Effects of different vegetation litter cover on hydrodynamic characteristics of soil runoff-sediment yield in Taiyi Mountain area of northern China

IF 3.7 2区环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES

International Journal of Sediment Research Pub Date : 2025-04-24 DOI:10.1016/j.ijsrc.2025.04.004

Yuan He , Zihao Fan , Wei Zhao , Zhihao Tian , Dingmeng Hu , Zixu Zhang , Yucun Lu , Peng Gao

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Abstract

Vegetation litter is effective in mitigating surface soil erosion caused by rainfall and runoff. Studying the runoff, sediment yield, and hydrodynamic characteristics of the soil covered by vegetation litter cover is crucial to understanding how vegetation litter cover affects soil erosion. To assess the impacts of different types of vegetation litter on soil erosion in the Taiyi Mountain area of northern China, Quercus acutissima Carruth. (QAC), Pinus densiflora Siebold & Zucc. (PDS), Vitex negundo var. heterophylla Rehd. (VNH), and Themeda japonica Willd. (TJW) litter covered soil were the research subjects, and no-litter covered soil was used as a control check (CK). The process of erosion of soil covered by different vegetation litter under different rainfall intensities (50, 75, and 100 mm/h) with 60 min of rainfall was studied. It was found that compared with CK, the runoff and sediment yield rates of litter-covered soil decreased by 18.95%–44.15% and 21.42%–60.16%, respectively. In terms of the effect on reducing the runoff and sediment yield rate, the performance is QAC > PDS > VNH > TJW. Under varying rainfall intensities, the patterns of runoff and sediment yield fluctuate as rainfall duration increases. Likewise, with the increase in rainfall intensity, the runoff yield rate and sediment yield rate also show an increasing trend. The runoff yield rate was increased by 3.21 and 1.49 times under 100 mm/h compared with 50 and 75 mm/h, respectively. Additionally, there were 16.56 and 1.44 times, respectively, and increases in the sediment yield rate. Hydrodynamically, litter cover increases the Darcy-Weisbach friction coefficient by 1.49–11.15 times, increases the shear stress threshold for initiating soil erosion by about 6.67%–38.01%. This further led to a reduction in the runoff flow velocity and stream power, by approximately 14.87%–67.26% and 7.38%–61.54%, respectively, thereby reducing the degree of soil erosion. The current research demonstrates that the characteristics of soil erosion and sediment yield under vegetation litter cover can be more accurately described by the stream power among the hydrodynamic parameters.

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不同植被凋落物覆盖对太邑山地区土壤流沙产水动力特征的影响

植被凋落物对减轻降雨和径流引起的地表土壤侵蚀是有效的。研究凋落物覆盖土壤的产流、产沙和水动力特征对理解凋落物覆盖对土壤侵蚀的影响至关重要。以太邑山地区不同类型植被凋落物对土壤侵蚀的影响为研究对象。（QAC）， Pinus densiflora Siebold &；调查。（PDS），牡荆花变种。（VNH）和Themeda japonica wild。研究对象为凋落物覆盖土壤（TJW），对照对照为无凋落物覆盖土壤（CK）。研究了不同降雨强度（50、75、100 mm/h）和60 min降雨条件下不同植被凋落物覆盖土壤的侵蚀过程。结果表明，与对照相比，凋落物覆盖土壤产流率和产沙率分别降低18.95% ~ 44.15%和21.42% ~ 60.16%。在降低径流产沙率方面，表现为QAC >；PDS祝辞VNH祝辞TJW。在不同降雨强度下，径流产沙模式随降雨持续时间的增加而波动。同样，随着降雨强度的增加，产流率和产沙率也呈增加趋势。与50和75 mm/h相比，100 mm/h下产流率分别提高了3.21倍和1.49倍。产沙速率分别增加了16.56倍和1.44倍。水动力方面，凋落物覆盖使Darcy-Weisbach摩擦系数提高了1.49 ~ 11.15倍，使土壤侵蚀起始剪应力阈值提高了6.67% ~ 38.01%。这进一步导致径流流速降低14.87% ~ 67.26%，河流功率降低7.38% ~ 61.54%，从而降低了土壤侵蚀程度。目前的研究表明，在水动力参数中，水流功率能更准确地描述植被凋落物覆盖下的土壤侵蚀产沙特征。

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来源期刊

International Journal of Sediment Research 环境科学-环境科学

CiteScore

6.90

自引率

5.60%

发文量

审稿时长

74 days

期刊介绍： International Journal of Sediment Research, the Official Journal of The International Research and Training Center on Erosion and Sedimentation and The World Association for Sedimentation and Erosion Research, publishes scientific and technical papers on all aspects of erosion and sedimentation interpreted in its widest sense. The subject matter is to include not only the mechanics of sediment transport and fluvial processes, but also what is related to geography, geomorphology, soil erosion, watershed management, sedimentology, environmental and ecological impacts of sedimentation, social and economical effects of sedimentation and its assessment, etc. Special attention is paid to engineering problems related to sedimentation and erosion.