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Lindhorst, Sebastian (2018): Grain-size data of sediment core GeoHH-M95-524 (Santaren Channel, Bahamas) [dataset publication series]. PANGAEA, https://doi.org/10.1594/PANGAEA.896132, Supplement to: Lindhorst, Sebastian; Betzler, Christian; Wunsch, Marco; Lüdmann, Thomas; Kuhn, Gerhard (2019): Carbonate drifts as marine archives of aeolian dust (Santaren Channel, Bahamas). Sedimentology, https://doi.org/10.1111/sed.12576

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Abstract:
Sediment data from the Bahamian Santaren carbonate drift reveal the variability of trans-Atlantic Saharan dust transport back to about 100 ka BP (MIS 5.3) and demonstrate that carbonate drifts are a valuable pelagic archive of aeolian dust flux. Carbonate drift bodies are common around tropical carbonate platforms. They represent large-scale accumulations of ocean-current transported material, which originates from the adjacent shallow-water carbonate factory as well as from pelagic production, i.e. periplatform ooze. Subordinately, there is a clay- to silt-size non-carbonate fraction, which typically amounts to less than 10 % of the sediment volume and originates from aeolian and fluvial input. Sedimentation rates in the 5.42 m long core GeoHH-M95-524 recovered 25 km west of Great Bahama Bank in the Santaren Channel ranges from 1.5 to 24.5 cm ka-1 with lowest values during the last glacial lowstand and highest values following platform re-flooding around 8 ka BP. These sedimentation rates imply that carbonate drifts have not only the potential to resolve long-term environmental changes on orbital time scales, but also millennial to centennial fluctuations during interglacials. The sediment core has been investigated aiming on characterizing the lithogenic dust fraction. Laboratory analyses included XRF core scanning, determination of carbonate content, grain-size analyses (of bulk and terrigenous fraction), as well as visual inspections of the lithogenic residue; the age model is based on oxygen isotopes and radiocarbon ages. Data show that the input of aeolian dust in the periplatform ooze as indicated by Ti/Al and Fe/Al element ratios abruptly increases at 57 ka BP, stays elevated during glacial times, and reaches a Holocene minimum around 6.5 ka BP, contemporary to the African Humid Period. Subsequently, there is a gradual increase in dust flux which almost reaches glacial levels during the last centuries. Grain-size data show that the majority of dust particles fall into the fine silt range (below 10 µm); however, there is a pronounced coarse dust fraction in the size range up to 63 µm and individual 'giant' dust particles are up to 515 µm large. Total dust flux and the relative amounts of fine and coarse dust are decoupled. The time-variable composition of the grain-size spectrum is interpreted to reflect different dust transport mechanisms: fine dust particles are delivered by the trade winds and the geostrophic winds of the Saharan Air Layer, whereas coarse dust particles travel with convective storm systems. This mode of transport ensures continuous re-suspension of large particles and results in a prolonged transport. In this context, grain-size data from the terrigenous fraction of carbonate drifts provide a measure for past coarse dust transport, and consequently for the frequency of convective storm systems over the dust source areas and the tropical Atlantic.
Coverage:
Latitude: 23.668833 * Longitude: -79.392667
Date/Time Start: 2013-04-06T23:08:00 * Date/Time End: 2013-04-06T23:08:00
Event(s):
M95_524-1 * Latitude: 23.668833 * Longitude: -79.392667 * Date/Time: 2013-04-06T23:08:00 * Elevation: -528.3 m * Location: Bahamas * Campaign: M95 (CICARB) * Basis: Meteor (1986) * Method/Device: Gravity corer (GC)
Size:
3 datasets

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