Abstract
The aim of this pilot study conducted by the consortium for capacity building was to develop a prototype concept and methodology for the classification and visualization of the geographic impacts of El Niño on annual climates and seasonality. Our study is based on the Köppen–Geiger climate classification scheme for a set of selected countries affected by strong El Niños in Latin America. By identifying and visualizing the annual and seasonal changes in regional, national, or subnational climate regimes that generally accompany an El Niño event, this research proposes an efficient way to detect and describe climate shifts and variability across time and space. Such knowledge provides a support tool for risk analysis and can potentially enhance government efforts of climate risk management, including disaster risk reduction activities that prevent, mitigate, and improve coping responses to El Niño-related hydrometeorological threats. Details of the conceptual approach and methodology to classifying and mapping El Niño’s impacts are described and explained using the Central American and circum-Caribbean region as a case study. The potential applications for disaster risk reduction as well as its limitations and future work are also discussed.
Highlights
El Nino is the most significant climate variability pattern after the changing of the seasons
Our study is based on the Koppen–Geiger climate classification scheme for a set of selected countries affected by strong El Ninos in Latin America
Relevant information was derived in order to construct: (1) a longterm average Koppen–Geiger climate map using a color scheme described in Peel et al (2007); a 60-year average (1951–2010) was used as the long-term mean to avoid the effect of any trend in the data; and (2) an individual year average based on the Koppen–Geiger climate classification scheme for El Nino years
Summary
El Nino is the most significant climate variability pattern after the changing of the seasons. A goal of this present study, which is part of a broader investigation of El Nino ‘‘readiness’’ (Glantz et al 2018) conducted by the Consortium for Capacity Building (CCB), was to identify the changes in regional climate regimes, including the seasonality that generally accompanies an El Nino event. Such knowledge, we argue, is valuable to disaster risk reduction (DRR) efforts and may improve a government’s strategic, tactical, and operational preparedness plans to prevent and mitigate the impacts of El Nino-related hydromet hazards
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