TY - JOUR
T1 - Mortality risk attributable to high and low ambient temperature in Pune city, India: A time series analysis from 2004 to 2012
AU - Ingole, Vijendra
AU - Sheridan, Scott
AU - Juvekar, Sanjay
AU - Achebak, Hicham
AU - Moraga, Paula
N1 - KAUST Repository Item: Exported on 2021-11-01
Acknowledgements: We thankfully acknowledge Pune Municipal Corporation for providing the all-cause mortality data. Authors thank Indian Meteorological Department Pune, India for providing meteorological data. We also thank Carles Mila, former researcher from ISGlobal, Barcelona Spain for his help in data cleaning and management. HA gratefully acknowledge funding from the EU's Horizon 2020 research and innovation programme under grant agreement no 865564 (European Research Council Consolidator Grant EARLY-ADAPT). We thank Rahul Gawai for his help to prepare Pune city location map.
PY - 2021/10/29
Y1 - 2021/10/29
N2 - Background
Exposure to high and low ambient temperatures is associated with morbidity and mortality across the globe. Most of these studies assessing the effects of non-optimum temperatures on health and have been conducted in the developed world, whereas in India, the limited evidence on ambient temperature and health risks and has focused mostly on the effects of heat waves. Here we quantify short term association between all temperatures and mortality in urban Pune, India.
Methods
We applied a time series regression model to derive temperature-mortality associations based on daily mean temperature and all-cause mortality records of Pune city from year January 2004 to December 2012. We estimated high and low temperature-mortality relationships by using standard time series quasi-Poisson regression in conjunction with a distributed lag non-linear model (DLNM). We calculated temperature attributable mortality fractions for total heat and total cold.
Findings
The analysis provides estimates of the total mortality burden attributable to ambient temperature. Overall, 6∙5% [95%CI 1.76–11∙43] of deaths registered in the observational period were attributed to non-optimal temperatures, cold effect was greater 5.72% [95%CI 0∙70–10∙06] than heat 0∙84% [0∙35–1∙34]. The gender stratified analysis revealed that the highest burden among men both for heat and cold.
Conclusion
Non-optimal temperatures are associated with a substantial mortality burden. Our findings could benefit national, and local communities in developing preparedness and prevention strategies to reduce weather-related impacts immediately due to climate change.
AB - Background
Exposure to high and low ambient temperatures is associated with morbidity and mortality across the globe. Most of these studies assessing the effects of non-optimum temperatures on health and have been conducted in the developed world, whereas in India, the limited evidence on ambient temperature and health risks and has focused mostly on the effects of heat waves. Here we quantify short term association between all temperatures and mortality in urban Pune, India.
Methods
We applied a time series regression model to derive temperature-mortality associations based on daily mean temperature and all-cause mortality records of Pune city from year January 2004 to December 2012. We estimated high and low temperature-mortality relationships by using standard time series quasi-Poisson regression in conjunction with a distributed lag non-linear model (DLNM). We calculated temperature attributable mortality fractions for total heat and total cold.
Findings
The analysis provides estimates of the total mortality burden attributable to ambient temperature. Overall, 6∙5% [95%CI 1.76–11∙43] of deaths registered in the observational period were attributed to non-optimal temperatures, cold effect was greater 5.72% [95%CI 0∙70–10∙06] than heat 0∙84% [0∙35–1∙34]. The gender stratified analysis revealed that the highest burden among men both for heat and cold.
Conclusion
Non-optimal temperatures are associated with a substantial mortality burden. Our findings could benefit national, and local communities in developing preparedness and prevention strategies to reduce weather-related impacts immediately due to climate change.
UR - http://hdl.handle.net/10754/673007
UR - https://linkinghub.elsevier.com/retrieve/pii/S0013935121016054
U2 - 10.1016/j.envres.2021.112304
DO - 10.1016/j.envres.2021.112304
M3 - Article
C2 - 34743894
SN - 0013-9351
SP - 112304
JO - Environmental Research
JF - Environmental Research
ER -