Observational evidence that cloud feedback amplifies global warming
Paulo Ceppi, Peer Nowack
Abstract
Significance A key challenge of our time is to accurately estimate future global warming in response to a doubling of atmospheric carbon dioxide—a number known as the climate sensitivity . This number is highly uncertain, mainly because it remains unclear how clouds will change with warming. Such changes in clouds could strongly amplify or dampen global warming, providing a climate feedback. Here, we perform a statistical learning analysis that provides a global observational constraint on the future cloud response. This constraint supports that cloud feedback will amplify global warming, making it very unlikely that climate sensitivity is smaller than 2 °C.
Topics & Concepts
Cloud computingGlobal warmingObservational studyClimatologyEnvironmental scienceCloud feedbackClimate changeComputer scienceGeologyClimate modelClimate sensitivityOceanographyMedicineOperating systemPathologyClimate variability and modelsAtmospheric and Environmental Gas DynamicsAtmospheric chemistry and aerosols