Topographic Sensitivity Studies with a Bryan–Cox-Type Ocean Model

Abstract

Abstract This paper describes a series of four experiments, each run for 10 years at 1° × 1° resolution on a North Atlantic domain, designed to illuminate the sensitivity of a Bryan–Cox-type ocean model to changes in the representation of the ridges that restrict the flow of dense, deep water out of the Greenland–Iceland–Norway (GIN) basin. In reality, much of the outflow takes place through narrow sills, which are subgrid-scale in the model, and small changes in the model topography to reflect these sills have a large impact on the outflow and on the compensating inflow of warm North Atlantic water. The circulation of the GIN basin is dramatically changed depending on the amount of this inflow; with no inflow, the basin cools and freshens, as would be expected, whereas with too much inflow, it becomes warm, salty, and homogeneous to great depths. Moreover, the small changes in topography have wider implications for the simulation. The presence or absence of dense overflows has a great impact on the mixed...