July 26, 2024
Journal Article

Moisture Recycling through Pumping by Mesoscale Convective Systems

Abstract

Moisture recycling, the contribution of local evapotranspiration (ET) to precipitation, has been studied using bulk models assuming a well-mixed atmosphere. The latter is inconsistent with a climatologically stratified atmosphere that slants across latitudes. Reconciling the two views requires an understanding of overturning associated with different weather systems. In this study, we aim to better understand moisture recycling associated with mesoscale convective systems (MCSs). Using a convection-permitting WRF simulation equipped with water vapor tracers (WRF-WVT), we tag moisture from terrestrial ET in the Southern Great Plains during May 2015, when more than 20 MCS events occurred and produced significant precipitation and flooding. Water budget analysis reveals that approximately 25% of terrestrial ET is “pumped” upward, accounting for ~10% of precipitation. Moisture recycling peaks during early night hours (18 LT-24 LT) due to mixing of the daytime accumulated ET by active convection. By focusing on 5 “surface-driven” MCSs with less large-scale circulation influence than other MCSs during the same period, we find an upright pumping of terrestrial ET at the MCS initiation and development stages, which diverges into two branches during the MCS mature and decaying stages. One branch in the upper level advects the ET- sourced moisture downstream, while the other branch in the mid-to-upper level contributes to the trailing precipitation upstream. Overall, our analysis depicts a pumping mechanism associated with MCSs that mixes local ET vertically, highlighting its specific contributions to enhancing convective precipitation processes.

Published: July 26, 2024

Citation

Hu H., L. Leung, Z. Feng, and J.N. Marquis. 2024. Moisture Recycling through pumping by mesoscale convective systems. Journal of Hydrometeorology 25, no. 6:867–880. PNNL-SA-190973. doi:10.1175/JHM-D-23-0174.1

Research topics