Title: Predicting indoor heat exposure risk during extreme heat events.

Authors: Quinn, Ashlinn; Tamerius, James D; Perzanowski, Matthew; Jacobson, Judith S; Goldstein, Inge; Acosta, Luis; Shaman, Jeffrey

Published In Sci Total Environ, (2014 Aug 15)

Abstract: Increased heat-related morbidity and mortality are expected direct consequences of global warming. In the developed world, most fatal heat exposures occur in the indoor home environment, yet little is known of the correspondence between outdoor and indoor heat. Here we show how summertime indoor heat and humidity measurements from 285 low- and middle-income New York City homes vary as a function of concurrent local outdoor conditions. Indoor temperatures and heat index levels were both found to have strong positive linear associations with their outdoor counterparts; however, among the sampled homes a broad range of indoor conditions manifested for the same outdoor conditions. Using these models, we simulated indoor conditions for two extreme events: the 10-day 2006 NYC heat wave and a 9-day event analogous to the more extreme 2003 Paris heat wave. These simulations indicate that many homes in New York City would experience dangerously high indoor heat index levels during extreme heat events. These findings also suggest that increasing numbers of NYC low- and middle-income households will be exposed to heat index conditions above important thresholds should the severity of heat waves increase with global climate change. The study highlights the urgent need for improved indoor temperature and humidity management.

PubMed ID: 24893319

MeSH Terms: Climate Change; Environmental Exposure/statistics & numerical data*; Environmental Monitoring; Extreme Heat*; Humans; New York City; Risk Assessment/methods; Urban Health