UofL Superfund researchers show an association between residential greenness and VOC exposure

Association between residential greenness and exposure to volatile organic compounds

Ray Yeager, Daniel Riggs, Natasha DeJarnett, Schweta Srivastava, Pawel Lorkiewicz, Zhengzhi Xie, Tatiana Krivokhizhina, Rachel Keith, Sanjay Srivastava, Mathew H.E.M. Browning, Nagma Zafar, Sathya Krishnasamy, Andrew DeFilippis, Jay Turner, Shesh Rai, Aruni Bhatnagar

Abstract:

Residential proximity to vegetation and plants is associated with many health benefits, including reduced risk of cardiovascular disease, diabetes and mental stress. Although the mechanisms by which proximity to greenness affects health remain unclear, plants have been shown to remove particulate air pollution. However, the association between residential-area vegetation and exposure to volatile organic chemicals (VOCs) has not been investigated. We recruited a cohort of 213 non-smoking individuals and estimated peak, cumulative, and contemporaneous greenery using satellite-derived normalized difference vegetation index (NDVI) near their residence. We found that the urinary metabolites of exposure to VOCs - acrolein, acrylamide, acrylonitrile, benzene, 1-bromopropane, propylene oxide were inversely associated (7–31% lower) with 0.1 higher peak NDVI values within 100 m radius of the participants’ home. These associations were significant at radii ranging from 25 to 300 m. Strongest associations were observed within a 200 m radius, where VOC metabolites were 22% lower per 0.1 unit higher NDVI. Of the 18 measured urinary metabolites, 7 were positively associated with variation of greenness within a 200 m radius of homes. The percent of tree canopy and street trees around participants’ residence were less strongly associated with metabolite levels. The associations between urinary VOC metabolites and residential NDVI values were stronger in winter than in summer, and in participants who were more educated, White, and those who lived close to areas of high traffic. These findings suggest high levels of residential greenness are associated with lower VOC exposure, particularly in winter.