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[2] B. Büchmann and J. Söderkvist, “Internal variability of a 3-D ocean model,” Tellus A, vol. 68, 2016. [ bib | DOI | http ]
[3] U. Gräwe, G. Flöser, T. Gerkema, M. Duran-Matute, T. H. Badewien, E. Schulz, and H. Burchard, “A numerical model for the entire Wadden Sea: Skill assessment and analysis of hydrodynamics,” Journal of Geophysical Research: Oceans, vol. 121, pp. 5231--5251, 2016. [ bib | DOI ]
[4] C. Liquete, C. Piroddi, D. Macías, J.-N. Druon, and G. Zulian, “Ecosystem services sustainability in the mediterranean sea: assessment of status and trends using multiple modelling approaches,” Scientific Reports, vol. 6, p. 34162, 2016. Article. [ bib | DOI | http ]
[5] D. Macias, E. Garcia-Gorriz, and A. Stips, “The seasonal cycle of the atlantic jet dynamics in the alboran sea: direct atmospheric forcing versus mediterranean thermohaline circulation,” Ocean Dynamics, 2016. [ bib | DOI ]
[6] K. Purkiani, J. Becherer, K. Klingbeil, and H. Burchard, “Wind-induced variability of estuarine circulation in a tidally energetic inlet with curvature,” Journal of Geophysical Research: Oceans, vol. 121, pp. 1--17, 2016. [ bib | DOI ]
[7] P. Schwemmer, F. Güpner, S. Adler, K. Klingbeil, and S. Garthe, “Modelling small-scale foraging habitat use in breeding Eurasian oystercatchers (Haematopus ostralegus) in relation to prey distribution and environmental predictors,” Ecological Modelling, vol. 320, pp. 322--333, 2016. [ bib | DOI | http ]
[8] E. Soosaar, I. Maljutenko, R. Uiboupin, M. Skudra, and U. Raudsepp, “River bulge evolution and dynamics in a non-tidal sea – Daugava River plume in the Gulf of Riga, Baltic Sea,” Ocean Science, vol. 12, no. 2, pp. 417--432, 2016. [ bib | DOI | http ]
[9] E. V. Stanev, J. Schulz-Stellenfleth, J. Staneva, S. Grayek, S. Grashorn, A. Behrens, W. Koch, and J. Pein, “Ocean forecasting for the German Bight: from regional to coastal scales,” Ocean Science, vol. 12, no. 5, pp. 1105--1136, 2016. [ bib | DOI ]
[10] J. Staneva, K. Wahle, H. Günther, and E. Stanev, “Coupling of wave and circulation models in coastal--ocean predicting systems: a case study for the German Bight,” Ocean Science, vol. 12, no. 3, pp. 797--806, 2016. [ bib | DOI ]
[11] J. Staneva, K. Wahle, W. Koch, A. Behrens, L. Fenoglio-Marc, and E. V. Stanev, “Coastal flooding: impact of waves on storm surge during extremes -- a case study for the German Bight,” Natural Hazards and Earth System Sciences, vol. 16, no. 11, pp. 2373--2389, 2016. [ bib | DOI ]
[12] H. Burchard and T. H. Badewien, “Thermohaline residual circulation of the Wadden Sea,” Ocean Dynamics, vol. 65, pp. 1717--1730, 2015. [ bib | DOI ]
[13] M. Duran-Matute and T. Gerkema, “Calculating residual flows through a multiple-inlet system: the conundrum of the tidal period,” Ocean Dynamics, vol. 65, pp. 1461--1475, 2015. [ bib | DOI ]
[14] U. Gräwe, H. Burchard, M. Naumann, and V. Mohrholz, “Anatomizing one of the largest saltwater inflows into the Baltic Sea in December 2014,” Journal of Geophysical Research: Oceans, vol. 120, pp. 7676--7697, 2015. [ bib | DOI ]
[15] U. Gräwe, P. Holtermann, K. Klingbeil, and H. Burchard, “Advantages of vertically adaptive coordinates in numerical models of stratified shelf seas,” Ocean Modelling, vol. 92, pp. 56--68, 2015. [ bib | DOI ]
[16] Y. Hetzel, C. Pattiaratchi, R. Lowe, and R. Hofmeister, “Wind and tidal mixing controls on stratification and dense water outflows in a large hypersaline bay,” Journal of Geophysical Research: Oceans, vol. 120, pp. 6034--6056, 2015. [ bib | DOI ]
[17] V. Kourafalou, P. D. Mey, J. Staneva, N. Ayoub, A. Barth, Y. Chao, M. Cirano, J. Fiechter, M. Herzfeld, A. Kurapov, A. Moore, P. Oddo, J. Pullen, A. van der Westhuysen, and R. Weisberg, “Coastal ocean forecasting: science foundation and user benefits,” Journal of Operational Oceanography, vol. 8, no. sup1, pp. s147--s167, 2015. [ bib | DOI ]
[18] D. Macias, E. Garcia-Gorriz, and A. Stips, “Productivity changes in the mediterranean sea for the twenty-first century in response to changes in the regional atmospheric forcing.,” Frontiers in Marine Science, vol. 2, 2015. [ bib | DOI ]
[19] M. Mohammadi-Aragh, K. Klingbeil, N. Brüggemann, C. Eden, and H. Burchard, “The impact of advection schemes on lateral shear and baroclinic instabilities,” Ocean Modelling, vol. 94, pp. 112--127, 2015. [ bib | DOI ]
[20] V. Mohrholz, M. Naumann, G. Nausch, S. Krüger, and U. Gräwe, “Fresh oxygen for the baltic sea --- an exceptional saline inflow after a decade of stagnation,” Journal of Marine Systems, vol. 148, pp. 152--166, 2015. [ bib | DOI ]
[21] K. Purkiani, J. Becherer, G. Flösser, U. Gräwe, V. Mohrholz, H. M. Schuttelaars, and H. Burchard, “Numerical analysis of stratification and de-stratification processes in a tidally energetic inlet with an ebb tidal delta,” Journal of Geophysical Research: Oceans, vol. 120, pp. 225--243, 2015. [ bib | DOI ]
[22] M. G. Sassi, M. Duran-Matute, T. van Kessel, and T. Gerkema, “Variability of residual fluxes of suspended sediment in a multiple-inlet system: the dutch wadden sea,” Ocean Dynamics, vol. 65, pp. 1321--1333, 2015. [ bib | DOI ]
[23] E. Schulz, H. M. Schuttelaars, U. Gräwe, and H. Burchard, “Impact of the depth-to-width ratio of a tidally energetic estuary on the residual along-channel circulation,” Journal of Physical Oceanography, vol. 45, pp. 2048--2069, 2015. [ bib | DOI ]
[24] E. V. Stanev, R. Al-Nadhairi, and A. Valle-Levinson, “The role of density gradients on tidal asymmetries in the german bight,” Ocean Dynamics, vol. 65, no. 1, pp. 77--92, 2015. [ bib | DOI ]
[25] H. Burchard, U. Gräwe, P. L. Holtermann, K. Klingbeil, and L. Umlauf, “Turbulence closure modelling in coastal waters,” Die Küste, vol. 81, pp. 69--87, 2014. [ bib ]
[26] H. Burchard, E. Schulz, and H. M. Schuttelaars, “Impact of estuarine convergence on residual circulation in tidally energetic estuaries and inlets,” Geophysical Research Letters, vol. 41, pp. 913--919, 2014. [ bib | DOI ]
[27] G. Lessin, U. Raudsepp, I. Maljutenko, J. Laanemets, J. Passenko, and A. Jaanus, “Model study on present and future eutrophication and nitrogen fixation in the Gulf of Finland, Baltic Sea,” Journal of Marine Systems, vol. 129, pp. 76--85, 2014. [ bib | DOI | http ]
[28] G. Lessin, U. Raudsepp, and A. Stips, “Modelling the influence of Major Baltic Inflows on Near-Bottom Conditions at the Entrance of the Gulf of Finland,” PLoS ONE, 2014. [ bib | DOI ]
[29] D. Macias, E. Garcia-Gorriz, C. Piroddi, and A. Stips, “Biogeochemical control of marine productivity in the Mediterranean Sea during the last 50 years,” Global Biogeochem. Cycles, vol. 10, pp. 897--907, 2014. [ bib | DOI ]
[30] M. Duran-Matute, T. Gerkema, G. J. de Boer, J. J. Nauw, and U. Gräwe, “Residual circulation and freshwater transport in the dutch wadden sea: a numerical modelling study,” Ocean Science, vol. 10, no. 4, pp. 611--632, 2014. [ bib | DOI | http ]
[31] K. Klingbeil, M. Mohammadi-Aragh, U. Gräwe, and H. Burchard, “Quantification of spurious dissipation and mixing -- discrete variance decay in a finite-volume framework,” Ocean Modelling, 2014. [ bib | DOI ]
[32] E. Soosaar, I. Maljutenko, U. Raudsepp, and J. Elken, “An investigation of anticyclonic circulation in the southern Gulf of Riga during the spring period,” Continental Shelf Research, vol. 78, pp. 75--84, 2014. [ bib | DOI | http ]
[33] E. V. Stanev, R. Al-Nadhairi, J. Staneva, J. Schulz-Stellenfleth, and A. Valle-Levinson, “Tidal wave transformations in the German Bight,” Ocean Dynamics, vol. 64, no. 7, pp. 951--968, 2014. [ bib | DOI ]
[34] E. V. Stanev, Y. He, J. Staneva, and E. Yakushev, “Mixing in the black sea detected from the temporal and spatial variability of oxygen and sulfide – argo float observations and numerical modelling,” Biogeosciences, vol. 11, no. 20, pp. 5707--5732, 2014. [ bib | DOI ]
[35] P. L. Holtermann, H. Burchard, U. Gräwe, K. Klingbeil, and L. Umlauf, “Deep-water dynamics and boundary mixing in a nontidal stratified basin: A modeling study of the baltic sea,” Journal of Geophysical Research: Oceans, vol. 119, no. 2, pp. 1465--1487, 2014. [ bib | DOI ]
[36] D. Macias, A. Stips, and E. Garcia-Gorriz, “The relevance of deep chlorophyll maximum in the open mediterranean sea evaluated through 3d hydrodynamic-biogeochemical coupled simulations,” Ecological Modelling, vol. 281, pp. 26--37, 2014. [ bib | DOI ]
[37] P. Tett, R. J. Gowen, S. J. Painting, M. Elliott, R. Forster, D. K. Mills, E. Bresnan, E. Capuzzo, T. Fernandes, J. Foden, et al., “Framework for understanding marine ecosystem health,” Marine Ecology Progress Series, vol. 494, pp. 1--27, 2013. [ bib | DOI ]
[38] S. M. van Leeuwen, J. van der Molen, P. Ruardij, L. Fernand, and T. Jickells, “Modelling the contribution of deep chlorophyll maxima to annual primary production in the North Sea,” Biogeochemistry, vol. 113, pp. 137--152, 2013. [ bib | DOI ]
[39] R. Hofmeister, K. Bolding, R. D. Hetland, G. Schernewski, and H. Burchard, “The dynamics of cooling water discharge in a shallow, non-tidal embayment,” Cont. Shelf Res., vol. 71, pp. 68--77, 2013. [ bib ]
[40] B. Schippmann, G. Schernewski, U. Gräwe, H. Burchard, and T. Walczykiewicz, “A model tool for bathing water quality management: A case study on salmonella occurrence at the southern baltic coast,” Ocean & Coastal Management, vol. 82, no. 0, pp. 71--84, 2013. [ bib ]
[41] K. Klingbeil and H. Burchard, “Implementation of a direct nonhydrostatic pressure gradient discretisation into a layered ocean model,” Ocean Modelling, vol. 65, pp. 64--77, 2013. [ bib | DOI ]
[42] U. Gräwe, R. Friedland, and H. Burchard, “The future of the western baltic sea: two possible scenarios,” Ocean Dynamics, vol. 63, no. 8, pp. 901--921, 2013. [ bib | DOI ]
[43] D. Macias, E. Garcia-Gorriz, and A. Stips, “Understanding the causes of recent warming of mediterranean waters. how much could be attributed to climate change?,” PLOSone, vol. 8(11), p. e81591, 2013. [ bib | DOI ]
[44] S. Moghimi, K. Klingbeil, U. Gräwe, and H. Burchard, “A direct comparison of a depth-dependent radiation stress formulation and a vortex force formulation within a three-dimensional coastal ocean model,” Ocean Modelling, vol. 70, pp. 132--144, 2013. [ bib | DOI ]
[45] U. Raudsepp, J. Laanemets, I. Maljutenko, M. Hongisto, and J.-p. Jalkanen, “Impact of ship-borne nitrogen deposition on the Gulf of Finland ecosystem : an evaluation,” Oceanologia, vol. 55, no. 4, pp. 1--21, 2013. [ bib | DOI ]
[46] G. Schernewski, E. Fischer, T. Huttula, G. Jost, and M. Ras, “Simulation tools to support bathing water quality management: Escherichia coli bacteria in a Baltic lagoon,” Journal of Coastal Conservation, vol. 16, pp. 473--488, 2012. [ bib | DOI ]
[47] H. Burchard and H. M. Schuttelaars, “Analysis of tidal straining as driver for estuarine circulation in tidally energetic estuaries,” Journal of Physical Oceanography, vol. 42, pp. 261--271, 2012. [ bib ]
[48] U. Gräwe and H. Burchard, “Storm surges in the Western Baltic Sea: the present and a possible future,” Climate Dynamics, vol. 39, pp. 165--183, 2012. [ bib ]
[49] H. Rennau, S. Schimmels, and H. Burchard, “The impact of offshore wind farms on transport and dilution in density-driven bottom currents: a numerical model study,” Coastal Engineering, vol. 60, pp. 53--68, 2012. [ bib ]
[50] J. Becherer and L. Umlauf, “Boundary mixing in lakes. Part I. modeling the effect of shear-induced convection,” Journal of Geophyscal Research, vol. 116, 2011. [ bib | DOI ]
[51] C. Lorrai, L. Umlauf, J. Becherer, and A. Wüest, “Boundary mixing in lakes. Part II. Combined effects of shear-induced and convective turbulence on basin-scale mixing,” Journal of Geophyscal Research, vol. 116, 2011. [ bib | DOI ]
[52] A. Barth, A. Alvera-Azcarate, J.-M. Beckers, J. Staneva, E. V. Stanev, and J. Schulz-Stellenfleth, “Correcting surface winds by assimilating High-Frequency Radar surface currents in the German Bight,” Ocean Dynamics, vol. 599-610, 2011. [ bib ]
[53] B. Büchmann, C. Hansen, and J. Söderkvist, “Improvement of hydrodynamic forecasting of Danish waters: impact of low-frequency North Atlantic barotropic variations,” Ocean Dynamics, 2011. [ bib | DOI ]
[54] H. Burchard, R. D. Hetland, E. Schulz, and H. M. Schuttelaars, “Drivers of residual circulation in tidally energetic estuaries: Straight and irrotational estuaries with parabolic cross-section,” Journal of Physical Oceanography, vol. 41, pp. 548--570, 2011. [ bib ]
[55] R. Hofmeister, J.-M. Beckers, and H. Burchard, “Realistic modelling of the exceptional inflows into the central Baltic Sea in 2003 using terrain-following coordinates,” Ocean Modelling, vol. 39, pp. 233--247, 2011. [ bib ]
[56] H.-J. Lenhart, D. K. Mills, H. Baretta-Bekker, S. M. Van Leeuwen, J. Van Der Molen, J. W. Baretta, M. Blaas, X. Desmit, W. Kühn, G. Lacroix, et al., “Predicting the consequences of nutrient reduction on the eutrophication status of the north sea,” Journal of Marine Systems, vol. 81, pp. 148--170, 2010. [ bib | DOI ]
[57] A. Barth, A. Alvera-Azcarate, K.-W. Gurgel, J. Staneva, A. Port, J.-M. Beckers, and E. V. Stanev, “Ensemble perturbation smoother for optimizing tidal boundary conditions by assimilation of High-Frequency Radar surface currents - application to the German Bight,” Ocean Science, vol. 6, pp. 161--178, 2010. [ bib ]
[58] R. Hofmeister, H. Burchard, and J.-M. Beckers, “Non-uniform adaptive vertical grids for 3d numerical ocean models,” Ocean Modelling, vol. 33, pp. 70--86, 2010. [ bib ]
[59] L. Umlauf, L. Arneborg, R. Hofmeister, and H. Burchard, “Entrainment in shallow rotating gravity currents: a modelling study,” Journal of Physical Oceanography, vol. 40, pp. 1819--1834, 2010. [ bib ]
[60] H. Burchard, F. Janssen, K. Bolding, L. Umlauf, and H. Rennau, “Model simulations of dense bottom currents in the Western Baltic Sea,” Continental Shelf Research, vol. 29, pp. 205--220, 2009. [ bib ]
[61] E. Fischer, R. D. Hetland, and H. Burchard, “Numerical investigations of the turbulent kinetic energy dissipaption rate in the Rhine region of freshwater influence,” Ocean Dynamics, vol. 59, pp. 629--641, 2009. [ bib | DOI ]
[62] U. Gräwe and J.-O. Wolff, “Suspended particulate matter dynamics in a particle framework,” Environmental Fluid Mechanics, vol. 10, pp. 21--39, 2009. [ bib | DOI ]
[63] R. Hofmeister, H. Burchard, and K. Bolding, “A three-dimensional study on processes of stratification and de-stratification in the Limfjord,” Continental Shelf Research, vol. 29, pp. 1515--1524, 2009. [ bib ]
[64] P. Holtermann, H. Burchard, and T. Jennerjahn, “Hydrodynamics of the Segara Anakan Lagoon,” Regional Environmental Change, vol. 9, pp. 245--258, 2009. [ bib ]
[65] K. Lettmann, J.-O. Wolff, and T. H. Badewien, “Modelling the impact of wind and waves on suspended particulate matter fluxes in the east frisian wadden sea (southern north sea),” Ocean Dynamics, vol. 59, no. 2, pp. 239--262, 2009. [ bib | DOI ]
[66] J. H. Reissmann, H. Burchard, R. Feistel, E. Hagen, H. U. Lass, V. Mohrholz, G. Nausch, L. Umlauf, and G. Wieczorek, “State-of-the-art review on Baltic mixing and consequences for eutrophication,” Progress in Oceanography, vol. 82, pp. 47--80, 2009. [ bib ]
[67] H. Rennau and H. Burchard, “Quantitative analysis of numerically induced mixing in a coastal model application,” Ocean Dynamics, vol. 59, pp. 671--687, 2009. [ bib ]
[68] J. Staneva, E. Stanev, J.-O. Wolff, T. H. Badewein, R. Reuter, B. Flemming, A. Bartholomä, and K. Bolding, “Hydrodynamics and sediment dynamics in the German Bight. A focus on observations and numerical modelling in the East Frisian Wadden Sea,” Continental Shelf Research, vol. 29, pp. 302--319, 2009. [ bib ]
[69] H. Burchard, G. Flöser, J. V. Staneva, T. H. Badewien, and R. Riethmüller, “Impact of density gradients on net sediment transport into the Wadden Sea,” Journal of Physical Oceanography, vol. 38, pp. 566--587, 2008. [ bib | DOI ]
[70] H. Burchard and R. Hofmeister, “A dynamic equation for the potential energy anomaly for analysing mixing and stratification in estuaries and coastal seas,” Estuarine, Coastal and Shelf Science, vol. 77, pp. 679--687, 2008. [ bib ]
[71] H. Burchard and H. Rennau, “Comparative quantification of physically and numerically induced mixing in ocean models,” Ocean Modelling, vol. 20, pp. 293--311, 2008. [ bib ]
[72] M.-J. Lilover and A. Stips, “The variability of parameters controlling the cyanobacteria bloom biomass in the Baltic Sea,” Journal of Marine Sysystems, vol. 74, pp. 108--115, 2008. [ bib ]
[73] N. S. Banas, B. M. Hickey, J. A. Newton, and J. L. Ruesink, “Tidal exchange, bivalve grazing, and patterns of primary production in Willapa Bay, Washington, USA,” Marine Ecology Progress Series, vol. 341, pp. 123--139, 2007. [ bib ]
[74] E. V. Stanev, B. W. Flemming, A. Bartholomä, J. V. Staneva, and J.-O. Wolff, “Vertical circulation in shallow tidal inlets and back-barrier basins,” Continental Shelf Research, vol. 27, pp. 798--331, 2007. [ bib ]
[75] E. V. Stanev, G. Brink-Spalink, and J.-O. Wolff, “Sediment dynamics in tidally dominated environments controlled by transport and turbulence. A case study for the East Frisian Wadden Sea,” Journal of Geophyscal Research, vol. 112, 2007. [ bib | DOI ]
[76] E. V. Stanev, J.-O. Wolff, and G. Brink-Spalink, “On the sensitivity of the sedimentary system in the East Frisian Wadden Sea to sea-level rise and wave-induced bed shear stress,” Ocean Dynamics, vol. 56, pp. 266--283, 2006. [ bib ]
[77] N. S. Banas and B. M. Hickey, “Mapping exchange and residence time in a model of willapa bay, washington, a branching, macrotidal estuary,” Journal of Geophyscal Research, vol. 110, p. C11011, 2005. [ bib ]
[78] H. Burchard, H. Lass, V. Mohrholz, L. Umlauf, J. Sellschopp, V. Fiekas, K. Bolding, , and L. Arneborg, “Dynamics of medium-intensity dense water plumes in the Arkona Sea, Western Baltic Sea,” Ocean Dynamics, vol. 55, pp. 391--402, 2005. [ bib ]
[79] L. Umlauf and U. Lemmin, “Inter-basin exchange and mixing in the hypolimnion of a large lake: the role of long internal waves,” Limnology and Oceanography, vol. 50, pp. 1601--1611, 2005. [ bib ]
[80] H. Burchard, K. Bolding, and M. R. Villarreal, “Three-dimensional modelling of estuarine turbidity maxima in a tidal estuary,” Ocean Dynamics, vol. 54, pp. 250--265, 2004. [ bib ]
[81] A. Stips, K. Bolding, T. Pohlman, and H. Burchard, “Simulating the temporal and spatial dynamics of the North Sea using the new model getm (General Estuarine Transport Model),” Ocean Dynamics, vol. 54, pp. 266--283, 2004. [ bib | DOI ]
[82] E. V. Stanev, J.-O. Wolff, H. Burchard, K. Bolding, and G. Flöser, “On the circulation in the east frisian wadden sea: Numerical modeling and data analysis,” Ocean Dynamics, vol. 52, pp. 153--168, 2003. [ bib ]
[83] E. V. Stanev, G. Flöser, and J.-O. Wolff, “Dynamical control on water exchanges between tidal basins and the open sea. A case study for the East Frisian Wadden Sea,” Ocean Dynamics, vol. 53, pp. 146--165, 2003. [ bib ]
[84] P.-P. Mathieu, E. Deleersnijder, B. Cushman-Roisin, J.-M. Beckers, and K. Bolding, “The role of topography in small well-mixed bays, with application to the lagoon of Mururoa,” Continental Shelf Research, vol. 22, pp. 1379--1395, 2002. [ bib ]
[85] H. Burchard, “Recalculation of surface slopes as forcing for numerical water column models of tidal flow,” Applied Mathematical Modelling, vol. 23, pp. 737--755, 1999. [ bib ]

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