A variational formulation of vertical slice models

Abstract

A variational framework is defined for vertical slice models with three-dimensional velocity depending only on x and z. The models that result from this framework are Hamiltonian, and have a Kelvin- Noether circulation theorem that results in a conserved potential vorticity in the slice geometry. These results are demonstrated for the incompressible Euler- Boussinesq equations with a constant temperature gradient in the y-direction (the Eady-Boussinesq model), which is an idealized problem used to study the formation and subsequent evolution of weather fronts.We then introduce a new compressible extension of this model. Unlike the incompressible model, the compressible model does not produce solutions that are also solutions of the threedimensional equations, but it does reduce to the Eady-Boussinesq model in the low Mach number limit. Hence, the new model could be used in asymptotic limit error testing for compressible weather models running in a vertical slice configuration. © 2013 The Author(s) Published by the Royal Society.