CCN predictions: Is theory sufficient for assessments of the indirect effect?

Nenes, Athanasios

doi:10.1029/2005GL025148

Publication:
CCN predictions: Is theory sufficient for assessments of the indirect effect?

cris.lastimport.scopus	2024-08-08T11:04:29Z
cris.legacyId	257531
cris.virtual.author-scopus	6701378450
cris.virtual.department	LAPI
cris.virtual.parent-organization	IIE
cris.virtual.parent-organization	ENAC
cris.virtual.parent-organization	EPFL
cris.virtual.sciperId	296807
cris.virtual.unitId	13601
cris.virtual.unitManager	Nenes, Athanasios
cris.virtualsource.author-scopus	91d79209-244a-46f7-99a2-855e9c7ebb5b
cris.virtualsource.department	91d79209-244a-46f7-99a2-855e9c7ebb5b
cris.virtualsource.orcid	91d79209-244a-46f7-99a2-855e9c7ebb5b
cris.virtualsource.parent-organization	e4f9e2c3-0739-4984-82a4-0c1f81aeaebe
cris.virtualsource.parent-organization	e4f9e2c3-0739-4984-82a4-0c1f81aeaebe
cris.virtualsource.parent-organization	e4f9e2c3-0739-4984-82a4-0c1f81aeaebe
cris.virtualsource.parent-organization	e4f9e2c3-0739-4984-82a4-0c1f81aeaebe
cris.virtualsource.rid	91d79209-244a-46f7-99a2-855e9c7ebb5b
cris.virtualsource.sciperId	91d79209-244a-46f7-99a2-855e9c7ebb5b
cris.virtualsource.unitId	e4f9e2c3-0739-4984-82a4-0c1f81aeaebe
cris.virtualsource.unitManager	e4f9e2c3-0739-4984-82a4-0c1f81aeaebe
datacite.rights	metadata-only
dc.contributor.author	Sotiropoulou, R.-E. P.
dc.contributor.author	Medina, J.
dc.contributor.author	Nenes, Athanasios
dc.date.accessioned	2018-10-15T15:27:49
dc.date.available	2018-10-15T15:27:49
dc.date.created	2018-10-15
dc.date.issued	2006
dc.date.modified	2025-01-23T20:45:37.494391Z
dc.description.abstract	This study quantitatively assesses the sensitivity of cloud droplet number (CDNC) to errors in cloud condensation nuclei (CCN) predictions that arise from application of Köhler theory. The CDNC uncertainty is assessed by forcing a droplet activation parameterization with a comprehensive dataset of CCN activity and aerosol size and chemical composition obtained during the ICARTT field campaign in August 2004. Our analysis suggests that, for a diverse range of updraft velocity, droplet growth kinetics and airmass origin, the error in predicted CDNC is (at most) half of the CCN prediction error. This means that the typical 20-50% error in ambient CCN closure studies would result in a 10-25% error in CDNC. For the first time, a quantitative link between aerosol and CDNC prediction errors is available, and can be the basis of a robust uncertainty analysis of the first aerosol indirect effect. Copyright 2006 by the American Geophysical Union.
dc.description.sponsorship	LAPI
dc.identifier.doi	10.1029/2005GL025148
dc.identifier.uri	https://infoscience.epfl.ch/handle/20.500.14299/149068
dc.relation.issn	0094-8276
dc.relation.journal	Geophysical Research Letters
dc.subject	Atmospheric aerosols
dc.subject	Clouds
dc.subject	Composition
dc.subject	Condensation
dc.subject	Growth kinetics
dc.subject	Precipitation (meteorology)
dc.subject	Weather forecasting
dc.subject	Cloud condensation nuclei
dc.subject	Cloud droplet number
dc.subject	Droplet activation parameterization
dc.subject	Meteorology
dc.subject	aerosol
dc.subject	aerosol composition
dc.subject	cloud microphysics
dc.subject	cloud radiative forcing
dc.subject	condensation
dc.subject	droplet
dc.subject	particle size
dc.subject	uncertainty analysis
dc.title	CCN predictions: Is theory sufficient for assessments of the indirect effect?
dc.type	text::journal::journal article::research article
dspace.entity.type	Publication
dspace.legacy.oai-identifier	oai:infoscience.epfl.ch:257531
epfl.legacy.itemtype	Journal Articles
epfl.legacy.submissionform	ARTICLE
epfl.oai.currentset	ENAC
epfl.oai.currentset	article
epfl.oai.currentset	OpenAIREv4
epfl.peerreviewed	REVIEWED
epfl.publication.version	http://purl.org/coar/version/c_970fb48d4fbd8a85
epfl.writtenAt	OTHER
oaire.citation.articlenumber	L05816
oaire.citation.issue	5
oaire.citation.volume	33

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CCN predictions: Is theory sufficient for assessments of the indirect effect?