Variability of aerosol vertical distribution in the Sahel

Cavalieri, Olga; Cairo, F.; Fierli, F.; Donfrancesco, G. Di; Snels, Marcel; Viterbini, M.; Cardillo, F.; Chatenet, B.; Formenti, Paola; Marticorena, Béatrice; Rajot, Jean-Louis

doi:10.5194/acp-10-12005-2010

Cited by 43 publications

(33 citation statements)

References 52 publications

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“…The lowermost extent of the dust plumes above the boundary layer varies between 1.5 and 2 km, whereas the uppermost extent was found to be remarkably constant at 5 km. The vertical extent, but also the structural and temporal variability of the dust vertical profiles is in agreement with summertime observations by various authors Carlson and Prospero, 1972;Karyampudi et al, 1999;Formenti et al, 2003;Reid et al, 2002;McConnell et al, 2008;Tesche et al, 2009;Léon et al, 2009;Ben-Ami et al, 2009;Cavalieri et al, 2010). In particular, our data show the day-to-day variability of the dust vertical profile, in good agreement, albeit with lower statistical representation, with the long-time series of lidar data presented by Léon et al (2009) andCavalieri et al (2010).…”

Section: Discussionsupporting

confidence: 80%

“…Layers of very low concentrations decreasing monotonically with height were also observed (profiles during flights V024, V027 and V035). Such diversity is consistent with the climatology of aerosol profiles in the area proposed by Cavalieri et al (2010) based on ground-based and spaceborne lidar observations. Over land, the aerosol layers were always spectrally neutral, indicating than mineral dust dominated the aerosol load.…”

Section: Aerosol Vertical Profilessupporting

confidence: 70%

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Airborne observations of mineral dust over western Africa in the summer Monsoon season: spatial and vertical variability of physico-chemical and optical properties

Formenti

Rajot²,

Desboeufs³

et al. 2011

Atmos. Chem. Phys.

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Abstract. We performed airborne measurements of aerosol particle concentration, composition, size distribution and optical properties over Western Africa in the corridor 2-17 • N and 3-5 • E. Data were collected on board the French ATR-42 research aircraft in June-July 2006 as part of the African Monsoon Multidisciplinary Analysis (AMMA) intensive field phases in June-July 2006 using the AVIRAD airborne aerosol sampling system.The aerosol vertical distribution was documented on an almost daily basis. In particular, the vertical distribution of mineral dust emitted locally by Mesoscale Convective Systems (MSC) was distinguished from that of mineral dust that was transported from the Saharan by the African Easterly Jet (AEJ). Mineral dust emitted in the Sahel by convectiondriven erosion was mostly confined in the boundary layer. One episode of injection of Sahelian mineral dust in the AEJ was observed. The elemental composition was found to be an element of difference between episodes, whereas the volume size distribution was more uniform.For non-mixed dust, the single scattering albedo ranged between 0.88-0.93 at 370 nm and between 0.91-0.99 at 950 nm, lower values being observed for Sahelian dust. In correspondence, the imaginary part of the complex refractive index varied between 0.002-0.004 at 370 nm and between 0.001-0.002 at 950 nm.

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Section: Discussionsupporting

confidence: 80%

Section: Aerosol Vertical Profilessupporting

confidence: 70%

Airborne observations of mineral dust over western Africa in the summer Monsoon season: spatial and vertical variability of physico-chemical and optical properties

Formenti

Rajot²,

Desboeufs³

et al. 2011

Atmos. Chem. Phys.

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“…The mix of layers of desert aerosol and other types of aerosols (i.e., biomass burning) is very rare (Chou et al, 2008;Heese and Wiegner, 2008) in our region of interest. During the dry season, mineral aerosols are observed in the atmospheric surface layer ranging 0.5 to 1 km while the aerosols emitted through biomass burning are carried to higher levels, up to 5 km altitude (Cavalieri et al, 2010). Nevertheless, classification errors are possible for low values of the mineral dust occurrence frequency (MDOF) and at frontal zones between layers of different substances (Adams et al, 2012).…”

Section: Cloud Aerosol Lidar and Infrared Pathfinder Satellite Observmentioning

confidence: 99%

Seasonal cycle of desert aerosols in western Africa: analysis of the coastal transition with passive and active sensors

et al. 2017

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“…The data has to be treated with particular caution due to its weak sensitivity to boundary layer aerosol owing to high desert surface reflectivity (Martin, 2008;Badarinath et al, 2010), or cloud contamination (Hsu et al, 1999). OMI also tends to indicate heavy biomass burning in the Sahel (Basart et al, 2009;Cavalieri et al, 2010) and it may overestimate the winter AOD relative to MISR and MODIS (Ahn et al, 2008;Zhao et al, 2010).…”

Section: Satellite Remote Sensing Products and Datamentioning

confidence: 99%

Atmospheric dust modeling from meso to global scales with the online NMMB/BSC-Dust model – Part 2: Experimental campaigns in Northern Africa

et al. 2012

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Abstract.The new NMMB/BSC-Dust model is intended to provide short to medium-range weather and dust forecasts from regional to global scales. It is an online model in which the dust aerosol dynamics and physics are solved at each model time step. The companion paper (Pérez et al., 2011) develops the dust model parameterizations and provides daily to annual evaluations of the model for its global and regional configurations. Modeled aerosol optical depth (AOD) was evaluated against AERONET Sun photometers over Northern Africa, Middle East and Europe with correlations around 0.6-0.7 on average without dust data assimilation. In this paper we analyze in detail the behavior of the model using data from the Saharan Mineral dUst experiment (SAMUM-1) in 2006 and the Bodélé Dust Experiment (BoDEx) in 2005. AOD from satellites and Sun photometers, vertically resolved extinction coefficients from lidars and particle size distributions at the ground and in the troposphere are used, complemented by wind profile data and surface meteorological measurements. All simulations were performed at the regional scale for the Northern African domain at the expected operational horizontal resolution of 25 km. Model results for SAMUM-1 generally show good agreement with satellite data over the most active Saharan dust sources. The model reproduces the AOD from Sun photometers close to sources and after long-range transport, and the dust size spectra at different height levels. At this resolution, the model is not able to reproduce a large haboob that occurred during the campaign. Some deficiencies are found concerning the vertical dust distribution related to the representation of the mixing height in the atmospheric Published by Copernicus Publications on behalf of the European Geosciences Union. K. Haustein et al.: NMMB/BSC-Dust Regional test casespart of the model. For the BoDEx episode, we found the diurnal temperature cycle to be strongly dependant on the soil moisture, which is underestimated in the NCEP analysis used for model initialization. The low level jet (LLJ) and the dust AOD over the Bodélé are well reproduced. The remaining negative AOD bias (due to underestimated surface wind speeds) can be substantially reduced by decreasing the threshold friction velocity in the model.

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Variability of aerosol vertical distribution in the Sahel

Cited by 43 publications

References 52 publications

Airborne observations of mineral dust over western Africa in the summer Monsoon season: spatial and vertical variability of physico-chemical and optical properties

Airborne observations of mineral dust over western Africa in the summer Monsoon season: spatial and vertical variability of physico-chemical and optical properties

Seasonal cycle of desert aerosols in western Africa: analysis of the coastal transition with passive and active sensors

Atmospheric dust modeling from meso to global scales with the online NMMB/BSC-Dust model – Part 2: Experimental campaigns in Northern Africa

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