Heat exposure, cardiovascular stress and work productivity in rice harvesters in India: implications for a climate change future.

Excessive workplace heat exposures create well-known risks of heat stroke, and it limits the workers' capacity to sustain physical activity. There is very limited evidence available on how these effects reduce work productivity, while the quantitative relationship between heat and work productivity is an essential basis for climate change impact assessments. We measured hourly heat exposure in rice fields in West Bengal and recorded perceived health problems via interviews of 124 rice harvesters. In a sub-group (n = 48) heart rate was recorded every minute in a standard work situation. Work productivity was recorded as hourly rice bundle collection output. The hourly heat levels (WBGT = Wet Bulb Globe Temperature) were 26-32°C (at air temperatures of 30-38°C), exceeding international standards. Most workers reported exhaustion and pain during work on hot days. Heart rate recovered quickly at low heat, but more slowly at high heat, indicating cardiovascular strain. The hourly number of rice bundles collected was significantly reduced at WBGT>26°C (approximately 5% per°C of increased WBGT). We conclude that high heat exposure in agriculture caused heat strain and reduced work productivity. This reduction will be exacerbated by climate change and may undermine the local economy.

[1]  C. Bennett,et al.  Non-heat related impacts of climate change on working populations , 2010, Global health action.

[2]  Tord Kjellstrom,et al.  Workplace heat stress, health and productivity – an increasing challenge for low and middle-income countries during climate change , 2009, Global health action.

[3]  Irwin L. Kellner TURN DOWN THE HEAT , 1995 .

[4]  Ken Parsons,et al.  Human Thermal Environments: The Effects of Hot, Moderate, and Cold Environments on Human Health, Comfort and Performance , 1999 .

[5]  Gerd Jendritzky,et al.  The thermal environment of the human being on the global scale , 2009, Global health action.

[6]  Pranab Kumar Nag,et al.  Thermal limits of men in moderate to heavy work in tropical farming. , 2007, Industrial health.

[7]  G. Costa,et al.  Physiological cost of apple-farming activities. , 1989, Applied ergonomics.

[8]  Climate change atlas , 1995 .

[9]  C T Davies,et al.  Energy expenditure and physiological performance of Sudanese cane cutters. , 1976, British journal of industrial medicine.

[10]  A. Chamoux,et al.  Pour la standardisation d'une fréquence cardiaque de repos: la fréquence cardiaque de repos nocturne. Implications dans l'évaluation de la charge de travail , 1985 .

[11]  C. H. Wyndham,et al.  Adaptation to heat and cold. , 1969, Environmental research.

[12]  P. Nag,et al.  Heat stress of women doing manipulative work. , 1992, American Industrial Hygiene Association Journal.

[13]  Chandan K Pradhan,et al.  Energy expenditure of cycle rickshaw pullers in different places in India , 2008, Ergonomics.

[14]  K. Dear,et al.  The ‘Hothaps’ programme for assessing climate change impacts on occupational health and productivity: an invitation to carry out field studies , 2009, Global health action.

[15]  M. Maslin,et al.  The Lancet Commissions Institute for Global Health Managing the Health Eff Ects of Climate Change the Lancet Commissions the Lancet Commissions , 2022 .

[16]  Shilei Lu,et al.  Productivity model in hot and humid environment based on heat tolerance time analysis , 2009 .

[17]  Robert Bridger Introduction to Ergonomics , 2008 .

[18]  Tord Kjellstrom,et al.  Climate change, direct heat exposure, health and well-being in low and middle-income countries , 2009, Global health action.

[19]  R N Sen,et al.  Cardio-respiratory performance of porters carrying loads on a treadmill. , 1979, Ergonomics.

[20]  Ken Parsons,et al.  Human Thermal Environments , 1993 .

[21]  Tanja Popovic,et al.  Heat-related deaths among crop workers--United States, 1992--2006. , 2008, MMWR. Morbidity and mortality weekly report.

[22]  V. González,et al.  Cardiac frequency in miners recorded during four to five work shifts , 2006, European Journal of Applied Physiology and Occupational Physiology.

[23]  G. B. Pant,et al.  High-resolution climate change scenarios for India for the 21st century , 2006 .

[24]  Graham P Bates,et al.  Hydration status and physiological workload of UAE construction workers: A prospective longitudinal observational study. (Estado de hidratación y carga de trabajo fisiológico de trabajadores de la construcción de los Emiratos Árabes Unidos: Un estudio de observación prospectiva longitudinal) , 2008 .

[25]  Netai Chandra Dey,et al.  Assessment of cardiac strain amongst underground coal carriers: A case study in India , 2007 .

[26]  Sasitorn Taptagaporn,et al.  Health impact of climate change on occupational health and productivity in Thailand , 2010, Global health action.

[27]  P. Nag,et al.  Ergonomics in sickle operation. , 1988, Applied ergonomics.

[28]  D. Campbell-Lendrum,et al.  Climate Change and Human Health. Risks and Responses , 2003 .