A comparative analysis of accelerating humid and dry heat stress in India

IF 2.5 4区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES Environmental Research Communications Pub Date : 2024-02-08 DOI:10.1088/2515-7620/ad2490
Jency Maria Sojan, Jayaraman Srinivasan
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Abstract

Extreme humid heat stress poses distinct challenges to human health and productivity that cannot be mitigated solely by heat action plans designed for dry heat stress. This study investigates the trends in extreme heat stress, differentiating between dry and moist heat, in India from 1943 to 2022 using the high-resolution hourly ERA5 reanalysis data. The analysis utilizes the Heat Index (HI) as a key parameter to identify instances of extreme humid heat stress, characterized by HI values exceeding 41 degrees Celsius and relative humidity more than 50%. The findings indicate that certain eastern coastal regions in peninsular India experience extreme humid heat stress from May to June due to persistent high humidity levels. In addition, northwest, northcentral and inland eastern coastal regions encounter extreme dry heat stress preceding the monsoon season, followed by a transition to humid heat stress immediately after the onset of the monsoon. The results also show that there has been a significant increase ofsix times (on average) in the extreme humid heat stress hours per grid over the past 80 years compared to a threefold increase in dry heat stress. Our research underscores the need to shift from exclusively addressing dry heat stress to adopting a comprehensive approach that considers the impacts of humid heat stress.
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印度湿热和干热压力加速的比较分析
极端湿热应激对人类健康和生产力构成了独特的挑战,仅靠为干热应激设计的防暑降温行动计划无法缓解这些挑战。本研究利用高分辨率每小时ERA5再分析数据,调查了1943年至2022年印度极端热应力的趋势,并对干热和湿热进行了区分。分析利用热指数(HI)作为关键参数来识别极端湿热应激事件,其特征是热指数值超过 41 摄氏度,相对湿度超过 50%。研究结果表明,由于湿度持续较高,印度半岛某些东部沿海地区在 5 月至 6 月期间会出现极端湿热应激反应。此外,西北部、中北部和东部内陆沿海地区在季风季节来临之前会出现极端干热应激,季风来临之后会立即过渡到湿热应激。研究结果还显示,在过去的 80 年里,每个网格的极端湿热胁迫小时数大幅增加了六倍(平均),而干热胁迫则增加了三倍。我们的研究强调,有必要从只解决干热应激转变为采用一种考虑湿热应激影响的综合方法。
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来源期刊
Environmental Research Communications
Environmental Research Communications ENVIRONMENTAL SCIENCES-
CiteScore
3.50
自引率
0.00%
发文量
136
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