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The problem of numerical modeling and analysis of the large-scale World Ocean circulation variability under variations of
the external forcing is considered. A numerical model was developed in the INM RAS and is based on the primitive equations
of the ocean circulation written in a spherical generalized σ-coordinate system. The model’s equations are approximated on
a grid with resolution of 2.5° × 2° × 33, and the North Pole is displaced to the continental point (60°E, 60.5°N). There are
two stages for the numerical experiments. The quasi-equilibrium circulation of the World Ocean under the climatological atmospheric
forcing is simulated at the first stage. The run is carried out over a period of 3000 years during which a quasi-equilibrium
model regime is formed. At the second stage, the sensitivity of the model ocean circulation to the atmospheric forcing perturbations
in the Southern Hemisphere is studied. According to the results, the strongest regional changes in the hydrography take place
in the Arctic Ocean. Substantial changes of sea’s surface height and local anomalies of the temperature and salinity are formed
there. 相似文献
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V.?B.?ZalesnyEmail author V.?O.?Ivchenko 《Izvestiya Atmospheric and Oceanic Physics》2015,51(3):259-271
The problem of simulating ocean general circulation is considered using an approach developed by G.I. Marchuk. Most attention is focused on problems associated with the application of multi-component-splitting and adjoint-equation methods and with the parameterization of turbulent-exchange processes. The statement of the problem, an algorithm of its solution, and the results of the four-dimensional temperature and salinity data assimilation in a model of World Ocean hydrodynamics are discussed. This algorithm yields qualitatively reliable results, and its main features are modularity, usability, and the possibility of using efficient implicit schemes. 相似文献
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O. Verkhoglyadova A. Agapitov A. Andrushchenko V. Ivchenko S. Romanov Yu. Yermolaev 《Annales Geophysicae》1999,17(9):1145-1154
Compressional waves with periods greater than 2 min (about 10–30 min) at low geomagnetic latitudes, namely compressional Pc5 waves, are studied. The data set obtained with magnetometer MIF-M and plasma analyzer instrument CORALL on board the Interball-1 are analyzed. Measurements performed in October 1995 and October 1996 in the dawn plasma sheet at −30 RE ≤ XGSM and |ZGSM| ≤ 10 RE are considered. Anti-phase variations of magnetic field and ion plasma pressures are analyzed by searching for morphological similarities in the two time series. It is found that longitudinal and transverse magnetic field variations with respect to the background magnetic field are of the same order of magnitude. Plasma velocities are processed for each time period of the local dissimilarity in the pressure time series. VeloCity disturbances occur mainly transversely to the local field line. The data reveal the rotation of the veloCity vector. Because of the field line curvature, there is no fixed position of the rotational plane in the space. These vortices are localized in the regions of anti-phase variations of the magnetic field and plasma pressures, and the vortical flows are associated with the compressional Pc5 wave process. A theoretical model is proposed to explain the main features of the nonlinear wave processes. Our main goal is to study coupling of drift Alfven wave and magnetosonic wave in a warm inhomogeneous plasma. A vortex is the partial solution of the set of the equations when the compression is neglected. A compression effect gives rise to a nonlinear soliton-like solution. 相似文献
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Bigg Grant R. Cropper T. E. O’Neill Clare K. Arnold Alex K. Fleming A. H. Marsh R. Ivchenko V. Fournier Nicolas Osborne Mike Stephens Robin 《Natural Hazards》2018,92(2):1113-1136
Natural Hazards - With the polar regions opening up to more marine activities but iceberg numbers more likely to increase than decline as a result of global warming, the risk from icebergs to... 相似文献