Paul von Hippel1, Rebecca Benson. 1. The authors are with the LBJ School of Public Affairs, University of Texas, Austin, TX.
Abstract
OBJECTIVES: We estimated the association between obesity and features of the natural environment. We asked whether the association is mediated by diet or by physical activity. METHODS: Using county-level data from the contiguous United States, we regressed adult obesity prevalence on 9 measures of the natural environment. Our regression model accounted for spatial correlation, and controlled for county demographics and the built environment. We included physical activity and diet (proxied by food purchases) as potential mediators. RESULTS: Obesity was more prevalent in counties that are hot in July or cold in January. To a lesser degree, obesity was more prevalent in counties that are dark in January or rainy (but not snowy) year-round. Other aspects of the natural environment-including wind, trees, waterfront, and hills and mountains-had little or no association with obesity. Nearly all of the association between obesity and the natural environment was mediated by physical activity; none was mediated by diet. CONCLUSIONS: Hot summers and cold winters appear to promote obesity by discouraging physical activity. Attempts to encourage physical activity should compensate for the effects of extreme temperatures.
OBJECTIVES: We estimated the association between obesity and features of the natural environment. We asked whether the association is mediated by diet or by physical activity. METHODS: Using county-level data from the contiguous United States, we regressed adult obesity prevalence on 9 measures of the natural environment. Our regression model accounted for spatial correlation, and controlled for county demographics and the built environment. We included physical activity and diet (proxied by food purchases) as potential mediators. RESULTS:Obesity was more prevalent in counties that are hot in July or cold in January. To a lesser degree, obesity was more prevalent in counties that are dark in January or rainy (but not snowy) year-round. Other aspects of the natural environment-including wind, trees, waterfront, and hills and mountains-had little or no association with obesity. Nearly all of the association between obesity and the natural environment was mediated by physical activity; none was mediated by diet. CONCLUSIONS: Hot summers and cold winters appear to promote obesity by discouraging physical activity. Attempts to encourage physical activity should compensate for the effects of extreme temperatures.
Authors: Laura Dwyer-Lindgren; Greg Freedman; Rebecca E Engell; Thomas D Fleming; Stephen S Lim; Christopher Jl Murray; Ali H Mokdad Journal: Popul Health Metr Date: 2013-07-10
Authors: Anna M Adachi-Mejia; Chanam Lee; Chunkuen Lee; Heather A Carlos; Brian E Saelens; Ethan M Berke; Mark P Doescher Journal: Prev Med Date: 2017-03-23 Impact factor: 4.018
Authors: Candice A Myers; Tim Slack; Corby K Martin; Stephanie T Broyles; Steven B Heymsfield Journal: Obesity (Silver Spring) Date: 2014-12-17 Impact factor: 5.002
Authors: Anja Zgodic; Jan M Eberth; Charity B Breneman; Marilyn E Wende; Andrew T Kaczynski; Angela D Liese; Alexander C McLain Journal: Am J Epidemiol Date: 2021-12-01 Impact factor: 5.363
Authors: Christine L Gray; Lynne C Messer; Kristen M Rappazzo; Jyotsna S Jagai; Shannon C Grabich; Danelle T Lobdell Journal: PLoS One Date: 2018-08-30 Impact factor: 3.240