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• Aucan J., Merrifield M.A. Boundary mixing associated with tidal and near-inertial internal waves. J. Phys. Oceanogr. 2008, 38:1238-1252.
• Aucan J., Merrifield M.A., Luther D.S., Flament P. Tidal mixing events on the deep flanks of Kaena Ridge, Hawaii. J. Phys. Oceanogr. 2006, 36:1202-1219.
• Behrenfeld M.J., O'Malley R.T., Siegel D.A., McClain C.R., Sarmiento J.L., Feldman G.C., Milligan A.J., Falkowski P.G., Letelier R.M., Boss E.S. Climate-driven trends in contemporary ocean productivity. Nature 2006, 444:752-755.
• Brovkin V., Ganopolski A., Svirezhev Y. A continuous climate-vegetation classification for use in climate-biosphere studies. Ecol. Modell. 1997, 101:251-261.
• Bryan K., Lewis L. A water mass model of the world ocean. J. Geophys. Res. 1979, 84:2503-2517.
• Carr M.-E., et al. A comparison of global estimates of marine primary production from ocean color. Deep Sea Res. Part II 2006, 53(5-7):741-770.
• Decloedt T., Luther D.S. On a simple empirical parameterization of topography-catalyzed diapycnal mixing in the abyssal ocean. J. Phys. Oceanogr. 2010, 40:487-508.
• Emile-Geay J., Madec G. Geothermal heating, diapycnal mixing and the abyssal circulation. Ocean Sci. 2009, 5:203-217.
• Eriksen C.C. Internal wave reflection and mixing at Fieberling Guyot. J. Geophys. Res. 1998, 103:2977-2994.
• Ferron B., Mercier H., Speer K., Gargett A., Polzin K. Mixing in the Romanche Fracture Zone. J. Phys. Oceanogr. 1998, 28:1929-1945.
• Fichefet T., Morales Maqueda M.A. Sensitivity of a global sea ice model to the treatment of ice thermodynamics and dynamics. J. Geophys. Res. 1997, 102(C6):12609-12646.
• Fichefet T., Morales Maqueda M.A. Modelling the influence of snow accumulation and snow-ice formation on the seasonal cycle of the Antarctic sea-ice cover. Clim. Dynam. 1999, 15(4):251-268.
• Garcia, H.E., Locarnini, R.A., Boyer, T.P., Antonov, J.I., 2006. World Ocean Atlas 2005. NOAA Atlas NESDIS 63, US Government Printing Office, Washington, D.C., Ch. Dissolved Oxygen, Apparent Oxygen Utilization, and Oxygen Saturation, 342 pp.
• Gnanadesikan A., Slater R.D., Gruber N., Sarmiento J.L. Oceanic vertical exchange and new production: a comparison between models and observations. Deep Sea Res. Part II 2002, 49(1-3):363-401.
• Gnanadesikan A., Dunne J.P., Key R.M., Matsumoto K., Sarmiento J.L., Slater R.D., Swathi P.S. Oceanic ventilation and biogeochemical cycling: understanding the physical mechanisms that produce realistic distributions of tracers and productivity. Global Biogeochem. Cycles 2004, 18(4):GB4010.
• Gnanadesikan A., Russell J.L., Zeng F. How does ocean ventilation change under global warming. Ocean Sci. 2007, 3:43-53.
• Goosse H., Deleersnijder E., Fichefet T., England M. Sensitivity of a global coupled ocean-sea ice model to the parameterization of vertical mixing. J. Geophys. Res. 1999, 104(C6):13681-13695.
• Goosse, H., Brovkin, V., Fichefet, T., Haarsma, R., Huybrechts, P., Jongma, J., Mouchet, A., Selten, F., Barriat, P.-Y., Campin, J.-M., Deleersnijder, E., Driesschaert, E., Goelzer, E., Janssens, I., Loutre, M.-F., Morales Maqueda, M.A., Opsteegh, T., Mathieu, P.-P., Munhoven, G., Pettersosn, E.J., Renssen, H., Roche, D.M., Schaeffer, M., Tartinville, B., Timmermann, A., Weber, S.L., 2010. Description of the Earth system model of intermediate complexity LOVECLIM version 1.2. Geophys. Model Dev. 3, pp. 603-633.
• Gregg M.C. Diapycnal mixing in the thermocline - a review. J. Geophys. Res. 1987, 92:5249-5286.
• Gregg M.C., Sanford T.B. Signatures of mixing from the Bermuda Slope, the Sargasso Sea and the Gulf-Stream. J. Phys. Oceanogr. 1980, 10:105-127.
• Griesel, A., 2005. Modeling large-scale ocean circulation: the role of mixing location and meridional pressure gradients for the Atlantic Meridional Overturning Circulation. Ph.D. Thesis, University of Potsdam.
• Hasumi H., Suginohara N. Effects of locally enhanced vertical diffusivity over rough bathymetry on the world ocean circulation. J. Geophys. Res. 1999, 104:23367-23374.
• Huang R.X., Jin X.Z. Deep circulation in the South Atlantic induced by bottom-intensified mixing over the midocean ridge. J. Phys. Oceanogr. 2002, 32:1150-1164.
• Jayne S.R. The impact of abyssal mixing parameterizations in an Ocean General Circulation Model. J. Phys. Oceanogr. 2009, 39:1756-1775.
• Jayne S.R., Laurent L.C.S. Parameterizing tidal dissipation over rough topography. Geophys. Res. Lett. 2001, 28:811-814.
• Kallberg, P., Simmons, S., Uppala, S., Fuentes, M., 2004. The ERA-40 archive. Tech. rep., ECMWF, ERA-40 Project Report Series No. 17.
• Katsman C.A. Impacts of localized mixing and topography on the stationary abyssal circulation. J. Phys. Oceanogr. 2006, 36:1660-1671.
• Key R.M., Kozyr A., Sabine C.L., Lee K., Wanninkhof R., Bullister J.L., Feely R.A., Millero F.J., Mordy C., Peng T.-H. A global ocean carbon climatology: results from GLODAP. Global Biogeochem. Cycles 2004, 18:GB4031.
• Klymak J.M., Moum J.N., Nash J.D., Kunze E., Girton J.B., Carter G.S., Lee C.M., Sanford T.B., Gregg M.C. An estimate of tidal energy lost to turbulence at the Hawaiian Ridge. J. Phys. Oceanogr. 2006, 36:1148-1164.
• Koch-Larrouy A., Madec G., Bouruet-Aubertot P., Gerkema T., Bessieres L., Molcard R. On the transformation of Pacific Water into Indonesian throughflow water by internal tidal mixing. Geophys. Res. Lett. 2007, 34.
• Kunze E., Sanford T.B. Abyssal mixing: where it is not. J. Phys. Oceanogr. 1996, 26:2286-2296.
• Kunze E., Firing E., Hummon J.M., Chereskin T.K., Thurnherr A.M. Global abyssal mixing inferred from lowered ADCP shear and CTD strain profiles. J. Phys. Oceanogr. 2006, 36:1553-1576.
• Laurent L.C., Simmons H.L., Jayne S.R. Estimating tidally driven mixing in the deep ocean. Geophys. Res. Lett. 2002, 29.
• Ledwell J.R., St. Laurent L.C., Girton J.B., Toole J.M. Diapycnal mixing in the Antarctic circumpolar current. J. Phys. Oceanogr. 2011, 41:241-246.
• Levine M.D., Boyd T.J. Tidally forced internal waves and overturns observed on a slope: results from HOME. J. Phys. Oceanogr. 2006, 36:1184-1201.
• Levitus, S., 1994. Climatological Atlas of the World Ocean. Tech. rep., NOAA Prof. Paper 13.
• Lukas R., Santiago-Mandujano F., Bingham F., Mantyla A. Cold bottom water events observed in the Hawaii ocean time-series: implications for vertical mixing. Deep Sea Res. Part I 2001, 48:995-1021.
• Marshall D.P., Garabato A.C.N. A conjecture on the role of bottom-enhanced diapycnal mixing in the parameterization of geostrophic eddies. J. Phys. Oceanogr. 2008, 38:1607-1613.
• Mellor G., Yamada T. Development of a turbulence closure model for geophysical fluid problems. Rev. Geophys. Space Phys. 1982, 20:851-875.
• Menviel L., Timmermann A., Mouchet A., Timm O. Climate and marine carbon cycle response to changes in the strength of the southern hemispheric westerlies. Paleoceanography 2008, 23. 10.1029/2008PA001604.
• Menviel L., Timmermann A., Mouchet A., Timm O. Meridional reorganization of marine and terrestrial productivity during Heinrich events. Paleoceanography 2008, 23. 10.1029/2007PA001445.
• Müller P., Xu N. Scattering of oceanic internal gravity-waves off random bottom topography. J. Phys. Oceanogr. 1992, 22:474-488.
• Munk W., Wunsch C. Abyssal recipes II: energetics of tidal and wind mixing. Deep Sea Res. Part I 1998, 45:1977-2010.
• Nash J.D., Kunze E., Toole J.M., Schmitt R.W. Internal tide reflection and turbulent mixing on the continental slope. J. Physi. Oceanogr. 2004, 34:1117-1134.
• Nikurashin M., Ferrari R. Radiation and dissipation of internal waves generated by geostrophic motions impinging on small-scale topography: application to the Southern Ocean. J. Phys. Oceanogr. 2010, 40:2025-2042.
• Okazaki Y., Timmermann A., Menviel L., Harada N., Abe-Ouchi A., Chikamoto M.O., Mouchet A., Asahi H. Deep water formation in the North Pacific during the last glacial termination. Science 2010, 329:200-204.
• Oschlies A., Schulz K.G., Riebesell U., Schmittner A. Simulated 21st century's increase in oceanic suboxia by CO2-enhanced biotic carbon export. Global Biogeochem. Cycles 2008, 22:GB4008.
• Palmer M.D., Garabato A.C.N., Stark J.D., Hirschi J.J.M., Marotzke J. The influence of diapycnal mixing on quasi-steady overturning states in the Indian Ocean. J. Phys. Oceanogr. 2007, 37:2290-2304.
• Polzin, K., 1992. Observations of turbulence, internal waves and background flows: an inquiry into relationships between scales of motion. Ph.D. thesis, MIT-WHOI Joint Program in Oceanography.
• Polzin K. Idealized solutions for the energy balance of the finescale internal wave field. J. Phys. Oceanogr. 2004, 34:231-246.
• Polzin K., Firing E. Estimates of diapycnal mixing using LADCP and CTD data from I8S. Int. WOCE Newslett. 1997, 29:39-42.
• Polzin K., Toole J.M., Schmitt R.W. Finescale parameterizations of turbulent dissipation. J. Phys. Oceanogr. 1995, 25:306-328.
• Polzin K.L., Toole J.M., Ledwell J.R., Schmitt R.W. Spatial variability of turbulent mixing in the abyssal ocean. Science 1997, 276:93-96.
• Saenko O.A. The effect of localized mixing on the ocean circulation and time-dependent climate change. J. Phys. Oceanogr. 2006, 36:140-160.
• Saenko O.A., Merryfield W.J. On the effect of topographically enhanced mixing on the global ocean circulation. J. Phys. Oceanogr. 2005, 35:826-834.
• Schmittner A. Decline of the marine ecosystem caused by a reduction in the Atlantic overturning. Nature 2005, 434:628-633.
• Schmittner A., Galbraith E.D. Glacial greehouse-gas fluctuations controlled by ocean circulation changes. Nature 2008, 456:373-376.
• Schmittner A., Oschlies A., Giraud X., Simmons H.L. A global model of the marine ecosystem for long term simulations: sensitivity to ocean mixing, buoyancy forcing, particle sinking and dissolved organic matter cycling. Global Biogeochem. Cycles 2005, 19:GB3004.
• Schmittner A., Galbraith E.D., Hostetler S.W., Pedersen T.F., Zhang R. Large fluctuations of dissolved oxygen in the Indian and Pacific oceans during Dansgaard-Oeschger oscillations caused by variations of North Atlantic deep water subduction. Paleoceanography 2007, 22:PA3207.
• Simmons H.L., Jayne S.R., Laurent L.C.S., Weaver A.J. Tidally driven mixing in a numerical model of the ocean general circulation. Ocean Modell. 2004, 6:245-263.
• Smith W.H.F., Sandwell D.T. Global sea floor topography from satellite altimetry and ship depth soundings. Science 1997, 277:1956-1962.
• St. Laurent, L.C., 1999. Diapycnal advection by double diffusion and turbulence in the ocean. Ph.D. thesis, MIT-WHOI Joint Program in Oceanography.
• St. Laurent L.C., Thurnherr A.M. Intense mixing of lower thermocline water on the crest of the mid-Atlantic ridge. Nature 2007, 448:680-683.
• Taucher J., Oschlies A. Can we predict the direction of marine production change under global warming?. Geophys. Res. Lett. 2011, 38:L02603.
• Taylor K.E. Summarizing multiple aspects of model performance in a single diagram, J. Geophys. Res. 2001, 106:7183-7192.
• Thurnherr A.M. Diapycnal mixing associated with an overflow in a deep submarine canyon. Deep Sea Res. II 2006, 53:194-206.
• Toole J.M., Schmitt R.W., Polzin K.L., Kunze E. Near-boundary mixing above the flanks of a midlatitude seamount. J. Geophys. Res. 1997, 102:947-959.
• Wanninkhof R. Relationship between wind speed and gas exchange over the ocean. J. Geophys. Res. 1992, 97:7373-7382.
• Wunsch C., Ferrari R. Vertical mixing, energy and the general circulation of the oceans. Ann. Rev. Fluid Mech. 2004, 36:281-314.