Sediment routing from shelf to basin floor in the Quaternary Golo System of Eastern Corsica, France, western Mediterranean Sea

Type Article
Date 2020-05
Language English
Author(s) Sweet Michael L.1, Gaillot Gwladys T.2, Jouet Gwenael3, Rittenour Tammy M.4, Toucanne SamuelORCID3, Marsset TaniaORCID3, Blum Michael D.5
Affiliation(s) 1 : ExxonMobil Upstream Research Company, 22777 Springwoods Village Parkway, Spring, Texas 77389, USA
2 : ExxonMobil Upstream Business Development Company, USA
3 : Institute Français de Recherche L'Exploitation de la Mer, Géosciences Marines, F-29280 Plouzané, France
4 : Department of Geology, Utah State University, 4505 Old Main Hall, Logan, Utah 84322, USA
5 : Department of Geology, 1475 Jayhawk Blvd., University of Kansas, Kansas 66045, USA
Source Geological Society Of America Bulletin (0016-7606) (Geological Society of America), 2020-05 , Vol. 132 , N. 5-6 , P. 1217-1234
DOI 10.1130/B35181.1
WOS© Times Cited 18

How and when sediment moves from shallow marine to deep-water environments is an important and poorly understood control on basin-scale sediment dispersal patterns, the evolution of continental margins, and hydrocarbon exploration in deep-water basins. The Golo River (Eastern Corsica, France), its delta, canyons, and fans provide a unique opportunity to study sediment routing from source to sink in a relatively compact depositional system. We studied this system using an array of high-frequency seismic data, multi-beam bathymetry, and five cores for lithology and age control. Movement of sediment to deep water was controlled by interactions between the Golo River, the Golo Delta, and shelf-penetrating submarine canyons. Sediment moved to deep water when lobes of the Golo Delta prograded to the heads of these canyons, or when the Golo River itself flowed directly into one of them. Sand accumulated in canyons, deep-water channels, and submarine fans during glacial periods of low sea level, while mud was deposited throughout the slope, in the relatively short reach of leveed-confined channels, and in the mud-rich fringes around the sandy fans. During interglacial periods of high sea level, the basin was blanketed by mud-rich deposits up to 10 m thick interbedded with distinctive carbonate-rich sediments. Deposition rates in the basin ranged from 0.07 m/ka to 0.59 m/ka over the last 450 ka. Mud deposition rates remained relatively constant at ¡«0.16 m/ka during all time periods, while sand deposition only happened during glacial periods of low sea level with an average rate of 0.24 m/ka. In addition to sea-level controls on sediment delivery, avulsions of the Golo River and its deltaic lobes preferentially routed sediment down either the North or South Golo canyons. Thus, while the larger, sequencescale architecture of the basin is controlled by allogenic sea level forcing, millennial-scale autogenic processes operating on the shelf and in deep water shaped the distribution of sand and mud, and the internal geometry of the deltas and submarine fans that they fed. While some aspects of the Golo system are characteristic of steep, tectonically active margins, others such as the nature of connections between rivers and shelf-penetrating submarine canyons are observed in most margins with active submarine fans regardless of their tectonic setting.

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Sweet Michael L., Gaillot Gwladys T., Jouet Gwenael, Rittenour Tammy M., Toucanne Samuel, Marsset Tania, Blum Michael D. (2020). Sediment routing from shelf to basin floor in the Quaternary Golo System of Eastern Corsica, France, western Mediterranean Sea. Geological Society Of America Bulletin, 132(5-6), 1217-1234. Publisher's official version : , Open Access version :