Abstract
As the most widely distributed river form in the world, meandering river is of great significance for stabilizing the physical structure of the river and maintaining ecosystem. To quantitatively study the positive effects of meandering rivers, the Chishui River, a natural tributary of the Yangtze River in Southwest China, is selected as the research area, and two typical river sections with different meandering degrees are selected as the research objects. Based on the field survey data, the local endemic fish Procypris rabaudi (Tchang) is considered the object fish, and a hydrodynamic model was used to simulate the distribution of water depth and flow velocity in certain river reaches at different flows. By introducing the weighted usable area (WUA) and hydraulic unit diversity index, combined with the suitability curves of the study species, the hydraulic characteristics and habitat suitability changes of two river reaches under different flows are summarized and analyzed, and the hydrogeomorphological process of the studied river section is generalized. With the change in discharge, a positive correlation is observed between the maximum velocity and depth of the meandering river and the discharge, whereas the WUA and hydraulic unit index of the meandering river have relatively small changes. Under low discharge, the distribution of pool-riffle sequences can be seen in the meandering reach, which is essential to improve the ecological suitability and stability of the river. This study provides scientific sustentation for river restoration and fish conservation.
Highlights
Rivers are a product of the Earth’s evolutionary process and play an important role in the evolution of the Earth
Meandering rivers contain a variety of spatially heterogeneous geomorphic units, which are important for stabilizing the physical structure of rivers and maintaining ecosystems—these are gradually becoming a research hotspot in river ecological geomorphology [22]
Regarding the relationship between hydraulic characteristics and sinuosity, the data in this study confirms that a meandering river reach has richer velocity and depth conditions, and the regulation ability under high flow is significantly better than that of a straight river reach
Summary
Rivers are a product of the Earth’s evolutionary process and play an important role in the evolution of the Earth. Monotonous, low-meander reaches in the same area exhibit low habitat suitability for unstable flow conditions, while complexmeander, braided morphological reaches provide high spatial heterogeneity and are more suitable for habitats with unstable flow conditions [6]. Methods: Based on the field survey data, the local endemic fish Procypris rabaudi (Tchang) is considered the object fish, and a hydrodynamic model was used to simulate the distribution of water depth and flow velocity in certain river reaches at different flows. By introducing the weighted usable area (WUA) and hydraulic unit diversity index, combined with the suitability curves of the study species, the hydraulic characteristics and habitat suitability changes of two river reaches under different flows are summarized and analyzed, and the hydrogeomorphological process of the studied river section is generalized. Conclusions: This study provides scientific sustentation for river restoration and fish conservation
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