Modeling the mesoscale variability in the Adriatic Sea

A new high-resolution (

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Veröffentlicht in:Oceanology (Washington. 1965) 2007-06, Vol.47 (3), p.313-324
1. Verfasser: Korotenko, K A
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container_title Oceanology (Washington. 1965)
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description A new high-resolution (
doi_str_mv 10.1134/S0001437007030034
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The model uses mean seasonal data on the temperature, salinity, buoyancy fluxes, and wind. The data of the COAMPS system with a 4-km resolution were used for the simulation of the sea response to the effects of various winds: Sirocco, Maestro, and two types of boras. The mean monthly runoffs from 38 rivers and mean daily runoffs from 12 main rivers throughout the year were given in the model. The conditions at the open boundary of the Strait of Otranto were given on the basis of the hierarchy of two coarser models for the Adriatic and Mediterranean seas. Due to the extremely weak dissipation and the high resolution (the mesh size is less than the baroclinic radius of deformation, 5–10 km), the model allows one to trace the development of a baroclinic instability along the Italian coast, to simulate mesoscale structures associated with the instability, and to estimate the scales of the structures. Mesoscale filaments, meanders, mushroom-like currents, fronts, and intrusions known from satellite observations were simulated and explained. 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Mesoscale filaments, meanders, mushroom-like currents, fronts, and intrusions known from satellite observations were simulated and explained. 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subjects Baroclinic instability
Deformation
Filaments
Finite element method
Fronts
High resolution
Marine
Meanders
Mesoscale phenomena
Model accuracy
Ocean circulation
Ocean currents
Ocean models
Resolution
Rivers
Satellite observation
Simulation
Structures
Upwelling
Variability
Water circulation
Wind effects
Winds
title Modeling the mesoscale variability in the Adriatic Sea
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