机构地区:[1]Chinese Acad Sci, Guangzhou Inst Geochem, Guangzhou 510640, Peoples R China
出 处:《Chinese Science Bulletin》2002年第20期1688-1695,共8页
基 金:This work was jointly supported bythe National Natural Science Foundation of China (Grant Nos. 49873011 and 40073011); the Chinese Ministry of Science and Technology (Grant Nos. G1999075504 and G1999043302).
摘 要:Two eruption episodes are identified through systematic field investigations and K-Ar dating of the late Mesozoic volcanic rocks in the North Huaiyang belt (NHB), Dabie orogenic belt, of which the earlier volcanic suite termed Maotanchang Fm. (Fm.) occurring at Jinzhai, Xianhualing and Maotanchang, etc., was erupted from 149 Ma to 138 Ma. The other named Xiaotian Fm. mainly distributed at Xiaotian, Shucheng, etc., was formed between 132 Ma and 116 Ma. During the eruption gap of the two volcanic suites deposited a volcano-sedimentary conglomerate layer, which are composed of the multi-compositional gravels, including the North Dabie orthogneiss complex (NDOC), volcanic gravels, etc. These volcanic gravels in the conglomerate layer show identical geochemical and isotopic compositions (87Sr/86Sr(t) =0.7084-0.7092,εNd(t) =-21.8--24.4) to the Maotanchang Fm. volcanic rocks (87Sr/86Sr = 0.7086-0.7102,εNd = -19.2-24.4), but significantly distinct from those of Xiaotian Fm. (87Sr/86Sr = 0.7076-0.7084, εNd=Two eruption episodes are identified through systematic field investigations and K-Ar dating of the late Mesozoic volcanic rocks in the North Huaiyang belt (NHB), Dabie orogenic belt, of which the earlier volcanic suite termed Maotanchang Fm. (Fm.) occurring at Jinzhai, Xianhualing and Maotanchang, etc., was erupted from 149 Ma to 138 Ma. The other named Xiaotian Fm. mainly distributed at Xiaotian, Shucheng, etc., was formed between 132 Ma and 116 Ma. During the eruption gap of the two volcanic suites deposited a volcano-sedimentary conglomerate layer, which are composed of the multi-compositional gravels, including the North Dabie orthogneiss complex (NDOC), volcanic gravels, etc. These volcanic gravels in the conglomerate layer show identical geochemical and isotopic compositions (87Sr/86Sr(t) =0.7084–0.7092, εNd (t) = ?21.8–?24.4) to the Maotanchang Fm. volcanic rocks (87Sr/86Sr = 0.7086–0.7102, εNd= ?19.2–?24.4), but significantly distinct from those of Xiaotian Fm. (87Sr/86Sr = 0.7076–0.7084, εNd= ?17.2–?19.2). K-Ar dating results of its underlying and overlying volcanic sequences indicate that the conglomerate layers were deposited at ?135 Ma. This suggests that the NDOC was rapidly exhumed to the surface during or shortly before ?135 Ma and became the important provenance of the late Mesozoic volcano-sedimentary basins in the NHB. In combination with the regional volcano-sedimentary correlation, we divided the Mesozoic stratigraphic sequence in the NHB from base to top into Fanghushan Fm. (>160 Ma), Yuantongshan Fm. (/middlelower segment of Sanjianpu Fm.) (160–149 Ma), Maotanchang Fm. (/Zhougongshan Fm./upper segment of Sanjianpu Fm./Fenghuangtai Fm.) (149–135 Ma) and Xiaotian Fm. (/Baidafan Fm./Heshidu Fm.) (135–116 Ma).
关 键 词:multi-gravel CONGLOMERATE layer K-Ar dating geo-chemical comparison late Mesozoic uplifting-erosion North Huai-yang belt.
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