机构地区:[1]三峡大学,理学院,宜昌443002 [2]三峡大学、三峡库区生态环境教育部工程研究中心,宜昌443002 [3]中国科学院生态环境研究中心,北京100085
出 处:《生态学报》2015年第8期2652-2658,共7页Acta Ecologica Sinica
基 金:楚天学者基金(KJ2010B002);国家自然科学基金(50979049,51009082,51210105017);中国博士后科学基金(20100480487);水利部公益性行业科研专项(201201030,201201028-02);中国长江三峡集团公司科研项目(SDHZ2011117);农业部海洋与河口渔业资源及生态重点开放试验室开放基金(20090011);贵州北盘江电力股份有限公司合作项目(SDHZ2012137);水利部水工程生态效应与生态修复重点试验室开放基金
摘 要:鱼类能否通过水流速度障碍直接影响过鱼设施的过鱼效果。利用计算机技术,综合水力因素、鱼类行为、地理特征及环境因子,展开鱼类通过水流速度障碍的模拟,有助于过鱼设施的优化设计。以国外涵洞式鱼道模拟软件Fish Xing为切入点,结合主要模块和关键因子,对我国特有鱼类鲢幼鱼进行模拟,得到鲢通过不同水流速度障碍的成功率;对比鲢在物理模型中的游泳表现,从模型主要模块和影响鱼类游泳表现的关键因子角度,分析影响鱼类通过水流速度障碍模拟的因素。结果表明,Fish Xing软件不能精确模拟鲢通过水流速度障碍的表现。分析表明,该软件在地理要素、管道特征和水力信息等参数方面具备独特的优势,但对我国鱼类有一定局限性,主要体现在鱼类的生物学信息如鱼类游泳特征等方面存在不足;进行鱼过障碍的模拟需要深入研究目标鱼类的生理特征、游泳能力及其与水力环境因子的响应关系。Whether fish can overcome water velocity barriers affects their passage at manmade fishways. By integrating hydraulics, fish behavior, geographic characteristics and environmental factors, we simulated how fish pass through different water velocity barriers. We studied the software FishXing and focused on the software's main module and key factors in fish swimming simulation, using the silver carp which is native to China, as test object for simulation and analysis. These simulation will help to improve the design of fish passage. FishXing is a unique software tool for the assessment and design of culverts for fish passage in the United States. It models the complexities of culvert hydraulics and fish performance for a variety of species and configurations. The software models fish swimming performance against culvert hydraulics across a range of expected stream discharges, slopes with different substrate and perch heights. Water surface profiles can be calculated for a variety of culvert shapes using gradually varied flow equations. The program then designates the swimming mode or swimming velocity or leap behavior according to current velocities. The output includes tables and graphs summarizing the water velocities, water depths, and outlet conditions, and the list of factors that limits fish passage for each culvert at a specific flow condition. It can also generate video-based animations. This study tested if FishXing can be used to estimate the swimming performance of silver carp. In our experimental tests, the water velocity in a open channel flume was increased from 0.4 m/s to 1.2m/s at 0.2m/s intervals, which extended beyond the range of critical swimming speeds recorded in juvenile silver carp. A camera was set above the water tank to record fish swimming throughout the experiments. Silver carp were tested one at a time and we recorded whether they could swim across a lm distance at a given the water flow within 5 min. The FishXing software was then used to evaluate the performance of silver carp at t
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