Heat wave time of emergence patterns: a matter of definition

IF 2.5 4区 环境科学与生态学 Q3 ENVIRONMENTAL SCIENCES
Christine Padalino, Megan Lickley, Susan Solomon
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Abstract

Hot extremes, such as heatwaves, have been associated with health, economic, and ecosystem-wide impacts. The timing of emergence of changes in extremes due to anthropogenic climate change is a topic of broad scientific and societal importance. While various studies have estimated the timing and impacts of heatwaves, the definitional aspect of a heatwave in determining the relative time of emergence has not been addressed. We adopt two commonly used definitions of heatwave employed in different reports of the Intergovernmental Panel on Climate Change (IPCC) to evaluate the time at which the frequency of heatwaves becomes detectably different from the historical baseline using an ensemble of 10 GCMS from the CMIP6 archives forced by the SSP2–4.5 concentration pathway. For a heatwave definition of sustained temperatures exceeding 5 °C warmer above the historical climatology, time of emergence is earliest in high latitudes over land and displays correlation with the signal (amount of warming) and noise (variability). In contrast, for a heatwave definition of sustained temperatures exceeding the 90th percentile of historical climatology, time of emergence is earliest in low latitude regions and is correlated with the signal to noise ratio. This work underscores the importance of metric choice in estimating the timing of new climate regimes and that metric selection for informing adaptation timing should thus be tailored to the regional context.
热浪出现模式的时间:定义问题
热浪等极端炎热现象与健康、经济和整个生态系统的影响有关。人为气候变化导致的极端天气变化的出现时间是一个具有广泛科学和社会意义的课题。虽然各种研究对热浪出现的时间和影响进行了估算,但在确定热浪出现的相对时间方面,热浪的定义问题尚未得到解决。我们采用了政府间气候变化专门委员会(IPCC)不同报告中常用的两种热浪定义,利用 CMIP6 档案中的 10 个 GCMS 组合,在 SSP2-4.5 浓度路径的强迫下,评估热浪频率与历史基线出现明显差异的时间。就热浪定义而言,即持续温度比历史气候高 5 ℃以上,热浪出现的时间最早出现在陆地高纬度地区,并与信号(变暖量)和噪声(变异性)相关。相反,对于持续温度超过历史气候学第 90 百分位数的热浪定义,出现时间最早出现在低纬度地区,并且与信噪比相关。这项工作强调了在估算新气候制度的时间时选择度量标准的重要性,因此,在选择度量标准以提供适应时间信息时,应根据区域背景进行量身定制。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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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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