四川泸定县泥石流灾害成因、特征与防治建议   总被引：3，自引：0，他引：3  

倪化勇  李宗亮  巴仁基  刘宇杰 《工程地质学报》2010,18(1):91

泸定县地处川西高原与四川盆地的过渡地带,地质环境条件复杂,分布泥石流沟127条,发育密度054条10km-2。在遥感解译和地面调查基础上,论述了泸定县泥石流灾害成因、发生特征、危害和发展趋势,提出了相关防治建议。(1)成因表现为复杂的断裂构造导致流域内松散物源丰富,较大的相对高差提供了良好势能条件,而汛期集中强降雨则提供了动能条件,且雨量条件中当日雨量与前期有效降雨量之间具有幂函数关系; (2)发生特征表现出典型的空间群发性(包括2005-06-30群发性泥石流、2005-08-11群发性泥石流和2006-07-14群发性泥石流)与时间的夜发性; (3)危害方式主要包括淤埋、冲毁、侵蚀、堵河4种,泥石流已造成74人死亡; (4)发展趋势表现为泥石流沟多处于形成期和发展期(113条,占89%),发生的年际准周期由20a缩短至不足10a,且发生条(次)由4条(次)增加至44条次(2005年); (5)泸定县泥石流防治的突出问题表现为城镇泥石流问题、泥石流堵塞主河问题、风景区泥石流问题与冲沟泥石流问题,建议通过科学规划、风险防御体系构建、土木工程治理、监测预警等措施予以防御。  相似文献   

坡面泥石流降雨预报模型          下载免费PDF全文

余斌  朱云波  刘秧 《水科学进展》2017,28(6):839-848

中国东部地区的地质灾害多以坡面泥石流的形式发生,预测预报坡面泥石流的发生对于开展防灾减灾具有重要意义。地形、地质和降雨三大条件是影响坡面泥石流发生的主要条件。通过选择同样地质条件和基本相同降雨条件的区域,研究影响坡面泥石流发生的地形条件,并得出可以用于坡面泥石流预报的坡面泥石流地形条件。结果表明:地形条件由坡面坡度因子、泥石流上部因子、泥石流侧面因子和临空面因子组成;较大的地形条件T对应较大的泥石流发生可能性;降雨条件由泥石流发生前的降雨量与1 h降雨量组成;得出了由地形条件T和降雨条件R组成的坡面泥石流预报条件P,P值越大,坡面泥石流发生的可能性越大。预报条件P可以预报坡面泥石流的发生。  相似文献   

西藏某水电站厂区泥石流危险性分析与防治措施     

余斌  杨永红  铁永波  李为乐 《地质灾害与环境保护》2009,20(2):3-7

西藏某水电站厂区后山发育了5条泥石流沟,2005年7月22日暴发了近百年来最大的泥石流,泥石流的规模和影响范围将直接影响到该厂房的枢纽布置、施工及运行安全。厂房区泥石流沟的泥石流固体物质来源丰富,形成区内沟道坡度陡峭,因此只要有足够的降雨就可以形成泥石流。以设计泥石流流量计算的泥石流的总径流量确定的泥石流危险范围与调查的厂区各条泥石流沟2005年的实际泛滥区很相近,并以此可以得到不同设计频率的泥石流危险区。电厂厂房区的设施在施工期和运行期间受到泥石流活动的一定影响,必须采取合理的泥石流工程防护措施,避免泥石流对厂房区设施的危害,保障电站的施工和运行,满足电厂厂区的建设需要。  相似文献   

Formation and characteristics of post-earthquake debris flow: a case study from Wenjia gully in Mianzhu, Sichuan, SW China   总被引：3，自引：0，他引：3  

H. Y. Ni  W. M. Zheng  Y. B. Tie  P. C. Su  Y. Q. Tang  R. G. Xu  D. W. Wang  X. Y. Chen 《Natural Hazards》2012,61(2):317-335

During the three flood seasons following the Wenchuan earthquake in 2008, two catastrophic groups of debris flow events occurred in the earthquake-affected area: the 2008-9-24 debris flow events, which had a serious impact on rebuilding; and the 2010-8-13/14 debris flow events, which destroyed much of the progress made in rebuilding. The Wenjia gully is a typical post-earthquake debris flow gully and at least five debris flows have occurred there. As far as the 2010-8-13 debris flow is concerned, the deposits of the Wenjia gully debris flow reached a volume of 3.1 × 10⁶ m³ in volume and hundreds of newly built houses were buried. This study took the Wenjia gully debris flow as an example and discussed the formation and characteristics of post-earthquake debris flow on the basis of field investigations and a remote sensing interpretation. The conclusions drawn from the investigation and analysis were as follows: (1) Post-earthquake debris flows were a joint result of both the earthquake and heavy rainfall. (2) Gully incision and loose material provision are key processes in the initiation and occurrence of debris flows and a cycle can be presented as the following process: runoff—erosion—collapse—engulfment—debris flow—further erosion—further collapse—further engulfment—debris flow enlargement. (3) The amount of rainfall that triggered debris flows from the Wenjia gully was significantly less than the average daily rainfall, while the intraday rainfall threshold decreased by at least 23.3%. (4) The occurrence mechanism of Wenjia gully debris flow was an erosion type and there was a positive relationship between debris flow magnitude and rainfall, which fitted an exponential model. (5) There were five representative characteristics of Wenjia gully debris flow: the long duration of the occurring process; the long distance of deposition chain conversion during the process of damage; magnification in the scale of debris flow; and the high frequency of debris flow events.  相似文献   

Characteristics of debris flows from the lower part of the Lotru River basin (South Carpathians,Romania)     

Viorel Ilinca 《Landslides》2014,11(3):505-512

This paper focuses on characteristics of debris flows from the lower part of the Lotru River basin (South Carpathians, Romania). The damage produced by these debris flows has included burial of agricultural land, roads covered by debris flows, and even the obstruction of the Lotru River. Simple statistical analysis has been used to emphasize the characteristics of the debris flow sites. The collected data show that heavy rainfall is the main triggering mechanism of debris flow events in the Lotru hydrographic basin. The daily rainfall data for this region show that important debris flow events generally occur when rainfall exceeds 40 mm in 24 h, while rainfall levels between 25 and 40 mm in 24 h result in hyperconcentrated flows. For 11 of 14 studied debris flow sites, the fan area is greater than the source area, probably due to the thickness of the regolith, which is up to 5–10 m deep. Both source area and deposition area are very dynamic. The retreat rate calculated for five debris flow sites ranges from 5 to 30 m in 30 years (from 1975 to 2005). Channel cross section measurements on one of the debris flows show that velocity values vary from 1.31 to 2.64 m/s; corresponding discharge values vary from 4 to 10.03 m³/s.  相似文献   

基于FLO-2D数值模拟的工布江达县城泥石流灾害危险性评价     

张浩韦  刘福臻  王军朝  张佳佳 《地质力学学报》2022,28(2):306-318

工布江达县位于藏东地区,雨季区内泥石流频发,对人民基本生活和区域经济建设与发展造成了严重影响。为研究藏东地区中—小型泥石流灾害对城镇居民聚集区的危害特征和潜在危险性,运用FLO-2D软件,以西藏自治区工布江达县县城周边居民分布较为集中的5条泥石流沟为研究对象,通过模拟泥石流泥深和流速等方面的冲淤特征,以县城典型泥石流沟模拟冲出结果为基础,确定泥石流强度并划定危险性分区,分析泥石流危险分区与居民聚集区之间的拓扑关系,评估县城周边泥石流危险性,为工布江达县城的城镇规划和防灾减灾提供技术参考。   相似文献   

Prediction method of debris flow by logistic model with two types of rainfall: a case study in the Sichuan, China   总被引：3，自引：3，他引：0  

Wenbo Xu  Wenjuan Yu  Guoping Zhang 《Natural Hazards》2012,62(2):733-744

Debris flow is a serious disaster that frequently happens in mountainous area. This study presents an effective method for forecasting it by rainfall, which is one of the important components for prediction. The Sichuan Province is taken as an example. The geographic information system (GIS) is chosen as a tool to estimate the precipitation of hazard point, and use of statistical technique is made to calculate attenuation coefficient of effective antecedent precipitation. With such methodologies, the logistic regression model is used to comparatively establish the prediction model of two forms rainfall combination: (1) intraday rainfall and 10-day previous rainfall, (2) intraday rainfall and two types of effective antecedent rainfall which are short-time-heavy rainfall and long-time-light rainfall. The results indicate that the location of debris flows and the distribution of rainfall are factors interrelated. Secondly, the contribution rate of intraday rainfall is the highest. Thirdly, the second form rainfall combination has a higher prediction accuracy, 2.3% for short-time-heavy rainfall and 2.1% for long-time-light rainfall, which suggests that a moderate improvement is achieved by the rainfall classification.  相似文献   

Research on prediction of debris flows triggered in channels     

Bin Yu 《Natural Hazards》2011,58(1):391-406

The accurate prediction of debris flows occurrence that will allow the reduction or prevention of economic losses and human casualties is presently the most difficult aspect of debris flows studies but also the aspect that receives most attention. Most prediction methods are based on rainfall as the basic parameter, with the moment of occurrence as only result, and without a prediction of debris flow travel time and size. This paper takes Jiangjia Gully in Dongchuan of Yunnan Province as an example, and considers, on the basis of the fulfillment of the essential condition: the abundant availability of loose materials, the conditions for the formation of debris flows. Based on the mechanism of the initiation of debris flows in channels and the volume of rainfall in the basin, this paper also gives a systematic analysis on the travel time and size of the debris flow and suggests that the hydrological condition for forming debris flow is the unit discharge of the flood ≥0.35 m³/s.m. It uses the 10-min rainfall intensity to calculate both the run-off of the rainfall and the unit discharge caused by the run-off, thus predicting the occurrence of debris flows. The velocity and the travel time of a debris flow can also be determined using the unit discharge of the run-off. The total volume of debris flows can be calculated using the 10-min intensity of rainfall and the total volume of the run-off, together with the volume concentration of the sediment in a debris flow.  相似文献   

Catastrophic debris flows triggered by a 4 July 2013 rainfall in Shimian,SW China: formation mechanism,disaster characteristics and the lessons learned   总被引：2，自引：2，他引：0  

Huayong Ni  Wanmo Zheng  Zhi Song  Wei Xu 《Landslides》2014,11(5):909-921

On 4 July 2013, three catastrophic debris flows occurred in the Hougou, Majingzi, and Xiongjia gullies in Shimian county and produced debris dams and river blockages, resulting in serious casualties and huge economic loss. Though debris flows have been identified prior to the catastrophic events, their magnitudes and destructive power were far beyond early recognition and hazard assessment. Our primary objective for this study was to explore the formation mechanism and typical characteristics and to summarize the lessons learned from these disastrous events in order to avoid the repeat of such disasters in the future. Based on field investigation and imagery interpretation of remote sensing carried out following the catastrophic events, four conclusions were drawn: (1) The catastrophic debris flows were initiated from surface-water runoff, and the triggering factor was attributed to the local intensive rainfall with an hourly intensity of more than 46.7 mm. (2) Entrainment was the most important sediment-supplying method for the debris flow occurrence, and the source materials transported by debris flows from the three gullies were estimated to be about 97?×?10⁴ m³ in volume altogether. (3) As surface-water runoff eroded and entrained hillslope and channel materials persistently, debris flows were characterized by intensive incision at upper or middle reaches and significant magnification effect in flow discharge and volume downstream. Corresponding peak discharge surveyed at the outlets of the Hougou, Majingzi, and Xiongjia gullies was estimated up to 751.0 m³/s, 870.1 m³/s, and 758.7 m³/s, respectively. (4) Debris flows that occurred from the three gullies all belonged to viscous ones and the bulk densities were calculated more than 1.80 g/cm³, indicating a huge carrying capacity and destructive impacting power. In addition, the lessons learned from the catastrophic events were summarized, including recognition and assessment on debris flow hazard and utilization of deposition fan. In this paper, prevention suggestions on debris flow prone valleys with high-vegetation coverage and low occurrence frequency were also put forward. The results of this study contribute to a better understanding on the initiation mechanism, dynamic characteristics, and disaster mitigation of debris flows initiated from intense rainfall and surface-water runoff in mountainous areas.  相似文献   

Rainfall-triggering response patterns of post-seismic debris flows in the Wenchuan earthquake area     

Wei Zhou  Chuan Tang  Th. W. J. Van Asch  Chunhua Zhou 《Natural Hazards》2014,70(2):1417-1435

Several giant debris flows occurred in southwestern China after the Wenchuan earthquake, causing serious casualties and economic losses. Debris flows were frequently triggered after the earthquake. A relatively accurate prediction of these post-seismic debris flows can help to reduce the consequent damages. Existing debris flow prediction is almost based on the study of the relationship between post-earthquake debris flows and rainfall. The relationship between the occurrence of post-seismic debris flows and characteristic rainfall patterns was studied in this paper. Fourteen rainfall events related to debris flows that occurred in four watersheds in the Wenchuan earthquake area were collected. By analyzing the rainfall data, characteristics of rainfall events that triggered debris flows after the earthquake were obtained. Both the critical maximum rainfall intensity and average rainfall intensity increased with the time. To describe the critical conditions for debris flow initiation, intensity–duration curves were constructed, which shows how the threshold for triggering debris flows increased each year. The time that the critical rainfall intensities of debris flow occurrences return to the value prior to the earthquake could not be estimated due to the absent rainfall data before the earthquake. Rainfall-triggering response patterns could be distinguished for rainfall-induced debris flows. The critical rainfall patterns related to debris flows could be divided on the basis of antecedent rainfall duration and intensity into three categories: (1) a rapid triggering response pattern, (2) an intermediate triggering response pattern, and (3) a slow triggering response pattern. The triggering response patterns are closely related to the initiation mechanisms of post-earthquake debris flows. The main difference in initiation mechanisms and difference in triggering patterns by rainfall is regulated by the infiltration process and determined by a number of parameters, such as hydro-mechanical soil characteristics, the thickness of the soil, and the slope gradient. In case of a rapid triggering response rainfall pattern, the hydraulic conductivity and initial moisture content are the main impact factors. Runoff erosion and rapid loading of solid material is the dominant process. In case of a rainfall pattern with a slow triggering response, the thickness and strength of the soil, high hydraulic conductivity, and rainfall intensity are the impact factors. Probably slope failure is the most dominant process initiating debris flows. In case of an intermediate triggering response pattern, both debris flow initiation mechanisms (runoff erosion and slope failure) can play a role.  相似文献   

云南省鲁甸县地质灾害特征与成因研究   总被引：1，自引：0，他引：1  

胡金  李波  唐立梅  唐春 《地质灾害与环境保护》2007,18(4):15-19

鲁甸县地质灾害类型众多,主要有滑坡、泥石流、崩塌、地裂缝等.鲁甸县境内现有地质灾害86处,其中滑坡60处、泥石流13处、崩塌10处、地裂缝3处.地质灾害规模以小型为主,占62.79%,其次为中型和大型,有少量巨型地质灾害.在资料收集与野外调查的基础上,从地形地貌条件、地层岩性条件、地质构造条件、降雨、人类工程活动、地震活动等方面探讨了地质灾害的形成因素,找出成灾规律,并提出了防灾、减灾对策.  相似文献   

暴雨型泥石流预警模型初步研究     

屈永平  唐川 《工程地质学报》2014,22(1):1-7

2010年8月13日四川都江堰市龙池地区暴发了特大规模的群发性暴雨型泥石流过程,给龙池地区的震后恢复重建带来了巨大的灾难,因此,研究该区泥石流发生机理和预警十分必要。本文在总结前人关于泥石流暴发与降雨条件研究成果基础上,发现泥石流物源含水量及地表径流流深等是导致流域内松散物源启动的主要原因。根据其前期降雨量和有效降雨强度等特征,建立了泥石流流域物源土体颗粒个别启动、局部启动和大量启动的判别式,建立了适合该区域暴雨泥石流预警模型,将可能诱发泥石流暴发的不同降雨条件划分为蓝、黄和红色3个危险等级,为该区泥石流监测预警提供了科学依据。  相似文献   

中国西部泥石流及其减灾对策   总被引：26，自引：0，他引：26       下载免费PDF全文

崔鹏  韦方强  谢洪  杨坤  何易平  马东涛 《第四纪研究》2003,23(2):142-151

中国西部多为山区,泥石流异常发育,类型相当齐全,几乎发育着除火山泥石流以外的各种类型泥石流.泥石流严重危害山区城镇、交通、农田、工矿和水利工程等,造成严重灾害.仅已查明的泥石流就有15797条,其中铁路沿线泥石流1294条.有108个县级城镇、19个地(州、市)首府城镇和4个省会城镇受到泥石流的威胁或危害.西部大开发应注重泥石流减灾,特别要加强工程前期减灾预研和减灾知识普及,建立灾害信息系统,实现资料共享,把城市规划和减灾规划结合起来,进一步搞好环境保护和生态建设.  相似文献   

Catastrophic debris flows triggered by a 14 August 2010 rainfall at the epicenter of the Wenchuan earthquake   总被引：4，自引：1，他引：3  

Chuan Tang  Jing Zhu  Jun Ding  Xiaofei F. Cui  Lei Chen  Jianshi S. Zhang 《Landslides》2011,8(4):485-497

The Wenchuan earthquake of May 12, 2008 produced large amounts of loose material (landslide debris) that are still present on the steep slopes and in the gullies. This loose material creates an important hazard as strong rainfall can cause the development of devastating debris flows that will endanger the resettled population and destroy the result of reconstruction efforts. On 14 August 2010, a total of 21 debris flows were triggered by heavy rainfall around the town of Yingxue, located near the epicenter of the Wenchuan earthquake. One of these debris flows produced a debris dam, which then changed the course of the river and resulted in the flooding of the newly reconstructed Yinxue town. Prior to this catastrophic event, debris flow hazard had been recognized in the region, but its potential for such widespread and devastating impacts was not fully appreciated. Our primary objective for this study was to analyze the characteristics of the triggering rainfall and the sediment supply conditions leading to this event. Our field observations show that even small debris flow catchment areas have caused widespread sediment deposition on the existing fans. It is concluded that the whole of the area shaken by the Wenchuan earthquake is more susceptible to debris flows, initiated by localized heavy rainfall, than had been assumed earlier. The results of this study contribute to a better understanding of the conditions leading to catastrophic debris flow events in the earthquake-hit area. This is essential for the implementation of proper early warning, prevention, and mitigation measures as well as a better land use planning in this area.  相似文献   

汶川震区暴雨泥石流发生的降雨阈值   总被引：1，自引：0，他引：1       下载免费PDF全文

周伟  唐川 《水科学进展》2013,24(6):786-793

搜集了汶川震区暴雨泥石流发生的降雨数据,采用詹氏法和修正法两种雨场分割法对其进行处理,研究了降雨参数（降雨强度、累积雨量和降雨历时）与泥石流发生之间的关系,建立了汶川震区暴雨泥石流发生的降雨阈值模型。结果表明:采用詹氏法和修正法这两种雨场分割方法所获得的降雨参数之间存在差异。两者的累积雨量差异不大,但后者的平均雨强要小于前者,其原因在于修正法改善了詹氏法估计降雨时间过短的缺点,延长了降雨历时。通过分析平均雨强~历时、累积雨量~历时、标准化平均雨强~历时和标准化累积雨量~历时之间的关系,采用单线法建立了汶川震区暴雨泥石流发生的降雨阈值。研究成果在四川省绵竹市清平乡的泥石流灾害事件中进行了应用与验证,结果表明该方法具有合理性和可行性。  相似文献   

低山丘陵区典型滑坡-泥石流链生灾害特征与成灾机理     

冯文凯  贾邦中  吴义鹰  吴钟腾  白慧林 《中国地质灾害与防治学报》2022,33(1):35-44

2019年6月10—13日,龙川县发生持续强降雨,导致全县境内发生大量滑坡、泥石流灾害,贝岭镇米贝村是三个重灾区之一。本文以贝岭镇米贝村6号沟发生的滑坡-泥石流链生灾害为研究对象,在野外精细化调查测量基础上,结合数值模拟分析与计算,对链生灾害特征与成灾机理展开研究。研究发现:①6号沟内共发育7处浅层土质小型滑坡,仅3号滑坡体与部分6号滑坡体转化为泥石流,构成泥石流主要物源,其余滑坡未构成持续性影响;②持续降雨下渗,坡体由非饱和向饱和状态转变,坡表形成连续饱和区,孔隙水压力的增加与孔隙水的软化促使土体强度降低,加之坡体饱和自重的增大,斜坡发生浅表层失稳破坏;③降雨的持续下渗与支沟沟源“漏斗状”地形下的地表汇水快速增大滑坡松散堆积体内的含水率,促使其物理性质发生变化,在重力势能下呈流态状启动、运动转化为泥石流。降雨结构影响滑坡-泥石流链生过程,前期降雨引发滑坡、后期降雨启动形成泥石流,滑坡与泥石流的发生表现出阶段性特征。研究成果有助于指导当地政府进一步开展滑坡-泥石流链生灾害的防灾减灾工作,也为该地区未来区域预警研究工作提供理论支撑。  相似文献   

Rainfall thresholds for debris flow initiation in the Wenchuan earthquake-stricken area,southwestern China   总被引：5，自引：2，他引：3  

Wei Zhou  Chuan Tang 《Landslides》2014,11(5):877-887

The Wenchuan earthquake-stricken area is frequently hit by heavy rainfall, which often triggers sediment-related disasters, such as shallow landslides, debris flows, and related natural events, sometimes causing tremendous damage to lives, property, infrastructure, and environment. The assessment of the rainfall thresholds for debris flow occurrence is very important in order to improve forecasting and for risk management. In the context of the Wenchuan earthquake-stricken area, however, the rainfall thresholds for triggering debris flows are not well understood. With the aim of defining the critical rainfall thresholds for this area, a detailed analysis of the main rainstorm events was carried out. This paper presents 11 rainfall events that induced debris flows which occurred between 2008 and 2012 after the Wenchuan earthquake. The rainfall thresholds were defined in terms of mean rainfall intensity I, rainfall duration D, and normalized using the mean annual precipitation (MAP). An ID threshold and a normalized I _MAP D threshold graph could be set up for the Wenchuan earthquake-stricken area which forms the lower boundary of the domain with debris flow-triggering rainfall events. The rainfall threshold curves obtained for the study area were compared with the local, regional, and global curves proposed by various authors. The results suggest that debris flow initiation in the study area almost requires a higher amount of rainfall and greater intensity than elsewhere. The comparison of rainfall intensity prior to and after the earthquake clearly indicates that the critical rainfall intensity necessary to trigger debris flows decreased after the earthquake. Rainfall thresholds presented in this paper are generalized, so that they can be used in debris flow warning systems in areas with the same geology as the Wenchuan earthquake-stricken area.  相似文献   

四川省8·13特大泥石流灾害特点、成因与启示   总被引：16，自引：0，他引：16  

许强 《工程地质学报》2010,18(5):596-608

2010年8月12～14日,四川省部分地区普降大到暴雨,在5.12汶川地震极重灾区的绵竹市清平乡、汶川县映秀镇和都江堰龙池镇诱发了极为严重的泥石流灾害。本次泥石流灾害表明:地震区和非地震区、震前和震后的泥石流在发育分布规律、启动条件、暴发规模、活动形式及其成灾方式和危害性等方面都具有显著的差别。通过对8.13清平乡泥石流、映秀红椿沟泥石流以及龙池泥石流的基本分析,表明8.13泥石流具有群发性、突发性、破坏性、灾害链效应等特点,同时还具有沿发震断裂呈带状分布、物源主要来自于汶川地震触发的崩滑堆积物、活动形式主要表现为"拉槽"侵蚀等显著特征。震区异常丰富的松散固体物源和极端气候所造成的局地短时强降雨是泥石流暴发的根本原因。针对汶川地震区泥石流暴发的新特点,应进一步加强对震区泥石流的防治,尤其是针对具有重大泥石流隐患的沟谷,一方面应提高设防标准,强化工程治理和专业监测预警,另一方面更应引入风险管理和控制的理念,注重"防""治"结合;"软""硬"结合;工程措施与非工程措施结合;"治理"与"管理"结合,调动全社会力量,共同防范地质灾害。  相似文献   

北京门头沟区涧沟泥石流危险性调查评价   总被引：1，自引：0，他引：1  

赵越  冉淑红 《中国地质灾害与防治学报》2014,(2):37-42

涧沟泥石流位于北京市门头沟区潭柘寺镇西北,本文分析了涧沟泥石流的基本特征和形成条件,预测了不同暴雨频率下的泥石流流量,结合泥石流的易发程度及可能造成的损失,评价了泥石流隐患的危险性,并提出了防治建议。  相似文献   

Recent catastrophic debris flows in Chile: Geological hazard,climatic relationships and human response     

《Quaternary International》2006,142(1):83-95

Debris flows are an important type of geological hazard in Chile, affecting cities, towns and rural areas throughout the country despite the variation in climate regimes. In this summary paper, recent debris flows in the cities of Antofagasta and Santiago, in northern and central Chile, and in a rural area near Lake Ranco in central-southern Chile in 1991, 1993 and 2004, respectively, are reviewed. Triggering factors for flow occurrence are identified and different approaches to debris flow hazard assessment and the effects of debris flows on people and the environment are discussed. Furthermore, the relationships between debris flow occurrence and climatic anomalies such as El Niño episodes are analysed. A clear pattern of debris flow generation associated with El Niño events is found for Antofagasta and Santiago. The risk related to debris flows in Chile is of increasing importance because of the continuous expansion of cities to hazardous areas such as alluvial fans. The results show that hazard assessment based on several factors is essential for the implementation of proper prevention and mitigation measures for future debris flow events in the country.  相似文献