Environmentally triggered shifts in steelhead migration behavior and consequences for survival in the mid-Columbia River.

The majority of Columbia River summer-run steelhead encounter high river temperatures (near or > 20°C) during their spawning migration. While some steelhead pass through the mid-Columbia River in a matter of days, others use tributary habitats as temperature refuges for periods that can last mont...

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Main Authors: Jared E Siegel, Lisa G Crozier, Lauren E Wiesebron, Daniel L Widener
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2021-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0250831
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spelling doaj-caeba210decc4e118f450dc729cc5e0c2021-05-28T04:30:57ZengPublic Library of Science (PLoS)PLoS ONE1932-62032021-01-01165e025083110.1371/journal.pone.0250831Environmentally triggered shifts in steelhead migration behavior and consequences for survival in the mid-Columbia River.Jared E SiegelLisa G CrozierLauren E WiesebronDaniel L WidenerThe majority of Columbia River summer-run steelhead encounter high river temperatures (near or > 20°C) during their spawning migration. While some steelhead pass through the mid-Columbia River in a matter of days, others use tributary habitats as temperature refuges for periods that can last months. Using PIT tag detection data from adult return years 2004-2016, we fit 3-component mixture models to differentiate between "fast", "slow", and "overwintering" migration behaviors in five aggregated population groups. Fast fish migrated straight through the reach on average in ~7-9 days while slow fish delayed their migration for weeks to months, and overwintering fish generally took ~150-250 days. We then fit covariate models to examine what factors contributed to the probability of migration delay during summer months (slow or overwintering behaviors), and to explore how migration delay related to mortality. Finally, to account for the impact of extended residence times in the reach for fish that delayed, we compared patterns in estimated average daily rates of mortality between migration behaviors and across population groups. Results suggest that migration delay was primarily triggered by high river temperatures but temperature thresholds for delay were lowest just before the seasonal peak in river temperatures. While all populations groups demonstrated these general patterns, we documented substantial variability in temperature thresholds and length of average delays across population groups. Although migration delay was related to higher reach mortality, it was also related to lower average daily mortality rates due to the proportional increase in reach passage duration being larger than the associated increase in mortality. Lower daily mortality rates suggest that migration delay could help mitigate the impacts of harsh migration conditions, presumably through the use of thermal refuges, despite prolonged exposure to local fisheries. Future studies tracking individual populations from their migration through reproduction could help illuminate the full extent of the tradeoffs between different migration behaviors.https://doi.org/10.1371/journal.pone.0250831
collection DOAJ
language English
format Article
sources DOAJ
author Jared E Siegel
Lisa G Crozier
Lauren E Wiesebron
Daniel L Widener
spellingShingle Jared E Siegel
Lisa G Crozier
Lauren E Wiesebron
Daniel L Widener
Environmentally triggered shifts in steelhead migration behavior and consequences for survival in the mid-Columbia River.
PLoS ONE
author_facet Jared E Siegel
Lisa G Crozier
Lauren E Wiesebron
Daniel L Widener
author_sort Jared E Siegel
title Environmentally triggered shifts in steelhead migration behavior and consequences for survival in the mid-Columbia River.
title_short Environmentally triggered shifts in steelhead migration behavior and consequences for survival in the mid-Columbia River.
title_full Environmentally triggered shifts in steelhead migration behavior and consequences for survival in the mid-Columbia River.
title_fullStr Environmentally triggered shifts in steelhead migration behavior and consequences for survival in the mid-Columbia River.
title_full_unstemmed Environmentally triggered shifts in steelhead migration behavior and consequences for survival in the mid-Columbia River.
title_sort environmentally triggered shifts in steelhead migration behavior and consequences for survival in the mid-columbia river.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2021-01-01
description The majority of Columbia River summer-run steelhead encounter high river temperatures (near or > 20°C) during their spawning migration. While some steelhead pass through the mid-Columbia River in a matter of days, others use tributary habitats as temperature refuges for periods that can last months. Using PIT tag detection data from adult return years 2004-2016, we fit 3-component mixture models to differentiate between "fast", "slow", and "overwintering" migration behaviors in five aggregated population groups. Fast fish migrated straight through the reach on average in ~7-9 days while slow fish delayed their migration for weeks to months, and overwintering fish generally took ~150-250 days. We then fit covariate models to examine what factors contributed to the probability of migration delay during summer months (slow or overwintering behaviors), and to explore how migration delay related to mortality. Finally, to account for the impact of extended residence times in the reach for fish that delayed, we compared patterns in estimated average daily rates of mortality between migration behaviors and across population groups. Results suggest that migration delay was primarily triggered by high river temperatures but temperature thresholds for delay were lowest just before the seasonal peak in river temperatures. While all populations groups demonstrated these general patterns, we documented substantial variability in temperature thresholds and length of average delays across population groups. Although migration delay was related to higher reach mortality, it was also related to lower average daily mortality rates due to the proportional increase in reach passage duration being larger than the associated increase in mortality. Lower daily mortality rates suggest that migration delay could help mitigate the impacts of harsh migration conditions, presumably through the use of thermal refuges, despite prolonged exposure to local fisheries. Future studies tracking individual populations from their migration through reproduction could help illuminate the full extent of the tradeoffs between different migration behaviors.
url https://doi.org/10.1371/journal.pone.0250831
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