Thermal Pollution
Author:
Publisher
Elsevier
Reference31 articles.
1. Only Universally Correct Answer in Engineering: It Depends;Peirce,1996
2. Heat-related mortality projections for cardiovascular and respiratory disease under the changing climate in Beijing, China;Li;Sci. Rep.,2015
3. Projecting future heat-related mortality under climate change scenarios: a systematic review;Huang;Environ. Health Perspect.,2011
4. Cold-and heat-related mortality: a cautionary note on current damage functions with net benefits from climate change;Huber;Clim. Chang.,2017
5. Impact of climate change and loss of habitat on Sirenians;Marsh,2017
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