间歇性泄洪对鱼类躲避TDG过饱和胁迫空间的影响研究

王莉; 唐琦; 冀前锋; 梁瑞峰; 李克锋

doi:10.20040/j.cnki.1000-7709.2025.20232116

English Version Reader LoginJournal Login

您当前的位置：

首页 >

文章列表页 >

间歇性泄洪对鱼类躲避TDG过饱和胁迫空间的影响研究

更新时间：2026-02-25

- 间歇性泄洪对鱼类躲避TDG过饱和胁迫空间的影响研究
- Issue 2, Pages: 78-83(2025)
- 作者机构：
  
  1. 中国电建集团成都勘测设计研究院有限公司
  2. 四川水发勘测设计研究有限公司
  3. 长江水资源保护科学研究所
  4. 四川大学山区河流保护与治理全国重点实验室
- 作者简介：
- 基金信息：
- DOI：10.20040/j.cnki.1000-7709.2025.20232116
  CLC： TV135.2
- Published：2025
- 稿件说明：
移动端阅览
王莉, 唐琦, 冀前锋, et al. 间歇性泄洪对鱼类躲避TDG过饱和胁迫空间的影响研究[J]. 2025, (2): 78-83.
DOI：

王莉, 唐琦, 冀前锋, et al. 间歇性泄洪对鱼类躲避TDG过饱和胁迫空间的影响研究[J]. 2025, (2): 78-83. DOI： 10.20040/j.cnki.1000-7709.2025.20232116.

摘要

高坝泄洪造成的总溶解气体(TDG)过饱和威胁河道生态安全，目前尚无较好的解决方法。因此，采用平面二维数值模型，针对日调节水库运行特征，研究了不同间歇性泄洪工况下的TDG饱和度分布。结合鱼类对TDG饱和度的耐受能力，分析了间歇性泄洪工况下可供鱼类躲避区域面积的变化规律。结果表明，在等时段间歇性泄洪模式下，随着间歇时间增加，鱼类可躲避区域面积平均值逐渐增加，但可躲避区域面积最小值随间歇时间增加先减小后增大；在不等时段间歇性泄洪模式下，提高间歇时间与泄洪时间之比将增加鱼类可躲避区域面积，降低可躲避区域面积最小值。研究结果可为高坝工程制定生态调度提供方法参考，对维护河流生态安全具有一定的生态意义。

Abstract

关键词

Keywords

references

李然,冯镜洁,李克锋.水坝泄水溶解气体过饱和规律及减缓技术研究[M].科学出版社,2022.

Zhang Peng,Liu Qingyuan,Wang Yuanming,Zhu David Z.,Liang Ruifeng,Qin Leilei,Li Ran,Ji Qianfeng,Li Kefeng.River habitat assessment and restoration in high dam flood discharge systems with total dissolved gas supersaturation[J].Water Research,2022.

Liao Lei,Chen Min,An Ruidong,Li Jia,Tang Xiliang,Yan Zhongluan.Identifying three-dimensional swimming corridors for fish to match their swimming characteristics under different hydropower plant operations: Optimization of entrance location for fish-passing facilities.[J].The Science of the total environment,2022.

Ji Qianfeng,Li Kefeng,Wang Yuanming,Liang Ruifeng,Feng Jingjie,Li Ran,Zhu David Z.Swimming performance of a pelagic species in the Yangtze River under different exposure modes of the total dissolved gas supersaturation.[J].Conservation physiology,2022.

Li Pengcheng,Zhang Wenming,Burnett Nicholas J.,Zhu David Z.,Casselman Matthew,Hinch Scott G..Evaluating Dam Water Release Strategies for Migrating Adult Salmon Using Computational Fluid Dynamic Modeling and Biotelemetry[J].Water Resources Research,2021.

X Shen,B R Hodges,R Li,Z Li,J L Fan,N B Cui,H J Cai.Factors Influencing Distribution Characteristics of Total Dissolved Gas Supersaturation at Confluences[J].Water Resources Research,2021.

Huang Juping,Lu Jingying,Li Ran,Feng Jingjie,Yang Huixia.Numerical study on the cumulative effect of supersaturated TDG through the spillway[J].Ecohydrology & Hydrobiology,2021.

Qing Yun,Ma Qian,Li Ran,Shen Xia,Zhang XuJin,Han LinFeng.Influence of Channel Regulating Structures on the Transportation and Dissipation of Supersaturated Total Dissolved Gas[J].Advances in Civil Engineering,2021.

Qian Ma,Ran Li,Jingjie Feng,Jingying Lu,Qin Zhou.Ecological regulation of cascade hydropower stations to reduce the risk of supersaturated total dissolved gas to fish[J].Journal of Hydro-environment Research,2019.

Key Laboratory of Agricultural Soil and Water Engineering in Arid and Semiarid Areas, Ministry of Education, Northwest A&F University, Yangling, Shaanxi, 712100, China,State Key Laboratory of Hydraulics and Mountain River Engineering, Sichuan University, Chengdu, Sichuan, 610065, China,Center for Water and the Environment, University of Texas at Austin, Austin, TX, USA,State Key Laboratory of Hydraulics and Mountain River Engineering, Sichuan University, Chengdu, Sichuan, 610065, China,Key Laboratory of Agricultural Soil and Water Engineering in Arid and Semiarid Areas, Ministry of Education, Northwest A&F University, Yangling, Shaanxi, 712100, China,Key Laboratory of Agricultural Soil and Water Engineering in Arid and Semiarid Areas, Ministry of Education, Northwest A&F University, Yangling, Shaanxi, 712100, China.Experiment and simulation of supersaturated total dissolved gas dissipation: Focus on the effect of confluence types[J].Water Research,2019.

Yuanming Wang,Yong Li,Ruidong An,Kefeng Li.Effects of Total Dissolved Gas Supersaturation on the Swimming Performance of Two Endemic Fish Species in the Upper Yangtze River[J].Scientific Reports,2018.

Ma Qian,Li Ran,Feng Jingjie,Lu Jingying,Zhou Qin.Cumulative effects of cascade hydropower stations on total dissolved gas supersaturation.[J].Environmental science and pollution research international,2018.

Xia Shen,Ran Li,Juping Huang,Jingjie Feng,Ben R. Hodges,Kefeng Li,Weilin Xu.Shelter construction for fish at the confluence of a river to avoid the effects of total dissolved gas supersaturation[J].Ecological Engineering,2016.

Yuanming Wang,Kefeng Li,Jia Li,Ran Li,Yun Deng.Tolerance and Avoidance Characteristics of Prenant's Schizothoracin Schizothorax prenanti to Total Dissolved Gas Supersaturated Water[J].North American Journal of Fisheries Management,2015.

Goodwin R Andrew,Politano Marcela,Garvin Justin W,Nestler John M,Hay Duncan,Anderson James J,Weber Larry J,Dimperio Eric,Smith David L,Timko Mark.Fish navigation of large dams emerges from their modulation of flow field experience.[J].Proceedings of the National Academy of Sciences of the United States of America,2014.

J. Feng,R. Li,R. Liang,X. Shen.Eco-environmentally friendly operational regulation: an effective strategy to diminish the TDG supersaturation of reservoirs[J].Hydrology and Earth System Sciences,2014.

顾洋,刘四华,黄翔,杨军,冯镜洁,王远铭.河道型水库过饱和总溶解气体释放模型及应用研究[J].四川环境,2021(02).

冯翠霞,李娜,袁佺,刘晓庆,杨耀,施浩然.总溶解气体过饱和对胭脂鱼耐受性和回避性的影响现场试验[J].长江科学院院报,2020(10).

冀前锋,王远铭,梁瑞峰,李永,冯镜洁,王旭,李克锋.总溶解气体渐变饱和度下齐口裂腹鱼的耐受特征[J].工程科学与技术,2019(03).

宋明江,刘亚,龚全,刘晓庆,陈叶雨,赖见生.总溶解气体过饱和对达氏鲟急性致死效应[J].淡水渔业,2018(05).

袁佺,袁嫄,王远铭,李永,李克锋.长薄鳅对过饱和总溶解气体的回避特征研究[J].水生态学杂志,2017(04).

袁嫄,袁佺,王远铭,安瑞冬,李克锋.总溶解气体过饱和对长薄鳅的急性和慢性致死效应研究[J].工程科学与技术,2017(S2).

王远铭,张陵蕾,曾超,李克锋.总溶解气体过饱和胁迫下齐口裂腹鱼的耐受和回避特征[J].水利学报,2015(04).

Views

下载量

CSCD

Alert me when the article has been cited

提交

Tools

Publicity Resources

山区河流新型取水口滤网防淤堵效果模拟研究

均匀及不均匀步长台阶式溢洪道水流自掺气研究

清水条件下对口挑流坝局部冲刷的数值研究

锚阵布置对堤防溃口水流特性影响数值分析

入流角度对河道型侧式进/出水口水力特性影响规律研究

Related Author

曹湖沁

童思陈

王棚

王祥

张倩倩

武英豪

黄玉上

孙梦梦

Related Institution

重庆交通大学河海学院

重庆交通大学国家内河航道整治工程技术中心

贵州乌江水电开发有限公司乌江渡发电厂

黄河勘测规划设计研究院有限公司

水利部黄河流域水治理与水安全重点实验室(筹)

AI问答

⁰