Effect of total dissolved gas supersaturation and flow velocity on survival and swimming ability of juvenile Schizothorax prenanti

IF 2.6 3区环境科学与生态学 Q2 BIODIVERSITY CONSERVATION

Conservation Physiology Pub Date : 2023-12-07 DOI:10.1093/conphys/coad091

Quan Yuan, Jun Du, Ke-feng Li, Yuanming Wang, R. Liang

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引用次数: 0

Abstract

Abstract Although developing large-scale hydropower cascades in the upper Yangtze River effectively improves the hydropower resource utilization, it produces total dissolved gas (TDG) supersaturation. In the flood season, the high level of TDG supersaturation (TDGS) frequently occurs in the downstream of dams, causing migratory fish to suffer from gas bubble trauma (GBT) and reducing their survival and swimming ability. Currently, there is a deficiency in particular approaches to evaluate the ecological hazard posed by TDGS on migratory fish as they traverse different flow velocities within their migratory routes. This study assessed the vulnerability of juvenile Schizothorax prenanti (S. prenanti) to GBT from the static setting to 9.0 BL/s during exposure to nominal levels of 100%, 110%, 120% and 130% TDG. The mortality occurs when the flow velocity surpasses 6.0 and 7.5 BL/s in 100% and 110% TDG levels, respectively. For fish exposed to 120% and 130% TDG levels, the relationship between survival time and flow velocity is an approximately inverse bell-shaped curve with increasing velocity. The optimal velocity of maximal survival time of juvenile S. prenanti is 3.0 and 4.5 BL/s in 120% and 130% TDG-supersaturated water. Both TDG level and flow velocity significantly affect burst swimming speed (Uburst) and critical swimming speed (Ucrit). The cases involving GBT showed substantial declines in Uburst and Ucrit, exceeding 6.0 BL/s and TDG levels greater than 120%. The results may contribute to formulating a specific management strategy for hydropower operation during the migratory period and conserving vulnerable species in the Yangtze River.

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总溶解气体过饱和度和流速对前胸裂殖子幼体存活率和游动能力的影响

摘要在长江上游发展大型水电梯级，虽然有效地提高了水电资源的利用率，但却产生了总溶解气(TDG)过饱和现象。在汛期，大坝下游经常发生高水平的TDG过饱和(TDGS)，使洄游鱼类遭受气泡创伤(GBT)，降低了洄游鱼类的生存和游泳能力。目前，由于洄游鱼类在其洄游路线中穿越不同的流速，缺乏特定的方法来评估TDGS对洄游鱼类造成的生态危害。本研究评估了幼鱼在100%、110%、120%和130% TDG条件下，从静态环境到9.0 BL/s对GBT的脆弱性。在100%和110% TDG水平下，流速分别超过6.0和7.5 BL/s时发生死亡。当TDG浓度为120%和130%时，随着流速的增加，存活时间与流速呈近似反钟形曲线关系。在tdg含量为120%和130%的过饱和水中，幼鱼最大存活时间的最佳速度分别为3.0和4.5 BL/s。TDG水平和流速对突发游泳速度(Uburst)和临界游泳速度(Ucrit)均有显著影响。涉及GBT的病例显示Uburst和Ucrit大幅下降，超过6.0 BL/s, TDG水平超过120%。研究结果可为制定具体的长江流域洄游期水电运行管理策略和保护濒危物种提供参考。

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

Conservation Physiology Environmental Science-Management, Monitoring, Policy and Law

CiteScore

5.10

自引率

3.70%

发文量

审稿时长

11 weeks

期刊介绍： Conservation Physiology is an online only, fully open access journal published on behalf of the Society for Experimental Biology. Biodiversity across the globe faces a growing number of threats associated with human activities. Conservation Physiology will publish research on all taxa (microbes, plants and animals) focused on understanding and predicting how organisms, populations, ecosystems and natural resources respond to environmental change and stressors. Physiology is considered in the broadest possible terms to include functional and mechanistic responses at all scales. We also welcome research towards developing and refining strategies to rebuild populations, restore ecosystems, inform conservation policy, and manage living resources. We define conservation physiology broadly and encourage potential authors to contact the editorial team if they have any questions regarding the remit of the journal.

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