17 Kharin, V. V., Zwiers, F. W., Shang, X., & Wehner M. (2013). Changes in temperature and precipitation extremes in the CMIP5 Ensemble. Climatic Change, 119(2), 345–357.
18 Kjelltrom, T., Lemke, B., Otto, P. M., Hyatt, O. M., Briggs, D. J., & Freyberg, C. A. (2015). Heat impacts on work, human performance, and daily life. In B. S. Levy & J. Patz (Eds.), Climate change and public health (pp. 73–86). Oxford University Press.
19 Kjellstrom, T., Otto, M., Lemke, B., Hyatt, O. M., Briggs, D. J., Freyberg, C. A., & Lines, L. (2016). Climate change and labour: Impacts of heat in the workplace. United Nations Development Program, 30.
20 Lobell, D., Schlenker, W., & Costa‐Roberts, J. (2011). Climate trends and global crop production since 1980. Science, 333(6042), 616–620.
21 Luber, G., & McGeehin, M. (2008). Climate change and extreme heat events. American Journal of Preventive Medicine, 35(5), 429–435.
22 Martin, P., Hooker, B., Akhtar, M., & Stockton, M. (2017). How many workers are employed in California agriculture? California Agriculture, (January–March), 30–34.
23 Min, S., Zhang, X., Zwiers, F., Shiogama, H., Tung, Y.‐S., & Wehner, M. (2013). Multimodel detection and attribution of extreme temperature changes. Journal of Climate, 26(19), 7430–7451.
24 Mirabelli, M. C., Quandt, S. A., Crain, R., Grzywacz, J. G., Robinson, E. N., Vallejos, Q., & Arcury, T. (2010). Symptoms of heat illness among Latino farm workers in North Carolina. American Journal of Preventive Medicine, 39(5), 468–471.
25 Mora, C., Dousset, B., Caldwell, I. R., Powell, F., Geronimo, R.C., Bielecki, C.R., & Trauernicht, C. (2017). Global risk of deadly heat. Nature Climate Change, 7(7), 501–506.
26 Ostro, B. D., Roth, L. A., Green, R. S., & Basu, R. (2009). Estimating the mortality of effect of the July 2006 California heat wave. Environmental Research, 109(5), 614–619.
27 Sahu, S., Sett, M., & Kjellstrom, T. (2013). Heat exposure, cardiovascular stress and work productivity in rice harvesters in India: Implications for a climate change future. Industrial Health, 51, 424–431.
28 Schlenker, W., & Roberts, M. J. (2009). Nonlinear temperature effects indicate severe damages to U.S. crop yields under climate change. Proceedings of the National Academy of Sciences, 106(37), 15594–15598.
29 Semenza, J. C., Rubin, C. H., Falter, K. H., Selanikio, J. D., Flanders, D. W., Howe, H. L., & Wilhelm, J. L. (1996). Heat‐related deaths during the July 1995 heat wave in Chicago. The New England Journal of Medicine, 335, 84–90.
30 Somanathan, E., Somanathan, R., Sudarshan, A., & Tewari, M. (2018). The impact of temperature on productivity and labor supply: Evidence from Indian manufacturing (p. 68). Becker Friedman Institute.
31 Steadman, R. G. (1979a). The assessment of sultriness. Part I: Temperature‐humidity index based on human Physiology and clothing science. Journal of Applied Metereology, 18(7), 861–873.
32 Steadman, R. G. (1979b). The assessment of sultriness. Part II: Effects of wind, extra radiation and barometric pressure on apparent temperature. Journal of Applied Metereology, 18(7), 874–885.
33 Stoecklin‐Marois, M., Hennessy‐Burt, T., Mitchell, D., & Schenker, M. (2013). Heat‐related illness knowledge and practices among California‐hired farm workers in the Micasa Study. Industrial Health, 51, 47–55.
34 University of California Davis, Agricultural Issues Center. (2020). Cost return studies. University of California Davis.
35 Varghese, B. M., Hansen, A., Bi, P., & Pisaniello, D. (2018). Are workers at risk of occupational injuries due to heat exposure? A comprehensive literature review. Safety Science, 110, 380–392.
36 Weather.gov. (2019). National Weather Service heat index chart.
37 Weather Service. (2020). Heat index. National Oceanic and Atmospheric Service.
38 Wehner, M., Castillo, F., & Stone, D. (2017). The impact of moisture and temperature on human health in heat waves. Oxford Natural Hazard Science. Oxford University Press.
39 Wehner, M., Stone, D., Khrishnan, D., Achuta Rao, K., Angelil, O., & Castillo, F. (2016). The deadly combination of heat and humidity in India and Pakistan in summer 2015. Bulletin of the American Metereological Society, 97(12), 81–86.
40 Wehner, M., Stone, D., Mitchell, D., Shiogama, H., Fischer, E., Graff, L. S., & Krishann, H. (2018). Changes in extremely hot days under stabilized 1.5 and 2.0 degree global warming scenarios as simulated by the Happi Multi‐Model Ensemble. Earth System Dynamics, 9(1), 299–311.
41 Wesseling, C., Crowe, J., Hogstedt, C., Jakobsson, K., Lucas, R., & Wegman, D. H. (2014). Resolving the enigma of the Mesoamerican nephropathy: A research workshop summary. American Journal of Kidney Disease, 63(3), 396–404.
Конец ознакомительного фрагмента.
Текст предоставлен ООО «ЛитРес».
Прочитайте эту книгу целиком, купив полную легальную версию на ЛитРес.
Безопасно оплатить книгу можно банковской картой Visa, MasterCard, Maestro, со счета мобильного телефона, с платежного терминала, в салоне МТС или Связной, через PayPal, WebMoney, Яндекс.Деньги, QIWI Кошелек, бонусными картами или другим удобным Вам способом.