Metamorphic evolution of high-pressure and ultrahigh-temperature granulites from the Alxa Block, North China Craton: Implications for the collision and exhumation of Paleoproterozoic orogenic belts

IF 3.9 1区地球科学 Q1 GEOSCIENCES, MULTIDISCIPLINARY Geological Society of America Bulletin Pub Date : 2023-12-21 DOI:10.1130/b37120.1

Lei Zou, Jing-Hui Guo, Li-Fei Zhang, Guangyu Huang, Shu‐Juan Jiao, Zhong-Hua Tian, Ping-Hua Liu

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Abstract

High-pressure (HP) and ultrahigh-temperature (UHT) granulites with a high geothermal gradient (greater than 500 °C/GPa) are prominent features of Paleoproterozoic orogenic belts and may represent paired metamorphic belts present during the early stages of plate tectonics. Understanding their pressure−temperature−time (P-T-t) paths and metamorphic evolutionary relationships could provide valuable constraints on the tectonic processes of Paleoproterozoic orogenic belts. Here, we describe garnet mafic and clinopyroxene-orthopyroxene (Cpx-Opx) granulites from the Diebusige area of the Alxa Block in the western part of the Khondalite Belt, North China Craton. Through detailed petrographic, phase equilibrium modeling, and Ti-in-amphibole thermometric studies, we obtained the preserved peak mineral assemblages of two types of mafic granulites: garnet + clinopyroxene + amphibole + plagioclase + quartz + ilmenite, and clinopyroxene + orthopyroxene + plagioclase + amphibole + garnet (rare) + ilmenite. The preserved peak P-T conditions were determined to be 850−890 °C/11.4−13.2 kbar (HP granulite-facies) and 950−970 °C/8.2−9.2 kbar (UHT conditions), with thermal gradients of ∼70 °C/kbar (moderate differential temperature/differential pressure, dT/dP) and ∼110 °C/kbar (high dT/dP), respectively. Using sensitive high-resolution ion microprobe U-Pb dating and rare earth element analysis of zircons, we found that the garnet mafic granulite recorded an HP granulite-facies metamorphic age of ca. 1.95 Ga and a retrograde cooling age of ca. 1.8 Ga, while the Cpx-Opx granulite recorded a consistent retrograde cooling age of ca. 1.8 Ga. By combining these results with the metamorphic evolution and timing (ca. 1.92−1.91 Ga) of UHT rocks from the Khondalite Belt, we suggest that the garnet (HP) mafic and Cpx-Opx (UHT) granulites may represent different stages of the same metamorphic event, shedding light on the processes involved in the collision and subsequent exhumation of Paleoproterozoic orogenic belts.

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华北克拉通阿拉善地块高压和超高温花岗岩的变质演化：对古新生代造山带碰撞和剥蚀的影响

具有高地热梯度（大于 500 ℃/GPa）的高压（HP）和超高温（UHT）花岗岩是古新生代造山带的显著特征，可能代表了板块构造早期阶段的成对变质带。了解它们的压力-温度-时间（P-T-t）路径和变质演化关系，可以为古新生代造山带的构造过程提供宝贵的约束条件。在此，我们描述了华北克拉通 Khondalite 带西部阿拉善区块 Diebusige 地区的石榴石麦饭石和鳞片辉石-正长石（Cpx-Opx）花岗岩。通过详细的岩相学、相平衡建模和钛-闪石测温研究，我们获得了两类黑云母花岗岩的保留峰矿物组合：石榴石+霞石+闪石+斜长石+石英+钛铁矿，以及霞石+正长石+斜长石+闪石+石榴石（稀有）+钛铁矿。所保留的峰值 P-T 条件被确定为 850-890 ℃/11.4-13.2 千巴（HP 花岗岩-成因）和 950-970 ℃/8.2-9.2 千巴（超高温条件），热梯度分别为∼70 ℃/千巴（中等温差/压差，dT/dP）和∼110 ℃/千巴（高温差/压差）。利用灵敏的高分辨率离子微探针U-Pb定年和锆石稀土元素分析，我们发现石榴石黑云母花岗岩记录的HP花岗岩-成因变质年龄约为1.95 Ga，逆行冷却年龄约为1.8 Ga，而Cpx-Opx花岗岩记录的逆行冷却年龄一致，约为1.8 Ga。通过将这些结果与箜篌岩带超高温岩石的变质演化和时间（约1.92-1.91 Ga）相结合，我们认为石榴石（HP）黑云母花岗岩和Cpx-Opx（UHT）花岗岩可能代表了同一变质事件的不同阶段，从而揭示了古新生代造山带碰撞及其后的排挤过程。

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来源期刊

Geological Society of America Bulletin 地学-地球科学综合

CiteScore

9.30

自引率

8.20%

发文量

159

审稿时长

4-8 weeks

期刊介绍： The GSA Bulletin is the Society''s premier scholarly journal, published continuously since 1890. Its first editor was William John (WJ) McGee, who was responsible for establishing much of its original style and format. Fully refereed, each bimonthly issue includes 16-20 papers focusing on the most definitive, timely, and classic-style research in all earth-science disciplines. The Bulletin welcomes most contributions that are data-rich, mature studies of broad interest (i.e., of interest to more than one sub-discipline of earth science) and of lasting, archival quality. These include (but are not limited to) studies related to tectonics, structural geology, geochemistry, geophysics, hydrogeology, marine geology, paleoclimatology, planetary geology, quaternary geology/geomorphology, sedimentary geology, stratigraphy, and volcanology. The journal is committed to further developing both the scope of its content and its international profile so that it publishes the most current earth science research that will be of wide interest to geoscientists.