Studies on mineral dust using airborne lidar, ground-based remote sensing, and in situ instrumentation

Studies on mineral dust using airborne lidar, ground-based remote sensing, and in situ instrumentation

In August 2015, the AER-D campaign made use of the FAAM research aircraft based in Cape Verde, and targeted mineral dust. First results will be shown here. The campaign had multiple objectives: (1) lidar dust mapping for the validation of satellite and model products; (2) validation of sunphotometer...

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Main Authors: Marenco Franco, Ryder Claire, Estellés Victor, Segura Sara, Amiridis Vassilis, Proestakis Emmanouil, Marinou Eleni, Tsekeri Alexandra, Smith Helen, Ulanowski Zbigniew, O’Sullivan Debbie, Brooke Jennifer, Pradhan Yaswant, Buxmann Joelle
Format: Article
Language:English
Published: EDP Sciences 2018-01-01
Series:EPJ Web of Conferences
Online Access:https://doi.org/10.1051/epjconf/201817610001
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spelling doaj-6d316f4c5f404a3685d6928fd6d8f3ce2021-08-02T08:47:22ZengEDP SciencesEPJ Web of Conferences2100-014X2018-01-011761000110.1051/epjconf/201817610001epjconf_ilrc28_10001Studies on mineral dust using airborne lidar, ground-based remote sensing, and in situ instrumentationMarenco FrancoRyder ClaireEstellés VictorSegura SaraAmiridis VassilisProestakis EmmanouilMarinou EleniTsekeri AlexandraSmith HelenUlanowski ZbigniewO’Sullivan DebbieBrooke JenniferPradhan YaswantBuxmann JoelleIn August 2015, the AER-D campaign made use of the FAAM research aircraft based in Cape Verde, and targeted mineral dust. First results will be shown here. The campaign had multiple objectives: (1) lidar dust mapping for the validation of satellite and model products; (2) validation of sunphotometer remote sensing with airborne measurements; (3) coordinated measurements with the CATS lidar on the ISS; (4) radiative closure studies; and (5) the validation of a new model of dustsonde.https://doi.org/10.1051/epjconf/201817610001
collection DOAJ
language English
format Article
sources DOAJ
author Marenco Franco
Ryder Claire
Estellés Victor
Segura Sara
Amiridis Vassilis
Proestakis Emmanouil
Marinou Eleni
Tsekeri Alexandra
Smith Helen
Ulanowski Zbigniew
O’Sullivan Debbie
Brooke Jennifer
Pradhan Yaswant
Buxmann Joelle
spellingShingle Marenco Franco
Ryder Claire
Estellés Victor
Segura Sara
Amiridis Vassilis
Proestakis Emmanouil
Marinou Eleni
Tsekeri Alexandra
Smith Helen
Ulanowski Zbigniew
O’Sullivan Debbie
Brooke Jennifer
Pradhan Yaswant
Buxmann Joelle
Studies on mineral dust using airborne lidar, ground-based remote sensing, and in situ instrumentation
EPJ Web of Conferences
author_facet Marenco Franco
Ryder Claire
Estellés Victor
Segura Sara
Amiridis Vassilis
Proestakis Emmanouil
Marinou Eleni
Tsekeri Alexandra
Smith Helen
Ulanowski Zbigniew
O’Sullivan Debbie
Brooke Jennifer
Pradhan Yaswant
Buxmann Joelle
author_sort Marenco Franco
title Studies on mineral dust using airborne lidar, ground-based remote sensing, and in situ instrumentation
title_short Studies on mineral dust using airborne lidar, ground-based remote sensing, and in situ instrumentation
title_full Studies on mineral dust using airborne lidar, ground-based remote sensing, and in situ instrumentation
title_fullStr Studies on mineral dust using airborne lidar, ground-based remote sensing, and in situ instrumentation
title_full_unstemmed Studies on mineral dust using airborne lidar, ground-based remote sensing, and in situ instrumentation
title_sort studies on mineral dust using airborne lidar, ground-based remote sensing, and in situ instrumentation
publisher EDP Sciences
series EPJ Web of Conferences
issn 2100-014X
publishDate 2018-01-01
description In August 2015, the AER-D campaign made use of the FAAM research aircraft based in Cape Verde, and targeted mineral dust. First results will be shown here. The campaign had multiple objectives: (1) lidar dust mapping for the validation of satellite and model products; (2) validation of sunphotometer remote sensing with airborne measurements; (3) coordinated measurements with the CATS lidar on the ISS; (4) radiative closure studies; and (5) the validation of a new model of dustsonde.
url https://doi.org/10.1051/epjconf/201817610001
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