Southern Sulawesi located in the southern part of the Western Pacific Orogenic belt, is an ideal natural laboratory for studying the geological processes involved in the transition from subduction to collision related to the interaction between the Eurasian and Australian plates. This study reports zircon U-Pb age and geochemical data of Cenozoic igneous rocks collected from Southern Sulawesi. The age data indicate 3 episodes of magmatism: (1) Eocene (53-36 Ma), (2) late Miocene (11-5 Ma), and (3) Pleistocene (3-1 Ma). The first episode occurred in the central part of our studied area, the second one erupted extensively, and the youngest one can only be found at the southernmost part of Southern Sulawesi. The geochemical data, however, define 5 series of magmatic rocks: (1) Eocene calc-alkaline (CA), (2) late Miocene low niobium ultrapotassic (LNb UK), (3) low niobium potassic (LNb K), (4) high niobium ultrapotassic (HNb UK), and (5) Pleistocene high niobium sodic alkaline (HNb Na). The Eocene CA samples are characterized by low (Nb/La)n (0.17-0.40), medium (La/Yb)n (3.26-7.79), and N-MORB-like (87Sr/86Sr)i (0.7035-0.7040). The late Miocene LNb UK rocks are highlighted by low (Nb/La)n (0.10-0.20), high (La/Yb)n (8.16-19.1), and BSE-like (87Sr/86Sr)i (0.7061). The LNb K rocks also show low (Nb/La)n (0.13-0.32) and high (La/Yb)n (4.66-21.3), but with N-MORB-like (87Sr/86Sr)i (0.7044-0.7060). Yet, the HNb UK rocks are featured by high (Nb/La)n (0.64-0.78), high (La/Yb)n (17.9-19.5), and BSE-like (87Sr/86Sr)i (0.7062) instead. Besides, the Pleistocene HNb Na series with high (Nb/La)n (0.19-0.64) and high (La/Yb)n (8.40-26.6) have (87Sr/86Sr)i between former two episodes (0.7044-0.7052). Based on age and geochemical results, we attribute the magma sources of Eocene rocks to a mantle wedge, of late Miocene rocks to a heterogeneous lithospheric mantle, and of Pleistocene rocks to both lithospheric and asthenospheric mantle. The Eocene magmatism might occur in a subduction-zone setting, and the late Miocene and Pleistocene magmatic activities were probably produced by the rollback of Banda slab which caused the opening of Banda basin during the Neogene in a collision-zone setting.