Soil Erosion Process Under the Combined Action of Water and Gravity on Red Soil Slope

doi:10.13870/j.cnki.stbcxb.2024.06.031

Home > Archive>Volume 38, Issue 6, 2024 >54-60. DOI:10.13870/j.cnki.stbcxb.2024.06.031

Soil Erosion Process Under the Combined Action of Water and Gravity on Red Soil Slope
DOI:
                        10.13870/j.cnki.stbcxb.2024.06.031
                    
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Author:
                        ZHANG Xiaohan, MA Lan, YU Chong, WU Zhiwei, WANG JieZHANG Xiaohan, MA Lan, YU Chong, WU Zhiwei, WANG Jie
1. School of Soil and Water Conservation, Beijing Forestry University, Beijing 100083, China;
2. Key Laboratory of State Forestry and Grassland Administration on Soil and Water Conservation, Beijing Forestry University, Beijing 100083, China;
3. Jixian Forest Ecosystem National Observation and Research Station, CNERN, Beijing Forestry University, Beijing 100083, China;
4. College of Water Sciences, Beijing Normal University, Beijing 100875, China;
5. Baoding Soil and Water Conservation Experimental Station, Baoding, Hebei 071051, China
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[Objective] Soil erosion is one of the most important ecological and environmental problems in the world. It is of great significance to reveal the coupling mechanism of water and gravity combined erosion by analyzing the water and sediment process of water and gravity combined erosion under different conditions and its synergistic change law with gravel content. [Methods] Two types of soil, with no gravel and gravel content of 40%, were set up. Through the method of artificial simulation of continuous rainfall in the field, the influence of gravel content on soil erosion process and its synergistic change rule under the combined action of water and gravity were discussed. [Results] (1) Gravel-free soil did not produce runoff under two rainfalls. The gravel-containing soil did not produce runoff under the first rainfall, but started to produce runoff at 36 min under the second rainfall. The initial runoff time basically tended to advance with the increase of rainfall times, and the range of variation was 8~36 min. (2) The total runoff of each rainfall in the gravel soil was 8.97, 63.9, 70.8, 79.7 and 127.5 L, respectively. The runoff process in the later stage of each rainfall was basically the same, and the runoff rate decreased gradually. (3) The total sediment yield of each rainfall was 0.26, 10.6, 5.74, 3.15, 9.37 g, the erosion rate of the gravel soil fluctuated greatly under each rainfall, but the overall trend decreased in the later stage of rainfall. (4) Gravity erosion occurred in the non-gravel soil during the second rainfall. The erosion amount was 106.37×10³cm³, and the deposition amount was 76.28×10³cm³. Under the third rainfall, a small area of collapse occurred in the middle and lower part of the gravel soil, and the amount of gravity erosion was 6.08×10³cm³. [Conclusion] The research results can provide a theoretical basis for analyzing the coupling mechanism of water and gravity combined erosion forces.

Key words:red soil|water erosion|gravity erosion|gravel content|erosion sediment yield

Reference

[1] 丁琳,黄婷婷,秦伟,等.西南高山峡谷区土壤侵蚀空间分异特征[J].泥沙研究,2023,48(6):51-58. DING L, HUANG T T, QIN W, et al. Spatial variation of soil erosion in Southwest Alpine Canyon area[J].Journal of Sediment Research,2023,48(6):51-58.

[2] 冯笛珂,符素华,丁建新,等.北京市近40年来降雨侵蚀力时空变异特征[J].水土保持学报,2024,38(4):132-142. FENG D K, FU S H, DING J X, et al. Temporal and spatial variations of rainfall erosivity in Beijing in recent 40 years[J].Journal of Soil and Water Conservation,2024,38(4):132-142.

[3] 赖金林,齐实,廖瑞恩,等.2000—2019年西南高山峡谷区植被变化对气候变化和人类活动的响应[J].农业工程学报,2023,39(14):155-163. LAI J L, QI S, LIAO R E, et al. Vegetation change responses to climate change and human activities in southwest alpine canyon areas of China from 2000 to 2019[J].Transactions of the Chinese Society of Agricultural Engineering,2023,39(14):155-163.

[4] 赵兴阳,徐向舟,蒋云钟,等.暴雨条件下植被对黄土沟坡重力侵蚀的影响[J].水土保持学报,2020,34(1):58-63. ZHAO X Y, XU X Z, JIANG Y Z, et al. Effects of vegetation for gravity erosion on the loess gully sidewall under the intense rainfalls[J].Journal of Soil and Water Conservation,2020,34(1):58-63.

[5] 林杰,张相,姜姜,等.水力侵蚀过程中土壤有机碳循环研究进展[J].南京林业大学学报(自然科学版),2022,46(6):187-194. LIN J, ZHANG X, JIANG J, et al. Progress of soil organic carbon cycling during hydraulic erosion[J].Journal of Nanjing Forestry University (Natural Science Edition),2022,46(6):187-194.

[6] 余恩旭,张明芳,蒋志魏,等.岷江上游土壤侵蚀时空演变特征及其成因分析[J].水土保持研究,2023,30(1):1-10. YU E X, ZHANG M F, JIANG Z W, et al. Spatiotemporal dynamics of soil erosion and associated influencing factors in the upper Minjiang River watershed[J].Research of Soil and Water Conservation,2023,30(1):1-10.

[7] MONTGOMERY D R. Soil erosion and agricultural sustainability[J].Proceedings of the National Academy of Sciences of the United States of America,2007,104(33):13268-13272.

[8] 高航,徐向舟,肖培青,等. 暴雨条件下植被对沟坡重力侵蚀速率和规模的影响[J].水土保持研究,2021,28(6):17-24. GAO H, XU X Z, XIAO P Q, et al. Effects of vegetation on scale and rate of gravity erosion on the gully sidewall under heavy rainfall[J].Soil and Water Conservation Research,2021,28(6):17-24.

[9] 喻涵,周子渊,王一,等.极端暴雨下典型小流域重力侵蚀的分布及影响因素[J].水土保持学报,2023,37(4):69-74. YU H, ZHOU Z Y, WANG Y, et al. Distribution and influencing factors of gravitational erosion in typical small watershed under extreme rainstorm[J].Journal of Soil and Water Conservation,2023,37(4):69-74.

[10] 廖义善,唐常源,袁再健,等.南方红壤区崩岗侵蚀及其防治研究进展[J].土壤学报,2018,55(6):1297-1312. LIAO Y S, TANG C Y, YUAN Z J, et al. Research progress on Benggang erosion and its prevention measure in red soil region of southern China[J].Acta Pedologica Sinica,2018,55(6):1297-1312.

[11] 王蕙,胡秀君,山成菊.雨强和坡度对嵌套砾石红壤坡面产流产沙的影响[J].水土保持学报,2018,32(4):24-29. WANG H, HU X J, SHAN C J. Effect of rainfall intensity and slope gradient on runoff and sediment yield on the red soil slope nested gravel-sand[J].Journal of Soil and Water Conservation,2018,32(4):24-29.

[12] CERD A. Effects of rock fragment cover on soil infiltration, interrill runoff and erosion[J].European Journal of Soil Science,2001,52(1):59-68.

[13] 杨忠平,李勇华,李诗琪,等.不同含石率土石混合体水力侵蚀分异特征及机制[J].岩石力学与工程学报,2024,43(1):133-145. YANG Z P, LI Y H, LI S Q, et al. Characteristics and mechanisms of hydraulic erosion differentiation of soil-rock mixtures with different rock content[J].Journal of Rock Mechanics and Engineering,2024,43(1):133-145.

[14] 田大浪,谢强,宁越,等.间断级配砂砾石土的渗透变形试验研究[J].岩土力学,2020,41(11):3663-3670. TIAN D L, XIE Q, NING Y, et al. Experimental investigation on seepage deformation of gap-graded sand-gravel soils[J].Rock and Soil Mechanics,2020,41(11):3663-3670.

[15] 赖金林,齐实,崔冉冉,等.西南高山峡谷区植被变化及影响因素分析[J].环境科学,2023,44(12):6833-6846. LAI J L, QI S, CUI R R, et al. Analysis of vegetation change and influencing factors in southwest alpine canyon area[J].Environmental Science,2023,44(12):6833-6846.

[16] 马世国,韩同春,徐日庆,等.强降雨条件下含倾斜基岩层的边坡稳定分析[J].中南大学学报(自然科学版),2015,46(7):2673-2678. MA S G, HAN T C, XU R Q, et al. Slope stability analysis of inclined bedrock layer containing inclined bedrock under strong rainfall conditions[J].Journal of Central South University (Natural Science Edition),2015,46(7):2673-2678.

[17] XIE M W, ESAKI T, CAI M F. A time-space based approach for mapping rainfall-induced shallow landslide hazard[J].Environmental Geology,2004,46(6):840-850.

[18] CROSTA G. Regionalization of rainfall thresholds: An aid to landslide hazard evaluation[J].Environmental Geology,1998,35(2):131-145.

[19] 王丽园,查轩,黄少燕,等.不同雨强条件下坡度对红壤坡面侵蚀的影响[J].水土保持学报,2017,31(5):40-44. WANG L Y, ZHA X, HUANG S Y, et al. Effect of slope gradients on red soil erosion under different rainfall intensity[J].Journal of Soil and Water Conservation,2017,31(5):40-44.

[20] 胡辉,张金池,朱丽珺,等.不同降雨条件对江苏高沙土地区水土流失的影响[J].南京林业大学学报(自然科学版),2012,36(3):149-152. HU H, ZHANG J C, ZHU L J, et al. Effects of different rainfall conditions on soil erosion in high sandy soil areas of Jiangsu[J].Journal of Nanjing Forestry University (Natural Science Edition),2012,36(3):149-152.

[21] 张会茹,郑粉莉.不同降雨强度下地面坡度对红壤坡面土壤侵蚀过程的影响[J].水土保持学报,2011,25(3):40-43. ZHANG H R, ZHENG F L. Effect of slope gradients on erosion from a red soil hillslope under different rainfall intensity[J].Journal of Soil and Water Conservation,2011,25(3):40-43.

[22] 梁洪儒,余新晓,樊登星,等.砾石覆盖对坡面产流产沙的影响[J].水土保持学报,2014,28(3):57-61. LIANG H R, YU X X, FAN D X, et al. Effect of gravel-sand muchling on slope runoff and sediment yield[J].Journal of Soil and Water Conservation,2014,28(3):57-61.

[23] 耿晓东,郑粉莉,刘力.降雨强度和坡度双因子对紫色土坡面侵蚀产沙的影响[J].泥沙研究,2010(6):48-53. GENG X D, ZHENG F L, LIU L. Influence of rainfall intensity and slope on erosion and sand production on purple soil slopes[J].Sedimentation Research,2010(6):48-53.

[24] ZHAO X N, WU P T, CHEN X L, et al. Runoff and sediment yield under simulated rainfall on hillslopes in the Loess Plateau of China[J].Soil Research,2013,51(1):50-58.

[25] 刘卫涛,曹文贵,张运强.考虑土体非饱和特性的斜坡降雨入渗模型及边坡稳定性分析[J].长江科学院院报,2021,38(4):102-109. LIU W T, CAO W G, ZHANG Y Q. Rainfall infiltration modeling and slope stability analysis of slopes considering unsaturated soil properties[J].Journal of Changjiang Academy of Sciences,2021,38(4):102-109.

[26] 李建明,刘晨曦,张长伟,等.土质和砾石对堆积体入渗和产沙的影响试验研究.长江科学院院报,2024,https://link.cnki.net/urlid/42.1171.TV.20240507.1405.002. LI J M, LIU C X, ZHANG C W, et al. Experimental study on the effects of soil quality and gravel on infiltration and sand production in the accumulation.Journal of Changjiang Academy of Sciences,2024,https://link.cnki.net/urlid/42.1171.TV.20240507.1405.002.

[27] 刘纪根,路良伟,童晓霞,等.连续模拟降雨下不同底部透水性和坡度条件的坡面径流产沙特征.长江科学院院报,2024, https://link.cnki.net/urlid/42.1171.TV.20240521.1619.010. LIU J G, LU L W TONG X X, et al. Characteristics of sand production from slope runoff under continuous simulated rainfall with different bottom permeability and slope gradient.Journal of Changjiang Academy of Sciences,2024, https://link.cnki.net/urlid/42.1171.TV.20240521.1619.010.

[28] 杨玉梅,郑子成,李廷轩.不同土地利用方式下土壤抗冲性动态变化特征及其影响因素[J].水土保持学报,2010,24(4):64-68. YANG Y M, ZHENG Z C, LI T X. Soil anti-scourability dynamic variation characteristics and its influencing factors under different land use types[J].Journal of Soil and Water Conservation,2010,24(4):64-68.

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Received:September 14,2024
Revised:September 24,2024
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Online: January 17,2025
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