利用线性空间捕获-再捕获模型评估溪流和温度对公牛鳟迁徙和存活的影响

IF 2 3区 农林科学 Q2 FISHERIES
Patti J. Wohner, Russell F. Thurow, James T. Peterson
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These extremes provided a unique opportunity to retrospectively compare Bull Trout survival and migration under potential climate change scenarios.MethodsWe evaluated prespawning and postspawning migrations and survival of fluvial Bull Trout that were radio‐tagged and tracked from 1992 to 1994. We used a Cormack–Jolly–Seber linear spatial capture–recapture model to simultaneously model the migration and survival of radio‐tagged prespawn (<jats:italic>n</jats:italic> = 58) and postspawn (<jats:italic>n</jats:italic> = 23) Bull Trout among weeks and river reaches with streamflow, water temperature, and habitat covariates.ResultMost individual prespawning migrations were similar among tagged fish, whereas postspawn fish adopted multiple migration and overwintering strategies. Movements of prespawn Bull Trout were larger when (1) weekly average daily maximum streamflow increased and (2) weekly average daily maximum water temperature increased. 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引用次数: 0

摘要

目标在美国西北太平洋地区,气候变化导致气温升高、暖季(4 月至 9 月)溪流减少、冷季(10 月至 3 月)溪流增加。水温升高可能会改变像公牛鳟(Salvelinus confluentus)这样的冷水洄游鱼类的生存条件。因此,了解公牛鳟的洄游和生存情况对于物种保护和恢复至关重要。在爱达荷州的鲑鱼河流域,1992 年和 1993 年是过去三十年中暖季水温和溪流最极端的两个年份。我们评估了产卵前和产卵后的洄游情况,以及1992年至1994年期间被无线电标记和追踪的河道牛鳟的存活情况。我们使用了Cormack-Jolly-Seber线性空间捕获-再捕获模型,同时模拟了带有无线电标记的产前(58条)和产后(23条)金牛鳟在不同周和河段之间的洄游和存活情况,并使用了溪流、水温和栖息地协变量。当(1)周平均日最大溪流增加和(2)周平均日最大水温升高时,产卵前牛鳟的洄游量更大。据模型估计,至少有 52% 的产卵者存活到产卵期,低溪流年份(1992 年)的产卵前每周平均表观存活率高于溪流较高且变化较大的年份(1993 年)。1992-1994 年期间,产卵后 38 周内的存活率与产卵前的存活率相当。我们发现,与产卵后较长的时期(38 周)相比,产卵前生命阶段的时间较短(14-18 周),死亡率也较高。公牛鳟的表观存活率随着溪流变率的降低而增加,这表明未来预期的气候变化可能会对公牛鳟产生不利影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Evaluating streamflow and temperature effects on Bull Trout migration and survival with linear spatial capture–recapture models
ObjectiveIn the U.S. Pacific Northwest, climate change is increasing air temperatures, decreasing warm season (April–September) streamflow, and increasing cool season (October–March) streamflow. Warmer water temperatures may alter conditions for migratory coldwater fishes like the Bull Trout Salvelinus confluentus. Consequently, an understanding of Bull Trout migration and survival is critical for species conservation and restoration. In the Salmon River basin, Idaho, 1992 and 1993 transpired to be two of the most opposing extreme years among the past three decades for warm season water temperature and streamflow. These extremes provided a unique opportunity to retrospectively compare Bull Trout survival and migration under potential climate change scenarios.MethodsWe evaluated prespawning and postspawning migrations and survival of fluvial Bull Trout that were radio‐tagged and tracked from 1992 to 1994. We used a Cormack–Jolly–Seber linear spatial capture–recapture model to simultaneously model the migration and survival of radio‐tagged prespawn (n = 58) and postspawn (n = 23) Bull Trout among weeks and river reaches with streamflow, water temperature, and habitat covariates.ResultMost individual prespawning migrations were similar among tagged fish, whereas postspawn fish adopted multiple migration and overwintering strategies. Movements of prespawn Bull Trout were larger when (1) weekly average daily maximum streamflow increased and (2) weekly average daily maximum water temperature increased. The model estimated that at least 52% of spawners survived to spawning, and mean weekly prespawning apparent survival was higher in the low‐streamflow year (1992) than in the year with higher and more variable streamflow (1993). Survival of 1992–1994 fish during the 38‐week postspawning period was intermediate to that in the prespawning period. Detections of prespawn Bull Trout were generally higher at sites with more complex habitats, less large woody debris, and fewer undercut banks.ConclusionWe found that the prespawn life stage can represent a shorter time frame (14–18 weeks) with increased mortality compared to the longer postspawning period (38 weeks). Bull Trout apparent survival increased with lower streamflow variability, indicating that expected future changes in climate may adversely affect Bull Trout.
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来源期刊
CiteScore
2.90
自引率
7.10%
发文量
48
审稿时长
8-16 weeks
期刊介绍: Transactions of the American Fisheries Society is a highly regarded international journal of fisheries science that has been published continuously since 1872. It features results of basic and applied research in genetics, physiology, biology, ecology, population dynamics, economics, health, culture, and other topics germane to marine and freshwater finfish and shellfish and their respective fisheries and environments.
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