We present a new coupled ocean-circulation-ice model configuration of the Baltic Sea. The model features, contrary to most existing configurations, a high horizontal resolution of ≈ 1 nautical mile (≈ 1.85 km), which is eddy-resolving over much of the domain. The vertical discretisation comprises a total of 47 vertical levels. Results from a 1987 to 1999 hindcast simulation show that the model's fidelity is competitive. As suggested by a comparison with sea surface temperatures observed from space, this applies especially to near-surface processes. Hence, the configuration is well suited to serve as a nucleus of a fully fledged coupled ocean-circulation-biogeochemical model (which is yet to be developed). A caveat is that the model fails to reproduce major inflow events. We trace this back to spurious vertical circulation patterns at the sills which may well be endemic to high-resolution models based on geopotential coordinates. Further, we present indications that - so far neglected - eddy/wind effects exert significant control on wind-induced up- and downwelling. © Author(s) 2014.
CITATION STYLE
Dietze, H., Löptien, U., & Getzlaff, K. (2014). MOMBA 1.1 - A high-resolution Baltic Sea configuration of GFDL’s Modular Ocean Model. Geoscientific Model Development, 7(4), 713–731. https://doi.org/10.5194/gmd-7-1713-2014
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