Particle fluxes and organic carbon balance across the Eastern Alboran Sea (SW Mediterranean Sea)

• Published in: Continental shelf research Vol. 25; no. 5; pp. 609 - 628
• Main Authors: Sanchez-Vidal, A., Calafat, A., Canals, M., Frigola, J., Fabres, J.
• Format: Journal Article
• Language: English
• Published: Elsevier Ltd 01.03.2005
• Subjects: Alboran sea; Almeria-Oran front; Export production; Marine; Organic carbon; Particulate flux; MED, Alboran Sea; MED, Western Mediterranean; MED, Eastern Mediterranean; Particulate flux; Organic carbon; Export production; Alboran sea; Almeria-Oran front
• ISSN: 0278-4343; 1873-6955
• DOI: 10.1016/j.csr.2004.11.004

As part of the “Mediterranean Targeted Project II—MAss Transfer and Ecosystem Response” (MTPII-MATER) EU-funded research project, particle flux data was obtained from three instrumented arrays moored along the 1°30′ W meridian in the Eastern Alboran Sea. The mooring lines were deployed over 11 months, from July 1997 to May 1998, and were equipped with sediment trap-current metre pairs at 500–700, 1000–1200 and 2000–2200 m of water depth. The settling material was analysed to obtain total mass, lithogenic, calcium carbonate, organic carbon and opal fluxes. Integrated analysis of sediment trap and current meter data with sea-surface satellite images reveals that particle flux distribution is a function of primary production, mid-water lateral advection and near bottom nepheloid input. The spreading to the east and to the south of phytoplankton-rich water from the upwelling off the Spanish coast is controlled by the position and size of the Western and Eastern Alboran gyres, and drives the seasonal arrival of biogenic material down to the sea floor. Discrete lateral advection events unrelated to vertical entries of material can also supply particulate matter at 1000–1200 and 2000–2200 m of water depth as noted at the northern and southern stations. To achieve a better understanding of the carbon cycle in the area we have attempted to constrain the production, transfer and burial of particulate organic carbon, providing the first estimates of particulate organic carbon export in the Alboran Sea. Results suggest that sea surface circulation and associated productivity signal control the efficiency of the biological pump in the area. The export production in the Eastern Alboran Sea is higher than in other Mediterranean sites, with 0.5–0.9% of the carbon fixed during photosynthesis transferred down the water column and buried in the deep sediments. In addition, a large portion is supplied by lateral advection and through a benthic nepheloid layer, which represent a significant source of organic carbon to the deep Eastern Alboran Sea.