Abstract
Abstract. The Indonesian Throughflow is analysed in two runs of the OCCAM 1/4 degree global ocean model, one using monthly climatological winds and one using ECMWF analysed six-hourly winds for the period 1993 to 1998. The long-term model throughflow agrees with observations and the value predicted by Godfrey's Island Rule. The Island Rule has some skill in predicting the annual signal each year but is poor at predicting year to year and shorter term variations in the total flow, especially in El Niño years. The spectra of transports in individual passages show significant differences between those connecting the region to the Pacific Ocean and those connecting with the Indian Ocean. On investigation we found that changes in the northern transports were strongly correlated with changes in the position of currents in the Celebes Sea and off Halmahera. Vertical profiles of transport are in reasonable agreement with observations but the model overestimates the near surface transport through the Lombok Strait and the dense overflow from the Pacific through the Lifamatola Strait into the deep Banda Sea. In both cases the crude representation of the passages by the model appears responsible. In the north the model shows, as expected, that the largest transport is via the Makassar Strait. However this is less than expected and instead there is significant flow via the Halmahera Sea. If Godfrey's Island Rule is correct and the throughflow is forced by the northward flow between Australia and South America, then the Halmahers Sea route should be important. It is the most southerly route around New Guinea to the Indian Ocean and there is no apparent reason why the flow should go further north in order to pass through the Makassar Strait. The model result thus raises the question of why in reality the Makassar Strait route appears to dominate the throughflow.
Highlights
This paper is concerned with the ocean currents and transports between the Pacific and Indian Oceans, via the Indonesian Archipelago, making use of results from a 1/4◦ version of the Ocean Circulation and Climate Advanced Modelling Project (OCCAM) global ocean model
This paper is concerned with the ocean currents and transports between the Pacific and Indian Oceans, via the Indonesian Archipelago, making use of results from a 1/4◦ version of the OCCAM global ocean model
Because they represent most of the key physical processes, they can provide useful insights into the interactions between different components of the circulation. For similar reasons they can be extremely helpful when planning the round of field experiments. With these ideas in mind, in this paper we briefly review some of the results from a 1/4◦ version of the OCCAM model
Summary
This paper is concerned with the ocean currents and transports between the Pacific and Indian Oceans, via the Indonesian Archipelago, making use of results from a 1/4◦ version of the OCCAM global ocean model. As a result there are still major uncertainties in our estimates of the transports between the two oceans and many questions remain concerning the role of the different basins, seas and channels in these exchanges. Under these conditions, insights that come from ocean model studies should be valuable. They contain errors but qualitatively our experience is that the high resolution ocean models are usually good at representing the major features of the circulation Because they represent most of the key physical processes, they can provide useful insights into the interactions between different components of the circulation. The results highlight model weaknesses in representing narrow straits and overflows, which need to be addressed, but they raise other questions
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