冀北崇礼红旗营子岩群中镁铁质岩石地球化学和年代学研究：对华北克拉通新太古代晚期-古元古代早期大地构造演化的启示

陶光活; 李晓峰; 王军鹏; 蒋康

doi:10.3799/dqkx.2020.242

Volume 45 Issue 9

Sep. 2020

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Article Navigation > Earth Science > 2020 > 45(9): 3436-3450

Tao Guanghuo, Li Xiaofeng, Wang Junpeng, Jiang Kang, 2020. Geochemistry and Geochronology of Mafic Rocks from Hongqiyingzi Group in Chongli Area of the Northern Hebei Province: Implications for the Late Neoarchean-Early Paleoproterzoic Tectonic Evolution of the North China Craton. Earth Science, 45(9): 3436-3450. doi: 10.3799/dqkx.2020.242

Citation:

Tao Guanghuo, Li Xiaofeng, Wang Junpeng, Jiang Kang, 2020. Geochemistry and Geochronology of Mafic Rocks from Hongqiyingzi Group in Chongli Area of the Northern Hebei Province: Implications for the Late Neoarchean-Early Paleoproterzoic Tectonic Evolution of the North China Craton. Earth Science, 45(9): 3436-3450. doi: 10.3799/dqkx.2020.242

Citation:

Tao Guanghuo, Li Xiaofeng, Wang Junpeng, Jiang Kang, 2020. Geochemistry and Geochronology of Mafic Rocks from Hongqiyingzi Group in Chongli Area of the Northern Hebei Province: Implications for the Late Neoarchean-Early Paleoproterzoic Tectonic Evolution of the North China Craton. Earth Science, 45(9): 3436-3450. doi: 10.3799/dqkx.2020.242

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Geochemistry and Geochronology of Mafic Rocks from Hongqiyingzi Group in Chongli Area of the Northern Hebei Province: Implications for the Late Neoarchean-Early Paleoproterzoic Tectonic Evolution of the North China Craton

doi: 10.3799/dqkx.2020.242

1.
Hebei Institute of Geological Survey, Shijiazhuang 050081, China
2.
School of Earth Sciences, China University of Geosciences, Wuhan 430074, China

Received Date: 2020-05-21
Publish Date: 2020-09-15

Abstract

Abstract

The Hongqiyingzi Group in the Chongli area is located in the northern margin of the North China Craton. The rock association, structural characteristics and formation age of the Hongqiyingzi Group in the Chongli area are of great significance to study the tectonic evolution of the North China Craton from late Neoarchean to early Paleoproterozoic. In this paper, based on field, petrography, geochemistry, zircon U-Pb geochronology and Hf isotope analysis of these mafic rocks from the Hongqiyingzi Group in Chongli area, we study the origin and genesis of these rocks and discuss their tectonic implications on the late Neoarchean to early Paleoproterozoic crustal evolution of the North China Craton. The mafic rocks of the Hongqiyingzi Group are mainly composed of amphibolite and clinopyroxene amphibolite. The mafic rocks have a relatively wide range of geochemical compositions including SiO₂ (40.17%－51.53%), Na₂O (1.52%－3.47%) and K₂O (0.43%－1.23%). These rocks have relatively high values of CaO (9.15%－12.68%), MgO (5.90%－13.36%) and Al₂O₃ (9.81%－20.92%), and are characterized by enrichment of large ion lithophile elements such as Ba, U, K, and Sr, depletion of high field strength elements such as Th, Nb, Ta, and Ti and flat heavy rare earth elements patterns. The LA-ICP-MS zircon U-Pb dating shows that the magmatic zircon of amphibolite was formed at 2 477±23 Ma, with the upper intercept age of 2 468±29 Ma, representing its formation age. The Hf isotopic analyses of amphibolite show that the ε_Hf(t) values are negative (－5.2－0). The one-stage (T_DM1) and two-stage Hf model ages (T_DM2) are 2 673－2 783 Ma and 2 880－3 074 Ma, respectively, indicating that they were originated from recycling of the Archean crustal materials. In addition, the ε_Hf(t) values of zircons suggest that a crustal accretion event occurred in the Neoarchean in the Chongli area. The geochemical characteristics indicate that these rocks were formed in an arc-related tectonic environment. Based on the research of other areas in the North China Craton, we suggest that a magmatic event related with arc environment may have occurred in the late Neoarchean to early Paleoproterozoic in the Chongli area.
- North China Craton,
- Hongqiyingzi Group,
- geochemistry,
- zircon U-Pb geochronology,
- Hf isotope,
- tectonic evolution

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References(75)

References

Ajaji, T., Weis, D., Giret, A., et al., 1998. Coeval Potassic and Sodic Calc-Alkaline Series in the Post-Collisional Hercynian Tanncherfi Intrusive Complex, Northeastern Morocco:Geochemical, Isotopic and Geochronological Evidence. Lithos, 45(1-4):371-393. https://doi.org/10.1016/s0024-4937(98)00040-1

Condie, K. C., 2001. Mantle Plumes and Their Record in Earth History. Cambridge University Press, London.

Deng, H., Kusky, T., Polat, A., et al., 2014. Geochronology, Mantle Source Composition and Geodynamic Constraints on the Origin of Neoarchean Mafic Dikes in the Zanhuang Complex, Central Orogenic Belt, North China Craton. Lithos, 205:359-378. https://doi.org/10.1016/j.lithos.2014.07.011

Dilek, Y., Furnes, H., 2011. Ophiolite Genesis and Global Tectonics:Geochemical and Tectonic Fingerprinting of Ancient Oceanic Lithosphere. Geological Society of America Bulletin, 123(3-4):387-411. https://doi.org/10.1130/b30446.1

Diwu, C. R., Sun, Y., Guo, A. L., et al., 2011. Crustal Growth in the North China Craton at~2.5 Ga:Evidence from in Situ Zircon U-Pb Ages, Hf Isotopes and Whole-Rock Geochemistry of the Dengfeng Complex. Gondwana Research, 20(1):149-170. https://doi.org/10.1016/j.gr.2011.01.011

Geng, Y. S., Shen, Q. H., Ren, L. D., 2010. Late Neoarchean to Early Paleoproterozoic Magmatic Events and Tectonothermal Systems in the North China Craton. Acta Petrologica Sinica, 26(7):1945-1966 (in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=ysxb98201007001

Hu, X. W., Zhang, J. M., Quan, H., 1996. The Isotopic Ages of the Hongqiyingzi Group in Northern Hebei and Its Age Assignment. Regional Geology of China, (2):186-192 (in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=QK199600705060

Kusky, T. M., Li, J. H., Tucker, R. D., 2001. The Archean Dongwanzi Ophiolite Complex, North China Craton:2.505-Billion-Year-Old Oceanic Crust and Mantle. Science, 292(5519):1142-1145. https://doi.org/10.1126/science.1059426

Li, J. H., Kusky, T. M., Huang, X. N., 2002. Archean Podiform Chromitites and Mantle Tectonites in Ophiolitic Mélange, North China Craton:A Record of Early Oceanic Mantle Processes. GSA Today, 12(7):4-11.https://doi.org/10.1130/1052-5173(2002)0120004:apcamt>2.0.co; 2 doi: 10.1130/1052-5173(2002)0120004:apcamt>2.0.co;2

Li, S. G., 1993. Ba-Th-Nb-La Diagram Used to Identify Tectonic Environments of Ophiolite. Acta Petrologica Sinica, 9(2):146-157 (in Chinese with English abstract).

Li, W. P., Lu, F. X., 1999. New Progress of the Study of Geologic Setting for Calc Alkline Volcanic Rocks. Geological Science and Technology Information, 18(2):15-18 (in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=dzkjqb199902004

Liu, D. Y., Nutman, A. P., Compston, W., et al., 1992. Remnants of ≥ 3 800 Ma Crust in the Chinese Part of the Sino-Korean Craton. Geology, 20(4):339-342.https://doi.org/10.1130/0091-7613(1992)0200339:romcit>2.3.co; 2 doi: 10.1130/0091-7613(1992)0200339:romcit>2.3.co;2

Liu, S. W., Lü, Y. J., Feng, Y. G., et al., 2007. Zircon and Monazite Geochranology of the Hongqiyingzi Complex, Northern Hebei, China. Geological Bulletin of China, 26(9):1086-1100 (in Chinese with English abstract).

Liu, Y., Ni, Z. Y., Kong, X., et al., 2015. Geological Characteristics and Implication of Hongqiyingzi Complex in Chicheng, North Hebei, China. Journal of Chengdu University of Technology (Science & Technology Edition). 42(3):268-278 (in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTotal-CDLG201503002.htm

Ludwig, K. R., 2003. ISOPLOT 3.00:A Geochronological Toolkit for Microsoft Excel. Berkeley Geochronology Center, Berkeley.

McDonough, W. F., Sun, S. S., 1995. The Composition of the Earth. Chemical Geology, 120(3-4):223-253. https://doi.org/10.1016/0009-2541(94)00140-4

Miyashiro, A., 1974. Volcanic Rock Series in Island Arcs and Active Continental Margins. American Journal of Science, 274(4):321-355. https://doi.org/10.2475/ajs.274.4.321

Ning, W. B., Wang, J. P., Xiao, D., et al., 2019. Electron Probe Microanalysis of Monazite and Its Applications to U-Th-Pb Dating of Geological Samples. Journal of Earth Science, 30(5):952-963. https://doi.org/10.1007/s12583-019-1020-8

Pearce, J. A., 2008. Geochemical Fingerprinting of Oceanic Basalts with Applications to Ophiolite Classification and the Search for Archean Oceanic Crust. Lithos, 100(1-4):14-48. https://doi.org/10.1016/j.lithos.2007.06.016

Pearce, J. A., 2014. Immobile Element Fingerprinting of Ophiolites. Elements, 10(2):101-108. https://doi.org/10.2113/gselements.10.2.101

Pearce, J. A., Peate, D. W., 1995. Tectonic Implications of the Composition of Volcanic ARC Magmas. Annual Review of Earth and Planetary Sciences, 23(1):251-285. https://doi.org/10.1146/annurev.ea.23.050195.001343

Peng, P., Zhai, M. G., 2002. Two Major Precambrian Geological Events of North China Block (NCB):Characteristics and Property. Advance in Earth Sciences, 17(6):818-825 (in Chinese with English abstract). http://www.cnki.com.cn/Article/CJFDTotal-DXJZ200206004.htm

Polat, A., Hofmann, A. W., 2003. Alteration and Geochemical Patterns in the 3.7-3.8 Ga Isua Greenstone Belt, West Greenland. Precambrian Research, 126(3-4):197-218. https://doi.org/10.1016/s0301-9268(03)00095-0

Saunders, A.D., Norry, M.J., Tarney, J., 1991. Fluid Influence on the Trace Element Compositions of Subduction Zone Magmas. Philosophical Transactions of the Royal Society of London Series A:Physical and Engineering Sciences, 335(1638):377-392. https://doi.org/10.1098/rsta.1991.0053

Shen, Q. H., Geng, Y. S., Song, H. X., 2018. Progress on Metamorphic Petrology and Metamorphic Geology of China in the Last nearly 70 Years. Earth Science, 43(1):1-23 (in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=dqkx201801001

Sun, S. S., McDonough, W. F., 1989. Chemical and Isotopic Systematics of Oceanic Basalts:Implications for Mantle Composition and Processes. Geological Society, London, Special Publications, 42(1):313-345. https://doi.org/10.1144/gsl.sp.1989.042.01.19

Taylor, B., Martinez, F., 2003. Back-Arc Basin Basalt Systematics. Earth and Planetary Science Letters, 210(3-4):481-497. https://doi.org/10.1016/s0012-821x(03)00167-5

Wan, Y. S., Dong, C. Y., Xie, H. Q., et al., 2015. Some Progress in the Study of Archean Basement of the North China Craton. Acta Geoscientica Sinica, 36(6):685-700 (in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=dqxb201506001

Wang, F., Chen, F. K., Hou, Z. H., et al., 2009. Zircon Ages and Sr-Nd-Hf Isotopic Composition of Late Paleozoic Granitoids in the Chongli-Chicheng Area, Northern Margin of the North China Block. Acta Petrologica Sinica, 25(11)::3057-3074 (in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=ysxb98200911033

Wang, F., Chen, F. K., Siebel, W., et al., 2011. Zircon U-Pb Geochronology and Hf Isotopic Composition of the Hongqiyingzi Complex, Northern Hebei Province:New Evidence for Paleoproterozoic and Late Paleozoic Evolution of the Northern Margin of the North China Craton. Gondwana Research, 20(1):122-136. https://doi.org/10.1016/j.gr.2011.02.003

Wang, H. C., Chu, H., Xiang, Z. Q., et al., 2012. The Hongqiyingzi Group in the Chongli-Chicheng Area, Northern Margin of the North China Craton:A Suite of Late Paleozoic Metamorphic Complex. Earth Science Frontiers, 19(5):100-113 (in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTOTAL-DXQY201205012.htm

Wang, J. P., Kusky, T., Polat, A., et al., 2013. A Late Archean Tectonic Mélange in the Central Orogenic Belt, North China Craton. Tectonophysics, 608:929-946. https://doi.org/10.1016/j.tecto.2013.07.025

Wang, J. P., Li, X. W., Ning, W. B., et al., 2019. Geology of a Neoarchean Suture:Evidence from the Zunhua Ophiolitic Mélange of the Eastern Hebei Province, North China Craton. GSA Bulletin, 131(11-12):1943-1964. https://doi.org/10.1130/b35138.1

Wang, Q. C., 1992. On the Age of Hongqiyingzi Group and Geological Thermal Events in Undergone. Chinese Journal of Geology, 27(S1):17-24 (in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=QK000000368959

Wiedenbeck, M., Allé, P., Corfu, F., et al., 1995. Three Natural Zircon Standards for U-Th-Pb, Lu-Hf, Trace Element and Ree Analyses. Geostandards and Geoanalytical Research, 19(1):1-23. https://doi.org/10.1111/j.1751-908x.1995.tb00147.x

Wilson, M., 1989. Igneous Petrogenesis:A Global Tectonic Approach. Unwin Hyman, London.

Winchester, J. A., Floyd, P. A., 1977. Geochemical Discrimination of Different Magma Series and Their Differentiation Products Using Immobile Elements. Chemical Geology, 20:325-343. https://doi.org/10.1016/0009-2541(77)90057-2

Wu, F. Y., Li, X. H., Zheng, Y. F., et al., 2007. Lu-Hf Isotopic Systematics and Their Applications in Petrology. Acta Petrologica Sinica, 23(2):185-220 (in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=ysxb98200702001

Wu, J. S., Geng, Y. S., Shen, Q. H., et al., 1998. The Geological Characteristics and Tectonic Evolution of the Ancient Archean of China and the DPRK. Geological Publishing House, Beijing (in Chinese).

Wu, Y. B., Zheng, Y. F., 2004. Genesis of Zircon and Its Constraints on Interpretation of U-Pb Age. Chinese Science Bulletin, 49(15):1554-1569. https://doi.org/10.1007/bf03184122

Zhai, M. G., 1991. Two Types of Archaean Meta-Basalts and Their Geotectonic Significance. Chinese Journal of Geology, 26(3):222-230 (in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=QK000000368885

Zhai, M. G., 2010. Tectonic Evolution and Metallogenesis of North China Craton. Mineral Deposits, 29(1):24-36 (in Chinese with English abstract). http://www.researchgate.net/publication/285024039_Tectonic_evolution_and_metallogenesis_of_North_China_Craton

Zhai, M. G., 2012. Evolution of the North China Craton and Early Plate Tectonics. Acta Geologica Sinica, 86(9):1335-1349 (in Chinese with English abstract). http://en.cnki.com.cn/Article_en/CJFDTOTAL-DZXE201209004.htm

Zhai, M. G., 2019. Tectonic Evolution of the North China Craton. Journal of Geomechanics, 25(5):722-745 (in Chinese with English abstract).

Zhang, C. H., Wang, Q. C., Gao, M. W., et al., 1990. The Early Precambrian Metamorphism of Hebei. Geological Publishing House, Beijing (in Chinese with English abstract).

Zhang, J. H., Tian, H., Wang, H. C., et al., 2019. Re-Definition of the Two-Stage Early-Precambeian Meta-Supracrustal Rocks in the Huai'an Complex, North China Craton:Evidences from Petrology and Zircon U-Pb Geochronology. Earth Science, 44(1):1-22 (in Chinese with English abstract). http://www.researchgate.net/publication/332108466_Re-Definition_of_the_Two-Stage_Early-Precambrian_Meta-Supracrustal_Rocks_in_the_Huai'an_Complex_North_China_Craton_Evidences_from_Petrology_and_Zircon_U-Pb_Geochronology

Zhang, J., Ni, Z. Y., Zhai, M. G., et al., 2012. Petrology, Geochemistry and Protolith of the Biotite Plagiogneiss from Hongqiyingzi Group in Chicheng County, Northern Hebei Province. Acta Petrologica et Mineralogica, 31(3):307-322 (in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=yskwxzz201203002

Zhang, L. C., Zhai, M. G., Wan, Y. S., et al., 2012. Study of the Precambrian BIF-Iron Deposits in the North China Craton:Progresses and Questions. Acta Petrologica Sinica, 28(11):3431-3445 (in Chinese with English abstract). http://www.cnki.com.cn/Article/CJFDTotal-YSXB201211002.htm

Zhang, Z. Q., Shen, Q. H., Geng, Y. S., et al. 1996., Geochemistry and Ages of Archean Metamorphic Rocks in Northwestern Hebei Province, China, and Formation Time of the Paleocrust in the Region. Acta Petrologica Sinica, 12(2):315-328 (in Chinese with English abstract).

Zhao, G. C., Cawood, P. A., Wilde, S. A., et al., 2000. Metamorphism of Basement Rocks in the Central Zone of the North China Craton:Implications for Paleoproterozoic Tectonic Evolution. Precambrian Research, 103(1-2):55-88. https://doi.org/10.1016/s0301-9268(00)00076-0

Zhao, G. C., Sun, M., Wilde, S. A., et al., 2005. Late Archean to Paleoproterozoic Evolution of the North China Craton:Key Issues Revisited. Precambrian Research, 136(2):177-202. https://doi.org/10.1016/j.precamres.2004.10.002

Zhong, Y. T., He, C., Chen, N. S., et al., 2018. Tectonothermal Records in Migmatite-Like Rocks of the Guandi Complex in Zhoukoudian, Beijing:Implications for Late Neoarchean to Proterozoic Tectonics of the North China Craton. Journal of Earth Science, 29(5):1254-1275. https://doi.org/10.1007/s12583-018-0856-7

耿元生, 沈其韩, 任留东, 2010.华北克拉通晚太古代末-古元古代初的岩浆事件及构造热体制.岩石学报, 26(7):1945-1966. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=ysxb98201007001

胡学文, 张江满, 权桓, 1996.冀北红旗营子群同位素年龄及其时代归属.中国区域地质, (2):186-192. http://www.cnki.com.cn/Article/CJFDTotal-ZQYD602.012.htm

李曙光, 1993.蛇绿岩生成构造环境的Ba-Th-Nb-La判别图.岩石学报, 9(2):146-157. http://www.cqvip.com/qk/94579X/199302/1213325.html

李伍平, 路凤香, 1999.钙碱性火山岩构造背景的研究进展.地质科技情报, 18(2):15-18. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=dzkjqb199902004

刘树文, 吕勇军, 凤永刚, 等, 2007.冀北红旗营子杂岩的锆石、独居石年代学及地质意义.地质通报, 26(9):1086-1100. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=zgqydz200709012

刘瑶, 倪志耀, 孔旭, 等, 2015.冀北赤城红旗营子杂岩的地质特征及意义.成都理工大学学报(自然科学版), 42(3):268-278. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=cdlgxyxb201503002

彭澎, 翟明国, 2002.华北陆块前寒武纪两次重大地质事件的特征和性质.地球科学进展, 17(6):818-825. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=dqkxjz200206004

沈其韩, 耿元生, 宋会侠, 2018.近70年中国变质岩石学-变质地质学的研究进展.地球科学, 43(1):1-23. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=0120180802770181

万渝生, 董春艳, 颉颃强, 等, 2015.华北克拉通太古宙研究若干进展.地球学报, 36(6):685-700. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=dqxb201506001

王芳, 陈福坤, 侯振辉, 等, 2009.华北陆块北缘崇礼-赤城地区晚古生代花岗岩类的锆石年龄和Sr-Nd-Hf同位素组成.岩石学报, 25(11):3057-3074. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=ysxb98200911033

王惠初, 初航, 相振群, 等, 2012.华北克拉通北缘崇礼-赤城地区的红旗营子(岩)群:一套晚古生代的变质杂岩.地学前缘, 19(5):100-113. http://d.wanfangdata.com.cn/Periodical/dxqy201205011

王启超, 1992.红旗营子群的时代归属及所经历的地质热事件.地质科学, 27(S1):17-24. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=QK000000368959

吴福元, 李献华, 郑永飞, 等, 2007.Lu-Hf同位素体系及其岩石学应用.岩石学报.23(2):185-220. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=ysxb98200702001

伍家善, 耿元生, 沈其韩, 等, 1998.中朝古大陆太古宙地质特征及构造演化.北京:地质出版社.

翟明国, 1991.太古代变质玄武岩的地球化学特征及大地构造意义.地质科学, 26(3):222-230. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=QK000000368885

翟明国, 2010.华北克拉通的形成演化与成矿作用.矿床地质, 29(1):24-36. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=kcdz201001004

翟明国, 2012.华北克拉通的形成以及早期板块构造.地质学报, 86(9):1335-1349. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=dizhixb201209002

翟明国, 2019.华北克拉通构造演化.地质力学学报, 25(5):722-745. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=dzlxxb201905008

张春华, 王启超, 高明文, 等, 1990.河北早前寒武纪变质作用.北京:地质出版社.

张家辉, 田辉, 王惠初, 等, 2019.华北克拉通怀安杂岩中早前寒武纪两期变质表壳岩的重新厘定:岩石学及锆石U-Pb年代学证据.地球科学, 44(1):1-22. doi: 10.3799/dqkx.2018.259

张静, 倪志耀, 翟明国, 等, 2012.冀北赤城红旗营子群黑云斜长片麻岩的岩石学、地球化学及原岩特征.岩石矿物学杂志, 31(3):307-322. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=yskwxzz201203002

张连昌, 翟明国, 万渝生, 等, 2012.华北克拉通前寒武纪BIF铁矿研究:进展与问题.岩石学报, 28(11):3431-3445. http://www.cnki.com.cn/Article/CJFDTotal-YSXB201211002.htm

张宗清, 沈其韩, 耿元生, 等, 1996.赤城伙房村和崇礼上新营变质岩的地球化学特征、年龄及其区域地壳形成时间.岩石学报, 12(2):315-328. http://www.cqvip.com/Main/Detail.aspx?id=2141061

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