Permian volcanism in the Mongolian orogenic zone, northeast China: geochemistry, magma sources and petrogenesis

YONGFENG ZHU; SHIHUA SUN; LIBING GU; YOSHIHIDE OGASAWARA; NENG JIANG; HIROJI HONMA

doi:10.1017/S0016756801005210

Abstract

Lower Permian volcanism was the first magmatic activity to occur after the collision events in the Mongolian orogenic zone, east China. The Permian volcanic rocks are therefore a key to understanding the dynamics of the unified continental lithosphere. The volcanic rocks consist of basic and intermediate rocks. The intermediate rocks with high initial 87Sr/86Sr ratios (0.7051 to 0.7052) and low εNd values (−0.73 to −3.57) generally overlie the basic rocks in the field. The basic rocks have relatively low initial 87Sr/86Sr ratios (0.7034 to 0.7051) and high εNd values (2.72 to −0.10). Two parallel Rb–Sr isochrons give almost the same age, about 270 Ma. One consists of the basic rocks giving an initial isochron 87Sr/86Sr ratio of 0.7035. The other consists of the intermediate rocks and one sample of basalt, which give an initial isochron 87Sr/86Sr value of 0.7051. The strong correlations between SiO2 and other major elements suggest that fractional crystallization played an important role in the magmatic processes. However, fractional crystallization cannot explain the geochemistry of most incompatible trace elements and Sr–Nd isotope characteristics. The positive correlation between Th/Nb and (La/Sm)N ratios demonstrates the direct relation between the enrichment of the light rare earth elements and the contamination of continental sediments. The high contents of large ion lithosphere elements (LILE) in the Permian volcanic rocks may suggest an additional ‘crust + fluid’ component, especially in the intermediate rocks, which are highly enriched in Ba (> 400 ppm) relative to the basic rocks (> 200 ppm). We propose that the subduction slab dropped into depleted mantle and released fluid, which induced the mantle metasomatism and LILE enrichment. The metasomatized mantle partially melted and formed the ‘primary’ magma. This primary magma assimilated with the Proterozoic biotite–quartz schist during its rise, and finally formed the Permian volcanic rocks. Magma assimilated with the Proterozoic biotite–quartz schist in small amounts could have produced the basic rocks, while assimilation of larger amounts of magma (because of longer assimilation time) would generate intermediate rocks.

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

ZHU, Yongfeng SUN, Shihua and JIANG, Neng 2001. A Gold‐bearing Alkaline Pluton in Eastern Linxi District, Inner Mongolia: Its Geochemistry and Metallogenic Significance. Resource Geology, Vol. 51, Issue. 4, p. 393.

Zhu, Yongfeng and Ogasawara, Yoshihide 2004. Clinopyroxene phenocrysts (with green salite cores) in trachybasalts: implications for two magma chambers under the Kokchetav UHP massif, North Kazakhstan. Journal of Asian Earth Sciences, Vol. 22, Issue. 5, p. 517.

Zhou, Mei-Fu Michael Lesher, C. Yang, Zhengxi Li, Jianwei and Sun, Min 2004. Geochemistry and petrogenesis of 270 Ma Ni–Cu–(PGE) sulfide-bearing mafic intrusions in the Huangshan district, Eastern Xinjiang, Northwest China: implications for the tectonic evolution of the Central Asian orogenic belt. Chemical Geology, Vol. 209, Issue. 3-4, p. 233.

Zhu, Yongfeng Zhou, Jing and Zeng, Yishan 2007. The Tianger (Bingdaban) shear zone hosted gold deposit, west Tianshan, NW China: Petrographic and geochemical characteristics. Ore Geology Reviews, Vol. 32, Issue. 1-2, p. 337.

Zhang, XiaoHui Zhang, Hongfu Tang, Yanjie Wilde, Simon A. and Hu, Zhaochu 2008. Geochemistry of Permian bimodal volcanic rocks from central Inner Mongolia, North China: Implication for tectonic setting and Phanerozoic continental growth in Central Asian Orogenic Belt. Chemical Geology, Vol. 249, Issue. 3-4, p. 262.

Pirajno, Franco Mao, Jingwen Zhang, Zhaochong Zhang, Zuoheng and Chai, Fengmei 2008. The association of mafic–ultramafic intrusions and A-type magmatism in the Tian Shan and Altay orogens, NW China: Implications for geodynamic evolution and potential for the discovery of new ore deposits. Journal of Asian Earth Sciences, Vol. 32, Issue. 2-4, p. 165.

Guo, Feng Fan, WeiMing Li, ChaoWen Miao, LaiCheng and Zhao, Liang 2009. Early Paleozoic subduction of the Paleo-Asian Ocean: Geochronological and geochemical evidence from the Dashizhai basalts, Inner Mongolia. Science in China Series D: Earth Sciences, Vol. 52, Issue. 7, p. 940.

Guo, Feng Fan, Weiming Li, Chaowen Gao, Xiaofen and Miao, Laicheng 2009. Early Cretaceous highly positive ε Nd felsic volcanic rocks from the Hinggan Mountains, NE China: origin and implications for Phanerozoic crustal growth. International Journal of Earth Sciences, Vol. 98, Issue. 6, p. 1395.

Pirajno, Franco Ernst, Richard E. Borisenko, Alexander S. Fedoseev, Geliy and Naumov, Evgeniy A. 2009. Intraplate magmatism in Central Asia and China and associated metallogeny. Ore Geology Reviews, Vol. 35, Issue. 2, p. 114.

Liu, Wei Pan, Xiao-Fei Liu, Dun-Yi and Chen, Zhen-Yu 2009. Three-step continental-crust growth from subduction accretion and underplating, through intermediary differentiation, to granitoid production. International Journal of Earth Sciences, Vol. 98, Issue. 6, p. 1413.

Blight, James H.S. Petterson, Michael G. Crowley, Quentin G. and Cunningham, Dickson 2010. The Oyut Ulaan Volcanic Group: stratigraphy, magmatic evolution and timing of Carboniferous arc development in SE Mongolia. Journal of the Geological Society, Vol. 167, Issue. 3, p. 491.

Blight, James H.S. Crowley, Quentin G. Petterson, Michael G. and Cunningham, Dickson 2010. Granites of the Southern Mongolia Carboniferous Arc: New geochronological and geochemical constraints. Lithos, Vol. 116, Issue. 1-2, p. 35.

Guo, Feng Fan, Weiming Gao, Xiaofeng Li, Chaowen Miao, Laicheng Zhao, Liang and Li, Hongxia 2010. Sr–Nd–Pb isotope mapping of Mesozoic igneous rocks in NE China: Constraints on tectonic framework and Phanerozoic crustal growth. Lithos, Vol. 120, Issue. 3-4, p. 563.

Zhang, Xiaohui Zhang, Hongfu Wilde, Simon A Yang, Yueheng and Chen, Haihong 2010. Late Permian to Early Triassic mafic to felsic intrusive rocks from North Liaoning, North China: Petrogenesis and implications for Phanerozoic continental crustal growth. Lithos, Vol. 117, Issue. 1-4, p. 283.

Zhang, Xiaohui Wilde, Simon A. Zhang, Hongfu and Zhai, Mingguo 2011. Early Permian high-K calc-alkaline volcanic rocks from NW Inner Mongolia, North China: geochemistry, origin and tectonic implications. Journal of the Geological Society, Vol. 168, Issue. 2, p. 525.

ZENG, Qingdong LIU, Jianming ZHANG, Zuolun ZHANG, Weiqing CHU, Shaoxiong ZHANG, Song WANG, Zaicong and DUAN, Xiaoxia 2011. Geology, Fluid Inclusion, and Sulfur Isotope Studies of the Chehugou Porphyry Molybdenum–Copper Deposit, Xilamulun Metallogenic Belt, NE China. Resource Geology, Vol. 61, Issue. 3, p. 241.

Meng, En Xu, Wen-Liang Pei, Fu-Ping Yang, De-Bin Wang, Feng and Zhang, Xing-Zhou 2011. Permian bimodal volcanism in the Zhangguangcai Range of eastern Heilongjiang Province, NE China: Zircon U–Pb–Hf isotopes and geochemical evidence. Journal of Asian Earth Sciences, Vol. 41, Issue. 2, p. 119.

Jianfeng, LIU Xiaoguo, CHI Zhi, ZHAO Xingzhou, ZHANG Zhihong, MA Tiefu, WANG and Zhaochu, HU 2011. Geochemical Characteristics and Geological Significance of Early Permian Baya'ertuhushuo Gabbro in South Great Xing'an Range. Acta Geologica Sinica - English Edition, Vol. 85, Issue. 1, p. 116.

Liu, Jian-Feng Li, Jin-Yi Chi, Xiao-Guo Zhao, Zhi Hu, Zhao-Chu and Feng, Qian-Wen 2012. Petrogenesis of middle Triassic post-collisional granite from Jiefangyingzi area, southeast Inner Mongolia: Constraint on the Triassic tectonic evolution of the north margin of the Sino-Korean paleoplate. Journal of Asian Earth Sciences, Vol. 60, Issue. , p. 147.

Liu, Yongsheng Wang, Xiaohong Wang, Dongbing He, Detao Zong, Keqing Gao, Changgui Hu, Zhaochu and Gong, Hujun 2012. Triassic high-Mg adakitic andesites from Linxi, Inner Mongolia: Insights into the fate of the Paleo-Asian ocean crust and fossil slab-derived melt–peridotite interaction. Chemical Geology, Vol. 328, Issue. , p. 89.

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Permian volcanism in the Mongolian orogenic zone, northeast China: geochemistry, magma sources and petrogenesis

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Permian volcanism in the Mongolian orogenic zone, northeast China: geochemistry, magma sources and petrogenesis

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