Reducing uncertainties in climate models

Reducing uncertainties in climate models

Implementing accurate calculations of radiative forcing can improve climate projections Radiative forcing is a fundamental quantity for understanding both anthropogenic and natural changes in climate. It measures the extent to which human activities [such as the emission of carbon dioxide (CO 2 ), s...

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Veröffentlicht in:Science (American Association for the Advancement of Science) 2018-07, Vol.361 (6400), p.326-327
Hauptverfasser: Soden, Brian J, Collins, William D, Feldman, Daniel R
Format: Artikel
Sprache:eng
Schlagworte:
Anthropogenic factors
Carbon dioxide
Climate change
Climate models
Climate system
ENVIRONMENTAL SCIENCES
Human influences
Radiative forcing
Radiative transfer
Uncertainty
Volcanic eruptions
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Zusammenfassung:Implementing accurate calculations of radiative forcing can improve climate projections Radiative forcing is a fundamental quantity for understanding both anthropogenic and natural changes in climate. It measures the extent to which human activities [such as the emission of carbon dioxide (CO 2 ), see the image] and natural events (such as volcanic eruptions) perturb the flow of energy into and out of the climate system. This perturbation initiates all other changes of the climate in response to external forcings. Inconsistencies in the calculation of radiative forcing by CO 2 introduce uncertainties in model projections of climate change, a problem that has persisted for more than two decades. The explicit calculation of radiative forcing and a careful vetting of radiative transfer parameterizations provide a straightforward means to substantially reduce these uncertainties and improve the projections.
ISSN:0036-8075
1095-9203
DOI:10.1126/science.aau1864