Research

Quantitative textural analyses of TOBI sonar imagery along the Almería Canyon, Almería Margin, Alborán Sea, SE Spain


Reference:

Gomez Sichi, O., Blondel, P., Gracia, E. and Danobeitia, J., 2005. Quantitative textural analyses of TOBI sonar imagery along the Almería Canyon, Almería Margin, Alborán Sea, SE Spain. In: Hodgson, D. and Flint, S., eds. Submarine Slope Systems: Processes and Products. Vol. 244. London: Geological Society Publishing, 141--154.

Related documents:

This repository does not currently have the full-text of this item.
You may be able to access a copy if URLs are provided below.

Abstract

Hydrocarbon exploration and the ongoing assessment of potential seismic risks are the main drivers behind the high-resolution mapping of continental margins. The large volume of literature devoted to turbidite systems in particular shows the importance of detailed descriptions of their characteristics and overall geomorphological variability, primarily through the distribution of sediment facies. These descriptions rely mainly on acoustic measurements, which are notoriously difficult to interpret. Textural analyses quantify the second-order statistics of sonar imagery, detecting and quantifying details invisible to the human eye. We show the potential (and limitations) of this approach using high-resolution (6m) Towed Ocean Bottom Instrument (TOBI) sidescan sonar imagery acquired in the Alboran Sea, south of Almeria, Spain during the High-resolution Imaging of Tsunamigenic Structures (HITS) 2001 programme. The imagery is co-registered with EM-12 multibeam bathymetry, topographic parametric sonar (TOPAS) sub-bottom profiles, and localized ground-truthing. Our study focuses on the Almeria Canyon, a meandering channel system more than 57 km long and transporting large amounts of sediments from the coast down to the Alboran Trough, c. 1700 m deep. Textural analyses quantify the variations of sediment processes along the slope of the Almeria Canyon. They agree with the results of previous studies, and they can be used to provide new insights into the dynamics and evolution of the canyon.

Details

Item Type Book Sections
CreatorsGomez Sichi, O., Blondel, P., Gracia, E. and Danobeitia, J.
EditorsHodgson, D.and Flint, S.
DepartmentsFaculty of Science > Physics
StatusPublished
ID Code8872

Export

Actions (login required)

View Item