[24] | Assessment of the Marine Biota DMS-cloud climate hypothesis using remotely sensed data and an ocean general circulation model (Belviso, S., Aumont, O., Bopp, L., Bréon, F.-M., Couvert, P. and Monfray, P.), Chapter in Remote Sensing of the Ocean and Sea Ice (Bostater, C. R., Santoleri, R., eds.), volume 4172, 2000. |
[23] | Ocean Feedback in Response to 6 kyr BP Insolation (Braconnot, P., Marti, O., Joussaume, S. and Leclainche, Y.), In Journal of Climate, volume 13, 2000. |
[22] | Ocean feedback in response to 6 kyr BP insolation (Braconnot, Pascale, Marti, Olivier, Joussaume, Sylvie and Leclainche, Yvonnick), In J. Climate, volume 13, 2000. (9) |
[21] | An Improved Scheme for Interpolating between an Atmospheric Model and Underlying Surface Grids near Orography and Ocean Boundaries (Codron, F., Vintzileos, A. and Sadourny, R.), In Mon. Wea. Rev., volume 128, 2000. |
[20] | The seasonal cycle in coupled ocean-atmosphere general circulation models (Covey, C., Abe-Ouchi, A., Boer, G. J., Boville, B. A., Cubasch, U., Fairhead, L., Flato, G. M., Gordon, H., Guilyardi, E., Jiang, X., Johns, T. C., Le Treut, H., Madec, G., Meehl, G. A., Miller, R., Noda, A., Power, S. B., Roeckner, E., Russell, G., Schneider, E. K., Stouffer, R. J., Terray, L. and von Storch, J.-S.), In Climate Dynamics, volume 16, 2000. |
[19] | Aliasing inertial oscillations in a 1/6° Atlantic circulation model: impact on the mean meridional heat transport (Crosnier, L., Barnier, B. and Tréguier, A.-M.), In Ocean Modelling, volume 3, 2000. |
[18] | Oxygen 18-salinity relationship simulated by an oceanic general circulation model (Delaygue, G., Jouzel, J. and Dutay, J.-C.), In Earth Plan. Sc. Lett., volume 178, 2000. |
[17] | Ocean modelling and the role of the ocean in the climate system. Les Houches summer school, 1-68 (Delecluse, P. and Madec, G.), In In Modeling the Earth's Climate and its Variability, Elsevier Science, 2000. |
[16] | Vertically Propagating Annual and Interannual Variability in an OGCM Simulation of the Tropical Pacific Ocean in 1985-94 (Dewitte, B. and Reverdin, G.), In J. Phys. Oceanogr., volume 30, 2000. |
[15] | Modelling of the bottom water flow through the Romanche Fracture Zone with a primitive equation model–Part I: Dynamics (Ferron, B., Mercier, H. and Tréguier, A.-M.), In J. Mar. Res., volume 58, 2000. |
[14] | OPA8.1 Tracer reference manual (Foujols, M.-A., Lévy, M., Aumont, O. and Madec, G.), In Note du Pole de Modelisation, volume Institut Pierre-Simon Laplace, 2000. |
[13] | A multivariate intercomparison between three oceanic GCMs using observed current and thermocline depth anomalies in the tropical Pacific during 1985-1992 (Février, S., Frankignoul, C., Sirven, J., Davey, M. K., Delecluse, P., Ineson, S., Macias, J., Sennéchael, N. and Stephenson, D. B.), In J. Mar. Systems, volume 24, 2000. |
[12] | Comparing the results of a 4D-variational assimilation of satellite and in situ data with WOCE CITHER hydrographic measurements in the tropical Atlantic (Greiner, E. and Arnault, S.), In Prog. Oceanogr., volume 47, 2000. |
[11] | Interannual variability of the oceanic sink of CO 2from 1979 through 1997 (Le Quéré, C., Orr, J. C., Monfray, P., Aumont, O. and Madec, G.), In Global Biogeochem. Cycles, volume 14, 2000. |
[10] | Interannual Variability of the Oceanic Sink of CO2 From 1979 Through 1997 (Le Quéré, Corinne, Orr, James C., Monfray, Patrick, Aumont, Olivier and Madec, Gurvan), In Global Biogeochemical Cycles, volume 14, 2000. |
[9] | Combined effects of mesoscale processes and atmospheric high-frequency variability on the spring bloom in the MEDOC area (Lévy, M., Mémery, L. and Madec, G.), In Deep Sea Res. I, volume 47, 2000. |
[8] | CoPIVEP: a theory-based analysis of coupled processes and interannual variability in the Equatorial Pacific in four coupled GCMs (Pontaud, M., Céron, J.-P., Kimoto, M., Pluviaud, F., Terray, L. and Vintzileos, A.), In Clim. Dyn., volume 16, 2000. |
[7] | Prediction of sea surface anomalies using ocean circulation model forced by scatterometer wind and validation using TOPEX/Poseidon data (Quilfen, Y., Bentamy, A., Delecluse, P., Katsaros, K. and Grima, N.), In IEEE Trans. Geosci. Remote Sensing, volume 38, 2000. |
[6] | Impact of the ocean lateral diffusion on the ENSO-like variability of a global coupled GCM (Raynaud, S., Speich, S., Guilyardi, E. and Madec, G.), In Geophys. Res. Lett., volume 27, 2000. |
[5] | Salt conservation, free surface and varying levels: A new formulation for ocean general circulation models (Roullet, G. and Madec, G.), In J. Geophys. Res., volume 105, 2000. |
[4] | Sea-air CO2 fluxes and carbon transport: A comparison of three ocean general circulation models (Sarmiento, J. L., Monfray, P., Maier-Reimer, E., Aumont, O., Murnane, R. J. and Orr, J. C.), In Global Biogeochem. Cycles, volume 14, 2000. |
[3] | Sea-air CO2 fluxes and carbon transport: A comparison of three ocean general circulation models (Sarmiento, J. L., Monfray, P., Maier-Reimer, E., Aumont, O., Murnane, R. J. and Orr, J. C.), In Global Biogeochemical Cycles, volume 14, 2000. |
[2] | Spatial distribution of oceanic CO$_2$ sources and sinks: A comparison of three ocean general circulation models (Sarmiento, J. L., Monfray, P., Maier-Reimer, E., Aumont, O., Murnane, R. and Orr, J. C.), In Global Biogeochem. Cycles, volume 14, 2000. |
[1] | Southern Ocean transformation in a coupled model with and without eddy mass fluxes (Speer, K., Guilyardi, E. and Madec, G.), In Tellus A, volume 52, 2000. |