The Role of Deep-Water Sedimentary Processes in Shaping a Continental Margin: The Northwest Atlantic
Title | The Role of Deep-Water Sedimentary Processes in Shaping a Continental Margin: The Northwest Atlantic |
Publication Type | Journal Article |
Year | 2017 |
Authors | Mosher, DC, Campbell, DC, Gardner, JV, Chaytor, JD, Rebesco, M |
Journal | Marine Geology |
Volume | 393 |
Pages | 245-259 |
Date Published | November 1 |
Publisher | Elsevier |
Keywords | contourites, deep-water, geomorphology, geostrophic current, mass-transport deposits, mtd, northwest atlantic margin, turbidites |
The tectonic history of a margin dictates its general shape; however, its geomorphology is generally transformed by deep-sea sedimentary processes. The objective of this study is to show the influences of turbidity currents, contour currents and sediment mass failures on the geomorphology of the deep-water northwestern Atlantic margin (NWAM) between Blake Ridge and Hudson Trough, spanning about 32° of latitude and the shelf edge to the abyssal plain. This assessment is based on new multibeam echosounder data, global bathymetric models and sub-surface geophysical information. The deep-water NWAM is divided into four broad geomorphologic classifications based on their bathymetric shape: graded, above-grade, stepped and out-of-grade. These shapes were created as a function of the balance between sediment accumulation and removal that in turn were related to sedimentary processes and slope accommodation. This descriptive method of classifying continental margins, while being non-interpretative, is more informative than the conventional continental shelf, slope and rise classification, and better facilitates interpretation concerning dominant sedimentary processes. Areas of the margin dominated by turbidity currents and slope by-pass developed graded slopes. If sediments did not by-pass the slope due to accommodation then an above grade or stepped slope resulted. Geostrophic currents created sedimentary bodies of a variety of forms and positions along the NWAM. Detached drifts form linear, above-grade slopes along their crests from the shelf edge to the deep basin. Plastered drifts formed stepped slope profiles. Sediment mass failure has had a variety of consequences on the margin morphology; large mass-failures created out-of-grade profiles, whereas smaller mass failures tended to remain on the slope | |
Publication Link | http://www.sciencedirect.com/science/article/pii/S0025322717304073 |
DOI | 10.1016/j.margeo.2017.08.018 |
Refereed Designation | Refereed |