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滑坡危险度评价的地形判别法 总被引:10,自引:1,他引:10
选取影响滑坡发育的坡度、坡形、坡向、坡体的相对高度和地形与地层产状的组合关系5个主要地形因素,结合三峡库区重点滑坡段(云阳-巫山)205个滑坡统计资料,利用地形判别法,对典型滑坡危险度进行评价。将各地形判别因子在区域滑坡发育上的贡献率作为评价典型滑坡危险度的评价值,利用层次分析法,建立典型滑坡危险度判别矩阵。将判别矩阵的归一化特征向量作为判别因子的权重,得到典型滑坡的危险度。通过建立典型滑坡危险度评价表,对滑坡进行有效的管理。此研究方法有效地避免了对评价因子赋值的主观性,并提出了对不同危险度等级的滑坡管理措施。 相似文献
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滑坡稳定性判别的非计算方法 总被引:2,自引:6,他引:2
用计算来确定滑坡的稳定性,由于参数选取存不确定因素,就必然导致了其计算结果的不确定性。而滑坡稳定性判别的非计算方法,是通过对滑坡发育程度、形成条件的综合分析来确定滑坡的稳定程度的方法。文中通过归纳分析波坡的形成条件,然后从滑坡地貌条件、动力作用、堆积物特征、诱发因素等方面详细阐述了滑坡稳定性判别的方法,最后,例举了川藏公路102滑坡实例对该方法进行了验证。实践证明该方法是滑坡稳定性中非常实用和有效的方法。 相似文献
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根据大量的野外地质调查和测量资料分析,讨论了地震滑坡沿昌马断裂带走向和倾向的展布特征。研究认为昌马断裂带地震滑坡主要发生在山坡坡度30°-50°的部位和山坡地形高差100-300m的部位;地震滑坡规模、数量的分布特征与断裂活动强度的分布变化有密切的关系,这是地震滑坡与降水滑坡、人为滑坡和融冻滑坡的最大区别;最后讨论了地震滑坡最大水平滑距的规律,对地震滑坡灾害预测有很现实的意义。 相似文献
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大型水平顺层滑坡形成机制数值模拟方法——以重庆钢铁公司古滑坡为例 总被引:2,自引:0,他引:2
采用数值模拟方法,以:重庆钢铁公司古滑坡为例,提出了大型水平顺层滑坡形成机制数值研究的思路,定量地再现了滑坡从夷平面一斜坡形成一滑坡产生的全过程,并利用不同模拟组合方案分析了作者首次引入的膨胀力以及水压力、地震力等等因素对滑坡形成的作用,分析出该大型水平顺层滑坡的形成机制为牵引-平推式滑坡。 相似文献
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针对堆积层滑坡变形破坏特点,运用灰色理论,对滑坡位移观测资料进行了处理,求出了灰色位移矢量角。通过对新滩滑坡灰色位移矢量角特征分析,发现灰色位移矢量角具有与滑体稳定状态相一致的动态特征。因此提出运用灰色位移矢量角来预报堆积层滑坡的新方法。 相似文献
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On April 27, 1993, a large landslide in the Tully Valley, Onondaga County, NY, destroyed three houses and resulted in the evacuation of four others; it also triggered a loss of potable drinking water for about 15 homes north of the slide area and affected a total of 20 ha of land. In the 7 years following this slide, several studies have been conducted by federal and state environmental agencies and by local universities. The goal of these investigations has been to determine what caused this slide, document the history of past landslides in the region, and establish whether future slides are likely to occur. This paper reports on the results of these investigations and examines their effect on the Tully Valley community. 相似文献
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友谊桥滑坡位于中尼公路樟木口岸至国界友谊桥之间,中尼公路(中国境内)最末尾一段。友谊桥滑坡每年雨季时常造成断道,严重地威胁公路的运营和口岸通道的开发。根据地貌形态、坡体结构以及坡体稳定性等因素综合分析,友谊桥滑坡为一处巨型的古滑坡。首次古滑坡活动后,在该区域又多次发生次级的滑动,友谊桥现代滑坡病害发育在古滑坡的背景中,具有多期、多层、多条、多块、多级的特点。 相似文献
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Analysis of LiDAR-derived topographic information for characterizing and differentiating landslide morphology and activity 总被引:1,自引:0,他引:1
《Geomorphology》2006,73(1-2):131-148
This study used airborne laser altimetry (LiDAR) to examine the surface morphology of two canyon-rim landslides in southern Idaho. The high resolution topographic data were used to calculate surface roughness, slope, semivariance, and fractal dimension. These data were combined with historical movement data (Global Positioning Systems (GPS) and laser theodolite) and field observations for the currently active landslide, and the results suggest that topographic elements are related to the material types and the type of local motion of the landslide. Weak, unconsolidated materials comprising the toe of the slide, which were heavily fractured and locally thrust upward, had relatively high surface roughness, high fractal dimension, and high vertical and lateral movement. The body of the slide, which predominantly moved laterally and consists mainly of undisturbed, older canyon floor materials, had relatively lower surface roughness than the toe. The upper block, consisting of a down-dropped section of the canyon rim that has remained largely intact, had a low surface roughness on its upper surface and high surface roughness along fractures and on its west face (unrelated to landslide motion). The upper block also had a higher semivariance than the toe and body. The topographic data for a neighboring, older and larger landslide complex, which failed in 1937, are similarly used to understand surface morphology, as well as to compare to the morphology of the active landslide and to understand scale-dependent processes. The morphometric analyses demonstrate that the active landslide has a similar failure mechanism and is topographically more variable than the 1937 landslide, especially at scales > 20 m. Weathering and the larger scale processes of the 1937 slide are hypothesized to cause the lower semivariance values of the 1937 slide. At smaller scales (< 10 m) the topographic components of the two landslides have similar roughness and semivariance. Results demonstrate that high resolution topographic data have the potential to differentiate morphological components within a landslide and provide insight into the material type and activity of the slide. The analyses and results in this study would not have been possible with coarser scale digital elevation models (10-m DEM). This methodology is directly applicable to analyzing other geomorphic surfaces at appropriate scales, including glacial deposits and stream beds. 相似文献
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Field monitoring of the Corvara landslide (Dolomites, Italy) and its relevance for hazard assessment 总被引:4,自引:1,他引:4
The Corvara landslide is an active slow moving rotational earth slide - earth flow, located uphill of the village of Corvara in Badia, one of the main tourist centres in the Alta Badia valley in the Dolomites (Province of Bolzano, Italy). Present-day movements of the Corvara landslide cause National Road 244 and other infrastructures to be damaged on a yearly basis. The movements also give rise to more serious risk scenarios for some buildings located in front the toe of the landslide. For these reasons, the landslide has been under observation since 1997 with various field devices that enable slope movements to be monitored for hazard assessment purposes. Differential GPS measurements on a network of 47 benchmarks has shown that horizontal movements at the surface of the landslide have ranged from a few centimetres to more than 1 m between September 2001 and September 2002. Over the same period, vertical movements ranged from a few centimetres to about 10 cm, with the maximum displacement rate being recorded in the track zone and in the uppermost part of the accumulation lobe of the landslide. Borehole systems, such as inclinometers and TDR cables, have recorded similar rates of movement, with the depths of the major active shear surfaces ranging from 48 m to about 10 m. From these data, it is estimated that the active component of the landslide has a volume of about 50 million m3. In this paper the monitoring data collected so far are presented and discussed in detail to prove that the hazard for the Corvara landslide, considered as the product of yearly probability of occurrence and magnitude of the phenomenon, can be regarded has as medium or high if the velocity or alternatively the volume involved is considered. Finally, it is also concluded that the monitoring results obtained provide a sound basis on which to develop and validate numerical models, manage hazard and support the identification of viable passive and active mitigation measures. 相似文献
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This research deals with the Fadalto landslide (Lapisina Valley, Venetian Prealps), which took place in the Lateglacial and has continued its activity until today. Our aim is to recognize how the landslide failed, the causes of such failure and the activity of this landslide. The study of this landslide is important not only to understand the geomorphological history of this alpine area, and why the Piave River modified its course in the Late Pleistocene, but also the links with human activities, and specifically with the road and rail network.The geomorphological study, carried out by the interpretation of aerial photos and by a detailed field survey, has been integrated with a geological survey, geophysical investigations and a morphometric analysis (DTM). The Fadalto landslide is considered to be a rockslide reactivated in various phases, with different dimensions and with different characters (slides, slumps and flows). The landslides have been provoked by natural causes, both external and internal; the fundamental external causes are the retreat of the Würmian glacier and tectonic activity; the internal factors that decrease the shear resistance are the bedding planes and joints of the bedrock, the attitude of the rocks dipping towards the valley bottom and, as regards more recent failures, the presence of glacial deposits underlying the landslide debris. Besides, in recent times, we must also consider human activity as a cause of slope instability.As to the activity, the Fadalto landslide is defined “dormant”. This means that in this area there is a geomorphological risk connected with the important road and rail network of the Lapisina Valley. 相似文献
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新疆公路自然灾害及对策 总被引:4,自引:0,他引:4
新疆地域辽阔,有“三山两盆”,自然环境复杂。公路分布具有翻山越岭,穿越沙漠,在山麓平原连续跨沟,绿洲区公路密度大等主要特点。公路自然灾害是伴随公路工程行为而产生的,因此,其具有沿公路呈带状分布的规律。由以环境退化为主引起的自然灾害发生地点多且较频繁,对公路交通影响大。区内公路自然灾害类型多,成因复杂。影响公路交通安全的自然灾害类型主要有滑坡、崩塌、山洪、泥石流及其二级类共16种,其形成与地貌条件复杂,干旱、寒冷、缺水、风沙活跃、土壤盐渍化重、暴雨时有发生等自然因素和公路工程行为有关。纵观公路自然灾害的分布、成因,与有关因素变化趋势,预测其有3种发展趋势,宜采取有针对性的防治原则和措施。 相似文献
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Objective landslide detection and surface morphology mapping using high-resolution airborne laser altimetry 总被引:6,自引:0,他引:6
A map of extant slope failures is the most basic element of any landslide assessment. Without an accurate inventory of slope instability, it is not possible to analyze the controls on the spatial and temporal patterns of mass movement or the environmental, human, or geomorphic consequences of slides. Landslide inventory maps are tedious to compile, difficult to make in vegetated terrain using conventional techniques, and tend to be subjective. In addition, most landslide inventories simply outline landslide boundaries and do not offer information about landslide mechanics as manifested by internal deformation features. In an alternative approach, we constructed accurate, high-resolution DEMs from airborne laser altimetry (LIDAR) data to characterize a large landslide complex and surrounding terrain near Christchurch, New Zealand. One-dimensional, circular (2-D) and spherical (3-D) statistics are used to map the local topographic roughness in the DEMs over a spatial scale of 1.5 to 10 m. The bedrock landslide is rougher than adjacent unfailed terrain and any of the statistics can be employed to automatically detect and map the overall slide complex. Furthermore, statistics that include a measure of the local variability of aspect successfully delineate four kinematic units within the gently sloping lower half of the slide. Features with a minimum size of surface folds that have a wavelength of about 11 to 12 m and amplitude of about 1 m are readily mapped. Two adjacent earthflows within the landslide complex are distinguished by a contrast in median roughness, and texture and continuity of roughness elements. The less active of the earthflows has a surface morphology that presumably has been smoothed by surface processes. The Laplacian operator also accurately maps the kinematic units and the folds and longitudinal levees within and at the margins of the units. Finally, two-dimensional power spectra analyses are used to quantify how roughness varies with length scale. These results indicate that no dominant length scale of roughness exists for smooth, unfailed terrain. In contrast, zones with different styles of landslide deformation exhibit distinctive spectral peaks that correspond to the scale of deformation features, such as the compression folds. The topographic-based analyses described here may be used to objectively delineate landslide features, generate mechanical inferences about landslide behavior, and evaluate relatively the recent activity of slides. 相似文献