Day–night variation of cohesive sediment stability

Day–night variation of cohesive sediment stability

Surface sediment properties related to cohesive sediment stability were measured over 8 consecutive day- and night-time emersion periods at three upper intertidal sites on a mudflat in August 2003, during the transition from spring to neap tides. Significant differences between day- and night-time c...

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Bibliographic Details
Published in:Estuarine, coastal and shelf science Vol. 64; no. 2; pp. 407 - 418
Main Authors: Friend, P.L., Lucas, C.H., Rossington, S.K.
Format: Journal Article
Language:English
Published: London Elsevier Ltd 01-08-2005
Elsevier
Subjects:
Animal and plant ecology
Animal, plant and microbial ecology
Bacillariophyceae
Biological and medical sciences
Brackish
Brackish water ecosystems
carbohydrate
chlorophyll a
cohesive sediment stability
colloidal-S
day–night
EDTA
Fundamental and applied biological sciences. Psychology
Hydrobia ulvae
microphytobenthos
Southampton Water
spring–neap
Synecology
Hydrobia ulvae
colloidal-S
Southampton Water
microphytobenthos
cohesive sediment stability
EDTA
spring–neap
chlorophyll a
carbohydrate
day–night
Brackish water environment
Stability
Night
Sediments
Chlorophyll a
day-night
Hydrohia ulvae
spring-neap
Carbohydrate
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Summary:Surface sediment properties related to cohesive sediment stability were measured over 8 consecutive day- and night-time emersion periods at three upper intertidal sites on a mudflat in August 2003, during the transition from spring to neap tides. Significant differences between day- and night-time critical erosion shear stress ( τ c) and chlorophyll a were found. A high degree of temporal and spatial variability existed between the sediment properties. During the first half of the study period, a rhythmic day–night variation occurred between τ c, chl a, colloidal-S- and EDTA-extracted carbohydrate. During the second part of the study, the magnitude of variation of these parameters diminished. Results showed that sediments were more stable during the day than at night. Differences between day- and night-time sediment stability were related not only to diatom migration, but also to wave energy during preceding immersion periods. No significant relationships existed between τ c and either chl a, or colloidal-S- or EDTA-extracted carbohydrate sediment content. It is suggested that tidal phasing, in terms of both the time during the day at which low water spring and neap tides occur, as well as the duration of the emersion period, control the biomass dynamics. The tidal phasing effect is expected to be more pronounced on a cohesive intertidal flat where low water spring tides occur at noon and midnight. The results of this study will be of use in time-dependent estuarine models.
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ISSN:0272-7714
1096-0015
DOI:10.1016/j.ecss.2005.03.006