2013年芦山地震滑坡空间分布分析——以太平镇东北方向的一个典型矩形区为例   总被引：3，自引：2，他引：1  

许冲  肖建章 《地震地质》2013,35(2)

选择2013年芦山地震中受到强烈地震动的太平镇东北方向一个20kmxl0km的矩形区作为研究区,开展芦山地震滑坡空间分析工作.基于震后野外调查与高分辨率航片人工目视解译法,建立了研究区内地震滑坡空间分布图.结果表明,在研究区内芦山地震至少触发了688处滑坡,区域内滑坡点密度为3.44个/km2.统计了地震滑坡密度与地形因子、地层岩性、地震因子的关系.滑坡最易发高程为1 600～1 800m;滑坡密度大体随着坡度的增加而增加;E与SE方向是地震滑坡的易发坡向与高发坡向;凸坡的地震滑坡易发性最高.二叠系阳新组(Py)的灰岩与白云岩、元古界花岗岩(Pt)是地震滑坡的易发岩性.地震因子与滑坡密度的统计结果表明,大体上PGA值越大,地震烈度越高,地震滑坡越易发生;地震滑坡与距离双石-大川断裂的统计结果表明在双石-大川断裂的出露处地震滑坡密度未发生突变.因子的交互统计结果表明了坡度与PGA这2个因子作用于地震滑坡的独立性.  相似文献   

基于高分卫星遥感影像的地震应急滑坡编目与分布特征探讨——以2017年8月8日九寨沟7.0级地震为例     

吴玮莹  王晓青  邓飞 《震灾防御技术》2017,12(4):815-825

地震应急是减轻地震灾害的重要途径之一。地震应急工作具有时间紧迫、事关重大的特点。2017年8月8日四川九寨沟M_S7.0级地震发生后,为快速、准确地提供地震引发的滑坡灾害分布,本研究基于震后第一天获取到的高分辨率遥感影像（高分二号卫星影像、北京二号卫星影像）,通过人工目视解译的方法初步建立了四川九寨沟地震滑坡编目。结果表明,该地震至少触发了622处同震滑坡,分布在沿使用影像边界框定的面积为3919km2的区域内。本研究还利用这个地震滑坡编目,统计了九寨沟地震滑坡数量和滑坡点密度（LND）与地形（坡度、坡向）、地震（地震烈度、震中距）等因素的关系。结果表明九寨沟地震滑坡多发生在坡度为20°—50°的区域内,滑坡的易发性随着坡度的增加而增加。受地震波传播方向的影响,E、SE向是地震滑坡较易发生的坡向。滑坡的易发程度和地震烈度呈正相关,即随着烈度的增大,滑坡易发性增大。滑坡易发性还随着震中距增加而降低,这是由于地震波能量随震中距的增加而衰减导致的。  相似文献   

基于GIS的2005年克什米尔地震区滑坡易发性区划     

U.Kamp  B.J.Growley  G.A.Khattak  L.A.Owen  许冲译  吕春来校 《世界地震译丛》2012,(4):62-76,F0003

2005年10月8日发生的MW7.6克什米尔地震在喜马拉雅地区的巴基斯坦与印度的北部触发了数千个滑坡。这些滑坡密集分布于6个地貌—地质—人类活动环境区内。基于ASTER卫星影像和GIS技术,构建并分析了一个包含2252个滑坡的空间数据库。应用滑坡多元评估判据确定单次地震事件触发滑坡各个地震滑坡控制参数的重要性。这些控制参数包括岩性、断裂、坡度、坡向、高程、土地覆盖类型、河流与公路。结果展示了4类级别的滑坡易发区域。此外,结果还表明了岩性对滑坡的影响作用最大,尤其在岩石高度破碎区域,例如页岩、板岩、碎屑岩、石灰岩与白云岩。还有,距离断层、河流与公路较近也是滑坡发生的一个重要因素。滑坡也常常发生在坡向朝南的中海拔斜坡上。灌木林地、草原、农业用地也是滑坡易发区域,而森林覆盖的斜坡较少发育滑坡。研究区的1/3被滑坡极高易发区或高易发区所覆盖,需要开展快速的滑坡减灾措施。其余的区域为滑坡低易发区与中易发区,相对稳定。本文研究支持以下观点:(1)地震触发滑坡往往发生在地震滑坡控制参数相关的特定区域内;(2)在西喜马拉雅地区,森林砍伐与公路建设往往是同震滑坡或地震后短期内滑坡发生的重要控制因素。  相似文献   

2013年岷县漳县M_s6.6地震滑坡特征参数分析          下载免费PDF全文

田颖颖  许冲  徐锡伟  陈剑 《地震工程学报》2013,35(4):761-767

2013年7月22日,甘肃岷县、漳县发生了M_s6.6地震。震后遥感影像目视解译与实地调查结果表明,本次地震触发了至少2 330处滑坡,大概分布在一个面积为330 km~2的矩形区域内。本文在GIS平台下统计了这些滑坡的发生高程、坡度、坡向、斜坡曲率、地层岩性、PGA共6类地形、地质与地震特征参数的特征。结果表明2400 m~2 600 m的高程范围、10°~20°的坡度范围、西与北西坡向、-1~-0.1斜坡曲率值范围、古近系(E~b)砾岩与砂岩中、地震动峰值加速度(PGA)为0.16g是岷县漳县地震滑坡的多发因子区间。  相似文献   

汶川Ms8.0级地震后龙门山构造地貌及地表侵蚀过程研究——以湔江海子段河为例     

赵国华  李勇  闫亮 《四川地震》2014,(1):15-23

汶川Ms8.0级地震驱动的构造抬升作用和滑坡、泥石流剥蚀作用如何影响龙门山的地貌生长是目前争论的焦点。本文运用GIS技术,定量计算了湔江流域的坡度、地形起伏度、面积—高程积分等地貌参数,根据这些参数的计算结果,对湔江流域的构造地貌特征进行了量化分析;以汶川Ms8.0级地震重灾区湔江海子河右岸流域的滑坡、泥石流为例,并且利用野外实测资料、卫星照片及数字高程资料等,对于汶川地震驱动的构造抬升与滑坡、泥石流的表面侵蚀过程进行研究,获得以下初步认识:(1)湔江流域的映秀—北川断层以北地区地貌处于"壮年期",坡度、地形起伏度大;(2)汶川Ms8.0级地震后该地区发生了严重的同震滑坡及震后滑坡、泥石流灾害,海子河右岸流域的同震抬升量为5 339×104m3,同震滑坡量为3 852×104m3,同震抬升量大于同震滑坡量,地貌出现生长现象;(3)地震产生的泥石流量应略大于1 000×104m3,同震滑坡物质的30%转化为了泥石流量,因其海子沟右岸陡峻的坡度,绝大部分的泥石流冲入海子河,成为河道沉积物;(4)以目前湔江海子河流水搬运能力,在能够完全搬运出同震滑坡物质的前提下,同震滑坡物质搬运出龙门山至少需要283.2 a,表明在一个地震周期内,龙门山的同震滑坡物质可以搬运出龙门山;(5)准周期性相当震级地震引起的构造抬升及其均衡反弹作用也是龙门山的形成有重要作用的因素之一。  相似文献   

基于逻辑回归模型的九寨沟地震滑坡危险性评估   总被引：1，自引：0，他引：1  

马思远  许冲  田颖颖  徐锡伟 《地震地质》2019,41(1)

发生于2017年8月8日的四川九寨沟M_S7. 0地震触发了大量的同震滑坡。基于Geoeye-1震后0. 5m分辨率的遥感影像开展极震区同震滑坡解译,圈定了4 834处滑坡。选择高程、坡度、坡向、水平断层距离、垂直断层距离、震中距离、河流距离、道路距离、TPI指数以及岩性共10个因子作为地震滑坡的影响因子,应用逻辑回归(Logistic Regression,LR)模型开展九寨沟地震滑坡危险性评价,并对评价结果的合理性进行检验。结果表明,基于LR模型的滑坡危险性评价图与实际滑坡发育情况十分吻合,其中五花海—夏莫段、火花海和九寨天堂洲际大饭店—如意坝段均为滑坡危险性极高的区域。采用ROC曲线对危险性评价结果进行模型成功率与预测率的定量评价,结果显示,LR模型的预测精度较为理想,训练样本集和验证样本集的AUC值分别为0. 91和0. 89。文中结论为震区恢复重建工作中地震滑坡的防灾减灾提供了科学参考。  相似文献   

鲁甸地震的滑坡物质运移规律与地形特征     

陈晓利  刘春国  传一健  兰剑  魏延坤 《地震地质》2021,43(1):92-104

长期、缓慢的地貌演化具有阶段性的特点,构造抬升与侵蚀相互作用引起山坡物质运移,使地貌单元具有向相对稳定状态转变的趋势。滑坡作为山坡物质运移的一种主要方式,在地貌演化过程中起到了重要作用。2014年鲁甸MS6.5地震诱发了异常多的滑坡,可以看作是该区地貌物质在短时间内发生的集中调整过程。这些滑坡主要沿河流分布,表明河流侵蚀使河岸地形变陡、强度降低,形成发生物质运移的有利条件,从而增强了地震滑坡的易发性。文中以SRTM 30m数字高程模型(DEM)为基础,通过对鲁甸地震滑坡分布区的网格化划分,对研究区滑坡分布及其与地形特征的关系进行了定量分析。除计算网格单元内的高程、高差及算数平均坡度外,还提出期望坡度的计算方法以对网格单元内的地形进行平滑。在此基础上,对该区域地貌特征参数自相关性进行了分析和比较,以判断地表物质分布是否均衡并寻找其中的分异性单元(滑坡易发区)。结果表明,研究区的高程与坡度、地形高差呈负相关,反映出显著的河流侵蚀效应;其中地形特征在分析单元的期望坡度与算数平均坡度这2个不同尺度下表现出很高的一致性,可能代表着研究区地貌在演化中具有的一种动态稳定特征,而与此特征不符的地貌单元则是可能发生滑坡进行物质调整的区域,是地貌自适应调整的一种表现。2014年鲁甸地震触发的大部分规模较大的滑坡发生在期望坡度与平均坡度差异较大的区域,这些区域大多位于河谷,显示河流侵蚀及其所造成的地形特征对滑坡易发性的控制作用。基于这样的认识,认为该区未来的物质运移区域仍然受到河流侵蚀的控制,滑坡易发性高的位置仍将沿河流分布。作为对比的九寨沟地震震区的地貌参数分析结果则表现出不同的特点,这种地形地貌分布上的差异性与滑坡空间分布及滑坡规模等之间的关系值得深入探讨。  相似文献   

2014年鲁甸MS6.5地震触发滑坡编录及其对一些地震参数的指示   总被引：6，自引：5，他引：1  

许冲  徐锡伟  沈玲玲  窦帅  吴赛儿  田颖颖  李西 《地震地质》2014,36(4)

2014年8月3日云南鲁甸MS6.5地震不仅直接造成建筑倒塌,还触发了大量的山体滑坡,一些滑坡掩埋了居民点,造成了严重的人员伤亡与财产损失.基于震后高分辨率TH01-02与SJ9A卫星影像,震前高分辨率GF1卫星影像,采用人工目视解译方法,建立了鲁甸地震滑坡编录图.并基于部分滑坡的野外照片与超高分辨率航片对解译结果进行验证.结果表明,鲁甸地震至少触发了1 024处面积＞100m2的滑坡.这些滑坡分布在一个面积约为250km2的区域内,滑坡覆盖面积为5.19km2,总体积约为2.2×107m3.滑坡分布区内的滑坡点密度约为4.03个·km-2,面密度约为2.04％,滑坡平均剥蚀厚度约为86.7mm.对震中周围不同方位的滑坡数量与面积进行了统计,结果显示,滑坡总体上呈NW-SE方向分布,且大多数滑坡位于震中的SE方向.这表明鲁甸地震发震构造更可能是一条NW向断层,且破裂方向是自NW向SE.这与其他地震、地质、地球物理等方面的证据所表现出来的发震断层性质相吻合.将鲁甸地震滑坡分布面积、滑坡数量、面积、体积与全球其他震例进行对比,结果表明,鲁甸地震滑坡分布区较小,但是大滑坡较多、滑坡体积相对大.这反映了鲁甸地震具有震源浅与地震能量衰减迅速的特点.  相似文献   

基于加权证据权模型的丽江—小金河断裂中南段滑坡易发性评价     

田鹏  常玉巧  白仙富  周青云  孙滨 《地震研究》2023,(3):332-342

丽江—小金河断裂全新世活动强烈、地震频发,沿断裂带的滑坡地质灾害极为发育。以断裂带中南段两侧10 km为研究区,根据地质地理环境和滑坡发育特征,选取高程、坡度、坡向、距活动断裂距离、距河流水系距离、距道路距离、工程地质岩组、降雨量、土地利用类型以及地震动峰值加速度10个影响因子为评价指标,运用加权证据权模型,开展丽江—小金河断裂中南段滑坡易发性评价,基于自然断点法将滑坡易发程度划分为高易发、中等易发、低易发和非易发4个级别,评价结果AUC值为0.81。结果显示：(1)研究区内滑坡受坡度、断裂、水系、岩性因素的影响程度更高;(2)高易发区和中等易发区主要沿断裂带和金沙江等主要河流水系两侧分布,在玉龙县、松坪乡、大东乡等周边区域较集中;(3)西川乡处于高易发区,但目前滑坡灾害点较少,应加强关注。  相似文献   

汶川地震同震滑坡物质在震区的滞留和运移及其对龙门山地形演化的影响   总被引：1，自引：1，他引：0       下载免费PDF全文

王伟  刘静  Vincent Godard  张金玉  许冲  李志刚  徐心悦  许强  王鹏  谢克家 《地球物理学报》2018,61(5):1970-1983

2008年M_W7.9汶川地震导致龙门山断裂发生强烈地壳变形,同时引发的巨量同震滑坡加速了该地区的地表剥蚀和河流侵蚀.然而,目前尚缺少系统的数据定量研究滑坡物质的运移以及河流侵蚀速率随时间的演化规律,这些对理解龙门山前缘物质的再分配以及强震对活动造山带地形塑造的作用至关重要.为此,本研究在汶川地震后的6年间,对震区沱江上游3条支流湔江、石亭江、绵远河流域进行了多期次的定点现代河沙采样.通过系统测量河沙中的石英¹⁰Be浓度,并与震前已发表的数据进行对比,发现如下基本特点：（1）震后河沙¹⁰Be浓度均有明显降低,表明同震滑坡物质对河沙的稀释作用;（2）震后河流对河沙的运移量增加为震前的1.3~18.5倍,因此震后龙门山地区侵蚀速率短期显著增加;（3）初步估计得到汶川地震产生的滑坡物质被完全运移出造山带所需要的时间至少为100~4000年,接近龙门山地区强震复发周期;（4）震间和同震产生的构造变形和地表剥蚀在空间上具有互补性.考虑到地表剥蚀引起的地壳均衡反弹效应,认为类似汶川地震的强震有利于龙门山的隆升.认识震前、震时和震后的地壳变形及侵蚀过程有助于更好地理解单次强震事件对高原边界龙门山地形演化的作用.  相似文献   

Newmark方法在芦山地震诱发滑坡分布预测研究中的应用   总被引：9，自引：2，他引：7  

陈晓利  袁仁茂  庾露 《地震地质》2013,35(3)

对于地震滑坡灾害而言,进行地震滑坡危险区划是降低损失的有效手段之一.因此,地震滑坡危险性预测方法的研究成为这一领域的热点.2013年4月20日芦山地震诱发了大量的滑坡崩塌,造成了严重的人员伤亡和社会经济财产损失.文中通过对地震灾区震后航片、遥感影像等的解译,初步获得此次地震诱发滑坡的分布概况.在芦山地震灾区的地形和岩性分析的基础上,基于Newmark物理平衡模型,对该区的潜在地震滑坡危险区进行了分析预测,通过对比本研究获得的潜在滑坡区域预测结果与解译的滑坡分布情况,表明Newmark模型是一种有效的地震诱发滑坡预测分析方法.进一步探讨了不同滑坡影响范围估算方法的差异,认为震级与产生滑坡最远距离之间的关系是一种较好的估算方法.  相似文献   

Distribution of Landslides in Baoshan City, Yunnan Province, China   总被引：1，自引：1，他引：0  

GAO Yuxin  XU Chong  TIAN Yingying  MA Siyuan  SHEN Lingling  LU Yongkun  RAN Hongliu 《中国地震研究》2020,34(1):50-63

Using Google Earth software as a platform, this study has established an integrated database of both old and new landslides in Baoshan City, Yunnan Province, China, and analyzed their development characteristics together with distribution rules, respectively. Based on the results, a total of 2 427 landslides occurred in the study area, including 2 144 new landslides and 283 old landslides, with a total area of about 104.8 km². The new landslides are mostly in small-scales with an area less than 10 000 m², while the area of individual old landslide is mostly larger than 10 000 m². By analyzing the relationship between the two types of landslides and eight impact factors (i.e., elevation, slope angle, slope aspect, slope position, lithology, fault, regional Peak Ground Acceleration (PGA), and average annual rainfall), the different individual influencing factors, distribution regularities and mechanisms of the two types of landslides are revealed. In detail, the main influencing factors of new landslides are elevation, slope angle, slope aspect, slope position, lithology, regional PGA and average annual rainfall, while the influencing factors of old landslides are mainly elevation, slope angle, and lithology. This study provides basic data and support for landslide assessment and further disaster reduction in Baoshan City. Besides, it also provides new constraints in deeply understanding the effect of different topographic and geological conditions, historical earthquakes, rainfall and other factors on the occurrence mechanisms of both new landslides and old landslides.  相似文献   

黄土地区地震滑坡的分布特征及其影响因素分析   总被引：2，自引：0，他引：2  

陈永明  石玉成  刘红玫  卢育霞 《中国地震》2005,21(2):235-243

黄土地区极易形成地震滑坡灾害。现场调查显示，受大地构造单元、基底岩层结构、地形地貌条件、地震烈度、断裂构造和马兰黄土临空厚度等因素影响，地震黄土滑坡的展布形态较为复杂，在空间上分布很不均匀，常表现为片状、带状和线状展布，并在不同区域有不同的发育特点。在地震黄土斜坡稳定性分析和灾害预测中，必须考虑多项影响因子。  相似文献   

GPS在山区滑坡变形监测中的应用     

唐杰军  ;汪亦显 《地震学刊》2009,(1):98-102

山区滑坡的稳定性一直是倍受关注的一个重要安全问题。本文讨论了滑坡位移传统监测方法的缺陷和新型的基于GPS的自动监测技术所具有的独特优势,介绍了适用于山区公路滑坡位移监测的高精度的GPS技术。实践表明,采用GPS技术进行山区滑坡的稳定性监测,具有可操作性更强、精度更高、不受气候条件约束以及高度自动化等优点,能够为预测边坡可能出现失稳破坏的部位和变形破坏时间提供更可靠的监测资料,因而GPS监测技术值得在山区滑坡的变形监测领域中推广使用。  相似文献   

Linking landslides,hillslope erosion,and landscape evolution     

Oliver Korup 《地球表面变化过程与地形》2009,34(9):1315-1317

This Virtual Issue highlights 10 recent innovative, unconventional, or otherwise significant contributions to Earth Surface Processes and Landforms that help advance the state‐of‐the‐art in research on linkages between landslides, hillslope erosion, and landscape evolution. The selected studies address this feedback within a temporal spectrum that ranges from the event to the millennial scale, thus underscoring the importance of detailed field observations, high‐resolution digital topographic data, and geochronological methods for increasing our capability of quantifying landslide processes and hillslope erosion. Copyright © 2009 John Wiley & Sons, Ltd.  相似文献   

Terrain attributes of earthquake‐ and rainstorm‐induced landslides in orogenic mountain Belt,Taiwan          下载免费PDF全文

Jr‐Chuan Huang  John D. Milliman  Tsung‐Yu Lee  Yi‐Chin Chen  Jiin‐Fa Lee  Cheng‐Chien Liu  Jiun‐Chuan Lin  Shuh‐Ji Kao 《地球表面变化过程与地形》2017,42(10):1549-1559

Landsliding induced by earthquakes and rainstorms in montane regions is not only a sculptor for shaping the landscape, but also a driver for delivering sediments and above‐ground biomass downstream. However, the terrain attributes of earthquake‐ and rainstorm‐induced landslides are less discussed comprehensively in Taiwan. As part of an island‐wide inventory, we here compare and contrast the landslide terrain attributes resulting from two catastrophic events: the Chi‐Chi earthquake (M _w = 7.6, September 1999) and typhoon Morakot (rainfall >2500 mm, August 2009). Results show that the earthquake‐induced landslides are relatively small, round‐shaped and prone to occur primarily in middle and toe of slopes. In contrast, the rainstorm‐induced landslides are larger, horseshoe‐shaped and preferentially occurring in slope toes. Also, earthquake‐induced landslides, particularly large landslides, are usually found at steeper gradients, whereas rainstorm‐induced landslides aggregate at gradients between 25° and 40°. Lithologic control plays a secondary role in landsliding. From an island‐wide perspective, high landslide density locates in the region of earthquake intensity ≥ VI or one‐day rainfall ≥600 mm day^?1. Through the landslide patterns and their terrain attributes, our retrospective approach sheds light on accessing the historical and remote events for close geophysical investigations. Finally, we should bear in mind that the landslide location, size, and terrain attributes varying with triggers may affect the landscape evaluation or biogeochemical processes in landslide‐dominated regions. Copyright © 2017 John Wiley & Sons, Ltd.  相似文献   

昌马断裂带地震滑坡的基本特征   总被引：1，自引：0，他引：1  

康来迅  邹谨敞 《华南地震》1995,15(1):49-54

根据详细的野外地质调查和滑坡探槽资料，讨论了昌马断裂带地震滑坡形成的地质环境与内部结构特征。  相似文献   

Landslide distribution and size in response to Quaternary fault activity: the Peloritani Range,NE Sicily,Italy          下载免费PDF全文

Francesco Bucci  Michele Santangelo  Mauro Cardinali  Federica Fiorucci  Fausto Guzzetti 《地球表面变化过程与地形》2016,41(5):711-720

Landslides contribute to dismantle active mountain ranges and faults control the location of landslides. Yet, evidence of the long‐term, regional dependency of landslides on active faults is limited. Previous studies focused on the transient effects of earthquakes on slope stability in compressive and transcurrent regimes. Here we show that in the Peloritani range, NE Sicily, Italy, one of the fastest uplifting areas in the Mediterranean, a clear geographical association exists between large bedrock landslides and active normal faults of the Messina Straits graben. By interpreting aerial photographs, we mapped 1590 landslides and sackungs and 626 fault elements and their facets in a 300 km² area in the eastern part of the range. We used the new landslide and fault information, in combination with prior geological and seismic information, to investigate the association between bedrock landslides and faults. We find that the distribution and abundance of landslides is related to the presence of large active normal faults, and matches the pattern of the local historical seismicity. Landslide material is more abundant along the East Peloritani Fault System where the long‐term activity of the faults, measured by the average yearly geological moment rate, is larger than in the West Peloritani Fault System where landslides are less abundant. Along the fault systems landslide material concentrates where the cumulated fault throws are largest. We conclude that large landslides and their cumulated volume are sensitive to local rates of tectonic deformation, and discriminate the deformation of the single fault segments that dissect the Peloritani range. Our findings are a direct test of landscape evolution models that predict higher rates of landslide activity near active faults. Our work opens up the possibility of exploiting accurate landslide and fault maps, in combination with geological and seismic information, to characterize the long‐term seismic history of poorly instrumented active regions. © 2015 The Authors Earth Surface Processes and Landforms Published by John Wiley & Sons Ltd  相似文献   

Is climate change responsible for changing landslide activity in high mountains?     

Christian Huggel  John J. Clague  Oliver Korup 《地球表面变化过程与地形》2012,37(1):77-91

Climate change, manifested by an increase in mean, minimum, and maximum temperatures and by more intense rainstorms, is becoming more evident in many regions. An important consequence of these changes may be an increase in landslides in high mountains. More research, however, is necessary to detect changes in landslide magnitude and frequency related to contemporary climate, particularly in alpine regions hosting glaciers, permafrost, and snow. These regions not only are sensitive to changes in both temperature and precipitation, but are also areas in which landslides are ubiquitous even under a stable climate. We analyze a series of catastrophic slope failures that occurred in the mountains of Europe, the Americas, and the Caucasus since the end of the 1990s. We distinguish between rock and ice avalanches, debris flows from de‐glaciated areas, and landslides that involve dynamic interactions with glacial and river processes. Analysis of these events indicates several important controls on slope stability in high mountains, including: the non‐linear response of firn and ice to warming; three‐dimensional warming of subsurface bedrock and its relation to site geology; de‐glaciation accompanied by exposure of new sediment; and combined short‐term effects of precipitation and temperature. Based on several case studies, we propose that the following mechanisms can significantly alter landslide magnitude and frequency, and thus hazard, under warming conditions: (1) positive feedbacks acting on mass movement processes that after an initial climatic stimulus may evolve independently of climate change; (2) threshold behavior and tipping points in geomorphic systems; (3) storage of sediment and ice involving important lag‐time effects. Copyright © 2011 John Wiley & Sons, Ltd.  相似文献   

Topographic locations and size of earthquake‐ and typhoon‐generated landslides,Tachia River,Taiwan          下载免费PDF全文

Alice Y.‐L. Huang  David R. Montgomery 《地球表面变化过程与地形》2014,39(3):414-418

Analysis of mapped landslide locations using a high‐resolution (5‐m grid) digital elevation model (DEM) in the Tachia River basin, Taiwan, finds distinct differences in the topographic locations and size of landslides during the 1999 Chi‐Chi earthquake and the 2001 Toraji typhoon. Our analysis supports Densmore and Hovius' hypothesis that earthquake‐induced landslides cluster near ridgetops due to topographic amplification of ground shaking, and that typhoon‐induced landslides occur with greater frequency lower on slopes. In addition, the differing topographic locations of seismically‐induced and subsequent typhoon‐induced landslides shows no evidence of residual post‐earthquake influences on landslides during typhoon Toraji previously hypothesized for drainage basins closer to the earthquake epicenter. Our results support the interpretation that in this tectonically active landscape, seismically‐induced landslides help shatter and erode ridgetops but typhoon‐triggered landslides concentrate erosion farther downslope, with the combination acting to more uniformly lower upland terrain than either process does individually. Copyright © 2013 John Wiley & Sons, Ltd.  相似文献