Referencias

  • Cecil, Daniel J., 2009: Passive Microwave Brightness Temperatures as Proxies for Hailstorms. J. Appl. Meteor. Climatol., 48, 1281-1286.doi: http://dx.doi.org/10.1175/2009JAMC2125.1
  • Nicolini, M., Saulo, C., Torres, J. and Salio, P., 2002. Enhanced precipitation over southeastern South America related to strong low-level jet events during austral warm season. Meteorologica (Special Issue on South American Moonsoon System) 27, 59-69.
  • Nicolini, M., Salio, P., Ulke, G., Marengo, J., Douglas, M., Peagle, J. and Zipser, E., 2004. South America Low Level Jet diurnal cycle and three dimensional structure. CLIVAR Exchanges, 9 (1), 6-8.
  • Rotunno, R., J. B. Klemp, and M. L. Weisman, 1988: A theory for strong, long-lived squall lines. J. Atmos. Sci., 45, 463-485.
  • Salio, P., Nicolini, M. and Saulo, C., 2002. Chaco low-level jet events chacaracterization during the austral summer season. Journal of Geophysical Research, 107, 4816.
  • Salio, P. and Nicolini, M., 2006. Seasonal characterization of the diurnal cycle of convection frequency over southeastern South America under different low-level conditions. Proceedings of 8 ICSHMO, Foz do Iguacu, Brazil. April 24-28, 2006. P. 1157-1162.
  • Salio, P., Nicolini, M. and Zipser, E., 2007. Mesoscale convective systems over southeastern South America and their relationship with the South American Low-Level Jet. Monthly Weather Review, 135, 1290-1309.
  • Saulo, C., Ruiz, J. and García Skabar, Y., 2007. Synergism between the Loe-Level Jet and organized convection at its exit region. Monthly Weather Review, 135, 1310-1326.
  • Vera, C., Baez, M., Douglas, M., Emmanuel, C. B., Marengo, J., Meitin, J., Nicolini, M., Nogues-Paegle, J., Paegle, J., Penalba, O., Salio, P., Saulo, C., Silva Dias, M. A. and Zipser, E., 2006. The South American Low-Level Jet Experiment (SALLJEX). Bulletin of the American Meteorological Society, 87, 63-77.
  • The CLIVAR's VAMOS program developed an experiment, named South American Low-Level Jet Experiment (SALLJEX), to contributed to undestanding the role of SALLJ in moisture and energy exchange between the tropics and extratropics and related aspects of regional hydrology, climate and climate variability. The field campaign was carried out during the warm season between 15 November 2002 and 15 February 2003, over Bolivia, Paraguay, central and northern Argentina, western Brazil and Perú. SALLJEX data set provided us more than 300 study cases.