A universal severity classification for natural disasters

Author:

Caldera H. JithamalaORCID,Wirasinghe S. C.ORCID

Abstract

AbstractThe magnitude of a disaster’s severity cannot be easily assessed because there is no global method that provides real magnitudes of natural disaster severity levels. Therefore, a new universal severity classification scheme for natural disasters is developed and is supported by data. This universal system looks at the severity of disasters based on the most influential impact factor and gives a rating from zero to ten: Zero indicates no impact and ten is a worldwide devastation. This universal system is for all types of natural disasters, from lightning strikes to super-volcanic eruptions and everything in between, that occur anywhere in the world at any time. This novel universal severity classification system measures, describes, compares, rates, ranks, and categorizes impacts of disasters quantitatively and qualitatively. The severity index is useful to diverse stakeholder groups, including policy makers, governments, responders, and civilians, by providing clear definitions that help convey the severity levels or severity potential of a disaster. Therefore, this universal system is expected to avoid inconsistencies and to connect severity metrics to generate a clear perception of the degree of an emergency; the system is also expected to improve mutual communication among stakeholder groups. Consequently, the proposed universal system will generate a common communication platform and improve understanding of disaster risk, which aligns with the priority of the Sendai Framework for Disaster Risk Reduction 2015–2030. This research was completed prior to COVID-19, but the pandemic is briefly addressed in the discussion section.

Funder

Natural Sciences and Engineering Research Council of Canada

Alberta Innovates - Technology Futures

Alberta Motor Association

University of Calgary

Schulich School of Engineering, University of Calgary

Catastrophe Indices and Quantification Incorporated

Canadian Risk Hazard Network

Publisher

Springer Science and Business Media LLC

Subject

Earth and Planetary Sciences (miscellaneous),Atmospheric Science,Water Science and Technology

Reference73 articles.

1. Alberta Emergency Management Agency (AEMA) (2015) Making communities more resilient incident management teams and regional partnerships. AEMA. http://www.aema.alberta.ca/documents/ema/D5_Incident_Management_Teams_and_Regional_Partnerships.pdf. Accessed 29 Oct 2015

2. Below R, Wirtz A, Guha-Sapir D (2009) Disaster category classification and peril terminology for operational purposes. Centre for Research on the Epidemiology of Disasters, Brussels, Belgium. http://hdl.handle.net/2078.1/178845

3. Brink Editorial Staff (2019) The 10 most costly natural disasters of the century. Environment, Brink the edge of risk. https://www.brinknews.com/the-10-most-costly-natural-disasters-of-the-century/. Accessed 10 Nov 2019

4. Brooks HE (2013) Estimating the distribution of severe thunderstorms and their environments around the world. International Conference on Storms, The National Oceanic and Atmospheric Administration. http://www.nssl.noaa.gov/users/brooks/public_html/papers/brisbane.pdf. Accessed 24 Jun 2016

5. Caldera HJ (2017) Analysis and classification of natural disasters. Dissertation, University of Calgary, Canada. http://dx.doi.org/https://doi.org/10.11575/PRISM/24811

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