Journal
ESTUARIES
Volume 25, Issue 5, Pages 908-915Publisher
ESTUARINE RES FEDERATION
DOI: 10.1007/BF02691339
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Flushing of dense water from cavities of the upper reaches of the Swan River estuary in Western Australia was investigated using measured salinity and dissolved oxygen profiles and a two-dimensional, laterally averaged hydrodynamic model (TISAT). Seasonal flushing of dense, hypoxic bottom waters from a relatively deep site took place over similar to3 days at the onset of winter in 1994. Model simulations of the purging of this dense water did not correspond closely with changes in the densimetric Fronde number. Purging, expressed as depth of the halocline as a fraction of the tow cavity depth, occurred when the simulated mean horizontal velocity at 2 m depth (top of cavity) changed from negative to strongly positive, indicating arrest of upstream flow and continuous downstream flow. This corresponded to freshwater discharge of about 50 m(3) s(-1). Oxygen depletion of bottom waters was closely related to stratification. Oxygen dynamics at the onset of winter river flow was analysed using an exponential decay model, assuming that there was no net inflow or outflow across the halocline and thus no vertical transport of oxygen during a period of strong stratification. The rate constant for oxygen decay at Ron Courtney Island (RCI) was estimated to be 0.232 d (1) for this period. Bottom waters at RCI declined to less than 1 mg l(-1) prior to complete flushing through increased river flows. This study provided insights to how freshwater flows may be allocated to maintain suitable oxygen levels in the bottom waters of estuarine cavities.
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