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汶川地震前后都江堰山区滑坡滑动距离影响因素变化分析
ANALYSIS ON THE CHANGE OF INFLUENCE FACTORS ON SLIPPING DISPLACEMENT OF LANDSLIDES IN DUJIANGYAN AREA BEFORE AND AFTER THE WENCHUAN EARTHQUAKE

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孟华君 1   姜元俊 2   张树轩 3   张向营 3   李焕彬 3   赵伟康 3  
文摘 滑坡滑动距离作为滑坡防灾减灾的主要评价指标之一,不仅受滑坡体积和落差的影响,还与滑坡运动的地质环境作用相关。本文在对都江堰地区51个地震滑坡、16个降雨滑坡详细调查编目的基础上,采用数理统计方法分析了斜坡原始坡度、滑坡前后缘高差、滑坡平面形态、体积、滑体平均厚度及坡面摩擦系数等6个因素与滑坡水平滑动距离的相关性,借此厘清了汶川 M_s8. 0级大地震前后不同因素对不同类型滑坡运动的贡献大小,进而构建了不同成因类型滑坡的滑动距离预测关系式,可为龙门山区的滑坡防灾减灾工作提供参考。研究表明:影响都江堰地区地震滑坡运动距离的主要因素有滑坡体积(lgV) 、斜坡原始坡度(α) 、滑坡平面形态(R)和滑坡前后缘高差(ΔH);而控制降雨滑坡运动距离的主要因素为滑坡前后缘高差(ΔH) 、滑坡体积(lgV) 、斜坡坡度(α)和斜坡表面摩擦系数(μ);汶川地震后,影响该地区降雨滑坡滑动能力的因素发生了变异,各因素与滑坡滑动距离的相关性较弱,显示出其贡献率在急剧减弱,仅滑坡体积(lgV)与滑动距离的相关性较强。
其他语种文摘 Slipping displacement of landslide is one of the most important assessment indexes for prevention and mitigation of landslide disaster,which is not only controlled by landslide volume and drop but also related to the influence of topographical environment. On the basis of detailed field investigation and inventory for 51 seismicinduced landslides and 16 rainfall-induced landslides seated in Dujiangyan area,the correlation between six factors and horizontal slipping displacement of landslides are analyzed through mathematical statistic method,factors including depositional gradient of slope,ridge height difference before and after the earthquake,plane shape, volume,and average thickness of landslide mass and friction coefficient of slope surface. Afterwards,the influence of different factors on different types of landslides before and after Wenchuan earthquake are sort out,and the predictive formulas of slipping displacement due to different causes are built which may support the disaster mitigation in the future. The preliminary conclusions reveal that slipping displacements of seismic-induced landslides are mainly affected by landslide volume (lgV),depositional gradient of slope (α),plane shape (R) and ridge height difference before and after the earthquake (ΔH); while rainfall-induced landslides are mainly affected by ridge height difference before and after the earthquake (ΔH),landslide volume (lgV),depositional gradient of slope (α) and friction coefficient of slope surface (μ). After the Wenchuan earthquake,the factors affecting the sliding of rainfall-induced landslides are changing with a relatively low correlation with slipping displacement,showing that their influence are decreasing and only landslide volume (lgV) still stays a strong correlation.
来源 地质力学学报 ,2017,23(6):904-913 【扩展库】
关键词 都江堰白沙河 ; 汶川地震 ; 地震滑坡 ; 降雨滑坡 ; 滑动距离
地址

1. 中国地质科学院地质力学研究所, 国土资源部新构造运动与地质灾害重点实验室, 北京, 100081  

2. 中国科学院水利部成都山地灾害与环境研究所, 四川, 成都, 610041  

3. 中国地质科学院地质力学研究所, 北京, 100081

语种 中文
文献类型 研究性论文
ISSN 1006-6616
学科 地质学
基金 国家自然科学基金 ;  中国地质科学院基本科研业务费专项经费 ;  国土资源部中国地质调查局项目
文献收藏号 CSCD:6149271

参考文献 共 30 共2页

1.  Kent P E. The transport mechanism in catastrophic rock falls. The Journal of Geology,1966,74(1):79-93 被引 37    
2.  Shreve R L. The Blackhawk Landslide,1968:1-48 被引 1    
3.  Shreve R L. Leakage and fluidization in air-layer lubricated avalanches. GSA Bulletin,1968,79(5):653-658 被引 17    
4.  Erismann T H. Mechanisms of large landslides. Rock Mechanics,1979,12(1):15-46 被引 13    
5.  邢爱国. 高速远程滑坡气垫效应的风洞模拟试验研究. 上海交通大学学报,2012,46(10):1642-1646 被引 5    
6.  程谦恭. 高速远程滑坡超前冲击气浪动力学机理. 山地学报,2011,29(1):70-80 被引 14    
7.  Eisbacher G H. Cliff collapse and rock avalanches(sturzstroms) in the Mackenzie Mountains, Northwestern Canada. Canadian Geotechnical Journal,1979,16(2):309-334 被引 18    
8.  Davies T R. A fragmentationspreading model for long-runout rock avalanches. Canadian Geotechnical Journal,1999,36(6):1096-1110 被引 25    
9.  Okura Y. The effects of rockfall volume on runoutdistance. Engineering Geology,2000,58(2):109-124 被引 34    
10.  Hsu K J. Catastrophic Debris Streams (Sturzstroms) generated by rockfalls. GSA Bulletin,1975,86(1):129-140 被引 51    
11.  Davies T R H. Spreading of rock avalanche debris by mechanical fluidization. Rock Mechanics,1982,15(1):9-24 被引 29    
12.  Sassa K. Geotechnical model for the motion of landslides. Proceedings of the 5th International Symposium on Landslides,1988:37-55 被引 12    
13.  Abele G. Rockslide movement supported by the mobilization of groundwater-saturated valley floor sediments. ZeitschriftfurGeomorphologie,1997,41(1):1-20 被引 6    
14.  Deline P. Interactions between rock avalanches and glaciers in the Mont Blanc massif during the late Holocene. Quaternary Science Reviews,2009,28(11/12):1070-1083 被引 8    
15.  王玉峰. 高速远程滑坡裹气流态化模型试验研究. 岩土力学,2014,35(10):2775-2786 被引 11    
16.  张明. 高速远程滑坡-碎屑流运动机理研究发展现状与展望. 工程地质学报,2010,18(6):805-817 被引 71    
17.  李秀珍. "5·12"汶川地震诱发滑坡的滑动距离预测. 四川大学学报(工程科学版),2010,42(5):243-249 被引 22    
18.  樊晓一. 灾难性地震和降雨滑坡的体积与运动距离研究. 岩土力学,2012,33(10):3051-3058 被引 12    
19.  樊晓一. "坡","场"因素对大型滑坡运动特征的影响. 岩石力学与工程学报,2010,29(11):2337-2347 被引 15    
20.  樊晓一. 坡脚型与偏转型地震滑坡运动距离及地形因素作用. 岩土力学,2015,36(5):1380-1388 被引 17    
引证文献 7

1 杨海龙 坡脚型滑坡运动特征分析及运动距离预测 工程地质学报,2019,27(6):1379-1388
被引 1

2 樊晓一 开阔型地形条件对滑坡运动距离的影响研究 自然灾害学报,2018,27(5):188-196
被引 6

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