Isothermal compression record in the high-pressure Bantimala garnet amphibolite: Implications on the Mesozoic subduction system between the Sundaland and Western Sulawesi (Indonesia)

IF 2.9 2区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS
Juiyen Hsia , Jian Zhang , Jiahui Qian , Jin Liu , Minjie Guo , Chenying Yu , Welson Weisheng Xian , Changqing Yin , Yuntao Tian
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Abstract

The isothermal compression is a special prograde metamorphic P-T path in high-pressure rocks. However, the exact geodynamic processes and associated tectonic significance of this path remain unclear. The Mesozoic subduction and collision between the Sundaland Block and east Java-west Sulawesi (EJWS) generated various metamorphic rock assemblages, thus leading to the crucial need to understand the evolution of the Meso-Tethys. The Bantimala Complex is a key metamorphic basement in Western Sulawesi that preserves records of high-pressure (HP) to ultrahigh-pressure (UHP) metamorphism during Cretaceous subduction. This manuscript presents a detailed petrological, mineralogical, geochronological, phase equilibrium modelling, and Zr-in-rutile thermometry study of a garnet amphibolite from the Bantimala Complex. Petrographic observations indicate that the garnet amphibolite underwent three metamorphic stages that include prograde (M1), peak (M2), and retrograde (M3a and M3b) stages. Pseudosection modelling constrains the P-T conditions of these stages at 13–15.5 kbar/565–585 °C (M1), ∼23.5 kbar/588 °C (M2), 8–9.5 kbar/410–480 °C (M3a), and 8.3–8.8 kbar/415–440 °C (M3b), respectively. UPb dating utilizing magmatic zircon reveals a protolith formation age of 212 ± 3.1 Ma. 40Ar/39Ar dating results from sodic-calcic amphibole and phengite indicate the timing of HP metamorphism at 136–128 Ma (Early Cretaceous). In contrast to other HP metamorphic rocks in the Bantimala Complex (eclogite and blueschist), garnet amphibolite exhibits a unique counterclockwise P-T path that includes an isothermal compression stage. This implies that the rock likely detached from the upper plate and was transported to the lower plate within the subduction zone. Following peak metamorphism at a depth of approximately 75 km, it was exhumed along with other HP metamorphic rocks to a shallower crustal depth of approximately 25 km. Combined with the available data, this study also reveals the coexistence of diverse P-T trajectories within the Bantimala Complex, thus providing robust evidence for a Mesozoic subduction system between the Sundaland Block and Western Sulawesi (Indonesia).
高压班蒂马拉石榴石闪长岩中的等温压缩记录:对巽他兰和西苏拉威西(印度尼西亚)之间中生代俯冲系统的影响
等温压缩是高压岩石中一种特殊的渐变P-T路径。然而,这一路径的确切地球动力学过程和相关构造意义仍不清楚。中生代巽他地块和东爪哇-西苏拉威西(EJWS)之间的俯冲和碰撞产生了各种变质岩组合,因此亟需了解中太古宙的演化过程。班蒂马拉复合体是西苏拉威西的一个重要变质基底,保留了白垩纪俯冲过程中高压(HP)至超高压(UHP)变质作用的记录。本手稿介绍了对班蒂马拉岩群中的一块石榴石闪长岩进行的详细岩石学、矿物学、地质年代学、相平衡建模和金红石热量测定法研究。岩石学观察表明,该石榴石闪长岩经历了三个变质阶段,包括顺行(M1)、峰值(M2)和逆行(M3a 和 M3b)阶段。伪吸积模型将这些阶段的P-T条件分别确定为13-15.5千巴/565-585 °C(M1)、∼23.5千巴/588 °C(M2)、8-9.5千巴/410-480 °C(M3a)和8.3-8.8千巴/415-440 °C(M3b)。利用岩浆锆石进行的 UPb 测定显示原岩形成年龄为 212 ± 3.1 Ma。钠钙闪石和辉石的 40Ar/39Ar 测定结果表明,高纯变质的时间为 136-128 Ma(早白垩世)。与班蒂马拉复合体中的其他高压变质岩(埃克洛辉石和蓝晶岩)不同,石榴石闪长岩呈现出独特的逆时针 P-T 轨迹,其中包括一个等温压缩阶段。这意味着该岩石很可能是从上板块分离出来的,并在俯冲带内被搬运到了下板块。在大约 75 千米深的变质峰值之后,它与其他高纯变质岩一起被挤出到大约 25 千米的较浅地壳深度。结合现有数据,这项研究还揭示了班蒂马拉复合区内多种P-T轨迹并存的现象,从而为巽他兰地块和西苏拉威西(印度尼西亚)之间的中生代俯冲系统提供了有力证据。
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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来源期刊
Lithos
Lithos 地学-地球化学与地球物理
CiteScore
6.80
自引率
11.40%
发文量
286
审稿时长
3.5 months
期刊介绍: Lithos publishes original research papers on the petrology, geochemistry and petrogenesis of igneous and metamorphic rocks. Papers on mineralogy/mineral physics related to petrology and petrogenetic problems are also welcomed.
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