长江中游宜昌江段重要鱼类栖息试验地流场营造技术

Hydrodynamic creation technique for important fish habitat experimental sites in the Yichang section of the middle reaches of the Yangtze River

  • 摘要:
    目的 栖息地水动力特性与鱼类产卵、孵化等关键行为密切相关,依托自然生境明确鱼类关键生活史水动力需求是开展生态修复的重要科学基础。
    方法 选取中华鲟为研究对象,以宜昌江段胭脂坝分汊河道下游段天然鱼类栖息地作为研究区域,定量分析了无自然流速和低自然流速情况下造流不同开启方式对分汊河道试验区水动力特征的影响,探讨了不同流量条件下试验区适宜中华鲟栖息的流场面积变化规律,构建了可控自然环境下的重要鱼类水动力生境需求试验方法。
    结果 结合来流条件和造流泵启闭的流场营造方法能够有效模拟和优化中华鲟栖息地的水动力条件,满足中华鲟的生境水动力需求。不同试验条件下均存在高流速(>0.6 m/s)兼具一定大小涡量及湍动能的适宜栖息区域,适宜面积随来流及造流泵增加呈现显著增加趋势。
    结论 可通过合理调控水动力条件有效扩大鱼类适宜栖息范围,为鱼类不同行为需求提供适宜的流场环境。研究提出了在鱼类偏好天然栖息环境开展原位可控的鱼类需求水动力营造试验,为明晰长江中游重要鱼类生长繁殖的水动力需求提供了可复制、可推广的技术路径,为河流生态系统鱼类栖息地修复提供新的研究范式和技术方法。

     

    Abstract: Understanding the hydrodynamic requirements of key life-history stages of fish in their natural habitats is not only a fundamental scientific basis for comprehending fish ecological habits but also a core prerequisite for implementing river ecosystem restoration and biodiversity conservation. This study focuses on the Acipenser sinensis in the middle reaches of the Yangtze River, selecting the natural fish habitat at Yanzhiba, a bifurcated channel in the Yichang section, as the study area. This region serves as an important spawning and habitat ground for the Acipenser sinensis, where hydrodynamic conditions significantly influence its reproductive behavior. The research systematically analyzes the impact of different flow-inducing methods on the hydrodynamic characteristics of the bifurcated channel test area under two typical hydrological conditions: no natural flow and low natural flow. Through quantitative analysis, the study explores the variation patterns of suitable habitat areas for the Chinese Sturgeon under different flow conditions and establishes an experimental method for determining the hydrodynamic habitat requirements of key fish species in a controlled natural environment. The results demonstrate that combining natural inflow conditions with the operation of flow-inducing pumps can effectively simulate and optimize the hydrodynamic environment for Chinese Sturgeon habitats. Under experimental conditions, suitable habitat areas with high flow velocities (>0.6 m/s), accompanied by specific levels of vorticity and turbulent kinetic energy, were formed. Furthermore, the suitable habitat area shows a significant increasing trend with the enhancement of natural inflow and flow-inducing pump operation, indicating that rational regulation of hydrodynamic conditions can effectively expand the suitable habitat range and enhance the potential for fish population recovery. This method not only meets the hydrodynamic demands of fish habitat experiments in controlled natural environments but also provides a new research paradigm and technical approach for restoring fish habitats in river ecosystems. By integrating natural inflow with artificial flow-inducing techniques, the research achieves precise regulation of complex hydrodynamic environments, offering scientific support for the conservation and habitat restoration of endangered species like the Chinese Sturgeon.

     

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