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凸型坡面植被空间配置调控坡面流水动力学特性的机制

Gao Huiru Zhang Huilan Gu Fangzheng Yuan Weicheng

水土保持研究2026，Vol.33Issue(1)：120-128,9.

水土保持研究2026，Vol.33Issue(1)：120-128,9.DOI:10.13869/j.cnki.rswc.2026.01.005

凸型坡面植被空间配置调控坡面流水动力学特性的机制

Mechanisms of spatial configuration of vegetation on convex slopes regulating hydrodynamic characteristics of overland flow

Gao Huiru ¹Zhang Huilan ²Gu Fangzheng ¹Yuan Weicheng¹

作者信息

1. Key Laboratory of Soil and Water Conservation,National Forestry and Grassland Administration,Beijing Forestry University,Beijing 100083,China
2. Key Laboratory of Soil and Water Conservation,National Forestry and Grassland Administration,Beijing Forestry University,Beijing 100083,China||Jinyun Mountain Three Gorges Reservoir Area Forest Ecosystem National Research Station,Beijing Forestry University,Beijing 100083,China
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摘要

Abstract

[Objective]This study aims to determine the optimal location of vegetation belts for preventing soil erosion on convex slopes in the Loess Plateau,clarify how the coupling between slope morphology and vegetation layout regulates surface runoff hydrodynamics,and provide theoretical support for optimizing vegetation configurations in soil and water conservation practices.[Methods]An indoor flume experiment was conducted using three convex slopes with curvature radii of r1=6.1951 m,r2=9.2301 m,and r3=18.3853 m,and a flat slope as the control.Under five conditions of single-width flow rates of 3.1,4.2,5.3,6.4 and 7.5 L/(m·s),the hydrodynamic characteristics were systematically observed at different vegetation belt locations:the upper part of the slope(L1),the middle and upper part of the slope(L2),the middle part of the slope(L3),the middle and lower part of the slope(L4)and the lower part of the slope(L5).[Results](1)Vegetation cover significantly changed the overland flow regime.Compared with bare slopes,water level increased by 0.93～1.35 times,while flow velocity decreased by 2.6%～27.5%.On convex slopes,water depth along the longitudinal direction showed a nonlinear distribution pattern of first decreasing and then increasing,with a maximum decrease of 83.2%,and spatial heterogeneity was significantly higher than that on flat slopes.(2)The Reynolds number(Re)showed a strong positive linear correlation with flow rate(R2>0.99),but the influence of slope shape was not significant.Vegetation belts increased the resistance coefficient(f),promoting a transition to a tranquil flow regime.f and Re followed a power function relationship(R2>0.82).(3)Vegetation belt location influenced flow velocity regulation with significant spatial heterogeneity(p<0.01).Under flat slope conditions,the vegetation belt at L2 location showed the best deceleration effect,while on convex slopes,the L4 location exhibited the highest flow deceleration rate,with a maximum delay rate of 27.5%.[Conclusion]On convex slopes of the Loess Plateau,placing vegetation belts at the middle and lower part of the slope(L4)can significantly improve soil and water conservation effectiveness.Slope curvature can alter the distribution of flow potential energy along the slope,thereby strengthening the flow resistance effect of the vegetation belts.In practical applications,the location of vegetation belts should be optimized based on topographic characteristics.

关键词

凸型坡面/坡面流/水动力特性/植被配置/调控机制

Key words

convex slope/overland flow/hydrodynamic characteristics/vegetation configuration/regulatory mechanism

分类

农业科技

引用本文复制引用

Gao Huiru,Zhang Huilan,Gu Fangzheng,Yuan Weicheng..凸型坡面植被空间配置调控坡面流水动力学特性的机制[J].水土保持研究,2026,33(1):120-128,9.

基金项目

内蒙古自治区揭榜挂帅项目"不同生态修复空间风沙水沙靶向阻控技术"(2024JBGS0023) （2024JBGS0023）

国家自然科学基金项目"植被结构影响下的坡面流挟沙力动力机制研究"(52279056) （52279056）

水土保持研究

ISSN：1005-3409

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