Late Mesozoic-early Cenozoic intermediate-acid intrusive rocks from the Gerlache Strait area, Antarctic Peninsula: Zircon U-Pb geochronology, petrogenesis and tectonic implications

This paper reports zircon U-Pb geochronology, whole-rock chemistry and Sr-Nd-Hf isotopic data of intermediate-acid intrusive rocks from the Gerlache Strait area, Antarctic Peninsula. These intrusive rocks can be divided into three groups. Group #1 has an emplacement age of ca. 117 Ma, and is further subdivided according to K2O contents into High-K (HKS) and Low-K (LKS) Subgroups. The HKS monzogranites are weakly peraluminous, and yield epsilon(Hf)(t) and epsilon(Nd)(t) values of +0.9 to +2.3 and +0.1 to +2.3, respectively, with corresponding model Nd ages (T-DM(Nd)) of 766-471 Ma, indicating that they were derived from the partial melting of dominantly early Neoproterozoic to early Paleozoic juvenile basaltic materials with minor involvement of sediments. In contrast, the LKS granodioritic magma was derived from partial melting of early Paleozoic juvenile basaltic materials with epsilon(Hf)(t) and epsilon(Nd)(t) values of +10.3 to +12.5 and +5.4 to +5.5, respectively, and corresponding T-DM(Nd) ages of 548-500 Ma. Group #2 consists of granite porphyry that formed at ca. 82 Ma and is characterized by positive values of epsilon(Hf)(t) (+5.1 to +8.1) and epsilon(Nd)(t) (+1.9 to +3.1) with weakly peraluminous chemistry and corresponding T-DM(Nd) ages of 712-548 Ma, suggesting that it was generated from partial melting of dominantly Neoproterozoic juvenile basaltic materials with minor involvement of sediments. Group #3 comprises dioritic-granodioritic rocks that were emplaced at ca. 62-54 Ma. These rocks have Mg# values of 39-46, and epsilon(Hf)(t) and epsilon(Nd)(t) values of +6.7 to +12.2 and +3.6 to +7.2, respectively, with corresponding T-DM(Nd) ages of 529-307 Ma, indicating that they were derived from partial melting of Paleozoic juvenile basaltic materials with minor injection of mantle materials. Spatially, the lithology of these plutons roughly changes from acid to intermediate from east to west, concomitant with increasing epsilon(Hf)(t) and epsilon(Nd)(t) values and decreasing initial Sr-87/Sr-86 ratios and T-DM(Nd) ages. This trend reflects changes in source characteristics from a Gondwana affinity to a juvenile crust affinity. Overall, the southeast-to-northwest migration of magmatism in the northern Antarctic Peninsula since the Mesozoic may have been related to retreating subduction of the paleo-Pacific plate. (C) 2018 Elsevier B.V. All rights reserved.