Sulawesi is located at the junction of three major plates, namely, Eurasia, Australia and Philippine Sea, which underwent complex interactions in the Cenozoic.This study reports for the zircon U-Pb age and Hf isotope data of magmatic rocks from Northern Sulawesi. These, together with whole-rock geochemical analyses, are used to explore the magmatic and tectonic evolution in the region. The results indicate that there are 3 main stages of magmatism, with stage two and stage three can be further divided into two sub-groups based on different geochemical characteristics, respectively: (1) Eocene to Oligocene tholeiitic (TH) rocks, (2a) Oligocene to Miocene basic calc-alkaline (BCA) rocks, (2b) 30-15 Ma felsic calc-alkaline (FCA) rocks, (3a) 10-4 Ma median-K calc-alkaline (MKCA) rocks, and (3b) 7-5 Ma high-K calc-alkaline (HKCA) rocks. The TH group consists mainly of basalts that display N-MORB-like REE pattern [(La/Yb)CN =0.5-0.8]. They also show small LILE enrichment and slight HFSE depletion in a spidergram. The BCA group composed of basalts shows slight LREE enrichment [(La/Yb)CN =1.6-2.2]. They have strong LILE enrichment and strong HFSE depletion. All felsic rocks including FCA group, MKCA group and HKCA group exhibit strong LILE enrichment and strong HFSE depletion in a spider diagram. More specifically, magmatic zircons from I-type granitoids of the CA group are characterized by DM-like εHf(t) values (+14.4-+17.1) and low U concentrations (128-374 ppm). Those from the MKCA group, composed of rock types including diorite, andesite and dacite, also have small U (125-234 ppm) and DM-like εHf(t) values (+14.6-+15.6). Yet, those from dacites of the HKCA group have markedly higher U (1058-1365 ppm) and lower εHf(t) values (-2.5-+1.7), together with abundant inherited zircon grains. All three stages of magmatic rocks show subduction-related geochemical signatures. The TH group shows geochemical features consistent with an intra-oceanic arc setting. The 30-15 Ma calc-alkaline group composed of bimodal rocks indicate that they may form in an extensional setting. The last stageis heterogeneous. The MKCA rocks' DM-like εHf(t) values limit terrestrial or “old continental crust” contribution, whereas the HKCA rocks' lower εHf(t) values suggest significant contribution. Their heterogeneity and lack of basic rocks may indicate that they are not magmatism of a subduction zone.