An analysis of the vertical velocity field using the full generalized omega equation (omega-equation) in a single mesoscale baroclinic oceanic gyre is carried out. The evolution of the gyre over 20 inertial periods is simulated using a new three-dimensional numerical model which directly integrates the horizontal ageostrophic vorticity, explicitly conserves the potential vorticity (PV) via contour advection on isopycnal surfaces, and inverts the nonlinear PV definition via the solution of a three-dimensional Monge-Ampere equation. In this framework the omega-equation comes simply from the horizontal divergence of the horizontal ageostrophic vorticity prognostic equation. The ageostrophic vorticity is written as the Laplacian of a vector pot...
Vertical motion associated with mesoscale and sub-mesoscale oceanic features is of fundamental impor...
Estimating vertical velocity in the oceanic upper layers is a key issue for understanding ocean dyna...
Estimation of vertical velocity is a key issue for understanding ocean physics and transport of biog...
Results of a variety of numerical simulations are presented and the accuracy of quasigeostrophic (QG...
International audienceThe quasigeostrophic and the generalized omega equations are the most widely u...
Two fundamental perspectives on the dynamics of midlatitude weather systems are provided by potentia...
A new method for diagnosing the balanced three-dimensional velocity from a given density field in me...
23 pages, 19 figures, 3 appendixesResults of a variety of numerical simulations are presented and th...
Several diagnoses of three-dimensional circulation, using density and velocity data from a high-reso...
13 pages, 12 figures, 1 tableA new method for diagnosing the balanced three-dimensional velocity fro...
Several diagnoses of three-dimensional circulation, using density and velocity data from a high-reso...
Vertical motion at the mesoscale plays a key role in ocean circulation, ocean-atmosphere interaction...
The oceans ability to regulate carbon dioxide depends on biogeochemical processes that are influence...
Vertical motion associated with mesoscale and sub-mesoscale oceanic features is of fundamental impor...
Estimating vertical velocity in the oceanic upper layers is a key issue for understanding ocean dyna...
Estimation of vertical velocity is a key issue for understanding ocean physics and transport of biog...
Results of a variety of numerical simulations are presented and the accuracy of quasigeostrophic (QG...
International audienceThe quasigeostrophic and the generalized omega equations are the most widely u...
Two fundamental perspectives on the dynamics of midlatitude weather systems are provided by potentia...
A new method for diagnosing the balanced three-dimensional velocity from a given density field in me...
23 pages, 19 figures, 3 appendixesResults of a variety of numerical simulations are presented and th...
Several diagnoses of three-dimensional circulation, using density and velocity data from a high-reso...
13 pages, 12 figures, 1 tableA new method for diagnosing the balanced three-dimensional velocity fro...
Several diagnoses of three-dimensional circulation, using density and velocity data from a high-reso...
Vertical motion at the mesoscale plays a key role in ocean circulation, ocean-atmosphere interaction...
The oceans ability to regulate carbon dioxide depends on biogeochemical processes that are influence...
Vertical motion associated with mesoscale and sub-mesoscale oceanic features is of fundamental impor...
Estimating vertical velocity in the oceanic upper layers is a key issue for understanding ocean dyna...
Estimation of vertical velocity is a key issue for understanding ocean physics and transport of biog...