RESEARCH OF LANDSLIDES AND DEBRIS FLOWS IN BAILONG RIVER BASIN: PROGRSS AND PROSPECT
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摘要: 白龙江流域地处青藏高原、黄土高原、四川盆地交接处,我国东西南北向地震带从此交汇通过,此处构造复杂、山高坡陡、沟谷深切、软岩广布,且多暴雨,是我国四大滑坡、泥石流灾害高发区之一。基于实地调查研究、并结合现有资料和研究成果,总结分析了白龙江流域滑坡、泥石流的分布特征、形成条件、成因机理、监测预警、防治措施等多方面进展及不足,推进该流域地质灾害研究,支持当地防灾减灾建设。Abstract: The Bailong River catchment is located in the intersection of Tibetan Plateau, Loess Plateau and Sichuan Basin. It is also the cross point of the east-west and north-south seismic zones. Due to complex geological structures, the region is characterized by steep slopes, high relative reliefs and deep incised valleys. Weak rocks, which are widely distributed, and heavy rainfalls made the region one of the four areas in China most severely affected by landslide and debris flow disasters. Based on the data from field investigation and on-going research projects, this paper deals with the characteristics of landslides and debris flows, and their genetic mechanisms. The management of monitoring and early-warning systems and hazard prevention in this region are also discussed, with the purpose to encourage further researches on geohazards and mitigation measures in the region.
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Key words:
- landslide /
- debris flow /
- research progres /
- the Bailong River
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[1] Keefer D K, Larsen M C. Assessing landslide hazards[J]. Science, 2007, 316(5828):1136-1138.
[2] 余志山. 泄流坡滑坡灾害损失预测及成灾方式研究[J]. 甘肃科技, 2007, 23(12):72-76.
[YU Zhishan. Research on the Loss Forecasting and the Way of Causing Disaster of Xieliupo Landslide[J]. Gansu Science and Technology, 2007, 23(12):72-76.]
[3] 吴玮江, 王念秦. 甘肃滑坡灾害[M]. 兰州:兰州大学出版社, 2006.[WU Weijing, WANG Nianqin. Landslide Hazard in Gansu[M]. Lanzhou:Lanzhou University Press, 2006.]
[4] 侯云龙, 张永军. 陇南市地质灾害发育规律及其影响因素[J]. 甘肃地质, 2007, 16(1):67-70.
[HOU Yunlong, ZHANG Yongjun. Development rule and its Influencing Factors of Geo-hazard in Longnan City[J]. Gansu Geology, 2007, 16(1):67-70.]
[5] 甘肃省交通科学研究所. 泥石流地区公路工程[M]. 北京:人民交通出版社, 1981.[Research Institute of Traffic Science, Gansu Province. Highway Construciton in Debris Flow Area[M]. Beijing:China Communications Press, 1981.]
[6] Guzzetti F, Mondini A C, Cardinali M, et al. Landslide inventory maps:New tools for an old problem[J]. Earth-Science Reviews, 2012, 112(1):42-66.
[7] 赵俊华. 舟曲县滑坡泥石流遥感影像判读与灾害防治[J]. 人民长江, 2004, 35(12):1-4.
[ZHAO Junhua. Remote sensing image interpretation of landslide and mud-rock flows in Zhouqu country and disaster prevention[J]. Yangtze River, 2004, 35(12):1-4.]
[8] 周乐群. 长江上游陇南陕南地区滑坡泥石流发育程度遥感分析[J]. 人民长江, 1996, 27(2):17-19.
[ZHOU Lequn. Remote Sensing Analysis of Landslide and Debris flow Development in Longnan and Shan'nan Region of the Upper Reaches of Yangtze River[J]. Yangtze River, 1996, 27(2):17-19.]
[9] 张歆, 王莉, 余剑平. 九房山滑坡成因分析, 影像判读及防治对策[J]. 水土保持应用技术, 2007, 3:42-44.[ZHANG Xin, WANG Li, YU Jianping. Causing Analysis, Image Interpretation and Countermeasures of Jiufangshan Landslide[J]. Application of Soil and Water Conservation Technology, 2007
, 3:42-44.]
[10] 陈文凯, 何少林, 张苏平, 等. 汶川地震甘肃省文县地震地质灾害遥感分析[J]. 西北地震学报, 2011, 33(4):363-369.
[CHEN Wenkai, HE Shaolin, ZHANG Suping, et al. Analysis on the Geo-hazards Triggered by Wenchuan Earthquake in Wenxian County, Gansu Province, Based on Remote Sensing Information[J]. Northwestern Seismological Journal, 2011, 33(4):363-369.]
[11] Bai S, Wang J, Zhang Z, et al. Combined landslide susceptibility mapping after Wenchuan earthquake at the Zhouqu segment in the Bailongjiang Basin, China[J]. Catena, 2012, 99:18-25.
[12] 李树德. 武都白龙江流域滑坡活动性探讨[J]. 水土保持通报, 1997, 17(6):28-32.
[LI Shude. Discussion on Landslide Activities in Bailong River Basin of Wudu[J]. Bulletin of Soil and Water Conservation, 1997, 17(6):28-32.]
[13] 王学究, 梁收运. 212国道陇南段滑坡分布特征及主要因素探讨[J]. 西部探矿工程, 2005, 5(9):96-98.
[WANG Xuejiu, LIANG Shouyun. Discussion on Distributing Characteristic and Main Factors of Landslide in Longnan of National Highway 212[J]. West-China Exploration Engineering, 2005, 5(9):96-98.]
[14] 张帆宇, 刘高. 国道212线福津河段滑坡发育特征及成因分析[J]. 地质灾害与环境保护, 2005, 16(2):130-134.
[ZHANG Fanyu, LIU Gao. Charasteristics and Mechanism of Landslides along the Fujin River Section of the National Highway 212[J]. Journal of Geological Hazards and Environment Preservation. 2005, 16(2):130-134.]
[15] 钟秀梅, 梁收运. G212线陇南段地质构造对滑坡的控制作用[J]. 工程地质学报, 2007,15:141-145.[ZHONG Xiumei, LIANG Shouyun. The Research of Geological Structure Control Action on Landslides on Southern Gansu Segment of G212
[J]. Journal of Engineering Geology, 2007,15:141-145.]
[16] 罗东海, 吴玮江, 王念秦, 等. 陇南市三家地黄土地震滑坡形成机理研究[J].铁道工程学报, 2012, 162(3):17-21.
[LUO Donghai, WU Weijiang, WANG Nianqin, et al. Research on Formation Mechanism of Sanjiadi Loess Seismic Landslide in Longnan City[J]. Journal of Railway Engineering Society, 2012, 162(3):17-21.]
[17] 俞晶星, 郑文俊, 袁道阳, 等. 西秦岭西段光盖山-迭山断裂带坪定-化马断裂的新活动性与滑动速率[J]. 第四纪研究, 2012, 32(5):957-967.
[YU Jingxing, ZHENG Wenjun, YUAN Daoyang, et al. Late Quaternary Active Characteristics And Slip Rate of Pingding-Huama Fault, the Eastern Segment of Guanggaishan-Dieshan Fault Zone (West Qinling Mountain)[J]. Quaternary Sciences, 2012, 32(5):957-967.]
[18] 唐永仪. 新构造运动在陇南滑坡泥石流形成中的作用[J]. 兰州大学学报:自然科学版, 1992, 23(4):153-156.
[TANG Yongyi. The Effect of Neotectonic Movement on Formations of Landslide and Debris Flow in Southern Gansau[J]. Journal of Lanzhou University (Natural Science), 1992, 23(4):153-156.]
[19] 李吉均. 晚更新世中国东部环境变迁综述[C].//中国东部第四纪冰川与环境问题. 北京:科学出版社, 1989.[LI Jijun. Late Pleistocene Environmental Changes in Eastern China:An overview[C]//Quaternary Glacier and Environmental Problems in Eastern China. Beijing:Science Press,1989.]
[20] 任非凡, 谌文武, 韩文峰. G212线陇南段泥石流发育成因及其时空分布特征分析[J]. 岩石力学与工程学报, 2008, 27(1):3237-3243.
[REN Feifan, CHEN Wenwu, HAN Wenfeng. Study on Reason and Spatial-Temporal Distribution Characteristics of Debris Flow in Longnan Area Along G212[J]. Chinese Journal of Rock Mechanics and Engineering, 2008, 27(1):3237-3243.]
[21] 李雪峰. G212公路陇南段泥石流发育特征与危险性预测研究[D]. 兰州:兰州大学. 2005.[LI Xuefeng. Development Characteristics and Risk Prediction of Highway G212 in Longnan Segment[D]. Lanzhou:Lanzhou University. 2005]
[22] 王念秦, 王永锋, 罗东海, 等. 中国滑坡预测预报研究综述[J]. 地质论评, 2008, 54(3):355-361.
[WANG Nianqin, WANG Yongfeng, LUO Donghai, et al, Review of Landslide Prediction and Forecast Research in China[J]. Geological Review, 2008, 54(3):355-361.]
[23] 唐亚明, 张茂省, 薛强, 等. 滑坡监测预警国内外研究现状及评述[J]. 地质论评, 2012, 58(3):533-541.
[TANG Yaming, ZHANG Maosheng, XUE Qiang, et al, Landslide monitoring and Early Warning:an Overview, 2012, 58(3):533-541.]
[24] Oppikofer T, Jaboyedoff M, Keusen H-R. Collapse at the eastern Eiger flank in the Swiss Alps[J]. Nature Geoscience, 2008, 1(8):531-535.
[25] Abell n A, Calvet J, Vilaplana J M, et al. Detection and spatial prediction of rockfalls by means of terrestrial laser scanner monitoring[J]. Geomorphology, 2010, 119(3):162-171.
[26] Kasperski J, Delacourt C, Allemand P, et al. Application of a terrestrial laser scanner (TLS) to the study of the S chilienne Landslide (Is re, France)[J]. Remote Sensing, 2010, 2(12):2785-2802.
[27] Aryal A, Brooks B A, Reid M E, et al. Displacement fields from point cloud data:Application of particle imaging velocimetry to landslide geodesy[J]. Journal of Geophysical Research:Earth Surface (2003-2012), 2012, 117(F1):1-15.
[28] Ferretti A, Prati C, Rocca F. Permanent scatterers in SAR interferometry[J]. Geoscience and Remote Sensing, IEEE Transactions on, 2001, 39(1):8-20.
[29] Colesanti C, Wasowski J. Investigating landslides with space-borne Synthetic Aperture Radar (SAR) interferometry[J]. Engineering geology, 2006, 88(3):173-199.
[30] 冯军, 尚学军, 樊明, 等. 陇南地质灾害降雨区划及临界雨量研究[J]. 干旱气象, 2006, 24(4):20-24.
[FENG Jun, SHANG Xuejun, FAN Ming, et al, Geological Calamity Distribution and Critical Rainfall in Longnan Region of Gansu Province[J]. Arid Meteorology, 2006, 24(4):20-24.]
[31] Bai S, Wang J, Thiebes B, et al. Analysis of the relationship of landslide occurrence with rainfall:a case study of Wudu County, China[J]. Arabian Journal of Geosciences, 2013, 1-9.
[32] Montgomery D R, Dietrich W E. A physically based model for the topographic control on shallow landsliding[J]. Water Resources Research, 1994, 30(4):1153-1171.
[33] Wu W, Sidle R C. A distributed slope stability model for steep forested basins[J]. Water Resources Research, 1995, 31(8):2097-2110.
[34] Baum R L, Savage W Z, Godt J W:U. S. Geological Survey[R]. 2008.
[35] 兰恒星, 伍法权, 周成虎, 等. GIS支持下的降雨型滑坡危险性空间分析预测[J]. 科学通报, 2003, 48(5):507-512.
[LAN Hengxing, WU Faquan, ZHOU Chenghu, et al. Spatial analysis and prediction of Rainfall Landslide Based on GIS[J]. Chinese Science Bulletin, 2003, 48(5):507-512.]
[36] 孙金山, 陈明, 左昌群, 等. 降雨型浅层滑坡危险性预测模型[J]. 地质科技情报, 2012, 31(2):117-121.
[SUN Jinshan, CHEN Ming, ZUO Changqun, et al. A Model for Predicting Rainfall-Induced Shallow Landslides[J]. Geological Science and Technology Information, 2012, 31(2):117-121.]
[37] 辛鹏, 吴树仁, 石菊松, 等. 基于降雨响应的黄土丘陵区滑坡危险性预测研究[J]. 地球学报, 2012, 33(3):349-359.
[XIN Peng, WU Shuren, SHI Jusong, et al. A Predictive Study of the Hazardousness of Landslides in Loess Hilly Region Based on Rainfall Response:A Case Study of Linyou County, Baoji City[J], Acta Geoscientica Sinica, 2012,33(3):349-359.]
[38] Capparelli G, Versace P. FLaIR and SUSHI:two mathematical models for early warning of landslides induced by rainfall[J]. Landslides, 2011, 8(1):67-79.
[39] Tsaparas I, Rahardjo H, Toll D G, et al. Controlling parameters for rainfall-induced landslides[J]. Computers and Geotechnics, 2002, 29(1):1-27.
[40] Tsaparas I, Rahardjo H, Toll D G, et al. Infiltration characteristics of two instrumented residual soil slopes[J]. Canadian geotechnical journal, 2003, 40(5):1012-1032.
[41] Rahardjo H, Ong T, Rezaur R, et al. Factors controlling instability of homogeneous soil slopes under rainfall[J]. Journal of geotechnical and geoenvironmental engineering, 2007, 133(12):1532-1543.
[42] Rahardjo H, Leong E C, Rezaur R. Effect of antecedent rainfall on pore-water pressure distribution characteristics in residual soil slopes under tropical rainfall[J]. Hydrological Processes, 2008, 22(4):506-523.
[43] Rahimi A, Rahardjo H, Leong E-C. Effect of antecedent rainfall patterns on rainfall-induced slope failure[J]. Journal of geotechnical and geoenvironmental engineering, 2010, 137(5):483-491.
[44] Lee L M, Gofar N, Rahardjo H. A simple model for preliminary evaluation of rainfall-induced slope instability[J]. Engineering Geology, 2009, 108(3):272-285.
[45] 何玉琼, 徐则民, 张勇, 等. 斜坡失稳的降雨阈值模型及其应用[J]. 岩石力学与工程学报, 2012, 31(7):1484-1490.
[HE Yuqiong, XU Zemin, ZHANG Yong, et al. Rainfall Threshold Model of Rainfall-Induced Slope Instability and its Application[J]. Chinese Journal of Rock Mechanics and Engineering, 2012, 31(7):1484-1490.]
[46] 何玉琼, 徐则民, 王志奇, 等. 滑坡降雨阈值模型的应用[J]. 吉林大学学报:地球科学版, 2012, 42(4):1112-1118.
[HE Yuqiong, XU Zemin, WANG Zhiqi, et al. Application of Landslide Rainfall Threshold Model[J]. Journal of Jilin University (Earth Science Edition), 2012, 42(4):1112-1118.]
[47] 康志成. 中国泥石流研究[M]. 北京:科学出版社, 2004.[KANG Zhicheng. Chinese Debris Flow Research[M]. Beijing:Science Press, 2004.]
[48] 谭万沛. 泥石流沟的临界雨量线分布特征[J]. 水土保持通报, 1989, 9(6):21-26.
[TAN Wanpei. Distribution Characters of Critical Rainfall Line for the Debris Flow Gully[J]. Bulletin of Soil and Water Conservation, 1989, 9(6):21-26.]
[49] 倪化勇, 王德伟. 基于雨量(强)条件的泥石流预测预报研究现状问题与建议[J]. 灾害学, 2010, 25(1):124-128.
[NI Huayong, WANG Dewei. Present Status, Problem and Advice on the Research of Prediction and Forecasting of Debris Flow Based on Rainfall Condition[J]. Journal of Catastroplology, 2010, 25(1):124-128.]
[50] 谭万沛, 韩庆玉. 四川省泥石流预报的区域临界雨量指标研究[J]. 灾害学, 1992, 7(2):37-42.
[TAN Wanpei, HAN Qingyu. Study on Regional Critical Rainfall Indices of Debris Flow in Sichuan Province[J]. Journal of Catastroplology, 1992, 7(2):37-42.]
[51] 谭炳炎, 段爱英. 山区铁路沿线暴雨泥石流预报的研究[J]. 自然灾害学报, 1995, 4(2):43-52.
[TAN Bingyan, DUAN Aiying. Study On Prediction for Rainstorm Debris Flow Along Mountain District Railways[J], Journal of Natural Disaster, 1995, 4(2):43-52.]
[52] 王礼先, 于志民. 山洪及泥石流灾害预报[M]. 北京:中国林业出版社, 2001.[WANG Lixian, YU Zhimin. Torrential Flood and Debris Flow Prediction[M]. Beijing:China Forestry Publishing House, 2001.]
[53] 程尊兰, 朱平一. 泥石流活动与雨强的关系:以雅砻江下游金龙沟为例[J]. 自然灾害学报, 1998, 7(2):118-120.
[CHENG Zunlan, ZHU Pinhyi. The Relationship Between Debris Flow Activity and Rainfall Intensity[J]. Journal of Natural Disaster, 1998, 7(2):118-120.]
[54] Pelfini M, Santilli M. Frequency of debris flows and their relation with precipitation:A case study in the Central Alps, Italy[J]. Geomorphology, 2008, 101(4):721-730.
[55] Cannon S H, Kirkham R M, Parise M. Wildfire-related debris-flow initiation processes, Storm King Mountain, Colorado[J]. Geomorphology, 2001, 39(3):171-188.
[56] 刘希林, 莫多闻. 地貌灾害预测预报的基本问题——以泥石流预测预报为例[J]. 山地学报, 2001, 19(2):150-156.
[LIU Xilin, MO Duowen. The Basic Topics of Prediction and Forecast for Geomorphic Hazards-Taking Debris Flow as an Example[J]. Journal of Mountain Science, 2001, 19(2):150-156.]
[57] 文科军, 王礼先, 谢宝元, 等. 暴雨泥石流实时预报的研究[J]. 北京林业大学学报, 1998, 20(6):59-64.
[WEN Kejun, WANG Lixian, XIE Baoyuan, et al. Real Time Forecast of Storm Caused Debris Flow[J]. Journal of Beijing Forestry University, 1998, 20(6):59-64.]
[58] 丛威青, 潘懋, 李铁锋, 等. 降雨型泥石流临界雨量定量分析[J]. 岩石力学与工程学报, 2006, 25(1):2808-2812.
[CONG Weiqing, PAN Mao, LI Tiefeng,et al. Quantitative Analysis of Critical Rainfall Triggered Debris Flow[J]. Chinese Journal of Rock Mechanics and Engineering, 2006, 25(1):2808-2812.]
[59] 田冰, 王裕宜, 洪勇. 泥石流预报中前期降水量与始发日降水量的权重关系——以云南省蒋家沟为例[J]. 水土保持通报, 2008, 28(2):71-75.
[TIAN Bing, WANG Yuyi, HONG Yong. Weighted Relation Between Antecedent Rainfall and Process Precipitation in Debris Flow Prediction:A Case Study of Jiangjia Gully in Yunnan Province[J]. Bulletin of Soil and Water Conservation, 2008, 28(2):71-75.]
[60] 陈景武, 吴积善, 康志成, 等. 蒋家沟暴雨泥石流预报研究[C]//云南蒋家沟泥石流观测研究, 北京:科学出版社, 1990.[CHEN Jingwu, WU Jishan, KANG Zhicheng, et al. Storm Debris Flow Forecast Research in Jiangjia Gully. See:Observational Research of Jiangjia Gully in Yun'nan[M]. Beijing:Science Press, 1990.]
[61] 崔鹏, 杨坤, 陈杰. 前期降雨对泥石流形成的贡献-以蒋家沟泥石流形成为例[J]. 中国水土保持科学, 2003, 1(1):11-15.
[CUI Peng, YANG Kun, CHEN Jie. Relationship between Occurrence of Debris Flow and Antecedent Precipitation:Taking the Jiangjia Gully as An Example[J]. Science of Soil Water Conservation, 2003, 1(1):11-15.]
[62] 韦方强, 胡凯衡, 陈杰. 泥石流预报中前期有效降水量的确定[J]. 山地学报, 2005, 23(4):453-457.
[WEI Fangqiang, HU Kaiheng, CHEN Jie. Determination of Effective Antecedent Rainfall for Debris Flow Forecast[J]. Journal of Mountain Science, 2005, 23(4):453-457.]
[63] 苏鹏程, 刘希林, 郭洁. 四川泥石流灾害与降雨关系的初步探讨[J]. 自然灾害学报, 2006, 15(4):19-23.
[SU Pengcheng, LIU Xilin, GUO Jie. Primary Analysis of Relationship between Debris Flows and Rainfalls in Sichuan Province[J]. Journal of Natural Disaster, 2006, 15(4):19-23.]
[64] Sep lveda S A, Rebolledo S, Vargas G. Recent catastrophic debris flows in Chile:Geological hazard, climatic relationships and human response[J]. Quaternary international, 2006, 158(1):83-95.
[65] 黄忠恕, 余应中. 长江上游陇南地区泥石流分布发育特征[J]. 人民长江, 1998, 29(7):42-44.
[HUANG Zhongshu, YU Yingzhong. Distribution and Development Characteristic of Debris Flow of Longnan Region in the Upper Yangtze River[J]. Yangtze River, 1998, 29(7):42-44.]
[66] 袁斌, 和法国, 李军鹏, 等. 甘肃武都区泥石流活动与降雨特征关系[J]. 兰州大学学报:自然科学版, 2012, 48(6):15-20.
[YUAN Bin, HE Faguo, LI Junpeng, et al. Relationship between Debris Flow Activity and Precipitation Characteristics in Wudu area, Gansu Province[J]. Journal of Lanzhou University (Natural Sciences), 2012, 48(6):15-20.]
[67] 郭利勇, 赵书平, 韦忠. 长江上游滑坡泥石流预警系统中陇南陕南片防灾减灾效益评价[J]. 水土保持通报, 1999, 19(4):37-40.
[GUO Liyong, ZHAO Shuping, WEI Zhong. Appraisal on Benefits of Disaster Prevention and Reduction in South Gansu and South Shaanxi District[J]. Bulletin of Soil and Water Conservation, 1999, 19(4):37-40.]
[68] 郭利勇, 韦忠, 郭海. 陇南陕南片滑坡, 泥石流群测群防试点县成果探析[J]. 水土保持通报, 2002, 22(2):38-41.
[GUO Liyong, WEI Zhong, GUO Hai. Achievement of Mass Monitoring and Preventing on Landslide and Debris Flow in Experimental Counties of South Gansu and Shaanxi Provinces[J]. Bulletin of Soil and Water Conservation, 2002, 22(2):38-41.]
[69] 王志禄, 张燕, 孙畅. 陇南地质灾害气象预报及预警技术研究[J]. 地质灾害与环境保护, 2005, 16(1):105-109.
[WANG Zhilu, ZHANG Yan, SUN Chang. Study on Geology Disaster Weather Forecast And for Forwarning Technique in Longnan Area[J]. Journal of Geological Hazards and Environment Preservation, 2005, 16(1):105-109.]
[70] 王恭先. 滑坡防治工程措施的国内外现状[J]. 中国地质灾害与防治学报, 1998, 9(1):1-9.
[WANG Gongxian. Present Sitnuation of Engineering Measures for Preventing and Controlling Landslide in China and Abroad[J]. The Chinese Journal of Geological Hazard and Control, 1998, 9(1):1-9.]
[71] 张倬元. 滑坡防治工程的现状与发展展望[J]. 地质灾害与环境保护, 2000, 11(2):89-97.
[ZHANG Zhuoyuan. The Present Status, Technical Advance and Development Trends of Landslides Remedial Measures[J]. Journal of Geological Hazards and Environment Preservation, 2000, 11(2):89-97.]
[72] Reihsen G, Harrison L, Branch H. Debris-Control Structures[R].Hydraulic Engineering Circular No. 9, U.S. Department of Transportation, Federal Highway Administration, Washington D C,1971.
[73] Johnson P A, McCuen R H. Slit dam design for debris flow mitigation[J]. Journal of Hydraulic Engineering, 1989, 115(9):1293-1296.
[74] 周必凡. 泥石流防治指南[M]. 科学出版社, 1991.[ZHOU Bifan. Guidelines for Debris Flow Prevention and Control[M]. Science Press, 1991.]
[75] 李德基. 透水型拦挡坝在泥石流防治中的应用[J]. 中国地质灾害与防治学报, 1997, 8(4):60-66.
[LI Deji. The Application of Permeable Dam in Debris Flow Control[J]. The Chinese Journal of Geological Hazard and Control, 1997, 8(4):60-66.]
[76] Huebl J, Fiebiger G. Debris-flow mitigation measures[M]. Debris-flow Hazards and Related Phenomena. Springer, 2005:445-487.
[77] Cui P, Chen X, Waqng Y, et al. Jiangjia Ravine debris flows in south-western China[M]. Debris-flow hazards and related phenomena. Springer,2005:565-594.
[78] Mizuyama T. Structural countermeasures for debris flow disasters[J]. International Journal of Erosion Control Engineering, 2008, 1(2):38-43.
[79] 陈晓清, 李德基, 崔鹏. 软基消能型泥石流排导槽的肋槛基础埋深计算[J]. 合肥工业大学学报:自然科学版, 2009, 32(10):1590-1593.
[CHEN Xiaoqing, LI Deji, CUI Peng. Calculating Buried Depth of Transverse Sills for the Debris Flow Drainage Groove with Soft Foundation[J]. Journal of Hefei University of Technology (Nature Science Edition), 2009, 32(10):1590-1593.]
[80] 李鸿琏, 曾思伟. 甘肃泥石流[M]. 北京:人民交通出版杜, 1982.[LI Honglian, ZENG Siwei. Gansu Debris Flow[M]. Beijing:People's Traffic Press, 1982.]
[81] 张开平. 泥石流排导槽及其优化设计研究[J]. 中国地质灾害与防治学报, 1997, 8(4):73-77.
[ZHANG Kaiping. Study on Diversion Flume of Debris Flow and its Optimization Design[J]. The Chinese Journal of Geological Hazard and Control, 1997, 8(4):73-77.]
[82] Shieh C-L, Ting C-H, Pan H-W. Impulsive force of debris flow on a curved dam[J]. International Journal of Sediment Research, 2008, 23(2):149-158.
[83] 李冠奇, 魏鸿, 谷明成, 等. 泥石流拦挡坝优化设计[J]. 地质灾害与环境保护, 2009, 20(2):29-32.
[LI Guanqi, WEI Hong, GU Mingcheng, et al. Optimization Design for Debris Flow Blocked Dam[J]. The Chinese Journal of Geological Hazard and Control, 2009, 20(2):29-32.]
[84] 姚令侃. 泥石流防治工程优化设计方案初探[J]. 中国地质灾害与防治学报, 1995, 6(4):1-9.
[YAO Lingkan. Study on the Optimization Design for Debris Flow Protection Engineering[J]. The Chinese Journal of Geological Hazard and Control, 1995, 6(4):1-9.]
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