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      Human Vulnerability to Landslides

      research-article
      1 , , 1
      GeoHealth
      John Wiley and Sons Inc.
      landslide, vulnerability, risk analysis, mortality, probability of death, disaster

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          Abstract

          Landslides pose a devastating threat to human health, killing thousands of people annually. Human vulnerability is a crucial element of landslide risk reduction, yet up until now, all methods for estimating the human consequences of landslides rely on subjective, expert judgment. Furthermore, these methods do not explore the underlying causes of mortality or inform strategies to reduce landslide risk. In light of these issues, we develop a data‐driven tool to estimate an individual's probability of death based on landslide intensity, which can be used directly in landslide risk assessment. We find that between inundation depths of approximately 1–6 m, human behavior is the primary driver of mortality. Landslide vulnerability is strongly correlated with the economic development of a region, but landslide losses are not stratified by gender and age to the degree of other natural hazards. We observe that relatively simple actions, such as moving to an upper floor or a prepared refuge space, increase the odds of survival by up to a factor of 12. Additionally, community‐scale hazard awareness programs and training for citizen first responders offer a potent means to maximize survival rates in landslides.

          Key Points

          • Many modern estimates of human vulnerability to landslides rely on subjective judgment and ignore the role of human behavior

          • We present a human vulnerability curve that links an individual's probability of death to landslide inundation depth

          • We find that human behavior drives vulnerability at inundation depths of 0.9–5.9 m and suggest practical actions to reduce personal risk

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          Most cited references87

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          The Varnes classification of landslide types, an update

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            Global fatal landslide occurrence from 2004 to 2016

            Abstract. Landslides are a ubiquitous hazard in terrestrial environments with slopes, incurring human fatalities in urban settlements, along transport corridors and at sites of rural industry. Assessment of landslide risk requires high-quality landslide databases. Recently, global landslide databases have shown the extent to which landslides impact on society and identified areas most at risk. Previous global analysis has focused on rainfall-triggered landslides over short ∼ 5-year observation periods. This paper presents spatiotemporal analysis of a global dataset of fatal non-seismic landslides, covering the period from January 2004 to December 2016. The data show that in total 55 997 people were killed in 4862 distinct landslide events. The spatial distribution of landslides is heterogeneous, with Asia representing the dominant geographical area. There are high levels of interannual variation in the occurrence of landslides. Although more active years coincide with recognised patterns of regional rainfall driven by climate anomalies, climate modes (such as El Niño–Southern Oscillation) cannot yet be related to landsliding, requiring a landslide dataset of 30+ years. Our analysis demonstrates that landslide occurrence triggered by human activity is increasing, in particular in relation to construction, illegal mining and hill cutting. This supports notions that human disturbance may be more detrimental to future landslide incidence than climate.
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              Floods and human health: a systematic review.

              Floods are the most common type of disaster globally, responsible for almost 53,000 deaths in the last decade alone (23:1 low- versus high-income countries). This review assessed recent epidemiological evidence on the impacts of floods on human health. Published articles (2004-2011) on the quantitative relationship between floods and health were systematically reviewed. 35 relevant epidemiological studies were identified. Health outcomes were categorized into short- and long-term and were found to depend on the flood characteristics and people's vulnerability. It was found that long-term health effects are currently not well understood. Mortality rates were found to increase by up to 50% in the first year post-flood. After floods, it was found there is an increased risk of disease outbreaks such as hepatitis E, gastrointestinal disease and leptospirosis, particularly in areas with poor hygiene and displaced populations. Psychological distress in survivors (prevalence 8.6% to 53% two years post-flood) can also exacerbate their physical illness. There is a need for effective policies to reduce and prevent flood-related morbidity and mortality. Such steps are contingent upon the improved understanding of potential health impacts of floods. Global trends in urbanization, burden of disease, malnutrition and maternal and child health must be better reflected in flood preparedness and mitigation programs. Crown Copyright © 2012. Published by Elsevier Ltd. All rights reserved.
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                Author and article information

                Contributors
                wpollock@uw.edu
                Journal
                Geohealth
                Geohealth
                10.1002/(ISSN)2471-1403
                GH2
                GeoHealth
                John Wiley and Sons Inc. (Hoboken )
                2471-1403
                October 2020
                01 October 2020
                : 4
                : 10 ( doiID: 10.1002/gh2.v4.10 )
                : e2020GH000287
                Affiliations
                [ 1 ] Department of Civil and Environmental Engineering University of Washington Seattle WA USA
                Author notes
                [*] [* ] Correspondence to:

                W. Pollock,

                wpollock@ 123456uw.edu

                Author information
                https://orcid.org/0000-0002-7160-3218
                https://orcid.org/0000-0001-7659-7198
                Article
                GH2190 2020GH000287
                10.1029/2020GH000287
                7567151
                33094206
                afbea3f0-b26d-4853-b90a-df05264335e2
                ©2020. The Authors.

                This is an open access article under the terms of the http://creativecommons.org/licenses/by/4.0/ License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited.

                History
                : 10 June 2020
                : 24 August 2020
                : 15 September 2020
                Page count
                Figures: 4, Tables: 3, Pages: 17, Words: 8647
                Funding
                Funded by: U.S. National Science Foundation , open-funder-registry 10.13039/100000001;
                Award ID: 1548551
                Categories
                Hydrology
                Debris Flow and Landslides
                Human Impacts
                Natural Hazards
                Vulnerability
                Hydrological
                Disaster Risk Analysis and Assessment
                Preparedness and Planning
                Human Impact
                Policy Sciences
                Benefit‐cost Analysis
                Regional Planning
                Volcanology
                Volcanic Hazards and Risks
                Research Article
                Research Articles
                Custom metadata
                2.0
                October 2020
                Converter:WILEY_ML3GV2_TO_JATSPMC version:5.9.2 mode:remove_FC converted:16.10.2020

                landslide,vulnerability,risk analysis,mortality,probability of death,disaster

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