AGE AND COMPOSITION OF THE EARLY PALEOZOIC MAGMATIC ASSOCIATIONS AND RELATED RARE-ELEMENT PEGMATITES IN THE SOUTH-EASTERN PART OF THE SANGILEN BLOCK, TUVA-MONGOLIAN MASSIF

Pub Date : 2021-06-23 DOI:10.5800/gt-2021-12-2-0524

L. Kuznetsova, S. Shokalsky, S. Sergeev, S. Dril

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Abstract

The article presents new data on ages (U-Pb zircon dating, SIMS SHRIMP-II) and chemical compositions of rocks from gabbro-granitic and granite-leucogranitic magmatic associations. These rocks preceded the formation of Li-enriched spodumene pegmatites of the Tserigiyngol-Burchin ore cluster (Russian: ЦБРУ), one of the main clusters in the South Sangilen pegmatite belt (SSB) located in the Tuva-Mongolian massif being a part of the Central Asian Fold Belt. We investigated the rocks from the Upper Tserigiyngol, Uchuglyk and Temenchulu plutons, and pegmatites from two neighbouring fields. We distinguish three impulses of granitic magmatism (517±7, 508±7, and 488±6 Ma), which are attributed to different stages of the Early Paleozoic collision orogeny (520-480 Ma). The period when the Li-enriched pegmatites were formed (494±7 Ma) is close to the magmatism impulse at 488±6 Ma. Differences are discovered in compositional and isotopic (Sm-Nd) features of granites dominating at the following stages of collisional orogeny: (1) early collision (517±7 Ma) – I-type granites, eNd(T)=0–1.5, TNd (DM-2st)=1.2–1.1 b.y., and (2) late collision (488±6 Ma) – A-2-type granites, eNd(T)=–3.0…–1.6, TNd (DM-2st)=1.5–1.4 b.y., which are due to different sources. Our study shows that facies transitions are absent between the late-collision granites (488±6 Ma) and the spodumene pegmatites from the Tserigiyngol-Burchin ore cluster (494±7 Ma), although these rocks are close in age. In terms of geochemical features, the spodumene pegmatites from the cluster are strongly different from both the late-collision granites and spodumene pegmatites from other SSB fields, including the large Tastyg lithium deposit. We have analysed the role of interactions between the crustal and mantle materials in the formation of granitoid sources in the Tserigiyngol-Burchin ore cluster, and described their evolution in time and the influence on the pegmatite rare-element specialization.

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吐蕃—蒙古地块桑基伦地块东南部早古生代岩浆组合及相关稀有元素伟晶岩的年龄、组成

本文介绍了辉长岩-花岗质和花岗-浅花岗质岩浆组合中岩石的年龄(U-Pb锆石定年，SIMS SHRIMP-II)和化学成分的新数据。这些岩石先于tserigiyngoll - burchin矿群(俄罗斯:ЦБРУ)富锂辉石伟晶岩的形成，tserigiyngoll - burchin矿群是位于中亚褶皱带一部分的图瓦-蒙古地块南三吉伦伟晶岩带(SSB)的主要矿群之一。我们研究了上策里吉金戈尔、乌丘格莱克和特门丘卢岩体的岩石，以及邻近两个油田的伟晶岩。我们区分出早古生代碰撞造山运动(520 ~ 480 Ma)不同阶段的3次花岗质岩浆活动脉冲(517±7、508±7和488±6 Ma)。富锂伟晶岩的形成时期(494±7 Ma)与488±6 Ma的岩浆活动冲量接近。在碰撞造山作用的早期阶段(517±7 Ma)—i型花岗岩，eNd(T)=0 ~ 1.5, TNd (DM-2st)=1.2 ~ 1.1 b.y.(2)碰撞晚期(488±6 Ma)—a -2型花岗岩，eNd(T)= - 3.0 ~ - 1.6, TNd (DM-2st)=1.5 ~ 1.4 b.y.(2)花岗岩的成分和同位素(Sm-Nd)特征存在差异。研究结果表明，晚碰撞花岗岩(488±6 Ma)与tserigiyngoll - burchin矿群(494±7 Ma)的辉石伟晶岩(494±7 Ma)虽然年龄相近，但不存在相转变。在地球化学特征上，该簇的锂辉石伟晶岩与其他SSB田(包括Tastyg大型锂矿床)的晚碰撞花岗岩和锂辉石伟晶岩有很大的不同。分析了tserigiyngoll - burchin矿群中地壳和地幔物质相互作用在花岗质源形成中的作用，描述了它们的时间演化及其对伟晶岩稀有元素特化的影响。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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