PDF下载

[1]梁止水,陈煜,孙悦,等.砒砂岩坡面侵蚀产沙规律及多元回归估算模型研究[J].水土保持研究,2024,31(02):11-17.
　Liang Zhishui,Chen Yu,Sun Yue,et al.Study on the Pattern of Erosion and Sediment Yield and Multiple Regression Estimation Model of Pisha Sandstone Slope[J].Research of Soil and Water Conservation,2024,31(02):11-17.

点击复制

砒砂岩坡面侵蚀产沙规律及多元回归估算模型研究

《水土保持研究》[ISSN:1005-3409/CN:61-1272/P] 卷: 31 期数: 2024年02期页码: 11-17 栏目: 出版日期: 2024-03-20

Title:: Study on the Pattern of Erosion and Sediment Yield and Multiple Regression Estimation Model of Pisha Sandstone Slope

文章编号:: 1005-3409(2024)02-0011-07

作者:: 梁止水¹, 陈煜¹, 孙悦¹, 高海鹰¹, 吴智仁²; (1.东南大学土木工程学院, 南京 210096; 2.江苏大学环境与安全工程学院, 江苏镇江 212013)

Author(s):: Liang Zhishui¹, Chen Yu¹, Sun Yue¹, Gao Haiying¹, Wu Zhiren²; (1.School of Civil Engineering, Southeast University, Nanjing 210096, China; 2.School of the Environment and Safety Engineering, Jiangsu University, Zhenjiang, Jiangsu 212013, China)

关键词:: 砒砂岩; 模拟降雨; 侵蚀产沙; 多元非线性模型

Keywords:: Pisha sandstone; simulated rainfall; sediment yield; nonlinear mode

分类号:: S157.1

文献标志码:: A

摘要:: [目的]揭示砒砂岩坡面侵蚀产沙规律并初步建立侵蚀产沙估测模型,为创新砒砂岩区水土流失综合治理新措施提供参考。[方法]利用室内人工模拟降雨试验,依据18个工况的试验数据,定量研究了不同降雨强度、植被覆盖度和坡度3个因素对砒砂岩坡面降雨侵蚀产沙量的影响规律,并通过多元非线性回归方程建立了坡面侵蚀产沙预测模型。[结果](1)砒砂岩坡面产沙规律曲线均属于平缓型,每分钟产沙量随降雨历时呈现逐渐增大并直至稳定。(2)坡面产沙量受降雨强度的影响最为强烈,植被其次,坡度最小,且降雨强度对植被的减沙效益具有一定的影响,随着降雨强度的增加,低覆盖度的植被减沙效益降低。(3)产沙量同降雨强度呈幂函数关系,而同坡度和植被覆盖度在一定范围内呈线性关系。[结论]通过多元非线性回归方程所建立的侵蚀产沙估算方程的拟合相关系数(R²)可达到0.980,可以有效反映坡面侵蚀产沙量与各个影响因素的相互关系,具有较高的适用性。

Abstract:: [Objective] The aims of this study are to explore the pattern of erosion on Pisha sandstone slope and establish the estimation model, and to provide reference for innovating the new measures of soil erosion control in Pisha sandstone area. [Methods] The effects of rainfall intensity(20, 50 and 80 mm/h), vegetation coverage(10%, 30% and 50%)and slope(20°, 30° and 40°)on sediment yield pattern were examined, and an estimation model of erosion and sediment yield on slope was established through multiple nonlinear regression equation. [Results] The sediment yield curve of the Pisha sandstone slope appeared a gentle growth, and the sediment yield in per minute increased gradually with the duration of rainfall and then became stable. Among the factors, the sediment yield was most strongly affected by rainfall intensity, followed by vegetation, and the smallest effect factor is slope. Additionally, the sediment reduction efficiency of vegetation was also affected by rainfall intensity. As rainfall intensity increased, the sediment reduction efficiency of vegetation with low coverage decreased. The sediment yield had a power function relationship with rainfall intensity, while it had a linear relationship with slope gradient and vegetation coverage within a certain range. A multivariate nonlinear regression model for erosion and sediment yield of Pisha sandstone slope was established. [Conclusion] The fitting correlation coefficient R² of the established erosion and sediment yield estimation equation reaches 0.980 under the specific conditions of the standard plot, which can effectively reflect the relationship between slope erosion and sediment yield and various influencing factors, and the estimation model has high applicability.

参考文献/References:

[1] 王愿昌,吴永红,寇权,等.砒砂岩分布范围界定与类型区划分[J].中国水土保持科学,2007,5(1):14-18.
Wang Y C, Wu Y H, Kou Q, et al. Definition of arsenic rock zone borderline and its classification[J]. Science of Soil and Water Conservation, 2007,5(1):14-18.
[2] 秦富仓,杨振奇,李龙.砒砂岩区土壤侵蚀机理与生态修复技术研究进展[J].北京林业大学学报,2020,42(12):142-150.
Qin F C, Yang Z Q, Li L. Research progress on soil erosion mechanism and ecological restoration technology in feldspathic sandstone region[J]. Journal of Beijing Forestry University, 2020,42(12):142-150.
[3] Liang Z S, Wu Z R, Yao W Y, et al. Pisha sandstone: Causes, processes and erosion options for its control and prospects[J]. International Soil and Water Conservation Research, 2019,7(1):1-8.
[4] 姚文艺,肖培青,王愿昌,等.砒砂岩区侵蚀治理技术研究进展[J].水利水电科技进展,2019,39(5):1-9,15.
Yao W Y, Xiao P Q, Wang Y C, et al. Research progress on soil erosion control technologies in Pisha sandstone areas[J]. Advances in Science and Technology of Water Resources, 2019,39(5):1-9,15.
[5] 苏涛,张兴昌.砒砂岩陡坡面径流水动力学特征[J].水土保持学报,2012,26(1):17-21.
Su T, Zhang X C. Hydraulic characteristics of steep slope runoff of pisha sandstone[J]. Journal of Soil and Water Conservation, 2012,26(1):17-21.
[6] 苏涛,张兴昌,王仁君,等.植被覆盖对砒砂岩地区边坡侵蚀的减流减沙效益[J].水土保持学报,2015,29(3):98-101,255.
Su T, Zhang X C, Wang R J, et al. Effect of vegetation coverage on slope runoff and sediment reduction in Pisha sandstone region[J]. Journal of Soil and Water Conservation, 2015,29(3):98-101,255.
[7] 杨吉山,姚文艺,郑明国,等.原状砒砂岩坡面产流产沙规律试验研究[J].人民黄河,2017,39(1):98-101,109.
Yang J S, Yao W Y, Zheng M G, et al. Experimental study on runoff production and sediment yield process on the undisturbed sandstone slopes[J]. Yellow River, 2017,39(1):98-101,109.
[8] Liang Z S, Liu H W, Zhao Y B, et al. Effects of rainfall intensity, slope angle, and vegetation coverage on the erosion characteristics of Pisha sandstone slopes under simulated rainfall conditions[J]. Environmental Science and Pollution Research, 2020,27(15):17458-17467.
[9] 杨振奇,郭建英,秦富仓,等.裸露砒砂岩区降雨条件下坡面微地形变化规律[J].水土保持学报,2021,35(3):111-118.
Yang Z Q, Guo J Y, Qin F C, et al. Change law of slope micro-topography under rainfall condition in exposed feldspathic sandstone region[J]. Journal of Soil and Water Conservation, 2021,35(3):111-118.
[10] 李龙,张鹏,郭跃,等.自然降雨条件下砒砂岩坡面细沟微形态及其侵蚀特征[J].水土保持通报,2021,41(6):15-22.
Li L, Zhang P, Guo Y, et al. Micromorphology and erosion characteristics of rills on feldspathic sandstone slopes under natural rainfall conditions[J]. Bulletin of Soil and Water Conservation, 2021,41(6):15-22.
[11] 董晓宇,秦富仓,李龙,等.裸露砒砂岩区坡面侵蚀过程中地表粗糙度与水力侵蚀特征参数的关系[J].水土保持学报,2022,36(2):33-41.
Dong X Y, Qin F C, Li L, et al. Relationship between surface roughness and hydraulic erosion characteristic parameters during slope erosion in exposed Pisha sandstone area[J]. Journal of Soil and Water Conservation, 2022,36(2):33-41.
[12] 叶俊道,秦富仓,岳永杰,等.WEPP模型在砒砂岩地区土壤侵蚀模拟的适用性研究[J].干旱区资源与环境,2012,26(7):132-135.
Ye J D, Qin F C, Yue Y J, et al. The applicability of WEPP in simulating the soil erosion in soft rock region[J]. Journal of Arid Land Resources and Environment, 2012,26(7):132-135.
[13] 李宏伟,王文龙,王贞,等.神东煤田原地面侵蚀产沙规律野外降雨试验[J].中国农业大学学报,2013,18(2):195-201.
Li H W, Wang W L, Wang Z, et al. Effect of simulated rainfall experiments on soil erosion and sediment yield of the undisturbed lands in Shendong Coalfield[J]. Journal of China Agricultural University, 2013,18(2):195-201.
[14] 王其东,高海鹰,梁止水,等.新型亲水性聚氨酯对砒砂岩边坡抗降雨侵蚀的影响[J].水土保持学报,2016,30(3):29-32,114.
Wang Q D, Gao H Y, Liang Z S, et al. Effect of a novel hydrophilic polyurethane on increasing pisha sandstone resistance to rainfall erosion[J]. Journal of Soil and Water Conservation, 2016,30(3):29-32,114.
[15] 肖培青,姚文艺,申震洲,等.苜蓿草地侵蚀产沙过程及其水动力学机理试验研究[J].水利学报,2011,42(2):232-237.
Xiao P Q, Yao W Y, Shen Z Z, et al. Experimental study on erosion process and hydrodynamics mechanism of alfalfa grassland[J]. Journal of Hydraulic Engineering, 2011,42(2):232-237.
[16] 侯建才,李占斌,崔灵周,等.黄土高原典型流域次降雨径流侵蚀产沙规律研究[J].西北农林科技大学学报:自然科学版,2008,36(2):210-214,221.
Hou J C, Li Z B, Cui L Z, et al. Research on runoff erosion and sediment yield laws of typical watershed under single rainfall on Loess Plateau[J]. Journal of Northwest A&F University: Natural Science Edition, 2008,36(2):210-214,221.
[17] 乔荣荣,季树新,白雪莲,等.流域沟壑数量特征与侵蚀量关系[J].中国水土保持科学(中英文),2020,18(6):9-14.
Qiao R R, Ji S X, Bai X L, et al. Relationship between gully quantitative characteristics and soil erosion amount[J]. Science of Soil and Water Conservation, 2020,18(6):9-14.
[18] 高翔,蔡雄飞,王济,等.喀斯特小流域分布式土壤侵蚀估算模型[J].山地学报,2013,31(5):542-547.
Gao X, Cai X F, Wang J, et al. Distributed soil erosion estimation model for small watershed in Karst area[J]. Journal of Mountain Science, 2013,31(5):542-547.
[19] 覃超,何超,郑粉莉,等.黄土坡面细沟沟头溯源侵蚀的量化研究[J].农业工程学报,2018,34(6):160-167.
Qin C, He C, Zheng F L, et al. Quantitative research of rill head advancing process on loessial hillslope[J]. Transactions of the Chinese Society of Agricultural Engineering, 2018,34(6):160-167.
[20] 姚文艺,汤立群.水力侵蚀产沙过程及模拟[M].郑州:黄河水利出版社,2001.
Yao W Y, Tang L Q. Hydraulic Erosion of Sand Production Process and Simulation[M]. Zhengzhou: Yellow River Water Conservancy Publishing House, 2001.
[21] 管新建.不同土质坡面水蚀过程模拟试验及建模研究[D].西安:西安理工大学,2009.
Guan X J. Study on Experimental Simulation and Modeling of Slope Erosion Process of Different Soils[D]. Xi'an: Xi'an University of Technology, 2009.
[22] 郭建英,董智,李锦荣,等.放牧强度对荒漠草原土壤物理性质及其侵蚀产沙的影响[J].中国草地学报,2019,41(3):74-82.
Guo J Y, Dong Z, Li J R, et al. Effects of grazing intensity on soil physical properties and soil erosion and sediment yield in desert steppe[J]. Chinese Journal of Grassland, 2019,41(3):74-82.
[23] 苏远逸,李鹏,任宗萍,等.坡度对黄土坡面产流产沙过程及水沙关系的影响[J].水土保持研究,2020,27(2):118-122.
Su Y Y, Li P, Ren Z P, et al. Effect of slope gradient on the process of runoff and sediment yield and water-sediment relation on the loess slope[J]. Research of Soil and Water Conservation, 2020,27(2):118-122.

相似文献/References:

[1]赵国际.内蒙古砒砂岩地区水土流失规律研究[J].水土保持研究,2001,8(04):158.
　ZHAO Guo-ji.Research on the Laws of Soil and Water Loss in Sand Rock Region, Inner Mongolia[J].Research of Soil and Water Conservation,2001,8(02):158.
[2]武晶,王百田,郭红艳,等.浅析沙棘根系在砒砂岩地区坡面上的分布[J].水土保持研究,2007,14(06):358.
　WU Jing,WANG Bai-tian,GUO Hong-yan,et al.Study on the Distribution of Root System of Hippophae rhamnoides on the Slope in Sandstone Area[J].Research of Soil and Water Conservation,2007,14(02):358.
[3]魏彬萌,赵宣.添加砒砂岩对风沙土性质的改良及时间效应[J].水土保持研究,2017,24(06):16.
　WEI Binmeng,ZHAO Xuan.Effect of Addition of Feldspathic Sandstone on Improvement of Aeolian Sand Soil Quality and the Time Effect[J].Research of Soil and Water Conservation,2017,24(02):16.
[4]张传才,秦奋,汪永新,等.流域地貌形态多尺度三维分形量化及尺度效应——以砒砂岩区二老虎沟为例[J].水土保持研究,2016,23(01):278.
　ZHANG Chuancai,QIN Fen,WANG Yongxin,et al.Multi-Scale Quantification of Topographic Feature Using Three-Dimensional Fractal Model and Its Scale Effect in Watershed—A Case of the Two-Tiger Valley of Pisha Sandstone Area[J].Research of Soil and Water Conservation,2016,23(02):278.
[5]姚俊娜,秦奋.基于GIS和RS的砒砂岩区生态环境质量综合评价[J].水土保持研究,2014,21(06):193.
　YAO Jun-na,QING Fen.Comprehensive Assessment on Eco-environmental Quality of the Area of Sandston Based on RS and GIS[J].Research of Soil and Water Conservation,2014,21(02):193.
[6]张育华,周蓓蓓,陈晓鹏,等.基于Hydrus模拟纳米碳对黄土坡面土壤水分运动特征的影响[J].水土保持研究,2020,27(01):132.
　ZHANG Yuhua,ZHOU Beibei,CHEN Xiaopeng,et al.Effect of Nano Carbon on Soil Moisture Movement Characteristics in the Loess Slope Based on Hydrus Simulation[J].Research of Soil and Water Conservation,2020,27(02):132.
[7]张思琪,马芊红,朱彤,等.基于三维激光扫描技术的喀斯特地表微地形特征及其侵蚀响应[J].水土保持研究,2021,28(04):8.
　ZHANG Siqi,MA Qianhong,ZHU Tong,et al.Micro Topography Characteristic of Karst Slope and Its Response to Soil Erosion Based on 3D Laser Scanning Technique[J].Research of Soil and Water Conservation,2021,28(02):8.
[8]孙成,秦富仓,杨振奇,等.基于信息熵的砒砂岩区典型人工林生态系统稳定性研究.[J].水土保持研究,2021,28(06):90.
　SUN Cheng,QIN Fucang,YANG Zhenqi,et al.Research on Stability of Typical Plantation Ecosystems in Feldspathtic Sandstone Area Based on Information Entropy[J].Research of Soil and Water Conservation,2021,28(02):90.
[9]李智勇,张梦杰,陈明玉,等.苜蓿对坡面产流产沙及土壤水分的影响[J].水土保持研究,2021,28(05):54.
　LI Zhiyong,ZHANG Mengjie,CHEN Mingyu,et al.Effects of Alfalfa(Medicago sativa L.)on Runoff and Sediment Yield and Soil Moisture on Slope[J].Research of Soil and Water Conservation,2021,28(02):54.
[10]高泽超,潘焰菲,徐勤学,等.秸秆覆盖对西南喀斯特坡地幼龄橘园产流产沙的影响[J].水土保持研究,2022,29(01):36.
　GAO Zechao,PAN Yanfei,XU Qinxue,et al.Effect of Straw Mulch on Runoff and Sediment Production in Young Citrus Orchards in Southwest Karst[J].Research of Soil and Water Conservation,2022,29(02):36.

备注/Memo

收稿日期:2023-02-19 修回日期:2023-04-08
资助项目:国家自然科学基金(42207394); 江苏省自然科学基金(BK20190348); 国家重点研发计划课题(2017YFC0504505); 广西重点研发计划项目(桂科AB21196048); 中央财政林草科技推广示范项目(2023-TG17)
第一作者:梁止水(1988—),男,河南商丘人,博士,副研究员,主要从事水土保持与生态修复研究。E-mail:zs_liang@seu.edu.cn

更新日期/Last Update: 2024-04-20