Understanding Seasonal Variability in thin Cirrus Clouds from Continuous MPLNET Observations at GSFC in 2012

Understanding Seasonal Variability in thin Cirrus Clouds from Continuous MPLNET Observations at GSFC in 2012

Optically thin cirrus cloud (optical depth < 0.3) net radiative forcing represents one of the primary uncertainties in climate feedback, as sub-visible clouds play a fundamental role in atmospheric radiation balance and climate change. A lidar is a very sensitive optical device to detect clouds w...

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Main Authors: Lolli Simone, Lewis Jasper R., Welton Ellsworth J., Campbell James R., Gu Y.
Format: Article
Language:English
Published: EDP Sciences 2016-01-01
Series:EPJ Web of Conferences
Online Access:http://dx.doi.org/10.1051/epjconf/201611911004
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spelling doaj-2eba2c16b0ca4a1593ea415668d12bb72021-08-02T07:28:52ZengEDP SciencesEPJ Web of Conferences2100-014X2016-01-011191100410.1051/epjconf/201611911004epjconf_ilrc2016_11004Understanding Seasonal Variability in thin Cirrus Clouds from Continuous MPLNET Observations at GSFC in 2012Lolli Simone0Lewis Jasper R.1Welton Ellsworth J.2Campbell James R.3Gu Y.4NASA-JCET, Code 612NASA-JCET, Code 612NASA, Code 612Naval Research LaboratoryUCLAOptically thin cirrus cloud (optical depth < 0.3) net radiative forcing represents one of the primary uncertainties in climate feedback, as sub-visible clouds play a fundamental role in atmospheric radiation balance and climate change. A lidar is a very sensitive optical device to detect clouds with an optical depth as low as 10−4. In this paper we assess the daytime net radiative forcing of subvisible cirrus clouds detected at Goddard Space Flight Center, a permanent observational site of the NASA Micro Pulse Lidar Network in 2012. Depending on their height, season and hour of the day, the solar albedo effect can outweigh the infrared greenhouse effect, cooling the earthatmosphere system rather than warming it exclusively. As result, based on latitude, the net forcing of sub-visible cirrus clouds can be more accurately parameterized in climate models.http://dx.doi.org/10.1051/epjconf/201611911004
collection DOAJ
language English
format Article
sources DOAJ
author Lolli Simone
Lewis Jasper R.
Welton Ellsworth J.
Campbell James R.
Gu Y.
spellingShingle Lolli Simone
Lewis Jasper R.
Welton Ellsworth J.
Campbell James R.
Gu Y.
Understanding Seasonal Variability in thin Cirrus Clouds from Continuous MPLNET Observations at GSFC in 2012
EPJ Web of Conferences
author_facet Lolli Simone
Lewis Jasper R.
Welton Ellsworth J.
Campbell James R.
Gu Y.
author_sort Lolli Simone
title Understanding Seasonal Variability in thin Cirrus Clouds from Continuous MPLNET Observations at GSFC in 2012
title_short Understanding Seasonal Variability in thin Cirrus Clouds from Continuous MPLNET Observations at GSFC in 2012
title_full Understanding Seasonal Variability in thin Cirrus Clouds from Continuous MPLNET Observations at GSFC in 2012
title_fullStr Understanding Seasonal Variability in thin Cirrus Clouds from Continuous MPLNET Observations at GSFC in 2012
title_full_unstemmed Understanding Seasonal Variability in thin Cirrus Clouds from Continuous MPLNET Observations at GSFC in 2012
title_sort understanding seasonal variability in thin cirrus clouds from continuous mplnet observations at gsfc in 2012
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2016-01-01
description Optically thin cirrus cloud (optical depth < 0.3) net radiative forcing represents one of the primary uncertainties in climate feedback, as sub-visible clouds play a fundamental role in atmospheric radiation balance and climate change. A lidar is a very sensitive optical device to detect clouds with an optical depth as low as 10−4. In this paper we assess the daytime net radiative forcing of subvisible cirrus clouds detected at Goddard Space Flight Center, a permanent observational site of the NASA Micro Pulse Lidar Network in 2012. Depending on their height, season and hour of the day, the solar albedo effect can outweigh the infrared greenhouse effect, cooling the earthatmosphere system rather than warming it exclusively. As result, based on latitude, the net forcing of sub-visible cirrus clouds can be more accurately parameterized in climate models.
url http://dx.doi.org/10.1051/epjconf/201611911004
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AT weltonellsworthj understandingseasonalvariabilityinthincirruscloudsfromcontinuousmplnetobservationsatgsfcin2012
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