Litcius/Paper detail

The stratigraphic evolution of a submarine channel: linking seafloor dynamics to depositional products

Stephen M. Hubbard, Zane Jobe, Brian W. Romans, Jacob A. Covault, Zoltán Sylvester, Andrea Fildani

2020Journal of Sedimentary Research43 citationsDOIOpen Access PDF

Abstract

ABSTRACT We investigate the relationship between the cross-sectional geomorphic expression of a submarine channel as observed on the seafloor and the stratigraphic product of long-lived erosion, bypass, and sediment deposition. Specifically, by reconstructing the time–space evolution of an individual channel fill (i.e., channel element) exposed in outcrop, we establish a genetic link between thick-bedded channel-element-axis sandstone to thinly interbedded channel-element-margin deposits. Although the bounding surface between axis sandstone and margin thin beds is sharply defined, it is composed of a series of geomorphic surface segments of various ages; as such, the composite stratigraphic surface (∼ 17 m relief) was formed from numerous incision events that repeatedly sculpted the conduit. By demonstrating the origin of the stratigraphic surface, we conclude that geomorphic surfaces with 2–7 m of erosional relief were largely responsible for the observed intra-channel-element architecture (and ultimately, the composite 17-m-thick element). The widely documented channel element axis-to-margin architecture is a product of submarine-channel thalweg dynamics, primarily recording interactions between the seafloor and the basal high-concentration layers of channelized turbidity currents.

Topics & Concepts

GeologySedimentary depositional environmentSeafloor spreadingOutcropChannel (broadcasting)Turbidity currentChannelizedSubmarineGeomorphologyDeposition (geology)BedformPaleontologyPetrologySedimentStructural basinSediment transportOceanographyTelecommunicationsComputer scienceEngineeringElectrical engineeringGeological formations and processesGeology and Paleoclimatology ResearchUnderwater Acoustics Research