Litcius/Paper detail

Reversed asymmetric warming of sub-diurnal temperature over land during recent decades

Ziqian Zhong, Bin He, Hans W. Chen, Deliang Chen, Tianjun Zhou, Wenjie Dong, Cunde Xiao, Shang‐Ping Xie, Xiangzhou Song, Lanlan Guo, Ruiqiang Ding, Lixia Zhang, Ling Huang, Wenping Yuan, Xingming Hao, Duoying Ji, Xiang Zhao

2023Nature Communications90 citationsDOIOpen Access PDF

Abstract

Abstract In the latter half of the twentieth century, a significant climate phenomenon “diurnal asymmetric warming” emerged, wherein global land surface temperatures increased more rapidly during the night than during the day. However, recent episodes of global brightening and regional droughts and heatwaves have brought notable alterations to this asymmetric warming trend. Here, we re-evaluate sub-diurnal temperature patterns, revealing a substantial increase in the warming rates of daily maximum temperatures (T max ), while daily minimum temperatures have remained relatively stable. This shift has resulted in a reversal of the diurnal warming trend, expanding the diurnal temperature range over recent decades. The intensified T max warming is attributed to a widespread reduction in cloud cover, which has led to increased solar irradiance at the surface. Our findings underscore the urgent need for enhanced scrutiny of recent temperature trends and their implications for the wider earth system.

Topics & Concepts

Global warmingEnvironmental scienceDiurnal temperature variationClimatologyAtmospheric sciencesDiurnal cycleCloud coverClimate changeEcologyGeologyBiologyCloud computingOperating systemComputer scienceClimate variability and modelsPlant Water Relations and Carbon DynamicsMeteorological Phenomena and Simulations