Litcius/Paper detail

Aerosol-cloud-climate cooling overestimated by ship-track data

Franziska Glassmeier, Fabian Hoffmann, Jill S. Johnson, Takanobu Yamaguchi, K. S. Carslaw, Graham Feingold

2021Science219 citationsDOIOpen Access PDF

Abstract

The effect of anthropogenic aerosol on the reflectivity of stratocumulus cloud decks through changes in cloud amount is a major uncertainty in climate projections. In frequently occurring nonprecipitating stratocumulus, cloud amount can decrease through aerosol-enhanced cloud-top mixing. The climatological relevance of this effect is debated because ship exhaust only marginally reduces stratocumulus amount. By comparing detailed numerical simulations with satellite analyses, we show that ship-track studies cannot be generalized to estimate the climatological forcing of anthropogenic aerosol. The ship track-derived sensitivity of the radiative effect of nonprecipitating stratocumulus to aerosol overestimates their cooling effect by up to 200%. The offsetting warming effect of decreasing stratocumulus amount needs to be taken into account if we are to constrain the cloud-mediated radiative forcing of anthropogenic aerosol.

Topics & Concepts

Marine stratocumulusAerosolEnvironmental scienceAtmospheric sciencesMeteorologyClimate modelCloud computingClimatologyRadiative transferTrack (disk drive)Climate systemClimate changeGeographyOceanographyGeologyComputer scienceOperating systemPhysicsQuantum mechanicsAtmospheric aerosols and cloudsAtmospheric chemistry and aerosolsAtmospheric Ozone and Climate