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1.
Measurement of debris mass changes and assessment of the dam-break flood potential of earthquake-triggered Hattian landslide dam 总被引:1,自引:1,他引:0
Ahsan Sattar Kazuo Konagai Takashi Kiyota Takaaki Ikeda Jorgen Johansson 《Landslides》2011,8(2):171-182
The Hattian landslide, which was triggered by the 2005 Kashmir earthquake, formed one of largest landslide dams in the world and it has posed a serious threat of flooding to people living in the lower reach of the Jhelum River. In order to understand deformation occurring in the body of the dam, physical measurements using a Differential Global Positioning System (DGPS) were conducted. Gradual deformation and slowly developing backward erosion initially were observed, leading eventually to a sudden creation of a deep hollow on the downstream slope of the landslide dam. The dimensions of this eroded gully were determined by laser scanning, and the results showed a significant loss of soil volume and a large change in the body of the dam. A breach formation model was used to predict the outflow hydrograph generated by constant downcutting of dam during a breaching event. A run-off analysis of the outflow hydrograph was conducted to evaluate inundation levels of flood waves in case the dam is breached. Hazardous downstream locations were identified near the junction of the Karli and Jhelum Rivers, suggesting a need for early warning system in order to avoid loss of lives. 相似文献
2.
Omer Iqbal Mirza Shahid Baig Shahab Pervez Muhammad Iqbal Siddiqi 《Journal of the Geological Society of India》2018,91(1):57-66
The project area lies in the southern part of the Hazara Kashmir syntaxis. The Hazara Kashmir syntaxis is an antiformal structure. The project area includes Rumbli, Namb, Chatrora, Chachan, Panjar, Barathian and Utrinna areas of Rawalpindi and Sudhnoti districts. The southeastern limb of the Hazara Kashmir syntaxis is imbricated along Punjal thrust, Main Boundary thrust and Riasi fault. The Jhelum fault truncates the western limb of Hazara Kashmir syntaxis. The core of syntaxis comprises of Himalayan molasse deposits. These molasse deposits represent the part of cover sequence of Indian plate. These Himalayan molasse deposits include the Early to Middle Miocene Kamlial Formation, Middle to Late Miocene Chinji Formation, Late Miocene Nagri Formation and Late Miocene Dhok Pathan Formation. The area is highly deformed resulting folds and faults. The major folds in the project area are the Panjar anticline, Barathian syncline, Barathian anticline, Rumbli anticline, Chatrora antiformal syncline and Namb syncline. The folds are either northwest-southeast trending or southwestnortheast trending. The folds are asymmetric, open, and gentle and close in nature. The folds are southwest, northeast or southeast vergent. The Jhelum fault truncates the northeast and northwest trending structures. The folds and faults are the result of northeastsouthwest or northwest-southeast Himalayan compression. 相似文献
3.
Glaciers are among the most conspicuous and dynamic features on the earth’s surface and are also highly sensitive to changes in climatic parameters. Glaciers in the Kashmir Himalayas have been reported to be retreating due to climate forcing. Kolahoi Glacier is one of the largest and important glaciers of the Kashmir Himalayas and is the main source of Liddar River, which is the largest tributary of the Jhelum River system. In the present study, an analysis to assess the response of Kolahoi Glacier to the changing climate was carried out using the Survey of India (SoI) map and multi-temporal Landsat satellite data. The results show a significant change in the spatial extent of Kolahoi Glacier. The total area of this glacier has reduced from 12.21 km2 in 1962 to 11.61 km2 in 2010. An analysis of meteorological data (temperature and precipitation) shows that the average annual temperature increased from 9.1 °C in 1980–1989 to 10.3 °C in 2000–2009, while the precipitation decreased from 1329.44 to 1126.89 mm during the same period. The results suggest that this glacier will be annihilated completely if the same retreating trend continues. 相似文献
4.
本文依据泥石流灾害体形态确定的地貌发育程度构建了泥石流灾害的评价模型,并将熵理论综合应用于泥石流评价模型,应用该模型对兰州地区山谷泥石流趋势进行了分析,并指出了评价模型的不足. 相似文献
5.
Yong-Jun Tang Ze-Min Xu Tai-Qiang Yang Zhen-Hua Zhou Kun Wang Zhe Ren Kui Yang Lin Tian 《Landslides》2018,15(11):2279-2293
Debris flows occurring in well-vegetated alpine areas usually contain a range of sizes of woody debris. Large woody debris (LWD), which has a retaining effect on further transportation of debris downstream, is mainly distributed in upstream reaches, and the amount of small woody debris (SWD) deriving from LWD increases dramatically midstream and downstream. The Dongyuege (DYG) bouldery debris flow with a sandy-matrix took place in a wildwood area, causing 96 deaths and its clay-sized fraction does not contain typical clay minerals. However, its total travel distance and runout distance in a low-gradient reach (between 2° and 5°) upstream of the depositional fan apex reached 11 km and 3.3 km, respectively. The abundant SWD in the DYG debris flow might have played a crucial role in slurrying, persistence, and the long runout over the low gradient. To understand why this debris flow extended so far, slurrying experiments, pore water escape experiments, and excess pore pressure experiments were performed. Crude debris (CD) collected from the DYG debris flow deposit was used throughout the experiments, the tested materials of which are separated into CD-containing SWD with a maximum grain size (MGS?=?2 mm), purified debris (PD) without SWD with a MGS of 2 mm, and SWD <?2 mm in diameter. In the five slurrying experiments with PD-SWD-water mixtures, as the SWD content was elevated from 0.0 to 2.0 wt%, the current velocity of escaping pore water decreased uniformly from 17.2 to 0.9 mm/s. When the SWD content was 1.0 wt% or greater, the mixtures can be considered as one-phase flows of viscous fluids. The six pairs of pore water escape experiments based on the slurries remolded with CD and PD, respectively showed that the time needed for pore water to escape from the CD slurries was much greater than those from their PD counterparts. Also, measured was the dissipation rate of the relative excess pore pressure of CD and PD slurries of various densities and volumes, which showed that most of the rates of the PD-slurries were always greater than CD-slurries. Overall, the results show that SWD has a strong influence on the slurrying of the DYG debris without typical clay minerals found in other debris flows, and SWD helps to sustain the high excess pore pressure in the interior of the debris flow mass which resulted in the extended travel distance over such a low gradient. SWD favors the formation and stability of one-phase water-debris mixtures because of its large specific surface area and low density, which makes it able to absorb fine particles and able to be suspended in slurry flows over long timescales. In well-vegetated mountainous areas, SWD should be taken into account in the assessment of debris-flow hazards. 相似文献
6.
On November 4th 2007, along the Grijalva River in the state of Chiapas, Mexico, has occurred one of the largest landslides
ever known. This landslide, known as Juan del Grijalva, destroyed the town of the same name, killing 20 people, and moved 55 million cubic meters of rock and debris down slope
to completely block the Grijalva River. In order to understand the characteristics and factors that triggered the Juan del
Grijalva landslide, geologic studies were conducted at the site. The results indicate that the landslide was composed of a
lithologic sequence of thin-bedded shales and thin to medium-thick-bedded sandstones. This was faulted into several blocks
dipping in the same sense as the mass movement. The main triggering factor was the increment of the pore pressure into the
lithologic unit due to water saturation after 5 days of heavy rain before the incident. According to records from the last
century, the Juan del Grijalva mass movement represents one of the largest mass movements recorded all over the world. The
risk conditions of the area after the landslide lead to the rapid construction of an artificial channel to drain the accumulating
mass of water upstream and therefore prevent a future catastrophic inundation down stream. 相似文献
7.
8.
峨眉山玄武岩作为长江上游攀西地区广泛分布的岩类,具有形成环境独特、出露面积大、岩石易鉴定的特点,可作为长江三峡贯通物源示踪研究的指示标志.通过对长江中上游阶地和江汉平原周老孔第四纪岩心沉积物中的玄武岩砾石和岩屑(1~2 mm)进行研究发现,峨眉山玄武岩砾石在长江上游很常见,在三峡以下很少;玄武岩岩屑在长江上游沉积物中非常普遍,而且在周老孔岩心沉积物中的很多层位都有出现.对玄武岩岩屑基质中的斜长石做了微量元素微区原位分析(LA-ICP-MS),分析表明,在周老孔中含峨眉山玄武岩岩屑的岩心层位最大深度为156 m,该层位古地磁年龄约为1.7 Ma,此时长江已经形成且三峡已经贯通. 相似文献
9.
海巴洛沟位于滇西北横断山区,2019年7月28日凌晨2:40暴发泥石流灾害,为科学准确开展该区域泥石流监测预警和综合防治工作,保障海巴洛沟流域中下游香丽(香格里拉至丽江)高速公路建设和运营安全,本文根据实地、无人机航拍及遥感调查,结合室内试验和分析计算,对本次泥石流特征及成因进行研究。本次泥石流平均容重为16.77 kN·m-3,属稀性泥石流,洪峰流量为528.16 m3·s-1,属特大泥石流。受地质、气候条件综合作用,海巴洛沟流域内物源包含3类:河谷区沟道侧岸滑坡体、高位冰碛物和高位寒冻风化碎屑。本次泥石流发生在27日晚至28日凌晨主体降雨过程的尾部,根据对2019年8~10月海巴洛沟流域9次降雨过程的监测,发现该区域降雨具有主体过程为6 h、降雨量随海拔升高而显著增加的时空分布特征。激发本次泥石流的强降雨集中分布在哈巴雪山西侧海拔4200~4800 m的峰脊区,6 h降雨过程平均降雨量为60.43 mm。激发水源除降雨外,还包含峰脊区内冰川融水,经计算本次6 h降雨过程中冰川平均消融水当量为17.29 mm。本文研究成果可为滇西北横断山区降雨-冰川融水混合型泥石流监测预警及防治提供可靠科学依据。 相似文献
10.
针对叶城柯克亚乡波龙7.20突发泥石流灾害,现场开展了应急科学调查。对沟下游泥石流堆积区进行量测,对上游突发小型滑坡-堰塞湖-泄流全过程开展实时观察。结果发现:泥石流固体物质主要是晚更新世风积土滑坡和中元古变质岩及碳酸盐岩崩塌,水体来源主要是强降雨导致的上游洪水及堰塞湖溃决;沟谷上游以稀性泥石流为主,下游加入了崩塌块体及河道砂砾石,粘度有所增大;堆积区呈块石散落和淤积状态。据现场多个老堰塞坝推测,波龙沟泥石流发生周期约15~20年。现有停车场位于沟口堆积区,需加大极端洪水及泥石流排泄空间,拓宽排导沟槽净空。 相似文献
11.
梁河县芒东镇章巴小砂河曾多次暴发泥石流灾害,以2016年8月5日最为严重,冲毁民房,淤埋良田,造成了重大的经济损失。在野外实地调查后,通过对流域形态、地形地貌、沟床特征、物源分布情况、交通条件及“8.05”成灾特征等综合分析后制定相应的工程措施,并对其后续进行效果评价。研究结果表明:章巴小砂河泥石流治理工程采用“中上游稳坡固源拦挡,中下游固床护岸+下游过村段排导”的系统治理措施,通过雨季考验、定性分析比对,章巴小砂河泥石流治理工程效果较好。对梁河地区泥石流治理项目具有指导意义。 相似文献
12.
甘肃省舟曲8.7特大泥石流调查研究 总被引:21,自引:0,他引:21
本文通过对甘肃省舟曲县城后山三眼峪沟和罗家峪沟特大泥石流灾害的现场调查,从泥石流形成的地形、地质和降雨条件入手,分析了特大泥石流灾害的特征与成因:三眼峪沟和罗家峪沟泥石流形成区在2010年8月7日23~24时的1h降雨量达77.3mm,暴雨形成强大洪水依次冲毁两条沟内的天然堆石坝和人工拦挡坝,形成规模巨大的高容重黏性泥石流,泥石流冲出总量和泥沙总量分别为 144.2104m3和97.7104m3; 泥石流携带具有强大冲击力的巨石冲毁房屋5500余间; 在白龙江内形成长约550m,宽约70m,高约10m的堰塞坝并形成堰塞湖,堰塞湖回水长3km,使县城一半被淹; 泥石流造成1744人死亡和失踪。分析研究表明,三眼峪沟和罗家峪沟泥石流如果在近期遭遇强降雨还会暴发泥石流,但规模比87特大泥石流小;如果强降雨发生在数年后,暴发的泥石流规模比87特大泥石流略小;在20a或更长的时期内,没有发生新的地震影响下,在三眼峪沟和罗家峪沟经历一次大规模泥石流暴发后,泥石流的规模将回到汶川地震前的水平。 相似文献
13.
Landslide dams in mountainous areas are quite common. Typically, intense rainfalls can induce upstream flows along the sloping channel, which greatly affects the stability and failure modes of landslide dams. If a series of landslide dams are sequentially collapsed by an incoming mountain torrent (induced by intense rainfall), large debris flows can be formed in a short period of time. This also amplifies the magnitude of the debris flows along the flow direction. The catastrophic debris flows, which occurred in Zhouqu, China on August 8, 2010, were indeed caused by intense rainfall and the upstream cascading failure of landslide dams along the gullies. Experimental tests were conducted in a sloping channel to understand the dynamic process of cascading landslide dam failures and their effect on flow scale amplification. Similar to the Zhouqu conditions, the modeled landslide dams were distributed along a sloping channel and breached by different upstream flows. For each experiment, the front flows were sampled, the entrained grain sizes were analyzed, and the front discharge along the channel was measured. The results of these experiments show that landslide dams occurring along the channel can be destroyed by both high and low discharge flows, although the mechanisms are quite different for the two flow types. Regardless of flow type, the magnitude of the flows significantly increases after a cascading failure of landslide dams, resulting in an increase in both the diameter and the entrained coarse particles percentage. 相似文献
14.
This study focused on the landslide case at Su-Hua Highway 115.9k, Taiwan. A preliminary investigation was conducted on geomorphologic features change and landslide mechanisms using digital elevation models, geographical maps, and remote sensing images at different times in conjunction with geological surveys and analysis results. Using the results of geological surveys and physical model experiments, we constructed a discrete element method to simulate the process of landslide movement. The results revealed deformation in the metamorphic rock slopes upstream of 115.9k. The slopes around the erosion gully upstream presented visible slope toes cutting and tension cracks at the crest as well as unstable rock masses. According to the results of numerical simulation for typhoon Megi event, intense rains could induce slippage in the rock debris/masses in the source area, initially at a speed of 5–20 m/s. Subsequently, steeper terrain could cause the rock debris/masses to accelerate to form a high-speed (>30 m/s) debris slide quickly moving downstream to form an alluvial fan downstream by the sea. 相似文献
15.
Lisa M.Tranel 《地学前缘(英文版)》2018,9(4):1193-1202
Characterizing stream erosion in any steep mountain landscape is arduous, but the challenge level increases when the stream flows through a glaciated catchment frequently modified by hillslope debris.Glacial landforms and stochastic mass wasting in alpine systems may interfere with sediment delivery to downstream sites where detrital sediments are often collected to represent upstream bedrock sources.To use detrital sediments as indicators of erosion, we need to understand potential sediment accumulation in flat glaciated reaches or behind rockfall barriers. This study investigates the stream channel in Garnet Canyon, a glaciated catchment located in the central Teton Range, to describe hillslope coupled channel morphology and the subsequent effects on sediment transport throughout the catchment.Stream cross-section surveys and sediment size measurements of the surface bedload were collected in the field within a glacially flattened segment of Garnet Canyon. Calculations of shear stress conditions allowed evaluation of the importance of mineral densities on potential grain entrainment. The length of the Garnet Canyon stream observed in this study was coupled with hillslope deposits. Critical shear stresses were sufficient to move gravel-sized sediments through all sections when calculated with quartz mineral density and through most sections when applying apatite mineral density. These results verify the application of detrital sediments to evaluate erosion rates or spatial bedrock sources because snowmelt stream flow efficiently moves entrained sediment past glacially reduced slopes and potential talus barriers. 相似文献
16.
岷江上游地区地质环境条件复杂、脆弱,以滑坡、崩塌、泥石流为主的地质灾害数量多、规模大、危害严重,汶川地震又引发了大量崩滑地质灾害。本文根据汶川地震前和汶川地震地质灾害调查、排查等成果,采用GIS分析和编程计算相结合的方法,选取适宜的控制点间距、搜索半径编制了岷江上游汶川地震前、汶川地震地质灾害点密度、面积密度和体积密度图,提出利用点密度、面积密度和体积密度来综合评价地质灾害的发育强度,从弱到强划分为8个等级。分析认为,岷江上游地区地质灾害发育强度高,汶川地震前地质灾害累积发育强度达最高8级极端活动,汶川地震诱发崩滑地质灾害发育强度最高为7级极强活动,且2~6级区面积较大。岷江上游地区历史强震、暴雨等极端事件多发是地质灾害累积发育强度高的主要原因,而汶川地震单次事件引发的地质灾害发育强度总体较高,并主要沿龙门山断裂带、南部河谷区分布。 相似文献
17.
Variational Laws of Debris Flow Impact Force on the Check Dam Surface Based on Orthogonal Experiment Design 总被引:2,自引:0,他引:2
Debris flow impact force is an important factor for controlling structural damage, and it is the key factor for engineering design and risk assessment. Variation laws of debris flow impact force play an important role in preventing check dam impact damage and providing technology, data and support for check dam construction. Many influencing factors exist in debris flow impact force with different influencing magnitudes. The three main factors, i.e. the debris flow bulk density, the drainage channel slope and the upstream surface gradient of the check dam, were selected to be analyzed. The purpose of the study was to analyze the influencing degree of the three factors. Three levels were set for each factor and nine text schemes were established based on the theory of orthogonal experimental design. What is more, the related miniaturized flume experiment was carried out to measure impact force of debris flow. Finally, taking the impact force mean values of key point as the evaluation index, the flume experiment results were analyzed in detail by extreme difference analysis and variance analysis. Research results indicate: among the three factors, the drainage channel slope has the most significant influence, the upstream surface gradient of the check dam is in the second place and the debris flow slurry density is the third. The form of impact force mean with the maximum value: the drainage channel slope is 15°, the debris flow bulk density is 18.1 kN/m3 and the upstream surface gradient of the check dam is 1:0. 相似文献
18.
H. S. Negi N. K. Thakur Rajeev Kumar Manoj Kumar 《Journal of Earth System Science》2009,118(6):711-720
Seasonal snow cover is a vital natural resource in the Himalaya. Monitoring of the areal extent of seasonal snow cover is
important for both climatological studies as well as hydrological applications. In the present paper, snow cover monitoring
was carried out to evaluate the region-wise accumulation and ablation pattern of snow cover in Pir Panjal and Shamshawari
ranges of Kashmir valley. The study was carried out for the winter period between November and April of 2004–05, 2005–06 and
2006–07, using multi-temporal WiFS sensor data of IRS-1C/1D satellites. The study shows reduction in the areal extent of seasonal
snow cover and rising trend of maximum temperature in three winters for the entire Kashmir valley. This has been validated
with 20 years (1988–89 to 2007–08) climatic conditions prevailed in both ranges of Kashmir valley. Region-wise study shows
the spatial and temporal variability in seasonal snow cover within Kashmir valley. Advance melting was observed in Banihal
and Naugam/Tangdhar regions than Gurez and Machhal regions. Different geographical parameters of these regions were studied
to evaluate the influence on snow cover and it was observed that altitude and position of region with respect to mountain
range are the deciding factors for retaining the seasonal snow cover for longer duration. Such region-wise study of snow cover
monitoring, can provide vital inputs for planning the hydropower projects, development in habitat areas, recreational and
strategic planning in the region. 相似文献
19.
2011年6月17日,勒帕沟发生近50年来最大的一次泥石流,经计算泥石流断面平均流速为2.03 m/s,峰值流量为200.11 m3/s,为大型泥石流,对帕勒村村民生命财产造成了巨大危害。勒帕沟上游岸坡前缘不稳定斜坡体及勒帕沟沟道内松散堆积的卵砾石为勒帕沟泥石流的主要物源。上游支沟中碎屑物块度较小,易被水流冲走,不会形成堰塞湖和溃决型泥石流。勒帕沟流域现今仍有再次暴发泥石流的可能,建议于流域中上游进行人工植树造林,在下游清理河道,进行监测预警,以实现泥石流综合防治。 相似文献
20.
四川凉山州美姑县61泥石流灾害研究 总被引:1,自引:2,他引:1
四川凉山州美姑县6.1泥石流灾害实例研究表明,该泥石流约为20年一遇的中小规模的泥石流。流域上游短历时强降雨和冰雹天气过程是这次泥石流暴发的诱因,流域内退化的生态环境和中下两岸不稳定边坡以及沟道内大量的松散堆积物为这次泥石流提供了丰富的固体物质来源。泥石流堆积物具有典型的多峰型粒度特征,且有较高的粘粒含量。巨大的泥石流漂砾、石背石现象、龟裂现象、侧积堤和龙头堆积证实了这次泥石流为粘性泥石流。危险度评价表明,采莫洛沟属于高度危险的泥石流沟,危险度为0.67;乃托沟属于中度危险的泥石流沟,危险度为0.58。风险评估结果可知,两沟都属于泥石流高风险区风险度分别为0.52和0.45。高风险区的泥石流灾害给当地的经济社会造成了严重影响并直接造成了较大的人员伤亡和财产损失。 相似文献