Effect of Vertical Profile of Aerosols on the Local Shortwave Radiative Forcing Estimation
In this work, the effect of the aerosol vertical distribution on the local shortwave aerosol radiative forcing is studied. We computed the radiative forcing at the top and bottom of the atmosphere between 0.2 and 4 microns using the libRadTran package and compared the results with those provided by...
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| Format: | Text |
| Language: | English |
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Multidisciplinary Digital Publishing Institute
2021
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| Online Access: | https://doi.org/10.3390/atmos12020187 |
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ftmdpi:oai:mdpi.com:/2073-4433/12/2/187/ 2023-08-20T03:59:11+02:00 Effect of Vertical Profile of Aerosols on the Local Shortwave Radiative Forcing Estimation Francisco Molero Alfonso Javier Fernández María Aránzazu Revuelta Isabel Martínez-Marco Manuel Pujadas Begoña Artíñano agris 2021-01-30 application/pdf https://doi.org/10.3390/atmos12020187 EN eng Multidisciplinary Digital Publishing Institute Aerosols https://dx.doi.org/10.3390/atmos12020187 https://creativecommons.org/licenses/by/4.0/ Atmosphere; Volume 12; Issue 2; Pages: 187 aerosols radiative forcing lidar vertical profile libRadTran Text 2021 ftmdpi https://doi.org/10.3390/atmos12020187 2023-08-01T00:58:15Z In this work, the effect of the aerosol vertical distribution on the local shortwave aerosol radiative forcing is studied. We computed the radiative forcing at the top and bottom of the atmosphere between 0.2 and 4 microns using the libRadTran package and compared the results with those provided by AERONET (AErosol RObotic NETwork). Lidar measurements were employed to characterize the aerosol vertical profile, and collocated AERONET measurements provided aerosol optical parameters required to calculate its radiative forcing. A good correlation between the calculated radiative forcings and those provide by AERONET, with differences smaller than 1 W m−2 (15% of estimated radiative forcing), is obtained when a gaussian vertical aerosol profile is assumed. Notwithstanding, when a measured aerosol profile is inserted into the model, differences between radiative forcings can vary up to 6.54 W m−2 (15%), with a mean of differences = −0.74 ± 3.06 W m−2 at BOA and −3.69 W m−2 (13%), with a mean of differences = −0.27 ± 1.32 W m−2 at TOA due to multiple aerosol layers and aerosol types. These results indicate that accurate information about aerosol vertical distribution must be incorporated in the radiative forcing calculation in order to reduce its uncertainties. Text Aerosol Robotic Network MDPI Open Access Publishing Boa ENVELOPE(15.532,15.532,66.822,66.822) Atmosphere 12 2 187 |
| institution |
Open Polar |
| collection |
MDPI Open Access Publishing |
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ftmdpi |
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English |
| topic |
aerosols radiative forcing lidar vertical profile libRadTran |
| spellingShingle |
aerosols radiative forcing lidar vertical profile libRadTran Francisco Molero Alfonso Javier Fernández María Aránzazu Revuelta Isabel Martínez-Marco Manuel Pujadas Begoña Artíñano Effect of Vertical Profile of Aerosols on the Local Shortwave Radiative Forcing Estimation |
| topic_facet |
aerosols radiative forcing lidar vertical profile libRadTran |
| description |
In this work, the effect of the aerosol vertical distribution on the local shortwave aerosol radiative forcing is studied. We computed the radiative forcing at the top and bottom of the atmosphere between 0.2 and 4 microns using the libRadTran package and compared the results with those provided by AERONET (AErosol RObotic NETwork). Lidar measurements were employed to characterize the aerosol vertical profile, and collocated AERONET measurements provided aerosol optical parameters required to calculate its radiative forcing. A good correlation between the calculated radiative forcings and those provide by AERONET, with differences smaller than 1 W m−2 (15% of estimated radiative forcing), is obtained when a gaussian vertical aerosol profile is assumed. Notwithstanding, when a measured aerosol profile is inserted into the model, differences between radiative forcings can vary up to 6.54 W m−2 (15%), with a mean of differences = −0.74 ± 3.06 W m−2 at BOA and −3.69 W m−2 (13%), with a mean of differences = −0.27 ± 1.32 W m−2 at TOA due to multiple aerosol layers and aerosol types. These results indicate that accurate information about aerosol vertical distribution must be incorporated in the radiative forcing calculation in order to reduce its uncertainties. |
| format |
Text |
| author |
Francisco Molero Alfonso Javier Fernández María Aránzazu Revuelta Isabel Martínez-Marco Manuel Pujadas Begoña Artíñano |
| author_facet |
Francisco Molero Alfonso Javier Fernández María Aránzazu Revuelta Isabel Martínez-Marco Manuel Pujadas Begoña Artíñano |
| author_sort |
Francisco Molero |
| title |
Effect of Vertical Profile of Aerosols on the Local Shortwave Radiative Forcing Estimation |
| title_short |
Effect of Vertical Profile of Aerosols on the Local Shortwave Radiative Forcing Estimation |
| title_full |
Effect of Vertical Profile of Aerosols on the Local Shortwave Radiative Forcing Estimation |
| title_fullStr |
Effect of Vertical Profile of Aerosols on the Local Shortwave Radiative Forcing Estimation |
| title_full_unstemmed |
Effect of Vertical Profile of Aerosols on the Local Shortwave Radiative Forcing Estimation |
| title_sort |
effect of vertical profile of aerosols on the local shortwave radiative forcing estimation |
| publisher |
Multidisciplinary Digital Publishing Institute |
| publishDate |
2021 |
| url |
https://doi.org/10.3390/atmos12020187 |
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agris |
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ENVELOPE(15.532,15.532,66.822,66.822) |
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Boa |
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Boa |
| genre |
Aerosol Robotic Network |
| genre_facet |
Aerosol Robotic Network |
| op_source |
Atmosphere; Volume 12; Issue 2; Pages: 187 |
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Aerosols https://dx.doi.org/10.3390/atmos12020187 |
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https://creativecommons.org/licenses/by/4.0/ |
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https://doi.org/10.3390/atmos12020187 |
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Atmosphere |
| container_volume |
12 |
| container_issue |
2 |
| container_start_page |
187 |
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1774718123448991744 |