An Overview of Landslide Management: Scope, Difficulties, Limitations with Future Directions and Opportunities
Abstract
This study explores the scope, difficulties, limitations, and future directions of landslide management. Landslides pose significant threats to human lives, infrastructure, and the environment, necessitating effective management strategies. The study begins by introducing the topic of landslide management and its importance in mitigating landslide risks. It then delves into the scope of landslide management, including activities such as early warning systems, hazard mapping, and slope stabilization. The study highlights the various challenges faced in landslide management, such as limited resources, technical expertise, and data availability. Additionally, it discusses the limitations of current landslide management practices, emphasizing their inability to completely prevent landslides and the reliance on available technologies. Furthermore, the study presents case studies to provide real-world examples and insights into landslide management approaches. Future directions and opportunities in landslide management are explored, including the integration of advanced technologies, community-based approaches, and improved risk assessment techniques. The study concludes by emphasizing the need for a holistic approach that combines scientific expertise, community engagement, and policy support to achieve effective landslide management and reduce the impacts of these natural hazards.
Keywords
Disaster Management Landslide Hazard Landslide Management Landslide Risk Landslide Susceptibility
References
- Dai, F. C., Lee, C. F., & Ngai, Y. Y. (2002). Landslide risk assessment and management: an overview. Engineering geology, 64(1), 65-87. https://doi.org/10.1016/S0013-7952(01)00093-X
- Derin Cengiz, L. & Ercanoglu, M. (2022). A novel data-driven approach to pairwise comparisons in AHP using fuzzy relations and matrices for landslide susceptibility assessments. Environmental Earth Sciences, 81(7), 222. https://doi.org/10.1007/s12665-022-10312-0
- Fan, X., Xu, Q., Scaringi, G., Dai, L., Li, W., Dong, X., ... & Havenith, H. B. (2017). Failure mechanism and kinematics of the deadly June 24th 2017 Xinmo landslide, Maoxian, Sichuan, China. Landslides, 14, 2129-2146. https://doi.org/10.1007/s10346-017-0907-7
- Fell R, Corominas J, Bonnard C, Cascini L, Leroi E, Savage WZ. (2008). Guidelines for landslide susceptibility, hazard and risk zoning for land use planning. Eng Geol. 102(3-4):85–98. https://doi.org/10.1016/j.enggeo.2008.03.022
- Glade, T. (2001). Landslide Hazard Assessment and Historical Landslide Data — An Inseparable Couple?. In: Glade, T., Albini, P., Francés, F. (eds) The Use of Historical Data in Natural Hazard Assessments. Advances in Natural and Technological Hazards Research, vol 17. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-3490-5_12
- Gökçeoğlu, C., & Ercanoğlu, M. (2001). Heyelan duyarlılık haritalarının hazırlanmasında kullanılan parametrelere ilişkin belirsizlikler. Yerbilimleri, 22(23), 189-206.
- Hu, K., Wu, C., Tang, J. et al. New understandings of the June 24th 2017 Xinmo Landslide, Maoxian, Sichuan, China. Landslides 15, 2465–2474 (2018). https://doi.org/10.1007/s10346-018-1073-2
- Ho, K., Leroi, E., & Roberds, B. (2000, November). Quantitative risk assessment: application, myths and future direction. In ISRM International Symposium. OnePetro.
- Kaya, Ç. M. (2022). Taşkın Duyarlılık Haritalarının Oluşturulmasında Kullanılan Yöntemler. Turkish Journal of Remote Sensing and GIS, 3(2), 191-209. https://doi.org/10.48123/rsgis.1129606
- Musoke, R., Chimbaru, A., Jambai, A., Njuguna, C., Kayita, J., Bunn, J., ... & Fall, I. S. (2020). A Public health response to a mudslide in Freetown, Sierra Leone, 2017: Lessons Learnt. Disaster medicine and public health preparedness, 14(2), 256-264. https://doi.org/10.1017/dmp.2019.53
- Naiman, R. J., Decamps, H., & McClain, M. E. (2010). Riparia: ecology, conservation, and management of streamside communities. Elsevier.
- Sandholz, S., Lange, W., & Nehren, U. (2018). Governing green change: Ecosystem-based measures for reducing landslide risk in Rio de Janeiro. International journal of disaster risk reduction, 32, 75-86.
- Ulusay, R., Aydan, Ö., & Kılıc, R. (2007). Geotechnical assessment of the 2005 Kuzulu landslide (Turkey). Engineering geology, 89(1-2), 112-128.
- URL 1, https://www.who.int/health-topics/landslides#tab=tab_1 Accessed 26 March 2023
- URL 2, https://www.washington.edu/news/2014/07/22/oso-disaster-had-its-roots-in-earlier-landslides/ Accessed 26 March 2023
- URL 3, https://www.usgs.gov/news/featured-story/five-years-later-oso-sr-530-landslide-washington Accessed 26 March 2023
- URL 4, https://www.environmentandsociety.org/arcadia/sidoarjo-mudflow-and-muddiness-environmental-disaster Accessed 26 March 2023
- URL 5, https://www.wired.com/2010/02/mudvolcano/ Accessed 26 March 2023
- URL 6, https://www.bbc.com/news/world-asia-china-40390642 Accessed 26 March 2023
- URL 7, https://www.cepf.net/stories/sierra-leone-mudslide Accessed 26 March 2023
- URL 8, https://www.africanews.com/2022/08/30/sierra-leone-landslide-floods-kill-eight/ Accessed 26 March 2023
- URL 9, https://www.preventionweb.net/news/sierra-leone-climate-disaster-and-crisis-financing-shock-responsive-safety-nets Accessed 26 March 2023
- URL 10, https://edition.cnn.com/2017/08/18/africa/sierra-leone-mudslides/index.html Accessed 26 March 2023
- URL 11, https://www.hurriyet.com.tr/video/koyulhisardaki-heyelan-felaketi-16-yildir-20-milyon-metrekup-topragin-altindalar-41764968 Accessed 26 March 2023
- URL 12, https://www.jatinverma.org/landslide-risk-reduction-and-resilience
- Varol, N., & Kaya, Ç. M. (2018). Afet Risk Yönetiminde Transdisipliner Yaklaşim. Afet ve Risk Dergisi, 1(1), 1-8. https://doi.org/10.35341/afet.418307
- Vojteková, J., & Vojtek, M. (2020). Assessment of landslide susceptibility at a local spatial scale applying the multi-criteria analysis and GIS: a case study from Slovakia. Geomatics, Natural Hazards and Risk, 11(1), 131-148. https://doi.org/10.1080/19475705.2020.1713233
- Wartman, J., Montgomery, D. R., Anderson, S. A., Keaton, J. R., Benoît, J., dela Chapelle, J., & Gilbert, R. (2016). The 22 March 2014 Oso landslide, Washington, USA. Geomorphology, 253, 275-288. https://doi.org/10.1016/j.geomorph.2015.10.022
- Yilmaz, I., Ekemen, T., Yildirim, M., Keskin, İ., & Özdemir, G. (2006). Failure and flow development of a collapse induced complex landslide: the 2005 Kuzulu (Koyulhisar, Turkey) landslide hazard. Environmental geology, 49, 467-476. https://doi.org/10.1007/s00254-005-0113-0
An Overview of Landslide Management: Scope, Difficulties, Limitations with Future Directions and Opportunities
Abstract
This study explores the scope, difficulties, limitations, and future directions of landslide management. Landslides pose significant threats to human lives, infrastructure, and the environment, necessitating effective management strategies. The study begins by introducing the topic of landslide management and its importance in mitigating landslide risks. It then delves into the scope of landslide management, including activities such as early warning systems, hazard mapping, and slope stabilization. The study highlights the various challenges faced in landslide management, such as limited resources, technical expertise, and data availability. Additionally, it discusses the limitations of current landslide management practices, emphasizing their inability to completely prevent landslides and the reliance on available technologies. Furthermore, the study presents case studies to provide real-world examples and insights into landslide management approaches. Future directions and opportunities in landslide management are explored, including the integration of advanced technologies, community-based approaches, and improved risk assessment techniques. The study concludes by emphasizing the need for a holistic approach that combines scientific expertise, community engagement, and policy support to achieve effective landslide management and reduce the impacts of these natural hazards.
Keywords
Disaster Management Landslide Hazard Landslide Management Landslide Risk Landslide Susceptibility
References
- Dai, F. C., Lee, C. F., & Ngai, Y. Y. (2002). Landslide risk assessment and management: an overview. Engineering geology, 64(1), 65-87. https://doi.org/10.1016/S0013-7952(01)00093-X
- Derin Cengiz, L. & Ercanoglu, M. (2022). A novel data-driven approach to pairwise comparisons in AHP using fuzzy relations and matrices for landslide susceptibility assessments. Environmental Earth Sciences, 81(7), 222. https://doi.org/10.1007/s12665-022-10312-0
- Fan, X., Xu, Q., Scaringi, G., Dai, L., Li, W., Dong, X., ... & Havenith, H. B. (2017). Failure mechanism and kinematics of the deadly June 24th 2017 Xinmo landslide, Maoxian, Sichuan, China. Landslides, 14, 2129-2146. https://doi.org/10.1007/s10346-017-0907-7
- Fell R, Corominas J, Bonnard C, Cascini L, Leroi E, Savage WZ. (2008). Guidelines for landslide susceptibility, hazard and risk zoning for land use planning. Eng Geol. 102(3-4):85–98. https://doi.org/10.1016/j.enggeo.2008.03.022
- Glade, T. (2001). Landslide Hazard Assessment and Historical Landslide Data — An Inseparable Couple?. In: Glade, T., Albini, P., Francés, F. (eds) The Use of Historical Data in Natural Hazard Assessments. Advances in Natural and Technological Hazards Research, vol 17. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-3490-5_12
- Gökçeoğlu, C., & Ercanoğlu, M. (2001). Heyelan duyarlılık haritalarının hazırlanmasında kullanılan parametrelere ilişkin belirsizlikler. Yerbilimleri, 22(23), 189-206.
- Hu, K., Wu, C., Tang, J. et al. New understandings of the June 24th 2017 Xinmo Landslide, Maoxian, Sichuan, China. Landslides 15, 2465–2474 (2018). https://doi.org/10.1007/s10346-018-1073-2
- Ho, K., Leroi, E., & Roberds, B. (2000, November). Quantitative risk assessment: application, myths and future direction. In ISRM International Symposium. OnePetro.
- Kaya, Ç. M. (2022). Taşkın Duyarlılık Haritalarının Oluşturulmasında Kullanılan Yöntemler. Turkish Journal of Remote Sensing and GIS, 3(2), 191-209. https://doi.org/10.48123/rsgis.1129606
- Musoke, R., Chimbaru, A., Jambai, A., Njuguna, C., Kayita, J., Bunn, J., ... & Fall, I. S. (2020). A Public health response to a mudslide in Freetown, Sierra Leone, 2017: Lessons Learnt. Disaster medicine and public health preparedness, 14(2), 256-264. https://doi.org/10.1017/dmp.2019.53
- Naiman, R. J., Decamps, H., & McClain, M. E. (2010). Riparia: ecology, conservation, and management of streamside communities. Elsevier.
- Sandholz, S., Lange, W., & Nehren, U. (2018). Governing green change: Ecosystem-based measures for reducing landslide risk in Rio de Janeiro. International journal of disaster risk reduction, 32, 75-86.
- Ulusay, R., Aydan, Ö., & Kılıc, R. (2007). Geotechnical assessment of the 2005 Kuzulu landslide (Turkey). Engineering geology, 89(1-2), 112-128.
- URL 1, https://www.who.int/health-topics/landslides#tab=tab_1 Accessed 26 March 2023
- URL 2, https://www.washington.edu/news/2014/07/22/oso-disaster-had-its-roots-in-earlier-landslides/ Accessed 26 March 2023
- URL 3, https://www.usgs.gov/news/featured-story/five-years-later-oso-sr-530-landslide-washington Accessed 26 March 2023
- URL 4, https://www.environmentandsociety.org/arcadia/sidoarjo-mudflow-and-muddiness-environmental-disaster Accessed 26 March 2023
- URL 5, https://www.wired.com/2010/02/mudvolcano/ Accessed 26 March 2023
- URL 6, https://www.bbc.com/news/world-asia-china-40390642 Accessed 26 March 2023
- URL 7, https://www.cepf.net/stories/sierra-leone-mudslide Accessed 26 March 2023
- URL 8, https://www.africanews.com/2022/08/30/sierra-leone-landslide-floods-kill-eight/ Accessed 26 March 2023
- URL 9, https://www.preventionweb.net/news/sierra-leone-climate-disaster-and-crisis-financing-shock-responsive-safety-nets Accessed 26 March 2023
- URL 10, https://edition.cnn.com/2017/08/18/africa/sierra-leone-mudslides/index.html Accessed 26 March 2023
- URL 11, https://www.hurriyet.com.tr/video/koyulhisardaki-heyelan-felaketi-16-yildir-20-milyon-metrekup-topragin-altindalar-41764968 Accessed 26 March 2023
- URL 12, https://www.jatinverma.org/landslide-risk-reduction-and-resilience
- Varol, N., & Kaya, Ç. M. (2018). Afet Risk Yönetiminde Transdisipliner Yaklaşim. Afet ve Risk Dergisi, 1(1), 1-8. https://doi.org/10.35341/afet.418307
- Vojteková, J., & Vojtek, M. (2020). Assessment of landslide susceptibility at a local spatial scale applying the multi-criteria analysis and GIS: a case study from Slovakia. Geomatics, Natural Hazards and Risk, 11(1), 131-148. https://doi.org/10.1080/19475705.2020.1713233
- Wartman, J., Montgomery, D. R., Anderson, S. A., Keaton, J. R., Benoît, J., dela Chapelle, J., & Gilbert, R. (2016). The 22 March 2014 Oso landslide, Washington, USA. Geomorphology, 253, 275-288. https://doi.org/10.1016/j.geomorph.2015.10.022
- Yilmaz, I., Ekemen, T., Yildirim, M., Keskin, İ., & Özdemir, G. (2006). Failure and flow development of a collapse induced complex landslide: the 2005 Kuzulu (Koyulhisar, Turkey) landslide hazard. Environmental geology, 49, 467-476. https://doi.org/10.1007/s00254-005-0113-0
Details
| Primary Language | English |
|---|---|
| Subjects | Geological Sciences and Engineering (Other) |
| Journal Section | Articles |
| Authors | |
| Early Pub Date | July 1, 2023 |
| Publication Date | July 1, 2023 |
| Acceptance Date | June 26, 2023 |
| Published in Issue | Year 2023 Volume: 6 Issue: 2 |
