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Particle fluxes in submarine canyons along a sediment-starved continental margin and in the adjacent open slope and basin in the SW Mediterranean Sea
•The continental margin off SE Spain is sediment-starved and submarine canyons incised into itshow low particle fluxes.•Off-shelf particle export followingoccasional river dischargeis determined by storms and modulated by oceanographic conditions.•Canyon head incision and distance to the shoreline p...
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Published in: | Progress in oceanography 2022-04, Vol.203, p.102783, Article 102783 |
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Main Authors: | , , , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | •The continental margin off SE Spain is sediment-starved and submarine canyons incised into itshow low particle fluxes.•Off-shelf particle export followingoccasional river dischargeis determined by storms and modulated by oceanographic conditions.•Canyon head incision and distance to the shoreline play a key role in particle trapping capability by submarine canyons.•Bottom trawling impacts particle fluxes in some of the investigated canyons (i.e. the Garrucha-Almanzora Canyon System).•Few terrestrial-sourced particles reach the deep basin off the Gulf of Vera.
Investigating the transfer of particulate matter from the continental shelf to the deep basin is critical to understand the functioning of deep sea ecosystems. In this paper we present novel results on the temporal variability of particle fluxes to the deep in three physiographic domains of a 240 km long margin segment and nearby basin off Murcia and Almeria provinces in the SW Mediterranean Sea, which are submarine canyons forming a rather diverse set (namely Escombreras, Garrucha-Almanzora and Almeria), the adjacent open slope and the deep basin.
This margin is located off one of the driest regions in Europe and, therefore, its study may help understanding how mainland aridity translates into the export of particles to deep margin environments. Five mooring lines equipped with currentmeters, turbidity-meters and sediment traps were deployed for one entire annual cycle, from March 2015 to March 2016. We combine oceanographic, hydrological and meteorological data with grain size and bulk elemental data (organic carbon, opal, CaCO3, lithogenic) from the collected sinking particles to understand what drives particle transfers in such an under-studied setting, and to quantify the resulting fluxes and assess their spatio-temporal variability.
Weighted total mass fluxes in canyons range from 1.64 g m−2 d−1 in Almeria Canyon to 7.33 g m−2 d−1 in Garrucha-Almanzora Canyon system, which are rather low values compared to other submarine canyons in the Western Mediterranean Sea. This results from the absence of extreme wind-storm events during the investigated time period combined with the reduced sediment input to the inner shelf by river systems in the study area. Our results also show that wind-storms are the main trigger for off-shelf particle transport to the deep margin, both within submarine canyons and over the open slope. The most significant transfer period is associated to a set of north-eastern sto |
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ISSN: | 0079-6611 1873-4472 |
DOI: | 10.1016/j.pocean.2022.102783 |