Estimates have been made of the reduction in dissolved oxygen levels in coastal waters that would result from the disposal of contaminated milk following a radiological accident. Two contrasting sites were chosen: the Bristol Channel near Hinkley Point and the coast of Cumbria near Sellafield. The results suggest that the dilution would be sufficiently strong near Hinkley Point, due to vigorous tidal mixing, that the impact on the DO levels of the coastal waters would be negligible. However, at both Sellafield and Heysham the disposal of milk could result in a reduction of the DO by 1-2 mg l(-1). In contrast to shallow estuarine waters, the recovery of oxygen levels due to the effects of re-aeration through surface gas exchange is unlikely to be significant due to the depth of the coastal waters. However, the recovery of the dissolved oxygen levels to ambient conditions following the completion of the discharge would occur on a time scale of about 17 days due to mixing of the DO deficit plume into the surrounding waters.
[1]
R. Lewis,et al.
Dispersion in Estuaries and Coastal Waters
,
1997
.
[2]
A. Elliott.
EUROSPILL: Oceanographic processes and NW European shelf databases☆
,
1991
.
[3]
A. Dale,et al.
Modelling the movement of pollutants in the UK shelf seas
,
1992
.
[4]
D. Prandle,et al.
A modelling study of the mixing of 137Cs in the seas of the European Continental Shelf
,
1984,
Philosophical Transactions of the Royal Society of London. Series A, Mathematical and Physical Sciences.
[5]
A. F. Nisbet,et al.
Options for the management of Chernobyl-restricted areas in England and Wales
,
2000
.
[6]
Akira Okubo,et al.
Oceanic diffusion diagrams
,
1971
.