Balancing risks and rewards of alternate strategies in the seaward extent, duration and timing of fjord use in contemporary anadromy of brown trout (Salmo trutta).

IF 2.3 Q2 ECOLOGY
K L Hawley, H A Urke, T Kristensen, T O Haugen
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Abstract

Background: Anadromy comprises a successful life-cycle adaptation for salmonids, with marine migration providing improved feeding opportunities and thus improved growth. These rewards are balanced against costs from increased energy expenditure and mortality risk. Anthropogenic-induced environmental changes that reduce benefits and/or increase costs of migration e.g., aquaculture and hydropower, may therefore result in adaptations disfavouring anadromy. We tagged brown trout (Salmo trutta) smolts (N = 175) and veteran migrants (N = 342), from five adjacent riverine populations located in Sognefjorden, the longest Norwegian fjord-system supporting anadromous brown trout populations (209 km). Over four years, 138 acoustic telemetry receivers were deployed to track migrations of tagged individuals from freshwater and throughout Sognefjorden. Detected movements were used to fit migration models and multi-state mark-recapture models of survival and movement for each life-stage. Seaward migration distance was modelled to examine the fitness consequences from alternate migration strategies, with these models used to simulate the extent of fjord-use by individuals and accompanying growth, fecundity and survival consequences. We compared these findings with mark-recapture data collected prior to aquaculture and hydropower development.

Results: The telemetry data revealed that the outermost-fjord region was utilised by all populations albeit by few individuals. However, historical recaptures were located at a greater distance from the river mouth (87.7 ± 70.3 km), when compared to maximum migration distances of present-day counterparts (58.6 ± 54.9 km). River of origin influenced observed migratory behaviour and differential survival was estimated for each population and life-stage. The simulations based on telemetry-data models revealed a 30% and 23% difference in survival among populations for smolts and veteran migrants, respectively. At the individual-level, a long-distance migration strategy was rewarded with enhanced fecundity. However, the main contribution to population-level fecundity was overwhelmingly derived from middle-distance migrants, due to higher mortality rates and limited numbers of long-distant migrants.

Conclusions: We conclude that present-day anadromy is precarious, but potential risk varies considerably between life-stages and populations, even within a single fjord system. Our findings suggest that selection for extended migration is under pressure, we therefore stress the importance of monitoring and management actions to secure genetic variation pertinent to preserve fitness gains of anadromy.

平衡当代褐鳟(Salmo trutta)溯洄过程中峡湾向海范围、持续时间和使用时机的替代策略的风险与回报。
背景:溯河洄游是鲑科鱼类对生命周期的成功适应,海洋洄游提供了更好的觅食机会,从而提高了生长速度。这些回报与因能量消耗和死亡风险增加而产生的成本相平衡。因此,人类活动引起的环境变化(如水产养殖和水力发电)会减少洄游的收益和/或增加洄游的成本,从而导致不利于溯河洄游的适应。我们对索尼峡湾(Sognefjorden)五条相邻河流的褐鳟(Salmo trutta)幼鱼(175尾)和老洄游鱼(342尾)进行了标记,索尼峡湾是挪威最长的峡湾系统,支持褐鳟的溯河洄游(209公里)。在四年时间里,共部署了 138 个声学遥测接收器,以跟踪淡水和整个索格纳峡湾中被标记个体的迁移情况。探测到的移动情况被用于拟合迁移模型和各生命阶段生存与移动的多状态标记-重捕模型。对向海迁移的距离进行建模,以研究不同迁移策略对适应性的影响,并利用这些模型模拟个体对峡湾的利用程度以及随之而来的生长、繁殖力和存活率的影响。我们将这些结果与水产养殖和水电开发之前收集的标记重捕数据进行了比较:遥测数据显示,所有种群都使用最外缘峡湾区域,尽管使用的个体很少。然而,与现今同类的最大洄游距离(58.6 ± 54.9 千米)相比,历史上重新捕获的个体距离河口更远(87.7 ± 70.3 千米)。原产地河流对观察到的洄游行为有影响,对每个种群和生命阶段的不同存活率进行了估计。根据遥测数据模型进行的模拟显示,不同种群的幼鱼和老迁徙者的存活率分别相差 30% 和 23%。在个体水平上,长途迁徙策略可提高繁殖力。然而,由于死亡率较高和长途迁徙者数量有限,对种群繁殖力的主要贡献绝大部分来自中途迁徙者:我们的结论是,现今的溯河洄游岌岌可危,但不同生命阶段和不同种群之间的潜在风险差异很大,即使在单一峡湾系统内也是如此。我们的研究结果表明,延长洄游时间的选择受到了压力,因此,我们强调必须采取监测和管理行动,以确保遗传变异的相关性,从而保护溯河洄游所带来的健康收益。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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