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Aerosol Type Constraints Required for Ocean Color Atmospheric Correction (2014)

Ahmad, Z. ; Sayer, A. ; Franz, B. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Organizers of the Aerosol Cloud Ecosystem (ACE) Science Working Group held a workshop at Goddard Space Flight Center June 16-18, 2014; speaker presentations will be made available on the ACE public website.

Keywords: Earth Resources and Remote Sensing; Environment Pollution

Type: GSFC-E-DAA-TN15888 , ACE Science Working Group (SWG) Workshop; Jun 09, 2014 - Jun 11, 2014; Greenbelt, MD; United States

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Aerosol Airmass Type Mapping Over the Urban Mexico City Region From Space-based Multi-angle Imaging (2013)

Hair, J. W. ; Kahn, R. A. ; Hostetler, C. A. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Using Multi-angle Imaging SpectroRadiometer (MISR) and sub-orbital measurements from the 2006 INTEX-B/MILAGRO field campaign, in this study we explore MISR's ability to map different aerosol air mass types over the Mexico City metropolitan area. The aerosol air mass distinctions are based on shape, size and single scattering albedo retrievals from the MISR Research Aerosol Retrieval algorithm. In this region, the research algorithm identifies dust-dominated aerosol mixtures based on non-spherical particle shape, whereas spherical biomass burning and urban pollution particles are distinguished by particle size. Two distinct aerosol air mass types based on retrieved particle microphysical properties, and four spatially distributed aerosol air masses, are identified in the MISR data on 6 March 2006. The aerosol air mass type identification results are supported by coincident, airborne high-spectral-resolution lidar (HSRL) measurements. Aerosol optical depth (AOD) gradients are also consistent between the MISR and sub-orbital measurements, but particles having single-scattering albedo of approx. 0.7 at 558 nm must be included in the retrieval algorithm to produce good absolute AOD comparisons over pollution-dominated aerosol air masses. The MISR standard V22 AOD product, at 17.6 km resolution, captures the observed AOD gradients qualitatively, but retrievals at this coarse spatial scale and with limited spherical absorbing particle options underestimate AOD and do not retrieve particle properties adequately over this complex urban region. However, we demonstrate how AOD and aerosol type mapping can be accomplished with MISR data over complex urban regions, provided the retrieval is performed at sufficiently high spatial resolution, and with a rich enough set of aerosol components and mixtures.

Keywords: Earth Resources and Remote Sensing; Environment Pollution

Type: GSFC-E-DAA-TN11632 , Atmospheric Chemistry and Physics (ISSN 1680-7316); 13; 18; 9525-9541

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Multi-Decadal Aerosol Variations from 1980 to 2009: A Perspective from Observations and a Global Model (2014)

Chin, Mian ; Kucsera, T. L. ; Prospero, J. M. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: Aerosol variations and trends over different land and ocean regions during 1980-2009 are analyzed with the Goddard Chemistry Aerosol Radiation and Transport (GOCART) model and observations from multiple satellite sensors and ground-based networks. Excluding time periods with large volcanic influences, the tendency of aerosol optical depth (AOD) and surface concentration over polluted land regions is consistent with the anthropogenic emission changes.The largest reduction occurs over Europe, and regions in North America and Russia also exhibit reductions. On the other hand, East Asia and South Asia show AOD increases, although relatively large amount of natural aerosols in Asia makes the total changes less directly connected to the pollutant emission trends. Over major dust source regions, model analysis indicates that the dust emissions over the Sahara and Sahel respond mainly to the near-surface wind speed, but over Central Asia they are largely influenced by ground wetness. The decreasing dust trend in the tropical North Atlantic is most closely associated with the decrease of Sahel dust emission and increase of precipitation over the tropical North Atlantic, likely driven by the sea surface temperature increase. Despite significant regional trends, the model-calculated global annual average AOD shows little changes over land and ocean in the past three decades, because opposite trends in different regions cancel each other in the global average. This highlights the need for regional-scale aerosol assessment, as the global average value conceals regional changes, and thus is not sufficient for assessing changes in aerosol loading.

Keywords: Earth Resources and Remote Sensing; Environment Pollution

Type: GSFC-E-DAA-TN10264 , GSFC-E-DAA-TN16332 , Atmospheric Chemistry and Physics; 14; 3657-3690

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