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1.
Zonghu Liao Yang Hong Dalia Kirschbaum Robert F. Adler Jonathan J. Gourley Rick Wooten 《Natural Hazards》2011,58(1):325-339
The key to advancing the predictability of rainfall-triggered landslides is to use physically based slope-stability models
that simulate the transient dynamical response of the subsurface moisture to spatiotemporal variability of rainfall in complex
terrains. TRIGRS (transient rainfall infiltration and grid-based regional slope-stability analysis) is a USGS landslide prediction
model, coded in Fortran, that accounts for the influences of hydrology, topography, and soil physics on slope stability. In
this study, we quantitatively evaluate the spatiotemporal predictability of a Matlab version of TRIGRS (MaTRIGRS) in the Blue
Ridge Mountains of Macon County, North Carolina where Hurricanes Ivan triggered widespread landslides in the 2004 hurricane
season. High resolution digital elevation model (DEM) data (6-m LiDAR), USGS STATSGO soil database, and NOAA/NWS combined
radar and gauge precipitation are used as inputs to the model. A local landslide inventory database from North Carolina Geological
Survey is used to evaluate the MaTRIGRS’ predictive skill for the landslide locations and timing, identifying predictions
within a 120-m radius of observed landslides over the 30-h period of Hurricane Ivan’s passage in September 2004. Results show
that within a radius of 24 m from the landslide location about 67% of the landslide, observations could be successfully predicted
but with a high false alarm ratio (90%). If the radius of observation is extended to 120 m, 98% of the landslides are detected
with an 18% false alarm ratio. This study shows that MaTRIGRS demonstrates acceptable spatiotemporal predictive skill for
landslide occurrences within a 120-m radius in space and a hurricane-event-duration (h) in time, offering the potential to
serve as a landslide warning system in areas where accurate rainfall forecasts and detailed field data are available. The
validation can be further improved with additional landslide information including the exact time of failure for each landslide
and the landslide’s extent and run out length. 相似文献
2.
R. M. Wooten K. A. Gillon A. C. Witt R. S. Latham T. J. Douglas J. B. Bauer S. J. Fuemmeler L. G. Lee 《Landslides》2008,5(1):31-44
In September 2004, rain from the remnants of Hurricanes Frances and Ivan triggered at least 155 landslides in the Blue Ridge
Mountains of North Carolina. At least 33 debris flows occurred in Macon County, causing 5 deaths, destroying 16 homes, and
damaging infrastructure. We mapped debris flows and debris deposits using a light-detecting and ranging digital elevation
model, remote imagery and field studies integrated in a geographic information system. Evidence of past debris flows was found
at all recent debris flow sites. Orographic rainfall enhancement along topographic escarpments influenced debris flow frequency
at higher elevations. A possible trigger for the Wayah and fatal Peeks Creek debris flows was a spiral rain band within Ivan
that moved across the area with short duration rainfall rates of 150–230 mm/h. Intersecting bedrock structures in polydeformed
metamorphic rock influence the formation of catchments within structural–geomorphic domains where debris flows originate. 相似文献
3.
青海玉树活动断裂带的多期古地震滑坡及其年龄 总被引:1,自引:1,他引:0
2010年青海玉树Ms 7.1级地震发生后,笔者在开展玉树灾区地震地质灾害调查中发现13处古地震滑坡遗迹。调查结果表明,玉树古地震滑坡主要集中分布在玉树活动断层两侧5km范围内,规模普遍较大,多具有多期活动特征,且与周围古地震相伴生,空间上体现出发震断层对其发育的控制作用。同时,古地震滑坡地形地貌、沉积特征、年代学特征等方面的证据表明,其常具有原地复发的特征。据古地震滑坡堆积体的AMS14C测年结果,认为目前发现的典型古地震滑坡主要发生在全新世中晚期,并集中分布在5个时期,与古地震探槽揭示的古地震事件期次及发生年代具有较好的对应关系。进一步对比古滑坡规模和分布范围,发现玉树断裂带在全新世中晚期发生2次规模较大的古地震滑坡事件,与地震探槽揭示的古地震特点相符。研究结果表明,群发性古地震滑坡是识别古地震事件的重要地貌标志,可从年代学上揭示古地震事件发生的具体时间,对于补充古地震事件资料和恢复古地震在时间与强度上的分布都具有重要意义。 相似文献
4.
Quantitative assessment of landslide hazard along transportation lines using historical records 总被引:2,自引:1,他引:1
In this paper, a quantitative landslide hazard model is presented for transportation lines, with an example for a road and
railroad alignment, in parts of Nilgiri hills in southern India. The data required for the hazard assessment were obtained
from historical records available for a 21-year period from 1987 to 2007. A total of 901 landslides from cut slopes along
the railroad and road alignment were included in the inventory. The landslides were grouped into three magnitude classes based
on the landslide type, volume, scar depth, and run-out distance. To calculate landslide hazard, we estimated the total number
of individual landslides per kilometer of the (rail) road for different return periods, based on the relationship between
past landslides (recorded in our database) and triggering events. These were multiplied by the probability that the landslides
belong to a given magnitude class. This gives the hazard for a given return period expressed as the number of landslides of
a given magnitude class per kilometer of (rail) road. The relationship between the total number of landslides and the return
period was established using a Gumbel distribution model, and the probability of landslide magnitude was obtained from frequency–volume
statistics. The results of the analysis indicate that the total number of landslides, from 1- to 50-year return period, varies
from 56 to 197 along the railroad and from 14 to 82 along the road. In total, 18 hazard scenarios were generated using the
three magnitude classes and six return periods (1, 3, 5, 15, 25, and 50 years). The hazard scenarios derived from the model
form the basis for future direct and indirect landslide risk analysis along the transportation lines. The model was validated
with landslides that occurred in the year 2009. 相似文献
5.
J. Journault R. Macciotta M. T. Hendry F. Charbonneau D. Huntley P. T. Bobrowsky 《Landslides》2018,15(4):621-636
The Thompson River valley, south of Ashcroft in British Columbia, Canada, has experienced several landslides since the mid-1800s. The national railways that run along the valley cross a number of these landslides. All the landslides occur in glacial deposits, typically sliding on weak clay layers. Some have failed rapidly to very rapidly and are currently inactive or showing deformation rates from a few millimeters to centimeters per year. An evaluation of satellite InSAR (Interferometric Synthetic Aperture Radar) using RADARSAT-2 images between September 2013 and November 2015 provides new insight into landslide displacements in the Thompson River valley. This information enhances the ongoing hazard management of unstable terrain. This paper presents the comparison of the InSAR measurements with other instrumentation (GPS and ShapeAccelArrays? -SAA) installed at one moving landslide and then addresses the extent and magnitude of the slope movements observed. InSAR was found to provide similar displacement values to those measured otherwise. The stable location showed displacements of +/?1 mm with an average near zero during the whole monitoring period. Six areas of slope movement were identified within the study area, all within or adjacent to the footprints of past landslides. The average line of sight (LOS) displacement rates range between 11 and 39 mm/year. Most of the landslides exhibited seasonal variations in velocity that corresponds to changes in river elevation in the valley. 相似文献
6.
在西藏昌都市江达县波罗乡发生的两次高位大型滑坡,形成堰塞体阻断金沙江,其溃决洪水对下游造成了巨大损失.本文基于野外地质调查与工程验证、遥感影像、倾斜摄影测量、岩体微观特征,结合区域地质资料进行分析研究.结果表明:(1)白格滑坡发育于金沙江构造混杂岩带,坡体属于河谷型构造破碎松散体;(2)坡体物质主要由弱变形构造透镜体岩块和强变形错动带(糜棱岩带、碎裂岩带、断层泥)组成,镜下岩石结构破坏严重,岩石强度显著降低;(3)断层破碎带控制滑坡体两侧及后缘边界,为滑坡提供了侧向及后缘的切割面;(4)不连续错动带为白格滑坡的滑动层,在重力卸荷作用下发生贯通,导致坡体发生多期次崩滑;(5)综合坡体失稳启动分析,白格滑坡为"推移式+牵引式"混合型滑坡;(6)白格滑坡是在内动力和外动力耦合作用相互交替下促进形成,加之金沙江对坡脚掏蚀,松散体在重力卸荷作用下剪切破坏致使滑坡发生.白格滑坡事件可为研究金沙江构造混杂岩带中大型滑坡形成机制提供依据,同时也为该区域防灾减灾研究提供理论指导. 相似文献
7.
Danang Sri Hadmoko Franck Lavigne Junun Sartohadi Pramono Hadi Winaryo 《Natural Hazards》2010,54(3):623-642
The Menoreh Mountains in Yogyakarta are severely affected by landslides. Due to the high population densities, mass movements
are generally damaging and fatal. More than other Javanese mountains, the Menoreh Mountains cumulate several factors causing
landslides. Therefore, it is necessary to evaluate the ways to map landslide risk in order to improve the risk mitigation.
The objectives of this paper are to provide landslide hazard and risk assessment that will be useful for risk prevention and
landuse planning in the Menoreh Mountains. So far, risk management has been developed by the Research Centre for Disasters
Gadjah Mada University in collaboration with the Regional Development Planner (BAPPEDA), which carries out fundamental and
applied researches. The results of the studies have been integrated in the risk prevention and landuse planning in order to
improve the integrated landslide mitigation programme. 相似文献
8.
Landslide susceptibility mapping using Bayesian approach in the Sultan Mountains (Akşehir,Turkey) 总被引:1,自引:0,他引:1
Adnan Ozdemir 《Natural Hazards》2011,59(3):1573-1607
Landslides cause heavy damage to property and infrastructure, in addition to being responsible for the loss of human lives
in many parts of the Turkey. The paper presents GIS-based spatial data analysis for landslide susceptibility mapping in the
regions of the Sultan Mountains, West of Akşehir, and central part of Turkey. Landslides occur frequently in the area and
seriously affect local living conditions. Therefore, spatial analysis of landslide susceptibility in the Sultan Mountains
is important. The relationships between landslide distributions with the 19 landslide affecting parameters were analysed using
a Bayesian model. In the study area, 90 landslides were observed. The landslides were randomly subdivided into 80 training
landslides and 10 test landslides. A landslide susceptibility map was produced by using the training landslides. The test
landslides were used in the accuracy control of the produced landslide susceptibility map. Approximately 9% of the study area
was classified as high susceptibility zone. Medium, low and very low susceptibility zones covered 8, 23 and 60% of the study
area, respectively. Most of the locations of the observed landslides actually fall into moderate (17.78%) and high (77.78.
%) susceptibility zones of the produced landslide susceptibility map. This validates the applicability of proposed methods,
approaches and the classification scheme. The high susceptibility zone is along both sides of the Akşehir Fault and at the
north-eastern slope of the Sultan Mountains. It was determined that the surface area of the Harlak and Deresenek formations,
which have attained lithological characteristics of clayey limestone with a broken and separated base, and where area landslides
occur, possesses an elevation of 1,100–1,600 m, a slope gradient of 25°–35° and a slope aspect of 22.5°–157.5° facing slopes. 相似文献
9.
Interpretation of landslide distribution triggered by the 2005 Northern Pakistan earthquake using SPOT 5 imagery 总被引:7,自引:4,他引:7
Hiroshi P. Sato Hiroyuki Hasegawa Satoshi Fujiwara Mikio Tobita Mamoru Koarai Hiroshi Une Junko Iwahashi 《Landslides》2007,4(2):113-122
The 2005 northern Pakistan earthquake (magnitude 7.6) of 8 October 2005 occurred in the northwestern part of the Himalayas.
We interpreted landslides triggered by the earthquake using black-and-white 2.5-m-resolution System Pour l’Observation de la Terre 5 (SPOT 5) stereo images. As a result, the counts of 2,424 landslides were identified in the study area of 55 by 51 km. About
79% or 1,925 of the landslides were small (less than 0.5 ha in area), whereas 207 of the landslides (about 9%) were large
(1 ha and more in area). Judging from our field survey, most of the small landslides are shallow rock falls and slides. However,
the resolution and whitish image in the photos prevented interpreting the movement type and geomorphologic features of the
landslide sites in detail. It is known that this earthquake took place along preexisting active reverse faults. The landslide
distribution was mapped and superimposed on the crustal deformation detected by the environmental satellite/synthetic aperture
radar (SAR) data, active faults map, geological map, and shuttle radar topography mission data. The landslide distribution
showed the following characteristics: (1) Most of the landslides occurred on the hanging-wall side of the Balakot–Garhi fault;
(2) greater than one third of the landslides occurred within 1 km from the active fault; (3) the greatest number of landslides
(1,147 counts), landslide density (3.2 counts/km2), and landslide area ratio (2.3 ha/km2) was found within Miocene sandstone and siltstone, Precambrian schist and quartzite, and Eocene and Paleocene limestone and
shale, respectively; (4) there was a slight trend that large landslides occurred on vertically convex slopes rather than on
concave slopes; furthermore, large landslides occurred on steeper (30° and more) slopes than on gentler slopes; (5) many large
landslides occurred on slopes facing S and SW directions, which is consistent with SAR-detected horizontal dominant direction
of crustal deformation on the hanging wall. 相似文献
10.
J. Klime? M. D. Rowberry J. Blah?t M. Briestensky F. Hartvich B. Ko??ák J. Rybá? J. Stemberk P. ?těpan?íková 《Landslides》2012,9(3):407-415
It is possible to monitor slow-moving landslides and assess landslide stabilisation measures over protracted periods using an optical–mechanical crack gauge called a TM-71. This technical note outlines the theoretical background to the gauge and illustrates its practical application through a number of case studies. These studies are drawn from a range of landslide types and stabilisation measures. In terms of monitoring slow-moving landslides, three studies of deep-seated deformations are presented. The Taukliman coastal landslide on the Black Sea Coast is characterised by vertical and horizontal displacements of up to 0.2?mm?year?1 and sudden earthquake-induced dilations of up to 6?mm. The Parohy ridge spreading landslide in the Malá Fatra Mountains is characterised by gravitationally induced vertical displacements of 0.7?mm?year?1. The slope deformation that formed Cyrilka Cave in the Beskydy Mountains is characterised by very slow sinistral strike–slip movements of 0.8?mm?year?1. In terms of assessing landslide stabilisation measures, two studies are presented from Orava Castle in Slovakia and Tetín in the Czech Republic. The data recorded at these sites demonstrate that the constructed stabilisation measures have successfully alleviated the potential landslide hazard in both localities. These case studies clearly demonstrate that the gauge represents an important tool with which to monitor slow-moving landslides and assess landslide stabilisation measures. It is able to provide a precise three-dimensional record of deformation, withstand harsh environmental conditions, and record reliable data over protracted periods. 相似文献
11.
Landslides triggered by slipping-fault-generated earthquake on a plateau: an example of the 14 April 2010, Ms 7.1, Yushu, China earthquake 总被引:3,自引:1,他引:2
On 14 April 2010 at 07:49 (Beijing time), a catastrophic earthquake with Ms 7.1 struck Yushu County, Qinghai Province, China. A total of 2,036 landslides were interpreted from aerial photographs and satellite images, verified by selected field checking. These landslides cover about a total area of 1.194 km2. The characteristics and failure mechanisms of these landslides are presented in this paper. The spatial distribution of the landslides is evidently strongly controlled by the locations of the main co-seismic surface fault ruptures. The landslides commonly occurred close together. Most of the landslides are small; there were only 275 individual landslide (13.5 % of the total number) surface areas larger than 1,000 m2. The landslides are of various types. They are mainly shallow, disrupted landslides, but also include rock falls, deep-seated landslides, liquefaction-induced landslides, and compound landslides. Four types of factors are identified as contributing to failure along with the strong ground shaking: natural excavation of the toes of slopes, which mean erosion of the base of the slope, surface water infiltration into slopes, co-seismic fault slipping at landslide sites, and delayed occurrence of landslides due to snow melt or rainfall infiltration at sites where slopes were weakened by the co-seismic ground shaking. To analyze the spatial distribution of the landslides, the landslide area percentage (LAP) and landslide number density (LND) were compared with peak ground acceleration (PGA), distance from co-seismic main surface fault ruptures, elevation, slope gradient, slope aspect, and lithology. The results show landslide occurrence is strongly controlled by proximity to the main surface fault ruptures, with most landslides occurring within 2.5 km of such ruptures. There is no evident correlation between landslide occurrences and PGA. Both LAP and LND have strongly positive correlations with slope gradient, and additionally, sites at elevations between 3,800 and 4,000 m are relatively susceptible to landslide occurrence; as are slopes with northeast, east, and southeast slope aspects. Q4 al-pl, N, and T3 kn 1 have more concentrated landslide activity than others. This paper provides a detailed inventory map of landslides triggered by the 2010 Yushu earthquake for future seismic landslide hazard analysis and also provides a study case of characteristics, failure mechanisms, and spatial distribution of landslides triggered by slipping-fault generated earthquake on a plateau. 相似文献
12.
Coupling fluvial processes and landslide distribution toward geomorphological hazard assessment: a case study in a transient landscape in Japan 总被引:1,自引:0,他引:1
Ching-Ying Tsou Masahiro Chigira Yuki Matsushi Narumi Hiraishi Noriyuki Arai 《Landslides》2017,14(6):1901-1914
This study quantified the relationship among deep-seated gravitational slope deformations (DGSDs), landslides, and river rejuvenation in the upper reaches of the Kumano River in the Kii Mountains of Japan, an area of frequent bedrock landslides. River profiles and hillslope landforms were examined, and high-resolution digital elevation models (DEMs) were used to identify DGSDs and landslides. Many of the deep-seated landslides were associated with rainstorms in 1889 and 2011. Landslide volumes were related to landslide areas on the basis of 52 deep-seated landslides that failed during the 2011 rainfall, providing basic data for landscape denudation and sediment yield. River rejuvenation occurred stepwise, incising moderate relief paleosurfaces and forming two series of knickpoints and V-shaped inner gorges that are up to 400-m deep. More than 65% of DGSDs and 75% of the landslides were located in association with the incised inner gorges along the peripheries of the paleosurfaces or were entirely contained within the inner gorges. DGSDs and landslides associated with the incised inner valley slopes tended to be larger than those developed within the paleosurfaces and may be long-term transient hillslope responses to river incision. Hillslope undercutting caused by rejuvenated river incision may play an important role in long-term slope stability and distribution of mass movements, and could serve as an indicator of landslide hazard. 相似文献
13.
The potential for widespread landslides is generally increased when extraordinary wet periods occur during times of elevated subsurface hydrologic conditions. A series of storms in early 2018 in Pittsburgh, Pennsylvania, overlapped with a period of increased shallow soil moisture and rising bedrock groundwater levels resulting from seasonally diminished evapotranspiration and induced widespread landslides in the region. Most of the landslides were shallow slope failures in colluvium, landslide deposits, and/or fill. However, deep-seated landslide activity also occurred and corresponded with record cumulative precipitation from late February to April and bedrock groundwater levels rising to an annual high. Landslides blocked or damaged roads, adversely affected multiple houses, disrupted electrical service, crushed vehicles, and resulted in considerable economic losses. The initial landslides occurred during or immediately after a rare period of three successive days of heavy rain that began on February 14. Subsequent landslides between late February and April were induced by multiday storms with smaller rainfall totals. As shallow soil moisture at a monitoring site rose above a volumetric water content of 32%, the mean rainfall intensities necessary to induce slope failure in colluvium and other surficial deposits decreased. Deep-seated landslide movement occurred in the region mostly when the groundwater level in a bedrock observation well was shallower than 1.7 m. The availability of hydrologic and landslide movement monitoring data during this extraordinary series of storms highlighted the evolution of the landslide hazard with changing moisture conditions and yielded insights into potential hydrologic criteria for anticipating future widespread landslides in the region.
相似文献14.
山西吕梁地区地质环境脆弱,属于晋西黄土高原崩塌、滑坡地质灾害易发区。黄土崩滑地质灾害给当地造成了巨大经济损失和重大人员伤亡。通过对吕梁地区地质灾害调查,结合原位测试与室内试验,研究了吕梁地区黄土崩滑地质灾害类型和发育规律。依据构成边坡的地层岩性与地质结构、滑动面发育位置,将吕梁地区黄土滑坡类型划分为:Q3单一黄土层内滑动和Q3-Q2-N2组合地层结构层内滑动两种类型; 按破坏模式将吕梁地区黄土崩塌类型划分为:倾倒式、垮塌式和剥落式3种类型。调查还发现空间上黄土崩滑灾害主要发育在柳林县、临县、石楼县和中阳县4县,且主要沿公路、铁路等交通线路呈条带状分布; 时间上具有明显的年周期变化规律,汛期(6~10月)高发,特别是主汛期(7~8月)。最后对Q3-Q2-N2组合地层结构层内滑坡发育机理进行了初步探讨,认为吕梁地区人工开挖和降雨耦合作用是诱发吕梁地区黄土滑坡和崩塌的最主要因素。 相似文献
15.
Fox Creek is a small tributary of the Saddle River, a tributary of the Peace River in northwestern Alberta. It has several
dormant landslides with degraded scarps and grabens. A new, reactivated landslide on the north bank of the Fox Creek occurred
on 5 May 2007. The landslide formed two major sliding blocks. A rapid translational block slide, it mobilized 47 Mm3 of displaced materials, blocked the creek, and made a natural dam with a maximum height of 19 m at the tips of the displaced
blocks. The rupture surfaces of the 2007 landslide were within the advance phase glaciolacustrine sediments. The residual
friction angles are about 10° similar to those of the previous landslides in the Peace River Lowland. Precipitation and snow
melt prior to the landslide are likely triggers of the 2007 Fox Creek landslide. The farmlands on the crest of the river valley
and timber resources were impacted. The current landslide dam in Fox Creek does not have any evidence of seepage downstream;
it may last for many years. Eventually, the creek will overtop and erode the dam. The same cycle of actions, landsliding,
damming, and erosion will continue in the foreseeable future. 相似文献
16.
2019年7月16日,位于舟曲—化马深大活动断裂带的舟曲县牙豁口发生滑坡,滑坡长1 920 m,宽50~190 m,体积212×104 m3,为典型的推移式大型长条状断层破碎带堆积层滑坡。滑坡自上而下沿原老滑道分级分块逐步发育形成,滑动历时近50天,最大滑距500 m,滑坡破坏X414县道、养鸡场等,并使岷江呈半堵塞状态,影响汛期行洪安全。通过现场调查、监测、无人机测量、岩土试验和收集历史滑坡资料,对牙豁口滑坡形成的地质环境、滑坡发育历史、滑坡分级分块特征、滑动过程和成因进行了系统研究。牙豁口滑坡分为上、下相对独立的两级滑坡。上级滑坡又可分为南支滑块和北支滑块两部分,在老滑坡的基础上长期孕育发展,上级滑坡北支滑块在2013年前就已活动,2019年7月16日上级滑坡南支滑块开始剧烈滑动,并推挤北支滑块前部一同复活滑动。上级滑坡约10×104 m3滑体下滑加载于下级滑坡,下级滑坡于7月24日由上向下逐步扩展变形和滑动,下级滑坡又可分为上、中、下三段滑体,滑坡前缘于8月10日达到岷江边,使岷江呈半堵状态。牙豁口滑坡总体具有孕育历史悠久、滑动历时长、滑动速度较低、分级分块差异性滑动的特点。长期活动的深大断裂带及凹槽状地形、软弱易滑的灰黑色风化破碎炭质板岩、地下水和大气降水的强烈作用、两侧崩滑体的堆积加载是滑坡发生的主要原因。 相似文献
17.
Rainfall patterns for shallow landsliding in perialpine Slovenia 总被引:2,自引:0,他引:2
This paper presents two types of analysis: an antecedent rainfall analysis based on daily rainfall and an intensity-duration analysis of rainfall events based on hourly data in perialpine Slovenia in the ?kofjelo?ko Cerkljansko hills. For this purpose, eight rainfall events that are known to have caused landslides in the period from 1990 to 2010 were studied. Over the observed period, approximately 400 records of landslides were collected. Rainfall data were obtained from three rain gauges. The daily rainfall from the 30 days before landslide events was investigated based on the type of landslides and their geo-environmental setting, the dates of confirmed landslide activity and different consecutive rainfall periods. The analysis revealed that the rainfall events triggering slope failure can be divided into two groups according to the different antecedent periods. The first group of landslides typically occurred after short-duration rainstorms with high intensity, when the daily rainfall exceeded the antecedent rainfall. The second group comprises the rainfall events with a longer antecedent period of at least 7 days. A comparison of the plotted peak and mean intensities indicates that the rainfall patterns that govern slope failure are similar but do not necessarily reflect the rainfall intensity at the time of shallow landslides in the Dav?a or Poljane areas, where the majority of the landslides occurred. Because of several limitations, the suggested threshold cannot be compared and evaluated with other thresholds. 相似文献
18.
Regional assessment of landslide impact in the Three Gorges area, China, using ASTER data: Wushan-Zigui 总被引:1,自引:0,他引:1
This paper is focussed on the hazard impact of landslides in the Three Gorges, and represents the progression of our ongoing
study on regional land instability assessment in the Three Gorges area using imagery data from the Advanced Spaceborne Thermal
Emission Radiometer (ASTER). The key development here is the establishment of a model that integrates land instability with
several factors that can relate hazard to human life, such as slope failures occurring in proximity to built-up areas and
roads, and areas of high landslide risk along the bank of Yangtze and its major tributaries. The method correctly identifies
some of the known destructive landslides in the region, like Qianjiangping and Huangtupo, as belonging to areas of potentially
high landslide impact. Our results suggest that several population centres, including the towns of Wushan and Badong, are
rated at high landslide hazard levels. This study highlights the importance of differentiating between landslide types within
susceptibility assessment, and identifies those locations in the Three Gorges where the probability of landslide occurrence
with negative impact to life and property is greatest. 相似文献
19.
Javed Iqbal Tanoli Chen Ningsheng Amar Deep Regmi Li Jun 《Arabian Journal of Geosciences》2017,10(13):277
The 2015 Mw7.8 Gorkha earthquake triggered thousands of landslides of various types scattered over a large area. In the current study, we utilized pre- and post-earthquake high-resolution satellite imagery to compile two landslide inventories before and after earthquake and prepared three landslide susceptibility maps within 404 km2 area using frequency ratio (FR) model. From the study, we could map about 519 landslides including 178 pre-earthquake slides and 341 coseismic slides were identified. This study investigated the relationship between landslide occurrence and landslide causative factors, i.e., slope, aspect, altitude, plan curvature, lithology, land use, distance from streams, distance from road, distance from faults, and peak ground acceleration. The analysis showed that the majority of landslides both pre-earthquake and coseismic occurred at slope >30°, preferably in S, SE, and SW directions and within altitude ranging from 1000 to 1500 m and 1500 to 3500 m. Scatter plots between number of landslides per km?2 (LN) and percentage of landslide area (LA) and causative factors indicate that slope is the most influencing factor followed by lithology and PGA for the landslide formation. Higher landslide susceptibility before earthquake is observed along the road and rivers, whereas landslides after earthquake are triggered at steeper slopes and at higher altitudes. Combined susceptibility map indicates the effect of topography, geology, and land cover in the triggering of landslides in the entire basin. The resultant landslide susceptibility maps are verified through AUC showing success rates of 78, 81, and 77%, respectively. These susceptibility maps are helpful for engineers and planners for future development work in the landslide prone area. 相似文献
20.
The study brings new information concerning a large slope deformation in the northern part of the Silesian Beskydy Mountains
in the territory of the Czech Republic. The studied area is a large-scale transformation of the forefront of a flysch nappe
formed especially by rigid sandstones upon a plastic underlying nappe. As a consequence of the vertical contact of mechanically
different formations and depositing conditions of rocks and tectonics on the nappe forefront, several generations of deep-seated
slope deformations occurred accompanied by shallow landslides in the historic period. Structural measurement and geophysical
sounding proved prevailing lateral spreading in the upper parts of the slopes as well as the occurrence of rotational landslides
whose landslide scarps overlap with the line of overthrust of the Godula Nappe on the Těšín Nappe. Radiocarbon dating determined
the period of the occurrence of rotational landslides as falling into the Subboreal up to Subatlantic. 相似文献