西藏南部仲巴微地体中新世埃达克岩成因及构造意义

发布时间：2018-06-16 23:12

本文选题：青藏高原 + 仲巴微地体　；参考：《中国地质大学(北京)》2015年硕士论文

【摘要】：喜马拉雅-青藏高原造山带的形成演化过程是国际地质学研究中的热点问题,在形成演化过程中,出现了多期强烈的岩浆活动,其中就包括中新世(26-9Ma)埃达克岩。青藏高原的地壳增厚和抬升是喜马拉雅-青藏高原造山带地质演化中长期存在的问题,对于后碰撞的岩浆作用的认识对理解地壳增厚有着至关重要的意义,并且可以对青藏高原的演化及地球动力学过程提供重要的约束。西藏南部碰撞后埃达克岩(26-9Ma)已经被发现了很多年,国内外有多篇文章对西藏南部碰撞后的埃达克岩进行了研究,然而这些碰撞后埃达克岩的来源和成因仍存在分歧。本文通过在仲巴微地体拉沙地区出露的埃达克质侵入岩进行了地球年代学和主量元素、微量元素、Sr-Nd-Pb同位素分析,并对比西藏南部同时代埃达克岩,由此揭示了西藏南部中新世埃达克岩的成因模式。拉沙侵入岩是由花岗岩和花岗斑岩组成的,U-Pb年龄为16Ma。通过地球化学分析,拉沙花岗斑岩具有较高含量的Si O2(65.14~67.61%),Al2O3(15.13~16.10%),K2O(2.87~3.54%),Sr(727~1046 ppm)以及较低的含量Y(9~13 ppm)和Yb(0.82~1.19 ppm),富集轻稀土元素(LREE),亏损重稀土元素(HREE)。仲巴斑岩表现出相对较低Mg O(1.39~1.98%),相对较高的Sr/Y比值(65-98)和(La/Yb)N比值(18.8~25.5),初始(87Sr/86Sr)i比值为0.70877~0.70805,εNd(t)值为-6.4~-7.9,(206Pb/204Pb)t值为18.71 18.77,(207Pb/204Pb)t值为15.68 15.71,(208Pb/204Pb)t值为39.16 38.30。这些地球化学特征以及Sr-Nd-Pb同位素特征表明仲巴斑岩是由增厚下地壳的部分熔融形成。仲巴微地体上的埃达克岩具有和拉萨地块西部以及特提斯喜马拉雅的埃达克岩相似的同位素组成(低εNd(t),高的Nd模式年龄),不同于拉萨东部的埃达克岩的同位素组成(高εNd(t),低的Nd模式年龄)。根据西藏南部碰撞后埃达克岩(26-9Ma)的空间分布和同位素特征,本文提出西藏南部所有的碰撞后埃达克岩都是来自于增厚下地壳部分熔融,其地球化学组成不同主要是由于下地壳性质的差异引起。
[Abstract]:The formation and evolution of Himalaya-Qinghai-Xizang Plateau orogenic belt is a hot issue in international geological research. During the process of formation and evolution, there have been several periods of intense magmatic activity, including Miocene Yi-9Ma-Adakite. The crustal thickening and uplift of the Qinghai-Xizang Plateau is a long-standing problem in the geological evolution of the Himalaya-Qinghai-Tibet Plateau orogenic belt, and the understanding of the post-collision magmatism is of great significance to understanding the crustal thickening. It can also provide important constraints for the evolution and geodynamic process of the Qinghai-Xizang Plateau. Adakite (26-9 Ma) has been discovered for many years after the southern Tibet collision. There are many articles at home and abroad to study the adakite after the collision in southern Tibet. However, the origin and origin of the adakite after the collision are still different. In this paper, the geochronology, major elements and trace elements, Sr-Nd-Pb isotopic analysis of adakitic intrusive rocks in Lasha area, Zhongba microbody, are carried out, and the contemporaneous adakite in southern Tibet is compared. This reveals the genetic model of the Miocene Adakite in southern Tibet. Lasha intrusive rocks are composed of granite and granitic porphyry at a U-Pb age of 16 Ma. By geochemical analysis, the Lasha granitic porphyry has a high content of Sio _ 2 (65.14) and 67.61K _ 2O _ 3 ~ (15.13) ~ (16.1010) K _ 2O _ (2.87) K _ (2) O _ (2) O ~ (2 +) K _ (2) O _ (2) O _ (2.87) K _ (2) O _ (2) O _ (2) and Yb _ (2) O _ (2) O _ (1) (1. 19 ppm ~ (-1) 路m ~ (-1), rich in LREEN, and a loss of heavy rare earth elements (HREE ~ (2). The Zhongba porphyry shows a relatively low mg O _ 2O _ (1.39 ~ 1.98) ratio, a relatively high Sr- / Y / Y ratio of 65-98) and a La-P / Yb ~ (-N) ratio of 18.825 ~ (25. 5). The initial 87 ~ (87) Sr ~ (86) Sr ~ (-) I ratio is 0.70877 ~ (0.70805), and the 蔚 Ndtt value is -6.4- 7.9n / 206Pb / 204Pb ~ (t) = 18.71 ~ 18.77nb / 207Pbr / 2077B / 204Pbt = 15.78 / 208Pb204Pbt = 39.16 / 38.30. These geochemical characteristics and Sr-Nd-Pb isotopic characteristics indicate that the Zhongba porphyry was formed by partial melting of the thickened lower crust. The adakite on the Zhongba microterrane has isotopic compositions similar to those of the western Lhasa block and the Tethys Himalayan adakite (low 蔚 Ndltrine, high ND model age, and different from the eastern Lhasa's adakite). The isotopic composition of the adakite is similar to that of the western Lhasa block and the Tethys Himalayan rock. Adult (high 蔚 NdTU, low ND model age). Based on the spatial distribution and isotopic characteristics of adakite in southern Tibet after the collision, it is suggested that all of the post-collision adakite in southern Tibet are derived from the partial melting of the thickened lower crust. The difference in geochemical composition is mainly due to the difference in the nature of the lower crust.
【学位授予单位】：中国地质大学(北京)
【学位级别】：硕士
【学位授予年份】：2015
【分类号】：P581;P583

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