Showing total 2,876 results

1. The "landslides best paper award" 2004–2020.

Author

Picarelli, Luciano, Arbanas, Zeljko, and Sassa, Kyoji

Subjects

*LANDSLIDES, *AWARDS, *HAZARD mitigation, *LANDSLIDE hazard analysis, *DEBRIS avalanches

Published

2023

2. Objectives and main results of “Community Participation for Landslide Disaster Risk Reduction” thematic papers

Author

Klimeš, Jan, primary, Calvello, Michele, additional, and Auflič, Mateja Jemec, additional

Published

2019

3. Objectives and main results of 'Community Participation for Landslide Disaster Risk Reduction' thematic papers

Author

Mateja Jemec Auflič, Michele Calvello, and Jan Klimeš

Subjects

021110 strategic, defence & security studies, Community level, Disaster risk reduction, Community participation, Participatory approach, Sendai Partnership, 0211 other engineering and technologies, Landslide, 02 engineering and technology, Awareness, Geotechnical Engineering and Engineering Geology, Education, Landslide risk reduction practice, Thematic map, Natural hazard, Political science, Research studies, Environmental planning, 021101 geological & geomatics engineering

Abstract

A set of four thematic articles dealing with “Community Participation for Landslide Disaster Risk Reduction” will be published in this issue of Landslides following a call for papers, promoted by the authors, aimed at gathering field experiences in implementing and adopting landslide risk reduction measures at the community level in different social and economic environments. This editorial article briefly introduces the topic, states the objectives and the main findings of the four research studies, and provides some concluding remarks.

Published

2019

4. The 4th World Landslide Forum - Call for Papers

Author

Matjaz Mikos

Subjects

021110 strategic, defence & security studies, Geography, Natural hazard, 0211 other engineering and technologies, Landslide, Engineering ethics, 02 engineering and technology, Geotechnical Engineering and Engineering Geology, 021101 geological & geomatics engineering

Published

2016

5. The 4th World Landslide Forum - Call for Papers

Author

Mikos, Matjaz, primary

Published

2016

6. Discussion to the paper 'Expected damage from displacement of slow-moving slides' by M.F. Mansour, N.R. Morgenstern and C.D. Martin

Author

Luciano Picarelli

Subjects

Combinatorics, Injury control, Accident prevention, Poison control, Geotechnical Engineering and Engineering Geology, Displacement (vector), Mathematics

Published

2011

7. Best Paper Award 2011

Author

Arbanas, Željko, primary

Published

2013

8. Best Paper Award 2011

Author

Željko Arbanas

Subjects

Agriculture, business.industry, Natural hazard, Landslide, Geotechnical Engineering and Engineering Geology, business, Environmental planning, Geology

Published

2013

9. Discussion to the paper “Expected damage from displacement of slow-moving slides” by M.F. Mansour, N.R. Morgenstern and C.D. Martin

Author

Picarelli, Luciano, primary

Published

2011

10. Landslides: review of achievements in the second 5-year period (2009-2013).

Author

Sassa, Kyoji, Tsuchiya, Satoshi, Fukuoka, Hiroshi, Mikos, Matjaz, and Doan, Loi

Subjects

LANDSLIDES, RISK assessment for landslides, IMPACT factor (Citation analysis), ELECTRONIC publications, ACHIEVEMENT, PERIODICALS

Abstract

The international journal Landslides: Journal of International Consortium on Landslides was established in April 2004. The aims of Landslides are to promote landslide science, technology, and capacity building, and to strengthen global cooperation for landslide risk reduction within the United Nations International Strategy for Disaster Risk Reduction (ISDR). The achievements of the first 5 years from the beginning of 2004 (Vol. 1, No. 1) to the mid-2009 (Vol. 6, No. 2) were reviewed in 2009 (). This article presents the review for the second 5-year period from mid-2009 (Vol. 6, No. 3) to the end of 2013 (Vol. 10, No. 6), focusing on the journal's significance and its impact. We include an analysis of the classifications of articles in Landslides. [ABSTRACT FROM AUTHOR]

Published

2015

11. Progress of the Fifth World Landslide Forum in Kyoto, Japan, November 2020.

Author

Sassa, Kyoji

Subjects

LANDSLIDES, EMERGENCY management, FORUMS, DISASTER relief, ELECTRONIC books, ELECTRONIC publications

Abstract

The B Fifth World Landslide Forum b is organized under the subtitle Implementing and Monitoring the Sendai Landslide Partnerships 2015-2025, I Voluntary contribution to the Sendai Framework 2015-2030 i , and the I Agenda 2030-Sustainable Development Goals. i All session proceedings to the WLF5 secretariat will be compiled as WLF5 electronic proceedings with ISBN number. Each poster can be cited by its number within the WLF5 electronic posters published by the WLF5 organizing committee. Potential WLF5 supporting organizations willing to support more than 3000 USD or 300,000 JPY are requested to inform it to the financial support evaluation team (FSET) of WLF5 secretariat;. [Extracted from the article]

Published

2020

12. Contribution of the International Consortium on Landslides to the implementation of the Sendai Framework for Disaster Risk Reduction: engraining to the Science and Technology Roadmap

Author

Irasema Alcántara-Ayala and Kyoji Sassa

Subjects

Disaster risk reduction, media_common.quotation_subject, ILDRiM, 0211 other engineering and technologies, Public policy, Poison control, 02 engineering and technology, Science and Technology Roadmap, Promotion (rank), Natural hazard, Political science, Policy making, Environmental planning, Risk management, 021101 geological & geomatics engineering, media_common, Sustainable development, Review Paper, 021110 strategic, defence & security studies, business.industry, KCL2020, Landslide, Geotechnical Engineering and Engineering Geology, ICL, Sendai Framework, business

Abstract

A year after the establishment of the Sendai Framework for Disaster Risk Reduction 2015-2030 (SFDRR), the science and technology community (STC) endorsed in Geneva the UNISDR Science and Technology Roadmap to Support the Implementation of the SFDRR 2015-2030 (STR-SFDRR). Conducted actions by the International Consortium on Landslides (ICL) reflect priorities and challenges at different scales with regard to the progress of multi-sectoral partnerships, recognising the key role of the STC for the implementation of the SFDRR. Central to such endeavour are the Sendai Landslide Partnerships 2015-2025 and the new-fangled Kyoto Landslide Commitment 2020. While the former was conceived as a strategy for global promotion of understanding and reducing landslide disaster risk, the latter is directed to advocate for harmonic cohesiveness between the Sendai Landslide Partnerships 2015-2025, and the SFDRR, the 2030 Agenda Sustainable Development Goals, the New Urban Agenda and the Paris Climate Agreement. By encompassing the linkages of the contributions of the ICL community to the expected outcomes of the STR-SFDRR, this paper provides valuable input to foster the SFDRR, and provides concrete information on the ongoing ICL initiatives, actions and deliverables for strengthening partnerships and science-informed public policies to reduce landslide disaster risk and to advance Integrated Landslide Disaster Risk Management at different scales.

Published

2020

13. Three-dimensional and real-scale modeling of flow regimes in dense snow avalanches

Author

Johan Gaume, Betty Sovilla, Chenfanfu Jiang, and Xingyue Li

Subjects

010504 meteorology & atmospheric sciences, Flow (psychology), 0211 other engineering and technologies, Material point method, Terrain, 02 engineering and technology, 01 natural sciences, Physics::Geophysics, Snow avalanche, 3D real-scale modeling, Flow regime, Geotechnical engineering, 021101 geological & geomatics engineering, 0105 earth and related environmental sciences, Original Paper, geography, geography.geographical_feature_category, Glacier, Landslide, 15. Life on land, Geotechnical Engineering and Engineering Geology, Snow, Debris, Fracture (geology), Astrophysics::Earth and Planetary Astrophysics, Geology

Abstract

Snow avalanches cause fatalities and economic loss worldwide and are one of the most dangerous gravitational hazards in mountainous regions. Various flow behaviors have been reported in snow avalanches, making them challenging to be thoroughly understood and mitigated. Existing popular numerical approaches for modeling snow avalanches predominantly adopt depth-averaged models, which are computationally efficient but fail to capture important features along the flow depth direction such as densification and granulation. This study applies a three-dimensional (3D) material point method (MPM) to explore snow avalanches in different regimes on a complex real terrain. Flow features of the snow avalanches from release to deposition are comprehensively characterized for identification of the different regimes. In particular, brittle and ductile fractures are identified in the different modeled avalanches shortly after their release. During the flow, the analysis of local snow density variation reveals that snow granulation requires an appropriate combination of snow fracture and compaction. In contrast, cohesionless granular flows and plug flows are mainly governed by expansion and compaction hardening, respectively. Distinct textures of avalanche deposits are characterized, including a smooth surface, rough surfaces with snow granules, as well as a surface showing compacting shear planes often reported in wet snow avalanche deposits. Finally, the MPM modeling is verified with a real snow avalanche that occurred at Vallée de la Sionne, Switzerland. The MPM framework has been proven as a promising numerical tool for exploring complex behavior of a wide range of snow avalanches in different regimes to better understand avalanche dynamics. In the future, this framework can be extended to study other types of gravitational mass movements such as rock/glacier avalanches and debris flows with implementation of modified constitutive laws., Landslides, 18 (10), ISSN:1612-510X

Published

2021

14. Landslides: a top international journal in geological engineering and engineering geology?

Author

Mikoš, Matjaž

Subjects

ENGINEERING geology, LANDSLIDES, LANDSLIDE hazard analysis, BIBLIOMETRICS, RISK assessment for landslides

Abstract

Scientific literature is becoming daily more and more abundant. Scientific and professional journals as primary information sources are competing to each other to attract readership. Their position (ranking, visibility, attractiveness, prestige) in scientific community can be measured by using different journal bibliometric and scientometric parameters, journal impact factor being only one of them. Springer Nature publishes the journal Landslides: Journal of the International Consortium on Landslides since 2004. Being examined in the past by different authors from bibliometric and editorial point of view, this review on the journal's achievements confirmed the high ranking of this journal in the fields of geological and geotechnical engineering and engineering geology. Strong and weak points are discussed from the bibliometric point of view, stressing the need for higher internationality of co-authorship of published articles in order to be true international journal. Continuous publishing and the move to a monthly journal in 2018 will eventually increase journal's h-index and cited half-life of citations, but further editorial efforts should be directed to attract excellent review papers and focused technical notes to increase cites per paper. Until now, the journal Landslides is the foremost journal in the field of landslide disaster risk reduction, and the top young international journal in the field of geological engineering and engineering geology. [ABSTRACT FROM AUTHOR]

Published

2017

15. Remote thermal detection of exfoliation sheet deformation

Author

Greg M. Stock, Battista Matasci, Michel Jaboyedoff, Marc-Henri Derron, Antonio Abellán, Brian D. Collins, and Antoine Guerin

Subjects

Terrestrial laser scanning, Original Paper, geography, geography.geographical_feature_category, 010504 meteorology & atmospheric sciences, Rockfall source, Landslide, Deformation (meteorology), 010502 geochemistry & geophysics, Geotechnical Engineering and Engineering Geology, 01 natural sciences, Exfoliation joint, Rockfall, 13. Climate action, Thermal, Thermography, Infrared thermography, Cliff, Fracture (geology), Exfoliation, Composite material, Yosemite Valley, Geology, 0105 earth and related environmental sciences

Abstract

A growing body of research indicates that rock slope failures, particularly from exfoliating cliffs, are promoted by rock deformations induced by daily temperature cycles. Although previous research has described how these deformations occur, full three-dimensional monitoring of both the deformations and the associated temperature changes has not yet been performed. Here we use integrated terrestrial laser scanning (TLS) and infrared thermography (IRT) techniques to monitor daily deformations of two granitic exfoliating cliffs in Yosemite National Park (CA, USA). At one cliff, we employed TLS and IRT in conjunction with in situ instrumentation to confirm previously documented behavior of an exfoliated rock sheet, which experiences daily closing and opening of the exfoliation fracture during rock cooling and heating, respectively, with a few hours delay from the minimum and maximum temperatures. The most deformed portion of the sheet coincides with the area where both the fracture aperture and the temperature variations are greatest. With the general deformation and temperature relations established, we then employed IRT at a second cliff, where we remotely detected and identified 11 exfoliation sheets that displayed those general thermal relations. TLS measurements then subsequently confirmed the deformation patterns of these sheets showing that sheets with larger apertures are more likely to display larger thermal-related deformations. Our high-frequency monitoring shows how coupled TLS and IRT allows for remote detection of thermally induced deformations and, importantly, how IRT could potentially be used on its own to identify partially detached exfoliation sheets capable of large-scale deformation. These results offer a new and efficient approach for investigating potential rockfall sources on exfoliating cliffs. Electronic supplementary material The online version of this article (10.1007/s10346-020-01524-1) contains supplementary material, which is available to authorized users.

Published

2020

16. Sendai voluntary commitments: landslide stakeholders and the all-of-society approach enhanced by UNDRR

Author

Yuki Matsuoka and Erick Gonzales Rocha

Subjects

Sustainable development, Review Paper, 021110 strategic, defence & security studies, Process management, Disaster risk reduction, business.industry, 0211 other engineering and technologies, Commitments, 02 engineering and technology, Geotechnical Engineering and Engineering Geology, Hazard, Knowledge sharing, Stakeholders, Landslide, Goodwill, Duration (project management), Resilience (network), business, All-of-society, Risk management, 021101 geological & geomatics engineering

Abstract

The resilience of communities and nations is a necessary condition for sustainable development. Building resilience, however, is not always a straightforward process and requires joint efforts, an all-of-society approach. Thus, the commitment, goodwill, knowledge, experience, and resources of all stakeholders contributing to disaster risk reduction (DRR) are crucial. In UNDRR’s Sendai Framework Voluntary Commitments online platform, the work of all stakeholders can be showcased and tracked. Using novel data from this platform, this article presents descriptive information about the types of commitments made by stakeholders working on landslides. Results suggest that landslide is the third most covered hazard. Commitments working on this hazard have a more balanced distribution of global, regional, and local actions as compared with the whole sample. Also, landslide commitments tend to display higher levels of collaboration (as measured by the number of organizations involved) and longer duration (a commitment will last 7.6 years on average). Common issues being addressed include capacity development, risk management, and community-based DRR. When looking at specific regions and countries, there are opportunities for increased partnerships and effectiveness in topics such as knowledge sharing and technology solutions. The systemic nature of risks is increasingly apparent, and this article may stimulate further studies analyzing complexity and the joint action of all stakeholders committed to accelerate the implementation of the Sendai Framework.

Published

2020

17. Progressive failure mechanism and stability for a rockslide with a toe rock bridge.

Author

Zhou, Yuntao and Zhao, Xiaoyan

Subjects

*LANDSLIDES, *TOES, *STRESS concentration, *FINITE differences, *FAILURE mode & effects analysis, *DISPLACEMENT (Psychology)

Abstract

Toe rock bridge is a key block for controlling failure mode and overall stability of a rockslide. In this paper, 3D Fast Lagrangian Analysis Code (FLAC3D) is used to simulate the progressive failure process of a simple translational rockslide and a compound rockslide (an engineering case), both of which are assumed to have a toe rock bridge. A range of strain, stress, and plastic zone in the sliding block or on the failure surface were analyzed in the progressive failure process. Based on the concept of the Prandtl failure, this paper proposed a limit equilibrium method considering the Prandtl wedge damage (LEM-PW) for the rockslide with toe rock bridge. Moreover, the influence of the size and position of the Prandtl wedge on the overall stability of the rockslide was discussed. The results show that the combination of the 3D finite difference numerical simulation and the limit equilibrium method can interpret the displacement accumulation at the rear of the rockslide, the stress concentration characteristics of the toe rock bridge, and the variation trend of the landslide stability after the Prandtl wedge damage. [ABSTRACT FROM AUTHOR]

Published

2024

18. A small landslide induced a large disaster prior to the heavy rainy season in Jinkouhe, Sichuan, China: characteristics, mechanism, and lessons.

Author

Hou, Runing, Li, Zhi, Ye, Weihao, Peng, Taixin, Tian, Shufeng, Chen, Ningsheng, Huang, Na, and Somos-Valenzuela, Marcelo

Subjects

*LANDSLIDES, *WATER table, *WATER harvesting, *LANDFORMS, *GROUNDWATER flow, *NUMERICAL calculations

Abstract

Small-scale landslides that occur at unexpected locations and seasons can cause severe losses of life and property. Unusually, the Shidang landslide occurred prior to the rainy season in Jinkouhe County, Sichuan Province, China, resulting in 19 deaths and missing persons. In this paper, landslide characteristics and causes are revealed through a field investigation, laboratory experiments, and numerical calculations. The results show that the Shidang landslide was a small-scale landslide with a total volume of approximately 19500 m3, originating from hollow colluvial deposits. The geomorphological hollow above the landslide provided topographic conditions for the collection of subsurface runoff. Groundwater flow was transported downward along dolomite and accumulated in the area above shale, with a low conductivity. Groundwater table rise combined with the decrease in the soil strength led to landslide occurrence. Improper siting of residential areas and insufficient vigilance against post-rainfall landslides caused this tragedy. Considering the post-disaster lessons, it is strongly recommended that in the future, more attention should be given to the investigation of landslides triggered by groundwater, especially in determining landslide hydrological system boundaries. In mountainous areas where the developable space is limited, areas with hollow landforms are potentially at risk of geohazards. This paper could provide a reference for the prevention and management of similar landslides and new insights for updating landslide investigation systems and residential housing plans. [ABSTRACT FROM AUTHOR]

Published

2024

19. Landslides: a review of achievements in the first 5 years (2004–2009).

Author

Sassa, Kyoji, Tsuchiya, Satoshi, Ugai, Keizo, Wakai, Akihiko, and Uchimura, Taro

Abstract

The international journal Landslides was initiated in April 2004. It is the core project (IPL-C100) of the International Programme on Landslides, a joint initiative of the International Consortium on Landslides and the United Nations and other global organizations. The aims of Landslides are to promote landslide sciences, technology, and capacity building and strengthen global cooperation for landslide risk reduction within the United Nations International Strategy for Disaster Reduction. This paper presents an analysis of the first 5 years of Landslides, the study methods employed, the types and major causes of landslides, the number of different contributors per country, and the “times cited” per issue and most frequently cited papers and briefly discusses some of these. Strategies for future development of the journal involve obtaining input and suggestion from researchers and readers worldwide. [ABSTRACT FROM AUTHOR]

Published

2009

20. Quantitative correlation between rock fall and weather seasonality to predict changes in rock fall hazard with climate change.

Author

Mirhadi, Nima and Macciotta, Renato

Subjects

ROCKFALL, CLIMATE change, WEATHERING, TRANSPORTATION corridors, FREEZE-thaw cycles, WEATHER

Abstract

The Canadian Cordillera in the province of British Columbia witnesses numerous rock falls every year. Studies on the recorded rock fall data in this area show that rock fall hazard follows weather conditions, especially precipitation and freeze-thaw cycles. This relationship indicates that a weather-based approach can be implemented to estimate possible changes in the rock fall hazard due to climate change. In this paper, we used a statistical approach to quantify the relationship between monthly weather averages and rock fall frequencies for a section of a transportation corridor along the Fraser River in British Columbia, Canada. In this regard, von Mises distributions are used to find the best-fitted models to the monthly precipitation and freeze-thaw cycles, and proper relative weights are applied to the models in order to calibrate them to the rock fall monthly frequency. The calibrated model is used with input data from climatic predictions for 2041–2070 and 2071–2100 to see how rock fall distribution will be affected due to climate change in the future decades. Results show that between 9 and 19%, more rock fall is anticipated in future winters. Rock falls are expected to decrease in other months, especially in October, November, March, and April. This paper presents a method to predict changes in rock fall hazard seasonality due to climate change and illustrates the method with a case study along a section of the Canadian Cordillera. [ABSTRACT FROM AUTHOR]

Published

2023

21. Combining release and runout in statistical landslide susceptibility modeling

Author

Mergili, Martin, Schwarz, Leonhard, and Kociu, Arben

Subjects

Original Paper, Landslide runout, GIS raster analysis, Statistical model, Landslide susceptibility

Abstract

We introduce and compare two approaches to consistently combine release and runout in GIS-based landslide susceptibility modeling. The computational experiments are conducted on data from the Schnepfau investigation area in western Austria, which include a high-quality landslide inventory and a landslide release susceptibility map. The two proposed methods use a constrained random walk approach for downslope routing of mass points and employ the probability density function (PDF) and the cumulative density function (CDF) of the angles of reach and the travel distances of the observed landslides. The bottom-up approach (A) produces a quantitative spatial probability at the cost of losing the signal of the release susceptibility, whereas the top-down approach (B) retains the signal and performs better, but results in a semi-quantitative score. Approach B also reproduces the observed impact area much better than a pure analysis of landslide release susceptibility. The levels of performance and conservativeness of the model results also strongly depend on the choice of the PDF and CDF (angle of reach, maximum travel distance, or a combination of both).

Published

2019

22. Identification and evaluation of the high mountain upper slope potential landslide based on multi-source remote sensing: the Aniangzhai landslide case study.

Author

Dai, Keren, Li, Zhiyu, Xu, Qiang, Tomas, Roberto, Li, Tao, Jiang, Liming, Zhang, Jianyong, Yin, Tao, and Wang, Hao

Subjects

LANDSLIDE hazard analysis, REMOTE sensing, OPTICAL radar, LANDSLIDES, LIDAR, SYNTHETIC aperture radar

Abstract

On June 17, 2020, Aniangzhai landslide, an ancient landslide located in Danba County, southwest China, was reactivated by Meilonggou debris flow. The front edge of the slope collapsed, mobilizing a soil mass of about 2.35 × 106 m3. Evaluating the stability of the whole slope is of great importance to avoid further landslides and mitigate the damage for Aniangzhai villagers living on this slope. This paper focuses on the inaccessible upper slope of Aniangzhai landslide (no attention paid before) that exhibits a relative elevation difference of more than 1000 m. Multi-source remote sensing, including unmanned aerial vehicle (UAV) photogrammetry, light detection and ranging (LiDAR), and satellite-based interferometric synthetic aperture radar (InSAR) techniques, was used in this research to identify and evaluate this high mountain upper slope potential hazard in Aniangzhai landslide. Considering the huge height difference and the steep slope of Aniangzhai landslide, an iterative route planning method was proposed and adopted to obtain a 3D model with 0.02 m resolution and a DEM with 0.25 m resolution by using UAV and LiDAR close-in flight method, respectively. Meter-level huge cracks were clearly identified by the high-resolution UAV 3D model and LiDAR data, which confirm that the location of these cracks is related to the morphological structure of this ancient landslide. Time series InSAR analysis reveals the activity of this high-altitude area, with a maximum LOS displacement rate of 15 cm/a. The combination of the above remote sensing technologies confirms and reveals the high potential risk and the reactivated condition of the upper slope of Aniangzhai landslide. Through this finding, we show that the evolution of Aniangzhai landslide happened through four stages with a cascading effect. This paper proves the usefulness of an integrated method to successfully identify and evaluate the high-altitude upper slope potential hazard and compares the technical features of them, providing a reference for future works that aimed at mitigating the potential damage of the upper slope. [ABSTRACT FROM AUTHOR]

Published

2023

23. The role of plants in the prevention of soil-slip: the G-SLIP model and its application on territorial scale through G-XSLIP platform.

Author

Montrasio, Lorella, Gatto, Michele Placido Antonio, and Miodini, Chiara

Subjects

LANDSLIDE prediction, RAINFALL, PLANT-soil relationships, LANDSLIDES, HYDROGEOLOGY, LANDSLIDE hazard analysis

Abstract

This paper discusses the role of plants in the prevention of shallow landslides induced by rain (soil slips); these phenomena, related to "hydrogeological instability," are among the most feared because their evolutionary processes can cause huge damages and losses of human lives when interacting with anthropized areas and infrastructures. The paper first highlights how the plants interact with the soil; then introduces the G-SLIP (Green – Shallow Landslides Instability Prediction) model, i.e., the simplified physically-based SLIP model, modified to predict soil slips at punctual and large scale taking into account the vegetation effects. The G-SLIP model is thus applied to a case study of the Parma Apennines (Northern Italy) by using the G-XSLIP platform. In this area, during the intense events of rain between the 4th and 5th of April 2013, numerous landslides occurred, provoking huge damages to structures and infrastructures, and consequent economic losses. The stability analyses carried out with G-XSLIP demonstrate that the presence of vegetation in the study area led to a significant reduction in the triggering of shallow landslides. Finally, an attempt at soil slip mitigation through naturalistic techniques (planting of specific vegetation) is presented. [ABSTRACT FROM AUTHOR]

Published

2023

24. A systematic review of landslide probability mapping using logistic regression.

Author

Budimir, M., Atkinson, P., and Lewis, H.

Subjects

LANDSLIDE prediction, LOGISTIC regression analysis, META-analysis, LANDSLIDE hazard analysis, RISK assessment for landslides

Abstract

Logistic regression studies which assess landslide susceptibility are widely available in the literature. However, a global review of these studies to synthesise and compare the results does not exist. There are currently no guidelines for the selection of covariates to be used in logistic regression analysis, and as such, the covariates selected vary widely between studies. An inventory of significant covariates associated with landsliding produced from the full set of such studies globally would be a useful aid to the selection of covariates in future logistic regression studies. Thus, studies using logistic regression for landslide susceptibility estimation published in the literature were collated, and a database was created of the significant factors affecting the generation of landslides. The database records the paper the data were taken from, the year of publication, the approximate longitude and latitude of the study area, the trigger method (where appropriate) and the most dominant type of landslides occurring in the study area. The significant and non-significant (at the 95 % confidence level) covariates were recorded, as well as their coefficient, statistical significance and unit of measurement. The most common statistically significant covariate used in landslide logistic regression was slope, followed by aspect. The significant covariates related to landsliding varied for earthquake-induced landslides compared to rainfall-induced landslides, and between landslide type. More importantly, the full range of covariates used was identified along with their frequencies of inclusion. The analysis showed that there needs to be more clarity and consistency in the methodology for selecting covariates for logistic regression analysis and in the metrics included when presenting the results. Several recommendations for future studies were given. [ABSTRACT FROM AUTHOR]

Published

2015

25. Evaluating topography-based methods in 3D decomposition of InSAR 1D velocities obtained for translational landslides: Thompson River valley in Canada.

Author

Sharifi, Sohrab, Macciotta, Renato, Hendry, Michael, Rotheram-Clarke, Drew, and Huntley, David

Subjects

DECOMPOSITION method, LANDSLIDES, SYNTHETIC aperture radar, RELIEF models, VELOCITY, TOPOGRAPHY

Abstract

Interferometric synthetic aperture radar (InSAR) has gained considerable attention as a landslide monitoring strategy owing to its high accuracy, large coverage, and relatively low associated costs. A crucial drawback of InSAR, however, has limited its further incorporation: one-dimensional estimations along the sensor's line-of-sight (LOS). This leads to an ambiguity in results and a less intuitive understanding of landslide kinematics. A frequently exercised approach to address this issue has been taking inspiration from the topography to establish compatibility assumptions between velocity components, yet little insight exists on the performance of these methods. The objective of this paper is to investigate the performance of four renowned topography-based methods—Surface Parallel Flow Model (SPFM), SPFM coupled with least-squares method (SPF-LSM), Aspect Parallel Flow Model (APFM), and Steepest Terrain Following Model (STFM)—in evaluating the magnitude and geometry of total velocity vectors. To this end, the analysis is performed on 202 Radarsat-2 and 243 Sentinel-1 scenes acquired over a section of the Thompson River valley, a critical railway corridor in Western Canada traversing 14 landslides. The results indicate that the APFM provides estimations with the lowest magnitude error (15–19 mm/yr or 18.75–23.75% of in situ measurements) compared to the other approaches. SPFM and SPF-LSM are highly sensitive to LOS variance and tend to bias the interpreted vectors toward the north orientation. However, APFM and STFM reflect more realistic aspect angles, with the former inclined to steeper travel angles and the latter suffering from erratic upward travel angles due to local topographies. [ABSTRACT FROM AUTHOR]

Published

2024

26. Active fault control led to the Moli landslide triggered by rainfall on 26 February 2021 in Zhouqu County, Gansu, China.

Author

Yin, Baoguo, Yin, Yueping, Zhang, Ming, Zhang, Chenyang, He, Qing, and Wang, Guanhe

Subjects

*LANDSLIDES, *RAINFALL, *MASS-wasting (Geology), *SYNTHETIC aperture radar, *WATER table, *URBAN growth, *SHEAR strength

Abstract

The reactivation of ancient landslides, a persistent issue that hinders urban development and threatens human safety, is the central focus of this paper. Specifically, this paper offers a detailed description and analysis of an ancient landslide that reactivated on February 26, 2021, in Guoye town, Zhouqu County, Gansu Province, China, and has remained slow-moving since then. With a volume of approximately 21.2 million m3 of rock and soil masses involved, this landslide poses a significant risk to the safety of 1119 individuals from 282 households in Moli village and Guoye village. A combination of field investigations, remote sensing interpretation, in situ monitoring, and interferometric synthetic aperture radar (InSAR) was used to investigate the landslide characteristics and reactivation mechanisms. The results revealed that the presence of sliding-prone rock formations and tectonic movement were the primary contributors to the formation of the Moli landslide. Furthermore, the accumulation of bedrock blocks in the quarry and collapsed rock masses caused by fault activity at the rear parts, along with the additional load from buildings on the middle and rear sections, increased the sliding force. Simultaneously, the erosion of the Dashuiba River resulted in a reduction in the anti-slip force, thereby directly facilitating landslide reactivation. The notable increase in annual rainfall in recent years has played a crucial role in ancient landslide reactivation by elevating the groundwater level and softening the shear strength of the sliding zone soil. The findings of this study contribute to an enhanced understanding of the reactivation mechanisms in giant, ancient landslides situated within areas characterized by highly complex geological conditions. [ABSTRACT FROM AUTHOR]

Published

2024

27. Landslide susceptibility prediction and mapping using the LD-BiLSTM model in seismically active mountainous regions.

Author

Wang, Jingjing, Jaboyedoff, Michel, Chen, Gang, Luo, Xiangang, Derron, Marc-Henri, Hu, Qian, Fei, Li, Prajapati, Gautam, Choanji, Tiggi, Luo, Shungen, and Zhao, Qianjun

Subjects

LANDSLIDE hazard analysis, LANDSLIDES, EARTHQUAKE zones, MACHINE learning, RECEIVER operating characteristic curves, LANDSLIDE prediction

Abstract

Machine learning models have been widely used in landslide susceptibility prediction. However, landslide multidimensional feature extraction, model generalization ability, and prediction quantification of deep learning are still challenging. This paper proposes a new approach, the landslide density-based bidirectional long short-term memory (LD-BiLSTM) model with multichannel input and an optimized sampling strategy to predict and map landslide susceptibility in active seismic mountainous areas of Sichuan Province, China. First, to ensure the generalization ability of the LD-BiLSTM model, other regions in Sichuan were selected as the model training area independent of the prediction area (Luding County). Multichannel landslide datasets were constructed to extract high-dimensional geospatial features of landslides. Subsequently, the landslide density of each grid cell was utilized as the label for the corresponding input sample. The LD-BiLSTM model was improved by using transfer learning and sampling optimization strategies, which makes our method attenuate the impact of historical landslide inventory deviation on the spatial susceptibility mode compared with the existing DL model, which usually uses landslide objects (LO) as input sample labels. Model performance evaluation results show that the LD-BiLSTM model (precision = 0.903, recall = 0.899, F1-score = 0.901, Area under receiver operating characteristic curve (AUC) = 0.940) outperformed the LO-BiLSTM model (precision = 0.812, recall = 0.815. F1-score = 0.813, AUC = 0.910) in the case areas. Meanwhile, the performance of the LD-BiLSTM model (AUC = 0.9407) significantly outperformed both the information value (IV) (AUC = 0.7207) model and the random forest (RF) (AUC = 0.8116) models in the landslide prediction area (Luding), which confirms that the proposed LD-based method is superior to traditional LO-based methods. Significantly, our approach can effectively extract the spatial distribution of landslides and predict potential landslides in complex high-mountain environments. [ABSTRACT FROM AUTHOR]

Published

2024

28. Flume test demonstration of landslide in stable gentle soil slope triggered by small mass of pressurized pore gas.

Author

Kang, Xingyu and Yue, Zhongqi Quentin

Subjects

MASS-wasting (Geology), FLUMES, LANDSLIDES, SOILS, SOIL air, INDUSTRIAL districts

Abstract

This paper presents a triggering factor causing landslide in stable gentle soil slope. The triggering factor is a small mass of pressurized pore gas in the soil slope and illustrated with a flume soil slope model. The pore gas has a small mass of oxygen and is generated via the injection of a small volume of H2O2 solution into the cement powder core of the soil slope. The core is covered by a layer of saturated soft clay that forms a trap for the new pore gas to build its pore gas pressure. The pore gas pressure is the driving force to cause the landslide in the stable gentle soil slope. The mass of the pore gas is smaller than 0.1% of the mass of either the gentle soil slope or the landslide body. The videos of the landslide are captured and used for the analysis of movement and displacement of the sliding soil mass with time. The pressure of the pore gas is estimated from the acceleration model of the sliding soil mass. A calibration test is further carried out for the generation of the oxygen gas mass and pressure via the decomposition of the H2O2 solution in cement powder. The results quantitatively demonstrate that the small mass of the oxygen gas in the voids of the cement powder core can have enough pressure to trigger the landslide in the stable gentle soil slope model. Such pressurized pore gas triggering factor is generally not noticeable since its mass can be very small and disappear rapidly without a trace. This triggering factor could be responsible for the huge and disastrous landslide that suddenly and dramatically occurred in a huge gentle fill soil slope on December 20, 2015, at Hengtaiyu Industrial Park, Shenzhen, China. [ABSTRACT FROM AUTHOR]

Published

2023

29. The Fifth World Landslide Forum -Implementing and monitoring the ISDR-ICL Sendai Partnerships 2015-2025-.

Author

Sassa, Kyoji

Subjects

LANDSLIDES, LANDSLIDE prediction, ENVIRONMENTAL risk assessment, CONFERENCES & conventions

Published

2018

30. Reconstruction of the evolution phases of a landslide by using multi-layer back-analysis methods.

Author

Innocenti, Agnese, Pazzi, Veronica, Borselli, Lorenzo, Nocentini, Massimiliano, Lombardi, Luca, Gigli, Giovanni, and Fanti, Riccardo

Subjects

LANDSLIDES, SOIL-structure interaction, WATER table, RETAINING walls, SAFETY factor in engineering, PRICES

Abstract

Back analysis is the most common method to study landslide movements after the event, and it allows us to understand how a landslide evolved along the slope. This paper presents the back-analysis of the Pomarico landslide (Basilicata, Italy) that occurred on January 25th, 2019, on the southwestern slope of the Pomarico hill. The landslide, of rotational clayey retrogressive type—planar sliding, evolved in different phases until it caused a paroxysmal movement in the early afternoon on January 29th, 2019. The landslide caused the collapse of a bulkhead (built at the end of the twentieth century) and of some buildings along the village's main road. In this paper, a multi-layer back-analysis study is presented, based on the limit equilibrium model (LEM), applying the solution proposed by Morgenstern and Price in Geotechnique 15(1):79–93zh, (1965) and implemented in the freeware software SSAP 2010. The analysis allowed the reconstruction of the entire landslide evolution, using geotechnical parameters obtained from both laboratory and in situ tests, and data from the literature. The application of multilayer back-analysis made it possible to avoid the homogenisation of the layers, modelling the event according to the real conditions present on the slope. The use of the SSAP software made it possible to curb the problem related to the theoretical limitation of the shape of the rupture surfaces, by evaluating independently the friction angle locally and by discarding all those surfaces, which, due to this problem, presented a non-reliable factor of safety (FS) value. The modelling revealed a slope that is highly unstable as the height of the water table changes. The FS calculated under water table conditions close to ground level was less than 1 (FS = 0.98), simulating the first landslide movement (November 2018). The subsequent model reconstructed the critical surface responsible for the January 2019 movement and calculated the FS present on the slope (FS = 1.01). Eventually, the paroxysmal event on January 29th, 2019, was modelled, returning an FS of 0.83, and a sliding surface that sets below the bulkhead, causing its failure. Furthermore, the modelling of the slope in the presence of adequate retaining structures demonstrated the (non-) effectiveness of the retaining wall system represented by the bulkhead. The proposed method of analysis suggests further applications in similar complex multi-layer soil-structure interaction scenarios. [ABSTRACT FROM AUTHOR]

Published

2023

31. Landslide length, width, and aspect ratio: path-dependent measurement and a revisit of nomenclature.

Author

Li, Langping, Lan, Hengxing, Strom, Alexander, and Macciotta, Renato

Subjects

LANDSLIDES, OPEN-ended questions

Abstract

Length (L), width (W), and aspect ratio (ε, L/W) are elementary parameters widely adopted to characterize landslide geometry. Aspect ratio (ε) had been associated with the propagation of landslide along its movement path. However, current automatic measurement algorithms have not effectively considered the path of landslide movement, therefore only measure "path-independent" instead of "path-dependent" geometric parameters. This paper proposes a new approach for measuring path-dependent landslide L, W, and ε, in which path-dependent landslide L (Lpdep) is measured as the path distance from the landslide crown to its tip along the central line of landslide movement, and path-dependent landslide W (Wpdep) is measured as the weighted average lateral extent, across the central line of landslide movement. Specifically, Wpdep is calculated indirectly through dividing the landslide area by its length (A/Lpdep), and path-dependent landslide ε (εpdep) can be calculated by Lpdep2/A. The central line of landslide movement, i.e., landslide profile, is a three-dimensional (3D) polyline generated by the freely available software ALPA (Automatic Landslide Profile Analysis), and all these path-dependent geometric parameters can be measured either in 3D space or in two-dimensional (2D) space (in the horizontal plane). A case study is presented showing that path-dependent parameters can be effectively measured by the proposed profile-based approach, and could be significantly different from path-independent parameters especially for long-narrow and tortuous landslides. This paper also practically introduces new path-dependent definitions of landslide L, W, and ε, which inspires a worthwhile revisit of nomenclature. An overview shows that significant divergencies exist between current definitions of landslide L, W, and ε. In order to moderate the raised ambiguities and confusions, this paper accordingly suggests a "physically indicative" inclusive nomenclature somehow embracing all current representative definitions, and then appeals for constituting "type-specific" nomenclatures for each landslide type. However, some open questions still exist. We therefore suggest relevant academic organizations to work further on type-specific nomenclatures and effective measurement approaches for landslide L, W, and ε. [ABSTRACT FROM AUTHOR]

Published

2022

32. Forecasting the landslide evolution: from theory to practice.

Author

Cascini, Leonardo, Scoppettuolo, Maria Rosaria, and Babilio, Enrico

Subjects

LANDSLIDE prediction, SCIENTIFIC literature, THEORY-practice relationship, LANDSLIDES, DISPLACEMENT (Mechanics)

Abstract

This paper proposes a new, physically based, and mathematically consistent method for predicting the evolution of existing landslides and first-failure phenomena based on slope displacement measurements. The method is the latest step in a long-term research program and, as such, uses the preliminary framework introduced in two previous papers. The first characterizes slope movements through a limited number of displacement trends, and the second analyzes their dynamic characteristics. The approach is here extended to the prediction of landslide evolution and its validity and effectiveness are tested on landslides well known in the scientific literature for the accuracy of the studies carried out and, in some cases, for the consequences they have caused. Although the results obtained so far are very encouraging, in full awareness of the relevance and complexity of the subject matter, the authors emphasize that the method should be used, in the current state of knowledge, only by experienced professionals and especially for research purposes. [ABSTRACT FROM AUTHOR]

Published

2022

33. Implementation of a slope stability method in the CRITERIA-1D agro-hydrological modeling scheme.

Author

Sannino, G., Tomei, F., Bittelli, M., Bordoni, M., Meisina, C., and Valentino, R.

Subjects

*SOIL permeability, *SOIL horizons, *LANDSLIDES, *SLOPE stability, *SOIL moisture, *SLOPES (Soil mechanics)

Abstract

This paper presents the implementation of a slope stability method for rainfall-induced shallow landslides in CRITERIA-1D, which is an agro-hydrological model based on Richards' equation for transient infiltration and redistribution processes. CRITERIA-1D can simulate the presence and development of roots and canopies over space and time, the regulation of transpiration activity based on real meteorological data, and the evaporation reduction caused by canopies. The slope can be considered composed of a multi-layered soil, leading to the possibility of simulating the bedrock and of setting an initial water table level. CRITERIA-1D can consider different soil horizons characterized by different hydraulic conductivities and soil water retention curves, thus allowing the simulation of capillarity barriers. The validation of the proposed physically based slope stability model was conducted through the simulation of the collected water content and water potential data of an experimental slope. The monitored slope is located close to Montuè, in the north-eastern sector of Oltrepò Pavese (northern Apennines—Italy). Just close to the monitoring station, a shallow landslide occurred in 2014 at a depth of around 100 cm. The results show the utility of agro-hydrological modeling schemes in modeling the antecedent soil moisture condition and in reducing the overestimation of landslides events detection, which is an issue for early warning systems and slope management related to rainfall-induced shallow landslides. The presented model can be used also to test different bioengineering solutions for slope stabilization, especially when data about rooting systems and plant physiology are known. [ABSTRACT FROM AUTHOR]

Published

2024

34. Image compression–based DS-InSAR method for landslide identification and monitoring of alpine canyon region: a case study of Ahai Reservoir area in Jinsha River Basin.

Author

Gu, Xiaona, Li, Yongfa, Zuo, Xiaoqing, Bu, Jinwei, Yang, Fang, Yang, Xu, Li, Yongning, Zhang, Jianming, Huang, Cheng, Shi, Chao, and Xing, Mingze

Subjects

*DEFORMATION of surfaces, *ALPINE regions, *IMAGE compression, *SYNTHETIC aperture radar, *PRINCIPAL components analysis, *LANDSLIDES

Abstract

Interferometric Synthetic Aperture Radar (InSAR) technology is capable of detecting large areas of potentially unstable slopes. However, traditional time-series InSAR methods yield fewer valid measurement points (MPs) in alpine canyon regions. Distributed Scatterer (DS) Interferometry (DSI) technology serves as a potent tool for monitoring surface deformation in complex land cover areas; nonetheless, it grapples with high computational demands and low efficiency when interpreting deformation across extended time series. This study proposes an image compression–based DSI (ICDSI) method, which, building upon the DSI method, utilizes principal component analysis (PCA) to compress multi-temporal SAR images in the time dimension. It develops a module for compressing long-time sequence SAR images, acquires the compressed image (referred to as a virtual image), and integrates the developed image compression module into the DSI data processing flow to facilitate the inversion of long-time sequence InSAR land surface deformation information. To validate and assess the credibility of the ICDSI method, we processed a total of 78 ascending and 81 descending scenes of Sentinel-1A images spanning the period 2019–2021 using Small Baseline Subset (SBAS), DSI, and the ICDSI method proposed in this paper. Subsequently, these methods were applied to detect landscape displacements on both coasts of the Jinsha River Basin. The investigation reveals that the ICDSI method outperforms SBAS and DSI significantly in monitoring landslide displacements, enabling the detection of more measurement points (MPs) while utilizing less raw data. The accomplishments of this research program carry crucial theoretical implications and practical application value for the detection of surface deformation using long-time series InSAR. [ABSTRACT FROM AUTHOR]

Published

2024

35. Independent demonstration of a deep-learning system for rainfall-induced landslide forecasting in Italy.

Author

Guzzetti, Fausto, Melillo, Massimo, Calvello, Michele, Pecoraro, Gaetano, and Mondini, Alessandro C.

Subjects

*LANDSLIDE prediction, *RAINFALL measurement, *DEEP learning, *LANDSLIDES, *FORECASTING, *CATALOGS, *RAIN gauges

Abstract

A common and largely unresolved problem of national-scale landslide early warning systems is their independent evaluation. In a recent paper, Mondini et al. (Nat Commun 14:2466, 2023) proposed a deep-learning system for short-term forecasting of rain-induced shallow landslides in Italy. Here, we independently evaluate the performance of this national-scale system by demonstrating its application between 1 January and 31 May 2021. For the purpose, we use hourly rainfall measurements from the same rain gauge network and different and independent information on the timing and location of 163 rain-induced landslides obtained from the FraneItalia catalogue that occurred in Italy in a period non considered in the construction of the system (https://zenodo.org/records/7923683). Independent demonstration confirmed the good predictive performance of the forecasting system and revealed no geographical or temporal bias in the forecasts. The analysis also showed that the system was more effective at predicting multiple landslides in the same general area than single landslides. This was a good result as multiple landslides are inherently more dangerous than single failures. Analysis of the few misclassified landslides showed that approximately one-third of the landslides were rockfalls, and for approximately another third there was uncertainty about when or where the landslides occurred. We conclude that, despite the inevitable misclassifications inherent in any probabilistically based national-scale landslide forecasting system, the deep-learning system analysed is well suited for short-term operational forecasting of rain-induced shallow landslides in Italy. [ABSTRACT FROM AUTHOR]

Published

2024

36. Influence of tectonic effects on the formation and characteristics of landslide dams on the NE Tibetan Plateau: a case study in the Bailong River Basin, China.

Author

Chen, Guan, Jin, Jiacheng, Meng, Xingmin, Qi, Tianjun, Shi, Wei, Chong, Yan, Yang, Yunpeng, and Bian, Shiqiang

Subjects

*LANDSLIDE dams, *FAULT gouge, *RIVER channels, *FAULT zones, *GEOLOGICAL modeling, *LANDSLIDES

Abstract

Hazards created by the landslide damming of rivers have become common in tectonically active mountainous areas. However, it remains unclear how tectonic effects may influence the formation and characteristics of landslide dams. The purpose of this paper is to explore how tectonic effects impact the drivers, geomorphic features, and activity characteristics of landslide dams along a fault zone. We investigated 83 landslide dams clustered along a fault zone in the Bailong River Basin. Most of the dams are located in areas of high tectonic stress, resulting from the rapid river incision and destruction of slope structure caused by intense tectonic activities in these areas. Statistical analysis, InSAR monitoring, and field investigation revealed that different tectonic effects were associated with significant differences in the geomorphic features, activity characteristics, and controlling factors of the landslide dams. Thus, we identified three distinct patterns of landslide dams in tectonically active mountainous areas: (1) Topography-driven landslide dams are caused by rapid rock uplift and river incision. Here, the steep terrain enhances the development of small landslides, the narrowness of the channels favors river damming, and the residual deposits on the hillslope remain active. (2) Tectonic activities promote the development of structural planes in the rock mass and reduce its strength, ultimately forming structural plane-controlled landslide dams. Although their volumes are not very large, the strong erosion resistance of rockslides can cause river damming and maintain the stability of deposits. (3) Fractured rock mass-controlled landslide dams are composed of broken rock and fault gouge. The extremely low strength of these materials allows them to form very large landslides that can easily dam the river, and maintain a slow-moving state. Through a geomorphological and geological model, our study offers new insights and enhances the understanding of the formation and characteristics of landslide dams induced by tectonic activity in mountainous regions. [ABSTRACT FROM AUTHOR]

Published

2024

37. MPM simulation of frictional heating–induced hypermobility of landslides.

Author

Lei, Xiaoqin, He, Siming, Chen, Xiaoqing, Yang, Zongji, Dong, Youkou, and Wang, Liangliang

Subjects

*MATERIAL point method, *INCLINED planes, *HYDRONICS, *LANDSLIDES, *GRAVITY, *SLIDING friction

Abstract

Frictional heating–induced thermal pressurization is a key mechanism responsible for the exceptional long-runout distances and high-speed movement of some massive landslides. In this paper, a novel framework for modelling landslides with frictional heating–induced thermal pressurization is developed based on the material point method (MPM). In this MPM framework, the basal terrain is idealised as a rigid material, while the sliding mass is treated as a thermo-hydro-mechanical porous mixture. The sliding mass interacts with the rigid terrain via the generalized multi-material contact model accounting for frictional heating and water pressurization effect. Special scaling treatment is applied for the temperature and liquid pressure diffusion calculations within the sliding mass to better approximating the thermal pressurization effect within the thin shear band. The validity of the thermal pressurization model and the sensitivity of its parameters have been demonstrated through two benchmark examples, corresponding to thermo-poro-elastic blocks sliding on a horizontal surface with an imposed constant velocity and along an inclined plane under gravity. Finally, the capability of the proposed framework is verified by satisfyingly reproducing both the dynamic runout and the friction-induced thermal pressurization processes of the giant Daguangbao landslide. [ABSTRACT FROM AUTHOR]

Published

2024

38. ICL/IPL awards-call for nominations.

Author

Bobrowsky, Peter

Subjects

LANDSLIDES, DEVELOPING countries

Abstract

All nominations must be submitted before the deadline shown, must be complete in content and requirements and must be submitted directly to the Chair of the ICL Awards Committees (peter.bobrowsky@canada.ca) and the ICL/IPL Secretariat (secretariat@iclhq.org). Nominations will be accepted by the IPL/ICL Secretariat proposed by any ICL member in good standing up to 3 months prior to the annual ICL BOR; the exact date will be advertised by the IPL/ICL Secretariat; Nominations submitted by any ICL member in good standing up to 6 months prior to the forthcoming WLF will be accepted by the committee; the IPL/ICL Secretariat announces the exact deadline submission date. [Extracted from the article]

Published

2019

39. Experimental study on the soil mixture to promote vegetation for slope protection and landslide prevention

Author

Qiang Ma, Quan Peng, Lihua Li, Henglin Xiao, Wan Juan, Jie Huang, and Sepehr Rezaeimalek

Subjects

Cement, Environmental engineering, 02 engineering and technology, 010501 environmental sciences, 021001 nanoscience & nanotechnology, Geotechnical Engineering and Engineering Geology, Pulp and paper industry, 01 natural sciences, Water retention, Soil conditioner, Ingredient, Infiltration (hydrology), Germination, Cohesion (geology), medicine, Environmental science, medicine.symptom, 0210 nano-technology, Porosity, 0105 earth and related environmental sciences

Abstract

Water infiltration is one of the most important triggers of landslides. Vegetation is an effective way to mitigate water infiltration, reduce soil surface cracking, and, consequently, prevent landslides. In recent years, a soil mixture has been successfully used to grow vegetation on steep soil/rock surfaces by hydroseeding or shotcreting. The mixture contains seven ingredients, namely cement, fiber, peat, water retention agent, soil conditioner, soil, and pH adjusting agent. This study includes a germination and growth field test and a series of lab shear strength tests to assess: (1) the influence of the mixture’s ingredients on germination and growth of the vegetation and (2) the effect of cement and fiber on the shear strength of the cured mixture. For the germination and growth test, the Taguchi method was utilized to determine the content of each ingredient (i.e., the percentage of each ingredient) used to prepare different mixtures. Cynodon dactylon was planted in different mixtures and the germination and growth had been monitored for 3 months. The results indicated that the cement content had a significant influence on germination whereas the content of peat, soil conditioner, fiber, and water retention agent had a medium to negligible influence on germination. The content of all the ingredients had an influence on the plant’s growth and the influence of the cement content was the greatest. When the cement content is higher than 10 %, the growth of the plant is greatly hindered; therefore, to ensure a reasonable growth in the field, the cement content should be less than 10 %. The shear strength tests used the sample prepared with different contents of cement and fiber, but the same porosity. The results showed that the contents of cement and fiber had a negligible influence on the friction angle, and the cohesion increased with the increase of cement content or decrease of the fiber content. Curing time of 7–14 days yielded the maximal cohesion.

Published

2015

40. Lessons learned by 10 years of geophysical measurements with Civil Protection in Basilicata (Italy) landslide areas.

Author

Perrone, Angela

Subjects

HAZARD mitigation, LANDSLIDE hazard analysis, GEOPHYSICAL surveys, LANDSLIDES, INFRASTRUCTURE (Economics), LOCAL government, CLIMATE change, SUBSOILS

Abstract

In the last 10 years, also due to climate change, extreme rain events have affected the Basilicata region (southern Italy) causing landslides and floods that have damaged urban fabric, commercial activities and transport infrastructures. In many of these cases, the civil protection system, involving national (DPC) and regional (DRPC) Civil Protection Departments, was activated to manage the emergency phase in cooperation with local administrations and scientific institutions, which in this context are referred to as competence centres (CdCs). Among the latter, the Institute of Methodologies for Environmental Analysis (IMAA) of the Italian National Research Council (CNR) has been frequently involved in carrying out geophysical investigations in landslide areas, especially during the post-event phase. This paper reports the main results of the in-field geophysical surveys carried out in two areas of the Basilicata region affected by significant landslides in the last 10 years. The aim of the surveys was to provide the DRPC technicians with a useful subsoil geophysical model to improve the knowledge of the geological setting of the slope, to reconstruct the geometry of landslide body and to highlight high water content areas, in order to support the decision-making process. At the end of the paper, a discussion follows with the lessons learned from each case study along with recommendations on how to possibly improve the application of geophysical techniques in landslide investigations in order to further increase their impact. [ABSTRACT FROM AUTHOR]

Published

2021

41. Rock instabilities at the archaeological site of Dadan (Kingdom of Saudi Arabia).

Author

Beni, Tommaso, Boldini, Daniela, Crosta, Giovanni Battista, Frodella, William, Gallego, José Ignacio, Lusini, Edoardo, Margottini, Claudio, and Spizzichino, Daniele

Subjects

ARCHAEOLOGICAL excavations, CLIFFS, TALUS (Geology), ROCK properties, LANDSLIDES, GEOLOGICAL surveys

Abstract

This paper provides a summary of the investigations carried out for the preliminary assessment of potential geohazards affecting the archaeological site of Dadan in the Kingdom of Saudi Arabia. The site is characterized by the presence of Cambro-Ordovician sandstone cliffs (Siq formation), which were quarried in ancient times (Dadan/Lihyan kingdom) for building materials. Both the steep quarried portion (Upper Siq) and the gentler underlying slope (Middle Siq) contain tombs of significant archaeological value. Landsliding and erosion are the main geomorphological processes affecting the site, posing risks to the safety of visitors, archaeological workers, and the preservation of the site. The primary processes affecting the rock cliffs, the underlying slope talus, and the tombs were identified using geological and geomechanical surveys, in addition to various geomatic acquisitions. The mechanical properties of the rock formations and discontinuity sets were identified through laboratory testing and in situ surveying, respectively. This information represents the first step in promoting further actions for risk mitigation and site management. [ABSTRACT FROM AUTHOR]

Published

2023

42. An advanced SPH model for protective constructions of debris flows adopting the modified HBP constitutive law.

Author

Qiao, Zhitian, Shen, Wei, Berti, Matteo, and Li, Tonglu

Subjects

DEBRIS avalanches, CONSTRUCTION & demolition debris, FLOW velocity, COLUMNS, KINETIC energy

Abstract

In many catchments prone to debris flows, prevention structures such as check dams and retention basins have been installed to prevent debris flows from impacting the nearby infrastructures. The SPH model adopting the Herschel–Bulkley–Papanastasiou (HBP) constitutive law has shown good potential in modeling the interaction between debris flow and prevention structures. However, the accuracy of this model is not fully satisfactory when modeling the deposition process of debris flow, because the original HBP law is a viscoplastic model which does not consider frictional dissipation. Therefore, in this paper, we proposed a novel SPH model for analyzing the interaction between debris flow and prevention structures, by incorporating a modified HBP law with frictional dissipation into the original SPH model. The proposed model is validated by column collapse and flume benchmark experiments first and then utilized to analyze a real debris flow and its interaction with the prevention structures in the Cancia catchment in northern Italian Alps. The results of the column collapse experiment show that our model exhibits a better performance in simulating the collapse process compared with the original SPH model, and the simulation results of the sand flume test illustrate that the proposed model can accurately predict the impact force of debris flow on the prevention structure. The simulation results of the Cancia debris flow demonstrate that the check dams can dramatically diminish the discharge and the frontal flow velocity of the debris flow, and the peak impact force of debris flow generally decreases with gentler channel slope. Furthermore, various prevention structures show different interaction mechanisms with debris flows: the flat deposition platform mainly dissipates the kinetic energy of the flow, the check dam mainly reduces the peak discharge of the debris flow and intercepts the debris mass, and the retention basin at the outlet contributes to the deposition of debris flow. The proposed novel SPH model is helpful for guiding the optimization design of multiple prevention structures in debris flow gullies. [ABSTRACT FROM AUTHOR]

Published

2023

43. Landslide risk management: from hazard to disaster risk reduction.

Author

Alcántara-Ayala, Irasema and Sassa, Kyoji

Subjects

LANDSLIDES, DISASTERS, HAZARD mitigation, CONSORTIA

Abstract

Integrated disaster risk management is crucial in reducing landslide risk. The International Consortium on Landslides has launched several initiatives to enhance research and practice in landslide risk management, including the Tokyo Action Plan 2006, the ISDR-ICL Sendai Partnerships 2015–2025, and the Kyoto Landslide Commitment 2020. This article presents a collection of papers covering various aspects of landslide research and disaster risk management across diverse scales and regions worldwide. To effectively manage landslide disaster risk, it is essential to have a solid understanding of disaster risk and foster a sustained collaboration between science and policy-making to strengthen disaster risk governance. The ICL is dedicated to this mission, and by working together, its members and partners can contribute to the comprehension, reduction, and mitigation of landslide disaster risk globally. [ABSTRACT FROM AUTHOR]

Published

2023

44. Landslide displacement forecasting using deep learning and monitoring data across selected sites.

Author

Nava, Lorenzo, Carraro, Edoardo, Reyes-Carmona, Cristina, Puliero, Silvia, Bhuyan, Kushanav, Rosi, Ascanio, Monserrat, Oriol, Floris, Mario, Meena, Sansar Raj, Galve, Jorge Pedro, and Catani, Filippo

Subjects

LANDSLIDES, DEEP learning, LANDSLIDE prediction, CONVOLUTIONAL neural networks, MACHINE learning, RAINFALL

Abstract

Accurate early warning systems for landslides are a reliable risk-reduction strategy that may significantly reduce fatalities and economic losses. Several machine learning methods have been examined for this purpose, underlying deep learning (DL) models' remarkable prediction capabilities. The long short-term memory (LSTM) and gated recurrent unit (GRU) algorithms are the sole DL model studied in the extant comparisons. However, several other DL algorithms are suitable for time series forecasting tasks. In this paper, we assess, compare, and describe seven DL methods for forecasting future landslide displacement: multi-layer perception (MLP), LSTM, GRU, 1D convolutional neural network (1D CNN), 2xLSTM, bidirectional LSTM (bi-LSTM), and an architecture composed of 1D CNN and LSTM (Conv-LSTM). The investigation focuses on four landslides with different geographic locations, geological settings, time step dimensions, and measurement instruments. Two landslides are located in an artificial reservoir context, while the displacement of the other two is influenced just by rainfall. The results reveal that the MLP, GRU, and LSTM models can make reliable predictions in all four scenarios, while the Conv-LSTM model outperforms the others in the Baishuihe landslide, where the landslide is highly seasonal. No evident performance differences were found for landslides inside artificial reservoirs rather than outside. Furthermore, the research shows that MLP is better adapted to forecast the highest displacement peaks, while LSTM and GRU are better suited to model lower displacement peaks. We believe the findings of this research will serve as a precious aid when implementing a DL-based landslide early warning system (LEWS). [ABSTRACT FROM AUTHOR]

Published

2023

45. Assessing damage data availability in national landslide databases for SFDRR reporting: a case study of Kuala Lumpur as a local-level application.

Author

Bhuiyan, Tariqur Rahman, Muhamad, Nurfashareena, Lim, Choun-Sian, Choy, Er Ah, and Pereira, Joy Jacqueline

Subjects

LANDSLIDES, DATABASES, MARKET prices, SPATIAL resolution, DATA management

Abstract

The measurement of global progress in implementing a Sendai Framework for Disaster Risk Reduction (SFDRR) targets should be able to report on a set of 38 indicators including those related to disaster damage. The ability of a hazard-specific database (e.g. landslide database in this case) in providing information that meets the SFDRR target is not well researched. This study aims to examine the coverage of information in the existing landslide databases that is relevant to the SFDRR indicators, to check the availability of damage data and to evaluate the current data collection practices according to SFDRR compatibility to local scale application in assessing the applicability of existing damage data to estimate the landslide costs. Content analysis was conducted to assess the availability of damage data and compile landslide events data from different sources to develop a local-level landslide database. Replacement cost and market price approaches were used to estimate landslide costs. Kuala Lumpur is chosen as a study area to represent the lowest spatial resolution at the municipal level. The results show that existing national landslide databases have significant shortages with regard to the availability of damage data necessary for SFDRR reporting. The landslide data in Kuala Lumpur show a high level of missing fundamental hazard information, such as the type (73%), cause (93%) and size (92%). Of the compiled events, 35.9% had no associated damage data, 64.1% had at least one accompanying recorded damage indicator and 58.6% had at least one accompanying reported monetizable damage indicator. This paper contributes to literature by identifying gaps in current landslide data management practices in Malaysia. [ABSTRACT FROM AUTHOR]

Published

2023

46. Numerical investigation of river blocking process of Gangda paleolandslide at the upstream reaches of the Jinsha River, Tibentan Plateau.

Author

Bao, Yiding, Zhang, Yansong, Chen, Jianping, Su, Lijun, Li, Yongchao, Li, Yuchao, Zhang, Xudong, and Liu, Yaowu

Subjects

LANDSLIDES, KINETIC energy, FIELD research

Abstract

In this paper, the authors investigated the dynamic process of a high-level paleolandslide blocking river event-Gangda landslide blocking river event in the deep valley area. An integrated fluid–solid coupling method based on the FDEM-SPH was proposed to study it. In the numerical model, the dynamic process of the landslide is described by FDEM, while SPH describes the behavior of the river water. Based on the back-analysis of the three-dimension modeling, the landslide blocking river simulation results of the FDEM-SPH agree well with the field investigation and PFC3D simulation results. Simulation results of the FDEM-SPH show that the primary process of the Gangda paleolandslide blocking river lasted for 60 s. The maximum overall feature speed of the sliding mass was 33 m/s, while the speed of the sliding mass tip reached a maximum value of 40 m/s. Dynamic fragmentation of the landslide was violent, and both the open mode and sliding mode damage play essential roles in dynamic fragmentation. The variation of kinetic energy, accumulated friction dissipation, and fracture energy of the sliding mass are also shown. The landslide induced an impulse wave after merging into the river, and the wave behavior was further affected by the sliding mass movement. The maximum overall feature speed of the wave was 17 m/s, and the speed of the wave tip reached a maximum value of 33 m/s with a maximum run-up height of 120 m. Finally, a comparison of the FDEM-SPH model and PFC model in the application of landslide blocking river is discussed, and the advantages and limitations of the FDEM-SPH model are examined. [ABSTRACT FROM AUTHOR]

Published

2023

47. DEM-SPH simulation for the formation and breaching of a landslide-dammed lake triggered by the 2022 Lushan earthquake.

Author

Zhu, Qing-yang, Jiang, Nan, Chen, Qin, Hu, Yu-xiang, and Zhou, Jia-wen

Subjects

LANDSLIDES, EARTHQUAKES, LANDSLIDE dams, FLUID pressure, HAZARD mitigation, LAKES, STREAMFLOW

Abstract

When lakes are dammed by earthquake-induced landslides, they can pose a significant threat to communities and infrastructure both downstream and upstream. To improve means for disaster prevention and mitigation, a field investigation together with the DEM-SPH numerical method was utilized to study a landslide-dammed lake disaster in the Baoxing River after the 2022 Lushan earthquake. The simulation results agreed well with those of the field investigation; the simulated landslide dam and dammed lake were similar to the field observations. The whole process of the formation of the landslide-dammed lake, including the formation of the natural dam, the blocking of the river, and overtopping, was well described. The maximum average velocity and sliding distance of the causative Xinhua landslide were 6.55 m/s and 318 m, respectively. The limit storage capacity of the dammed lake was 513,317 m3; the water level increased under the impoundment, and the maximum river depth was 22.56 m. The fluid pressure increased with river flow direction, and the maximum fluid pressure was 1.81 × 105 Pa. The process of the river blocking disaster was divided into three stages: the impoundment stage, discharge stage, and balanced stage. In the event of a heavy rainfall, the submerged area could increase by 20.8% compared with the current state. The coupled numerical investigation presented in this paper provides new insights into the research and risk assessment of landslide-dammed lakes. [ABSTRACT FROM AUTHOR]

Published

2023

48. Prediction of the future landslide susceptibility scenario based on LULC and climate projections.

Author

Tyagi, Ankit, Tiwari, Reet Kamal, and James, Naveen

Subjects

LANDSLIDE hazard analysis, LANDSLIDES, LANDSLIDE prediction, LAND cover, METEOROLOGICAL charts, MAP projection, LAND use

Abstract

Worldwide, landslides are the most frequently occurring disaster that is very destructive and unpredictable in nature. A total of 850 landslide events were detected during 2005–2020 in the Tehri region of the Indian Himalayas. Many researchers have conducted landslide susceptibility mapping (LSM) studies for this region using different static landslide-causing factors. However, studies considering dynamic factors in predicting future landslide susceptibility scenarios are inadequate. Hence in this study, both dynamic and static factors were utilized in predicting future landslide susceptibility maps for the year 2050. The paper's main objective is the future prediction of LSM, considering future projections of land use land cover (LULC) and climate variables (precipitation and temperature). To achieve this objective, first, the geospatial database in three temporal categories, 2005–2010, 2010–2015, and 2015–2020, was prepared for the historical landslide events. Second, the landslide-causing factors were optimized and utilized in LSM for 2010, 2015, and 2020. Third, projected LULC map was generated for the year 2050 using the Artificial Neural Network-Cellular Automata (ANN-CA) model. Fourth, CMIP6 climate projection maps were prepared using the Indian Institute of Tropical Meteorology Earth system model (IITM ESM) under four shared socioeconomic pathway (SSP) scenarios. Finally, the projected maps were used as the driving parameter for the future prediction of LSM. The results reveal a high increase in the built-up area (5%) and agriculture land (4%) with a decrease in forest area (10%) in future LULC projections. The results of future LSM prediction under SSP 1–2.6, SSP 2–4.5, SSP 3–7.0, and SSP 5–8.5 climate scenarios show an increase in very high landslide susceptibility class by 2%, 4%, 7%, and 9% respectively. The predicted maps were validated utilizing the Kappa coefficient verifies the reliability of the simulated future results. [ABSTRACT FROM AUTHOR]

Published

2023

49. Landslide-prone area retrieval and earthquake-inducing hazard probability assessment based on InSAR analysis.

Author

Zou, Lichuan, Wang, Chao, Zhang, Hong, Wang, Dong, Tang, Yixian, Dai, Huayan, Zhang, Bo, Wu, Fan, and Xu, Lu

Subjects

LANDSLIDES, LANDSLIDE hazard analysis, RISK assessment, OPTICAL remote sensing, SYNTHETIC aperture radar, EARTHQUAKES, HAZARD mitigation

Abstract

Slow-moving landslide-prone areas (SLAs) are unstable objects on the terrestrial surface that can collapse rapidly when provoked by earthquakes, leading to infrastructure damage. It is critical to identify SLAs prior to earthquake events and assess their hazard-causing probabilities when triggered. An assessment approach of earthquake-triggered geohazards is proposed in this paper by combining interferometric synthetic aperture radar (InSAR) derived SLAs and geological and geomorphological factors. Taking the Ms6.8 Luding earthquake, which occurred in the Sichuan Province of southwestern China on September 5, 2022, as an example, 1320 scenes of Sentinel-1 SAR data in western Sichuan were processed using the small baseline subset (SBAS) InSAR technique before the earthquake. After the earthquake, hazard probability assessment was performed in real-time by filtering the SLAs using a spatial analysis technique with geological and geomorphological factors, e.g., real-time peak ground acceleration (PGA), slope, distance to fault (DTF), and distance to the river (DTR) data. The results show that 11 SLAs were classified into high-risk zones. As verified by the Luding co-seismic landslide dataset from visual interpretation of optical remote sensing images, 142 coseismic landslides were triggered by the earthquake in these high-risk regions. In these areas, an ancient landslide, with high pre-earthquake displacement rates (−50 mm/year) on the scarp was reactivated under the Luding earthquake forces. This method can provide a scientific tool for disaster mitigation and rapid response emergency management. [ABSTRACT FROM AUTHOR]

Published

2023

50. Physics-informed neural networks applied to catastrophic creeping landslides.

Author

Moeineddin, Ahmad, Seguí, Carolina, Dueber, Stephan, and Fuentes, Raúl

Subjects

LANDSLIDES, PARTIAL differential equations

Abstract

In this study, a new paradigm compared to traditional numerical approaches to solve the partial differential equation (PDE) that governs the thermo-poro-mechanical behavior of the shear band of deep-seated landslides is presented. In particular, this paper shows projections of the temperature inside the shear band as a proxy to estimate the catastrophic failure of deep-seated landslides. A deep neural network is trained to find the temperature, by using a loss function defined by the underlying PDE and field data of three landslides. To validate the network, we have applied this network to the following cases: Vaiont, Shuping, and Mud Creek landslides. The results show that, by creating and training the network with synthetic data, the behavior of the landslide can be reproduced and allows to forecast the basal temperature of the three case studies. Hence, providing a real-time estimation of the stability of the landslide, compared to other solutions whose stability study has to be calculated individually for each case scenario. Moreover, this study offers a novel procedure to design a neural network architecture, considering stability, accuracy, and over-fitting. This approach could be useful also to other applications beyond landslides. [ABSTRACT FROM AUTHOR]

Published

2023