Applications of the Principles of Seismic Geomorphology to Continental-slope and Base-of-slope Systems: Case studies from seafloor and near-seafloor analogues

Prather, Bradford E.; Deptuck, Mark E.; Mohrig, David; Van Hoorn, Berend; Wynn, Russell B., eds. 2012 Applications of the Principles of Seismic Geomorphology to Continental-slope and Base-of-slope Systems: Case studies from seafloor and near-seafloor analogues. Tulsa, OK, SEPM Society for Sedimentary Geology, 390pp. (SEPM Special Publication, 99).

Full text not available from this repository.

Abstract/Summary

Description Applications of the Principles of Seismic Geomorphology to Continental-slope and Base-of-slope Systems: Case studies from seafloor and near-seafloor analogues. The study of near-seafloor deepwater landscapes and the processes that form them are as important to the understanding of deeply buried marine depositional systems as the study of modern fluvial environments is to our understanding of ancient terrestrial depositional systems. In fact, these near-seafloor studies follow in the great tradition established by earlier clastic sedimentologists in the use of modern systems to understand ancient environments. The acquisition and mapping of exploration 3D seismic surveys over the last few decades allows for the study of seafloor geomorphology with a spatial resolution comparable to most deepwater multibeam bathymetric tools, and represents a significant advancement that can be used to push forward general understanding of slope and base-of-slope depositional systems through the application of the emerging science of seismic geomorphology. The papers assembled for this volume demonstrate the utility of seafloor-to-shallow subsurface data sets in studying the development of submarine landscapes and their affiliated sedimentary deposits. These contributions highlight the controls of slope morphology on patterns of both sedimentation and erosion. Many of the papers also highlight the influence of pre-existing seafloor relief on confining sediment-gravity flows specific transport pathways, thereby affecting subsequent evolution of the seafloor. The understanding of depositional processes that comes from studying deepwater analogue systems remains the best way take to knowledge from one basin or system and apply confidently to another for prediction and characterization of reservoirs for exploration and production of hydrocarbons.

Item Type:	Publication - Book
Programmes:	NOC Programmes > Marine Geoscience
Additional Keywords:	Turbidity current gravity flow channel deep-water slope gradient Morocco
Date made live:	05 Apr 2013 14:17 +0 (UTC)
URI:	https://nora.nerc.ac.uk/id/eprint/500873

Item Type:

Publication - Book

Programmes:

NOC Programmes > Marine Geoscience

Additional Keywords:

Turbidity current gravity flow channel deep-water slope gradient Morocco

Date made live:

05 Apr 2013 14:17 +0 (UTC)

URI:

https://nora.nerc.ac.uk/id/eprint/500873