Numerical experiments that compare the life cycles of baroclinic cyclones in either a dry or a saturated atmosphere in Cartesian geometry are performed starting from a jetlike mean initial state designed to maximize the effects of latent heat release by condensation. Time evolution and spatial structure are discussed. While the final effect of the dry life cycle on the mean state is to destroy baroclinicity and arrest the development, the modified cyclone evolution, due to the presence of moisture, is able to reform an intense baroclinic belt on the northern side of the original one, which is newly unstable to even shorter baroclinic perturbations.
Baroclinic instability of a zero-PVE jet: enhanced effects of moisture on the lifecycle of baroclinic cyclones
M Fantini
2004
Abstract
Numerical experiments that compare the life cycles of baroclinic cyclones in either a dry or a saturated atmosphere in Cartesian geometry are performed starting from a jetlike mean initial state designed to maximize the effects of latent heat release by condensation. Time evolution and spatial structure are discussed. While the final effect of the dry life cycle on the mean state is to destroy baroclinicity and arrest the development, the modified cyclone evolution, due to the presence of moisture, is able to reform an intense baroclinic belt on the northern side of the original one, which is newly unstable to even shorter baroclinic perturbations.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
