Changing Heat-Related Mortality in the United States
Robert E. Davis,1 Paul C. Knappenberger,2 Patrick J. Michaels,1,3and Wendy M. Novicoff4
1Department of Environmental Sciences, University of Virginia, Charlottesville, Virginia, USA; 2New Hope Environmental Services, Inc., New Hope, Virginia, USA; 3Cato Institute, Washington, DC, USA; 4Department of Health Evaluation Sciences, University of Virginia, Charlottesville, Virginia, USA
Address correspondence to R.E. Davis, Department of Environmental Sciences, P.O. Box 400123, 291 McCormick Road, University of Virginia, Charlottesville, VA 22904-4123 USA. Telephone: (434) 924-0579. Fax: (434) 982-2137. E-mail: firstname.lastname@example.org
We thank L.S. Kalkstein, D. Graybeal, and J.D. Watts for providing the raw mortality data and updates, and V.E. Bovbjerg for his epidemiologic insights. We greatly appreciate the careful reviews of four anonymous referees whose suggestions have resulted in numerous substantial and useful revisions to our initial draft.
Heat is the primary weather-related cause of death in the United States. Increasing heat and humidity, at least partially related to anthropogenic climate change, suggest that a long-term increase in heat-related mortality could occur. We calculated the annual excess mortality on days when apparent temperatures–an index that combines air temperature and humidity–exceeded a threshold value for 28 major metropolitan areas in the United States from 1964 through 1998. Heat-related mortality rates declined significantly over time in 19 of the 28 cities. For the 28-city average, there were 41.0 ± 4.8 (mean ± SE) excess heat-related deaths per year (per standard million) in the 1960s and 1970s, 17.3 ± 2.7 in the 1980s, and 10.5 ± 2.0 in the 1990s. In the 1960s and 1970s, almost all study cities exhibited mortality significantly above normal on days with high apparent temperatures. During the 1980s, many cities, particularly those in the typically hot and humid southern United States, experienced no excess mortality. In the 1990s, this effect spread northward across interior cities. This systematic desensitization of the metropolitan populace to high heat and humidity over time can be attributed to a suite of technologic, infrastructural, and biophysical adaptations, including increased availability of air conditioning. Key words: air conditioning, apparent temperature, climate change, global warming, heat index, heat stress, human bioclimatology, human mortality, weather stress.
Environmental Health Perspectives Volume 111, Number 14, November 2003. An Open Access Article.