Once a bird has fledged it becomes hardly accessible for researchers and consequently knowledge about post-fledging ontogeny is scarce. In this study on juvenile Common Terns (Sterna hirundo) we used an automated transponder-based detection and weighing system at Banter See colony, Northern Germany, which enabled us to investigate body mass growth of post-fledglings and its consequences for their survival until first return to the natal colony when 2 years old. We analysed data from two contrasting breeding seasons, 2000 and 2001, in order to determine inter-year and inter-sex variation of post-fledging parameters assumed to potentially affect subadult survival, such as the period a juvenile is still present at colony surroundings (departure age), its fledging mass and last recorded post-fledging body mass, and hatch date. Using an information-theoretic model selection approach, neither the date of hatching nor the departure age was found to affect survival. The only predictor of survival was last post-fledging body mass whereas fledging mass itself was of minor importance. Although there was weak evidence for an interaction with year, individuals of the cohort 2000, which left the colony area on average 5 g lighter than those reared under the more favourable conditions in 2001, did not exhibit lower return probability. We suggest that under unfavourable conditions selection had eliminated weak individuals prior to fledging or during the post-fledging period. This study underlines the importance of the post-fledging period and its consequences for survival, especially in species with prolonged parental care post-fledging.