Comparison of stochastic parameterizations in the framework of a coupled ocean–atmosphere model
Earth and related Environmental sciences
Copernicus Publications on behalf of the European Geophysical Union and American Geophysical Union
MetadataShow full item record
A new framework is proposed for the evaluation of stochastic subgrid-scale parameterizations in the context of the Modular Arbitrary-Order Ocean-Atmosphere Model (MAOOAM), a coupled ocean–atmosphere model of intermediate complexity. Two physically based parameterizations are investigated – the first one based on the singular perturbation of Markov operators, also known as homogenization. The second one is a recently proposed parameterization based on Ruelle’s response theory. The two parameterizations are implemented in a rigorous way, assuming however that the unresolved-scale relevant statistics are Gaussian. They are extensively tested for a low-order version known to exhibit low-frequency variability (LFV), and some preliminary results are obtained for an intermediate-order version. Several different configurations of the resolved–unresolvedscale separations are then considered. Both parameterizations show remarkable performances in correcting the impact of model errors, being even able to change the modality of the probability distributions. Their respective limitations are also discussed.
CitationDemaeyer, Jonathan; Vannitsem, Stéphane (2018). Comparison of stochastic parameterizations in the framework of a coupled ocean–atmosphere model. , Nonlinear Processes in Geophysics, Vol. 25, 605-631, Copernicus Publications on behalf of the European Geophysical Union and American Geophysical Union, DOI: 10.5194/npg-25-605-2018.