地球科学进展

地球科学进展 ›› 2018, Vol. 33 ›› Issue (7): 728 -740. doi: 10.11867/j.issn.1001-8166.2018.07.0728

综述与评述 上一篇    下一篇

古滑坡复活问题研究进展与展望
张永双 1, 2( ), 吴瑞安 3, 郭长宝 3, 王立朝 2, 姚鑫 3, 杨志华 3   
  1. 1.中国地质调查局天津地质调查中心,天津 300170
    2.中国地质环境监测院,北京 100081
    3.中国地质科学院地质力学研究所,北京 100081
  • 收稿日期:2018-01-29 修回日期:2018-05-21 出版日期:2018-07-20
  • 基金资助:
    *国家自然科学基金重点项目“青藏高原东缘古滑坡复活机理与早期识别研究”(编号: 41731287)资助.

Research Progress and Prospect on Reactivation of Ancient Landslides

Yongshuang Zhang 1, 2( ), Ruian Wu 3, Changbao Guo 3, Lichao Wang 2, Xin Yao 3, Zhihua Yang 3   

  1. 1.Tianjin Center, China Geological Survey, Tianjin 300170, China
    2.China Institute of Geo-Environment Monitoring, Beijing 100081, China
    3.Institute of Geomechanics, Chinese Academy of Geological Sciences, Beijing 100081, China
  • Received:2018-01-29 Revised:2018-05-21 Online:2018-07-20 Published:2018-08-30
  • About author:

    First author:Zhang Yongshuang(1968-), male,Longkou City,Shandong Province, Professor. Research areas include engineering geology and geological hazards. E-mail:zhys100@sohu.com

  • Supported by:
    Project supported by the National Natural Science Foundation of China “Reaearch on reactivation mechanism and early recognition of old landslides in the eastern margin of Tibetan Plateau”(No.41731287).
全文 ( 14 ) 下载PDF ( 1526 )

古滑坡是斜坡长期复杂演化过程的产物,物质组成复杂、岩土力学性质特殊,具有极强的隐蔽性和扰动敏感性。随着人类工程活动不断加剧和极端天气频繁出现,国内外发生了大量古滑坡复活导致的交通、水电工程等重要设施毁坏和人员伤亡等灾难性事件,灾害风险日益严峻。通过梳理国内外古滑坡研究现状,总结了古滑坡区域发育规律及古滑坡判识研究、古滑坡体和古滑带的物理力学性质研究、古滑坡的复活机理研究、古滑坡复活过程及其模拟分析、古滑坡复活的早期识别研究等方面的主要进展。结合当前防灾减灾需求,提出古滑坡复活问题研究的3个关键科学问题是:①古滑坡自动化判识方法和准则;②基于新强度理论的古滑坡复活起滑机理;③古滑坡复活的早期识别模型和评价方法。破解这些关键科学问题,将为重大工程规划和防灾减灾提供新的理论和技术支撑。

关键词: 古滑坡, 混杂堆积体, 强度理论, 复活机理, 早期识别

The ancient landslide has endured long-term slope evolution which results in its complicated material and special rock-soil properties. The risk of ancient landslide reactivation is substantially increasing due to the increase of intensified human engineering activities and the frequency of extreme weather events. Many ancient landslides have been reactivated all over the world and led to serious fatalities and severe damage to many important engineering facilities such as transportation and hydropower engineering projects. On the basis of the analysis of the research situation about the ancient landslides at home and abroad, the main research advances were summarized including the regional developing laws and recognizing of the ancient landslides, the mechanics properties of ancient landslide body and related sliding zone, reactivation mechanism of ancient landslides, reactivating process and modeling analysis of ancient landslides, early recognization of ancient landslide reactivation, etc. To meet the demands of disaster prevention and reduction, three key scientific issues were put forward to be solved: ①automaticaly establishing the methodology and identification criterions for recognition of ancient landslide; ②revealing the reactivation mechanism of ancient landslide based on a new strength theory; ③establishing the early rapid recognition method and predictive model for ancient landslide reactivation. Solving the above mentioned scientific theory and methodology will facilitate the planning and site selection of major projects as well as the disaster prevention and reduction in ancient landslide developing areas.

Key words: Ancient landslide, Composite deposit, Strength theory, Reactivation mechanism, Early recognition.

中图分类号: 

图1 滑坡稳定性系数随时间的变化曲线(据参考文献[ 3 ]修改)
Fig.1 Curve shows the variation of slope stability factor with time (modified after reference[3])
图1 滑坡稳定性系数随时间的变化曲线(据参考文献[ 3 ]修改)
Fig.1 Curve shows the variation of slope stability factor with time (modified after reference[3])
图2 古滑坡识别与复活机理研究的技术路线框图
Fig.2 Technology roadmap for research on ancient landslide recognization and its reactivation mechanism
图2 古滑坡识别与复活机理研究的技术路线框图
Fig.2 Technology roadmap for research on ancient landslide recognization and its reactivation mechanism
[1] Sassa K.International programme on landslides[J]. Landslides, 2013, 1(2):3-24.
Sassa K.International programme on landslides[J]. Landslides, 2013, 1(2):3-24.
[2] И.B.поповвместе. Engineering Geological Survey of Hydropower Construction[M]. Beijing: Power Industry Press, 1956.
И.B.поповвместе. Engineering Geological Survey of Hydropower Construction[M]. Beijing: Power Industry Press, 1956.
[И.В.波波夫. 水力发电建设工程地质勘察[M]. 北京:电力工业出版社, 1956.]
[И.В.波波夫. 水力发电建设工程地质勘察[M]. 北京:电力工业出版社, 1956.]
[3] Cruden D M, Varnes D J.Landslide types and processes, special report, transportation research board[J]. National Academy of Sciences, 1996, 247: 36-75.
Cruden D M, Varnes D J.Landslide types and processes, special report, transportation research board[J]. National Academy of Sciences, 1996, 247: 36-75.
[4] Eмельянова. The Sasic Law of Landslide Action[M]. Landslide Division of the Northwest Institute of China Academy of Railway Science, translated. Chongqing: Chongqing Press, 1986.
Eмельянова. The Sasic Law of Landslide Action[M]. Landslide Division of the Northwest Institute of China Academy of Railway Science, translated. Chongqing: Chongqing Press, 1986.
[叶米里扬诺娃.滑坡作用的基本规律[M]. 铁科院西北所滑坡室,译. 重庆: 重庆出版社, 1986.]
[叶米里扬诺娃.滑坡作用的基本规律[M]. 铁科院西北所滑坡室,译. 重庆: 重庆出版社, 1986.]
[5] Lu Zhongyou.Theory of landslide classification and sliding historical category[C]//Sichuan Landslide Research and Prevention Experience Exchange Meeting. Chengdu, 1983.
Lu Zhongyou.Theory of landslide classification and sliding historical category[C]//Sichuan Landslide Research and Prevention Experience Exchange Meeting. Chengdu, 1983.
[卢螽槱. 论滑坡时代分类与滑动历史分类[C]//四川省滑坡研究及防治经验交流会. 成都, 1983.]
[卢螽槱. 论滑坡时代分类与滑动历史分类[C]//四川省滑坡研究及防治经验交流会. 成都, 1983.]
[6] Xu Bangdong.Landslide Analysis and Prevention[M].Beijing: China Railway Press, 2001.
Xu Bangdong.Landslide Analysis and Prevention[M].Beijing: China Railway Press, 2001.
[徐邦栋. 滑坡分析与防治[M]. 北京: 中国铁道出版社, 2001.]
[徐邦栋. 滑坡分析与防治[M]. 北京: 中国铁道出版社, 2001.]
[7] Wang Gongxian, Xu Junling, Liu Guangdai, et al.Technology of Landslide and Landslide Control[M].Beijing: China Railway Press, 2004.
Wang Gongxian, Xu Junling, Liu Guangdai, et al.Technology of Landslide and Landslide Control[M].Beijing: China Railway Press, 2004.
[王恭先, 徐峻岭, 刘光代,等. 滑坡学与滑坡防治技术[M]. 北京: 中国铁道出版, 2004.]
[王恭先, 徐峻岭, 刘光代,等. 滑坡学与滑坡防治技术[M]. 北京: 中国铁道出版, 2004.]
[8] Qi Xiaojun.Analysis of an example of an old-landslide revivification[J]. West-China Exploration Engineering, 2002, 14(2): 125-126.
doi: 10.3969/j.issn.1004-5716.2002.02.065     URL    
Qi Xiaojun.Analysis of an example of an old-landslide revivification[J]. West-China Exploration Engineering, 2002, 14(2): 125-126.
[戚筱俊. 古滑坡复活实例分析[J]. 西部探矿工程, 2002, 14(2): 125-126.]
doi: 10.3969/j.issn.1004-5716.2002.02.065     URL    
[戚筱俊. 古滑坡复活实例分析[J]. 西部探矿工程, 2002, 14(2): 125-126.]
doi: 10.3969/j.issn.1004-5716.2002.02.065     URL    
[9] Li Yongfei, Ji Qiwei.Short discussion on the distinction of ancient landslides[J]. West-China Exploration Engineering, 2006, 18(2): 296-287.
doi: 10.3969/j.issn.1004-5716.2006.12.142     URL    
Li Yongfei, Ji Qiwei.Short discussion on the distinction of ancient landslides[J]. West-China Exploration Engineering, 2006, 18(2): 296-287.
[李勇飞, 嵇其伟. 浅谈古滑坡的判别[J]. 西部探矿工程, 2006, 18(2): 296-287.]
doi: 10.3969/j.issn.1004-5716.2006.12.142     URL    
[李勇飞, 嵇其伟. 浅谈古滑坡的判别[J]. 西部探矿工程, 2006, 18(2): 296-287.]
doi: 10.3969/j.issn.1004-5716.2006.12.142     URL    
[10] Hu Guangtao.The historieal transformation of the landsliding causes and factors in the border slopes of loessial highland in the Baoji-Changxing Area[J]. Journal of Earth Sciences and Environment, 1986, 8(4): 23-27.
Hu Guangtao.The historieal transformation of the landsliding causes and factors in the border slopes of loessial highland in the Baoji-Changxing Area[J]. Journal of Earth Sciences and Environment, 1986, 8(4): 23-27.
[胡广韬. 宝鸡—常兴一带黄土塬边滑坡原因与因素的历史转化性[J]. 地球科学与环境学报, 1986, 8(4): 23-27.]
[胡广韬. 宝鸡—常兴一带黄土塬边滑坡原因与因素的历史转化性[J]. 地球科学与环境学报, 1986, 8(4): 23-27.]
[11] Li Shouding, Li Xiao, Liu Yanhui, et al. Geological evolution process of sliding zone in Qianjiangping landslide[J]. Hydrogeology & Engineering Geology, 2008, 35(2): 18-23.
doi: 10.3969/j.issn.1000-3665.2008.02.004     URL    
Li Shouding, Li Xiao, Liu Yanhui, et al. Geological evolution process of sliding zone in Qianjiangping landslide[J]. Hydrogeology & Engineering Geology, 2008, 35(2): 18-23.
[李守定, 李晓, 刘艳辉,等. 千将坪滑坡滑带地质演化过程研究[J]. 水文地质工程地质, 2008, 35(2): 18-23.]
doi: 10.3969/j.issn.1000-3665.2008.02.004     URL    
[李守定, 李晓, 刘艳辉,等. 千将坪滑坡滑带地质演化过程研究[J]. 水文地质工程地质, 2008, 35(2): 18-23.]
doi: 10.3969/j.issn.1000-3665.2008.02.004     URL    
[12] Macciotta R, Hendry M, Martin C D.Developing an early warning system for a very slow landslide based on displacement monitoring[J]. Natural Hazards, 2016, 81(2): 887-907.
doi: 10.1007/s11069-015-2110-2     URL    
Macciotta R, Hendry M, Martin C D.Developing an early warning system for a very slow landslide based on displacement monitoring[J]. Natural Hazards, 2016, 81(2): 887-907.
doi: 10.1007/s11069-015-2110-2     URL    
[13] Badger T C, Smith, E L, Lowell S M. Failure mechanics of the Nile Valley Landslide, Yakima County, Washington[J]. Environmental and Engineering Geoscience, 2011, 17(4): 353-376.
doi: 10.2113/gseegeosci.17.4.353     URL    
Badger T C, Smith, E L, Lowell S M. Failure mechanics of the Nile Valley Landslide, Yakima County, Washington[J]. Environmental and Engineering Geoscience, 2011, 17(4): 353-376.
doi: 10.2113/gseegeosci.17.4.353     URL    
[14] Wu Weijiang, Ye Weilin, Meng Xingmin, et al. The definition of the ancient landslide age with the 14C dating of Hanlingou River Basin in Wudu[J]. Advances in Earth Science, 2011, 26(12): 1 276-1 281.
Wu Weijiang, Ye Weilin, Meng Xingmin, et al. The definition of the ancient landslide age with the 14C dating of Hanlingou River Basin in Wudu[J]. Advances in Earth Science, 2011, 26(12): 1 276-1 281.
[吴玮江,叶伟林,孟兴民,等. 武都汉林沟流域古滑坡年龄的14C厘定[J]. 地球科学进展, 2011, 26(12): 1 276-1 281.]
[吴玮江,叶伟林,孟兴民,等. 武都汉林沟流域古滑坡年龄的14C厘定[J]. 地球科学进展, 2011, 26(12): 1 276-1 281.]
[15] Zhang Nianxue.The Yangtze River Three Gorges reservoir area ancient climate environment's influence on the landslide development[C]//The Fourth National Engineering Geology Conference Paper Anthology. 1992: 448-456.
Zhang Nianxue.The Yangtze River Three Gorges reservoir area ancient climate environment's influence on the landslide development[C]//The Fourth National Engineering Geology Conference Paper Anthology. 1992: 448-456.
[张年学. 长江三峡工程库区古气候环境对滑坡发育的影响[C]//第四届全国工程地质大会论文选集. 1992: 448-456.]
[张年学. 长江三峡工程库区古气候环境对滑坡发育的影响[C]//第四届全国工程地质大会论文选集. 1992: 448-456.]
[16] Xie Shouyi, Li Mingsheng, Xu Weiya.Evolution of huanglashi landslide in the three gorges reservoir area and ancient environmental climate[J]. Journal of Wuhan University of Hydraulic and Electric Engineering, 1999, 21(3): 189-192.
Xie Shouyi, Li Mingsheng, Xu Weiya.Evolution of huanglashi landslide in the three gorges reservoir area and ancient environmental climate[J]. Journal of Wuhan University of Hydraulic and Electric Engineering, 1999, 21(3): 189-192.
[谢守益, 李明生, 徐卫亚. 黄腊石滑坡群演化与古环境气候的关系[J]. 武汉水利电力大学学报, 1999, 21(3): 189-192.]
[谢守益, 李明生, 徐卫亚. 黄腊石滑坡群演化与古环境气候的关系[J]. 武汉水利电力大学学报, 1999, 21(3): 189-192.]
[17] Xu Qiang, Chen Wei, Zhang Zhuoyuan.New views on forming mechanism of deep overburden on river bed in Southwest of China[J]. Advances in Earth Science, 2008, 23(5): 448-455.
Xu Qiang, Chen Wei, Zhang Zhuoyuan.New views on forming mechanism of deep overburden on river bed in Southwest of China[J]. Advances in Earth Science, 2008, 23(5): 448-455.
[许强, 陈伟, 张倬元. 对我国西南地区河谷深厚覆盖层成因机理的新认识[J]. 地球科学进展, 2008, 23(5): 448-455.]
[许强, 陈伟, 张倬元. 对我国西南地区河谷深厚覆盖层成因机理的新认识[J]. 地球科学进展, 2008, 23(5): 448-455.]
[18] Zhao Xitao, Zhang Yongshuang, Qu Yongxin, et al. Pleistocene glaciations along the western foot of the Yulong Mountains and their relationship with the formation and development of the Jinsha River[J]. Quaternary Sciences, 2007, 27(1): 35-44.
doi: 10.3321/j.issn:1001-7410.2007.01.005     URL    
Zhao Xitao, Zhang Yongshuang, Qu Yongxin, et al. Pleistocene glaciations along the western foot of the Yulong Mountains and their relationship with the formation and development of the Jinsha River[J]. Quaternary Sciences, 2007, 27(1): 35-44.
[赵希涛, 张永双, 曲永新,等. 玉龙山西麓更新世冰川作用及其与金沙江河谷发育的关系[J]. 第四纪研究, 2007, 27(1): 35-44.]
doi: 10.3321/j.issn:1001-7410.2007.01.005     URL    
[赵希涛, 张永双, 曲永新,等. 玉龙山西麓更新世冰川作用及其与金沙江河谷发育的关系[J]. 第四纪研究, 2007, 27(1): 35-44.]
doi: 10.3321/j.issn:1001-7410.2007.01.005     URL    
[19] Zhang Yongshuang, Qu Yongxin, Zhao Xitao, et al.Introduction to the Quaternary Engineering Geology on the Southeast Edge of the Qinghai-Tibet Plateau[M]. Beijing: Geological Publishing House, 2010.
Zhang Yongshuang, Qu Yongxin, Zhao Xitao, et al.Introduction to the Quaternary Engineering Geology on the Southeast Edge of the Qinghai-Tibet Plateau[M]. Beijing: Geological Publishing House, 2010.
[张永双, 曲永新, 赵希涛,等. 青藏高原东南缘第四纪工程地质概论[M]. 北京: 地质出版社, 2010.]
[张永双, 曲永新, 赵希涛,等. 青藏高原东南缘第四纪工程地质概论[M]. 北京: 地质出版社, 2010.]
[20] Yin Zhiqiang, Cheng Guoming, Hu Guishou, et al. Preliminary study on characteristia and mechanism of super-large landslides in upper Yellow River since Late-Pleistocene[J]. Journal of Engineering Geology, 2010, 18(1): 41-51.
Yin Zhiqiang, Cheng Guoming, Hu Guishou, et al. Preliminary study on characteristia and mechanism of super-large landslides in upper Yellow River since Late-Pleistocene[J]. Journal of Engineering Geology, 2010, 18(1): 41-51.
[殷志强, 程国明, 胡贵寿,等. 晚更新世以来黄河上游巨型滑坡特征及形成机理初步研究[J]. 工程地质学报, 2010, 18(1): 41-51.]
[殷志强, 程国明, 胡贵寿,等. 晚更新世以来黄河上游巨型滑坡特征及形成机理初步研究[J]. 工程地质学报, 2010, 18(1): 41-51.]
[21] Li Jijun.Studies on the geomorphological evolution of the Qinghai-Xizang(Tibetan) Plateau and Asian monsoon[J]. Marine Geology & Quaternary Geology, 1999, 19(1): 1-11.
Li Jijun.Studies on the geomorphological evolution of the Qinghai-Xizang(Tibetan) Plateau and Asian monsoon[J]. Marine Geology & Quaternary Geology, 1999, 19(1): 1-11.
[李吉均. 青藏高原的地貌演化与亚洲季风[J]. 海洋地质与第四纪地质, 1999, 19(1): 1-11.]
[李吉均. 青藏高原的地貌演化与亚洲季风[J]. 海洋地质与第四纪地质, 1999, 19(1): 1-11.]
[22] Wang Sijing, Huang Dingcheng.Environmental Engineering Geology in Panxi Area[M]. Beijing: Ocean Press, 1990.
Wang Sijing, Huang Dingcheng.Environmental Engineering Geology in Panxi Area[M]. Beijing: Ocean Press, 1990.
[王思敬, 黄鼎成. 攀西地区环境工程地质[M]. 北京:海洋出版社, 1990.]
[王思敬, 黄鼎成. 攀西地区环境工程地质[M]. 北京:海洋出版社, 1990.]
[23] Zheng Du, Yao Tandong.The Upheaving and Environmental Effects of Qinghai-Tibet Plateau[M]. Beijing: Science Press, 2004.
Zheng Du, Yao Tandong.The Upheaving and Environmental Effects of Qinghai-Tibet Plateau[M]. Beijing: Science Press, 2004.
[郑度, 姚檀栋. 青藏高原隆生与环境效应[M]. 北京: 科学出版社, 2004.]
[郑度, 姚檀栋. 青藏高原隆生与环境效应[M]. 北京: 科学出版社, 2004.]
[24] Peng Jianbing, Ma Ruiyong, Lu Quanzhong, et al. Geological hazards effects of uplift of Qinghai-Tibet Plateau[J]. Advances in Earth Science, 2004, 19(3): 457-466.
doi: 10.3321/j.issn:1001-8166.2004.03.018     URL    
Peng Jianbing, Ma Ruiyong, Lu Quanzhong, et al. Geological hazards effects of uplift of Qinghai-Tibet Plateau[J]. Advances in Earth Science, 2004, 19(3): 457-466.
[彭建兵, 马润勇, 卢全中,等. 青藏高原隆升的地质灾害效应[J]. 地球科学进展, 2004, 19(3): 457-466.]
doi: 10.3321/j.issn:1001-8166.2004.03.018     URL    
[彭建兵, 马润勇, 卢全中,等. 青藏高原隆升的地质灾害效应[J]. 地球科学进展, 2004, 19(3): 457-466.]
doi: 10.3321/j.issn:1001-8166.2004.03.018     URL    
[25] Yin Zhiqiang, Meng Hui, Lian Jianfa, et al. Study on the geological disasters response to climate change in different temporal scales[J]. Geological Review, 2013, 59(6): 1 110-1 116.
doi: 10.3969/j.issn.0371-5736.2013.06.011     URL    
Yin Zhiqiang, Meng Hui, Lian Jianfa, et al. Study on the geological disasters response to climate change in different temporal scales[J]. Geological Review, 2013, 59(6): 1 110-1 116.
[殷志强, 孟晖, 连建发,等. 基于不同时间尺度的地质灾害对气候变化响应研究[J]. 地质论评, 2013, 59(6): 1 110-1 116.]
doi: 10.3969/j.issn.0371-5736.2013.06.011     URL    
[殷志强, 孟晖, 连建发,等. 基于不同时间尺度的地质灾害对气候变化响应研究[J]. 地质论评, 2013, 59(6): 1 110-1 116.]
doi: 10.3969/j.issn.0371-5736.2013.06.011     URL    
[26] Li Xiao, Zhang Nianxue, Li Shouding, et al. New viewpoint of the west edge of Baota landslide in Three Gorges of Yangzi River[J]. Journal of Engineering Geology, 2011, 19(4): 555-563.
doi: 10.3969/j.issn.1004-9665.2011.04.017     URL    
Li Xiao, Zhang Nianxue, Li Shouding, et al. New viewpoint of the west edge of Baota landslide in Three Gorges of Yangzi River[J]. Journal of Engineering Geology, 2011, 19(4): 555-563.
[李晓, 张年学, 李守定.等. 三峡库区云阳宝塔滑坡西边界的更正与反思——古滑坡鉴别问题探讨[J]. 工程地质学报, 2011, 19(4): 555-563.]
doi: 10.3969/j.issn.1004-9665.2011.04.017     URL    
[李晓, 张年学, 李守定.等. 三峡库区云阳宝塔滑坡西边界的更正与反思——古滑坡鉴别问题探讨[J]. 工程地质学报, 2011, 19(4): 555-563.]
doi: 10.3969/j.issn.1004-9665.2011.04.017     URL    
[27] Cai Kunhua, Zhang Weidong, Zhou Yanqiang, et al. Ancient landslide treatment measures and construction monitoring of Hangzhou-Changxi Highway[J]. Subgrade Engineering, 2011,157(4): 195-197.
doi: 10.3969/j.issn.1003-8825.2011.04.064     URL    
Cai Kunhua, Zhang Weidong, Zhou Yanqiang, et al. Ancient landslide treatment measures and construction monitoring of Hangzhou-Changxi Highway[J]. Subgrade Engineering, 2011,157(4): 195-197.
[蔡坤华, 张卫东, 周燕强,等. 杭长高速公路古滑坡治理措施与施工监测[J]. 路基工程, 2011,157(4): 195-197.]
doi: 10.3969/j.issn.1003-8825.2011.04.064     URL    
[蔡坤华, 张卫东, 周燕强,等. 杭长高速公路古滑坡治理措施与施工监测[J]. 路基工程, 2011,157(4): 195-197.]
doi: 10.3969/j.issn.1003-8825.2011.04.064     URL    
[28] Han Xuling.Study on the stability analysis and management plan of Lianggeda ancient landslide[J]. Journal of China & Foreign Highway, 2016, 36(4): 64-67.
URL    
Han Xuling.Study on the stability analysis and management plan of Lianggeda ancient landslide[J]. Journal of China & Foreign Highway, 2016, 36(4): 64-67.
[韩叙领. 梁疙瘩古滑坡治理稳定性分析及治理方案研究[J]. 中外公路, 2016, 36(4): 64-67.]
URL    
[韩叙领. 梁疙瘩古滑坡治理稳定性分析及治理方案研究[J]. 中外公路, 2016, 36(4): 64-67.]
URL    
[29] Guo Zhaocheng, Nie Hongfeng, Yang Liang, et al. Ancient landslide identification and characteristics using remote sensing along eastern edge of the Heqing basin[J]. Geoscience, 2014, 28(5): 1 068-1 076.
doi: 10.3969/j.issn.1000-8527.2014.05.024     URL    
Guo Zhaocheng, Nie Hongfeng, Yang Liang, et al. Ancient landslide identification and characteristics using remote sensing along eastern edge of the Heqing basin[J]. Geoscience, 2014, 28(5): 1 068-1 076.
[郭兆成, 聂洪峰, 杨亮,等. 鹤庆盆地东缘古滑坡遥感识别与特征研究[J]. 现代地质, 2014, 28(5): 1 068-1 076.]
doi: 10.3969/j.issn.1000-8527.2014.05.024     URL    
[郭兆成, 聂洪峰, 杨亮,等. 鹤庆盆地东缘古滑坡遥感识别与特征研究[J]. 现代地质, 2014, 28(5): 1 068-1 076.]
doi: 10.3969/j.issn.1000-8527.2014.05.024     URL    
[30] Zhang Yali, Ma Jinzhu, Zhang Peng, et al. Recognition of typical old landslide based on quick bird image[J]. Journal of Yangtze River Scientific Research Institude, 2015, 32(11): 130-135.
doi: 10.11988/ckyyb.20140413     URL    
Zhang Yali, Ma Jinzhu, Zhang Peng, et al. Recognition of typical old landslide based on quick bird image[J]. Journal of Yangtze River Scientific Research Institude, 2015, 32(11): 130-135.
[张雅莉, 马金珠, 张鹏,等. 快鸟影像在典型古滑坡识别应用中的研究[J]. 长江科学院院报, 2015, 32(11): 130-135.]
doi: 10.11988/ckyyb.20140413     URL    
[张雅莉, 马金珠, 张鹏,等. 快鸟影像在典型古滑坡识别应用中的研究[J]. 长江科学院院报, 2015, 32(11): 130-135.]
doi: 10.11988/ckyyb.20140413     URL    
[31] Zhang Lulu, Liu Zhaoqin, Liu Feng, et al. Extraction of ancient landslide based on DEM[J]. Remote Sensing Information, 2015, 30(6): 37-41.
doi: 10.3969/j.issn.1000-3177.2015.06.007     URL    
Zhang Lulu, Liu Zhaoqin, Liu Feng, et al. Extraction of ancient landslide based on DEM[J]. Remote Sensing Information, 2015, 30(6): 37-41.
[张路路, 刘召芹, 刘峰,等. 基于数字高程模型的古滑坡区提取[J]. 遥感信息, 2015, 30(6): 37-41.]
doi: 10.3969/j.issn.1000-3177.2015.06.007     URL    
[张路路, 刘召芹, 刘峰,等. 基于数字高程模型的古滑坡区提取[J]. 遥感信息, 2015, 30(6): 37-41.]
doi: 10.3969/j.issn.1000-3177.2015.06.007     URL    
[32] Huang Runqiu.Large-scale landslides and their sliding mechanisms in China since the 20th Century[J]. Chinese Journal of Rock Mechaniics and Engineering, 2007, 26(3): 433-454.
doi: 10.3321/j.issn:1000-6915.2007.03.001     URL    
Huang Runqiu.Large-scale landslides and their sliding mechanisms in China since the 20th Century[J]. Chinese Journal of Rock Mechaniics and Engineering, 2007, 26(3): 433-454.
[黄润秋. 20世纪以来中国的大型滑坡及其发生机制[J]. 岩石力学与工程学报, 2007, 26(3): 433-454.]
doi: 10.3321/j.issn:1000-6915.2007.03.001     URL    
[黄润秋. 20世纪以来中国的大型滑坡及其发生机制[J]. 岩石力学与工程学报, 2007, 26(3): 433-454.]
doi: 10.3321/j.issn:1000-6915.2007.03.001     URL    
[33] Li Shihai, Wang Yuannian.Selection study of computational parameters for DEM in geomechanics[J]. Chinese Journal of Rock Mechaniics and Engineering, 2004, 23(21): 3 642-3 651.
Li Shihai, Wang Yuannian.Selection study of computational parameters for DEM in geomechanics[J]. Chinese Journal of Rock Mechaniics and Engineering, 2004, 23(21): 3 642-3 651.
[李世海, 汪远年. 三维离散元计算参数选取方法研究[J]. 岩石力学与工程学报, 2004, 23(21): 3 642-3 651.]
[李世海, 汪远年. 三维离散元计算参数选取方法研究[J]. 岩石力学与工程学报, 2004, 23(21): 3 642-3 651.]
[34] Xu Wenjie, Zhang Haiyang, Xu Qiang, et al. Numerical simulations of direct shear test with soil-rock mixture using discrete element method[J]. Chinese Journal of Compulational Mechanics, 2014, 31(2): 228-234.
Xu Wenjie, Zhang Haiyang, Xu Qiang, et al. Numerical simulations of direct shear test with soil-rock mixture using discrete element method[J]. Chinese Journal of Compulational Mechanics, 2014, 31(2): 228-234.
[徐文杰, 张海洋, 许强,等. 土石混合体直剪离散元数值试验研究[J]. 计算力学学报, 2014, 31(2): 228-234.]
[徐文杰, 张海洋, 许强,等. 土石混合体直剪离散元数值试验研究[J]. 计算力学学报, 2014, 31(2): 228-234.]
[35] Mollon G, Richefeu V, Villard P, et al. Numerical simulation of rock avalanches: Influence of a local dissipative contact model on the collective behavior of granular flows[J]. Journal of Geophysical Research Atmospheres, 2012, 117(F2): 2 036.
Mollon G, Richefeu V, Villard P, et al. Numerical simulation of rock avalanches: Influence of a local dissipative contact model on the collective behavior of granular flows[J]. Journal of Geophysical Research Atmospheres, 2012, 117(F2): 2 036.
[36] Lee S J, Hashash Y M A, Nezami E G. Simulation of triaxial compression tests with polyhedral discrete elements[J]. Computers and Geotechnics, 2012, 43: 92-100.
doi: 10.1016/j.compgeo.2012.02.011     URL    
Lee S J, Hashash Y M A, Nezami E G. Simulation of triaxial compression tests with polyhedral discrete elements[J]. Computers and Geotechnics, 2012, 43: 92-100.
doi: 10.1016/j.compgeo.2012.02.011     URL    
[37] Skempton A W.First-time slides in over-consolidated layers[J]. Geotechnique, 1970, 20: 320-324.
doi: 10.1680/geot.1970.20.3.320     URL    
Skempton A W.First-time slides in over-consolidated layers[J]. Geotechnique, 1970, 20: 320-324.
doi: 10.1680/geot.1970.20.3.320     URL    
[38] Youssef A M, Maerz N H.Overview of some geological hazards in the Saudi Arabia[J]. Environmental Earth Sciences, 2013, 70(7): 3 115-3 130.
doi: 10.1007/s12665-013-2373-4     URL    
Youssef A M, Maerz N H.Overview of some geological hazards in the Saudi Arabia[J]. Environmental Earth Sciences, 2013, 70(7): 3 115-3 130.
doi: 10.1007/s12665-013-2373-4     URL    
[39] Voight B.Correlation between Atterberg plasticity limits and residual strength of natural soils[J]. Geotechnique, 1973, 23: 265-267.
doi: 10.1680/geot.1973.23.2.265     URL    
Voight B.Correlation between Atterberg plasticity limits and residual strength of natural soils[J]. Geotechnique, 1973, 23: 265-267.
doi: 10.1680/geot.1973.23.2.265     URL    
[40] Olson R E.Shearing strengths of kaolinite, illite, and montmorillonite[J]. Journal of Geotechnical and Geoenvironmental Engineering, 1976, 102(GT2): 180-182.
doi: 10.1016/0148-9062(75)90382-4     URL    
Olson R E.Shearing strengths of kaolinite, illite, and montmorillonite[J]. Journal of Geotechnical and Geoenvironmental Engineering, 1976, 102(GT2): 180-182.
doi: 10.1016/0148-9062(75)90382-4     URL    
[41] Holtz R D, Kovacs W D.An Introduction to Geotechnical Engineering[M]. Englewood Cliffs, NJ, 1985: 543-545.
Holtz R D, Kovacs W D.An Introduction to Geotechnical Engineering[M]. Englewood Cliffs, NJ, 1985: 543-545.
[42] Stark T D, Choi H, McCone S. Drained shear strength parameters for analysis of landslides[J]. Journal of Geotechnical and Geoenvironmental Engineering, 2005, 131(5): 575-588.
doi: 10.1061/(ASCE)1090-0241(2005)131:5(575)     URL    
Stark T D, Choi H, McCone S. Drained shear strength parameters for analysis of landslides[J]. Journal of Geotechnical and Geoenvironmental Engineering, 2005, 131(5): 575-588.
doi: 10.1061/(ASCE)1090-0241(2005)131:5(575)     URL    
[43] Carrubba P, Del Fabbro M.Laboratory investigation on reactivated residual strength[J]. Journal of Geotechnical and Geoenvironmental Engineering, 2008, 134(3): 302-315.
doi: 10.1061/(ASCE)1090-0241(2008)134:3(302)     URL    
Carrubba P, Del Fabbro M.Laboratory investigation on reactivated residual strength[J]. Journal of Geotechnical and Geoenvironmental Engineering, 2008, 134(3): 302-315.
doi: 10.1061/(ASCE)1090-0241(2008)134:3(302)     URL    
[44] Zhang Y S, Guo C B, Lan H X, et al. Reactivation mechanism of ancient giant landslides in the tectonically active zone: A case study in Southwest China[J]. Environmental Earth Science, 2015, 74(2): 1 719-1 729.
doi: 10.1007/s12665-015-4180-6     URL    
Zhang Y S, Guo C B, Lan H X, et al. Reactivation mechanism of ancient giant landslides in the tectonically active zone: A case study in Southwest China[J]. Environmental Earth Science, 2015, 74(2): 1 719-1 729.
doi: 10.1007/s12665-015-4180-6     URL    
[45] Burda J, Hartvich F, Valenta J, et al. Climate-induced landslide reactivation at the edge of the Most Basin (Czech Republic)-progress towards better landslide prediction[J]. Natural Hazards Earth System Sciences, 2013, 13(2): 361-374.
doi: 10.5194/nhess-13-361-2013     URL    
Burda J, Hartvich F, Valenta J, et al. Climate-induced landslide reactivation at the edge of the Most Basin (Czech Republic)-progress towards better landslide prediction[J]. Natural Hazards Earth System Sciences, 2013, 13(2): 361-374.
doi: 10.5194/nhess-13-361-2013     URL    
[46] Negi Indervir S, Kumar K, Kathait A, et al. Cost assessment of losses due to recent reactivation of Kaliasaur landslide on National Highway 58 in Garhwal Himalaya[J]. Natural Hazards, 2013, 68(2): 901-914.
doi: 10.1007/s11069-013-0663-5     URL    
Negi Indervir S, Kumar K, Kathait A, et al. Cost assessment of losses due to recent reactivation of Kaliasaur landslide on National Highway 58 in Garhwal Himalaya[J]. Natural Hazards, 2013, 68(2): 901-914.
doi: 10.1007/s11069-013-0663-5     URL    
[47] Saez Jér?me Lopez, Corona Christophe, Stoffel Markus, et al. Probability maps of landslide reactivation derived from tree-ring records: Pra Bellon landslide, southern French Alps[J]. Geomorphology, 2012, 138(1): 189-202.
doi: 10.1016/j.geomorph.2011.08.034     URL    
Saez Jérôme Lopez, Corona Christophe, Stoffel Markus, et al. Probability maps of landslide reactivation derived from tree-ring records: Pra Bellon landslide, southern French Alps[J]. Geomorphology, 2012, 138(1): 189-202.
doi: 10.1016/j.geomorph.2011.08.034     URL    
[48] Ronchetti F, Borgatti L, Cervi F, et al. The Valoria landslide reactivation in 2005-2006 (Northern Apennines, Italy)[J]. Landslides, 2007, 4(4):189-195.
doi: 10.1007/s10346-006-0073-9     URL    
Ronchetti F, Borgatti L, Cervi F, et al. The Valoria landslide reactivation in 2005-2006 (Northern Apennines, Italy)[J]. Landslides, 2007, 4(4):189-195.
doi: 10.1007/s10346-006-0073-9     URL    
[49] Notti Davide, Galve Jorge Pedro, Mateos Rosa María, et al. Human-induced coastal landslide reactivation. Monitoring by PSInSAR techniques and urban damage survey (SE Spain)[J]. Landslides, 2015, 12(5): 1 007-1 014.
doi: 10.1007/s10346-015-0612-3     URL    
Notti Davide, Galve Jorge Pedro, Mateos Rosa María, et al. Human-induced coastal landslide reactivation. Monitoring by PSInSAR techniques and urban damage survey (SE Spain)[J]. Landslides, 2015, 12(5): 1 007-1 014.
doi: 10.1007/s10346-015-0612-3     URL    
[50] Ronchetti F, Borgatti L, Cervi F, et al. Hydro-mechanical features of landslide reactivation in weak clayey rock masses[J]. Bulletin of Engineering Geology and the Environment, 2010, 69(2): 267-274.
doi: 10.1007/s10064-009-0249-3     URL    
Ronchetti F, Borgatti L, Cervi F, et al. Hydro-mechanical features of landslide reactivation in weak clayey rock masses[J]. Bulletin of Engineering Geology and the Environment, 2010, 69(2): 267-274.
doi: 10.1007/s10064-009-0249-3     URL    
[51] Vaǐilová Zuzana, Kropá?ek Jan, Zvelebil Jiǐí, et al. Reactivation of mass movements in Dessie graben, the example of an active landslide area in the Ethiopian Highlands[J]. Landslides, 2015, 12(5): 985-996.
doi: 10.1007/s10346-015-0613-2     URL    
Vaǐilová Zuzana, Kropáĉek Jan, Zvelebil Jiǐí, et al. Reactivation of mass movements in Dessie graben, the example of an active landslide area in the Ethiopian Highlands[J]. Landslides, 2015, 12(5): 985-996.
doi: 10.1007/s10346-015-0613-2     URL    
[52] Generali M, Pizziolo M.Application of a geomorphologic-heuristic model to estimate the landslides reactivation likelihood in the Emilia-Romagna Region (Italy)[M]//Engineering Geology for Society and Territory-Volume 2. Cambridge: Springer, 2015: 205-209.
Generali M, Pizziolo M.Application of a geomorphologic-heuristic model to estimate the landslides reactivation likelihood in the Emilia-Romagna Region (Italy)[M]//Engineering Geology for Society and Territory-Volume 2. Cambridge: Springer, 2015: 205-209.
[53] Tang Huiming, Ma Shuzhi, Liu Yourong, et al. Stability and control measures of Zhaoshuling landslide, Badong county, Three Gorges Reservoir[J]. Earth ScienceJournal of China University of Geosciences, 2002, 27(5):621-625.
doi: 10.3321/j.issn:1000-2383.2002.05.024     URL    
Tang Huiming, Ma Shuzhi, Liu Yourong, et al. Stability and control measures of Zhaoshuling landslide, Badong county, Three Gorges Reservoir[J]. Earth ScienceJournal of China University of Geosciences, 2002, 27(5):621-625.
[唐辉明, 马淑芝, 刘佑荣,等. 三峡工程库区巴东县赵树岭滑坡稳定性与防治对策研究[J]. 地球科学——中国地质大学学报, 2002, 27(5): 621-625.]
doi: 10.3321/j.issn:1000-2383.2002.05.024     URL    
[唐辉明, 马淑芝, 刘佑荣,等. 三峡工程库区巴东县赵树岭滑坡稳定性与防治对策研究[J]. 地球科学——中国地质大学学报, 2002, 27(5): 621-625.]
doi: 10.3321/j.issn:1000-2383.2002.05.024     URL    
[54] Li Xiao, Liao Qiulin, Hao Jianming, et al. Study on in-situ tests of mechanical characteristics on soil-rock aggregate[J]. Chinese Journal of Rock Mechanics and Engineering, 2007, 26(12): 2 377-2 384.
Li Xiao, Liao Qiulin, Hao Jianming, et al. Study on in-situ tests of mechanical characteristics on soil-rock aggregate[J]. Chinese Journal of Rock Mechanics and Engineering, 2007, 26(12): 2 377-2 384.
[李晓, 廖秋林, 赫建明,等. 土石混合体力学特性的原位试验研究[J]. 岩石力学与工程学报, 2007, 26(12): 2 377-2 384.]
[李晓, 廖秋林, 赫建明,等. 土石混合体力学特性的原位试验研究[J]. 岩石力学与工程学报, 2007, 26(12): 2 377-2 384.]
[55] Hu Xinli, Sun Miaojun, Tang Huiming, et al. Creep tests of gravel-soil of Majiagou landslide in Three Gorges Reservoir area[J]. Rock and Soil Mechanics, 2014, 35(11): 3 163-3 169.
Hu Xinli, Sun Miaojun, Tang Huiming, et al. Creep tests of gravel-soil of Majiagou landslide in Three Gorges Reservoir area[J]. Rock and Soil Mechanics, 2014, 35(11): 3 163-3 169.
[胡新丽, 孙淼军, 唐辉明,等. 三峡库区马家沟滑坡滑体粗粒土蠕变试验研究[J]. 岩土力学,2014, 35(11): 3 163-3 169.]
[胡新丽, 孙淼军, 唐辉明,等. 三峡库区马家沟滑坡滑体粗粒土蠕变试验研究[J]. 岩土力学,2014, 35(11): 3 163-3 169.]
[56] Yan Echuan, Zhu Dapeng, Song Kun, et al. Deformation prediction method of typical accumulate landslide in Three Gorges Reaervoir based on numerical modeling[J]. Journal of Jilin University(Earth Science Edition), 2012, 42(2): 422-429.
doi: 10.3969/j.issn.1671-5888.2012.02.016     URL    
Yan Echuan, Zhu Dapeng, Song Kun, et al. Deformation prediction method of typical accumulate landslide in Three Gorges Reaervoir based on numerical modeling[J]. Journal of Jilin University(Earth Science Edition), 2012, 42(2): 422-429.
[晏鄂川, 朱大鹏, 宋琨,等. 基于数值模拟的三峡库区典型堆积层滑坡变形预测方法[J]. 吉林大学学报:地球科学版, 2012, 42(2): 422-429.]
doi: 10.3969/j.issn.1671-5888.2012.02.016     URL    
[晏鄂川, 朱大鹏, 宋琨,等. 基于数值模拟的三峡库区典型堆积层滑坡变形预测方法[J]. 吉林大学学报:地球科学版, 2012, 42(2): 422-429.]
doi: 10.3969/j.issn.1671-5888.2012.02.016     URL    
[57] Yin Yueping, Kang Hongda, Yang Hualin, et al. Prevention on Wufengshan landslide of Yunyang County at the Three Gorges Reservoir[J]. Hydrogeology & Engineering Geology, 2003, 30(6):25-29.
doi: 10.3969/j.issn.1000-3665.2003.06.006     URL    
Yin Yueping, Kang Hongda, Yang Hualin, et al. Prevention on Wufengshan landslide of Yunyang County at the Three Gorges Reservoir[J]. Hydrogeology & Engineering Geology, 2003, 30(6):25-29.
[殷跃平, 康宏达, 杨华林,等. 三峡库区云阳五峰山滑坡防治工程方案研究[J]. 水文地质工程地质, 2003, 30(6):25-29.]
doi: 10.3969/j.issn.1000-3665.2003.06.006     URL    
[殷跃平, 康宏达, 杨华林,等. 三峡库区云阳五峰山滑坡防治工程方案研究[J]. 水文地质工程地质, 2003, 30(6):25-29.]
doi: 10.3969/j.issn.1000-3665.2003.06.006     URL    
[58] Liu Chuanzheng, Li Tiefeng, Wen Mingsheng, et al. Assessment and early warning on geo-hazards in the Three Gorges Reservoir region of Changjiang River[J]. Hydrogeology & Engineering Geology, 2004, 31(4):9-19.
Liu Chuanzheng, Li Tiefeng, Wen Mingsheng, et al. Assessment and early warning on geo-hazards in the Three Gorges Reservoir region of Changjiang River[J]. Hydrogeology & Engineering Geology, 2004, 31(4):9-19.
[刘传正, 李铁锋, 温铭生,等. 三峡库区地质灾害空间评价预警研究[J]. 水文地质工程地质, 2004, 31(4):9-19.]
[刘传正, 李铁锋, 温铭生,等. 三峡库区地质灾害空间评价预警研究[J]. 水文地质工程地质, 2004, 31(4):9-19.]
[59] Wang Jiading, Hui Yanghe.Systems analysis on Heifangtai loess landslide in crows induced by irrigated water[J]. Bulletin of Soil and Water Conservation, 2001, 21(3): 10-13.
Wang Jiading, Hui Yanghe.Systems analysis on Heifangtai loess landslide in crows induced by irrigated water[J]. Bulletin of Soil and Water Conservation, 2001, 21(3): 10-13.
[王家鼎, 惠泱河. 黑方台台缘灌溉水诱发黄土滑坡群的系统分析[J]. 水土保持通报, 2001, 21(3): 10-13.]
[王家鼎, 惠泱河. 黑方台台缘灌溉水诱发黄土滑坡群的系统分析[J]. 水土保持通报, 2001, 21(3): 10-13.]
[60] Zhang Maosheng, Dong Ying, Sun Pingping, et al. Risk analysis and control of the Zhaojiaan landslide through controlling water levels[J]. Hydrogeology & Engineering Geology, 2011, 38(1): 123-138.
Zhang Maosheng, Dong Ying, Sun Pingping, et al. Risk analysis and control of the Zhaojiaan landslide through controlling water levels[J]. Hydrogeology & Engineering Geology, 2011, 38(1): 123-138.
[张茂省, 董英, 孙萍萍,等. 基于水位的赵家岸滑坡风险分析与控制[J]. 水文地质工程地质, 2011, 38(1): 123-138.]
[张茂省, 董英, 孙萍萍,等. 基于水位的赵家岸滑坡风险分析与控制[J]. 水文地质工程地质, 2011, 38(1): 123-138.]
[61] Deng H, Wu L Z, Huang R Q, et al. Formation of the Siwanli ancient landslide in the Dadu River, China[J]. Landslides, 2016,14(1):385-394.
doi: 10.1007/s10346-016-0756-9     URL    
Deng H, Wu L Z, Huang R Q, et al. Formation of the Siwanli ancient landslide in the Dadu River, China[J]. Landslides, 2016,14(1):385-394.
doi: 10.1007/s10346-016-0756-9     URL    
[62] Deng Jianhui, Chen Fei, Yin Hu, et al. Geological origin and stability evaluation of Siwancun landslide in Luding county[J]. Chinese Journal of Rock Mechanics and Engineering, 2007, 26(10): 1 945-1 950.
Deng Jianhui, Chen Fei, Yin Hu, et al. Geological origin and stability evaluation of Siwancun landslide in Luding county[J]. Chinese Journal of Rock Mechanics and Engineering, 2007, 26(10): 1 945-1 950.
[邓建辉, 陈菲, 尹虎,等. 泸定县四湾村滑坡的地质成因与稳定评价[J]. 岩石力学与工程学报, 2007, 26(10): 1 945-1 950.]
[邓建辉, 陈菲, 尹虎,等. 泸定县四湾村滑坡的地质成因与稳定评价[J]. 岩石力学与工程学报, 2007, 26(10): 1 945-1 950.]
[63] Zhang Jiaming, Xu Zemin, Li Qiankun, et al. New findings of ancient landslide and geological tectonic constraints along the Jinsha River near Zhaizicun,Yongsheng,Yunnan,China[J]. Journal of Jilin University(Earth Science Edition), 2012, 42(Suppl.3): 206-213.
Zhang Jiaming, Xu Zemin, Li Qiankun, et al. New findings of ancient landslide and geological tectonic constraints along the Jinsha River near Zhaizicun,Yongsheng,Yunnan,China[J]. Journal of Jilin University(Earth Science Edition), 2012, 42(Suppl.3): 206-213.
[张家明, 徐则民, 李乾坤,等. 永胜金沙江寨子村古滑坡的新发现及地质构造约束[J]. 吉林大学学报:地球科学版, 2012, 42(增刊3): 206-213.]
[张家明, 徐则民, 李乾坤,等. 永胜金沙江寨子村古滑坡的新发现及地质构造约束[J]. 吉林大学学报:地球科学版, 2012, 42(增刊3): 206-213.]
[64] Lü Shizhan, Wang Ren, Hu Mingjian, et al. Computerized tomography (CT) scanning test research on intact moraine soil on west side of Yulong snow mountain[J]. Rock and Soil Mechanics, 2014, 35(6): 1 593-1 599.
Lü Shizhan, Wang Ren, Hu Mingjian, et al. Computerized tomography (CT) scanning test research on intact moraine soil on west side of Yulong snow mountain[J]. Rock and Soil Mechanics, 2014, 35(6): 1 593-1 599.
[吕士展, 汪稔, 胡明鉴,等. 玉龙雪山西麓原状冰碛土CT扫描试验研究[J]. 岩土力学, 2014, 35(6): 1 593-1 599.]
[吕士展, 汪稔, 胡明鉴,等. 玉龙雪山西麓原状冰碛土CT扫描试验研究[J]. 岩土力学, 2014, 35(6): 1 593-1 599.]
[65] Chen Chaogang, Xu Jiandong, Zhou Bin.Reactivation process similar simulation experiment of ancient landslide in the Wutong expressway[J]. Journal of China & Foreign Highway, 2007, 27(4): 203-205.
doi: 10.3969/j.issn.1671-2579.2007.04.057     URL    
Chen Chaogang, Xu Jiandong, Zhou Bin.Reactivation process similar simulation experiment of ancient landslide in the Wutong expressway[J]. Journal of China & Foreign Highway, 2007, 27(4): 203-205.
[陈超纲, 徐建东, 周斌. 芜铜高速公路某古滑坡复活过程相似模型试验[J]. 中外公路, 2007, 27(4): 203-205.]
doi: 10.3969/j.issn.1671-2579.2007.04.057     URL    
[陈超纲, 徐建东, 周斌. 芜铜高速公路某古滑坡复活过程相似模型试验[J]. 中外公路, 2007, 27(4): 203-205.]
doi: 10.3969/j.issn.1671-2579.2007.04.057     URL    
[66] Guo Jian, Xu Mo, Zhao Yong, et al. Formation and reactivation mechanism of ancient landslide in Heishui reservoir of Minjiang River, China[J]. Journal of Chengdu Uinversity of Technology(Science & Technology Edition), 2013, 40(6): 721-728.
doi: 10.3969/j.issn.1671-9727.2013.06.12     URL    
Guo Jian, Xu Mo, Zhao Yong, et al. Formation and reactivation mechanism of ancient landslide in Heishui reservoir of Minjiang River, China[J]. Journal of Chengdu Uinversity of Technology(Science & Technology Edition), 2013, 40(6): 721-728.
[郭健, 许模, 赵勇,等. 黑水河库区某古滑坡形成及复活机制[J]. 成都理工大学学报:自然科学版, 2013, 40(6): 721-728.]
doi: 10.3969/j.issn.1671-9727.2013.06.12     URL    
[郭健, 许模, 赵勇,等. 黑水河库区某古滑坡形成及复活机制[J]. 成都理工大学学报:自然科学版, 2013, 40(6): 721-728.]
doi: 10.3969/j.issn.1671-9727.2013.06.12     URL    
[67] Long Jianhui, Zhang Jining.Revival mechanism and disaster-causing process of old-large landslide on coal mine tunnel[J]. Journal of Mining & Safety Engineering, 2015, 32(3):511-517.
doi: 10.13545/j.cnki.jmse.2015.03.026     URL    
Long Jianhui, Zhang Jining.Revival mechanism and disaster-causing process of old-large landslide on coal mine tunnel[J]. Journal of Mining & Safety Engineering, 2015, 32(3):511-517.
[龙建辉, 张吉宁. 煤矿井巷上方大型老滑坡复活机理与致灾过程[J]. 采矿与安全工程学报, 2015, 32(3):511-517.]
doi: 10.13545/j.cnki.jmse.2015.03.026     URL    
[龙建辉, 张吉宁. 煤矿井巷上方大型老滑坡复活机理与致灾过程[J]. 采矿与安全工程学报, 2015, 32(3):511-517.]
doi: 10.13545/j.cnki.jmse.2015.03.026     URL    
[68] Liu Xilin, Miao Cheng, Tian Chunshan, et al. Comparative analysis of risk assessment of landslides and debris flows of China in 2000 and 2010[J]. Advances in Earth Science, 2016, 31(9): 926-936.
doi: 10.11867/j.issn.1001-8166.2016.09.0926     URL    
Liu Xilin, Miao Cheng, Tian Chunshan, et al. Comparative analysis of risk assessment of landslides and debris flows of China in 2000 and 2010[J]. Advances in Earth Science, 2016, 31(9): 926-936.
[刘希林, 庙成, 田春山,等. 十年跨度中国滑坡和泥石流灾害风险评价对比分析[J]. 地球科学进展, 2016, 31(9): 926-936.]
doi: 10.11867/j.issn.1001-8166.2016.09.0926     URL    
[刘希林, 庙成, 田春山,等. 十年跨度中国滑坡和泥石流灾害风险评价对比分析[J]. 地球科学进展, 2016, 31(9): 926-936.]
doi: 10.11867/j.issn.1001-8166.2016.09.0926     URL    
[69] Glenn N F, Streutker D R, Chadwick D J, et al. Analysis of LiDAR-derived topographic information for characterizing and differentiating landslide morphology and activity[J]. Geomorphology, 2006, 73(1/2): 131-148.
doi: 10.1016/j.geomorph.2005.07.006     URL    
Glenn N F, Streutker D R, Chadwick D J, et al. Analysis of LiDAR-derived topographic information for characterizing and differentiating landslide morphology and activity[J]. Geomorphology, 2006, 73(1/2): 131-148.
doi: 10.1016/j.geomorph.2005.07.006     URL    
[70] Calvello M, Peduto D, Arena L.Combined use of statistical and DInSAR data analyses to define the state of activity of slow-moving landslides[J]. Landslides, 2017, 14(2):473-489.
doi: 10.1007/s10346-016-0722-6     URL    
Calvello M, Peduto D, Arena L.Combined use of statistical and DInSAR data analyses to define the state of activity of slow-moving landslides[J]. Landslides, 2017, 14(2):473-489.
doi: 10.1007/s10346-016-0722-6     URL    
[71] Peng Dalei, Xu Qiang, Dong Xiujun, et al. Application of unmanned aerial vehicles low-altitude photogrammetry in investigation and evaluation of loess landslide[J]. Advances in Earth Science, 2017, 32(3): 319-330.
doi: 10.11867/j.issn.1001-8166.2017.03.0319     URL    
Peng Dalei, Xu Qiang, Dong Xiujun, et al. Application of unmanned aerial vehicles low-altitude photogrammetry in investigation and evaluation of loess landslide[J]. Advances in Earth Science, 2017, 32(3): 319-330.
[彭大雷, 许强, 董秀军,等. 无人机低空摄影测量在黄土滑坡调查评估中的应用[J]. 地球科学进展, 2017, 32(3): 319-330. ]
doi: 10.11867/j.issn.1001-8166.2017.03.0319     URL    
[彭大雷, 许强, 董秀军,等. 无人机低空摄影测量在黄土滑坡调查评估中的应用[J]. 地球科学进展, 2017, 32(3): 319-330. ]
doi: 10.11867/j.issn.1001-8166.2017.03.0319     URL    
[72] Scheingross J S, Minchew B M, Mackey B H, et al. Fault-zone controls on the spatial distribution of slow-moving landslides[J]. Geological Society of America Bulletin, 2013, 12(5): 473-489.
doi: 10.1130/B30719.1     URL    
Scheingross J S, Minchew B M, Mackey B H, et al. Fault-zone controls on the spatial distribution of slow-moving landslides[J]. Geological Society of America Bulletin, 2013, 12(5): 473-489.
doi: 10.1130/B30719.1     URL    
[73] Yin Yueping, Wu Shuren.The Technology of Landslide Monitoring and Early Warning and Emergency[M]. Beijing: Sciences Press, 2012.
Yin Yueping, Wu Shuren.The Technology of Landslide Monitoring and Early Warning and Emergency[M]. Beijing: Sciences Press, 2012.
[殷跃平, 吴树仁. 滑坡监测预警与应急防治技术研究[M]. 北京: 科学出版社, 2012.]
[殷跃平, 吴树仁. 滑坡监测预警与应急防治技术研究[M]. 北京: 科学出版社, 2012.]
[74] Liu Shengwei, Guo Dahai, Chen Weitao, et al. The application of airborne lidar technology in landslide investigation and monitoring of Three Gorges Reservoir area[J]. Geology in China, 2012, 39(2): 507-517.
Liu Shengwei, Guo Dahai, Chen Weitao, et al. The application of airborne lidar technology in landslide investigation and monitoring of Three Gorges Reservoir area[J]. Geology in China, 2012, 39(2): 507-517.
[刘圣伟, 郭大海, 陈伟涛,等. 机载激光雷达技术在长江三峡工程库区滑坡灾害调查和监测中的应用研究[J]. 中国地质, 2012, 39(2): 507-517.]
[刘圣伟, 郭大海, 陈伟涛,等. 机载激光雷达技术在长江三峡工程库区滑坡灾害调查和监测中的应用研究[J]. 中国地质, 2012, 39(2): 507-517.]
[75] Li Lingjing, Yao Xin, Zhang Yongshuang, et al. The extraction of the near-field deformation features along the faulted zone based on PS-InSAR survey[J]. Geological Bulletin of China, 2015, 34(1):217-228.
doi: 10.3969/j.issn.1671-2552.2015.01.017     URL    
Li Lingjing, Yao Xin, Zhang Yongshuang, et al. The extraction of the near-field deformation features along the faulted zone based on PS-InSAR survey[J]. Geological Bulletin of China, 2015, 34(1):217-228.
[李凌婧, 姚鑫, 张永双,等. 基于PS-InSAR技术的断裂带近场变形特征提取[J]. 地质通报, 2015, 34(1): 217-228.]
doi: 10.3969/j.issn.1671-2552.2015.01.017     URL    
[李凌婧, 姚鑫, 张永双,等. 基于PS-InSAR技术的断裂带近场变形特征提取[J]. 地质通报, 2015, 34(1): 217-228.]
doi: 10.3969/j.issn.1671-2552.2015.01.017     URL    
[76] Ao Meng, Zhang Qin, Zhao Chaoying, et al. An improved CR-InSAR technology used for deformation monitoring in Jiaju landslide, Sichuan[J]. Geomatics and Information Science of Wuhan University, 2017, 42(3): 377-383.
doi: 10.13203/j.whugis20140797     URL    
Ao Meng, Zhang Qin, Zhao Chaoying, et al. An improved CR-InSAR technology used for deformation monitoring in Jiaju landslide, Sichuan[J]. Geomatics and Information Science of Wuhan University, 2017, 42(3): 377-383.
[敖萌, 张勤, 赵超英,等. 改进的CR-InSAR技术用于四川甲居滑坡形变监测[J]. 武汉大学学报:信息科学版, 2017, 42(3): 377-383.]
doi: 10.13203/j.whugis20140797     URL    
[敖萌, 张勤, 赵超英,等. 改进的CR-InSAR技术用于四川甲居滑坡形变监测[J]. 武汉大学学报:信息科学版, 2017, 42(3): 377-383.]
doi: 10.13203/j.whugis20140797     URL    
[77] Werner L.Case studies of high-sensitivity monitoring of natural and engineered slopes[J]. Journal of Rock Mechanics and Geotechnical Engineering, 2015,7(4): 379-384.
doi: 10.1016/j.jrmge.2015.04.002     URL    
Werner L.Case studies of high-sensitivity monitoring of natural and engineered slopes[J]. Journal of Rock Mechanics and Geotechnical Engineering, 2015,7(4): 379-384.
doi: 10.1016/j.jrmge.2015.04.002     URL    
[78] Zhang Yanjun, Chen Lingjun, Kang Ruixue, et al. Fiber bragg grating sensing technology in landslide monitoring[J]. Optical Communication Technology, 2010,(2): 39-41.
doi: 10.3969/j.issn.1002-5561.2010.02.013     URL    
Zhang Yanjun, Chen Lingjun, Kang Ruixue, et al. Fiber bragg grating sensing technology in landslide monitoring[J]. Optical Communication Technology, 2010,(2): 39-41.
[张燕君, 陈凌军, 康瑞雪,等. 光纤光栅传感技术在滑坡监测中的应用[J]. 光通讯技术, 2010,(2): 39-41.]
doi: 10.3969/j.issn.1002-5561.2010.02.013     URL    
[张燕君, 陈凌军, 康瑞雪,等. 光纤光栅传感技术在滑坡监测中的应用[J]. 光通讯技术, 2010,(2): 39-41.]
doi: 10.3969/j.issn.1002-5561.2010.02.013     URL    
[79] Xie Mowen, Hu Man, Du Yan, et al. Application of TLS technique to landslide monitoring: Summarization and prospect[J]. Remote Sensing for Land & Resources, 2014, 26(3):8-15.
doi: 10.6046/gtzyyg.2014.03.02     URL    
Xie Mowen, Hu Man, Du Yan, et al. Application of TLS technique to landslide monitoring: Summarization and prospect[J]. Remote Sensing for Land & Resources, 2014, 26(3):8-15.
[谢谟文, 胡嫚, 杜岩,等. TLS技术及其在滑坡监测中的应用进展[J]. 国土资源遥感, 2014, 26(3):8-15.]
doi: 10.6046/gtzyyg.2014.03.02     URL    
[谢谟文, 胡嫚, 杜岩,等. TLS技术及其在滑坡监测中的应用进展[J]. 国土资源遥感, 2014, 26(3):8-15.]
doi: 10.6046/gtzyyg.2014.03.02     URL    
[80] Shi Bin, Zhang Dan, Wang Baojun.Distributed optical fiber monitoring technologies of geological and geotechnical engineering and its development[J]. Journal of Engineering Geology, 2007, 15(2): 109-116.
URL    
Shi Bin, Zhang Dan, Wang Baojun.Distributed optical fiber monitoring technologies of geological and geotechnical engineering and its development[J]. Journal of Engineering Geology, 2007, 15(2): 109-116.
[施斌, 张丹, 王宝军. 地质与岩土工程分布式光纤监测技术及其发展[J]. 工程地质学报, 2007, 15(2): 109-116.]
URL    
[施斌, 张丹, 王宝军. 地质与岩土工程分布式光纤监测技术及其发展[J]. 工程地质学报, 2007, 15(2): 109-116.]
URL    
[81] Zhang Qing, Shi Yanxin, Lin Jun.Landslide monitor technique based on TDR[J]. Journal of Jilin University (Earth Science Edition), 2007, 37(1): 134-138.
doi: 10.3969/j.issn.1671-5888.2007.01.022     URL    
Zhang Qing, Shi Yanxin, Lin Jun.Landslide monitor technique based on TDR[J]. Journal of Jilin University (Earth Science Edition), 2007, 37(1): 134-138.
[张青, 史彦新, 林君. 时间域反射法用于滑坡监测的试验研究[J]. 吉林大学学报:地球科学版, 2007, 37(1): 134-138.]
doi: 10.3969/j.issn.1671-5888.2007.01.022     URL    
[张青, 史彦新, 林君. 时间域反射法用于滑坡监测的试验研究[J]. 吉林大学学报:地球科学版, 2007, 37(1): 134-138.]
doi: 10.3969/j.issn.1671-5888.2007.01.022     URL    
[82] Zhou Ce, Liu Yimin, Chen Wenjun.Development of deep landslide displacement monitoring instrument with the function of torsion direction measurement[J]. Exploration Engineering: Rock & Soil Drilling and Tunneling, 2013, 40(7): 5-7.
doi: 10.3969/j.issn.1672-7428.2013.07.003     URL    
Zhou Ce, Liu Yimin, Chen Wenjun.Development of deep landslide displacement monitoring instrument with the function of torsion direction measurement[J]. Exploration Engineering: Rock & Soil Drilling and Tunneling, 2013, 40(7): 5-7.
[周策, 刘一民, 陈文俊. 具有测量扭转方位的滑坡深部位移监测仪器研制[J]. 探矿工程: 岩土钻掘工程, 2013, 40(7): 5-7.]
doi: 10.3969/j.issn.1672-7428.2013.07.003     URL    
[周策, 刘一民, 陈文俊. 具有测量扭转方位的滑坡深部位移监测仪器研制[J]. 探矿工程: 岩土钻掘工程, 2013, 40(7): 5-7.]
doi: 10.3969/j.issn.1672-7428.2013.07.003     URL    
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