内蒙古额济纳地区奥陶纪火山岩地球化学特征及其地质意义

陈智斌; 于洋; 薄海军

doi:10.3799/dqkx.2018.346

内蒙古额济纳地区奥陶纪火山岩地球化学特征及其地质意义

doi: 10.3799/dqkx.2018.346

陈智斌^1, ,,
于洋^1, , ,,
薄海军²

1.
中国地质大学地质调查研究院, 湖北武汉 430074
2.
武装黄金第二支队, 内蒙古呼和浩特 010010

基金项目:

中国地质调查局地质调查项目 DD2016007802

详细信息

作者简介:
陈智斌(1993-), 男, 硕士研究生, 主要从事地质工程专业研究

通讯作者:
于洋

中图分类号: P588.14;P595
计量
- 文章访问数: 4049
- HTML全文浏览量: 977
- PDF下载量: 65
- 被引次数: 0
出版历程
- 收稿日期: 2018-11-02
- 刊出日期: 2020-02-15

Geochemical Characteristics and Geological Significance of the Ordovician Volcanic Rock in Ejiana, Inner Mongolia

Chen Zhibin^{1
,
,},
Yu Yang^{1
, ,
,},
Bo Haijun²

1.
Institute of Geological Survey, China University of Geosciences, Wuhan 430074, China
2.
No.2 Gold Geological Party of CAPF, Huhhot 010010, China

摘要

摘要: 内蒙古额济纳地区广泛出露的奥陶纪火山岩是中亚造山带南缘中段早古生代地质事件的重要响应，对研究及认识古亚洲洋的演化有着重要的启示.对内蒙古额济纳旗呼仍巴斯克地区咸水湖组火山岩与白云山组凝灰岩进行了岩石学、同位素年代学和全岩主、微量元素地球化学研究.结果显示：咸水湖组为一套基性-酸性熔岩及其同质的火山碎屑岩组合，白云山组凝灰岩为酸性凝灰岩；火山岩与凝灰岩皆属于亚碱性系列岩石，主要表现出钙碱性系列的演化趋势，具有富钙，富铝，贫镁，较大的TFeO/MgO比值的特征，稀土元素配分曲线呈右倾斜型，同时富集大离子亲石元素（LILE）和轻稀土元素（LREE），亏损高场强元素（HFSE）；咸水湖组流纹岩样品的SHRIMP锆石U-Pb同位素谐和年龄为462±3 Ma（MSWD=1.6），显示其形成时代为中奥陶世晚期.通过分析比对认为，不同于其西部希热哈达、伊哈托里等地区的岛弧环境，额济纳旗呼仍巴斯克地区奥陶纪火山岩形成于陆缘弧构造背景，揭示了中-晚奥陶世蒙古国境内Zoolen大洋向内蒙古额济纳地区明水-旱山陆块北缘俯冲作用的存在.
- 火山岩 /
- SHRIMP /
- 年代学 /
- 北山弧盆系 /
- 额济纳旗 /
- 内蒙古 /
- 地球化学
Abstract: As the responses to the geological events on the southern margin of Central Asian Orogenic Belt in early Paleozoic, Ordovician volcanic rocks exposed in Ejin Banner, Inner Mongolia, offer important enlightenment for the evolution of Paleo-Asian Ocean. In this paper, the volcanic rocks and tuffs of Xianshuihu group and Baiyunshan group exposed in Hurengbasike area, Ejin Banner, are studied, including their petrology isotope chronology and geochemical characteristics such as major and trace elements. The results show that the lithology combination of Xianshuihu group is a series of basalt-basaltic andesite-andesite-rhyolite, as well as their volcanic lastic rocks, volcanic debris lava, while tuffs in baiyunshan group are mainly acidic. The volcanic rocks and tuffs belong to the sub-alkaline series, mainly showing the trends of calc-alkaline series evolution, and they are characterized by rich calcium and aluminum, poor magnesium, and larger TFeO/MgO ratios. Besides, the volcanic rocks have enriched LILE, LREE and depleted HFSE, with their REE distribution curves inclining to the right. Test results of SHRIMP zircon U-Pb isotope of the rhyolite sample from xianshuihu group yields a concordia age of 462±3 Ma(MSWD=1.6), indicating its formation era of late Ordovician, The tectonic setting of these volcanic rocks are different from the island arc volcanic rocks of Yihatuoli and Xirehada area in the west, belonging to the active continental margin, revealing the subduction of Zoolen Ocean in Mongolia towards the northern margin of Mingshui-Hanshan block during Middle Ordovician.
- volcanic rock /
- SHRIMP /
- chronology /
- Beishan orogen /
- Ejin Banner /
- Inner Mongolia /
- geochemistry

HTML全文

图 1 内蒙古额济纳地区奥陶纪大地构造位置简图

图a根据潘桂棠等（2016）、吴元伟（2014），有修改；图b根据Jahn et al.（2000）

Fig. 1. Ordovician tectonic sketch of Ejina, Inner Mongolia

下载: 全尺寸图片幻灯片

图 2 呼仍巴斯克地区地质图（左）及咸水湖组柱状图（右）

Fig. 2. Geological sketch map of Hurengbasike area(left) and histogram of Xianshuihu Group(right)

下载: 全尺寸图片幻灯片

图 3 呼仍巴斯克咸水湖组火山岩、火山碎屑岩照片

a.玄武安山岩间粒-间隐结构；b.安山岩；c.流纹岩斑状结构-基质包含霏细结构；d.安山质含角砾熔结凝灰岩；e.安山质角砾熔岩；f.火山集块岩

Fig. 3. Microphotograph of Ordovician volcanic rocks in Hurengbasike

下载: 全尺寸图片幻灯片

图 4 咸水湖组流纹岩SHRIMP U-Pb同位素测试结果

a.异常测点阴极发光照片；b.样品锆石阴极发光照片；c.样品锆石U-Pb谐和图；d.加权平均年龄图

Fig. 4. Test results for SHRIMP U-Pb isotopic for the volcanic rocks from xianshuihu group

下载: 全尺寸图片幻灯片

图 5 内蒙古额济纳地区奥陶纪火山岩岩石化学分类图解

a.火山岩TAS图解（Pc.苦橄玄武岩；B.玄武岩；O1.玄武安山岩；O2.安山岩；O3.英安岩；R.流纹岩；S1.粗面玄武岩；S2.玄武质粗面安山岩；S3.粗面安山岩；T.粗面岩、粗面英安岩；F.副长石岩；U1.碱玄岩、碧玄岩；U2.响岩质碱玄岩；U3.碱玄质响岩；Ph.响岩；Ir. Irvine分界线, 根据Irvine et al., 1971）；b.火山岩Nb/Y-SiO₂图解（根据Winchester and Floyd, 1977.）；c.火山岩K₂O-SiO₂图解（实线据Peccerillo and Taylor, 1976）；d.火山岩AMF图解（根据Irvine et al., 1971）

Fig. 5. Geochemical classification and discriminant diagrams of the Ordovician volcanic rocks in Ejina, Inner Mongolia

下载: 全尺寸图片幻灯片

图 6 额济纳地区奥陶纪火山岩稀土元素球粒陨石标准化配分模式图及微量元素原始地幔标准化蛛网

Fig. 6. Chondrite-normalized REE diagram and N-MORB-normalized trace elements spider-diagram of the Ordovician volcanic rocks in Ejina, Inner Mongolia

下载: 全尺寸图片幻灯片

图 7 额济纳地区奥陶纪火山岩源区及构造环境判别图解

a. Nb/Th-Ce图解（底图根据赵忠华等，2011）；b. La/Nb-Ba/Nb图解；c. Y/15-La/10-Nb/8图解（根据Cabanis et al., 1989）；d. Th/Yb-Ta/Yb图解（根据Pearce et al., 1982）；e.安山岩La/Y-Th图解（根据Condie, 1986）；f.Rb-Y+Nb图解（根据Pearce et al., 1984）

Fig. 7. Tectonic discriminant diagrams of the Ordovician volcanic rocks in Ejina, Inner Mongolia

下载: 全尺寸图片幻灯片

图 8 额济纳地区中-晚奥陶世构造模式图

Fig. 8. Tectonic models for in the Middle-Late Ordovician Ejina area

下载: 全尺寸图片幻灯片

表 1 咸水湖组火山岩锆石U-Pb同位素分析测试结果

Table 1. Analysis results of SHRIMP zircon U-Pb dating isotopic for the volcanic rocks from Xianshuihu group

	元素含量				同位素比值						年龄
测试点	U (10^-6)	Th (10^-6)	²³²Th /²³⁸U	²⁰⁶Pb (10^-6)	²³⁸U /²⁰⁶Pb	±%	²⁰⁷Pb /²⁰⁶Pb	±%	²⁰⁸Pb /²³²Th	±%	²³⁸U /²⁰⁶Pb	"1σ err"	²⁰⁷Pb /²⁰⁶Pb	"1σ err"	²⁰⁸Pb /²³²Th	"1σ err"
PM14B44-1.1	544	205	0.39	32.30	14.47	1.3	0.0561 9	1.3	0.021 1	1.8	430.4	5.4	438	35	417	9
PM14B44-2.1	429	233	0.56	27.60	13.33	1.3	0.0580 4	1.4	0.023 0	1.8	465.5	5.9	483	46	452	10
PM14B44-3.1	242	174	0.74	15.60	13.34	1.4	0.0575 0	1.8	0.023 1	2.0	465.7	6.2	500	40	461	9
PM14B44-4.1	358	180	0.52	22.90	13.42	1.4	0.0563 9	1.5	0.023 4	1.9	461.9	6.1	377	50	452	11
PM14B44-5.1	256	119	0.48	16.00	13.76	1.4	0.0576 0	1.7	0.022 5	2.1	451.6	6.0	476	43	443	10
PM14B44-6.1	415	229	0.57	25.60	13.93	1.3	0.0554 1	1.5	0.022 0	1.8	446.3	5.7	384	37	432	8
PM14B44-7.1	246	111	0.47	15.90	13.33	1.4	0.0581 0	2.3	0.022 7	2.2	464.9	6.2	437	71	433	13
PM14B44-8.1	326	169	0.54	21.00	13.32	1.3	0.0568 3	1.6	0.023 4	1.9	465.7	6.1	411	49	455	10
PM14B44-9.1	266	183	0.71	17.30	13.26	1.4	0.0544 0	1.7	0.023 1	2.0	468.0	6.4	342	42	455	9
PM14B44-10.1	212	122	0.60	13.80	13.22	1.5	0.0579 0	1.9	0.023 5	2.2	469.7	6.7	495	51	465	11
PM14B44-11.1	393	30	0.08	21.60	15.64	1.3	0.0565 6	1.5	0.022 7	3.4	398.2	5.1	362	55	339	44
PM14B44-12.1	176	91	0.54	22.00	6.874	1.4	0.0698 2	1.4	0.044 6	2.1	875.2	11.5	913	29	877	19
PM14B44-13.1	281	116	0.43	18.70	12.87	1.4	0.0572 4	1.7	0.024 5	2.1	481.3	6.3	431	50	472	12
PM14B44-14.1	445	244	0.57	26.90	14.20	2.0	0.0602 3	1.3	0.023 0	2.3	436.4	8.5	445	59	431	13
PM14B44-15.1	153	80	0.54	9.75	13.46	1.6	0.0596 0	2.2	0.023 2	2.5	459.7	7.1	417	98	433	18
PM14B44-16.1	132	69	0.54	8.46	13.41	1.5	0.0601 0	2.4	0.023 7	2.6	460.3	7.0	381	117	433	21
PM14B44-17.1	498	399	0.83	29.50	14.49	1.3	0.0556 7	1.3	0.021 6	2.0	429.9	5.5	417	33	429	7
PM14B44-18.1	271	180	0.69	17.40	13.39	1.4	0.0617 0	1.6	0.024 2	1.9	461.6	6.2	483	79	456	13
PM14B44-19.1	151	68	0.47	9.51	13.66	1.5	0.0593 0	2.3	0.023 5	2.6	454.3	6.6	489	63	450	14
PM14B44-20.1	558	448	0.83	35.30	13.59	1.3	0.0571 7	1.2	0.023 3	1.5	457.0	5.7	442	35	459	7
PM14B44-21.1	189	77	0.42	12.10	13.45	1.4	0.0585 0	2.0	0.024 5	3.8	460.7	6.5	444	108	464	28
PM14B44-22.1	161	60	0.39	10.30	13.38	1.5	0.0596 0	2.2	0.024 3	2.6	462.2	6.7	419	115	441	28

下载: 导出CSV

参考文献(105)

[1]	Cabanis, B., 1989. Le Diagramme La/10-Y/15-Nb/8 : Unoutil Pour la Discrimination des Seriesvolcaniques et la Mise en Evidence des Processus de Melande et/ou de Contamination Crustale. C.R.Acad.Sci.Ser.ii, 309:2023-2029.
[2]	Compston, W., Williams, I. S., Kirschvink, J. L., et al., 1992. Zircon U-Pb Ages for the Early Cambrian Time-Scale. Journal of the Geological Society, 149(2):171-184. https://doi.org/10.1144/gsjgs.149.2.0171
[3]	Condie, K. C., 1986.Geochemistry and Tectonic Setting of Early Proterozoic Supracrustal Rocks in the Southwestern United States. The Journal of Geology, 94(6):845-864. https://doi.org/10.1086/629091
[4]	Condie, K. C., 1989. Geochemical Changes in Baslts and Andesites Across the Archean-Proterozoic Boundary: Identification and Significance. Lithos, 23(1/2):1-18. https://doi.org/10.1016/0024-4937(89)90020-0
[5]	Dang, B., Hong, Z., Lin, G.C., et al., 2013.Petrogenesis and Tectonic Significance of Carboniferous Volcanic Rocks in Northern Alxa and Its Neighboring Areas, Inner Mongolia, China. Earth Science, 38(5):963-974(in Chinesewith English abstract). http://d.old.wanfangdata.com.cn/Periodical/dqkx201305006
[6]	Davidson, J. P., 1996. Deciphering Mantle and Crustal Signatures in Subduction Zone Magmatism. Washington DC American Geophysical Union Geophysical Monograph, 96:251-262. http://www.researchgate.net/publication/259061979_Deciphering_mantle_and_crustal_signatures_in_subduction_zone_magmatism
[7]	Francalanci, L., Taylor, S. R., McCulloch, M. T., et al., 1993. Geochemical and Isotopic Variations in the Calc-Alkaline Rocks of Aeolian Arc, Southern Tyrrhenian Sea, Italy: Constraints on Magma Genesis. Contributions to Mineralogy and Petrology, 113(3):300-313. https://doi.org/10.1007/bf00286923
[8]	Gill, J. B., 1987. Early Geochemical Evolution of an Oceanic Island Arc and Backarc: Fiji and the South Fiji Basin. The Journal of Geology, 95(5):589-615. https://doi.org/10.1086/629158
[9]	Gong, Q. S., Liu, M. Q., Li, H. L., 2002.The Type and Basic Characteristics of Beishan Orogenic Belt, Gansu. Northwestern Geology, 35(3):28-34(in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=xbdz200203004
[10]	Gong, Q. S., Liu, M. Q., Liang, M. H., et al., 2003.The Tectonic Facies and Tectonic Evolution of Beishan Orogenic Belt, Gansu. Northwestern Geology, 36(1):11-17(in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=xbdz200301002
[11]	Hart, W. K., Wolde Gabriel, G., Walter, R. C., et al., 1989. Basaltic Volcanism in Ethiopia: Constraints on Continental Rifting and Mantle Interactions. Journal of Geophysical Research, 94(B6):7731. https://doi.org/10.1029/jb094ib06p07731
[12]	He, S. P., Ren, B. C., Yao, W. G., 2002.The Division of Tectonic Units of Beishan Area, Gansu and Inner Mongolia. Northwestern Geology, 35(4):30-40(in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=xbdz200204004
[13]	He, S. P., Zhou, H. W., Ren, B. C., et al., 2005. Crustal Evolution of Palaeozoic in Beishan Area, Gansu and Inner Mongolia, China. Northwestern Geology, 38(3):6-15(in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=xbdz200503002
[14]	Helo, C., Hegner, E., Kröner, A., et al., 2006. Geochemical Signature of Paleozoic Accretionary Complexes of the Central Asian Orogenic Belt in South Mongolia: Constraints on Arc Environments and Crustal Growth. Chemical Geology, 227(3/4):236-257. https://doi.org/10.1016/j.chemgeo.2005.10.003
[15]	Inner Mongolia Geology and Mineral Exploration and Development Bureau., 1991. Inner Mongolia Regional Geology. Geological Publishing House, Beijing, 589-609(in Chinese).
[16]	Inner Mongolia Geology and Mineral Exploration and Development Bureau, 1996. Inner Mongolia Rock Formations. China University of Geosciences Press, Wuhan, 263-264(in Chinese).
[17]	Irvine, T. N., Baragar, W. R. A., 1971.A Guide to the Chemical Classification of the Common Volcanic Rocks. Canadian Journal of Earth Sciences, 8(5):523-548. https://doi.org/10.1139/e71-055
[18]	Jahn, B. M., 2004.The Central Asian Orogenic Belt and Growth of the Continental Crust in the Phanerozoic. Geological Society, London, Special Publications, 226(1):73-100. https://doi.org/10.1144/gsl.sp.2004.226.01.05
[19]	Jahn, B. M., Wu, F. Y., Capdevila, R., et al., 2001.Highly Evolved Juvenile Granites with Tetrad REE Patterns: The Woduhe and Baerzhe Granites from the Great Xing'an Mountains in NE China. Lithos, 59(4):171-198. https://doi.org/10.1016/s0024-4937(01)00066-4
[20]	Jahn, B. M., Wu, F. Y., Chen, B., 2000.Granitoids of the Central Asian Orogenic Belt and Continental Growth in the Phanerozoic. Earth and Environmental Science Transactions of the Royal Society of Edinburgh, 91(1/2):181-193. https://doi.org/10.1017/s0263593300007367
[21]	Kröner, A., Hegner, E., Lehmann, B., et al., 2008. Palaeozoic Arc Magmatism in the Central Asian Orogenic Belt of Kazakhstan: SHRIMP Zircon Ages and Whole-Rock Nd Isotopic Systematics. Journal of Asian Earth Sciences, 32(2/3/4):118-130. https://doi.org/10.1016/j.jseaes.2007.10.013
[22]	Lamb, M. A., Badarch, G., 1997. Paleozoic Sedimentary Basins and Volcanic-Arc Systems of Southern Mongolia: New Stratigraphic and Sedimentologic Constraints. International Geology Review, 39(6):542-576. https://doi.org/10.1080/00206819709465288
[23]	Li, C. N., 1992. Trace Element Petrology of Igneous Rock. China University Geosciences Press, Wuhan(in Chinese).
[24]	Li, J. J., Zhang, F., Ren, J. P., et al., 2015. Tectonic Units in China-Mongolia Border Area and Their Fundamental Characteristics. Geological Bulletin of China, 34(4):636-662(in Chinese with English abstract). http://www.en.cnki.com.cn/Article_en/CJFDTOTAL-ZQYD201504006.htm
[25]	Liu, X. M., 2004. GeochemicalResearchon the Mesozoic Crust-Mantle Interaction in the North China Craton(Dissertation).Northwestern University, Xi'an (in Chinesewith English abstract).
[26]	Liu, X. Y., Wang, Q., 1995, Tectonics and Evolution of the Beishan Orogenic Belt, West China. Geological Research, 10:151-165. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=bc582dfa17dd7672e20e5b9d0eb52093
[27]	Ma, Q., Zheng, J. P., Griffin, W. L., et al., 2012.Triassic "Adakitic" Rocks in an Extensional Setting (North China): Melts from the Cratonic Lower Crust. Lithos, 149:159-173. https://doi.org/10.1016/j.lithos.2012.04.017
[28]	McCulloch, M. T., Gamble, J. A., 1991. Geochemical and Geodynamical Constraints on Subduction Zone Magmatism. Earth and Planetary Science Letters, 102(3/4):358-374. https://doi.org/10.1016/0012-821x(91)90029-h
[29]	Nie, N. J., Jiang, S. H., Liu, Y., et al., 2004. Sm-Nd Isotope Study on Metamorphosed Volcano-Sedimentary Rocks of the Jiaochagou Metamorphic Complex, Beishan Mt., Inner Mongolia. Acta Geologica Sinica, 78(6):807-812(in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=dizhixb200406011
[30]	Pan, G. T., Lu, S. N., Xiao. Q. H., et al., 2016. Division of Tectonic Stages and Evolution of China. Earth Science Frontiers, 23(6): 1-23(in Chinese with English abstract). http://d.old.wanfangdata.com.cn/Periodical/dxqy201606001
[31]	Pearce, J. A., Harris, N. B. W., Tindle, A. G., 1984. Trace Element Discrimination Diagrams for the Tectonic Interpretation of Granitic Rocks. Journal of Petrology, 25(4):956-983. https://doi.org/10.1093/petrology/25.4.956
[32]	Pearce, J. A., 1982. Trace Element Characteristics of Lavas from Destructive Plate Boundaries. In: Thorpe, R.S., eds., Andesites. Orogenic Andesites and Related Rocks. John Willey and Sons, Chichester, 525-548.
[33]	Peccerillo, A., Taylor, S. R., 1976. Geochemistry of Eocene Calc-Alkaline Volcanic Rocks from the Kastamonu Area, Northern Turkey. Contributions to Mineralogy and Petrology, 58(1):63-81. https://doi.org/10.1007/bf00384745
[34]	Scedilengör, A. M. C., Natal'in, B. A., 1996. Palaeotectonics of Asia: Fragments of a Synthesis. In: Rubey Colloquium, C.U.P., ed., The Tectonic Evolution of Asia, Cambridge, 486-640.
[35]	Scedilengör, A. M. C., Natal'in, B. A., Burtman, V. S., 1993.Evolution of the Altaid Tectonic Collage and Palaeozoic Crustal Growth in Eurasia. Nature, 364(6435):299-307. https://doi.org/10.1038/364299a0
[36]	Shao, J. A., 1991. Crust Evolution in the Middle Part of the Northern Margin of Sino-Korean Plate. Peking University Press, Beijing(in Chinese).
[37]	Shao, J. D., 1998. The Geotectonic Division and Characteristics of Inner Mongolia. Inner Mongolia Geology, (2):1-23(in Chinese).
[38]	Shao, J. D., Wang, H., Zhang, M., et al., 2011. Inner Mongolia Tectonic Units Divided and Geological Features. Resources, 12(1):51-56(in Chinese with English abstract).
[39]	Shao, J. D., Wang, S. G., Zhao, W. T., et al., 2009.The Analysis of the Mineralization Geological Characteristics of the Important Metallogenic Belt and Its Prospecting Potential about the Beishan-Alxa Area in Inner Mongolia. Western Resources, (2):53-55(in Chinese with English abstract).
[40]	Song, B. T., Dai, W. J., Liu, W. M., et al., 2004. Geochemical Characteristics of Volcanic Rock in Ordovician Period in West Border of North Sub-Belt of North Belt of Beishan in Gansu. Acta Geologica Gansu, 13(2):51-58(in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=gsdzxb200402008
[41]	Song, D., Xiao, W., Han, C., et al., 2013a.Geochronological and Geochemical Study of Gneiss–schist Complexes and Associated Granitoids, Beishan Orogen, Southern Altaids. International Geology Review, 55(14):1705-1727. https://doi.org/10.1080/00206814.2013.792515
[42]	Song, D., Xiao, W., Han, C., et al., 2013b. Progressive Accretionary Tectonics of the Beishan Orogenic Collage, Southern Altaids: Insights from Zircon U–Pb and Hf Isotopic Data of High-Grade Complexes. Precambrian Research, 227:368-388. https://doi.org/10.1016/j.precamres.2012.06.011
[43]	Taylor, J., Webb, L., Johnson, C., et al., 2013. The Lost South Gobi Microcontinent: Protolith Studies of Metamorphic Tectonites and Implications for the Evolution of Continental Crust in Southeastern Mongolia. Geosciences, 3(3):543-584. https://doi.org/10.3390/geosciences3030543
[44]	Tomlinson, K. Y., Hughes, D. J., Thurston, P. C., et al., 1999. Plume Magmatism and Crustal Growth at 2.9 to 3.0 Ga in the Steep Rock and Lumby Lake Area, Western Superior Province. Lithos, 46(1):103-136. https://doi.org/10.1016/s0024-4937(98)00057-7
[45]	Wang, G. Q., 2015. The Research of the Paleozoic Ophiolites and Volcanic Rocks and the Tectonic Evolution in the Beishan Area(Dissertation). Chang'an University, Xi'an (in Chinese with English abstract).
[46]	Wang, G. Q., Li, X. M., Xu, X. Y., et al., 2014. Geochemical Characteristics and Tectonic Settings of the Volcanic Rocks from Beishan Area, Gansu Province and Inner Mongolia, China. Journal of Jilin University: Earth Science Edition, 44(3): 848-860(in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=cckjdxxb201403011
[47]	Wang, T. Y., 1993. Geological Characteristics and Tectonic Significance of the Ophiolitic Melange Belt in Southern Mongolia. Journal of Lanzhou University, 29(2): 155-157(in Chinese).
[48]	Wang, T. Y., 1994. The Formation and Evolution of Paleozoic Continental Crust in Alxa Area. Lanzhou University Press, Lanzhou(in Chinese).
[49]	Wang, T. Y., Gao, J. P., Wang, J. R., et al., 1998. Magmatism of Collisional and Post-Orogenic Period in Northern Alxa Region in Inner Mongolia. Acta Geologica Sinica, 72(2): 126-137(in Chinese with English abstract).
[50]	Wang, X. R., 2005. Geochemical Research on the Early Cretaceous Volcanic Rock of Sihetun in the Western Liaoning Province(Dissertation). Northwest University, Xi an(in Chinese with English abstract).
[51]	Wilson, M. B., 1989. Igneous Petrogenesis: A Global Tectonic Approach. Terra Nova, 1(2):218-222. doi: 10.1111/j.1365-3121.1989.tb00357.x
[52]	Wilson, M., 1986. A Chemical Classification of Volcanic Rocks Based on the Total Alkali-Silica Diagram. Journal of Petrology, 27(3):745-750. https://doi.org/10.1093/petrology/27.3.745
[53]	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
[54]	Windley, B. F., Alexeiev, D., Xiao, W. J., et al., 2006. Tectonic Models for Accretion of the Central Asian Orogenic Belt. Journal of the Geological Society, 164(1):31-47. https://doi.org/10.1144/0016-76492006-022
[55]	Windley, B. F., Badarch, G., Cunningham, W. D., et al., 2001. Subduction-Accretion History of the Central Asian Orogenic Belt: Constraints from Mongolia. Gondwana Research, 4(4):825-826. https://doi.org/10.1016/s1342-937x(05)70610-9
[56]	Wu, T. R., 1990. Tectonic Units and Evolution of Paleozoic Lithosphere on the Northern Margin of the Alxa Block.Peking University, Beijing(in Chinese).
[57]	Wu, T. R., He, G. Y., 1993.TectonicUnits and Their Fundamental Characteristics on the Northern Margin of the Alxa Block. Acta Geologica Sinica, 67(2):97-108(in Chinese with English abstract). http://www.cnki.com.cn/Article/CJFDTotal-DZXW199304000.htm
[58]	Wu, Y. W., 2014. A Comparative Research on the Tectonic and Sedimentary Background in Late Paleozoic in Beishan and Yin'Gen-Eji'naqi Area(Dissertation). Chang'an University, Xi'an (in Chinese with English abstract).
[59]	Xiao, W. J., Mao, Q. G., Windley, B. F., et al., 2011.Paleozoic Multiple Accretionary and Collisional Processes of the Beishan Orogenic Collage. American Journal of Science, 310(10):1553-1594. https://doi.org/10.2475/10.2010.12
[60]	Xiao, W. J., Windley, B. F., Allen, M. B., et al., 2013.Paleozoic Multiple Accretionary and Collisional Tectonics of the Chinese Tianshan Orogenic Collage. Gondwana Research, 23(4):1316-1341. doi: 10.1016/j.gr.2012.01.012
[61]	Xie, C. L., Yang, J. G., Wang, L. S., et al., 2009. Discussion on the Location of Paleozoic Island Arc Zone on the South Marginof Paleo-Asian Ocean in the Beishan Area of Gansu Province. Acta Geologica Sinica, 83(11):1584-1600(in Chinese with English abstract).
[62]	Yang, H. Q., Li, Y., Zhao, G. B., et al., 2010. Character and Structural Attribute of the Beishan Ophiolite. Northwest Geology, 43(1): 26-36(in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=xbdz201001002
[63]	Zhao, Z.H., Sun, D.Y., Gou, J., et al., 2011. Chronology and Geochemistry of Volcanic Rocks in Tamulangou Formation from Southern Manchuria, Inner-Mongolia. Journal of Jilin University, 41(6):1865-1880 (in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=cckjdxxb201106018
[64]	Zheng, R. G., Wu, T. R., Zhang, W., et al., 2014. Late Paleozoic Subduction System in the Northern Margin of the Alxa Block, Altaids: Geochronological and Geochemical Evidences from Ophiolites. Gondwana Research, 25(2):842-858. https://doi.org/10.1016/j.gr.2013.05.011
[65]	Zonenshain, L.P., 1973. The Evolution of Central Asiatic Geosynclines through Sea-Floor Spreading. Tectonophysics, 19(3): 213-232. https://doi.org/10.1016/0040-1951(73)90020-6
[66]	Zonenshain, L.P., Kuzmin, M.I., 1978. The Khan-Taishir Ophiolitic Complex of Western Mongolia, Its Petrology, Origin and Comparison with other Ophiolitic Complexes. Contributions to Mineralogy and Petrology, 67(1): 95-109. https://doi.org/10.1007/bf00371637
[67]	Zuo, G. C., He, G. Y., 1990.Plate Tectonics and Metallogenesis Regularities in Beishan Region. Peking University Press, Beijing (in Chinese).
[68]	Zuo, G. C., Li, S. X., 2011. Early Paleozoic Tectonic Framework and Evolution in the Northeast Margin of Tarim Basin. Geology in China, 38(4):945-960 (in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=zgdizhi201104012
[69]	Zuo, G. C., Li, M. S., 1996.Formation and Evolution of the Early Paleozoic Lithosphere in the Beishan Area, Gansu -Inner Mongolia, China. Gansu Science & Technology Press, Lanzhou, 44-90(in Chinese).
[70]	Zuo, G. C., Liu, Y. K., Liu, C. Y., 2003. Framework and Evolution of the Tectonic Structure in Beishan Area across Gansu Province, Xinjiang Autonomous Region and Inner Mongolia Autonomous Region. Acta Geologica Gansu, 1(12):1-15(in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=gsdzxb200301001
[71]	Zuo, G. C., Zhang, S. L., He, G. Y., et al., 1990. Early Paleozoic Plate Tectonics in Beishan Area. Scientia Geologica Sinica, (4): 305-314(in Chinese with English abstract). http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=QK000000368852
[72]	党犇, 赵虹, 林广春, 等, 2013.阿拉善北部地区石炭纪火山岩岩石成因及构造意义.地球科学, 38(5):963-974. doi: 10.3799/dqkx.2013.094
[73]	龚全胜, 刘明强, 李海林, 等, 2002.甘肃北山造山带类型及基本特征.西北地质, 35(3):28-34. doi: 10.3969/j.issn.1009-6248.2002.03.004
[74]	龚全胜, 刘明强, 梁明宏, 等, 2003.北山造山带大地构造相及构造演化.西北地质, 36(1):11-17. doi: 10.3969/j.issn.1009-6248.2003.01.002
[75]	何世平, 任秉琛, 姚文光, 等, 2002.甘肃内蒙古北山地区构造单元划分.西北地质, 35(4):30-40. doi: 10.3969/j.issn.1009-6248.2002.04.004
[76]	何世平, 周会武, 任秉琛, 等, 2005.甘肃内蒙古北山地区古生代地壳演化.西北地质, 38(3):6-15. doi: 10.3969/j.issn.1009-6248.2005.03.002
[77]	李昌年, 1992.火成岩微量元素岩石学.武汉:中国地质大学出版社.
[78]	李俊建.张锋, 任军平, 等, 2015.中蒙边界地区构造单元划分.地质通报, 34(4):636-662. doi: 10.3969/j.issn.1671-2552.2015.04.006
[79]	柳小明, 2004.华北克拉通中生代壳幔交换作用的地球化学研究(博士学位论文).西安: 西北大学.
[80]	内蒙古自治区地质矿产局, 1991.内蒙古自治区区域地质志.北京:地质出版社.
[81]	内蒙古自治区地质矿产局, 1996.内蒙古自治区岩石地层.武汉:中国地质大学出版社.
[82]	聂凤军, 江思宏, 刘妍, 等, 2004.内蒙古北山交叉沟地区变质火山岩Sm-Nd同位素研究.地质学报, 78(6):807-812. doi: 10.3321/j.issn:0001-5717.2004.06.011
[83]	潘桂棠, 陆松年, 肖庆辉, 等, 2016.中国大地构造阶段划分和演化.地学前缘, 23(6):1-23. http://d.old.wanfangdata.com.cn/Periodical/dxqy201606001
[84]	邵积东, 王惠, 张梅, 等, 2011.内蒙古大地构造单元划分及其地质特征.西部资源, 12(2):51-56. http://d.old.wanfangdata.com.cn/Periodical/xbzy201102056
[85]	邵积东, 王守光, 赵文涛, 等, 2009.内蒙古北山—阿拉善地区重要成矿带成矿地质特征及找矿潜力分析.西部资源, (2):53-55. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=QK200902757552
[86]	邵积东, 1998.内蒙古大地构造分区及其特征.内蒙古地质, (2): 1-23. doi: 10.3325-cmj.2009.50.157/
[87]	邵济安, 1991.中朝板块北缘中段地壳演化.北京:北京大学出版社.
[88]	宋秉田, 代文军, 刘明强, 等, 2004.北山北带北亚带西缘奥陶纪火山岩地球化学特征.甘肃地质, (2):51-58. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=gsdzxb200402008
[89]	王国强, 2015.北山古生代蛇绿岩、火山岩研究与构造演化(博士学位论文).西安: 长安大学.
[90]	王国强, 李向民, 徐学义, 等, 2014.甘蒙北山地区奥陶纪火山岩地球化学特征及形成环境探讨.吉林大学学报:地球科学版, (3):848-860 http://d.old.wanfangdata.com.cn/Periodical/cckjdxxb201403011
[91]	王廷印, 1993.蒙古南部地区蛇绿混杂岩带地质特征及构造意义初探.兰州大学学报, (2):155-157. doi: 10.3321/j.issn:0455-2059.1993.02.030
[92]	王廷印, 1994.阿拉善地区古生代陆壳的形成和演化.兰州:兰州大学出版社.
[93]	王廷印, 高军平, 王金荣, 等, 1998.内蒙古阿拉善北部地区碰撞期和后造山期岩浆作用.地质学报, 72(2):126-137. doi: 10.3321/j.issn:0001-5717.1998.02.004
[94]	王晓蕊, 2005.辽西早白垩世四合屯火山岩地球化学研究(硕士学位论文).西安: 西北大学.
[95]	吴泰然, 1990.阿拉善地块北缘古生代岩石圈的物质组成和构造演化.北京: 北京大学.
[96]	吴泰然, 何国琦.1993.内蒙古阿拉善地块北缘的构造单元划分及各单元的基本特征.地质学报, (2):97-108. http://www.cnki.com.cn/Article/CJFDTotal-DZXE199302000.htm
[97]	吴元伟, 2014.北山与银额地区晚古生代构造—沉积背景对比研究(博士学位论文).西安: 长安大学.
[98]	谢春林, 杨建国, 王立社, 等, 2009.甘肃北山地区古亚洲南缘古生代岛弧带位置的讨论.地质学报, 83(11):1584-1600. doi: 10.3321/j.issn:0001-5717.2009.11.004
[99]	杨合群, 李英, 赵国斌, 等, 2010.北山蛇绿岩特征及构造属性.西北地质, 43(1):26-36. doi: 10.3969/j.issn.1009-6248.2010.01.002
[100]	赵忠华, 孙德有, 苟军, 等, 2011.满洲里南部塔木兰沟组火山岩年代学与地球化学.吉林大学学报, 41(6):1865-1880. http://d.old.wanfangdata.com.cn/Periodical/cckjdxxb201106018
[101]	左国朝, 何国琦, 1990.北山板块构造及成矿规律.北京:北京大学出版社.
[102]	左国朝, 李绍雄, 2011.塔里木盆地东北缘早古生代构造格局及演化.中国地质, 38(4):945-960. doi: 10.3969/j.issn.1000-3657.2011.04.012
[103]	左国朝, 李茂松, 1996.甘蒙北山地区早古生代岩石圈形成与演化.兰州:甘肃科学技术出版社, 44-90.
[104]	左国朝, 刘义科, 刘春燕, 2003.甘新蒙北山地区构造格局及演化.甘肃地质, 1(12):1-15. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=gsdzxb200301001
[105]	左国朝, 张淑玲, 何国琦, 等, 1990.北山地区早古生代板块构造特征.地质科学, (4):305-314. http://www.wanfangdata.com.cn/details/detail.do?_type=perio&id=QK000000368852