Intertidal mudflats can experience rapid morphological changes, and are both sources
and sinks of fine cohesive sediment within an estuary. Successful environmental management of
these regions depends upon in-situ measurements, which help specify the interactions between
the active processes and so allow the development of predictive models that the management
practices require.
The Profiles of Sediment Transport system (POST) has been developed in order to make
high frequency measurements of velocity and suspended sediment concentration profiles in very
shallow water (i.e. when depth, h < 1.0 m). Electromagnetic current meters and optical sensors
were miniaturised to allow measurements within a few centimetres of the sea bed and provide
fine scale resolution of vertical profiles. Two in-situ experiments, located in the Severn and
Humber estuaries, examined the response of a mudflat to changing environmental factors, and in
particular, studied the influence of local waves and tidal currents in very shallow water of depth
(h)< 1.0 m.
A value of 0.127 Nmˉ²was considered to be representative of the critical erosion shear
stress (Tint) at Portishead, while at Skeffling τait was estimated to be about 0.31 Nmˉ². The
effects of wave and current action were quantified and expressions were used to describe the
relationships between velocity, bed shear stress and concentration. An expression relating near
bed concentration to mean velocity (U ) at Skeffling was simply:
Concentration (gLˉ¹) = 1.908 U + 0.193 when h< 1.0 m. R² = 0.730
The physical processes causing erosion and deposition across two mudflats have been
identified, and the predictive expressions are considered to provide first order approximations for
sediment concentrations and transport behaviour, for similar conditions at other North European
sites. The results showed that the shallow water periods at the beginning and end of tidal
coverage were extremely important in determining the surface character of the mudflat, and any
erosion was most marked at these times. Small waves can be crucial to erosion because of their
large contribution to the bed shear stresses in shallow water. Ignoring biological and chemical
variables (both of which can control of erosion), it is proposed that for typical temperate
environmental conditions, some form of mudflat erosion is likely when h< 1.0 m, and either the
significant wave height (H2) is greater than 0.25 m, or the near bed velocities exceed 0.2 msˉ¹.
Date of Award | 1997 |
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Original language | English |
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Awarding Institution | |
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The In-situ Erosion of Intertidal Muds
Christie, M. (Author). 1997
Student thesis: PhD