Freshwater, tidal and wave influences on a small estuary

• Published in: Estuarine, coastal and shelf science Vol. 150; pp. 252 - 261
• Main Authors: Uncles, R.J., Stephens, J.A., Harris, C.
• Format: Journal Article
• Language: English
• Published: Kidlington Elsevier Ltd 05.10.2014; Elsevier
• Subjects: Animal and plant ecology; Animal, plant and microbial ecology; Avon Estuary; Biological and medical sciences; Brackish; Brackish water ecosystems; Coastal; Devonshire; Erosion control; Estuaries; estuarine observations; Fresh water ecosystems; Fundamental and applied biological sciences. Psychology; Runoff; salinity; sediment distributions and transport; Sediments; Shoals; surface gravity waves; Synecology; tidal currents; Turbidity; Winter; England; United Kingdom; Great Britain; Europe; Western Europe; ANE, British Isles, England, Dorset, Avon Estuary; turbidity; salinity; estuarine observations; Avon Estuary; surface gravity waves; UK; Devonshire; tidal currents; sediment distributions and transport; Brackish water environment; Tidal current; Estuaries; Environmental factor; Sediments; Tides; Salinity; Freshwater environment; Turbidity; Transport
• ISSN: 0272-7714; 1096-0015
• DOI: 10.1016/j.ecss.2014.05.035

Observations are presented of water levels, currents, salinity, turbidity, sediment grain sizes and sediment transport in the Devonshire Avon Estuary, UK, in order to improve knowledge of freshwater, wave and tidal influences on small, strongly tidal ría estuaries. A large reduction in tidal range occurred progressing from the coastal zone to the upper estuary that was mainly a consequence of rising bed and river water levels. The spring-neap cycle also had an influence on the reduction in tidal range along the length of the estuary. Surface gravity waves were completely dissipated propagating into the estuarine channel from the coastal zone, and despite strong wave-induced resuspension, suspended sediment was not transported into the lower estuary in observable amounts during the ensuing flood tide, indicating that the wave-suspended material was too coarse to remain in suspension once transported away from the surf zone. Turbidity in the lower estuary was relatively low during low runoff summer conditions and had largest values over low water, when turbid waters from farther up-estuary had been transported there. Strong resuspension events occurred at peak currents in the upper estuary during summer, reflecting the presence of finer-grained sediment sources. Turbidity was similar but greater in the lower estuary during high runoff winter conditions and strong resuspension occurred at peak currents, indicating an easily erodible, nearby sediment source, due to down-estuary movement and relocation of finer sediment over the winter. A large shoal in the lower estuary exhibited a consistent pattern of accretion/erosion during the high runoff months of late autumn and winter to spring that also was qualitatively consistent with sediment transport modelling and implied: (a), erosion from the up-estuary limit of the shoal with (b), down-estuary bed-load and suspended-load transport that accreted the centre and down-estuary limit of the shoal until (c), a diminished supply led to erosion via continued down-estuary transport from the shoal centre. •Data show advection, resuspension and the proximity of easily erodible sediments.•Large reductions in tidal range occur from the coastal zone to the upper estuary.•Surface gravity waves are severely damped propagating from coastal zone to estuary.•Estuarine turbidity is not observably affected by coastal waves and turbidity.•A shoal has consistent patterns of accretion/erosion during the high runoff months.