Author:
Thiry Louis,Li Long,Mémin Etienne
Abstract
AbstractWe present a simple parameterization for coarse-resolution ocean models. To replace computationally expensive high-resolution ocean models, we develop a computationally cheap parameterization for coarse-resolution models based solely on the modification of the viscosity term in advection equations. It is meant to reproduce the mean quantities like pressure, velocity, or vorticity computed from a high-resolution reference solution or using observations. We test this new parameterization on a double-gyre quasi-geostrophic model in the eddy-permitting regime. Our results show that the proposed scheme improves significantly the energy statistics and the intrinsic variability on the coarse mesh. This method shall serve as a deterministic basis model for coarse-resolution stochastic parameterizations in future works.
Publisher
Springer International Publishing
Reference17 articles.
1. Arakawa, Akio and Lamb, Vivian R (1981), A potential enstrophy and energy conserving scheme for the shallow water equations. Monthly Weather Review 109:18–36.
2. Fox-Kemper, B and Bachman, S and Pearson, B and Reckinger, S (2014), Principles and advances in subgrid modelling for Eddy-Rich simulations. CLIVAR Exchanges No. 65, Vol. 19, No. 2.
3. Frisch, Uriel and Kurien, Susan and Pandit, Rahul and Pauls, Walter and Ray, Samriddhi Sankar and Wirth, Achim and Zhu, Jian-Zhou (2008), Hyperviscosity, Galerkin truncation, and bottlenecks in turbulence. Physical Review Letters 101:144501.
4. Griffies, Stephen M and Hallberg, Robert W (2000), Biharmonic friction with a Smagorinsky-like viscosity for use in large-scale eddy-permitting ocean models. Monthly Weather Review 128:2935–2946.
5. Hogg, Andrew Mc C and Dewar, William K and Killworth, Peter D and Blundell, Jeffrey R (2003), A quasi-geostrophic coupled model (Q-GCM). Monthly Weather Review 131:2261–2278.