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W4301187739 startingPage "243" @default.
W4301187739 abstract "Models that assess the vulnerability of freshwater species to shifting environmental conditions do not always account for short-duration extremes, which are increasingly common. Life cycle models for Pacific salmon ( Oncorhynchus spp.) generally focus on average conditions that fish experience during each life stage, yet many floods, low flows, and elevated water temperatures only last days to weeks. We developed a process-based life cycle model that links coho salmon ( Oncorhynchus kisutch) abundance to daily streamflow and thermal regimes to assess: (1) “How does salmon abundance respond to short-duration floods, low flows, and high temperatures in glacier-, snow-, and rain-fed streams?” and (2) “How does the temporal resolution of flow and temperature data influence these responses?”. Our simulations indicate that short-duration extremes can reduce salmon abundance in some contexts. However, after daily flow and temperature data were aggregated into weekly and monthly averages, the impact of extreme events on populations declined. Our analysis demonstrates that novel modeling frameworks that capture daily variability in flow and temperature are needed to examine impacts of extreme events on Pacific salmon." @default.
W4301187739 created "2022-10-04" @default.
W4301187739 creator A5015182958 @default.
W4301187739 creator A5016152537 @default.
W4301187739 creator A5030322255 @default.
W4301187739 creator A5057077579 @default.
W4301187739 creator A5072539093 @default.
W4301187739 date "2023-02-01" @default.
W4301187739 modified "2023-09-27" @default.
W4301187739 title "Modeling coho salmon (<i>Oncorhynchus kisutch</i>) population response to streamflow and water temperature extremes" @default.
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W4301187739 doi "https://doi.org/10.1139/cjfas-2022-0129" @default.
W4301187739 hasPublicationYear "2023" @default.
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