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Recent transfer of coastal sediments to the Laurentian Channel,Lower St. Lawrence Estuary (Eastern Canada), through submarine canyon and fan systems
Authors:Hubert Gagné  Patrick Lajeunesse  Guillaume St-Onge  Andrée Bolduc
Affiliation:(1) Centre d’études nordiques & Département de géographie, Université Laval, Québec, QC, G1V 0A6, Canada;(2) Institut des sciences de la mer de Rimouski (ISMER), Université du Québec à Rimouski (UQAR) & GEOTOP Research Centre, 310 Allée des Ursulines, Rimouski, QC G5L 3A1, Canada;(3) Commission géologique du Canada–Québec, Ressources Naturelles Canada, 490 Rue de la Couronne, Québec, QC, G1K 9A9, Canada
Abstract:Multibeam sonar data, acoustic sub-bottom profiles and box cores were used to study the activity of submarine canyons and fans near the city of Les Escoumins, on the North Shore of the Lower St. Lawrence Estuary (Eastern Canada). The multibeam data were used to generate a high-resolution digital terrain model that reveals the presence of a large number of canyons and fans along the northern slopes of the Laurentian Channel. This paper focuses on two of the larger canyons, and their associated submarine fans. The sub-bottom profiles on the fans reveal high-amplitude reflections at the sediment/water interface and near the seafloor surface, indicating the occurrence of layers of coarse material. A turbidite was observed in a box core sampled in one of the fans, confirming the nature of the coarse layer. Geophysical and sedimentological data indicate that the canyons and fans play an important role in transferring coastal sandy sediments to the deeper marine environments by longshore drift-initiated turbidity flows, and thereby contribute to the negative sediment budget along the coast. The morphology of the canyons indicates that they were produced by a combination of erosive turbidity flows and retrogressive failures. The two box cores sampled on the fans reveal a recent (~last 60 years) quasi-exponential increase in sand content near the surface of the cores, possibly reflecting recent deforestation and/or increased coastal erosion.
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