Latent heat must be visible in climate communications

IF 9.4 1区 环境科学与生态学 Q1 ENVIRONMENTAL STUDIES Wiley Interdisciplinary Reviews: Climate Change Pub Date : 2022-04-14 DOI:10.1002/wcc.779
T. Matthews, M. Byrne, R. Horton, C. Murphy, R. Pielke, Colin Raymond, P. Thorne, R. Wilby
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引用次数: 9

Abstract

Anthropogenic forcing is driving energy accumulation in the Earth system, including increases in the sensible heat content of the atmosphere, as measured by dry‐bulb temperature—the metric that is almost universally used for communications about climate change. The atmosphere is also moistening, though, representing an accumulation of latent heat, which is partly concealed by dry‐bulb temperature trends. We highlight that, consistent with basic theory, latent heat gains are outpacing sensible heat gains over about half of the Earth's surface. The difference is largest in the tropics, where global “hotspots” of total heat accumulation are located, and where regional disparities in heating rates are very poorly represented by dry‐bulb temperatures. Including latent heat in climate‐change metrics captures this heat accumulation and therefore improves adaptation‐relevant understanding of the extreme humid heat and precipitation hazards that threaten these latitudes so acutely. For example, irrigation can lower peak dry‐bulb temperatures, but amplify latent heat content by a larger margin, intensifying dangerous heat stress. Based on a review of the research literature, our Perspective therefore calls for routine use of equivalent temperature, a measure that expresses the combined sensible and latent heat content of the atmosphere in the familiar units of °C or K. We recognize that dry‐bulb air temperature must remain a key indicator of the atmospheric state, not least for the many sectors that are sensitive to sensible heat transfer. However, we assert here that more widespread use of equivalent temperature could improve process understanding, public messaging, and adaptation to climate change.
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在气候通信中必须可见潜热
人为作用力正在推动地球系统的能量积累,包括通过干球温度测量的大气显热含量的增加,干球温度是几乎普遍用于气候变化通信的指标。不过,大气也在变湿,这代表着潜热的积累,部分被干球温度趋势所掩盖。我们强调,根据基本理论,大约一半地球表面的潜热增益超过了显热增益。这种差异在热带地区最大,那里是全球总热量积累的“热点”所在地,而干球温度很难代表地区供暖率的差异。将潜热纳入气候变化指标可以捕捉这种热量积累,从而提高对极端湿热和降水危害的适应相关理解,这些危害严重威胁着这些纬度地区。例如,灌溉可以降低峰值干球温度,但会更大幅度地增加潜热含量,从而加剧危险的热应力。因此,基于对研究文献的回顾,我们的观点呼吁常规使用等效温度,这是一种以熟悉的单位表示大气的显热和潜热含量的测量方法 °C或K。我们认识到,干球空气温度必须仍然是大气状态的关键指标,尤其是对于许多对显热传递敏感的部门。然而,我们在这里断言,更广泛地使用等效温度可以提高对过程的理解、公共信息传递和对气候变化的适应。
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来源期刊
Wiley Interdisciplinary Reviews: Climate Change
Wiley Interdisciplinary Reviews: Climate Change METEOROLOGY & ATMOSPHERIC SCIENCES-
CiteScore
20.00
自引率
2.20%
发文量
58
审稿时长
>12 weeks
期刊介绍: WIREs Climate Change serves as a distinctive platform for delving into current and emerging knowledge across various disciplines contributing to the understanding of climate change. This includes environmental history, humanities, physical and life sciences, social sciences, engineering, and economics. Developed in association with the Royal Meteorological Society and the Royal Geographical Society (with IBG) in the UK, this publication acts as an encyclopedic reference for climate change scholarship and research, offering a forum to explore diverse perspectives on how climate change is comprehended, analyzed, and contested globally.
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