Surface currents in the Porsanger fjord in northern Norway

Journal title

Polish Polar Research




vol. 37


No 3



Arctic ; coastal processes ; fjords ; northern Norway ; ocean observing systems ; tides

Divisions of PAS

Nauki o Ziemi




Polish Academy of Sciences ; Committee on Polar Research




Artykuły / Articles


ISSN 0138-0338 ; eISSN 2081-8262


ROBINSON (2011), A two year comparison between HF radar and ADCP current measurements in Liverpool Bay of, Journal Operational Oceanography, 4, 33, ; KOKKINI (2014), HF Radar observations of the Dardanelles outfl ow current in North Eastern Aegean using validated WERA HF radar data Mediterranean, Marine Science, 15, 753. ; STANEV (2014), Blending Surface Currents from HF Radar Observations and Numerical Modeling : Tidal Hindcasts and Forecasts of Atmospheric and, Journal Oceanic Technology, 32, 256, ; WUNSCH (1975), Internal tides in the ocean of Geophysics and Space, Reviews Physics, 13, 167. ; PADUAN (1997), Introduction to high - frequency radar : Reality and myth, Oceanography, 10, 36, ; OHLMANN (2007), Interpretation of coastal HF radar derived surface currents with high resolution drifter data of Atmospheric and, Journal Oceanic Technology, 24, 666, ; CHAPMAN (1997), On the accuracy of HF radar surface current measurements : Intercomparisons with ship based sensors of, Journal Geophysical Research, 102, 18737, ; MAYER (1981), Near - inertial internal waves observed on the outer shelf in the Middle Atlantic Bight in the wake of Hurricane Belle of, Journal Physical Oceanography, 11, 87,<0087:NIIWOO>2.0.CO;2 ; JAKOWCZYK (2014), Spatial and temporal variability of satellite - derived sea surface temperature in the Barents Sea, International Journal of Remote Sensing, 35, 6545, ; KAPLAN (2005), HF radar observations of surface circulation off Bodega Bay ( northern California of -, USA Journal Geophysical Research Oceans, 110, 10020, ; SEALEN (1967), Some features of the hydrography of Norwegian fjords In ed American Association for the Advancement of, Estuaries Science, 63. ; SHAY (2008), High frequency radar observing systems in SEACOOS lessons learned, Marine Technology Society Journal, 42, 2002, ; HELZEL (2011), Reliability of Coastal Radar WERA for Coastal Zone Management of, Journal Coastal Research SI, 64, 1345. ; CUSHMAN (1994), Upwelling in broad fjords, Continental Shelf Research, 14, 1701, ; SIVERTSEN (2015), On the brink of the Arctic : Unusual intertidal sub - Arctic kelp associations in the Porsangerfjord North Norway, Marine Biology Research, 11, 405, ; CARBAJAL (2004), Comparison between measured and calculated tidal ellipses in the German Bight, Ocean Dynamics, 54, 520, ; HELZEL (2010), Oceanography radar system WERA : features accuracy reliability and limitations of Electrical and, Turkish Journal Engineering Computer Science, 18, 389. ; KOHUT (2003), Improving HF radar surface current measurements with measured antenna beam patterns of Atmospheric and, Journal Oceanic Technology, 20, 1303,<1303:IHRSCM>2.0.CO;2 ; PARKS (2009), HF radar observations of small - scale surface current variability in the Straits of Florida of, Journal Geophysical Research, 114, 08002, ; GOOD (2007), The global trend in sea surface temperature from years of Advanced Very High Resolution Radiometer data, Journal of Climate, 20, 20, ; GONELLA (1972), Rotary component method for analyzing meteorological and oceanographic vector time series, Deep Sea Research, 19, 833. ; BARTH (2010), Ensemble perturbation smoother for optimizing tidal boundary conditions by assimilation of High - Frequency radar surface currents - application to the German Bight, Ocean Science, 6, 161, ; SVENDSEN (1995), Physical oceanography of coupled fjord - coast systems in northern Norway with special focus on frontal dynamics and tides In eds of Fjords and Coastal Waters New York, Ecology, 149.