GUEDES, ANDERSON G.LANDULFO, EDUARDOMONTILLA-ROSERO, ELENALOPES, FABIO J.S.HOELZEMANN, JUDITH J.FERNANDEZ, JOSE H.SILVA, MARCOS P.A.SANTOS, RENATA S.S.GUERRERO-RASCADO, JUAN L.ALADOS-ARBOLEDAS, LUCAS2018-07-162018-07-162018GUEDES, ANDERSON G.; LANDULFO, EDUARDO; MONTILLA-ROSERO, ELENA; LOPES, FABIO J.S.; HOELZEMANN, JUDITH J.; FERNANDEZ, JOSE H.; SILVA, MARCOS P.A.; SANTOS, RENATA S.S.; GUERRERO-RASCADO, JUAN L.; ALADOS-ARBOLEDAS, LUCAS. Detection of saharan mineral dust aerosol transport over brazilian northeast through a depolarization lidar. <b>EPJ Web of Conferences</b>, v. 176, n. 05036, p. 1-4, 2018. DOI: <a href="https://dx.doi.org/10.1051/epjconf/201817605036">10.1051/epjconf/201817605036</a>. Disponível em: http://repositorio.ipen.br/handle/123456789/28953.2100-014Xhttp://repositorio.ipen.br/handle/123456789/28953In this study we present results of linear volume depolarization ratio profiles obtained by a depolarization lidar in operation in Natal, Brazil. The DUSTER system has 4 channels, namely: 1064, 532 s/p and 355 nm. This system is calibrated with a half-wave plate using the Δ90° methodology. The data obtained from this system is correlated with AERONET sunphotometer data, and, when available, CALIPSO satellite data. In addition a trajectory model (HYSPLIT) is used to calculate backward trajectories to assess the origin of the dust polluted air parcels. The objective is to create a transport database of Saharan dust.1-4openAccessdustsaerosolsaerosol monitoringsatellite atmospheresdepolarizationoptical radarbrazildesertsmineralsafricaArtigo de periódico0503617610.1051/epjconf/201817605036https://orcid.org/0000-0002-9691-5306Sem PercentilSem Percentil CiteScore