A revisiting of the parametrization of downward longwave radiation in summer over the Tibetan Plateau based on high-temporal-resolution measurements

A revisiting of the parametrization of downward longwave radiation in summer over the Tibetan Plateau based on high-temporal-resolution measurements

<p>The Tibetan Plateau (TP) is one of the research hot spots in the climate change research due to its unique geographical location and high altitude. Downward longwave radiation (DLR), as a key component in the surface energy budget, has practical implications for radiation budget and climate...

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Main Authors: M. Liu, X. Zheng, J. Zhang, X. Xia
Format: Article
Language:English
Published: Copernicus Publications 2020-04-01
Series:Atmospheric Chemistry and Physics
Online Access:https://www.atmos-chem-phys.net/20/4415/2020/acp-20-4415-2020.pdf
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spelling doaj-107e072ce7ac4537a27ba64e606d31e32020-11-25T02:55:07ZengCopernicus PublicationsAtmospheric Chemistry and Physics1680-73161680-73242020-04-01204415442610.5194/acp-20-4415-2020A revisiting of the parametrization of downward longwave radiation in summer over the Tibetan Plateau based on high-temporal-resolution measurementsM. Liu0M. Liu1X. Zheng2J. Zhang3J. Zhang4J. Zhang5X. Xia6X. Xia7X. Xia8LAGEO, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing, 100029, China College of Earth and Planetary Sciences, University of the Chinese Academy of Sciences, Beijing, 100049, ChinaChinese Academy of Meteorological Sciences, China Meteorological Administration, Beijing, 100081, ChinaLAGEO, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing, 100029, China College of Earth and Planetary Sciences, University of the Chinese Academy of Sciences, Beijing, 100049, ChinaCollaborative Innovation Center on Forecast and Evaluation of Meteorological Disasters, Nanjing University of Information Science & Technology, Nanjing, 210044, ChinaLAGEO, Institute of Atmospheric Physics, Chinese Academy of Sciences, Beijing, 100029, China College of Earth and Planetary Sciences, University of the Chinese Academy of Sciences, Beijing, 100049, ChinaCollaborative Innovation Center on Forecast and Evaluation of Meteorological Disasters, Nanjing University of Information Science & Technology, Nanjing, 210044, China<p>The Tibetan Plateau (TP) is one of the research hot spots in the climate change research due to its unique geographical location and high altitude. Downward longwave radiation (DLR), as a key component in the surface energy budget, has practical implications for radiation budget and climate change. A couple of attempts have been made to parametrize DLR over the TP based on hourly or daily measurements and crude clear-sky discrimination methods. This study uses 1&thinsp;min shortwave and longwave radiation measurements at three stations over the TP to parametrize DLR during summer months. Three independent methods are used to discriminate clear sky from clouds based on 1&thinsp;min radiation and lidar measurements. This guarantees the strict selection of clear-sky samples that is fundamental for the parametrization of clear-sky DLR. A total of 11 clear-sky and 4 cloudy DLR parametrizations are examined and locally calibrated. Compared to previous studies, DLR parametrizations here are shown to be characterized by smaller root-mean-square errors (RMSEs) and higher coefficients of determination (<span class="inline-formula"><i>R</i><sup>2</sup></span>). Clear-sky DLR can be estimated from the best parametrization with a RMSE of 3.8&thinsp;W&thinsp;m<span class="inline-formula"><sup>−2</sup></span> and <span class="inline-formula"><i>R</i><sup>2</sup>&gt;0.98</span>. Systematic overestimation of clear-sky DLR by the locally calibrated parametrization in one previous study is found to be approximately 25&thinsp;W&thinsp;m<span class="inline-formula"><sup>−2</sup></span> (10&thinsp;%), which is very likely due to potential residual cloud contamination on previous clear-sky DLR parametrization. The cloud base height under overcast conditions is shown to play an important role in cloudy DLR parametrization, which is considered in the locally calibrated parametrization over the TP for the first time. Further studies on DLR parametrization during nighttime and in seasons except summer are required for our better understanding of the role of DLR in climate change.</p>https://www.atmos-chem-phys.net/20/4415/2020/acp-20-4415-2020.pdf
collection DOAJ
language English
format Article
sources DOAJ
author M. Liu
M. Liu
X. Zheng
J. Zhang
J. Zhang
J. Zhang
X. Xia
X. Xia
X. Xia
spellingShingle M. Liu
M. Liu
X. Zheng
J. Zhang
J. Zhang
J. Zhang
X. Xia
X. Xia
X. Xia
A revisiting of the parametrization of downward longwave radiation in summer over the Tibetan Plateau based on high-temporal-resolution measurements
Atmospheric Chemistry and Physics
author_facet M. Liu
M. Liu
X. Zheng
J. Zhang
J. Zhang
J. Zhang
X. Xia
X. Xia
X. Xia
author_sort M. Liu
title A revisiting of the parametrization of downward longwave radiation in summer over the Tibetan Plateau based on high-temporal-resolution measurements
title_short A revisiting of the parametrization of downward longwave radiation in summer over the Tibetan Plateau based on high-temporal-resolution measurements
title_full A revisiting of the parametrization of downward longwave radiation in summer over the Tibetan Plateau based on high-temporal-resolution measurements
title_fullStr A revisiting of the parametrization of downward longwave radiation in summer over the Tibetan Plateau based on high-temporal-resolution measurements
title_full_unstemmed A revisiting of the parametrization of downward longwave radiation in summer over the Tibetan Plateau based on high-temporal-resolution measurements
title_sort revisiting of the parametrization of downward longwave radiation in summer over the tibetan plateau based on high-temporal-resolution measurements
publisher Copernicus Publications
series Atmospheric Chemistry and Physics
issn 1680-7316
1680-7324
publishDate 2020-04-01
description <p>The Tibetan Plateau (TP) is one of the research hot spots in the climate change research due to its unique geographical location and high altitude. Downward longwave radiation (DLR), as a key component in the surface energy budget, has practical implications for radiation budget and climate change. A couple of attempts have been made to parametrize DLR over the TP based on hourly or daily measurements and crude clear-sky discrimination methods. This study uses 1&thinsp;min shortwave and longwave radiation measurements at three stations over the TP to parametrize DLR during summer months. Three independent methods are used to discriminate clear sky from clouds based on 1&thinsp;min radiation and lidar measurements. This guarantees the strict selection of clear-sky samples that is fundamental for the parametrization of clear-sky DLR. A total of 11 clear-sky and 4 cloudy DLR parametrizations are examined and locally calibrated. Compared to previous studies, DLR parametrizations here are shown to be characterized by smaller root-mean-square errors (RMSEs) and higher coefficients of determination (<span class="inline-formula"><i>R</i><sup>2</sup></span>). Clear-sky DLR can be estimated from the best parametrization with a RMSE of 3.8&thinsp;W&thinsp;m<span class="inline-formula"><sup>−2</sup></span> and <span class="inline-formula"><i>R</i><sup>2</sup>&gt;0.98</span>. Systematic overestimation of clear-sky DLR by the locally calibrated parametrization in one previous study is found to be approximately 25&thinsp;W&thinsp;m<span class="inline-formula"><sup>−2</sup></span> (10&thinsp;%), which is very likely due to potential residual cloud contamination on previous clear-sky DLR parametrization. The cloud base height under overcast conditions is shown to play an important role in cloudy DLR parametrization, which is considered in the locally calibrated parametrization over the TP for the first time. Further studies on DLR parametrization during nighttime and in seasons except summer are required for our better understanding of the role of DLR in climate change.</p>
url https://www.atmos-chem-phys.net/20/4415/2020/acp-20-4415-2020.pdf
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