Refuges and ecological traps: Extreme drought threatens persistence of an endangered fish in intermittent streams

Recent droughts raise global concern over potential biodiversity loss and mitigating impacts to vulnerable species has become a management priority. However, drought impacts on populations are difficult to predict, in part, because habitat refuges can buffer organisms from harsh environmental condit...

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Veröffentlicht in:	Global change biology 2020-07, Vol.26 (7), p.3834-3845
Hauptverfasser:	Vander Vorste, Ross, Obedzinski, Mariska, Nossaman Pierce, Sarah, Carlson, Stephanie M., Grantham, Theodore E.
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Sprache:	eng
Schlagworte:	abiotic Biodiversity Biodiversity loss Downstream effects Drought Ecology Endangered animals Endangered species Environmental changes Environmental conditions Environmental impact Fish Fragmentation Freshwater fishes Habitat fragmentation Habitats Impact prediction Intermittent streams isolated pools mixed models mortality Oncorhynchus kisutch Pacific salmon Pools Primary Primary s Refuges river drying Rivers Salmon Spatial variations Species Stream discharge Stream flow Survival Threatened species Traps Variability Vulnerable species water abstraction
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creator	Vander Vorste, Ross Obedzinski, Mariska Nossaman Pierce, Sarah Carlson, Stephanie M. Grantham, Theodore E.
description	Recent droughts raise global concern over potential biodiversity loss and mitigating impacts to vulnerable species has become a management priority. However, drought impacts on populations are difficult to predict, in part, because habitat refuges can buffer organisms from harsh environmental conditions. In a global change context, more extreme droughts may turn previously suitable habitats into ecological traps, where vulnerable species can no longer persist. Here, we explore the impacts of California's recent record‐breaking drought on endangered juvenile Coho salmon. We estimated the variability of cumulative salmon survival using mark–recapture of nearly 20,000 tagged fish in intermittent stream pools during a 7‐year period encompassing drought and non‐drought conditions. We then determined the relative importance of physical habitat, streamflow, precipitation, landscape, and biological characteristics that may limit survival during drought. Our most striking result was an increase in the number of pools with reduced or zero survival during drought years and a coincident increase in spatial variability in survival among study reaches. In nearly half of the stream pools, salmon survival during drought was similar to mean survival of pools assessed during non‐drought years, indicating some pools had remarkable resistance (ability to withstand disturbance) to extreme drought. Lower survival was most attributable to longer duration of disconnection between upstream and downstream habitats, a consequence of increasing drought severity. Our results not only suggest that many pools sustain juvenile salmon in non‐drought years transition into ecological traps during drought but also highlight that some pools serve as refuges even under extreme drought conditions. Projected increases in drought severity that lead to longer droughts and greater habitat fragmentation could transform an increasing proportion of suitable habitats into ecological traps. Predicting future impacts of drought on Coho salmon and other sensitive species will require identification and protection of drought refuges and management strategies that prevent further habitat fragmentation. We explored the impacts of California's recent record‐breaking drought on endangered juvenile Coho salmon by estimating survival of nearly 20,000 tagged fish in intermittent stream pools during a 7‐year period. As drought conditions became extreme, there was an increase in the number of pools with reduced or
doi_str_mv	10.1111/gcb.15116
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However, drought impacts on populations are difficult to predict, in part, because habitat refuges can buffer organisms from harsh environmental conditions. In a global change context, more extreme droughts may turn previously suitable habitats into ecological traps, where vulnerable species can no longer persist. Here, we explore the impacts of California's recent record‐breaking drought on endangered juvenile Coho salmon. We estimated the variability of cumulative salmon survival using mark–recapture of nearly 20,000 tagged fish in intermittent stream pools during a 7‐year period encompassing drought and non‐drought conditions. We then determined the relative importance of physical habitat, streamflow, precipitation, landscape, and biological characteristics that may limit survival during drought. Our most striking result was an increase in the number of pools with reduced or zero survival during drought years and a coincident increase in spatial variability in survival among study reaches. In nearly half of the stream pools, salmon survival during drought was similar to mean survival of pools assessed during non‐drought years, indicating some pools had remarkable resistance (ability to withstand disturbance) to extreme drought. Lower survival was most attributable to longer duration of disconnection between upstream and downstream habitats, a consequence of increasing drought severity. Our results not only suggest that many pools sustain juvenile salmon in non‐drought years transition into ecological traps during drought but also highlight that some pools serve as refuges even under extreme drought conditions. Projected increases in drought severity that lead to longer droughts and greater habitat fragmentation could transform an increasing proportion of suitable habitats into ecological traps. Predicting future impacts of drought on Coho salmon and other sensitive species will require identification and protection of drought refuges and management strategies that prevent further habitat fragmentation. We explored the impacts of California's recent record‐breaking drought on endangered juvenile Coho salmon by estimating survival of nearly 20,000 tagged fish in intermittent stream pools during a 7‐year period. As drought conditions became extreme, there was an increase in the number of pools with reduced or zero survival and variability of survival estimates. 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However, drought impacts on populations are difficult to predict, in part, because habitat refuges can buffer organisms from harsh environmental conditions. In a global change context, more extreme droughts may turn previously suitable habitats into ecological traps, where vulnerable species can no longer persist. Here, we explore the impacts of California's recent record‐breaking drought on endangered juvenile Coho salmon. We estimated the variability of cumulative salmon survival using mark–recapture of nearly 20,000 tagged fish in intermittent stream pools during a 7‐year period encompassing drought and non‐drought conditions. We then determined the relative importance of physical habitat, streamflow, precipitation, landscape, and biological characteristics that may limit survival during drought. Our most striking result was an increase in the number of pools with reduced or zero survival during drought years and a coincident increase in spatial variability in survival among study reaches. In nearly half of the stream pools, salmon survival during drought was similar to mean survival of pools assessed during non‐drought years, indicating some pools had remarkable resistance (ability to withstand disturbance) to extreme drought. Lower survival was most attributable to longer duration of disconnection between upstream and downstream habitats, a consequence of increasing drought severity. Our results not only suggest that many pools sustain juvenile salmon in non‐drought years transition into ecological traps during drought but also highlight that some pools serve as refuges even under extreme drought conditions. Projected increases in drought severity that lead to longer droughts and greater habitat fragmentation could transform an increasing proportion of suitable habitats into ecological traps. Predicting future impacts of drought on Coho salmon and other sensitive species will require identification and protection of drought refuges and management strategies that prevent further habitat fragmentation. We explored the impacts of California's recent record‐breaking drought on endangered juvenile Coho salmon by estimating survival of nearly 20,000 tagged fish in intermittent stream pools during a 7‐year period. As drought conditions became extreme, there was an increase in the number of pools with reduced or zero survival and variability of survival estimates. 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However, drought impacts on populations are difficult to predict, in part, because habitat refuges can buffer organisms from harsh environmental conditions. In a global change context, more extreme droughts may turn previously suitable habitats into ecological traps, where vulnerable species can no longer persist. Here, we explore the impacts of California's recent record‐breaking drought on endangered juvenile Coho salmon. We estimated the variability of cumulative salmon survival using mark–recapture of nearly 20,000 tagged fish in intermittent stream pools during a 7‐year period encompassing drought and non‐drought conditions. We then determined the relative importance of physical habitat, streamflow, precipitation, landscape, and biological characteristics that may limit survival during drought. Our most striking result was an increase in the number of pools with reduced or zero survival during drought years and a coincident increase in spatial variability in survival among study reaches. In nearly half of the stream pools, salmon survival during drought was similar to mean survival of pools assessed during non‐drought years, indicating some pools had remarkable resistance (ability to withstand disturbance) to extreme drought. Lower survival was most attributable to longer duration of disconnection between upstream and downstream habitats, a consequence of increasing drought severity. Our results not only suggest that many pools sustain juvenile salmon in non‐drought years transition into ecological traps during drought but also highlight that some pools serve as refuges even under extreme drought conditions. Projected increases in drought severity that lead to longer droughts and greater habitat fragmentation could transform an increasing proportion of suitable habitats into ecological traps. Predicting future impacts of drought on Coho salmon and other sensitive species will require identification and protection of drought refuges and management strategies that prevent further habitat fragmentation. We explored the impacts of California's recent record‐breaking drought on endangered juvenile Coho salmon by estimating survival of nearly 20,000 tagged fish in intermittent stream pools during a 7‐year period. As drought conditions became extreme, there was an increase in the number of pools with reduced or zero survival and variability of survival estimates. This suggests that many pools that sustain juvenile salmon in non‐drought years transition into ecological traps during drought, but also highlights that some intermittent streams serve as refuges even during extreme drought.</abstract><cop>England</cop><pub>Blackwell Publishing Ltd</pub><pmid>32293095</pmid><doi>10.1111/gcb.15116</doi><tpages>12</tpages><orcidid>https://orcid.org/0000-0003-3055-6483</orcidid><orcidid>https://orcid.org/0000-0003-3423-5644</orcidid><oa>free_for_read</oa></addata></record>
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subjects	abiotic Biodiversity Biodiversity loss Downstream effects Drought Ecology Endangered animals Endangered species Environmental changes Environmental conditions Environmental impact Fish Fragmentation Freshwater fishes Habitat fragmentation Habitats Impact prediction Intermittent streams isolated pools mixed models mortality Oncorhynchus kisutch Pacific salmon Pools Primary Primary s Refuges river drying Rivers Salmon Spatial variations Species Stream discharge Stream flow Survival Threatened species Traps Variability Vulnerable species water abstraction
title	Refuges and ecological traps: Extreme drought threatens persistence of an endangered fish in intermittent streams
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