Synergistic effects of vegetation restoration and check dams on water erosion in a slope‐gully system

地表径流 淤积 植被与边坡稳定性 植被(病理学) 水文学(农业) 腐蚀 环境科学 植被恢复 地质学 边坡稳定性 冲沟侵蚀 沉积物 土壤科学 岩土工程 地貌学 生态学 医学 病理 土地复垦 生物
作者
Lulu Bai,Peng Shi,Zhanbin Li,Peng Li,Zhun Zhao,Jingbin Dong,Lingzhou Cui,Hongbo Niu,Pengju Zu,Manhong Cao
出处
期刊:Land Degradation & Development [Wiley]
卷期号:34 (12): 3581-3592 被引量:19
标识
DOI:10.1002/ldr.4704
摘要

Abstract Restoring vegetation and constructing check dams are important measures for controlling water erosion in slope‐gully systems. However, percolation through the dam body could lead to shortened runoff paths in the gully. Moreover, the synergistic effects of vegetation patterns and siltation‐induced runoff path length decrease (RPLD) in slope‐gully systems on reducing water erosion remain unclear. In this study, 20 physical models of slope‐gully systems were constructed to quantitatively evaluate the synergistic effect of these measures under simulated rainfall. The models included four slope vegetation patterns (no vegetation, up‐slope, middle‐slope, and down‐slope) and five levels of RPLD in the gully (0, 1, 2, 3, and 4 m). Owing to synergistic effects, combined measures led to a more considerable reduction in soil and water loss than a single measure. Furthermore, the synergistic effect was related to vegetation patterns and shorter siltation‐induced runoff paths. The mean synergistic effect produced the following runoff yield order: down‐slope (2.84%) > middle‐slope (2.81%) > up‐slope (1.78%); and 4 m (3.18%) > 3 m (2.66%) > 2 m (2.29%) > 1 m (1.78%). The sediment yields were in the following order: down‐slope (18.15%) > middle‐slope (12.63%) > up‐slope (6.67%), and 4 m (14.56%) > 3 m (12.82%) > 2 m (11.73%) > 1 m (10.82%). These results suggest that revegetation of the lower parts of the slope, along with check dams, will be more effective for controlling soil erosion. Such synergistic effects should be considered in future soil erosion modeling.
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