Khangai Intramantle Plume (Mongolia): 3D Model, Influence on Cenozoic Tectonics, and Comparative Analysis

IF 1 4区 地球科学 Q3 GEOCHEMISTRY & GEOPHYSICS Geotectonics Pub Date : 2024-03-14 DOI:10.1134/s0016852123060079
V. G. Trifonov, S. Yu. Sokolov, S. A. Sokolov, S. V. Maznev, K. I. Yushin, S. Demberel
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Abstract

The Khangai plume is situated under Central and Eastern Mongolia and is a mantle volume with significantly reduced longitudinal (P) wave velocities. The plume has been identified as a result of the analysis of the MITP08 volumetric model of P-wave velocity variations, representing the deviations of P-wave velocities from the average values (δVp), given as a percentage. The lithospheric mantle is thinned to ca. 50 km above the plume. Especially low velocities (δVp ≤ –0.6%) are found in the sublithospheric mantle up to a depth of 400 km. The main body of the plume is located under the Khangai Highland and extends northward to the edge of Southern Siberia. The Khentei branch of the plume that is located SE of the Khentei Highland is connected with the main plume body at depths of 800–1000 km. Branches of the plume and its Khentei branch extend into Transbaikalia. The area of the plume decreases with depth, and its deepest part (1250–1300 km) is located under the southern Khangai Highland. The main body of the Khangai plume is expressed on the land surface by the Cenozoic uplift reaching 3500–4000 m in the southern Khangai Highland. From the SE, the Khangai plume and its Khentei branch territory are limited by Late Cenozoic troughs stretching along the southeastern border of Mongolia. From other sides, the Khangai uplift is bounded by a C-shaped belt of basins. The belt includes the southwestern part of the Baikal Rift Zone, the Tunka and Tuva Basins in the north, the Ubsu-Nur Basin and the Basin of Big Lakes in the west, and the Valley of Lakes in the south. The basins are filled with lacustrine and fluvial deposits of the Late Oligocene to Pliocene. In the Quaternary, the South and Central Baikal Basins, which existed as early as the Early Paleogene, became a part of the Baikal Rift, and the other basins were involved in the general uplift of the region. The structural paragenesis of the Khangai uplift and the surrounding basins is caused by the influence of the Khangai plume. On the territory above the plume, including its Khentei and Transbaikalia branches, the Cenozoic basaltic plume volcanism occurred, inheriting the Cretaceous volcanic manifestations in some places. The structural paragenesis associated with the Khangai plume is combined with the structural paragenesis produced by lithospheric plate interaction. The latter is expressed the best of all by active faults, but developed synchronously to the plume paragenesis. The active fault kinematics shows that the eastern and central parts of the region developed in the transpression conditions and the north-eastern part developed in conditions of extension and transtension. The Khangai plume is connected at depth with the Tibetan plume, which is situated under the central and eastern Tibetan Plateau north of the Lhasa block. The Tibetan plume has the shape of a funnel rising from depths of 1400–1600 km and is accompanied by thinning of the lithosphere and uplift of the land surface. The Khangai and Tibetan plumes represent a specific category of plumes. They rise from the upper Lower Mantle and differ by this from the Upper Mantle plumes and the African and Pacific superplumes rising from the core-mantle boundary. Data are presented on the possible connection of the Khangai and Tibetan plumes with the superplume branches, but independent origin of the plumes is also admitted.

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Khangai 内幔羽流(蒙古):三维模型、对新生代构造的影响以及对比分析
摘要 Khangai 烟羽位于蒙古中部和东部地下,是一个纵波速度显著降低的地幔体。MITP08的P波速度变化体积模型代表了P波速度与平均值的偏差(δVp),以百分比表示。岩石圈地幔在羽流上方约 50 公里处变薄。岩石圈下地幔的速度特别低(δVp ≤-0.6%),最深达 400 公里。羽流主体位于康盖高原之下,向北延伸至南西伯利亚边缘。位于康泰高原东南部的康泰羽流分支在 800-1000 千米深处与羽流主体相连。羽流及其肯特支流延伸至外贝加尔地区。羽流的面积随着深度的增加而减小,其最深的部分(1250-1300 千米)位于康盖高原南部的地下。康盖羽流的主体在陆地表面表现为新生代的隆起,在康盖高原南部达到 3500-4000 米。从东南方向看,康盖岩浆及其康泰支脉受到沿蒙古东南边界延伸的晚新生代槽谷的限制。从其他方向看,康盖隆起以一个 C 形盆地带为界。该盆地带包括贝加尔裂谷带的西南部、北部的通卡盆地和图瓦盆地、西部的乌布苏-淖尔盆地和大湖盆地以及南部的湖谷。这些盆地充满了晚渐新世至上新世的湖泊和河流沉积物。在第四纪,早在古新世早期就已存在的贝加尔湖南盆地和中盆地成为贝加尔裂谷的一部分,而其他盆地则参与了该地区的总体隆升。康盖隆起及其周边盆地的构造成因是受康盖羽流的影响。在该羽流上方的地区,包括其肯泰分支和外贝加尔分支,发生了新生代玄武质羽流火山活动,并在某些地方继承了白垩纪火山的表现形式。与康盖火山羽流相关的构造成因与岩石圈板块相互作用产生的构造成因相结合。后者通过活动断层表现得淋漓尽致,但与火山羽流的成因同步发展。活动断层运动学显示,该地区的东部和中部是在换位条件下发展起来的,而东北部则是在伸展和换位条件下发展起来的。康爱岩浆在深部与西藏岩浆相连,西藏岩浆位于拉萨地块以北青藏高原中部和东部的地下。西藏羽流呈漏斗状从 1400-1600 公里深处上升,伴随着岩石圈的减薄和地表的隆起。康加羽流和西藏羽流是一类特殊的羽流。它们从下地幔上部升起,因此与上地幔羽流以及从地核-地幔边界升起的非洲和太平洋超级羽流不同。本文提供的数据表明,康爱羽流和西藏羽流可能与超羽流分支有联系,但也承认羽流的独立起源。
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来源期刊
Geotectonics
Geotectonics 地学-地球化学与地球物理
CiteScore
1.90
自引率
9.10%
发文量
28
审稿时长
3 months
期刊介绍: Geotectonics publishes articles on general and regional tectonics, structural geology, geodynamics, and experimental tectonics and considers the relation of tectonics to the deep structure of the earth, magmatism, metamorphism, and mineral resources.
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