Artículos de revistas
Land-Atmosphere Interactions during a Northwestern Argentina Low Event
Fecha
2010-07Registro en:
Saulo, Andrea Celeste; Ferreira, Lorena Judith; Nogués Paegle, Julia; Seluchi, Marcelo Enrique; Ruiz, Juan Jose; Land-Atmosphere Interactions during a Northwestern Argentina Low Event; American Meteorological Society; Monthly Energy Review; 138; 7-2010; 2481-2498
0027-0644
Autor
Saulo, Andrea Celeste
Ferreira, Lorena Judith
Nogués Paegle, Julia
Seluchi, Marcelo Enrique
Ruiz, Juan Jose
Resumen
The impact of changes in soil moisture in subtropical Argentina in rainfall distribution and low-level circulation is studied with a state-of-the-art regional model in a downscaling mode, with different scenarios of soil moisture for a 10-day period. The selected case (starting 29 January 2003) was characterized by a northwestern Argentina low event associated with well-defined low-level northerly flow that extended east of the Andes over subtropical latitudes. Four tests were conducted at 40-km horizontal resolution with 31 sigma levels, decreasing and increasing the soil moisture initial condition by 50% over the entire domain, and imposing a 50% reduction over northwest Argentina and 50% increase over southeast South America. A control run with NCEP/GDAS initial conditions was used to assess the impact of the different soil moisture configurations. It was found that land surface interactions are stronger when soil moisture is decreased, with a coherent reduction of precipitation over southern South America. Enhanced northerly winds result form an increase in the zonal gradient of pressure at low levels. In contrast, when soil moisture is increased, smaller circulation changes are found, though there appears to be a local feedback effect between the land and precipitation The combined effects of changes in the circulation and in local stratification induced by soil wetness modifications, through variations in evaporation and CAPE, are in agreement with what has been found by other studies, resulting in coherent modifications of precipitation when variations of CAPE and moisture flux convergence mutually reinforce.