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The first part of the Baltic Sea ecohydrodynamic model, based on the Princeton Ocean Model (POM), was validated by long-term observations of sea level, salinity and water temperature fluctuations. The modelled sea surface temperature (SST) fields were also compared to satellite images - satisfactory correlation coefficients were obtained. The model bias and efficiency coefficients of the modelled variables in relation to the observed values were determined. The quality of model simulations in relation to measured values was estimated with respect to spatial and seasonal variability in shallow and deep coastal waters as well as in the open sea. The results indicated the high quality of simulations by the hydrodynamic model.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
517--541
Opis fizyczny
biblogr. 13 poz., tab., wykr.
Twórcy
autor
- Institute of Oceanography, University of Gdańsk, al. Marszałka Piłsudskiego 46, PL-81-378 Gdynia, Poland, janj@sat.ocean.univ.gda.pl
Bibliografia
- [1] Blumberg A. F., Mellor G. L., 1987, A description of the three-dimensional coastal ocean circulation model, pp. 1–16, [in:] Three-dimensional Coastal Ocean Models, N. S. Heaps (ed.), Am. Geophys. Union, Washington, 208 pp.
- [2] Durski S. M., Glen S. M., Haidvogel D. B., 2004, Vertical mixing schemes in the coastal ocean: comparison of the 2.5 Mellor-Yamada scheme with an enhanced version of the K-profile parameterization, J. Geophys. Res., 109 (C01015), doi: 10.1029/2002JC001702, [IDRISI32, version I32.22 (www.Clarklabs.org)].
- [3] Kałas M., Staśkiewicz A ., Szefler K., 2001, Water level forecast for the Pomeranian Bay from the HIROMB model, Oceanol. Stud., 30 (3)–(4), 39–57.
- [4] Jędrasik J., 1999, Exchange of waters between the Gulf of Gdańsk and Vistula Lagoon, 3rd Navigation Seminar, Maritime Academy, Gdynia, 24–25 June 1999, (unpublished).
- [5] Jędrasik J., Cyberski J., 2000, The water exchange in estuarine lakes of the southern Baltic sea as exemplified by Lake Gardno, Oceanol. Stud., 29 (4), 43–66.
- [6] Jędrasik J., Kowalewski M., Krężel A., 1999, Forecast of passive substance spreading in the Gulf of Gdańsk, Polrodex Seminar, Maritime Institute, Gdańsk, 4–5 December 1999, (unpublished).
- [7] Kowalewski M., 1997, A three-dimensional, hydrodynamic model of the Gulf of Gdańsk, Oceanol. Stud., 26 (4), 77–98.
- [8] Kowalewski M., 1998, Coastal upwellings in a shallow stratified sea on the example of the Baltic Sea, Ph. D. thesis, Institute of Oceanography, Univ. Gd., Gdynia, 83 pp., (in Polish).
- [9] Kowalewski M., 2002, An operational hydrodynamic model of the Gulf of Gdańsk, [in:] Research works based on the ICM’s UMPL numerical weather prediction system results, Wyd. Uniw. Warsz., Warszawa, 109–119.
- [10] Kozłowski Ł., 1998, Verification of the three dimensional hydrodynamic model of the Gulf of Gdańsk, Institute of Oceanography, Univ. Gd., Gdynia, 1–36, (in Polish).
- [11] Ołdakowski B., Kowalewski M., Jędrasik J., Szymelfenig M., 2005, Ecohydrodynamic model of the Baltic Sea. Part 1. Description of the ProDeMo model, Oceanologia, 47 (4), 477–516.
- [12] Ozga-Zielińska M., Brzeziński J., 1994, Applied hydrology, PWN, Warszawa, 105–111.
- [13] Węglarczyk S., 1998, The interdependence and applicability of some statistical quality measures for hydrological models, J. Hydrol., 206 (1)–(2), 98–103.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS5-0007-0056