Endangered Cultus Lake sockeye salmon exhibit genomic evidence of hypoxic and thermal stresses while rearing in degrading freshwater lacustrine critical habitat

Akbarzadeh, Arash; Selbie, Daniel T.; Pon, L. B.; Miller, Kristina M.

doi:10.1093/conphys/coab089

Cited by 5 publications

(2 citation statements)

References 38 publications

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“…Drivers of species decline include impassable man-made barriers, habitat degradation, overexploitation, and flow modification ( Dudgeon et al, 2006 ; Reid et al, 2019 ). Increasing river temperatures, hypoxia, persistent droughts, warm-adapted non-native species, and novel pathogens exacerbate risk to salmonids both regionally and globally ( Moyle et al, 2017 ; Reid et al, 2019 ; Lehman et al, 2020 ; Akbarzadeh et al, 2021 ; Mauduit et al, 2022 ). A 2007 survey of Pacific salmon populations in the western contiguous United States found that 29% of populations have been lost since Euro-American contact ( Gustafson et al, 2007 ).…”

Section: Introductionmentioning

confidence: 99%

Intraspecific variation among Chinook Salmon populations indicates physiological adaptation to local environmental conditions

Zillig

FitzGerald

Lusardi

et al. 2023

Conservation Physiology

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Understanding interpopulation variation is important to predicting species responses to climate change. Recent research has revealed interpopulation variation among several species of Pacific salmonids; however, the environmental drivers of population differences remain elusive. We tested for local adaptation and countergradient variation by assessing interpopulation variation among six populations of fall-run Chinook Salmon from the western United States. Juvenile fish were reared at three temperatures (11, 16 and 20°C), and five physiological metrics were measured (routine and maximum metabolic rate, aerobic scope, growth rate and critical thermal maximum). We then tested associations between these physiological metrics and 15 environmental characteristics (e.g. rearing temperature, latitude, migration distance, etc.). Statistical associations between the five physiological metrics and 15 environmental characteristics supported our hypotheses of local adaptation. Notably, latitude was a poor predictor of population physiology. Instead, our results demonstrate that populations from warmer habitats exhibit higher thermal tolerance (i.e. critical thermal maxima), faster growth when warm acclimated and greater aerobic capacity at high temperatures. Additionally, populations with longer migrations exhibit higher metabolic capacity. However, overall metabolic capacity declined with warm acclimation, indicating that future climate change may reduce metabolic capacity, negatively affecting long-migrating populations. Linking physiological traits to environmental characteristics enables flexible, population-specific management of disparate populations in response to local conditions.

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Section: Introductionmentioning

confidence: 99%

Intraspecific variation among Chinook Salmon populations indicates physiological adaptation to local environmental conditions

Zillig

FitzGerald

Lusardi

et al. 2023

Conservation Physiology

View full text Add to dashboard Cite

show abstract

“…In Pacific salmon (Oncorhynchus spp. ), large mortality events of critically endangered populations [20][21][22] and population declines [23][24][25] have been attributed, in part, to climatic conditions that are becoming more frequent with climate change [26][27][28][29][30][31][32][33]. Preserving these ecologically, economically and culturally significant species will require a rapid change in our current trajectory.…”

Section: Introductionmentioning

confidence: 99%

A Comprehensive Review of the Impacts of Climate Change on Salmon: Strengths and Weaknesses of the Literature by Life Stage

Crozier

Siegel

2023

Fishes

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As we confront novel environmental challenges, a full understanding of the physical and biological processes that govern species responses to climate change will help maintain biodiversity and support conservation measures that are more robust to irreducible uncertainty. However, climate impacts are so complex, and the literature on salmon and trout is so vast that researchers and decision makers scramble to make sense of it all. Therefore, we conducted a systematic literature review of climate impacts on salmon and anadromous trout as a resource for stakeholders, managers, and researchers. We reviewed studies published from 2010 to 2021 that address climate impacts on these fish and organized them in a database of 1169 physical and 1853 biological papers. Papers are labeled with keywords across eight categories related to subject matter and study methods. We compared the literature by biological process and life stage and used these comparisons to assess strengths and weaknesses. We then summarized expected phenotypic and genetic responses and management actions by life stage. Overall, we found the largest research gaps related to species interactions, behavioral responses, and effects that carry over across life stages. With this collection of the literature, we can better apply scarce conservation resources, fill knowledge gaps, and make informed decisions that do not ignore uncertainty.

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Small mouth, big appetite: diet analysis of invasive smallmouth bass (Micropterus dolomieu) in Cultus Lake, British Columbia

Margetts,

Heise

2024

Environ Biol Fish

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Endangered Cultus Lake sockeye salmon exhibit genomic evidence of hypoxic and thermal stresses while rearing in degrading freshwater lacustrine critical habitat

Cited by 5 publications

References 38 publications

Intraspecific variation among Chinook Salmon populations indicates physiological adaptation to local environmental conditions

Intraspecific variation among Chinook Salmon populations indicates physiological adaptation to local environmental conditions

A Comprehensive Review of the Impacts of Climate Change on Salmon: Strengths and Weaknesses of the Literature by Life Stage

Small mouth, big appetite: diet analysis of invasive smallmouth bass (Micropterus dolomieu) in Cultus Lake, British Columbia

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