Microtopographical roughness of shallow-water continental shelves

Author

Briggs, Kevin B.

Author_Institution

US Naval Ocean Res. & Dev. Activity, Stennis Space Center, MS, USA

Volume

14

Issue

4

fYear

1989

fDate

10/1/1989 12:00:00 AM

Firstpage

360

Lastpage

367

Abstract

High-resolution (<1 cm) roughness height measurements were made of the seafloor at seven locations on continental-shelf sediments on water depths ranging from 18 to 50 m. Roughness profiles of the sediment-water interface were digitized primarily from stereo photogrammetric measurements of varying pathlengths and increments. The data show that the root-mean-square roughness height varies from 0.3 cm for flat, featureless bottoms to 2.3 cm for rippled bottoms. Slopes of the roughness power spectra were calculated to be -1.5 to near -3.0 and depended to a large extent on contributions in higher spatial frequencies due to coarse sediments. Correlation lengths of different bottom types were estimated by using the Weiner-Khintchine theorem and examining the low-frequency behavior of the roughness spectra derived from the longest roughness profiles

Keywords

bathymetry; geophysical techniques; oceanographic techniques; photogrammetry; sediments; Weiner-Khintchine theorem; bathymetry; coast; continental shelf; marine sediment; measurement; microtopographical roughness; rippled bottoms; seafloor topography; sediment-water interface; shallow-water continental shelves; stereo photogrammetric; stereo photography; technique; Acoustic scattering; Frequency; Oceans; Pollution measurement; Sea floor; Sea floor roughness; Sea measurements; Sediments; Sonar; Surfaces;

fLanguage

English

Journal_Title

Oceanic Engineering, IEEE Journal of

Publisher

ieee

ISSN

0364-9059

Type

jour

DOI

10.1109/48.35986

Filename

35986