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Literature DB >> 28139172

Heat exposure and productivity in orchards: Implications for climate change research.

Grant Quiller¹, Jennifer Krenz¹, Kristie Ebi^1,2, Jeremy J Hess^1,2,3, Richard A Fenske¹, Paul D Sampson⁴, Mengjie Pan⁴, June T Spector^1,3.

Abstract

Recent studies suggest that heat exposure degrades work productivity, but such studies have not considered individual- and workplace-level factors. Forty-six tree-fruit harvesters (98% Latino/a) from 6 orchards participated in a cross-sectional study in central/eastern Washington in 2015. The association between maximum measured work-shift wet-bulb globe temperature (WBGTmax) and productivity (total weight of fruit bins collected per time worked) was estimated using linear mixed-effects models, adjusting for relevant confounders. The mean (standard deviation) WBGTmax was 27.9°C (3.6°C) in August and 21.2°C (2.0°C) in September. There was a trend of decreasing productivity with increasing WBGTmax, but this association was not statistically significant. When individual- and workplace-level factors were included in the model, the association approached the null. Not considering individual, work, and economic factors that affect rest and recovery in projections of the effects of climate change could result in overestimates of reductions in future productivity and underestimate risk of heat illness.

Entities: Chemical Disease Species

Keywords: Climate change; heat exposure; heat stress; heat-related illness; productivity

Mesh：

Year: 2017 PMID： 28139172 PMCID： PMC5562533 DOI： 10.1080/19338244.2017.1288077

Source DB: PubMed Journal: Arch Environ Occup Health ISSN： 1933-8244 Impact factor: 1.663

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