ANALYSIS OF THE EXCHANGE OF SALT BETWEEN THE BALTIC AND THE KATTEGAT THROUGH THE ORESUND USING A 3-LAYER MODEL

The shallowness of the Oresund prevents a continuous inflow of saline Kattegat water to the Baltic. Instead, the salt is exchanged largely b y fluctuating barotropic transports. Buffer effects and temporal stora ge of low-salinity Baltic surface water complicate the exchange. The a nalysis of salt exchange through the Oresund requires use of a model o f the stratification and baroclinically modified exchange processes. I n this paper a three-layer model of the Oresund, forced by the exchang e with the Kattegat and the Baltic, is formulated and calibrated. Fron tal dynamics, necessary to explain the retreat of the uppermost layer, are included. The model is calibrated using genetic algorithms, which provide an efficient and robust optimization method for this kind of model. An analysis of the exchange in view of the model results is pre sented. The paper also gives estimates of typical mean quantities. For the analyzed period of 11 years (1977-1987) the mean salt outflow rat e from the Baltic during outflows is 311,000 kg s(-1) and the mean sal t inflow rate to the Baltic during inflows is 500,000 kg s(-1). The ne t salt outflow from the Baltic is estimated to 19,000 kg s(-1). The me an frontal speed is estimated at 0.25 m s(-1) and the typical required length of an inflow event for high-salinity Kattegat water to reach t he Baltic is estimated at 4 days. Further results are also given. In a ddition, the baroclinic dynamics of the Oresund are discussed.