Moisture Transport due to Baroclinic Waves: Linear Analysis of Precipitating Quasi-Geostrophic Dynamics
Alfredo N. Wetzel; Leslie M. Smith; Samuel N. Stechmann
Mathematics of Climate and Weather Forecasting (2017)
- Volume: 3, Issue: 1, page 28-50
- ISSN: 2353-6438
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topAlfredo N. Wetzel, Leslie M. Smith, and Samuel N. Stechmann. "Moisture Transport due to Baroclinic Waves: Linear Analysis of Precipitating Quasi-Geostrophic Dynamics." Mathematics of Climate and Weather Forecasting 3.1 (2017): 28-50. <http://eudml.org/doc/288592>.
@article{AlfredoN2017,
abstract = {The effects of rainfall speed, VT, and meridional/vertical moisture gradients on the meridional moisture transport are examined in the context of mid-latitude baroclinic waves. These effects are investigated in an idealized model that can be solved analytically. The model is systematically derived in a precipitating quasi-geostrophic limit, starting from a moist atmospheric model with minimal representation of cloud microphysics. Single-phase dynamics are considered, with a comparison of three cases: unsaturated, saturated with VT = 0, and saturated with VT > 0. The Eady problem for linear baroclinic waves is analyzed, with modifications to incorporate moisture. As a preliminary step, the moist waves are shown to have properties consistent with prior studies, including larger growth rates and smaller spatial scales in the saturated cases in comparison to the classic dry Eady problem. Then, in addition, it is shown that the meridional moisture flux, as a function of height, has a mid-tropospheric maximum in the case of VT = 0, and a maximum in the lower troposphere or at the surface for sufficiently large values of VT. These results for different VT values are discussed in the context of meridional moisture transport in observational data.},
author = {Alfredo N. Wetzel, Leslie M. Smith, Samuel N. Stechmann},
journal = {Mathematics of Climate and Weather Forecasting},
keywords = {meridional moisture transport; moist baroclinic waves; moist baroclinic instability; precipitating quasi-geostrophic dynamics},
language = {eng},
number = {1},
pages = {28-50},
title = {Moisture Transport due to Baroclinic Waves: Linear Analysis of Precipitating Quasi-Geostrophic Dynamics},
url = {http://eudml.org/doc/288592},
volume = {3},
year = {2017},
}
TY - JOUR
AU - Alfredo N. Wetzel
AU - Leslie M. Smith
AU - Samuel N. Stechmann
TI - Moisture Transport due to Baroclinic Waves: Linear Analysis of Precipitating Quasi-Geostrophic Dynamics
JO - Mathematics of Climate and Weather Forecasting
PY - 2017
VL - 3
IS - 1
SP - 28
EP - 50
AB - The effects of rainfall speed, VT, and meridional/vertical moisture gradients on the meridional moisture transport are examined in the context of mid-latitude baroclinic waves. These effects are investigated in an idealized model that can be solved analytically. The model is systematically derived in a precipitating quasi-geostrophic limit, starting from a moist atmospheric model with minimal representation of cloud microphysics. Single-phase dynamics are considered, with a comparison of three cases: unsaturated, saturated with VT = 0, and saturated with VT > 0. The Eady problem for linear baroclinic waves is analyzed, with modifications to incorporate moisture. As a preliminary step, the moist waves are shown to have properties consistent with prior studies, including larger growth rates and smaller spatial scales in the saturated cases in comparison to the classic dry Eady problem. Then, in addition, it is shown that the meridional moisture flux, as a function of height, has a mid-tropospheric maximum in the case of VT = 0, and a maximum in the lower troposphere or at the surface for sufficiently large values of VT. These results for different VT values are discussed in the context of meridional moisture transport in observational data.
LA - eng
KW - meridional moisture transport; moist baroclinic waves; moist baroclinic instability; precipitating quasi-geostrophic dynamics
UR - http://eudml.org/doc/288592
ER -
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