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- Dust – A geology-orientated attempt to reappraise the natural components, amounts, inputs to sediment, and importance for correlation purposes
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Dust – A geology-orientated attempt to reappraise the natural components, amounts, inputs to sediment, and importance for correlation purposes
Abstract
The paper deals with the recent and present-day natural components of the dust inputs to sediments, and aims to attract the attention of geologists to atmospherically mediated teleconnections among basins across the globe. Similar components as today can also be expected to exist in the pre-human history of the Earth, with capability to affect the quantity and quality of non-carbonate phases in limestones. However, a significant part of atmospheric dust sedimentation is not sufficiently covered by standard measurements. Owing to air quality regulations, most of the present research is conducted to understand the emissions and atmospheric load of PM10, and a lesser number of studies map the possible transport of coarser natural particulate matter over the large distances. With respect to the studied particle sizes and methods of their determination, the present-day aerosol science and geological approach, focused on measured sedimentation or input to sediment, show practically no overlap. We report the first evidence (or at least a well-reasoned hypothesis) that the low numbers of frequently occurring large particles, e.g. with 50-m de or larger, must always represent a substantial mass added to mineral dust budgets. These rare and bulky particles are either transported with the super-storm dust plumes in the troposphere, or with the jet streams near the tropopause. From the geological point of view, it is important to consider all sizes of mineral-lithic particles or grains, particularly from the silt to fine-sand sizes (i.e., 4–250 m). In atmospheric physics, only the total suspended particulates (TSP) are a partial and often unreliable counterpart. This subject is especially worth of exploring although the emerging discipline, combining the estimates of the total burden of atmosphere by every classes of the natural solid particles and their measurable ‘final sedimentary inputs’, is still encumbered with much imprecision, and the reported results are more concerned with the principles and rough estimates than all variants of calculations. Classifying the components by their sources, this attempt suggests that the ideal mean airborne inputs to the sediments on the present-day Earth are approximately as follows (g/m2/yr): terrestrial weathering ≈ 3.3; volcanic ash ≈ 0.3; biotic ≈ 0.5; cosmogenic ≈ 0.0002; wildfires ≈ 0.3; solids with ultra fine secondary aerosols ≈ 0.02, giving a total of ≈ 4.4. Therefore, a mean (ideal) input of the natural dust to the present (and possibly also Holocene) sediments of about 4–5 g/m2/yr should be considered. Naturally, the real inputs vary geographically to a large extent (± a few orders of magnitude).
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About: Jindrich HLADIL
Institute of Geology AS CR, v.v.i., Rozvojova 269, 165 00 Praha 6, Czech Republic. E-mail: hladil@gli.cas.cz
About: Petr CEJCHAN
Institute of Geology AS CR, v.v.i., Rozvojova 269, 165 00 Praha 6, Czech Republic
About: Ondřej BÁBEK
Department of Geological Sciences, Masaryk University, Kotlarska 2, 61137 Brno, Czech Republic
About: Leona KOPTIKOVA
Institute of Geology AS CR, v.v.i., Rozvojova 269, 165 00 Praha 6, Czech Republic
About: Tomas NAVRATIL
Institute of Geology AS CR, v.v.i., Rozvojova 269, 165 00 Praha 6, Czech Republic
About: Petra KUBINOVA
Institute of Geology AS CR, v.v.i., Rozvojova 269, 165 00 Praha 6, Czech Republic