Study of mineral dust entrainment in the planetary boundary layer by lidar depolarisation technique

Study of mineral dust entrainment in the planetary boundary layer by lidar depolarisation technique

Measurements on 27 June 2011 were performed over the Southern Iberian Peninsula at Granada EARLINET station, using active and passive remote sensing and airborne and surface in-situ data in order to study the entrainment processes between aerosols in the free troposphere and those in the planetary b...

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Published in:Tellus. Series A, Dynamic meteorology and oceanography Vol. 67; no. 1; pp. 26180 - 13
Main Authors: Bravo-Aranda, Juan Antonio, Titos, Gloria, Granados-Muñoz, María José, Guerrero-Rascado, Juan Luís, Navas-Guzmán, Fransciso, Valenzuela, Antonio, Lyamani, Hassan, Olmo, Francisco José, Andrey, Javier, Alados-Arboledas, Lucas
Format: Journal Article
Language:English
Published: Taylor & Francis 01-01-2015
Stockholm University Press
Subjects:
atmospheric aerosol
lidar
lidar depolarisation technique
planetary boundary layer
Saharan mineral dust
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Abstract Measurements on 27 June 2011 were performed over the Southern Iberian Peninsula at Granada EARLINET station, using active and passive remote sensing and airborne and surface in-situ data in order to study the entrainment processes between aerosols in the free troposphere and those in the planetary boundary layer (PBL). To this aim the temporal evolution of the lidar depolarisation, backscatter-related Angström exponent and potential temperature profiles were used in combination with the PBL contribution to the aerosol optical depth (AOD). Our results show that the mineral dust entrainment in the PBL was caused by the convective processes which 'trapped' the lofted mineral dust layer, distributing the mineral dust particles within the PBL. The temporal evolution of ground-based in-situ data evidenced the impact of this process at surface level. Finally, the amount of mineral dust in the atmospheric column available to be dispersed into the PBL was estimated by means of POLIPHON (Polarizing Lidar Photometer Networking). The dust mass concentration derived from POLIPHON was compared with the coarse-mode mass concentration retrieved with airborne in-situ measurements. Comparison shows differences below 50 µg/m 3 (30% relative difference) indicating a relative good agreement between both techniques.
AbstractList Measurements on 27 June 2011 were performed over the Southern Iberian Peninsula at Granada EARLINET station, using active and passive remote sensing and airborne and surface in-situ data in order to study the entrainment processes between aerosols in the free troposphere and those in the planetary boundary layer (PBL). To this aim the temporal evolution of the lidar depolarisation, backscatter-related Angström exponent and potential temperature profiles were used in combination with the PBL contribution to the aerosol optical depth (AOD). Our results show that the mineral dust entrainment in the PBL was caused by the convective processes which 'trapped' the lofted mineral dust layer, distributing the mineral dust particles within the PBL. The temporal evolution of ground-based in-situ data evidenced the impact of this process at surface level. Finally, the amount of mineral dust in the atmospheric column available to be dispersed into the PBL was estimated by means of POLIPHON (Polarizing Lidar Photometer Networking). The dust mass concentration derived from POLIPHON was compared with the coarse-mode mass concentration retrieved with airborne in-situ measurements. Comparison shows differences below 50 µg/m 3 (30% relative difference) indicating a relative good agreement between both techniques.
Measurements on 27 June 2011 were performed over the Southern Iberian Peninsula at Granada EARLINET station, using active and passive remote sensing and airborne and surface in-situ data in order to study the entrainment processes between aerosols in the free troposphere and those in the planetary boundary layer (PBL). To this aim the temporal evolution of the lidar depolarisation, backscatter-related Angström exponent and potential temperature profiles were used in combination with the PBL contribution to the aerosol optical depth (AOD). Our results show that the mineral dust entrainment in the PBL was caused by the convective processes which ‘trapped’ the lofted mineral dust layer, distributing the mineral dust particles within the PBL. The temporal evolution of ground-based in-situ data evidenced the impact of this process at surface level. Finally, the amount of mineral dust in the atmospheric column available to be dispersed into the PBL was estimated by means of POLIPHON (Polarizing Lidar Photometer Networking). The dust mass concentration derived from POLIPHON was compared with the coarse-mode mass concentration retrieved with airborne in-situ measurements. Comparison shows differences below 50 µg/m3 (30% relative difference) indicating a relative good agreement between both techniques.
Author Bravo-Aranda, Juan Antonio
Lyamani, Hassan
Andrey, Javier
Valenzuela, Antonio
Guerrero-Rascado, Juan Luís
Alados-Arboledas, Lucas
Titos, Gloria
Granados-Muñoz, María José
Navas-Guzmán, Fransciso
Olmo, Francisco José
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  organization: Department of Applied PhysicsUniversity of Granada, Granada
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Snippet Measurements on 27 June 2011 were performed over the Southern Iberian Peninsula at Granada EARLINET station, using active and passive remote sensing and...
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SubjectTerms atmospheric aerosol
lidar
lidar depolarisation technique
planetary boundary layer
Saharan mineral dust
Title Study of mineral dust entrainment in the planetary boundary layer by lidar depolarisation technique
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