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特提斯喜马拉雅马拉山花岗岩的年代学、地球化学特征及成因机制
引用本文:王晓先, 张进江, 杨雄英. 特提斯喜马拉雅马拉山花岗岩的年代学、地球化学特征及成因机制[J]. 西北地质, 2015, 48(4): 70-87.
作者姓名:王晓先  张进江  杨雄英
作者单位:1.中国地震局地壳应力研究所地壳动力学重点实验室, 北京 100085;北京大学地球与空间科学学院造山带与地壳演化教育部重点实验室, 北京 100871;; 2.北京大学地球与空间科学学院造山带与地壳演化教育部重点实验室, 北京 100871
基金项目:中央级公益性科研院所基本科研业务专项(ZDJ2014-09)和国家自然科学基金"藏南佩枯错片麻岩穹窿变形-变质作用及形成演化研究"(41402175)联合资助
摘    要:马拉山花岗岩位于特提斯喜马拉雅的西部,其主要矿物组成为石英、钾长石、白云母和黑云母。锆石LA-MC-ICP-MS U-Pb定年表明,花岗岩的发育记录了(28.0±0.5)Ma和(18.4±0.3)Ma两期深熔作用,(18.4±0.3)Ma代表了最终的结晶时间。全岩地球化学分析结果显示,样品具有高的SiO2(72.36%~72.51%)、Al2O3(15.22%~15.37%)和CaO(1.64%~1.66%)含量,高的K2O/Na2O值(0.97~1.05)和A/CNK值(1.15~1.20),显示高钾钙碱性过铝质的特征;岩石富集Rb、Th、U和K,亏损Ba、Nb、Sr和Zr,Eu负异常不明显(δEu=0.80~0.89),轻重稀土分馏较强[(La/Yb)N=7.09~19.68]。马拉山花岗岩具有较低的Rb/Sr值(0.90~1.10)和较高的CaO/Na2O值(0.44~0.46),指示岩浆源区物质成分可能以页岩为主;样品(87Sr/86Sr)i和εNd(t)分别为0.742522~0.744097和-14.5~-13.7,与大喜马拉雅结晶杂岩中变质沉积岩成分一致,表明其来自变质沉积岩的部分熔融。岩石具有较低的(87Sr/86Sr)i和较高的Sr含量,且随着Ba含量的增加,Rb/Sr值基本不变,表明马拉山花岗岩是水致白云母部分熔融的产物,部分熔融可能与南北向裂谷的东西向伸展关系密切。

关 键 词:马拉山花岗岩   年代学   地球化学特征   成因机制   特提斯喜马拉雅
收稿时间:2015-02-15
修稿时间:2015-07-07

Geochronology,Geochemistry and Formation Mechanism of Malashan Granite in Tethyan Himalaya
WANG Xiaoxian, ZHANG Jinjiang, YANG Xiongying. Geochronology, Geochemistry and Formation Mechanism of Malashan Granite in Tethyan Himalaya[J]. Northwestern Geology, 2015, 48(4): 70-87.
Authors:WANG Xiaoxian  ZHANG Jinjiang  YANG Xiongying
Affiliation:1.Key Laboratory of Crustal Dynamics, Institute of Crustal Dynamics, China Earthquake Administration, Beijing 100085, China;Key Laboratory of Orogenic Belts and Crustal Evolution, Ministry of Education, School of Earth and Space Sciences, Peking University, Beijing 100871, China;; 2.Key Laboratory of Orogenic Belts and Crustal Evolution, Ministry of Education, School of Earth and Space Sciences, Peking University, Beijing 100871, China
Abstract:The Malashan granite was exposed in the west of the Tethyan Himalayan sedimentary sequence(THS).It is characterized by gneissic texture and the assemblage of quartz, K-feldspar, muscovite and biotite.LA-MC-ICP-MS zircon U-Pb dating results indicated that the granite recorded two episodes of anatexis at(28.0±0.5) Ma and(18.4±0.3) Ma, respectively.The age of(18.4±0.3) Ma represents the final crystallized time of Malashan granite.Geochemical data show that these samples are characterized by high SiO2(72.36%-72.51%), Al2O3(15.22%-15.37%), CaO(1.64%-1.66%) and high value of K2O/Na2O(0.97-1.05) and A/CNK(1.15-1.20), and the enrichment in Rb, Th, U and K, the depletion in Ba, Nb, Sr and Zr, weak negative Eu anomalies(δEu=0.80-0.89), and strong fractionation between LREE and HREE((La/Yb)N=7.09-19.68).These features suggest that they are high potassium calc-alkaline and peraluminous granites.The relatively low Rb/Sr ratios(0.90-1.10)and high CaO/Na2O ratios(0.44-0.46)imply that the magma source was probably psammitolite.The(87Sr/86Sr)I(0.742522-0.744097) and εNd(t)(-14.5--13.7) can compare well with those of the metasedimentary rocks in the Greater Himalaya Crystalline complex(GHC), so these granite wasgenerated from partial melting of the GHC metasedimentary rocks.The features of relatively low(87Sr/86Sr)i and high Sr content,and the constant Rb/Sr ratios relative to large variations in Ba concentrations approve that, the Malashangranite wasderived from fluxed melting of the GHC metasedimentary rocks,possibly associated tightly with the E-W extension along the North-South trend rift system(NSTR).
Keywords:Malashan granite  geochronology  geochemistry  formation mechanism  Tethyan Himalaya
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