Laboratory testing of an innovative tube fishway concept

IF 4.6 Q2 ENVIRONMENTAL SCIENCES
J. Harris, W. Peirson, B. Mefford, R. Kingsford, S. Felder
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引用次数: 9

Abstract

Abstract Effective fishways are required for restoring fish migrations and reversing worldwide declines in freshwater fish while making sustainable use of water resources. Mitigation of barrier effects at high-head dams and weirs is often impeded by poor fishway performance and high costs. Improved and less-costly designs are urgently needed. Our innovative tube fishway concept combines established fishways techniques with aquaculture’s pumping methods and fish-behaviour insights for safe upstream fish passage. We experimented with scaled-down fishway designs using juvenile Australian bass (Percalates novemaculeata). An experimental horizontal-cylinder design successfully combined volitional-passage functions of existing fishways with non-volitional transfer using pumped water. Three key principles of fish behaviour in fishways led to design improvements: disturbed fish often seek refuge at depth; fishes’ escape reactions strongly motivate swimming into flows; and curved structures can reduce delays. In nine trials of the best fishway design, 44 of 45 Australian bass passed within 50 min. cycles. The tube fishway concept offers potential for effective upstream fish passage at new and existing barriers >∼2 m high, with low construction and operation costs and capacity to operate in variable flow regimes. Further development is proceeding with larger-scale laboratory trials, an innovative pumping system and more species.
一个创新的管鱼道概念的实验室测试
有效的鱼道是恢复鱼类洄游和扭转全球淡水鱼数量下降的必要条件,同时实现水资源的可持续利用。由于鱼道性能差和成本高,高水头水坝和堰的屏障效应的缓解常常受到阻碍。迫切需要改进和低成本的设计。我们创新的管式鱼道概念将现有的鱼道技术与水产养殖的泵送方法和鱼类行为见解相结合,以确保上游鱼类通道的安全。我们用澳大利亚鲈鱼幼鱼(Percalates novemaculeata)试验了按比例缩小的鱼道设计。一种试验性的水平圆柱体设计成功地将现有鱼道的自愿通道功能与抽水的非自愿转移结合起来。鱼道中鱼类行为的三个关键原则导致了设计的改进:受干扰的鱼类经常在深处寻求庇护;鱼类的逃逸反应强烈地促使它们游向水流;弯曲的结构可以减少延误。在对最佳鱼道设计的九次试验中,45条澳大利亚鲈鱼中有44条在50分钟内通过。周期。管状鱼道的概念提供了在新的和现有的> ~ 2米高的障碍上有效的上游鱼类通道的潜力,具有较低的建设和运营成本,并且能够在可变流量下运行。进一步的开发正在进行中,包括更大规模的实验室试验、创新的抽水系统和更多的品种。
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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来源期刊
CiteScore
7.10
自引率
0.00%
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