The biosphere-atmosphere interactions associated with the rainy season onset in South America (SA) are not well understood. This study aimed to analyse the atmospheric and surface patterns associated with early, neutral and late rainy season onset years in SA. The years 2006The years , 2004The years and 2008 were characterized as having early, neutral and late rainy season onsets, respectively, in comparison to the climatological mean (1998)(1999)(2000)(2001)(2002)(2003)(2004)(2005)(2006)(2007)(2008)(2009)(2010)(2011)(2012)(2013)(2014)(2015)(2016). Distinct atmospheric conditions were identi ed in the early and late rainy season onset years. In the early onset year, the northwesterly moisture ux and moisture advection were higher than average over SA's centre-east, promoting precipitation. In the late onset year, precipitation was enhanced in SA's northwest and the con guration of multiple atmospheric blocking episodes contributed to the rainy season onset delay. Surface conditions also contributed to both the early/late rainy season onset. In the early onset year, there were wetter and cooler pre-onset conditions over centre-east SA. In the late onset year, atmospheric conditions were dry and warm prior to onset. Despite the atmospheric instability promoted by the increase in sensible heating, dry atmospheric conditions were not favourable to convection, thus delaying rainy season onset. These ndings highlight the importance of the landsurface as well as atmospheric conditions for the rainy season onset in SA, and also how the onset variability promotes different atmospheric and surface patterns. The results will help develop modelling capability for better prediction of rainy season onset focusing on biosphere-atmosphere processes improvements.