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Drivers of Global Clear Sky Surface Downwelling Longwave Irradiance Trends From 1984 to 2017

Joseph P. Clark, Eugene E. Clothiaux, Steven B. Feldstein, Sukyoung Lee

2021Geophysical Research Letters13 citationsDOI

Abstract

Abstract Radiation changes at the Earth's surface alter climate, however, the causes of observed surface radiation changes are not precisely quantified globally. With complete global coverage by ERA‐Interim, the drivers of the clear sky surface downwelling longwave irradiance (SDLI) trends from 1984 to 2017 are quantifiable everywhere. Trends in atmospheric temperature and water vapor contributed significantly (∼90%) to clear sky SDLI trends, including trends consistent with Arctic warming and Southern Ocean cooling. CO 2 contributed ∼10% and other greenhouse gases (CH 4 , N 2 O, CFC‐11, and CFC‐12) ∼1% to the SDLI trends. These observation‐based results are consistent with early CO 2 ‐doubling climate model calculations wherein temperature and water vapor changes drove ∼90% of the SDLI change. The well‐mixed greenhouse gases drive location‐dependent SDLI trends that are strongest over regions with climatologically high temperatures and low water vapor amounts.

Topics & Concepts

DownwellingEnvironmental scienceLongwaveAtmospheric sciencesClimatologyWater vaporGreenhouse gasSkySolar irradianceIrradianceGreenhouse effectArcticClimate changeClimate modelGlobal warmingMeteorologyRadiationGeographyGeologyUpwellingOceanographyPhysicsQuantum mechanicsAtmospheric chemistry and aerosolsAtmospheric and Environmental Gas DynamicsAtmospheric aerosols and clouds
Drivers of Global Clear Sky Surface Downwelling Longwave Irradiance Trends From 1984 to 2017 | Litcius