Geochemical and zircon U-Pb geochronological study of the Yangshan A-type granite: Insights into the geological evolution in south Anhui, eastern Jiangnan Orogen

The Early Cretaceous Yangshan granite is an A-type granitic intrusion that was emplaced along the eastern Jiangnan Orogen in southern Anhui Province, South China. The Yangshan intrusion mainly consists of syenite porphyry (127.0 +/- 0.6 Ma) and alkali-feldspar granite porphyry (126.0 +/- 1.0 Ma). As a part of Qingyang-Jiuhuashan complex intrusion, the Yangshan A-type granites have lower MgO, CaO, Co, Sr, and higher Rb, Nb, Th and HREE contents, with enrichment in large-ion lithophile elements (LILE) and light rare earth elements (LREE), and slightly negative Eu anomalies. However, the syenite porphyry and the alkali-feldspar granite porphyry differ in terms of zircon epsilon(Hf)(t) values: small variations in the syenite porphyry from -5.5 to -3.7, corresponding to Hf model ages (t(DM)(C)) between 1.42 Ga and 1.53 Ga, and large variations in the alkali-feldspar granite porphyry from -6.4 to +4.4, yielding t(DM)(C) of 0.90-1.59 Ga. While both rocks also have similar epsilon(Nd)(t) values ranging from -7.02 to -5.47, corresponding Nd model ages (T-DM(C)) are 1.37-1.49 Ga, falling within the Hf model ages. We take these features to indicate that the Qingyang I-type granites, which are isotopically similar, and Yangshan A-type granites were originated from partial melting of Mesoproterozoic-Neoproterozoic crust, with minor juvenile crust input for the alkali-feldspar granite porphyry, followed by fractional crystallization. In combination with previous studies, we propose that the Cretaceous A-type granitic rocks formed between 135 Ma and 122 Ma, implying an important Mesozoic extensional event in eastern Jiangnan Orogen, which facilitated under plating of mantle-derived magma and crustal heating. This may have occurred in a back-arc extension in response to the drift of subduction direction of the Paleo-Pacific plate, which started as early as similar to 135 Ma ago. (C) 2017 Elsevier B.V. All rights reserved.