华北陆块南部熊耳群火山岩的地球化学特征与成因
Geochemistry and petrogenesis of the Xiong''''er Group in the southern regions of the North China Craton.
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摘要: 分布于华北陆块南部的熊耳群火山岩由玄武质到流纹质火山岩组成,并以玄武安山岩、安山岩为主,次为英安-流纹岩,SiO2=62%±的岩石较少,显示双峰特点。中基性熔岩的主要造岩矿物是辉石和斜长石,没有角闪石和黑云母,表明熊耳群火山岩形成于相对无水的环境。岩石地球化学上的显著特点是,富K2O、FeO,低Al2O3、MgO、CaO;富含大离子亲石元素(LILE,如K、Rb、Ba)和轻稀土元素(LREE),相对亏损高场强元素(HFSE,Nb、Ta、Ti),表现出岛弧型火山岩的地球化学亲合性。文中详细的岩石地球化学证据表明,熊耳群火山岩具有岛弧型地球化学特征的主要原因是其地幔源区遭受俯冲带组分的改造,而岩浆在上升到地表的过程中混染地壳物质是次要的。基于熊耳群及下伏结晶基底的地质学和地球化学特征,表明熊耳群形成于夭折的三叉裂谷环境,推断俯冲带组分的改造和富集事件发生在华北陆块南部古元古代大陆壳的形成和 拼贴过程中,由于洋壳和地壳物质再循环到上地幔中,使陆下岩石圈地幔源区富集LILE、LREE并亏损HFSE。熊耳期岩浆作用正是源于这样的保留有早期俯冲带组分改造特征的陆下岩石圈富集地幔。
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[1] [1]Brophy J G. 1991. Composition gaps, critical crystalinity, and fraction crystallization orogenic (calc-alkaline) magmatic systems. Contrib. Mineral. Petrol., 109: 173-182
[2] [2]Comin-Chiaramonti P, Cundari A, Piccirillo E M. 1997. Potassic and sodic igneous rocks from Eastern Paraguay: their origin from the lithospheric mantle and genetic relationships with the associated Parana Flood Tholeiites. J. Petrol., 38(4): 495-528
[3] [3]Condie K C. 1989. Plate tectonics and crustal evolution (3rd ed.). Oxford, Pergamon.
[4] [4]Cox K G. 1980. A model for flood basalt volcanism. J. Petrol., 21(4): 629-650
[5] [5]DePaolo D J. 1981. Trace element and isotopic effects of combined wallrock assimilation and fractional crystallization. Earth and Planetary Science Letters. 53: 189-202
[6] [6]Dupuy C, Michard A, Dostal J. 1984. Trace element geochemistry of some continental tholeiites. Earth and Planetary Science Letters, 67:61-69
[7] [7]Fodor R V and Veter S K. 1984. Rift-zone magmatism: Petrology of basaltic rocks transitional from CFB to MORB, Southeastern Brazil Margin. Contrib. Mineral. Petrol., 88: 307-321
[8] [8]Foley S F and Wheller G E. 1990. Parallels in the origin of the geochemical signatures of island arc volcanics and comtinental potassic igneous rocks: The role of residual titanites. Chem. Geol., 85: 1-18
[9] [9]Gill J B. 1981. Orogenic andesites and plate tectonics. Springer-Verlag, Berlin, Heidelberg, New York
[10] [10]Guan Baode. 1996. The Precambrian-lower Cambrian geology and metallogensis in the South Border of the North China Platform in Henan Province. Wuhan: Press of China University of Geosciences, 328 (in Chinese with English abstract)
[11] [11]Henan Breau of Geology and Mineral Resources. 1989. Regional Geology of Henan province. Beijing: Geol. Pub. House, 780 (in Chinese with English abstract)
[12] [12]Hergt J M, Chappell B W, Chappll B W, McMculloch M T, McDougall I and Chivas A R. 1989. Geochemical and isotopic constraints on the origin of the Jurassic dolerites of Tasmania. J. Petrol., 30(4): 841-883
[13] [13]Hergt J M, Peate D W and Hawkesworth C J. 1991. The petrogenesis of Mesozoic Gondwana low-Ti Flood basalts. Earth and Planetary Science Letters, 105: 134-148
[14] [14]Hu Shouxi and Lin Qianlong. 1988. Geology and Metallogeny of the Collision Belt between the South China and North China Plates. Nanjing: Nanjing University Press, 558 (in Chinese)
[15] [15]Huang Xuan, Sun Baoshan, Pan Jun and Zhang Renhu. 1995. The ages of igneous rocks from Eastern Qinling of North China Platform and the crustal growth and reworking of the terrane. Acta Petrologica Sinica, 11(2):312-320(in Chinese with English abstract)
[16] [16]Huang Y, Hawkesworth C, Smith I et al., 2000. Geochemistry of late Cenozoic basaltic volcanism in Northland and Coromandel, New Zealand: implications for mantle enrichment processes. Chemical Geology, 164: 219-238
[17] [17]Irvine T N and Baragar W R A. 1971. A guide to the chemical classification of the common volcanic rocks. Can. J. Earth Sci., 8: 523-548
[18] [18]Lassiter J C and DePaolo D J. 1997. Phume/Lithosphere interaction in the generation of continental and oceanic flood basalts: chemical and isotopic constraints. In: Mahoney J J and Coffin M F (eds.). Large igneous provinces: continental, oceanic and planetary flood volcanism. Geophysical Monograph 100, American Geophysical Union, 335-355
[19] [19]Le Bas M J and Le Maitre R W et al. 1986. A chemical classification of volcanic rocks based on the total alkalic-silica diagram. J. Potrol., 27: 745-750
[20] [20]Li Shuguang and Zhang Zongqing. 1990. Nd isotopic composition and evolution of upper mantle in the Archean of North China: constraints on the mantle heterogeneity of the unmetasomatic continental lithosphere. Geochimica, 19(4): 277-285 (in Chinese with English abstract)
[21] [21]Middlemost E A K. 1985. Magmas and magmatic rock: an introduction to igneous petrology. London: Longman
[22] [22]Myers R E and Breitkope J H. 1989. Basalt geochemistry and tectonic settings: A new approach to relate tectonic and magmatic processes. Lithos, 23: 53-62
[23] [23]Peate D W. 1997. The Parana-Etendeka Province. In: Mahoney J J and Coffin M F (eds.). Large igneous provinces: continental, oceanic and planetary flood volcanism. Geophysical Monograph 100, American Geophysical Union, 217-245
[24] [24]Ringwood A E. 1990. Slab-mantle interactions. Chem. Geol., 82: 187-207
[25] [25]Rollinson H R. 1993. Using Geochemical Data: Evaluation, Presentation, Interpretation. Longman Group UK Limited, pp352
[26] [26]Ryerson F J and Watson E B. 1987. Rutile saturation in magmas: implications for Ti-Nb-Ta depletion in island-arc basalts. Earth and Planetary Science Letters, 86: 225-239
[27] [27]Saunders A D and Tarney J. 1984. Geochemical characteristics of basaltic volcanism within back-arc basins. In: Kokelaar B P and Howells M F (eds.). Marginal basin geology. Spec. Publ. Geol. Soc. London, 16: 59-76
[28] [28]Shanxi Breau of Geology and Mineral Resources. 1989. Regional Geology of Shanxi province. Beijing: Geol. Pub. House, 780 (in Chinese with English abstract)
[29] [29]Sun Dazhong and Hu Weixing. 1993. Precambrian age tectonic framework and age - crustal structure of Zhongtiao Shan. Beijing: Geol. Pub. House, 180 (in Chinese with English abstract)
[30] [30]Sun Shu, Zhang Guowei and Chen Zhiming. 1985. Precambrian crust evolution in South of North China fault block. Beijing: Metallurgical Industry Press, (in Chinese)
[31] [31]Winchester J A and Floyd P A. 1977. Geochemical discrimination of different magma series and their differentiation products. Chem. Geol., 20: 325-343
[32] [32]Zhang Guowei, Yu Zaiping, Dong Yunpeng and Yao Anping. 2000. On Peecambrian framework and evolution of the Qinling belt. Acta Petrologica Sinica, 16(1): 11-21 (in Chinese with English abstract)
[33] [33]Zhao Taiping, Zhou Meifu, Jin Chengwei, Guan Hong and Li Huimin. 2001. Discussion on the age of the Xiong\'er Group in the Southern Margin of the North China Craton. Scientia Geologica Sinica, 36(3): 326-334 (in Chinese with English abstract)
[34] [34]Zhao Taiping, Guan Baode and Tu Sen. 1994. Some problems in the study of the volcanic rocks of the Xiong\'er Group on the Margin of the North China Plate. Geological Review, 40(5): 446-455 (in Chinese with English abstract)
[35] [35]Zhao Taiping, Yuan Zhenlei, Guan Baode. 1998. The characteristics and sedimentary environment of sedimentary interbeds of Xiong\'er Group distributed in the juncture of Henan-Shanxi-Shaanxi Provinces. Henan Geology, 16(4): 261-272 (in Chinese with English abstract)
[36] [36]Zhao Taiping, Yuan Zhenlei, Qiang Lizhi, Pei Yuhua, Yuan Hegao. 1995. Petrographic characteristics of the volcanic rocks from the Xiong\'er Group. Henan Geology, 13(4): 268-275 (in Chinese with English abstract)
[37] [37]Zhao Taiping, Zhuang Jianmin, Yuan Zhenlei. 1996. Discussion on the rock types and magma series of the volcanic rocks from the Xiong\'er Group in the Southern Margin of the North China Craton. Journal of Geology and Mineral Resource of North China. 11(4):599-606 (in Chinese with English abstract)
[38] [38]Zhao Taiping. 2000. Characteristics and petrogenesis of rich-K volcanic rocks of the Xiong\'er Group in the Southern Margin of the North China Craton. Ph.D. Dissertation. Beijing: Institute of Geology and Geophysics, Chinese Academy of Sciences, 1-102 (in Chinese with English abstract)
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