Mesozoic A-type granites are widely distributed in the Lower Yangtze River Belt (LYRB) in China, but their petrogenesis and geodynamic settings are unresolved. Here, we describe geochronological and geochemical study of granites from the Zongyang area of the LYRB. Zircon LA-ICPMS U-Pb dating indicates the granites were emplaced at ca. 127 Ma. They have geochemical characteristics similar to those of A-type granites, with high total-alkali (10.5-10.7 wt.%), HFSEs (Zr + Nb + Ce + Y = 890-1011 ppm), high Ga/Al ratios (10,000 x Ga/Al = 3.19-3.25), and high whole-rock zircon saturation temperatures (850 degrees C-900 degrees C). In discrimination diagrams, samples plot in the A(1)-type granite field but close to the A(1)-A(2) boundary. A representative whole-rock sample yielded an I-Sr ratio of 0.7066 and an epsilon(Nd)(t) value of - 5.3, with zircon epsilon(Hf)(t) and delta O-18 values of - 0.2 to - 4.3 and 5.95 parts per thousand-6.79 parts per thousand, respectively, all higher than those of depleted mantle, indicating the enriched nature of source materials. Apatites in the granite display mantle-origin characteristics. Incompatible element ratios (Y/Nb, Y/Ta, Nb/U and Ce/Pb) also support the enriched mantle source, and suggest that the source had experienced metasomatism, or the existence of crustal input during magmatic processes. Significant depletions in Ba, Sr, P, Ti, and Eu in the granites indicate fractional crystallization of feldspar and some accessory minerals. We conclude that the Zongyang granite were formed through fractional crystallization of oceanic island basalt (OIB)-like basic magmas derived from the lithospheric mantle. They are classified as A(1) but their borderline A(2) nature is most likely due to metasomatism by slab-derived fluids or melts, possibly involving crustal materials. Our results, together with those of previous studies, indicate that LYRB A-type granites, are the products of partial melting of the mantle or lower continental crust in an extensional setting, caused by slab rollback during the subduction of the Paleo-Pacific Plate.

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