Tytuł artykułu
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Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Konferencja
The 5th Baltic Sea Science Congress, Sopot, 20-24 June 2005
Języki publikacji
Abstrakty
To estimate the mean circulation, water exchange and water age in the Gulf of Bothnia a ten-year simulation using a three-dimensional numerical model was carried out. The results confirmed the early findings by Witting (1912) and Palmén (1930) that a mean cyclonic circulation takes place both in the Bothnian Sea and in the Bothnian Bay. However, the modelling results showed clearly that there exist meso-scale circulation features including coastal "jets", not reported in the Witting-Palmén results. The simulated mean currents were also higher than those found earlier, while the persistency of this circulation is typically between 20 and 60%, which is similar to the earlier results. There is a large difference between the various model-based water-exchange estimates: these are strictly dependent on the time-averaging used. Water age proved to reflect properties of the mean circulation system, and the highest water age (of around 7.4 years) was found in the central part of the Bothnian Bay. The water age was found to be rather high also in the entire Gulf of Bothnia, which provides evidence of the rather slow water exchange between the Gulf and the Baltic Sea. This leads to the conclusion that, from the physical point of view, the Gulf of Bothnia is vulnerable to eutrophication.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
55--74
Opis fizyczny
bibliogr. 41 poz., rys.
Twórcy
autor
autor
- Finnish Institute of Marine Research, Dynamicum, Erik Palménin aukio 1, PO Box 2, FIN-00561 Helsinki, Finland, Kai.Myrberg@fimr.fi
Bibliografia
- Andrejev O., Myrberg K., Alenius P., Lundberg P.A., 2004a, Mean circulation and water exchange in the Gulf of Finland - a study based on three-dimensional modeling, Boreal Environ. Res., 9 (1), 1-16.
- Andrejev O., Myrberg K., Lundberg P.A., 2004b, Age and renewal time of water masses in a semi-enclosed basin - application to the Gulf of Finland, Tellus A, 56, 548-558.
- Andrejev O., Myrberg K., Mälkki P., Perttilä M., 2002, Three-dimensional modelling of the main Baltic inflow in 1993, Environ. Chem. Phys., 24 (3), 156-161.
- Andrejev O., Sokolov A., 1989, Numerical modelling of the water dynamics and passive pollutant transport in the Neva inlet, Meteorol. Hydrol., 12, 75-85, (in Russian).
- Andrejev O., Sokolov A., 1990, 3D baroclinic hydrodynamic model and its applications to Skagerrak circulation modelling, Proc. 17th Conf. Baltic Oceanogr., Norrköping, 38-46.
- Bergström S., Carlsson B., 1994, River runoff to the Baltic Sea: 1950-1990, Ambio, 23 (4-5), 280-287.
- Bolin B., Rodhe H., 1973, A note on the concepts of age distribution and transit time in natural reservoirs, Tellus, 25 (1), 58-62.
- Bunker A. F., 1976, Computations of surface energy flux and annual air-sea interaction cycle of the North Atlantic Ocean, Mon. Weather Rev., 104 (9), 1122-1140.
- Dahlin H., 1976, Hydrokemisk balans för Bottenhavet och Bottenviken, Vannet i Norden, 1, 62-73, (in Swedish).
- Deleersnijder E., Campin J. -M., Delhez E. J.M., 2001, The concept of age in marine modelling: I. Theory and preliminary model results, J. Marine Syst., 28 (3-4), 229-267.
- Delhez E. J.M., Campin J. -M., Hirst A., Deleersnijder E., 1999, Toward a general theory of the age in ocean modelling, Ocean Model., 1 (1) 17-27.
- Ehlin U., Ambjörn C., 1978, Bottniska vikens hydrografi och dynamic, Finnish-Swedish seminar of the Gulf of Bothnia, 8-9 March, Vaasa, (in Swedish).
- England M.H., 1995, The age of water and ventilation timescales in a global ocean model, J. Phys. Oceanogr., 25 (11), 2756-2777.
- Engqvist A., 1996, Long-term nutrient balances in the eutrophication of Himmerfjärden estuary, Estuar. Coast. Shelf Sci., 42( 4), 483-507.
- Fonselius S., 1971, Om Österjöns och speciellt Botniska vikens hydrografi, Vatten, 27, (in Swedish).
- Fonselius S., 1996, Västerhavets och Östersjöns oceanografi, SMHI Oceanogr., Göteborg, 200 pp.
- Håkansson B., Alenius P., Brydsten L., 1996, Physical environment in the Gulf of Bothnia, Ambio Spec. Rep. No 8, 5-12.
- Kahru M., Håkansson B., Rud O., 1995, Distribution of the sea-surface temperature fronts in the Baltic Sea as derived from satellite imagery, Cont. Shelf Res., 15 (6), 663-679.
- Knudsen M., 1900, Ein hydrographischer Lehrsatz, Ann. Hydrogr. Mar. Meteorol., 28 (7), 316-320.
- Kochergin V.P., 1987, Three-dimensional prognostic models, [in:] Three-dimensional coastal ocean models, N. S. Heaps (ed.), Am. Geophys. Union, Coast. Estuar. Sci. Ser., 4, 201-208.
- Lane A., Prandle D., 1996, Inter-annual variability in the temperature of the North Sea, Cont. Shelf Res., 16 (11), 1489-1507.
- Lehmann A., Hinrichsen H. -H., 2000a, On the wind-driven and thermohaline circulation of the Baltic Sea, Phys. Chem. Earth Pt. B, 25 (2), 183-189.
- Lehmann A., Hinrichsen H. -H., 2000b, On the thermohaline variability of the Baltic Sea, J. Marine Syst., 25 (3-4), 333-357.
- Marmefelt E., Omstedt A., 1993, Deep water properties in the Gulf of Bothnia, Cont. Shelf Res., 13 (2-3), 169-187.
- Meier H.E.M., 2005, Modeling the age of Baltic Sea water masses: Quantification and steady state sensitivity experiments, J. Geophys. Res., 110 (C02006), doi: 10.1029/2004JC002607.
- Meier H. E.M., Kauker F., 2003, Modeling decadal variability of the Baltic Sea: 2. Role of freshwater inflow and large-scale atmospheric circulation for salinity, J. Geophys. Res., 108 (C11), 3368, doi: 10.1029/2003JC001799.
- Mutzke A., 1998, Open boundary condition in the GFDL-model with free surface, Ocean Model., 116, 2-6.
- Myrberg K., 1991, Simulating the climatological flow field of the northern Baltic Sea by a two-layer model, ICES CM, C:12, 12 pp.
- Myrberg K., Andrejev O., 2003, Main upwelling regions in the Baltic Sea - a statistical analysis based on three-dimensional modelling, Boreal Environ. Res., 8 (2), 97-112.
- Niiler P., Kraus E., 1977, One-dimensional models of the upper ocean, [in:] Modelling and prediction of the upper layers of the ocean, E. Kraus (ed.), Pergamon Press, Oxford, 143-172.
- Orlanski I., 1976, A simple boundary condition for unbounded hyperbolic flows, J. Comp. Phys., 21, 251-269.
- Palmén E., 1930, Untersuchungen über die Strömungen in den Finnland umgebenden Meeren, Soc. Sci. Fenn., Comm. Phys.-Math., 12, 1-94.
- Perttilä M., Ehlin U., 1993, The year of the Gulf of Bothnia, Aqua Fenn., 23 (1), 3-4.
- Proudman J., 1953, Dynamical oceanography, Methuen & Co., London, 409 pp.
- Sjöberg B., (ed.), 1992, Sea and coast. National atlas of Sweden, SNA Vol. 7, SMHI, Norrköping, 128 pp.
- Sokolov A., Andrejev O., Wulff F., Rodriguez Medina M., 1997, The data assimilation system for data analysis in the Baltic Sea, Syst. Ecol. Contrib., (Stockholm Univ.), 3, 66 pp.
- Stigebrandt A., Wulff F., 1987, A model for the dynamics of nutrients and oxygen in the Baltic Proper, J. Mar. Res., 45, 729-759.
- Thiele G., Sarmiento J. L., 1990, Tracer dating and ocean ventilation, J. Geophys. Res., 95 (C6), 9377-9391, doi: 10.1029/89JC01132.
- Witting R., 1910, Rannikkomeret, Suomen Kartasto, Karttalehdet Nr. 6b, 7, 8, 9, Finn. Inst. Mar. Res., Helsinki.
- Witting R., 1912, Zusammenfassende ¨Ubersicht der Hydrographie des Bottnischen und Finnischen Meerbusens und der Nördlichen Ostsee, Finn. Hydrogr.-biol. Unters. No 7.
- Witting R., 1936, Ympäröivät meret, Teoksessa: Suomen maantieteen käsikirja, Suomen Maantieteellinen Seura, Helsinki, 261-278, (in Finnish).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS5-0003-0039