结合三维水力模拟和鱼类遥测数据来描述靠近旁路的洄游幼鱼的行为

IF 4.6 Q2 ENVIRONMENTAL SCIENCES
Noor Ben Jebria, R. Carmigniani, H. Drouineau, E. de Oliveira, S. Tétard, H. Capra
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引用次数: 7

摘要

人为引起的河流破碎化是洄游鱼类的主要威胁。恢复河流连通性需要建设鱼类通道解决方案,例如用于上游和下游迁移的鱼道。虽然许多研究都集中在双产卵鱼类的上游迁徙,特别是成年大西洋鲑鱼(Salmo salar),但我们分析了水库不同水力条件下幼鱼的行为,以改善鲑鱼幼鱼下游通道的有效旁路系统的开发。本研究基于三维(3D)计算流体动力学(CFD)模拟与二维(2D)遥测跟踪的孵化位置的耦合,旨在探索孵化行为与水力线索的关系。更具体地说,我们探索了水力条件如何影响鱼类的行为,以及鱼类如何根据这种行为进行导航。2017年,在法国阿列河(Allier River)的pout水库中追踪了23只小鲑鱼,它们与不同的涡轮机排放率有关。在水电站上游水库进行了三维CFD模拟,并与现场测量结果进行了验证。鱼类位移与水流条件的关系研究提供了新的见解,利用推力、游动方向和方向作为精确表征小鲑鱼行为的手段,这有助于设计下游迁移通道设施。在pout大坝,水流速度、水流加速度和湍流动能都很低,因此会导致鱼类迷失方向。然而,结果强调,水库中最小流速为20 cm/s足以防止延迟并允许鱼类导航。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Coupling 3D hydraulic simulation and fish telemetry data to characterize the behaviour of migrating smolts approaching a bypass
Abstract Human-induced river fragmentation is a major threat to migratory fish species. Restoring river connectivity requires the construction of fish passage solutions, such as fishways for upstream and downstream migration. While many studies focussed on the upstream migration of diadromous fishes, and especially of adult Atlantic salmons (Salmo salar), we analyze juvenile behaviour under different hydraulic conditions at reservoir to improve the development of effective bypass systems for downstream passage of salmon smolt. Based on coupling three-dimensional (3D) computational fluid dynamics (CFD) simulations to smolt positions tracked by two-dimensional (2D) telemetry, the present study aimed to explore smolt behaviour in relation to hydraulic cues. More specifically, we explored how hydraulic conditions influence fish behaviour and how fish navigate depending on this behaviour. In 2017, 23 smolts were tracked in the reservoir of Poutès (Allier River, France), associated with different turbine discharge rates. 3D CFD simulations were performed and validated against field measurements in the reservoir upstream of the hydropower plant. The study of fish displacements in relation to flow conditions provided new insights with the use of thrust force, swimming orientation and direction as means to precisely characterize smolt behaviour, which can help in the design of downstream migration passage facilities. At Poutès dam, flow velocity, flow acceleration and turbulent kinetic energy are very low and therefore can lead to fish disorientation. However, results underlined that having a minimum flow velocity of 20 cm/s in reservoirs is sufficient to prevent delay and allow fish navigation.
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