Her main research concerns Climatology, Ocean current, Oceanography, Atmospheric sciences and Eddy. The concepts of her Climatology study are interwoven with issues in Meteorology, Sea level and Advection. Her Meteorology research is multidisciplinary, incorporating perspectives in Oceanic climate and Climate model.
Her study in Ocean current is interdisciplinary in nature, drawing from both Radiative transfer, Global Drifter Program, Arctic and Precipitation. Atmospheric sciences and Mesoscale meteorology are commonly linked in her work. Her studies in Boundary current integrate themes in fields like Circulation and Mean flow.
Anne-Marie Tréguier spends much of her time researching Climatology, Oceanography, Thermohaline circulation, Atmospheric sciences and Ocean current. Her Climatology research incorporates elements of Eddy and Advection. Her Oceanography research focuses on Plume and how it connects with Submarine pipeline.
As a member of one scientific family, Anne-Marie Tréguier mostly works in the field of Thermohaline circulation, focusing on Sea ice and, on occasion, Atmospheric models. Her research integrates issues of Jet, Core and Gulf Stream in her study of Atmospheric sciences. Her work on World Ocean Circulation Experiment as part of general Ocean current research is frequently linked to Numerical analysis, bridging the gap between disciplines.
Climatology, Thermohaline circulation, Earth system science, Mesoscale meteorology and Meteorology are her primary areas of study. Her work in Climatology addresses issues such as Oceanography, which are connected to fields such as Plume. Her Earth system science study also includes fields such as
Her research investigates the connection between Meteorology and topics such as Forcing that intersect with issues in Flow. Her biological study spans a wide range of topics, including Sea ice, Atmospheric models and Data assimilation. Anne-Marie Tréguier interconnects Heat flux, Jet, Mean flow and Vorticity in the investigation of issues within Boundary current.
Anne-Marie Tréguier mainly focuses on Climatology, North Atlantic oscillation, Thermohaline circulation, Sea surface temperature and Mixed layer. Anne-Marie Tréguier has included themes like Equator and Advection in her Climatology study. Her Sea surface temperature research integrates issues from Albedo, Ocean dynamics, Hydrography and Atmospheric forcing.
Her work deals with themes such as Snow, Meridional flow, Hindcast and Potential temperature, which intersect with Mixed layer. She has researched Anomaly in several fields, including Meteorology, Forcing and Earth system science. She combines subjects such as Atmospheric models and Boundary current with her study of Sea ice.
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Impact of partial steps and momentum advection schemes in a global ocean circulation model at eddy-permitting resolution
Bernard Barnier;Gurvan Madec;Thierry Penduff;Jean-Marc Molines.
Ocean Dynamics (2006)
Coordinated Ocean-ice Reference Experiments (COREs)
Stephen M. Griffies;Arne Biastoch;Claus W. Böning;Frank Bryan.
Ocean Modelling (2009)
Developments in ocean climate modelling
Stephen M. Griffies;Claus Böning;Frank O. Bryan;Eric P. Chassignet.
Ocean Modelling (2000)
An ERA40-based atmospheric forcing for global ocean circulation models
Laurent Brodeau;Bernard Barnier;Anne-Marie Tréguier;Thierry Penduff;Thierry Penduff.
Ocean Modelling (2010)
Impact of sub-mesoscale physics on production and subduction of phytoplankton in an oligotrophic regime
Marina Levy;Patrice Klein;Anne-Marie Treguier.
Journal of Marine Research (2001)
North Atlantic simulations in Coordinated Ocean-ice Reference Experiments phase II (CORE-II). Part I: Mean states
Gokhan Danabasoglu;Steve G. Yeager;David Bailey;Erik Behrens.
Ocean Modelling (2014)
Parameterization of Quasigeostrophic Eddies in Primitive Equation Ocean Models.
Anne-Marie Tréguier;I. M. Held;V. D. Larichev.
Journal of Physical Oceanography (1997)
The North Atlantic Subpolar Gyre in Four High-Resolution Models
Anne-Marie Tréguier;Sébastien Theetten;Eric P. Chassignet;Thierry Penduff.
Journal of Physical Oceanography (2005)
Eddy-permitting ocean circulation hindcasts of past decades
Bernard Barnier;Laurent Brodeau;Julien Le Sommer;Jean-Marc Molines.
CLIVAR Exchanges, 42 (12 (3)). pp. 8-10. (2007)
Detection of coherent oceanic structures via transfer operators.
Gary Froyland;Kathrin Padberg;Matthew H. England;Anne Marie Treguier.
Physical Review Letters (2007)
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