Penven Pierrick, Debreu L., Marchesiello Patrick, McWilliams J. C. (2006). Evaluation and application of the ROMS 1-way embedding procedure to the central california upwelling system. Ocean Modelling, 12 (1-2), p. 157-187. ISSN 1463-5003.
Titre du document
Evaluation and application of the ROMS 1-way embedding procedure to the central california upwelling system
Penven Pierrick, Debreu L., Marchesiello Patrick, McWilliams J. C.
Source
Ocean Modelling, 2006,
12 (1-2), p. 157-187 ISSN 1463-5003
What most clearly distinguishes near-shore and off shore currents is their dominant spatial scale, O (1-30) km near-shore and O (30-1000) km off shore. In practice, these phenomena are usually both measured and modeled with separate methods. In particular, it is infeasible for any regular computational grid to be large enough to simultaneously resolve well both types of currents. In order to obtain local solutions at high resolution while preserving the regional-scale circulation at an affordable computational cost, a 1-way grid embedding capability has been integrated into the Regional Oceanic Modeling System (ROMS). It takes advantage of the AGRIF (Adaptive Grid Refinement in Fortran) Fortran 90 package based on the use of pointers. After a first evaluation in a baroclinic vortex test case, the embedding procedure has been applied to a domain that covers the central upwelling region of California, around Monterey Bay, embedded in a domain that spans the continental U.S. Pacific Coast. Long-term simulations (10 years) have been conducted to obtain mean-seasonal statistical equilibria. The final solution shows few discontinuities at the parent-child domain boundary and a valid representation of the local upwelling structure, at a CPU cost only slightly greater than for the inner region alone. The solution is assessed by comparison with solutions for the whole US Pacific Coast at both low and high resolutions and to solutions for only the inner region at high resolution with mean-seasonal boundary conditions. (c) 2005 Elsevier Ltd. All rights reserved.
