Mass-particle size distributions of atmospheric dust and the dry deposition of dust to the remote ocean
Size‐separated mineral aerosol samples were collected and analyzed to investigate the relationships between the mass‐particle size distributions (MSDs) of dust particles and the dust loadings in the atmosphere. The data also were used to assess the changes in the MSDs of dust in relation to transpor...
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Veröffentlicht in: | Journal of Geophysical Research, Washington, DC Washington, DC, 1997-07, Vol.102 (D13), p.15867-15874 |
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Sprache: | eng |
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Zusammenfassung: | Size‐separated mineral aerosol samples were collected and analyzed to investigate the relationships between the mass‐particle size distributions (MSDs) of dust particles and the dust loadings in the atmosphere. The data also were used to assess the changes in the MSDs of dust in relation to transport processes and especially the associated effects on dry deposition. Atmospheric dust concentrations, as indicated by aluminum or scandium, in samples collected from three sites in the remote North Atlantic were higher than those in samples collected during a cruise in the North Pacific on board the R/V Moana Wave. However, the mass median diameters (MMDs) for the North Pacific samples were both larger on average (∼3 μm versus ∼2 μm aerodynamic equivalent diameter) and more variable than those from the North Atlantic; this difference was attributed to wet conditions and particle aggregation over the North Pacific. In addition, for the ensemble of all samples the geometric standard deviations of the mass‐particle size distributions, which are analogous to the sorting values used to characterize sedimentary materials, tended to vary inversely and nonlinearly with the mass median diameters. Model‐derived dry deposition velocities for the samples were at most weakly related to either the dust concentrations or the MMDs. However, the dry deposition velocities for two subsets of samples were correlated with the geometric standard deviations of the distributions; this is further evidence that the mass flux of dust via dry deposition can be controlled by a relatively small fraction of aerodynamically large particles. |
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ISSN: | 0148-0227 2156-2202 |
DOI: | 10.1029/97JD00796 |