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Tectonic transition from subduction to retreat of the palaeo-Pacific plate: new geochemical constraints from the late Mesozoic volcanic sequence in eastern Fujian Province, SE China

Published online by Cambridge University Press:  24 November 2020

Mingxuan Cao ,
Xilin Zhao Open the ORCID record for Xilin Zhao [Opens in a new window] ,
Guangfu Xing ,
Feipeng Fan ,
Minggang Yu ,
Zheng Duan ,
Pingli Chu  and
Rong Chen
Mingxuan Cao
Affiliation:
Chinese Academy of Geological Sciences, Beijing100037, China Nanjing Centre, China Geological Survey, Nanjing210016, China
Xilin Zhao*
Affiliation:
Nanjing Centre, China Geological Survey, Nanjing210016, China
Guangfu Xing*
Affiliation:
Wuhan Centre, China Geological Survey, Wuhan430205, China
Feipeng Fan
Affiliation:
Nanjing Centre, China Geological Survey, Nanjing210016, China
Minggang Yu
Affiliation:
Nanjing Centre, China Geological Survey, Nanjing210016, China
Zheng Duan
Affiliation:
Nanjing Centre, China Geological Survey, Nanjing210016, China
Pingli Chu
Affiliation:
Nanjing Centre, China Geological Survey, Nanjing210016, China
Rong Chen
Affiliation:
Nanjing Centre, China Geological Survey, Nanjing210016, China
*
Authors for correspondence: Xilin Zhao, Email: zxl24@126.com; Guangfu Xing, Email: njxgfu@163.com
Authors for correspondence: Xilin Zhao, Email: zxl24@126.com; Guangfu Xing, Email: njxgfu@163.com
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Abstract

The widespread occurrence of late Mesozoic volcanic rocks in SE China is associated with widespread mineralization. Most geologists have accepted the model of Pacific plate subduction beneath the eastern Asian continent, but there are still controversies, especially the initial timing of the tectonic transition. In order to understand the tectonic evolution of the palaeo-Pacific plate subduction, an integrated study of zircon U–Pb, Lu–Hf isotope compositions and whole-rock geochemistry was carried out for Mesozoic volcanic rocks in eastern Fujian Province. According to the field observations and zircon U–Pb ages, these volcanic rocks can be divided into three phases: an early stage of Late Jurassic volcanic rocks (Phase 1, 159–153 Ma), a late stage of Late Jurassic volcanic rocks (Phase 2, 152–146 Ma) and an early stage of Early Cretaceous volcanic rocks (Phase 3, 143–139 Ma). Overall, these volcanic rocks are composed of intermediate–acid pyroclastic rocks and lava, with high SiO2, Na2O, K2O and Al2O3 contents, belonging to the high-K calc-alkaline and peraluminous series, with enrichment in large ion lithophile and light rare earth elements but depletion in high-field-strength elements and heavy rare earth elements. However, the Phase 1 and 2 volcanic rocks contain different zircon Hf isotopic compositions and whole-rock geochemistry to the Phase 3 volcanic rocks, implying that they have a different petrogenesis. Our study combined with previous research shows that the decreasing zircon ϵHf(t) values of the Middle–Late Jurassic volcanic rocks indicate a decreasing mantle-derived material contribution. On the contrary, the majority of the Early Cretaceous volcanic rocks have variable ϵHf(t) values, requiring varied degrees of involvement of juvenile components in their origin. Thus, we consider that the Late Jurassic volcanic rocks were generated in a compressional tectonic environment during the early stage (> 146 Ma) of palaeo-Pacific subduction. In contrast, the Cretaceous volcanic rocks were formed in an extensional tectonic setting during a later stage (< 143 Ma) of subduction.

Keywords

geochemistryzircon U–Pb–Hf isotopesfelsic volcanic rockslate Mesozoictectonic transitionSE China
Type
Original Article
Information
Geological Magazine , Volume 158 , Issue 6 , June 2021 , pp. 1074 - 1108
Copyright
© The Author(s), 2020. Published by Cambridge University Press

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References

Anderson, T (2002) Correction of common lead in U–Pb analyses that do not report 204Pb. Chemical Geology 192, 5979.CrossRefGoogle Scholar
Bai, ZJ, Zhu, WG, Zhong, H, Li, CS, Liao, JQ and Sun, HS (2015) Petrogenesis and tectonic implications of the early Jurassic Fe-Ti oxide-bearing Xialan mafic intrusion in SE China: constraints from zircon Hf-O isotopes, mineral compositions and whole-rock geochemistry. Lithos 212–215, 5973.CrossRefGoogle Scholar
Belousova, E, Griffin, WL, O’Reilly, SY and Fisher, N (2002) Igneous zircon: trace element composition as an indicator of source rock type. Contributions to Mineralogy and Petrology 143, 602–22.CrossRefGoogle Scholar
Blichert-Toft, J and Albarède, F (1997) The Lu–Hf isotope geochemistry of chondrites and the evolution of the mantle-crust system. Earth and Planetary Science Letters 148, 243–58.CrossRefGoogle Scholar
Cao, MX, Chu, PL, Duan, Z, Yu, MG, Chen, R, Fan, FP and Xing, GF (2020) Spatial-temporal evolution and controversy of the Mesozoic volcanism in South China. Geological Review 66, 795813 (in Chinese with English abstract).Google Scholar
Cen, T, Li, WX, Wang, XC, Pang, CJ, Li, ZX, Xing, GF, Zhao, XL and Tao, JH (2016) Petrogenesis of Early Jurassic basalts in southern Jiangxi Province, South China: implications for the thermal state of the Mesozoic mantle beneath South China. Lithos 256–257, 311–30.CrossRefGoogle Scholar
Chen, JF and Jahn, BM (1998) Crustal evolution of southeastern China: Nd and Sr isotopic evidence. Tectonophysics 284, 101–33.CrossRefGoogle Scholar
Chen, R, Xing, GF, Yang, ZL, Zhou, YZ, Yu, MG and Li, LM (2007) Early Jurassic zircon SHRIMP U–Pb age of the dacitic volcanic rocks in the Southeastern Zhejiang Province determined firstly and its geological significances. Geological Review 53, 31–5 (in Chinese with English abstract).Google Scholar
Chu, Y, Lin, W, Faure, M, Xue, ZH, Ji, WB and Feng, ZT (2019) Cretaceous episodic extension in the South China Block, East Asia: evidence from the Yuechengling massif of Central South China. Tectonics 38, 3675–702.CrossRefGoogle Scholar
Cui, YR, Xie, Z, Chen, JF, Yu, YW and Hu, LH (2010) SHRIMP U–Pb dating of zircons from the late Mesozoic basalts in eastern Zhejiang province and its geological significance. Geological Journal of China Universities 16, 198212 (in Chinese with English abstract).Google Scholar
Deng, ZB, Liu, S, Zhang, LF, Wang, ZQ, Wang, W, Yang, PT, Luo, P and Guo, BR (2014) Geochemistry, zircon U–Pb and Lu–Hf isotopes of an Early Cretaceous intrusive suite in northeastern Jiangxi Province, South China Block: implications for petrogenesis, crust/mantle interactions and geodynamic processes. Lithos 200–201, 334–54.CrossRefGoogle Scholar
Ding, QF, Liu, F and Yan, W (2015) Zircon U–Pb geochronology and Hf isotopic constraints on the petrogenesis of Early Triassic granites in the Wulonggou area of the Eastern Kunlun Orogen, Northwest China. International Geology Review 57, 1735–54.CrossRefGoogle Scholar
Dong, SW, Li, JH, Cawood, PA, Gao, R, Zhang, YQ and Xin, YJ (2020) Mantle influx compensates crustal thinning beneath the Cathaysia Block, South China: evidence from SINOPROBE reflection profiling. Earth and Planetary Science Letters 544, 116360. doi: 10.1016/j.epsl.2020.116360.CrossRefGoogle Scholar
Duan, Z, Xing, GF, Yu, MG, Zhao, XL, Jin, GD and Chen, ZH (2013) Time sequence and geological process of Late Mesozoic volcanic activities in the area of Zhejiang-Fujian boundary. Geological Review 59, 454–69 (in Chinese with English abstract).Google Scholar
Duan, Z, Zhao, XL, Xing, GF, Yang, ZL, Yu, MG, Chen, ZH, Jin, GD, Jiang, Y and Li, YN (2015) Comparison study of petrogeneses and crust-mantle interactions between Cretaceous lower and upper volcanic series in the adjacent area of Zhejiang-Fujian Provinces. Acta Geologica Sinica 89, 319–38 (in Chinese with English abstract).Google Scholar
Feng, ZZ, Qi, RC, Huang, SX, Li, JT, Xu, MH, Zou, YX, Wu, ZQ, Wang, GJ and He, WX (1991) Mesozoic volcanology and mineralization related to volcanics in Yongtai–Dehua district, Fujian Province. Bulletin of the Nanjing Institute of Geology and Mineral Resources Chinese Academy of Geological Sciences (Professional Paper) 9, 1100 (in Chinese with English abstract).Google Scholar
FIGSR: Fujian Institute of Geological Survey and Research (2014) Regional Geology and Mineral Resources Map in the Central-East of Fujian Province. Geological Map. Fuzhou: Fujian Institute of Geological Survey and Research.Google Scholar
Gan, CS, Zhang, YZ, Barry, TL, He, JW and Wang, YJ (2018) Jurassic metasomatised lithospheric mantle beneath South China and its implications: geochemical and Sr–Nd isotope evidence from the Late Jurassic shoshonitic rocks. Lithos 320–321, 236–49.CrossRefGoogle Scholar
Griffin, WL, Belousova, EA, Shee, SR, Pearson, NJ and O’Reilly, SY (2004) Archean crustal evolution in the northern Yilgarn Craton: U–Pb and Hf-isotope evidence from detrital zircons. Precambrian Research 131, 231–82.CrossRefGoogle Scholar
Griffin, WL, Pearson, NJ, Belousova, E, Jackson, SE, Achterbergh, EV, O’Reilly, SY and Shee, SR (2000) The Hf isotope composition of cratonic mantle: LAM-MC-ICPMS analysis of zircon megacrysts in kimberlites. Geochimica et Cosmochimica Acta 64, 133–47.CrossRefGoogle Scholar
Griffin, WL, Wang, X, Jackson, SE, Pearson, NJ, O’Reilly, SY, Xu, X and Zhou, X (2002) Zircon chemistry and magma mixing, SE China: in-situ analysis of Hf isotopes, Tonglu and Pingtan igneous complexes. Lithos 61, 237–69.CrossRefGoogle Scholar
Guo, F, Fan, WM, Li, CW, Zhao, L, Li, HX and Yang, JH (2012) Multi-stage crust-mantle interaction in SE China: temporal, thermal and compositional constraints from the Mesozoic felsic volcanic rocks in eastern Guangdong–Fujian provinces. Lithos 150, 6284.CrossRefGoogle Scholar
He, ZY and Xu, XS (2012) Petrogenesis of the Late Yanshanian mantle-derived intrusion in southeastern China: response to the geodynamics of paleo-Pacific plate subduction. Chemical Geology 328, 208–21.CrossRefGoogle Scholar
Hou, KJ, Li, YH, Zou, TR, Qu, XM, Shi, YR and Xie, GQ (2007) Laser ablation-MC-ICP-MS technique for Hf isotope microanalysis of zircon and its geological applications. Acta Petrologica Sinica 23, 2595–604 (in Chinese with English abstract).Google Scholar
Huang, H, Wang, KX, Pan, JY, Liu, XD and Sun, Y (2019) A-type volcanic-intrusive complex in the Huanggangshan Basin: implication for early cretaceous crust-mantle interaction in the Gan-Hang Belt and adjacent areas, South China. Lithos 336–337, 258–75.CrossRefGoogle Scholar
Iizuka, T and Hirata, T (2005) Improvements of precision and accuracy in in situ Hf isotope microanalysis of zircon using the laser ablation-MC-ICPMS technique. Chemical Geology 220, 121–37.CrossRefGoogle Scholar
Jia, LH, Mao, JW and Zheng, W (2019) Geochronology, geochemistry, and Sr–Nd–Hf–O isotopes of the Zhongqiuyang rhyolitic tuff in eastern Guangdong, SE China: constraints on petrogenesis and tectonic setting. Geological Journal 55, 5082–100. doi: 10.1002/gj.3702.CrossRefGoogle Scholar
Jiang, SH, Bagas, L and Liang, QL (2015) New insights into the petrogenesis of volcanic rocks in the Shanghang Basin in the Fujian Province, China. Journal of Asian Earth Sciences 105, 4867.CrossRefGoogle Scholar
Jiang, YH, Jiang, SY, Dai, BZ, Liao, SY, Zhao, KD and Ling, HF (2009) Middle to late Jurassic felsic and mafic magmatism in southern Hunan province, southeast China: implications for a continental arc to rifting. Lithos 107, 185204.CrossRefGoogle Scholar
Jiang, YH, Wang, GC, Liu, Z, Ni, CY, Qing, L and Zhang, Q (2015) Repeated slab advance-retreat of the Palaeo-Pacific plate underneath SE China. International Geology Review 57, 472–91.CrossRefGoogle Scholar
Lapierre, H, Jahn, BM, Charvet, J and Yu, YW (1997) Mesozoic felsic arc magmatism and continental olivine tholeiites in Zhejiang Province and their relationship with the tectonic activity in southeastern China. Tectonophysics 274, 321–38.CrossRefGoogle Scholar
Le Bas, MJ (1986) A chemical classification of volcanic rocks based on the total alkali-silica diagram. Journal of Petrology 27, 745–50.CrossRefGoogle Scholar
Li, JH, Cawood, PA, Ratschbacher, L, Zhang, YQ, Dong, SW, Xin, YJ, Yang, H and Zhang, PX (2020) Building Southeast China in the late Mesozoic: insights from alternating episodes of shortening and extension along the Lianhuashan fault zone. Earth-Science Reviews 201, 103056. doi: 10.1016/j.earscirev.2019.103056.CrossRefGoogle Scholar
Li, JH, Dong, SW, Cawood, PA, Zhao, GC, Johnston, ST, Zhang, YQ and Xin, YJ (2018) An Andean-type retro-arc foreland system beneath northwest South China revealed by SINOPROBE profiling. Earth and Planetary Science Letters 490, 170–9.CrossRefGoogle Scholar
Li, ZX and Li, XH (2007) Formation of the 1300-km-wide intracontinental orogen and postorogenic magmatic province in Mesozoic South China: a flat-slab subduction model. Geology 35, 179–82.CrossRefGoogle Scholar
Li, ZX and Li, XH (2012) Magmatic switch-on and switch-off along the South China continental margin since the Permian: transition from an Andean-type to a Western Pacific-type plate boundary. Tectonophysics 532–535, 271–90.CrossRefGoogle Scholar
Li, XY, Li, SZ, Suo, YH, Dai, LM, Guo, LL, Ge, FJ and Lin, PJ (2017) Late Cretaceous basalts and rhyolites from Shimaoshan Group in eastern Fujian Province, SE China: age, petrogenesis and tectonic implications. International Geology Review 60, 114.Google Scholar
Li, XH, Li, YX, Wang, JY, Zhang, CK, Wang, Y and Liu, L (2019) Tempo-spatial variation of the late Mesozoic volcanism in Southeast China testing the western Paleo-Pacific Plate subduction models. Solid Earth Discussions 10, 102089-2019. doi: doi.org/10.5194/se-2019-76.Google Scholar
Li, LM, Lin, SF, Xing, GF, Jiang, Y and Xia, XP (2018) Geochronology and geochemistry of volcanic rocks from the Jingtan Formation in the eastern Jiangnan orogen, South China: constraints on petrogenesis and tectonic implications. Precambrian Research 309, 166–80.CrossRefGoogle Scholar
Li, SN, Ni, P, Wang, GG, Bao, T, Huang, B and Dai, BZ (2020) The Jurassic volcanic-intrusive complex in the Dehua gold orefield, coastal region of SE China: implications for the tectonic setting and epithermal mineralization. Journal of Asian Earth Sciences 197, 104390. doi: 10.1016/j.jseaes.2020.104390.CrossRefGoogle Scholar
Li, LM, Sun, M, Xing, GF, Zhao, GC, Zhou, MF, Wong, J and Chen, R (2009) Two late Mesozoic volcanic events in Fujian Province: constraints on the tectonic evolution of southeastern China. International Geology Review 51, 216–51.CrossRefGoogle Scholar
Li, SZ, Suo, YH, Li, XY, Zhou, J, Santosh, M, Wang, PC, Wang, GZ, Guo, LL, Yu, SY, Lan, HY, Dai, LM, Zhou, ZZ, Guo, XZ, Zhu, JJ, Liu, B, Jiang, SH, Wang, G and Zhang, GW (2019) Mesozoic tectono-magmatic response in the East Asian ocean-continent connection zone to subduction of the Paleo-Pacific Plate. Earth-Science Reviews 129, 91137.CrossRefGoogle Scholar
Li, YN, Xing, GF, Xing, XL, Chen, SZ, Duan, Z, Yang, D and Hu, LY (2015) The discovery of Middle Jurassic volcanic rocks in northern Fujian Province and its geological significance. Geological Bulletin of China 34, 2227–35 (in Chinese with English abstract).Google Scholar
Li, YHM, Zhou, MF, Lai, KW, Chan, LS and Chen, WT (2014) Geochemical and geochronological constraints on Late Jurassic volcanic rocks at Tuen Mun, Hong Kong, with implications for the Palaeo-Pacific subduction. International Geology Review 56, 408–29.CrossRefGoogle Scholar
Lin, SF, Xing, GF, Davis, DW, Yin, CP, Wu, ML, Li, LM, Jiang, Y and Chen, ZH (2018) Appalachian-style multi-terrane Wilson cycle model for the assembly of South China. Geology 46, 319–22.CrossRefGoogle Scholar
Ling, MX, Wang, FY, Ding, X, Hu, YH, Zhou, JB, Zartman, RE, Yang, XY and Sun, WD (2009) Cretaceous ridge subduction along the Lower Yangtze River Belt, eastern China. Economic Geology 104, 303–21.CrossRefGoogle Scholar
Liu, YS, Gao, S, Hu, ZC, Gao, CG, Zong, KQ and Wang, DB (2010) Continental and oceanic crust recycling-induced melt-peridotite interactions in the Trans-North China Orogen: U–Pb dating, Hf isotopes and trace elements in zircons of mantle xenoliths. Journal of Petrology 51, 537–71.CrossRefGoogle Scholar
Liu, YD, Li, X, Xu, L, Chen, MJ, Liu, FL and Chen, XY (2019) Identification and genesis of the Late Jurassic volcanic rocks in Longquan area, southern Zhejiang Province. Geology in China 46, 1530–46 (in Chinese with English abstract).Google Scholar
Liu, L, Xu, XS and Xia, Y (2014) Cretaceous Pacific plate movement beneath SE China: evidence from episodic volcanism and related intrusions. Tectonophysics 614, 170–84.CrossRefGoogle Scholar
Liu, L, Xu, XS and Xia, Y (2016) Asynchronizing paleo-Pacific slab rollback beneath SE China: insights from the episodic Late Mesozoic volcanism. Gondwana Research 37, 397407.CrossRefGoogle Scholar
Liu, L, Xu, XS and Zou, HB (2012) Episodic eruptions of the Late Mesozoic volcanic sequences in southeastern Zhejiang, SE China: petrogenesis and implications for the geodynamics of paleo-Pacific subduction. Lithos 154, 166–80.CrossRefGoogle Scholar
Ludwig, KR (2003) User’s Manual for Isoplot 3.00: A Geochronological Toolkit for Microsoft Excel. Berkeley Geochronology Center, Special Publication no. 4.Google Scholar
Mei, C, Kang, ZJ, Tang, YS, Zhang, S, Guan, FZ, Gong, SY and Li, G (2011) A discussion on the manifestation of Jixian movement and early Yanshanian movement in the study area based on the new dating information: taking the Western Shenzhen and National Geopark in Eastern Shenzhen Dapeng Peninsula as examples. Earth Science Frontiers 18, 179–88 (in Chinese with English abstract).Google Scholar
Middlemost, EAK (1994) Naming materials in the magma/igneous rock system. Earth-Science Reviews 37, 215–24.CrossRefGoogle Scholar
Norrish, K and Hutton, JT (1969) An accurate X-ray spectrographic method for the analysis of a wide range of geological samples. Geochimica et Cosmochimica Acta 33, 431–53.CrossRefGoogle Scholar
Sewell, RJ, Davis, DW and Campbell, SDG (2012) High precision U–Pb zircon ages for Mesozoic igneous rocks from Hong Kong. Journal of Asian Earth Sciences 43, 164–75.CrossRefGoogle Scholar
Söderlund, U, Patchett, PJ, Vervoort, JD and Isachsen, CE (2004) The 176Lu decay constant determined by Lu–Hf and U–Pb isotope systematics of Precambrian mafic intrusions. Earth and Planetary Science Letters 219, 311–24.CrossRefGoogle Scholar
Su, HM, Mao, JW, Santosh, M and Xie, GQ (2014) Petrogenesis and tectonic significance of Late Jurassic–Early Cretaceous volcanic-intrusive complex in the Tianhuashan basin, South China. Ore Geology Reviews 56, 556–83.CrossRefGoogle Scholar
Sun, SS and McDonough, WF (1989) Sun, SS and McDonough, WF (1989) Chemical and isotopic systematics of oceanic basalts: implications for mantle composition and processes. In Magmatism in the Ocean Basins (eds Saunders, AD and Norry, MJ), pp. 313–45. Geological Society of London, Special Publication no. 42. Google Scholar
Suo, YH, Li, SZ, Jin, C, Zhang, Y, Zhou, J, Li, XY, Wang, PC, Liu, Z, Wang, XY and Somerville, I (2019) Eastward tectonic migration and transition of the Jurassic–Cretaceous Andean-type continental margin along Southeast China. Earth-Science Reviews 196, 102884. doi: 10.1016/j.earscirev.2019.102884.CrossRefGoogle Scholar
Wang, JE, Liu, YD, Wang, JG, Wang, Z and Tao, L (2016) Age assignment of the Moshishan Group volcanic rocks in the Lishui area, Zhejiang Province. East China Geology 37, 157–65 (in Chinese with English abstract).Google Scholar
Wang, W, Zhou, MF, Yan, DP, Li, L and Malpas, J (2013) Detrital zircon record of Neoproterozoic active-margin sedimentation in the eastern Jiangnan Orogen, South China. Precambrian Research 235, 119.CrossRefGoogle Scholar
Wiedenbeck, M, Alle, P, Corfu, F, Griffin, WL, Meier, M, Oberli, F, Quadt, AV, Roddick, JC and Spiegel, W (1995) Three natural zircon standards for U-Th-Pb, Lu–Hf, trace element and REE analyses. Geostandards Newsletter 19, 123.CrossRefGoogle Scholar
Woodhead, JD and Hergt, JM (2005) A preliminary appraisal of seven natural zircon reference materials for in situ Hf isotope determination. Geostandards and Geoanalytical Research 29, 183–95.CrossRefGoogle Scholar
Wu, FY, Jahn, BM, Wilde, SA, Lo, CH, Yui, TF and Lin, Q (2003) Highly fractionated I-type granites in NE China (I): geochronology and petrogenesis. Lithos 66, 241–73.CrossRefGoogle Scholar
Wu, FY, Yang, YH, Xe, LW, Yang, JH and Xu, P (2006) Hf isotopic compositions of the standard zircons and baddeleyites used in U–Pb geochronology. Chemical Geology 234, 105–26.CrossRefGoogle Scholar
Wyllie, PJ, Osmaston, MF and Morrison, MA (1984) Constraints imposed by experimental petrology on possible and impossible magma sources and products. Philosophical Transactions of the Royal Society A: Mathematical, Physical and Engineering Sciences 310, 439–56.Google Scholar
Xing, GF, Chen, R, Yang, ZL, Zhou, YZ, Li, LM, Jiang, Y and Chen, ZH (2009) Characteristics and tectonic setting of Late Cretaceous volcanic magmatism in the coastal Southeast China. Acta Petrologica Sinica 25, 7791 (in Chinese with English abstract).Google Scholar
Xing, GF, Lu, QD, Chen, R, Zhang, ZY, Nie, TC, Li, LM, Huang, JL and Lin, M (2008) Study on the ending time of Late Mesozoic tectonic regime transition in South China – comparing to the Yanshan Area in North China. Acta Geologica Sinica 82, 451–63 (in Chinese with English abstract).Google Scholar
Xing, GF, Yang, ZL, Chen, R, Shen, JL, Wei, NY and Zhou, YZ (2004) Three stages of Mesozoic bimodal igneous rocks and their tectonic implications on the continental margin of southeastern China. Acta Geologica Sinica 78, 2739.Google Scholar
Xing, XL, Xing, GF, Chen, SZ, Zhao, XL and Duan, Z (2017) LA-ICP-MS zircons U–Pb ages and geological characteristics of Early–Middle Jurassic volcanic rocks in the Qingyuan area, Zhejiang Province. Geological Bulletin of China 36, 1583–90 (in Chinese with English abstract).Google Scholar
Xu, XS, O’Reilly, SY, Griffin, WL, Wang, XL, Pearson, NJ and He, ZY (2007) The crust of Cathaysia: age, assembly and reworking of two terranes. Precambrian Research 158, 5178.CrossRefGoogle Scholar
Yan, LL, He, ZY, Beier, C and Klemd, R (2018) Zircon trace element constraints on the link between volcanism and plutonism in SE China. Lithos 320–321, 2834.CrossRefGoogle Scholar
Yan, LL, He, ZY, Jahn, BM and Zhao, ZD (2016) Formation of the Yandangshan volcanic-plutonic complex (SE China) by melt extraction and crystal accumulation. Lithos 226–267, 287308.CrossRefGoogle Scholar
Yan, X, Jiang, SY and Jiang, YH (2016) Geochronology, geochemistry and tectonic significance of the late Mesozoic volcanic sequences in the northern Wuyi Mountain volcanic belt of South China. Gondwana Research 37, 362–83.CrossRefGoogle Scholar
Ye, HM, Mao, JR, Zhao, XL, Liu, K and Chen, DD (2013) Revisiting Early–Middle Jurassic igneous activity in the Nanling Mountains, South China: geochemistry and implications for regional geodynamics. Journal of Asian Earth Science 72, 108–77.CrossRefGoogle Scholar
Zhang, YZ and Wang, YJ (2016) Early Neoproterozoic (~840 Ma) arc magmatism: geochronological and geochemical constraints on the metabasites in the Central Jiangnan Orogen. Precambrian Research 275, 117.CrossRefGoogle Scholar
Zhang, W, Wu, HX, Zhu, KY, Zhang, KF, Xing, XL, Chen, DX, Chen, HL and Zhang, FQ (2018) The Jurassic magmatism and its tectonic setting in the eastern margin of South China: evidence from the volcanic rocks of the Maonong Formation in the SE Zhejiang. Acta Petrologica Sinica 34, 3375–98 (in Chinese with English abstract).Google Scholar
Zhang, JH, Yang, JH, Chen, JY, Wu, FY and Wilde, SA (2018) Genesis of late Early Cretaceous high-silica rhyolites in eastern Zhejiang Province, southeast China: a crystal mush origin with mantle input. Lithos 296–299, 482–95.CrossRefGoogle Scholar
Zhao, GC and Cawood, PA (2012) Precambrian geology of China. Precambrian Research 222–223, 1354.CrossRefGoogle Scholar
Zhao, L, Guo, F, Fan, WM, Zhang, QW, Wu, YM, Li, JY and Yan, W (2016) Early Cretaceous potassic volcanic rocks in the Jiangnan Orogenic Belt, East China: crustal melting in response to the subduction of the Pacific-Izanagi ridge? Chemical Geology 437, 3043.CrossRefGoogle Scholar
Zhao, XL, Jiang, Y, Xing, GF, Wang, CZ and Jin, GD (2019a) The early Paleozoic oceanic island seamount in the Chencai area, Zhejiang Province: implication of the Yangtze-Cathaysia amalgamation. Geological Journal 55, 1148–62.CrossRefGoogle Scholar
Zhao, XL, Jiang, Y, Yu, SY, Xing, GF and Yu, MG (2018a) Geochemical, zircon U–Pb–Hf, and whole-rock Sr–Nd isotopic study of Late Jurassic Sanming A-type granite in the Wuyi area, Fujian province, Southeast China. Geological Journal 53, 2204–18.CrossRefGoogle Scholar
Zhao, XL, Liu, K, Yu, MG, Jiang, Y, Mao, JR, Zhou, XH and Yu, SY (2015) Early Cretaceous I-type granites in the southwest Fujian Province: new constraints on the late Mesozoic tectonic evolution of southeast China. Island Arc 24, 359–78.CrossRefGoogle Scholar
Zhao, XL, Mao, JR, Liu, K, Li, ZL, Ye, HM, Zhou, J and Hu, YZ (2018b) Petrogenesis of the Jurassic adakitic rocks in Gan-Hang Belt South China: response to the Palaeo-Pacific Plate oblique subduction. Geological Journal 53, 2019–44.CrossRefGoogle Scholar
Zhao, LL, Wang, LL, Tian, MZ and Wu, FD (2017) Geochemistry and zircon U–Pb geochronology of the rhyolitic tuff on Port Island, Hong Kong: implication for early Cretaceous tectonic setting. Geoscience Frontiers 8, 565–81.CrossRefGoogle Scholar
Zhao, XL, Yu, SY, Jiang, Y, Mao, JR, Yu, MG, Chen, ZH and Xing, GF (2019b) Petrogenesis of two stages of Cretaceous granites in south-west Fujian Province: implications for the tectonic transition of Southeast China. Geological Journal 54, 221–44.CrossRefGoogle Scholar
Zhao, XL, Yu, SY, Mao, JR, Liu, K, Yu, MG, Jiang, Y, Chen, ZH, Hou, KJ and Peng, YB (2017) Compression between microcontinents in the Cathaysian Block during the early Yanshanian: petrogenesis of the Tangquan pluton in the Southwest Fujian Province, Southeast China. Geological Journal 52, 970–91.CrossRefGoogle Scholar
Zhao, XL, Yu, SY, Mao, JR, Liu, K, Yu, MG, Jiang, Y, Chen, ZH, Hou, KJ and Peng, YB (2018c) A geochemical and geochronological study of the early Cretaceous, extension-related Honggong ferroan (A-type) granite in southwest Zhejiang Province, southeast China. Geological Magazine 55, 549–67.CrossRefGoogle Scholar
Zhao, JH, Zhou, MF and Zheng, JP (2013) Constraints from zircon U–Pb ages, O and Hf isotopic compositions on the origin of Neoproterozoic peraluminous granitoids from the Jiangnan Fold Belt, South China. Contributions to Mineralogy and Petrology 166, 1505–19.CrossRefGoogle Scholar
Zhou, XM and Li, XH (2000) Origin of Late Mesozoic igneous rocks in Southeastern China: implications for lithosphere subduction and underplating of mafic magmas. Tectonophysics 326, 269–87.CrossRefGoogle Scholar
Zhou, XM, Sun, T, Shen, WZ, Shu, LS and Niu, YL (2006) Petrogenesis of Mesozoic granitoids and volcanic rocks in South China: a response to tectonic evolution. Episodes 29, 2633.CrossRefGoogle Scholar
Zhu, WG, Zhong, H, Li, XH, He, DF, Song, XY, Ren, T, Chen, ZQ, Sun, HS and Liao, JQ (2010) The early Jurassic mafic-ultramafic intrusion and A-type granite from northeastern Guangdong, SE China: age, origin, and tectonic significance. Lithos 119, 313–29.CrossRefGoogle Scholar