Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Marine and Freshwater Research Marine and Freshwater Research Society
Advances in the aquatic sciences
RESEARCH ARTICLE

A basis for mapping the erodibility of tidal flats by optical remote sensing

J. H. M. Hakvoort, M. Heineke, K. Heymann, H. Kühl, R. Riethmüller and G. Witte

Marine and Freshwater Research 49(8) 867 - 873
Published: 1998

Abstract

A means of monitoring surface sediment stability of tidal flats with optical remote sensing has been developed. Erosion shear stress and corresponding bio-geo-chemical parameters of tidal flats were measured over five years in the Sylt/Rømø Bight, Germany. Ground-based optical reflectance spectra were measured during one year. A significant dependence of erosion shear stress on the benthic diatom chlorophyll a concentration in the uppermost 1-mm layer was found for muddy areas but decreased with decreasing proportion of fine particles (< 63 µm). With a low phytobenthic coverage there was a weak dependence of erosion shear stress on the proportion of fine particles. There were two main classes of the reflectance spectra: containing information on sediment type i.e. proportion of fine particles, and containing information on benthic diatoms and other phytobenthic species. There was a significant correlation between the reflectance spectra and proportion of fine particles and also between reflectance spectra and benthic diatom chlorophyll α concentration. Hence, the erodibility of tidal flats can be mapped by optical remote sensing when benthic chlorophyll a concentration and proportion of fine particles are used for estimation of the erosion shear stress.

Keywords: reflectance spectra, optics, diatoms, sediment particle size, critical shear stress, erosion shear stress, chlorophyll a, microphytobenthos.

https://doi.org/10.1071/MF97090

© CSIRO 1998

Committee on Publication Ethics


Export Citation Get Permission

View Dimensions