In this thesis we study the Navier-Stokes-Coriolis equations with free surface in the Sobolev-Slobodetski spaces which describe the parabolic regularity of their solutions. The methods based on these spaces were used by J T Beale [5] [4], V. A Solonnikov [50] and A. Tani [52] to study the initial value problem for the Navier-Stokes equations with free surface. We introduce a mathematical model of geophysical fluids and dérive the Navier- Stokes-Coriolis equations. We first study the global well-posedness of the incompressible Navier-Stokes equations on the tridimensionnal torus without rotation in the case of small initial data m Sobolev spaces with high regularity. This illustrates the parabolic regularity methods. The main chapter deals with a long time existence and uniqueness result for the Navier-Stokes-Coriolis System with free surface when the initial data is close to the equilibrium. This work extends the results of J. T. Beale [4] and D. G. Sylvester [51] to the case of rotating fluids. The Chapter 4 then gathers the essential properties of Sobolev-Slobodetski in arbitrary domains and the particular case of reference domain introduced m the Chapter 4. We finally formulate in the Chapter 5 some perspectives on highly rotating fluids with free surface.