| China Geological Survey Chinese Academy of Geological Sciences | Host |
| 科学出版社 | Publish |
| Citation: |
JIANG Yang, ZHAO Xilin, LI Longming, PAN Guitang, XU Mingcheng, HUANG Wencheng, LIU Huan. 2020. Neoproterozoic continental margin-arc magmatic activity of the Nanping-Ninghua tectonic belt, South China:Implications for tectonic evolution of the Wuyi orogenic belt[J]. Geology in China, 47(4): 1010-1024. doi: 10.12029/gc20200408
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Neoproterozoic continental margin-arc magmatic activity of the Nanping-Ninghua tectonic belt, South China:Implications for tectonic evolution of the Wuyi orogenic belt
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Abstract
Numerous Neoproterozoic volcanic-sedimentary rocks, e.g., Wanquan Group, Louqian and Xixi Formation, are outcropped along the Nanping-Ninghua tectonic belt, South China. This paper presents a systematic petrological, geochronological, and geochemical study of metamorphic rocks from the Louqian Formation in Mingxi County of Fujian and Ruijin County of Jiangxi Province. Zircons from meta-dacite in Mingxi County and meta-crystal tuff in Ruijin County yielded U-Pb weighted mean ages of (729±4)Ma and (735±6.7) Ma (by LA-ICP-MS), respectively. The SiO2 values of these meta-volcanic rocks range from 65.22% to 74.54%, and they have high Al2O3 (11.05%-16.80%) and Na2O + K2O content (4.88%-10.19%) but low CaO, MgO, and FeOT content. Their ANK values and A/CNK ratios are 1.23-1.78 and 0.98-1.57 with Nb/Ta being 12.44-17.28, Nd/Th being 2.07-3.51, Ti/Zr being 6.08-10.37 and Ti/Y being 68.51-154.71, implying the S-type igneous rocks. All samples are enriched in large-ion lithophile elements (LILE; e.g., Ba and Rb) and depleted in high-field-strength elements (HFSE; e.g., Nb, Ta, Ti, and P)with Zr/Nb being 16.65-24.07 and Th/Ta being 12.94-16.93. Marked negative Eu anomalies 0.33-0.62 are similar to those in arc igneous rocks. Based on regional geological data and previous studies, the authors hold that the Nanping-Ninghua tectonic belt had been in an active continental margin setting until 713 Ma. The magmatism was caused by the subduction of oceanic crust and formed an intermediate-acid volcanic belt along the Nanping-Ninghua-Ruijin continental margin, which indicates that the collision between the North and South Wuyi blocks did not form a unified Wuyi Block before 713 Ma, and the Cathaysia Block had not a unified pre-Nanhua crystalline basement.
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JIANG Yang, ZHAO Xilin, LI Longming, PAN Guitang, XU Mingcheng, HUANG Wencheng, LIU Huan. 2020. Neoproterozoic continental margin-arc magmatic activity of the Nanping-Ninghua tectonic belt, South China:Implications for tectonic evolution of the Wuyi orogenic belt[J]. Geology in China, 47(4): 1010-1024. doi: 10.12029/gc20200408
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Figure 1.
Tectonic map of the study area (a, after Greentree et al., 2006) and distribution of the Procambrian metamorphic rocks in South China (b, after Jiang et al., 2018)
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Figure 2.
The photomicrographs of Louqian Formation meta-rhyolite and meta-crystal tuff
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Figure 3.
Zircon CL images (a, c) and LA-ICP-MS zircon U-Pb concordia diagrams (b, d) of Louqian Formation meta-dacite (sample: 158SM1-3) and meta-crystal tuff (sample: 16CT9-1)
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Figure 4.
TAS diagram (a, after Middlemost, 1994) and SiO2- K2O diagram (b, after Peccerillo and Taylor, 1976) of the Louqian Formation meta-volcanic rocks
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Figure 5.
Primitive-mantle-normalized trace element spider diagrams (a) and chondrite-normalized rare earth element (REE) patterns (b) for meta-volcanic rocks from the Louqian Formation (normalization factors after Sun and McDonough, 1989)
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Figure 6.
Rb versus Th(a) and Rb versus Y(b) plots for meta- volcanic rocks from the Louqian Formation(after Allegre and Minster, 1978)
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Figure 7.
(Y+Nb)-Rb (a, after Pearce et al., 1984), Y versus Nb(b, after Pearce et al., 1984), Ta/Yb-Th/Yb (c, after Pearce, 1983) and Yb- Th/Ta (d, after Gorton and Schandl, 2000) tectonic discrimination diagrams for meta- volcanic rocks from the Louqian Formation