最近的城市化增加了中国人口稠密地区湿热极端事件的暴露

IF 2.3 4区 地球科学 Q3 METEOROLOGY & ATMOSPHERIC SCIENCES
Huopo Chen , Wenyue He , Shuhui Zhang
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引用次数: 0

摘要

极热研究主要集中在干热方面,而对社会,尤其是对人类健康有重大影响的湿热研究相对较少。以往的研究表明,35 °C的湿球温度(TW)是我们的生理上限,更低的温度值也会对健康产生严重影响。我们的观测结果表明,在中国,日最高湿球温度值超过 35 ℃ 的报道很少,但在过去 40 年中,每年都有超过 30 ℃ 的湿热极端日报道,主要集中在华东、华南和四川盆地等人口密集地区。进一步的分析表明,中国近年来快速的城市化进程扩大了极端湿热天气对社会的影响,城市地区的陆地湿热暴露预计将以快于中国其他地区的速度增加。这表明,在人口稠密地区的大城市,由于快速城市化,极端湿热天气对人类健康的风险越来越大。正如本文所指出的,中国人口越来越多地暴露在这种极端天气中,自 2000 年以来,每天约有 3100 人暴露在这种极端天气中,并呈强劲的增长趋势。摘要目前对于高温的研究主要侧重于干热, 针对湿热的研究相对较少, 但它通常会造成更大的社会影响, 尤其对人体健康的威胁。已有研究证实, 当环境湿球温度超过35 °C时, 它会破坏人体正常生理代谢, 进而威胁人体健康。本研究指出在过去四十年, 中国区域日最高湿球温度几乎没有超过 35 °C, 但部分地区日最高湿球温度超过了 30 °C, 主要集中在中国的人口密集区, 包括华东、华南和四川盆地等。进一步分析发现, 中国区域近期的快速城市化加剧了极端湿热事件的社会影响, 城市地区暴露于极端湿热事件的范围的增加速率明显大于其他地区, 这也意味着快速城市化使得人口密集区暴露于极端湿热事件的风险明显增加。初步估算指出,自 2000 年以来,中国区域暴露于极端湿热事件的人口数以每年每天约 3100 人次的速率显著增加。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Recent urbanization increases exposure to humid-heat extreme events over populated regions of China

Extreme-heat research has largely focused on dry heat, while humid heat, which presents a major societal impact, especially on human health, remains relatively understudied. Previous studies have revealed that a wet-bulb temperature (TW) of 35 °C marks our upper physiological limit, and much lower values also have serious health impacts. Our evaluations from observations showed that the daily maximum TW values over China have been scarcely reported above 35 °C, but humid-heat extreme days of TW above 30 °C have been reported each year during the past four decades, being mainly centered over the highly populated regions, including East China, South China, and the Sichuan basin. Further analyses indicated that the recent rapid urbanization process in China has amplified the societal impacts of humid-heat extremes, and land exposure to humid heat over urban regions is expected to increase at a faster rate than other regions of China. This suggests increasing risks of humid-heat extremes on human health in big cities of densely populated regions due to rapid urbanization. As indicated here, the population of China has become increasingly exposed to such extremes, with a strong increasing tendency of about 3100 persons per day per year since 2000.

摘要

目前对于高温的研究主要侧重于干热, 针对湿热的研究相对较少, 但它通常会造成更大的社会影响, 尤其对人体健康的威胁. 已有研究证实, 当环境湿球温度超过35 °C时, 它会破坏人体正常生理代谢, 进而威胁人体健康. 本研究指出在过去四十年, 中国区域日最高湿球温度几乎没有超过35 °C, 但部分地区日最高湿球温度超过了30 °C, 主要集中在中国的人口密集区, 包括华东, 华南和四川盆地等. 进一步分析发现, 中国区域近期的快速城市化加剧了极端湿热事件的社会影响, 城市地区暴露于极端湿热事件的范围的增加速率明显大于其他地区, 这也意味着快速城市化使得人口密集区暴露于极端湿热事件的风险明显增加. 初步估算指出, 自2000年以来, 中国区域暴露于极端湿热事件的人口数以每年每天约3100人次的速率显著增加.

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来源期刊
Atmospheric and Oceanic Science Letters
Atmospheric and Oceanic Science Letters METEOROLOGY & ATMOSPHERIC SCIENCES-
CiteScore
4.20
自引率
8.70%
发文量
925
审稿时长
12 weeks
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