Sedimentology of box cores from the Cap-Ferret Canyon area (Bay of Biscay)

Abstract

Sedimentological and geochemical investigations of 45 box cores collected in various morphological settings of the Cap-Ferret Canyon (Bay of Biscay) are presented to document accurately present-day sedimentary processes on the eastern Atlantic continental slope. The magnitude and variations through time and space of the canyon's channelling or sinking effect on fine-grained particles behaviour in comparison with sediment flux across the continental margin was particularly considered and discussed: 1. All the parameters (grain-size, carbonate and water content, major and trace elements), measured both in surface sediment and downcore, demonstrate that the characteristics at the sediment interface vary with water depth and with the morphological setting. 2. Surface sediment is generally coarser-grained, more terrigenous and deposited at higher rate in the canyon than outside. The terrigenous particle supply must be preferentially directed and trapped within the canyon's depression due to present-day dynamic conditions. 3. The downcore gradients reflected in grain-size variations yield information on settling processes. The coarse-grained population has the characteristics of a winnowed sediment similar to those on the outer shelf, while the fine-grained population has grain-size spectra very similar to the present-day fine-grained suspensions. 4. The carbonate particles are partly derived from direct pelagic production (distinct grain-size distribution) and, like terrigenous grains, are partly reworked (similar downslope decrease in the coarse grained fraction). The relatively low CaCO 3 content observed in the canyon, and its downward increase up to values observed at shallower depths, may result from a channelling of terrigenous suspensions within the canyon. 5. At the present high sea-level stand, the canyon should become a trap for sediments without much gravity remobilisation, as indicated by a lack of sedimentary structures in box cores. However, a simple increase in sediment trapping can hardly account for the downcore gradients observed in the box cores. These trends, which are observed on other continental margins ( Monaco et al., 1993, Journées spécialisées de la Soc. Géol. France: Géosciences Marines, 16–17 December 1994, Abstract p. 83.), indicate a probable increase in terrigenous supplies and/or in settling energy.