Adam T. Piper, Paula J. Rosewarne, Charlotte Pike, Rosalind M. Wright
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引用次数: 0
摘要
优化通道设施的设计以恢复欧洲鳗鲡幼鱼的河道连通性,是欧洲鳗鲡这一物种在其大部分淡水区域保护工作的重中之重。本研究采用实验装置模拟重力作用下的上游鳗鱼通道,结果表明,在测试的流速(0.2-0.6 升/秒)范围内,包含两个横向斜坡(15°)的新型 V 型鳗鱼通道比横向扁平通道的性能更好。对于使用的小规格鳗鱼(体长 60-80 毫米),鬃毛基质的性能始终优于螺柱,但横向坡度对通过指标的影响大于基质选择。我们的研究结果有力地支持了在鱼类通道设施中为鳗鱼的上游洄游使用 V 形通道,特别是在流速可能会升高和/或波动的情况下,例如重力式通道。
The Eel Ascending: The Influence of Lateral Slope, Climbing Substrate and Flow Rate on Eel Pass Performance
Optimising the design of passage facilities to restore fluvial connectivity for juvenile European eel (Anguilla anguilla) is a key priority within conservation efforts for the species, across the majority of its freshwater range. Employing an experimental setup that simulated gravity-fed upstream eel passes, this study demonstrated that novel V-profile passes, which incorporate two lateral slopes (15°), performed better than laterally flat passes over the flow rates tested (0.2–0.6 L s−1). For the small eel size used (60–80 mm length), the bristle substrate consistently outperformed studs, but the lateral slope had a greater effect on passage metrics than the substrate choice. Our findings strongly support the use of V-shaped channels for upstream migrating eel at fish passage facilities, particularly in scenarios where flow rates may be elevated and/or fluctuating, such as for gravity-fed passes.
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