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National Institute of Environmental Health Sciences

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Your Environment. Your Health.

Publication Detail

Title: Comparing exposure metrics for classifying 'dangerous heat' in heat wave and health warning systems.

Authors: Zhang, Kai; Rood, Richard B; Michailidis, George; Oswald, Evan M; Schwartz, Joel D; Zanobetti, Antonella; Ebi, Kristie L; O'Neill, Marie S

Published In Environ Int, (2012 Oct 01)

Abstract: Heat waves have been linked to excess mortality and morbidity, and are projected to increase in frequency and intensity with a warming climate. This study compares exposure metrics to trigger heat wave and health warning systems (HHWS), and introduces a novel multi-level hybrid clustering method to identify potential dangerously hot days. Two-level and three-level hybrid clustering analysis as well as common indices used to trigger HHWS, including spatial synoptic classification (SSC), and the 90th, 95th, and 99th percentiles of minimum and relative minimum temperature (using a 10 day reference period), were calculated using a summertime weather dataset in Detroit from 1976 to 2006. The days classified as 'hot' with hybrid clustering analysis, SSC, minimum and relative minimum temperature methods differed by method type. SSC tended to include the days with, on average, 2.5 °C lower daily minimum temperature and 5.3 °C lower dew point than days identified by other methods. These metrics were evaluated by comparing their performance in predicting excess daily mortality. The 99th percentile of minimum temperature was generally the most predictive, followed by the three-level hybrid clustering method, the 95th percentile of minimum temperature, SSC and others. Our proposed clustering framework has more flexibility and requires less substantial meteorological prior information than the synoptic classification methods. Comparison of these metrics in predicting excess daily mortality suggests that metrics thought to better characterize physiological heat stress by considering several weather conditions simultaneously may not be the same metrics that are better at predicting heat-related mortality, which has significant implications in HHWSs.

PubMed ID: 22673187 Exiting the NIEHS site

MeSH Terms: No MeSH terms associated with this publication

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