Assimilation experiments in the Gdansk Basin (the southeastern Baltic): How useful are the sea level data from coastal tide gauges for modelling of hydrophysical fields?

Belousov, S. L., Gandin, L. S., & Mashovich S. A., (1971). Computer Processing of Meteorological Data. Israel Program for Scientific Translations, 1-210. Search in Google Scholar

Blumberg, A. F. & Mellor, G. L. (1987). A description of a three-dimensional coastal ocean circulation model. [in:] Three-Dimensional Coastal Ocean Models, N. Heaps (ed.), Am. Geophys. Union, 1-208.10.1029/CO004p0001 Search in Google Scholar

Bock, K.-H. (1971), Monatskarten des Salzgehaltes der Ostsee, dargestellt fur verschiedene Tiefenhorizonte. Dt. hydrogr. Z., Erg.-H. R. B., No. 12, Hamburg. 1-148. Search in Google Scholar

Daley, R. (1991). Atmospheric data analysis. Cambridge University Press, 1-457. Search in Google Scholar

Emery, W.J. & Thomson R.E. (1997). Data and Analysis Methods in Physical Oceanography. Pergamon Press, Oxford, 1-634. Search in Google Scholar

Ezer, T. & Mellor, G.L. (1997). Data assimilation experiments in the Gulf Stream Region: how usefull are sattelite - derived surface data for nowcasting the subsurface field? Journal of Atmospheric and Oceanic Technology, 14, 1379 - 1391.10.1175/1520-0426(1997)014<1379:DAEITG>2.0.CO;2 Search in Google Scholar

Ezer, T. & Mellor, G.L. (1994). Continuous assimilation of geosat data into three-dimensional primitive equation gulf stream model. Journal of Physical Oceanography, 24, 832 - 847.10.1175/1520-0485(1994)024<0832:CAOGAD>2.0.CO;2 Search in Google Scholar

Fischer, M. & Latif, M. (1995), Assimilation of temperature and sea level observations into a primitive equation model of the tropical Pacific. J. Mar. Sys., 6, 31-46. Search in Google Scholar

Funkquist, L. (2004). Development of an analysis and data assimilation scheme in HIROMB, 7th HIROMB-Scientific Workshop, December 7-9, 2004, Helsinki. Search in Google Scholar

Funkquist, L. (2006). Data assimilation with the OI method. 9th HIROMB Scientific Workshop, 28-31 August 2006, SMHI, Gothenburg. Search in Google Scholar

Funkquist L. & Pemberton P. (2006). Development of an analysis and assimilation scheme for HIROMB, 9th HIROMB Scientific Workshop, 28-31 August 2006, SMHI, Gothenburg. Search in Google Scholar

Funkquist, L. (2006a). An Operational Data Assimilation System for the Baltic Sea. Report of the EU programme ODON, 1-5. Search in Google Scholar

Ghil, M. (1989). Meteorological data assimilation for oceanographers. Part I: description and theoretical framework. Dyn. Atmos. Oceans, 13, 171-218 Search in Google Scholar

Ghil, M. & Malanotte-Rizzoli P. (1991). Data assimilation in meteorology and oceanography. Adv. Geophys., 33, 141-266.10.1016/S0065-2687(08)60442-2 Search in Google Scholar

Høyer, J.L. & She J. (2007), Optimal interpolation of sea surface temperature for the North Sea and Baltic Sea. J. Mar. Sys., 65, 186 - 189. Search in Google Scholar

Høyer, J.L. & She, J. (2006). A new method to reduce noise on satellite sea surface temperature observations, Proceedings of EuroGOOS 4th Conference, 2005. Brest. 441-448. Search in Google Scholar

Jankowski, A. (2002a), Application of a coordinate baroclinic model to the Baltic Sea. Oceanologia, 44 (1), 59-80. Search in Google Scholar

Jankowski, A. (2002b). Variability of coastal water hydrodynamics in the southern Baltic - hindcast modelling of an upwelling event along the Polish coast. Oceanologia, 44 (4), 395-418. Search in Google Scholar

Kantha, L. & Clayson, C. (2000). Numerical models of oceans and oceanic processes. International Geophysical Series, 66, 1-750. Academic Press. Search in Google Scholar

Kundu, P.K. & Allen, J.S. (1976). Some three-dimensional characteristics of low-frequency current fluctuationbs near the Oregon coast. J. Phys. Oceanogr., 6, 181-199.10.1175/1520-0485(1976)006<0181:STDCOL>2.0.CO;2 Search in Google Scholar

Large, W. G. & Pond, S. (1981). Open ocean momentum flux measurements in moderate to strong winds. J. Phys. Oceanogr., 11, 324-336.10.1175/1520-0485(1981)011<0324:OOMFMI>2.0.CO;2 Search in Google Scholar

Larsen, J., Høyer, J.L. & She, J. (2007). Validation of a hybrid optimal interpolation and Kalman filter scheme for sea surface temperature assimilation. J. Mar. Syst., 65, 122-133.10.1016/j.jmarsys.2005.09.013 Search in Google Scholar

Launiainen, J. & Vihma, T. (1990). Derivation of turbulent surface fluxes - an iterative flux - profile method allowing arbitrary observing heights. Environmental Software, 5, 3, 113-124.10.1016/0266-9838(90)90021-W Search in Google Scholar

Le Dimet, F.X. & Talagrand O. (1986). Variational algorithms for analysis and assimilation of meteorological observations. Tellus, 38A, 97-110.10.1111/j.1600-0870.1986.tb00459.x Search in Google Scholar

Lehmann, A. (1995). A three-dimensional baroclinic eddy-resolving model of the Baltic Sea. Tellus, 47A, 5:2, 1013-1031.10.3402/tellusa.v47i5.11969 Search in Google Scholar

Lehmann, A. & Hinrichsen H. H. (2000). On the wind driven and thermohaline circulation of the Baltic Sea. Phys. Chem. Erth (B), 25, 2, 183 -189.10.1016/S1464-1909(99)00140-9 Search in Google Scholar

Lenz, W. (1971). Monatskarten der Temperatur der Ostsee dargestellt fur verschiedene Tiefenhorizonte. Dt. hydrogr. Z., Erg.-H. R. B., 11, Hamburg, 1-148. Search in Google Scholar

Li, J.G., Killworth P.D. & Smeed A. (2003). Response of an eddy-permitting ocean model to the assimilation of sparse in situ data. J. Geophys. Res., 108, C4, 3111, doi: 10.1029/2001JC001033.10.1029/2001JC001033 Search in Google Scholar

Malanotte-Rizoli, P. & Young R.E. (1992). How useful are localized clusters of traditional oceanographic measurements for data assimilation? Dyn. Atm. Ocean., 17, 23-61.10.1016/0377-0265(92)90021-K Search in Google Scholar

Malanotte-Rizoli P. & Young R.E. (1995). Assimilation of global versus local data sets into a regional model of the Gulf Stream. J. Geophys. Res., 100, 24773-24796.10.1029/95JC02580 Search in Google Scholar

Meier, H.E.M. (2004). Variational data assimilation using the adjoint method: an application for the Baltic Sea. Workshop on: Sea waves and ocean current modelling in marine ecology with emphasis on data assimilation, at the Marine Station in Hel, University of Gdansk. Search in Google Scholar

Meier, H.E.M. & Krauss, W. (1994). Data assimilation into a numerical model of the Baltic Sea using the adjoint method. Proceedings of the 19th Conference of the Baltic Oceanographers, Sopot, Poland, 447-458. Search in Google Scholar

Mellor, G.L. & Ezer T. (1994). A Gulf Stream model and an altimetry assimilation scheme. J. Geophys. Res., 96, 8779-8795.10.1029/91JC00383 Search in Google Scholar

Oey, L.-Y. & Chen P. (1992). A model simulation of circulation in the northeast Atlantic shelves and seas. J. Geophys. Res., 97, 20087-20115.10.1029/92JC01990 Search in Google Scholar

Pemberton, P. & Funkquist, L. (2006). Data Assimilation Experiments in the Baltic Sea. 9th HIROMB Scientific Workshop 2831, August 2006, SMHI, Gothenburg. Search in Google Scholar

Robinson, A.R., Lermusiaux P.F.J. & Sloan N.Q. (1998). Data assimilation. In: The Sea, 10, John Wiley and Sons, New York, NY, 541-594. Search in Google Scholar

Sarmiento, J.T. & Bryan K. (1982). An ocean transport model for the North Atlantic. J. Geophys. Res., 87, 394-408.10.1029/JC087iC01p00394 Search in Google Scholar

She, J., Høyer J. L. & Larsen J. (2007). Assessment of sea surface temperature observational networks in the Baltic Sea and North Sea. J. Mar. Sys., 65, 314-335.10.1016/j.jmarsys.2005.01.004 Search in Google Scholar

She, J. & Nakamoto S., (1996). Spatial Sampling study for tropical Pacific with observed sea surface temperature. J. Atmo. Ocean. Tech., 13, 1189-1201.10.1175/1520-0426(1996)013<1189:SSSFTT>2.0.CO;2 Search in Google Scholar

Seifert, T. & Kayser, B. (1995). A high resolution spherical grid topography of the Baltic Sea. Meereswissenschaftliche Berichte, 9, Institut fur Ostseeforschung, Warnemunde, 72-88. Search in Google Scholar

Sokolov, A., Andrejev, O., Wulff F. & Medina M.R. (1997), The Data Assimilation System for Data Analysis in the Baltic Sea. Systems Ecology Contributions. 3, Stockholm University, 1-66. Search in Google Scholar

Sørensen, J.V.T., Madsen H. & Madsen H. (2003). Data assimilation in a North Sea - Baltic Sea forecasting system: theoretical aspects. Geophysical Research Abstracts, 5, 03482. Search in Google Scholar

Tynana, C.T., Ainleyb D.G., Barthc J.A., Cowlesc T.J., Piercec S.D. & Spearb L.B. (2005). Cetacean distributions relative to ocean processes in the northern California Current Syste. Deep-Sea Research II, 52, 145-167.10.1016/j.dsr2.2004.09.024 Search in Google Scholar