refuges save salmon from a warming climate?

Abstract: The importance of thermal refuges in a rapidly warming world is particularly evident for migratory species, where individuals encounter a wide range of conditions throughout their lives. In this study, we used a spatially explicit, individual‐based simulation model to evaluate the buffering potential of cold‐water thermal refuges for anadromous salmon and trout (Oncorhynchus spp.) migrating upstream through a warm river corridor that can expose individuals to physiologically stressful temperatures. We consider… Show more

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Cited by 13 publications
(14 citation statements)
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“…The possible refuges that we uncovered may not be facilitating behavioural thermoregulation in this system but do underscore an important alternative outcome: isolated or clumped thermal refuges may incur other costs and have the potential to form ecological traps (sensu Battin, 2004). For example, even in spatially heterogeneous streams, organisms do not always choose to exploit thermal refuges (e.g., Barrett et al, 2022), perhaps owing to the costs associated with behaviourally thermoregulating, such as increased predation risk and/or associated bioenergetic costs (e.g., Huey & Slatkin, 1976; Carrascal et al, 2001; Snyder et al, 2022). Studies that incorporate bioenergetic information into spatially‐explicit forecasting models with other components of adaptive capacity (plasticity, evolvability, dispersal) will fill a key gap in our understanding of vulnerability to changing environments.…”
Section: Discussionmentioning
confidence: 99%
“…The possible refuges that we uncovered may not be facilitating behavioural thermoregulation in this system but do underscore an important alternative outcome: isolated or clumped thermal refuges may incur other costs and have the potential to form ecological traps (sensu Battin, 2004). For example, even in spatially heterogeneous streams, organisms do not always choose to exploit thermal refuges (e.g., Barrett et al, 2022), perhaps owing to the costs associated with behaviourally thermoregulating, such as increased predation risk and/or associated bioenergetic costs (e.g., Huey & Slatkin, 1976; Carrascal et al, 2001; Snyder et al, 2022). Studies that incorporate bioenergetic information into spatially‐explicit forecasting models with other components of adaptive capacity (plasticity, evolvability, dispersal) will fill a key gap in our understanding of vulnerability to changing environments.…”
Section: Discussionmentioning
confidence: 99%
“…The model InSTREAM embodies much of our knowledge of how temperature and other habitat characteristics affect individual salmonids in a framework that makes long‐term population predictions, making simulation studies such as this one a way to explore such important yet difficult questions. The simulation approach has been used before; Snyder et al (2022a, 2022b) used a larger‐scale individual‐based model to evaluate thermal refuge benefits for upstream‐migrating salmonids.…”
Section: Discussionmentioning
confidence: 99%
“…The model InSTREAM embodies much of our knowledge of how temperature and other habitat characteristics affect individual salmonids in a framework that makes longterm population predictions, making simulation studies such as this one a way to explore such important yet difficult questions. The simulation approach has been used before; Snyder et al (2022aSnyder et al ( , 2022b) used a larger-scale individual-based model to evaluate thermal refuge benefits for upstream-migrating salmonids. Using simulation, as with field studies, we need to consider the limitations of our analysis and evidence for its validity and then look for conclusions of general relevance to understanding and managing fish populations.…”
Section: The Simulation Approachmentioning
confidence: 99%
“…Because facultative residency is not an option in these circumstances, management actions may have to increasingly focus on maintaining suitable thermal conditions in migratory corridors where warm temperatures are limiting to ensure life cycle completion. Thermal refuges will be vital for temporarily harboring migrants along these corridors, and efforts to describe and inventory cold-water anomalies with TIR surveys (Dugdale et al 2015;Fullerton et al 2015) may need to become more predictive to aid in the design and implementation of projects that create stepping-stone habitats that meet the ecological requirements of target species (Hannah et al 2014;Kurylyk et al 2015;Snyder et al 2022).…”
Section: Future Uncertaintiesmentioning
confidence: 99%