| Citation: |
YU Xiaoliang, CAI Chenglong, ZHANG Shilong, WEI Xiaolin, LIU Xixi. 2018. Petrogenesis of Early Silurian Intrusive Rocks in Yeniujishan Area of South Qilian: Constraints from Geochemistry and LA-ICP-MS Zircon U-Pb Geochronology. Northwestern Geology, 51(4): 133-146.
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Petrogenesis of Early Silurian Intrusive Rocks in Yeniujishan Area of South Qilian: Constraints from Geochemistry and LA-ICP-MS Zircon U-Pb Geochronology
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Abstract
In order to to constrain its petrogenetic and tectonic processes, the geochemistry and LA-ICP-MS zircon U-Pb dating of intrusive rocks from Yeniujishan area in South Qilian has been conducted in this paper. The intrusive rocks in this area are mainly composed of granodiorite, porphyritic granodiorite and monzonite granite. Geochemical data show these intrusive rocks are characterized by rich SiO2 (64.69%~78.03%),Al2O3 (7.44%~14.16%), K(2.98%~5.23) and alkali(5.13%~7.92%), but low TiO2 (0.55%~0.94%), FeO (1.52%~5.00%), CaO (1.11%~3.43%) and MgO(0.78%~2.49%). Their Rittmann indexes (δ) range from 0.91 to 2.89, while their aluminum saturation index (A/CNK) vary from 0.84 to 1.23, belonging to the calc-alkaline series, with the characteristics of metaluminous-weakly peraluminous rocks. These rocks have low ΣREE values (157.89×10-6~299.15×10-6), which are relatively enriched in LREE, large ion lithophile elements (Rb, K) and Th element. But, they are relatively depleted in HREE, while their Ce,Hf,Zr,Sm,Y and Yb values are obviously lower than the ones of mid-ocean ridge granitoids, with strong negative Eu anomaly (δEu=0.47~0.66). The geological and geochemical data suggest that these intrusive rocks are S-type granite, which was formed by the re-melting of crustal material. The discrimination diagrams for tectonic settings (w(Y)-w(Nb) and R1-R2) show that these granites are related to the plate collision of South Qilian orogenic belt. The U-Pb dating of porphyritic granodiorite yields an age of (443.9±2.1)Ma, indicting that these rocks were emplaced in Early Silurian. In combination with the comprehensive analysis of tectonic evolution, it is believed that these intrusive rocks in Yeniujishan area formed under the geodynamic background of subduction collision.-
Keywords:
- Early Silurian /
- granite /
- geochemistry /
- zircon U-Pb dating /
- Yeniujishan /
- South Qilian
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References
夏林圻,夏祖春,徐学义.北祁连山海相火山岩岩石成因[M].北京:地质出版社,1996,1-153. XIA Linqi,XIA Zuchun,XU Xueyi.Genetic Environments of Early Paleozoic Marine Volcanics of North Qilian Mountains[M].Beijing:Geological Publishing House,1996,1-153(in Chinese) 李文渊.祁连山主要矿床组合及其成矿动力学分析[J].地球学报,2004,25(3):313-320. LI Wenyuan.Main Mineral Deposit Associations in the Qilian Mountains and Their Metallogenic Dynamics[J].Acta Geoscientica Sinica,2004,25(3):313-320(in Chinese with English abstract). 何世平,李荣社,王超,等.南祁连东段化隆岩群形成时代的进一步限定[J].岩石矿物学杂志,2011,30(8):34-44. HE Shiping,LI Rongshe,WANG Chao,et al.The further age constraint of Hualong Rock Group in the eastern segment of South Qilian Mountains[J].Acta Petrolgica et Mineralogical,2011,30(1):34-44(in Chinese with English abstract). 潘桂堂,肖庆辉,陆松年,等.中国大地构造单元划分[J].中国地质,2009,36(1):1-28. PAN Guitang,XIAO Qinghui,LU Songnian,et al. Subdivision of Tectonic Units in China[J].Geology in China,2009,36(1):1-28(in Chinese with English abstract). 胡万龙,贾志磊,王金荣,等.南祁连化石沟花岗岩年代学、地球化学特征及其构造意义[J].高校地质学报,2016,22(02):242-253. HU Wanlong,JIA Zhilei,WANG Jinrong,et al. Geochronology and Geochemistry characteristics of the granites from the Huashigou area,South Qilian and their tectonic significance[J].Geological Journal of China Universities,2016,22(02):242-253(in Chinese with English abstract). 王涛,王晓霞,郑亚东,等.花岗岩构造研究及花岗岩构造动力学刍议[J].地质科学,2007,42(1):91-113. WANG Tao,WANG Xiaoxia,ZHENG Yadong,et al.Studies on structures of granitic plutons and granitic tectonic dynamics[J].Chinese Journal of Geology,2007,42(1):91-113(in Chinese with English abstract). 张旗,孙晓猛,周德进,等.北祁连蛇绿岩的特征、形成环境及其构造意义[J].地球科学进展,1997,12(4):366-393. ZHANG Qi,SUN Xiaomeng,ZHOU Dejin,et al.The characteristics of North Qilian ophiolites,forming setting and their tectonic significance[J].Advance in Earth Sciences,1997,12(4):366-393(in Chinese with English abstract). 宋述光.北祁连山俯冲杂岩带的构造演化[J].地球科学进展,1997,12(4):351-365. SONG Shuguag.Tectonic evolution of subductive complex belts in the North Qilian Mountains[J]. Advance in Earth Sciences,1997,12(4):351-365(in Chinese with English abstract). 毛景文.北祁连山西段铜金铁钨多金属矿床成矿系列和找矿评价[M].北京:地质出版社,2003,1-55. MAO Jingwen.The copper,gold,iron and tungsten polymetallic metallogenic series of ore deposit and prospecting evaluation in northwestern Qilian mountain[M]. Beijing:Geological Publishing House,2003,1-55(in Chinese) 秦海鹏.北祁连造山带早古生代花岗岩岩石学特征及其与构造演化的关系[D].北京:中国地质科学院,2012. QIN Haipeng.Petrology of Early Paleozoic granites and their relation to tectonic evolution of orogen in the North Qilian Orogenic Belt[D].Beijing:Chinese Academy of Geological Sciences,2012(in Chinese with English abstract). 冯益民,何世平.祁连山大地构造与造山作用[M].北京:地质出版社,1996,1-135. FENG Yimin,HE Shiping.Geotectonic and Orogeny of the Qilian Mountain[M].Beijing:Geological Publishing House,1996,1-153(in Chinese). 青海省地质矿产局.青海省区域地质志[M].北京:地质出版社,1991,1-7. Qinghai Geology and Mineral Resources Bureau.Regional geological record of Qinghai Province[M].Beijing:Geologic Publishing House,1991,1-7(in Chinese). 李怀坤,朱士兴,向振群,等.北京延庆高于庄组凝灰岩锆石U-Pb定年研究及其对华北北部中元古界划分新方案的进一步约束[J].岩石学报,2010,26(8):2131-2140. LI Huaikun,ZHU Shixing,XIANG Zhenqun,et al.Zircon U-Pb dating on tuff bed from Gaoyuzhuang Formation in Yanqing, Beijing:Further constraits on the new subdivision of the Mesoproterozoicstratigraphy in the northern North China Craton[J].Acta Petrologica Sinica,2010, 26(8):2131-2140(in Chinese with English abstract). 吴元保,郑永飞.锆石成因矿物学研究及其对U-Pb年龄解释的制约[J].科学通报,2004,49(16):1589-1604. WU Yuanbao,ZHENG Yongfei.Study on genesis of zircon and its constrains on interpretation of U-Pb age[J]. Chinese Science Bulletion,2004,49(16):1589-1604(in Chinese with English abstract). 吴福元,李献华,杨进辉,等.花岗岩成因研究的若干问题[J].岩石学报,2007,23(06):1217-1238. WU Fuyuan,LI Xianhua,YANG Jinhui,et al.Discussions on the petrogenesis of granites[J].Acta Petrologica Sinica,2007,23(6):1217-1238(in Chinese with English abstract). 贾群子,杨钟堂,肖朝阳,等. 祁连成矿带成矿规律和找矿方向[J]. 西北地质,2006,39(02):96-113. JIAQunzi,YANG Zhongtang,XIAO Chaoyang,et al. Metallogenic Characteristics and Prospecting Target in the Qilian Metallogenic Zone[J].Northwestern Geology,2006,39(02):96-113(in Chinese with English abstract). 刘志武,王崇礼,石小虎.南祁连党河南山花岗岩类特征及其构造环境[J].现代地质,2006,20(4):545-554. LIU Zhiwu,WANG Chongli,SHI Xiaohu.Granitoids Characteristics and Tectonic Setting of Danghenanshan Area in South Qilian Mountains[J].Geoscience,2006,20(4):545-554(in Chinese with English abstract). LIU Yongsheng,HU Zhaochu,ZONG Keqing,et al. Reappraisement and refinement of zircon U-Pb isotope and trace element analyses by LA-ICP-MS[J]. Chinese Science Bulletion,2010,55(15):1535-1546. LUDWIG K R.ISOPLOT 3:a User Manual,a Geochronological Toolkit for Microsoft excel[M].California,Geochronlolgy Centreat Berkeley,Special Publication,2003,(4):1-74. PECCERILLO R, TAYLOR S R.Geochemistry of Eocene calc-alkaline volcanic rocks from the Kastamonu area,Northern Turkey[J].Contributions to Mineralogy and Petrology,1976,58:63-81. IRVINE T N, Baragar W R A.A guide to the chemical classification of the common volcanic rocks[J]. Canadian Journal of Earth Sciences,1971,8:523-548. MANIAR P D,PICCOLI P M.Tectonic discrimination of granitoids[J].Geological Society of America Bulletin,1989,101:635-643. PEARCE J A,HARRIS B W, TINDLE A G.Trace element discrimination diagrams for the tectonic interpretation of granitic rocks[J].Journal of Petrology,1984,25(4):956-983. SUN S S,MCDONOUGH W F.Chemical and isotopic systematics of oceanic basalts:Implications for mantle composition and processes[J].Geological Society of London Special Publication,1989,42(1):313-345. SYLVESTER P J.Post-collisional strongly peraluminous granites[J].Lithos,1998,45:29-44. JOHANNES W,HOLTZ F.Petrogenesis and Experimental Petrology of Granitic Rocks[M].Berlin:Springer-Verlag,1996. PATINO DOUCE A E,MCCARTHY T C. Melting of crustal rocks during continetal collision and subduction//Hacker B R, Liou J G(ed.). When continents collide:Geodynamics of Ultra-high Pressure Rocks[C]. Netherlands:Kluwer Academic Publishers, 1998, 27-55. CASTRO A, PATINO DOUCE A E, CORRETGE L G, et al. Origin of peraluminous granites and granodiorites, Iberian massif, Spain:An experimental test of granite petrogenesis[J]. Contributions to Mineralogy and Petrology, 1999, 135(2-3):255-276. BROWN M. Rertograde processes in migmatites and granulites revisited[J]. Journal of Metamorphic Geology, 2002, 20:25-40. MCDERMOTT F, HARRIS N B W, HAWKESWORTH C J. Geochemical constraints on crustal anatexis:A case study from the PanAfrican granitoids of Namibia[J]. Contributions to Mineralogy and Petrology, 1996, 123:406-423. BATCHELOR R A, BOWDEN P.Petrogenetic interpretation of granitoid rock series using multicationic parameters[J]. Chemical Geology,1985,48(1):43-55. -
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YU Xiaoliang, CAI Chenglong, ZHANG Shilong, WEI Xiaolin, LIU Xixi. 2018. Petrogenesis of Early Silurian Intrusive Rocks in Yeniujishan Area of South Qilian: Constraints from Geochemistry and LA-ICP-MS Zircon U-Pb Geochronology. Northwestern Geology, 51(4): 133-146.
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