Public participation is crucial in mitigating disasters.Stemming from the ongoing debate on benefit-and risk-driven approaches to landslide mitigation,this study seeks to uncover the factors and underlying mechanisms ...Public participation is crucial in mitigating disasters.Stemming from the ongoing debate on benefit-and risk-driven approaches to landslide mitigation,this study seeks to uncover the factors and underlying mechanisms that affect farmers'willingness to participate in landslide prevention and mitigation(WPLPM).Conducted in Heifangtai,Gansu Province,China,renowned as the"landslide natural laboratory",this research employs multiple linear regression analysis on data from 399 questionnaires to pinpoint the key determinants of farmers'WPLPM.The findings reveal:(1)the"risk perception paradox"exists—farmers have high-risk perception but low WPLPM;(2)the impact of risk perception on WPLPM is tempered by self-efficacy related to fund,learning ability,and operation ability,offering an insight into the"risk perception paradox";and(3)There are significant positive influences of farmers'benefit perception,social network,and perceived responsibility on their WPLPM.Based on these insights,the study offers targeted policy recommendations.展开更多
Hong Kong has a high concentration of developments on hilly terrain in close proximity to man-made slopes and natural hillsides.Because of the high seasonal rainfall,these man-made slopes and natural hillsides would p...Hong Kong has a high concentration of developments on hilly terrain in close proximity to man-made slopes and natural hillsides.Because of the high seasonal rainfall,these man-made slopes and natural hillsides would pose a risk to the public as manifested by a death toll of 470 people due to landslides since the late 1940s.In 1977,the Government of the Hong Kong SAR embarked on a systematic programme,known as the Landslip Preventive Measure(LPM)Programme,to retroft substandard man-made slopes.From 1977 to 2010,about 4500 substandard government man-made slopes have been upgraded through engineering works.During the period,the Programme had evolved progressively in response to Government’s internal demand for continuous improvement and rising public expectation for slope safety.In 2010,the Government implemented the Landslip Prevention and Mitigation(LPMit)Programme to dovetail with the LPM Programme,with the focus on retroftting the remaining moderate-risk substandard man-made slopes and mitigating systematically the natural terrain landslide risk pursuant to the"react-to-known"hazard principle.This paper presents the evolution of the LPM and LPMit Programmes as well as the insight on landslide prevention and mitigation through engineering works.展开更多
In southwest of China, landslide reactivation caused by excavation has caused huge property and human losses, and posed severely threaten to the construction and operation of the man-made linear structures. A reactiva...In southwest of China, landslide reactivation caused by excavation has caused huge property and human losses, and posed severely threaten to the construction and operation of the man-made linear structures. A reactivated landslide is a complex process. The engineering practices have shown that a correct understanding of the reactivated mechanism of an ancient giant landslide is significant for the landslide mitigation. In this paper, a case study of the ancient Badu landslide that underwent multiple reactivations during the construction of Nanning-Kunming railway was discussed. The landslide characteristics are described and the reactivated features and progressive failure of the landslide are revealed. The reactivated mechanism of the landslide is analyzed by use of geological process analysis method and is simulated using the 3D FEM (finite element method). At last, the reactivated mechanism mode of Badu giant landslide is put forward, namely "creeping-tensile cracking-shear breaking with zoning and grading features". The understanding of this kind of reactivated mechanism had helped engineers to take efficient and economic mitigation measures to stabilize the landslide.展开更多
Rural mountain areas in Thailand have a high hazard potential for landslides.Settlements in hazardous areas are expanding and hill slopes are being deforested.Many former forest areas have been converted into agricult...Rural mountain areas in Thailand have a high hazard potential for landslides.Settlements in hazardous areas are expanding and hill slopes are being deforested.Many former forest areas have been converted into agricultural lands,thereby decreasing slope stabilities.Since the beginning of the 21^(st)century disasters caused by landslides have increased in Thailand.The landslides that lead to disasters in villages are in fact debris flows caused by heavy rains and landslides upstream.Landslides resulting from seismic activities are uncommon in Thailand.The landslide hazard risk in Thailand is defined by the hazard(the debris flow,i.e.,landslide prone areas)and the vulnerability(people living in landslide hazard areas).The landslide prone area mapping is based on the geology and the morphology,and the vulnerability upon settlements.The resulting landslide risk map was used to identify all risk areas and consequently the establishment of a community based landslide observation network has been able to reduce the landslide related risks.This network focuses on training local people to understand the risks related to landslides and provides villages with simple tools to detect early signs of threatening landslides and evacuate villagers to safe places.These networks have proven to be very successful,because it was possible to sensibilize and train villagers on the hazard and the risk with the result to effectively protect human lives during several landslide events.展开更多
Landslides are recurrent geological phenomena on Earth that cause heavy casualties and property losses annually.In this study,we use the V_(p)-k stacking and nonlinear waveform inversion methods of high-frequency rece...Landslides are recurrent geological phenomena on Earth that cause heavy casualties and property losses annually.In this study,we use the V_(p)-k stacking and nonlinear waveform inversion methods of high-frequency receiver functions extracted from local earthquakes,to sequentially invert Poisson’s ratios and S-wave velocities of the Quaternary Xishancun landslide,which is composed of three segments,i.e.,h1,h2,and h3 from bottom to top.Our results show that Poisson’s ratio values are generally higher than 0.33 and that the S-wave velocities vary from 0.1 to 0.9 km s^(-1).High Poisson’s ratios(>0.44)are mainly distributed in the juncture regions between different segments,as well as the western edge of h2.These zones show significant variation in landslide thickness and are potentially hazardous areas.Low velocities of 0.05–0.2 km s^(-1)with thicknesses of 10–30m are widely observed in the lower layer of the landslide.The high Poisson’s ratios and low-velocity layer may be related to water-rich materials in these areas.Our study suggests that the high-frequency receiver functions from local earthquakes can be used to delineate geotechnical structures,which is valuable for landslide stability analysis and hazard mitigation.展开更多
基金funded by National Social Science Foundation of China(Grant Number 24&ZD164)。
文摘Public participation is crucial in mitigating disasters.Stemming from the ongoing debate on benefit-and risk-driven approaches to landslide mitigation,this study seeks to uncover the factors and underlying mechanisms that affect farmers'willingness to participate in landslide prevention and mitigation(WPLPM).Conducted in Heifangtai,Gansu Province,China,renowned as the"landslide natural laboratory",this research employs multiple linear regression analysis on data from 399 questionnaires to pinpoint the key determinants of farmers'WPLPM.The findings reveal:(1)the"risk perception paradox"exists—farmers have high-risk perception but low WPLPM;(2)the impact of risk perception on WPLPM is tempered by self-efficacy related to fund,learning ability,and operation ability,offering an insight into the"risk perception paradox";and(3)There are significant positive influences of farmers'benefit perception,social network,and perceived responsibility on their WPLPM.Based on these insights,the study offers targeted policy recommendations.
文摘Hong Kong has a high concentration of developments on hilly terrain in close proximity to man-made slopes and natural hillsides.Because of the high seasonal rainfall,these man-made slopes and natural hillsides would pose a risk to the public as manifested by a death toll of 470 people due to landslides since the late 1940s.In 1977,the Government of the Hong Kong SAR embarked on a systematic programme,known as the Landslip Preventive Measure(LPM)Programme,to retroft substandard man-made slopes.From 1977 to 2010,about 4500 substandard government man-made slopes have been upgraded through engineering works.During the period,the Programme had evolved progressively in response to Government’s internal demand for continuous improvement and rising public expectation for slope safety.In 2010,the Government implemented the Landslip Prevention and Mitigation(LPMit)Programme to dovetail with the LPM Programme,with the focus on retroftting the remaining moderate-risk substandard man-made slopes and mitigating systematically the natural terrain landslide risk pursuant to the"react-to-known"hazard principle.This paper presents the evolution of the LPM and LPMit Programmes as well as the insight on landslide prevention and mitigation through engineering works.
文摘In southwest of China, landslide reactivation caused by excavation has caused huge property and human losses, and posed severely threaten to the construction and operation of the man-made linear structures. A reactivated landslide is a complex process. The engineering practices have shown that a correct understanding of the reactivated mechanism of an ancient giant landslide is significant for the landslide mitigation. In this paper, a case study of the ancient Badu landslide that underwent multiple reactivations during the construction of Nanning-Kunming railway was discussed. The landslide characteristics are described and the reactivated features and progressive failure of the landslide are revealed. The reactivated mechanism of the landslide is analyzed by use of geological process analysis method and is simulated using the 3D FEM (finite element method). At last, the reactivated mechanism mode of Badu giant landslide is put forward, namely "creeping-tensile cracking-shear breaking with zoning and grading features". The understanding of this kind of reactivated mechanism had helped engineers to take efficient and economic mitigation measures to stabilize the landslide.
文摘Rural mountain areas in Thailand have a high hazard potential for landslides.Settlements in hazardous areas are expanding and hill slopes are being deforested.Many former forest areas have been converted into agricultural lands,thereby decreasing slope stabilities.Since the beginning of the 21^(st)century disasters caused by landslides have increased in Thailand.The landslides that lead to disasters in villages are in fact debris flows caused by heavy rains and landslides upstream.Landslides resulting from seismic activities are uncommon in Thailand.The landslide hazard risk in Thailand is defined by the hazard(the debris flow,i.e.,landslide prone areas)and the vulnerability(people living in landslide hazard areas).The landslide prone area mapping is based on the geology and the morphology,and the vulnerability upon settlements.The resulting landslide risk map was used to identify all risk areas and consequently the establishment of a community based landslide observation network has been able to reduce the landslide related risks.This network focuses on training local people to understand the risks related to landslides and provides villages with simple tools to detect early signs of threatening landslides and evacuate villagers to safe places.These networks have proven to be very successful,because it was possible to sensibilize and train villagers on the hazard and the risk with the result to effectively protect human lives during several landslide events.
基金supported by the Strategic Priority Research Program(B)of Chinese Academy of Sciences(Grant No.XDB41000000)the National Natural Science Foundation of China(Grant Nos.41604056,41661164035)。
文摘Landslides are recurrent geological phenomena on Earth that cause heavy casualties and property losses annually.In this study,we use the V_(p)-k stacking and nonlinear waveform inversion methods of high-frequency receiver functions extracted from local earthquakes,to sequentially invert Poisson’s ratios and S-wave velocities of the Quaternary Xishancun landslide,which is composed of three segments,i.e.,h1,h2,and h3 from bottom to top.Our results show that Poisson’s ratio values are generally higher than 0.33 and that the S-wave velocities vary from 0.1 to 0.9 km s^(-1).High Poisson’s ratios(>0.44)are mainly distributed in the juncture regions between different segments,as well as the western edge of h2.These zones show significant variation in landslide thickness and are potentially hazardous areas.Low velocities of 0.05–0.2 km s^(-1)with thicknesses of 10–30m are widely observed in the lower layer of the landslide.The high Poisson’s ratios and low-velocity layer may be related to water-rich materials in these areas.Our study suggests that the high-frequency receiver functions from local earthquakes can be used to delineate geotechnical structures,which is valuable for landslide stability analysis and hazard mitigation.
