A STATISTICAL FRAMEWORK TO EVALUATE EXTREME WEATHER DEFINITIONS FROM A HEALTH PERSPECTIVE A Demonstration Based on Extreme Heat Events

Issuance of alerts, prior to or during extreme weather events, can be critical to preventing adverse health outcomes. In this paper, data describing episodes of extreme heat are used to demonstrate the application of a statistical framework for evaluating event definitions within the context of huma...

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Bibliographic Details
Published inBulletin of the American Meteorological Society Vol. 97; no. 10; pp. 1817 - 1830
Main Authors Vaidyanathan, Ambarish, Kegler, Scott R., Saha, Shubhayu S., Mulholland, James A.
Format Journal Article
LanguageEnglish
Published United States American Meteorological Society 01.10.2016
Subjects
Climate
Climate change
Climatology
Cluster analysis
Data processing
Disease control
Disease prevention
Environmental health
Exposure
Extreme heat
Extreme high temperatures
Extreme values
Extreme weather
Fatalities
Frameworks
Heat
Meteorological data
Modelling
Mortality
Offices
Offsets
Public health
Regression analysis
Severe weather
Statistics
Studies
Thresholds
Weather
United States > US
USA
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Summary:Issuance of alerts, prior to or during extreme weather events, can be critical to preventing adverse health outcomes. In this paper, data describing episodes of extreme heat are used to demonstrate the application of a statistical framework for evaluating event definitions within the context of human health impacts. Numerous extreme heat event (EHE) definitions appear in the literature but there is a lack of scientific consensus on consistent identification of periods of extreme heat having the potential for such impacts. Ninety-two EHE definitions were operationalized for this region-specific demonstration covering the United States, using station-based meteorological data for the years 1999–2009. Hierarchical cluster analysis was used to group definitions into homogeneous sets, and a representative definition was then selected from each set. The representative definitions were combined with different exposure offsets (e.g., a 1-day lag) and evaluated against daily heat mortality data, using a negative binomial rate regression modeling approach. The EHE definition and exposure offset combinations most closely associated with heat mortality were found to vary with climate region. Those involving high but not extreme meteorological thresholds, and employing a 1-day lag or no lag, showed the strongest associations with heat mortality for all climate regions except the South and Southwest. The framework presented in this study could be applied to other geographic areas, provided the necessary meteorological and health data are available. Additionally, this framework could help regional and national weather offices, in partnership with local and state health departments, identify definitions that are well suited to issuing alerts and health advisories related to other types of severe weather.
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ISSN:0003-0007
1520-0477
DOI:10.1175/BAMS-D-15-00181.1