Abstract
The Djibouti Ville Drift is part of a contourite depositional system located on the southern side of the Djibouti Ville Seamount in the Alboran Sea (Western Mediterranean). The sedimentary record of a core located in the drift deposits has been characterized to achieve the possible sediment sources for the Saharan dust supply and the paleocurrent variability related to Mediterranean intermediate waters for the last 133 kyr. Three end-member grain-size distributions characterize the sediment record transported by the bottom current to address the different aeolian populations, i.e., coarse EM1, silty EM2, and fine EM3. For these particles, the most likely source areas are the Saharan sedimentary basins and deserts, as well as the cratonic basins of the Sahara-Sahel Dust Corridor. The prevalence of these main source areas is shown in the core record, where a noticeable change occurs during the MIS 5 to MIS 4 transition. Some punctual sediment inputs from the seamount have been recognized during sea-level lowstand, but there is no evidence of fluvial supply in the drift deposits. The paleocurrent reconstruction allows the characterizing of the stadial and cold periods by large increases in the mean sortable silt fraction and UP10, which point to an enhanced bottom current strength related to intermediate water masses. Conversely, interglacial periods are characterized by weaker bottom current activity, which is associated with denser deep water masses. These proxies also recorded the intensified Saharan wind transport that occurred during interstadial/stadial transitions. All these results point to the importance of combining sediment source areas with major climatic oscillations and paleocurrent variability in palaeoceanographic sedimentary archives, which may help to develop future climate prediction models.
Highlights
Marine sediments are key for paleoenvironmental studies because they contain some unique clues to understand the poorly known mechanisms driving palaeoceanographic and related paleoclimateGeosciences 2019, 9, 345; doi:10.3390/geosciences9080345 www.mdpi.com/journal/geosciencesGeosciences 2019, 9, 345 changes
The interface with the water mass underneath can be identified in the T–S diagrams by a drop in T, as the WIW has a temperature of 12.9–13 ◦ C and a salinity of
We tentatively suggest that the lack of sediment from fluvial origin could be related to the interplay of the following two facts: (i) The relatively isolated position of the seamount and related drift that are separated from the Spanish proximal continental margin by an intraslope basin and from the Moroccan margin by deep sea basin plains; and ii) the alongslope piracy of the fluvial sediments when arriving to the sea by the Atlantic and Mediterranean waters [77]
Summary
Marine sediments are key for paleoenvironmental studies because they contain some unique clues to understand the poorly known mechanisms driving palaeoceanographic and related paleoclimateGeosciences 2019, 9, 345; doi:10.3390/geosciences9080345 www.mdpi.com/journal/geosciencesGeosciences 2019, 9, 345 changes. Contourites (i.e., sediments deposited or significantly reworked by persistent bottom currents [1,2] and references therein) are considered to be pivotal features to help understand those changes, because their sedimentary records provide elements to deduce the role of bottom water circulation in transporting the sediment coming from the continent and in seafloor shaping These deposits are usually characterized by high accumulation rates [3] and provide high resolution records for palaeoceanographic and climate (environmental) reconstructions [1,2,4,5,6,7,8]. Many studies have addressed the deep water paleocurrent variability related to climatic conditions in the western Mediterranean Sea [9,10,11,12,13,14], but there is very little information about the intermediate water masses response during the last climatic cycle [15,16]
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