Аннотация и ключевые слова
Аннотация (русский):
This study is aimed at developing of an operational oceanographic system for the Russian sector in the Gulf of Finland and South-Eastern part of the Baltic Sea for operational forecast of hydrodynamic and ecosystem parameters on the basis of high and ultra-high spatial resolution models. The system is presented as a complex of regional and local models; for which a coupled modeling integration at boundary conditions exchange is fulfilled. The models share common mathematical formulation of general motion equations and a unified realization on the basis of programme code modeling modules designed for the ocean modeling – NEMO. The regional model of the Baltic Sea circulation is complemented by a module for the inert matter transport simulation. The latter is set up on the basis of a matter turbulent diffusion model with the use of two consistent equation systems: deterministic and stochastic. The designed operational system consists of two subsystems: operational oceanographic system of the coastal areas of the Baltic Sea and an expert-analytical system of operational monitoring of the aquatic environment and effective response to accidents at sea.

Ключевые слова:
Baltic Sea, coastal zones, hydrodynamic model, operational forecast, matter transport, expert-analytical system, operational monitoring
Список литературы

1. Alenius, P., Nekrasov, A., and Myrberg, K.: The baroclinic Rossby-radius in the Gulf of Finland, Cont. Shelf Res., 23, 563-573, 2003.

2. Golenko M.N., Golenko N.N. Effects of entrainment and vorticity at wind-driven coastal upwelling and downwelling for the South-Eastern Baltic // Aerokosmicheskie issledovaniya, prikladnaya mekhanika, TRUDY MFTI, 2011, 3(3), 56-63

3. Dobricic S, Pinardi N. An oceanographic three-dimensional variational data assimilation scheme // Ocean Modelling. 2008. V.22. P.89-105.

4. Hordoir, R., Schimanke, S., Axell, L., et al.\ 2015, EGU General Assembly Conference Abstracts, 17, 12657

5. Madec, G., Delecluse, P., Imbard, M., and Levy, C.: OPA 8.1 Ocean General Circulation Model reference manual. Note du Pole de modelisation, Institut Pierre-Simon Laplace (IPSL), Paris, France, No 11, 91 p., 1998.

6. Madec, G.: NEMO ocean engine. Note du Pôle de modélisation, Institut Pierre-Simon Laplace (IPSL), Paris, France, No 27 ISSN No 1288-1619, 2012.

7. Soomere T., Quak E. Preventive methods for coastal protection: Towards the use of ocean dynamics for pollution control / Eds. Springer. 2013. 442 p

Войти или Создать
* Забыли пароль?