Hot weather and heat extremes: health risks

环境卫生 人口 气候变化 环境科学 城市化 医学 生产力 社会经济地位 余热 经济 生态学 经济增长 工程类 生物 核工程
作者
Kristie L. Ebi,Anthony Capon,Peter Berry,Carolyn Broderick,Richard de Dear,George Havenith,Yasuhiro Honda,Sari Kovats,Wei Ma,Arunima Malik,Nathan B. Morris,Lars Nybo,Sonia I. Seneviratne,Jennifer Vanos,Ollie Jay
出处
期刊:The Lancet [Elsevier BV]
卷期号:398 (10301): 698-708 被引量:329
标识
DOI:10.1016/s0140-6736(21)01208-3
摘要

Summary

Hot ambient conditions and associated heat stress can increase mortality and morbidity, as well as increase adverse pregnancy outcomes and negatively affect mental health. High heat stress can also reduce physical work capacity and motor-cognitive performances, with consequences for productivity, and increase the risk of occupational health problems. Almost half of the global population and more than 1 billion workers are exposed to high heat episodes and about a third of all exposed workers have negative health effects. However, excess deaths and many heat-related health risks are preventable, with appropriate heat action plans involving behavioural strategies and biophysical solutions. Extreme heat events are becoming permanent features of summer seasons worldwide, causing many excess deaths. Heat-related morbidity and mortality are projected to increase further as climate change progresses, with greater risk associated with higher degrees of global warming. Particularly in tropical regions, increased warming might mean that physiological limits related to heat tolerance (survival) will be reached regularly and more often in coming decades. Climate change is interacting with other trends, such as population growth and ageing, urbanisation, and socioeconomic development, that can either exacerbate or ameliorate heat-related hazards. Urban temperatures are further enhanced by anthropogenic heat from vehicular transport and heat waste from buildings. Although there is some evidence of adaptation to increasing temperatures in high-income countries, projections of a hotter future suggest that without investment in research and risk management actions, heat-related morbidity and mortality are likely to increase.
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