Preservation of Paleoproterozoic metasedimentary rocks from the eastern margin of the Bastar Craton, India, and their geodynamic implications

IF 1.8 3区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY International Journal of Earth Sciences Pub Date : 2024-09-04 DOI:10.1007/s00531-024-02460-4
Dicton Saikia
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Abstract

The current study reports the occurrence of a deformed Paleoproterozoic K-rich metasedimentary rock unit at the eastern margin of Bastar Craton, India. Geochemical studies of the metasedimentary rocks suggest the presence of an active continental margin at the eastern part of the Bastar Craton. Detailed petrological and mineralogical studies suggest that K-feldspar, quartz, chlorite, muscovite, kaolinite, and ± biotite represent the primary mineral assemblage in the rock unit. Combined mineral thermobarometric and P–T pseudosection estimate the peak metamorphic condition (i.e. M3 metamorphic) at T ~ 550 °C, P ~ 0.5 GPa. Furthermore, monazite grains (about 20–60 μm in diameter) were dated using the in-situ U–Th–Pbtotal dating method under EPMA. Based on composition and texture, monazite spot ages can be categorized into four groups: Group I, Group II, Group III, and Group IV. The mean age of the oldest monazite population (Group I) at ~ 2100 Ma suggests vertical sagging of the sedimentary basin and the associated M1 metamorphism. The M2 metamorphic event is represented by the Group II monazite population’s mean age of ~ 1629 Ma. Rhyolite magmatism in the eastern margin of the Bastar Craton may be connected to this specific event. The Group III monazite mean age of ~ 1533 Ma represents the M3 metamorphic event (peak metamorphic condition). This event could be linked to the accretionary growth at the Bastar Craton's eastern boundary during the assembly of the Columbia supercontinent. Furthermore, the M2 and M3 events may correlate with orogenic events recorded in the Central Indian Tectonic Zone at ca 1.62 and 1.5 Ga, respectively. Finally, the mean age of ~ 528 Ma for the Group IV monazite population represents Pan-African orogenic activity along the eastern margin of the Bastar Craton.

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印度巴斯塔克拉通东缘古生代变质岩的保存及其对地球动力学的影响
本研究报告了在印度巴斯塔克拉通东缘出现的一个变形的古新生代富含钾的变质岩单元。对变质岩的地球化学研究表明,巴斯塔克拉通东部存在一个活跃的大陆边缘。详细的岩石学和矿物学研究表明,K长石、石英、绿泥石、褐铁矿、高岭石和±生物锂辉石是该岩石单元的主要矿物组合。综合矿物热压和 P-T 伪影推测,变质峰值条件(即 M3 变质岩)为 T ~ 550 ℃,P ~ 0.5 GPa。此外,利用 EPMA 原位 U-Th-Pbtotal 测定法对独居石晶粒(直径约 20-60 μm)进行了年代测定。根据成分和质地,独居石斑点年代可分为四组:第一组、第二组、第三组和第四组。最古老的独居石群(第 I 组)的平均年龄约为 2100 Ma,这表明沉积盆地垂直下陷以及与之相关的 M1 变质作用。第二组独居石群的平均年龄约为 1629 Ma,代表了 M2 变质活动。巴斯塔克拉通东缘的流纹岩岩浆活动可能与这一特定事件有关。第三组独居石的平均年龄约为 1533 Ma,代表了 M3 变质事件(变质高峰期)。这一事件可能与哥伦比亚超大陆组装期间巴斯塔克拉通东部边界的增生有关。此外,M2 和 M3 事件可能与中印度构造带分别记录的约 1.62 和 1.5 Ga 的造山运动事件有关。最后,第四组独居石群的平均年龄约为 528 Ma,代表了沿巴斯塔克拉通东缘的泛非造山活动。
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来源期刊
International Journal of Earth Sciences
International Journal of Earth Sciences 地学-地球科学综合
CiteScore
4.60
自引率
4.30%
发文量
120
审稿时长
4-8 weeks
期刊介绍: The International Journal of Earth Sciences publishes process-oriented original and review papers on the history of the earth, including - Dynamics of the lithosphere - Tectonics and volcanology - Sedimentology - Evolution of life - Marine and continental ecosystems - Global dynamics of physicochemical cycles - Mineral deposits and hydrocarbons - Surface processes.
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