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Tellus A: Dynamic Meteorology and Oceanography Volume 59, 2007 - Issue 3
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Original Articles

On the origin of interdecadal oscillations in a coupled ocean—atmosphere model

Olivier ArzelClimate and Environmental Dynamics Laboratory, School of Mathematics and Statistics, University of New South Wales, NSW 2052, Sydney, Australia;Correspondence[email protected]
,
Alain Colin De VerdíereLaboratoire de Physique des Océans, Université de Bretagne Occidentale, 6 Avenue Le Gorgeu, C.S. 93837, 29238 Brest cedex 3, France
&
Thierry HuckLaboratoire de Physique des Océans, Université de Bretagne Occidentale, 6 Avenue Le Gorgeu, C.S. 93837, 29238 Brest cedex 3, France
Pages 367-383 | Received 04 Sep 2006, Accepted 22 Dec 2006, Published online: 15 Dec 2016

References

  • Arzel, O. 2004. Mecanismes de variabilite climatique interdecennale dans des modeles idealises, These de doctorat de l’Universite de Bretagne Occidentale, 242 pages, Brest, France.
  • Arzel, O., Huck, T. and Colin de Verdiere, A. 2006. The different nature of the interdecadal variability of the thermohaline circulation under mixed and flux boundary conditions. J. Phys. Oceanogr 36, 703–1718.
  • Branscome, L. E. 1983. A parameterization of transient eddy heat flux on a beta-plane. J. Atmos. Sc i. 40,2508–2521.
  • Chen, F. and Ghil, M. 1995. Interdecadal variability of the thermohaline circulation and high-latitude surface fluxes. J. Phys. Oceanogr 25, 2547–2568.
  • Chen, E and Ghil, M. 1996. Interdecadal variability in a hybrid coupled ocean-atmosphere model. J. Phys. Oceanogr. 26, 1561–1578.
  • Colin de Verdiere, A. 1988. Buoyancy driven planetary flows. J. Mar. Res. 46, 215–265.
  • Colin de Verdiere, A. and Huck, T. 1999. Baroclinic instability: an oceanic wavemaker for interdecadal variability. J. Phys. Oceanogr. 29, 893-910.
  • Delworth, T. L. and Greatbatch, R. J. 2000. Multidecadal thermohaline circulation variability excited by atmospheric surface flux forcing. J. Clim. 13, 1481–1495.
  • Delworth, T. L. and Mann, M. E. 2000. Observed and simulated multi-decadal variability in the northern hemisphere. Clim. Dyn. 16, 661–676.
  • Delworth, T. L., Manabe, S. and Stouffer, R. J. 1993. Interdecadal variations of the thermohaline circulation in a coupled ocean-atmosphere model. J. Clim. 6,1993–2011.
  • Deser, C. and Blackmon, M. L. 1993. Surface climate variations over the north Atlantic during winter: 1900-1989. J. Clim. 6, 1743–1753.
  • Dijkstra, H. A. and Molemaker, M. J. 1997. Symmetry breaking and overturning oscillations in thermohaline-driven flows.J. Fluid. Mech. 331, 169-198.
  • Dong, B. and Sutton, R. T. 2005. Mechanism of interdecadal thermo-haline circulation variability in a coupled ocean-atmosphere GCM. J. Clim. 18, 1117–1135.
  • Genthon, C., Le Treut, H., Jouzel, J. and Sadourny, R. 1990. Parametrization of eddy sensible heat transports in a zonally averaged dynamic model of the atmosphere. J. Atmos. Sc i. 47, 2475–2487.
  • Gray, S. T., Graumlich, L. J., Betancourt, J. L. and Pederson, G. T. 2004. A tree-ring based reconstruction of the Atlantic Multidecadal Oscillation since 1567 AD.Geophys. Res. Lett. 31, doi: 10.1029/2004GL019932
  • Green, J. S. A., 1970. Transfer properties of the large-scale eddies and the general circulation of the atmosphere. Quart. J. Roy. MeteoroL Soc. 96, 157–185.
  • Greatbatch, R. J. and Zhang, S. 1995. An interdecadal oscillation in an idealized ocean basin forced by constant heat flux. J. Clim. 8, 81–91.
  • Hakkinen, S. 2000. Decadal air-sea interaction in the North Atlantic based on observations and modeling results. J. Clim. 13, 1195–1219.
  • Hansen, D. V. and Bezdek, H. F. 1996. On the nature of decadal anomalies in North Atlantic sea surface temperature. J. Geophys. Res. 101,8749–8758.
  • Hougthon, J. T. and co-authors, 2001. IPCC 2001: Climate Change 2001: The scientific basis, Contribution of Working Group 1 to the third assessment report of Intergovernmental Panel on Climate Change. Cambridge University Press, Cambridge, United Kingdom and New York, USA,881 pp.
  • Huck, T., Colin de Verdirre, A. and Weaver, A. 1999. Interdecadal variability of the thermohaline circulation in box-ocean models forced by fixed surface fluxes. J. Phys. Oceanogr. 29, 865-892.
  • Huck, T., Vallis, G. and Colin de Verdirre, A. 2001. On the robustness of the interdecadal modes of the thermohaline circulation. J. Clim 14, 940-963.
  • Kravtsov, S. and Ghil, M. 2004. Interdecadal variability in a hybrid coupled ocean-atmosphere model. J. Phys. Oceanogr 34, 1756–1775.
  • Kushnir, Y. 1994. Interdecadal variations in north Atlantic sea surface temperature and associated atmospheric conditions. J. Clint. 7, 141–157.
  • Ledwell, J. R., Watson, A. J. and Law, C. S. 1993. Evidence for slow mixing across the pycnocline from an open-ocean tracer-release experiment. Nature 364, 701–703.
  • Levitus, S. 1989. Interpendatal variability of temperature and salinity of intermediate depths of the north Atlantic ocean, 1970-1974 versus 1955-1959. J. Geophys. Res. 94, 6091–6131.
  • McCracken, M. C. and Ghan, S. J. 1988. Design and use of zonally averaged models. In: Physically-Based Modeling and Simulation of Climate and Climate change, Part II (ed. M. E. Schlesinger), Riedel, 755-809.
  • Manabe, S., Smagorinsky, J. and Strickler, R. F. 1965. Simulated climatology of a general circulation model with a hydrological cycle. Monthly Weather Re v. 93, 769–798.
  • Mann, M. E., Bradley, R. S. and Hugues, M. K. 1998. Global-scale temperature patterns and climate forcing over the past six centuries. Nature 392, 779–787.
  • Munk, W. 1996. Abyssal recipes. Deep-Sea Res 13, 707–730.
  • Munk, W. and Wunsch, C. 1998. Abyssal recipes II: energetics of tidal and wind mixing. Deep-Sea Res. 45, 1977–2010.
  • Ollitrault, M. and Colin de Verdi:6re, A. 2002. SOFAR floats reveal midlatitude intermediate North Atlantic general circulation. Part II: an Eulerian Statistical View. J. Phys. Oceanogr 32, 2034-2053.
  • Peixoto, J. P. and Oort, A. H. 1992. Physics of Climate. American Institute of Physics, New York, 520pp.
  • Quon, C. and Ghil, M. 1992. Multiple equilibria in thermosolutal convection due to salt-flux boundary conditions. J. Fluid. Mech. 245, 449–484.
  • Reverdin, G., Cayan, D. and Kushnir, Y. 1997. Decadal variability of hydrography in the upper northern north Atlantic in 1948-1990. J. Geophys. Res. 102, 8505–8531.
  • Salmon, R. 1986. A simplified linear ocean circulation theory. J. Mar. Res. 44, 695–711.
  • Saravanan, R. and McWilliams, J. C. 1995. Multiple equilibria, natural variability, and climate transitions in an idealized ocean-atmosphere model. J. Clim. 8, 2296–2323.
  • Saravanan, R., Danabasolglu, G. and Doney, S. C., McWilliams, J. C. 2000. Decadal variability and predictability in the midlatitude ocean-atmosphere system. J. Clim. 13, 1073–1097.
  • Schlesinger, M. E. and Ramankutty, N. 1994. An oscillation in the global climate system of period 65-70 years. Nature 367, 723–726.
  • Stone, P. H. 1972. A simplified radiative-dynamical model for the static stability of rotating atmospheres. J. Atmos. Sc i. 29,405–418.
  • Stone, P. H. and Yao, M. S. 1987. Development of two-dimensional zonally averaged statistical-dynamical model. Part II: the role of eddy momentum fluxes in the general circulation and their parameterization. J. Atmos. Sc i. 44, 3769–3786.
  • Stone, P. H. and Yao, M. S. 1990. Development of two-dimensional zonally averaged statistical-dynamical model. Part DI: the parametrization of the eddy fluxes of heat and moisture. J. Clim. 3, 726–740.
  • te Raa, L. A. and Dijkstra, H. A. 2002. Instability of the thermohaline circulation on interdecadal timescales. J. Phys. Oceanogr 32, 138–160.
  • te Raa, L. A., Gerrits, J. and Dijkstra, H. A. 2004. Identification of the mechanism of interdecadal variability in the North Atlantic Ocean. J. Phys. Oceanogr. 34, 2792–2807.
  • Thual, O. and McWilliams, J. C. 1992. The catastrophe structure of thermohaline convection in a two-dimensional fluid model and a comparison with low-order box models. Geophys. Astrophys. Fluid. Dyn. 64, 67–95.
  • Timmermann, A. and Latif, M. 1998. Northern hemispheric interdecadal variability: a coupled air-sea mode. J. Clim. 11, 1906–1931.
  • Toggweiler, J. R. and Samuels, B. 1995. Effect of Drake Passage on the global thermohaline circulation. Deep-Sea Res. 42, 477-500.
  • Trenberth, K. E. and Caron, J. M. 2001. Estimates of meridional atmosphere and ocean heat transports. J. Clim. 14, 3433–3443.
  • Vallis, G. K. 1982. A statistical-dynamical climate model with a simple hydrological cycle. Tellus 34, 211–227.
  • Vellinga, M. and Wu, P. 2004. Low-latitude freshwater influence on centennial variability of the Atlantic thermohaline circulation. J. Clim. 17, 4498–4511.
  • Weaver, A. J. and Sarachilc, E. S. 1991a. The role of mixed boundary conditions in numerical models of the ocean’s climate. J. Phys. Oceanogr. 21, 1470–1493.
  • Weaver, A. J. and Sarachilc, E. S. 1991b. Evidence for decadal variability in an ocean general circulation model: an advective mechanism. Atmos. Ocean 29, 197–231.
  • Weaver, A. J. and Valcke, S. 1998. On the variability of the thermo-haline circulation in the GFDL coupled model. J. Clim. 11, 759–767.
  • Weaver, A. J., Sarachilc, E. S. and Marotzke, J. 1991. Freshwater flux forcing of decadal and interdecadal oceanic variability.Nature 353, 836-838.
  • Weaver, A. J., Marotzke, J., Cummins, P. F. and Sarachik, E. S. 1993. Stability and variability of the thermohaline circulation.J. Phys. Oceanogr. 23, 39-60.
  • Winton, M. 1997. The damping effect of bottom topography on internal decadal-scale oscillations of the thermohaline circulation. J. Phys. Oceanogr. 27, 203–208.
  • Winton, M. and Sarachilc, E. S. 1993. Thermohaline oscillations induced by strong steady salinity forcing of ocean general circulation models. J. Phys. Oceanogr 23, 1713–1724.
  • Yang, J. and Neelin, J. D. 1993. Sea-ice interaction with the thermohaline circulation. Geophys. Res. Lett. 20, 217–220.
  • Yang, J. and Neelin, J. D. 1997. Decadal variability in coupled sea-ice thermohaline circulation systems. J. Clim. 10, 3059–3076.
  • Yao, M. S. and Stone, P. H. 1987. Development of a two-dimensional zonally averaged statistical-dynamical model. Part I: the parametrization of moist convection and its role in the general circulation. J. Atmos. Sc i. 44, 65–82.

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