晚中生代东蒙古火山带的结构、年龄和演化

IF 1 4区 地球科学 Q3 GEOLOGY
V. V. Yarmolyuk, A. M. Kozlovsky, E. A. Kudryashova, Ts. Oyunchimeg
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引用次数: 0

摘要

摘要 对归属于晚中生代东蒙古火山带(EMVB)的火山岩进行的地质年代研究,确认了在年龄和火成岩组合组成及其出现方面存在差异的几个组别。最年轻的一组(约 215 Ma)包括东蒙古火山带西部丰富的双峰组合岩石。其次的一组(170-150 Ma)主要由闪长岩-腊岩联合的长熔岩组成,构成了东部EMVB的大型火山区。年龄在 140-105 Ma 之间的岩石构成了 EMVB 的覆盖层,主要包括玄武闪长岩,其岩场伴有闪长岩和闪长玢岩的小型火山。碱性玄武岩的分离挤压形成于 105-80 Ma 之间。不同时代的岩石群与周围的火成岩群有着不同的地质联系。根据年龄和成分,晚三叠世双峰复合体与出现在蒙古中部和外贝加尔西部沿肯泰-道里亚岩床框架的类似复合体进行了比较。它们的起源与早中生代肯特-道利亚带状火成岩区的形成有关。中侏罗世至晚侏罗世火成岩群主要分布在 EMVB 东部。它们位于大兴安火山带(GXVB)晚侏罗世火山岩区内,在形成年代和火山岩组合成分上都很相似。白垩纪岩浆活动是大兴安岭火山带演化的主要原因,伴随着断裂和众多海槽和地堑的形成,其地幔源也发生了规律性演化,板内成分不断增加。EMVB岩浆活动的规模、边界和特征得到了完善。该地区的西部边界向东偏移,由一个正面西北走向的断层系统所决定,该断层系统控制着一连串早白垩世的花岗质岩块以及中生代晚期的挤压复合岩。该地区的东部边界向西偏移,与早白垩世挤压岩群的一个区域重合。考虑到 EMVB 构造中晚三叠世和中晚侏罗世复合体的外来环境数据,可以确定 EMVB 的火成岩产物主要包括黑云母火山岩。这与EMVB和东亚大陆内部其他中生代晚期火山区的相似性一致,长粒火成岩的作用次之。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Structure, Age, and Evolution of the Late Mesozoic Eastern Mongolian Volcanic Belt

Structure, Age, and Evolution of the Late Mesozoic Eastern Mongolian Volcanic Belt

Abstract

Geochronological studies of volcanic rocks ascribed to the Late Mesozoic Eastern Mongolian Volcanic Belt (EMVB) allowed the recognition of several groups, which differ in age and composition of igneous associations, as well as their occurrence. The youngest group (~215 Ma) includes the rocks of bimodal association abundant in the western part of the EMVB. The next group (170–150 Ma) mostly consists of felsic lavas of the shoshonite–latite association composing the large volcanic fields in the eastern part of the EMVB. The rocks with the age of 140–105 Ma form a cover of the EMVB and mostly include basaltic trachyandesite, the fields of which are accompanied by small volcanoes of trachydacite and trachyrhyolite. Separated extrusions of alkaline basaltoids formed in age range of 105–80 Ma. The rock associations of various ages have different geological links with ambient igneous complexes. By age and composition, the Late Triassic bimodal complex is compared with similar associations that occur in Central Mongolia and West Transbaikalia along the frame of the Khentei–Dauria batholith. Their origination is related to the formation of the Early Mesozoic Khentei–Dauria zoned igneous area. The Middle to Late Jurassic igneous complexes are mostly localized in the eastern part of the EMVB. Their fields occur within the area of Late Jurassic volcanic fields of the Great Xing’an Volcanic Belt (GXVB), which are similar both in the age of the formation and in the composition of volcanic associations. The Cretaceous magmatism was responsible for the main evolution of the EMVB, which was accompanied by rifting and formation of numerous troughs and grabens, as well as regular evolution of its mantle sources directed toward the increasing amount of an intraplate component. The sizes, boundaries, and characteristics of the EMVB magmatism are refined. Its western boundary is shifted to the east and is determined by a frontal NW-trending fault system, which controls a chain of Early Cretaceous granitic plutons, as well as rocks of the Late Mesozoic extrusive complex. The eastern boundary of the area is shifted to the west, where it coincides with a field of the Early Cretaceous extrusive complex. Taking into account data on the alien setting of the Late Triassic and Middle to Late Jurassic complexes in the EMVB structure, it is established that the EMVB igneous products mainly include mafic volcanic rocks. This is in agreement with similarity of the EMVB and other Late Mesozoic volcanic areas of the intracontinental part of East Asia, with a subordinate role of felsic igneous rocks.

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来源期刊
CiteScore
1.80
自引率
30.00%
发文量
22
审稿时长
>12 weeks
期刊介绍: Stratigraphy and Geological Correlation is the only journal that provides comprehensive coverage of the fundamental and applied aspects of stratigraphy and the correlation of geologic events and processes in time and space. Articles are based on the results of multidisciplinary studies and are for researchers, university professors, students, and geologists interested in stratigraphy and the chronological features of the world’s geological record.
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