Articles | Volume 10, issue 4
Ocean Sci., 10, 645–656, 2014
https://doi.org/10.5194/os-10-645-2014
Ocean Sci., 10, 645–656, 2014
https://doi.org/10.5194/os-10-645-2014

Research article 14 Jul 2014

Research article | 14 Jul 2014

Mechanisms of Atlantic Meridional Overturning Circulation variability simulated by the NEMO model

V. N. Stepanov and K. Haines

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Cited articles

Adcroft, A., Hill, C., and Marshall, J.: Representation of topography by shaved cells in a height coordinate ocean model, Mon. Weather Rev., 125, 2293–2315, 1997.
Barnier, B. and the DRAKKAR Group: Eddy-permitting ocean circulation hindcasts of past decades, Clivar Exchanges, 12, 8–10, 2007.
Barnier, B., Madec, G., Penduff, T., Molines, J. M., Treguier, A. M., Le Sommer, J., Beckmann, A., Biastoch, A., Böning, C., Dengg, J., Derval, J., Durand, E., Gulev, S., Remy, E., Talandier, C., Theetten, S., Maltrud, M., McClean, J., and De Cuevas, B.: Impact of partial steps and momentum advection schemes in a global ocean circulation model at eddy-permitting resolution, Ocean Dynam., 56, 6543–6567, https://doi.org/10.1007/s10236-006-0082-1, 2006.
Bersch, M., Yashayaev, I., and Koltermann, K.: Recent changes of the thermohaline circulation in the subpolar north atlantic, Ocean Dynam., 57, 223–235, 2007.
Biastoch, A., Böning, C. W., Getzlaff, J., Molines, J. M., and Madec, G.: Causes of interannual-decadal variability in the meridional overturning circulation of the midlatitude north atlantic ocean, J. Climate, 21, 6599–6615, 2008.
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