Litcius/Paper detail

Causes for Asymmetric Warming of Sub‐Diurnal Temperature Responding to Global Warming

Quang‐Van Doan, Fei Chen, Yuki M. Asano, Ying Gu, Akifumi Nishi, Hiroyuki Kusaka, Dev Niyogi

2022Geophysical Research Letters37 citationsDOIOpen Access PDF

Abstract

Abstract Defined as the difference between the daily maximum ( T max ) and minimum surface air temperature ( T min ), the diurnal temperature range (DTR) is critical to local climate, ecosystem, and socio‐economic functioning. This study investigates how DTR responds to the future global warming, using a novel, fine‐resolution convection‐permitting regional climate model. Results demonstrate the asymmetrical impact of global warming, that is, the more substantial warming in T min , and the lower in T max . This asymmetry results in the DTR reduction of 0.5°K in the mid‐latitude and 0.25°K in the low‐altitude area (under 2°K warming scenario). The increase in daytime cloudiness under warmer climates is likely responsible for the reduction of incoming short‐wave radiation reduction, consequently causing T max “underwarming.” Study results also suggest that atmospheric instability could play a vital role in the difference in DTR response between the tropical and mid‐latitude areas.

Topics & Concepts

Global warmingEnvironmental scienceClimatologyDaytimeAtmospheric sciencesLatitudeClimate changeDiurnal temperature variationAltitude (triangle)Cloud coverGeographyEcologyGeologyOperating systemMathematicsGeometryGeodesyCloud computingBiologyComputer scienceClimate variability and modelsMeteorological Phenomena and SimulationsUrban Heat Island Mitigation