Tracking the Saharan Air Layer with shipborne lidar across the tropical Atlantic
Saharan dust was observed with shipborne lidar from 60° to 20°W along 14.5°N during a 1-month transatlantic cruise of the research vessel Meteor. About 4500 km off the coast of Africa, mean extinction and backscatter-related Ångström exponent of 0.1, wavelength-independent extinction-to-backscatter...
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| Format: | Article in Journal/Newspaper |
| Language: | English |
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Hoboken, NJ : Wiley
2014
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| Online Access: | https://doi.org/10.34657/1377 https://oa.tib.eu/renate/handle/123456789/835 |
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ftleibnizopen:oai:oai.leibnizopen.de:D3bgXIkBdbrxVwz6ayG6 2023-07-30T03:55:32+02:00 Tracking the Saharan Air Layer with shipborne lidar across the tropical Atlantic Kanitz, T. Engelmann, R. Heinold, B. Baars, H. Skupin, A. Ansmann, A. 2014 application/pdf https://doi.org/10.34657/1377 https://oa.tib.eu/renate/handle/123456789/835 eng eng Hoboken, NJ : Wiley CC BY-NC-ND 3.0 Unported https://creativecommons.org/licenses/by-nc-nd/3.0/ Geophysical research letters, Volume 41, Issue 3, Page 1044-1050 Aerosol optical thickness Atmospheric residence time Backscatter coefficients Dust concentrations Extinction-to-backscatter ratio Lidar measurements Linear depolarization ratios Saharan dust 550 article Text 2014 ftleibnizopen https://doi.org/10.34657/1377 2023-07-16T23:33:30Z Saharan dust was observed with shipborne lidar from 60° to 20°W along 14.5°N during a 1-month transatlantic cruise of the research vessel Meteor. About 4500 km off the coast of Africa, mean extinction and backscatter-related Ångström exponent of 0.1, wavelength-independent extinction-to-backscatter ratios (lidar ratios) of around 45 sr, and particle linear depolarization ratio of 20% were found for aged dust (transport time >10 days). In contrast, dust with a shorter atmospheric residence time of 2–3 days showed Ångström exponents of −0.5 (backscatter coefficient) and 0.1 (extinction coefficient), mean lidar ratios of 64 and 50 sr, and particle linear depolarization ratios of 22 and 26% at 355 and 532 nm wavelength, respectively. Traces of fire smoke were also detected in the observed dust layers. The lidar observations were complemented by Aerosol Robotic Network handheld Sun photometer measurements, which revealed a mean total atmospheric column aerosol optical thickness of 0.05 for pure marine conditions (in the absence of lofted aerosol layers) and roughly 0.9 during a strong Saharan dust outbreak. The achieved data set was compared with first Consortium for Small Scale Modeling-Multi-Scale Chemistry Aerosol Transport simulations. The simulated vertical aerosol distribution showed good agreement with the lidar observations. publishedVersion Article in Journal/Newspaper Aerosol Robotic Network LeibnizOpen (The Leibniz Association) |
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Open Polar |
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LeibnizOpen (The Leibniz Association) |
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ftleibnizopen |
| language |
English |
| topic |
Aerosol optical thickness Atmospheric residence time Backscatter coefficients Dust concentrations Extinction-to-backscatter ratio Lidar measurements Linear depolarization ratios Saharan dust 550 |
| spellingShingle |
Aerosol optical thickness Atmospheric residence time Backscatter coefficients Dust concentrations Extinction-to-backscatter ratio Lidar measurements Linear depolarization ratios Saharan dust 550 Kanitz, T. Engelmann, R. Heinold, B. Baars, H. Skupin, A. Ansmann, A. Tracking the Saharan Air Layer with shipborne lidar across the tropical Atlantic |
| topic_facet |
Aerosol optical thickness Atmospheric residence time Backscatter coefficients Dust concentrations Extinction-to-backscatter ratio Lidar measurements Linear depolarization ratios Saharan dust 550 |
| description |
Saharan dust was observed with shipborne lidar from 60° to 20°W along 14.5°N during a 1-month transatlantic cruise of the research vessel Meteor. About 4500 km off the coast of Africa, mean extinction and backscatter-related Ångström exponent of 0.1, wavelength-independent extinction-to-backscatter ratios (lidar ratios) of around 45 sr, and particle linear depolarization ratio of 20% were found for aged dust (transport time >10 days). In contrast, dust with a shorter atmospheric residence time of 2–3 days showed Ångström exponents of −0.5 (backscatter coefficient) and 0.1 (extinction coefficient), mean lidar ratios of 64 and 50 sr, and particle linear depolarization ratios of 22 and 26% at 355 and 532 nm wavelength, respectively. Traces of fire smoke were also detected in the observed dust layers. The lidar observations were complemented by Aerosol Robotic Network handheld Sun photometer measurements, which revealed a mean total atmospheric column aerosol optical thickness of 0.05 for pure marine conditions (in the absence of lofted aerosol layers) and roughly 0.9 during a strong Saharan dust outbreak. The achieved data set was compared with first Consortium for Small Scale Modeling-Multi-Scale Chemistry Aerosol Transport simulations. The simulated vertical aerosol distribution showed good agreement with the lidar observations. publishedVersion |
| format |
Article in Journal/Newspaper |
| author |
Kanitz, T. Engelmann, R. Heinold, B. Baars, H. Skupin, A. Ansmann, A. |
| author_facet |
Kanitz, T. Engelmann, R. Heinold, B. Baars, H. Skupin, A. Ansmann, A. |
| author_sort |
Kanitz, T. |
| title |
Tracking the Saharan Air Layer with shipborne lidar across the tropical Atlantic |
| title_short |
Tracking the Saharan Air Layer with shipborne lidar across the tropical Atlantic |
| title_full |
Tracking the Saharan Air Layer with shipborne lidar across the tropical Atlantic |
| title_fullStr |
Tracking the Saharan Air Layer with shipborne lidar across the tropical Atlantic |
| title_full_unstemmed |
Tracking the Saharan Air Layer with shipborne lidar across the tropical Atlantic |
| title_sort |
tracking the saharan air layer with shipborne lidar across the tropical atlantic |
| publisher |
Hoboken, NJ : Wiley |
| publishDate |
2014 |
| url |
https://doi.org/10.34657/1377 https://oa.tib.eu/renate/handle/123456789/835 |
| genre |
Aerosol Robotic Network |
| genre_facet |
Aerosol Robotic Network |
| op_source |
Geophysical research letters, Volume 41, Issue 3, Page 1044-1050 |
| op_rights |
CC BY-NC-ND 3.0 Unported https://creativecommons.org/licenses/by-nc-nd/3.0/ |
| op_doi |
https://doi.org/10.34657/1377 |
| _version_ |
1772815703248732160 |