Pascal and Francis Bibliographic Databases

Help

Search results

Your search

kw.\*:("Circulación meridiana volteante")

Discipline (document) [di]

A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV

Language

A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV

Author Country

A-Z Z-A Frequency ↓ Frequency ↑
Export in CSV

Results 1 to 25 of 56

  • Page / 3
Export

Selection :

  • and

The ocean's role in setting the mean position of the Inter-Tropical Convergence ZoneMARSHALL, J; DONOHOE, A; FERREIRA, D et al.Climate dynamics. 2014, Vol 42, Num 7-8, pp 1967-1979, issn 0930-7575, 13 p.Article

A novel transport assimilation method for the Atlantic meridional overturning circulation at 26°NHERMANSON, Leon; DUNSTONE, Nick; HAINES, Keith et al.Quarterly Journal of the Royal Meteorological Society. 2014, Vol 140, Num 685, pp 2563-2572, issn 0035-9009, 10 p., bArticle

A Note on the Stability Indicator of the Atlantic Meridional Overturning CirculationWEI LIU; ZHENGYU LIU.Journal of climate. 2014, Vol 27, Num 2, pp 969-975, issn 0894-8755, 7 p.Article

On the Importance of Surface Forcing in Conceptual Models of the Deep OceanSTEWART, Andrew L; FERRARI, Raffaele; THOMPSON, Andrew F et al.Journal of physical oceanography. 2014, Vol 44, Num 3, pp 891-899, issn 0022-3670, 9 p.Article

Decadal Evolution of Ocean Thermal Anomalies in the North Atlantic: The Effects of Ekman, Overturning, and Horizontal TransportWILLIAMS, Richard G; ROUSSENOV, Vassil; SMITH, Doug et al.Journal of climate. 2014, Vol 27, Num 2, pp 698-719, issn 0894-8755, 22 p.Article

Meridional overturning circulation: stability and ocean feedbacks in a box modelCIMATORIBUS, Andrea A; DRIJFHOUT, Sybren S; DIJKSTRA, Henk A et al.Climate dynamics. 2014, Vol 42, Num 1-2, pp 311-328, issn 0930-7575, 18 p.Article

Is AMOC More Predictable than North Atlantic Heat Content?BRANSTATOR, Grant; HAIYAN TENG.Journal of climate. 2014, Vol 27, Num 10, pp 3537-3550, issn 0894-8755, 14 p.Article

How Much Have Variations in the Meridional Overturning Circulation Contributed to Sea Surface Temperature Trends since 1850? A Study with the EC-Earth Global Climate ModelSCHMITH, Torben; SHUTING YANG; GLEESON, Emily et al.Journal of climate. 2014, Vol 27, Num 16, pp 6343-6357, issn 0894-8755, 15 p.Article

Revisiting meridional overturing bistability using a minimal set of state variables: stochastic theorySIJP, Willem P; ZIKA, Jan D; D'ORGEVILLE, Marc et al.Climate dynamics. 2014, Vol 43, Num 5-6, pp 1661-1676, issn 0930-7575, 16 p.Article

Ocean Heat Uptake in Eddying and Non-Eddying Ocean Circulation Models in a Warming ClimateYU ZHANG; VALLIS, Geoffrey K.Journal of physical oceanography. 2013, Vol 43, Num 10, pp 2211-2229, issn 0022-3670, 19 p.Article

Propagation of Meridional Circulation Anomalies along Western and Eastern BoundariesMARSHALL, David P; JOHNSON, Helen L.Journal of physical oceanography. 2013, Vol 43, Num 12, pp 2699-2717, issn 0022-3670, 19 p.Article

Potential role of Atlantic Warm Pool-induced freshwater forcing in the Atlantic Meridional Overturning Circulation: ocean―sea ice model simulationsLIPING ZHANG; CHUNZAI WANG; LEE, Sang-Ki et al.Climate dynamics. 2014, Vol 43, Num 1-2, pp 553-574, issn 0930-7575, 22 p.Article

Decadal prediction skill in the GEOS-5 forecast systemHAM, Yoo-Geun; RIENECKER, Michele M; SUAREZ, Max J et al.Climate dynamics. 2014, Vol 42, Num 1-2, pp 1-20, issn 0930-7575, 20 p.Article

Why is the AMOC Monostable in Coupled General Circulation Models?WEI LIU; ZHENGYU LIU; BRADY, Esther C et al.Journal of climate. 2014, Vol 27, Num 6, pp 2427-2443, issn 0894-8755, 17 p.Article

Global ocean conveyor lowers extinction risk in the deep seaHENRY, Lea-Anne; FRANK, Norbert; ROGERS, Alex D et al.Deep-sea research. Part 1. Oceanographic research papers. 2014, Vol 88, pp 8-16, issn 0967-0637, 9 p.Article

Probabilistic projections of the Atlantic overturningSCHLEUSSNER, Carl-Friedrich; LEVERMANN, Anders; MEINSHAUSEN, Malte et al.Climatic change. 2014, Vol 127, Num 3-4, pp 579-586, issn 0165-0009, 8 p.Article

Response of the Atlantic meridional overturning circulation to a reversal of greenhouse gas increasesJACKSON, L. C; SCHALLER, N; SMITH, R. S et al.Climate dynamics. 2014, Vol 42, Num 11-12, pp 3323-3336, issn 0930-7575, 14 p.Article

The Energetics of a Collapsing Meridional Overturning CirculationMCC. HOGG, Andrew; DIJKSTRA, Henk A; SAENZ, Juan A et al.Journal of physical oceanography. 2013, Vol 43, Num 7, pp 1512-1524, issn 0022-3670, 13 p.Article

Atlantic watermass and circulation response to persistent freshwater forcing in two coupled general circulation modelsHARRISON, M; ADCROFT, A; HALLBERG, R et al.Climate dynamics. 2014, Vol 42, Num 1-2, pp 59-68, issn 0930-7575, 10 p.Article

Attribution of Deep Western Boundary Current variability at 26.5°NMEINEN, Christopher S; GARZOLI, Silvia L.Deep-sea research. Part 1. Oceanographic research papers. 2014, Vol 90, pp 81-90, issn 0967-0637, 10 p.Article

Bottom-Enhanced Diapycnal Mixing Driven by Mesoscale Eddies: Sensitivity to Wind Energy SupplySTANLEY, Geoff J; SAENKO, Oleg A.Journal of physical oceanography. 2014, Vol 44, Num 1, pp 68-85, issn 0022-3670, 18 p.Article

The Response of Large-Scale Circulation to Obliquity-Induced Changes in Meridional Heating GradientsMANTSIS, Damianos F; LINTNER, Benjamin R; BROCCOLI, Anthony J et al.Journal of climate. 2014, Vol 27, Num 14, pp 5504-5516, issn 0894-8755, 13 p.Article

Climate impacts of stochastic atmospheric perturbations on the oceanJIE ZHANG; WEI XUE; MINGHUA ZHANG et al.International journal of climatology. 2014, Vol 34, Num 15, pp 3900-3912, issn 0899-8418, 13 p.Article

Deep Meridional Overturning Circulation in the Indian Ocean and Its Relation to Indian Ocean DipoleWEIQIANG WANG; XIUHUA ZHU; CHUNZAI WANG et al.Journal of climate. 2014, Vol 27, Num 12, pp 4508-4520, issn 0894-8755, 13 p.Article

How Much Has the North Atlantic Ocean Overturning Circulation Changed in the Last 50 Years?TETT, Simon F. B; SHERWIN, Toby J; SHRAVAT, Amrita et al.Journal of climate. 2014, Vol 27, Num 16, pp 6325-6342, issn 0894-8755, 18 p.Article

  • Page / 3