The implications for dust emission modeling of spatial and vertical variations in horizontal dust flux and particle size in the Bodélé Depression, Northern Chad

Adrian Chappell, Andrew Warren, Alice O'Donoghue, Andrea Robinson, Andrew Thomas, Charlie Bristow

    Research output: Contribution to journalArticlepeer-review

    Abstract

    The Bodélé Depression has been confirmed as the single largest source of atmospheric mineral dust on Earth. It is a distinctive source because of its large exposure of diatomite and the presence of mega-barchan dunes. Direct measurements of horizontal dust flux and particle size were made to investigate dust emission processes and for comparison with mechanisms of emission assumed in current dust models. More than 50 masts, with traps mounted on each, were located across and downwind of three barchans in 56 km2 study area of the eastern Bodélé. The size-distribution of surface material is bi-modal; there are many fine dust modes and a mixed mineralogy with a particle density three times smaller than quartz. Horizontal fluxes (up to 70 m above the playa) of particles, up to 1000 μm in diameter, are produced frequently from the accelerated flow over and around the barchans, even in below-threshold shear conditions on the diatomite playa. Our data on dust sizes do not conform to retrievals of dust size distributions from radiance measurements made in the same area. Dust emission models for the region may need to be revised to account for: saltators in the Bodélé, which are a mixture of quartz sand and diatomite flakes; the great spatial and vertical variation in the abundance, mass and density of dust and abraders; and the patterns of surface erodibility. All of these have important local effects on the vertical dust flux and its particle sizes. Copyright 2008 by the American Geophysical Union.
    Original languageEnglish
    Article numberD04214
    JournalJournal of Geophysical Research: Atmospheres
    Volume113
    Issue number4
    DOIs
    Publication statusPublished - 27 Feb 2008

    Keywords

    • AEOLIAN SEDIMENT TRANSPORT
    • WIND EROSION
    • SOURCE AREAS
    • AEROSOL
    • SOIL
    • SPECTROMETER

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