Paleoproterozoic ultrahigh-temperature metamorphism in the Helanshan Complex, North China Craton: New constraints from chloritized sapphirine-bearing pelitic granulites

IF 2.9 2区 地球科学 Q2 GEOCHEMISTRY & GEOPHYSICS Lithos Pub Date : 2024-09-19 DOI:10.1016/j.lithos.2024.107814
Shangjing Wu , Changqing Yin , Jiahui Qian , Hengzhong Qiao , Xiaoman Wang , Yanfei Xia , Yanling Zhang
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Abstract

Identifying ultrahigh-temperature (UHT) metamorphism in granulite-facies metamorphic terrains and determining its pressure-temperature-time (P-T-t) paths are crucial steps toward elucidating the anomalously hot geodynamic evolution process. This study presents the inaugural identification of chloritized sapphirine-bearing granulites in the Helanshan Complex, located in the western segment of the Khondalite Belt, North China Craton. Three stages of metamorphic evolution were identified based on petrographic analyses, mineral chemistry, and phase equilibrium modelling: the pre-Tmax stage involves the presence of rutile-stable phase assemblage, wherein rutile is partially substituted by ilmenite; the Tmax stage involves the assemblage of garnet + plagioclase + K-feldspar + sillimanite + spinel ± sapphirine + quartz + ilmenite + melt, as evidenced by microscale (<5 μm) blebs of variably chloritized sapphirine within spinel; and the retrograde cooling stage features the solidus assemblage of garnet + plagioclase + biotite + K-feldspar + sillimanite + cordierite + quartz + ilmenite + melt. Phase equilibrium modelling indicates Tmax conditions of 958–1055 °C and 6.4–7.8 kbar, suggesting UHT conditions accompanied by a high geothermal gradient of approximately 150 °C/kbar. Furthermore, a clockwise P-T trajectory was established, involving pre-Tmax decompression and post-Tmax near-isobaric cooling. Laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) zircon and monazite U-Pb dating of UHT pelitic granulites produced ages clustering around 1.91 Ga, marking the era of UHT metamorphism within the Helanshan Complex. This discovery broadens the scope of UHT metamorphism and indicates that the entire Khondalite Belt experienced a regional UHT metamorphic event during 1.93–1.91 Ga, which was likely induced by an initial radiogenic heating synergy followed by an augmented mantle heat flux.

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华北克拉通贺兰山复杂地块的古新生代超高温变质作用:绿泥石化含蓝宝石辉长岩的新约束
在花岗岩变质地层中识别超高温变质作用并确定其压力-温度-时间(P-T-t)路径,是阐明异常高温地球动力演化过程的关键步骤。本研究首次在位于华北克拉通 Khondalite 带西段的贺兰山复杂地貌中发现了含绿泥石的花岗岩。根据岩相分析、矿物化学和相平衡模型,确定了变质演化的三个阶段:Tmax前阶段包括金红石-稳定相组合,其中金红石部分被钛铁矿取代;Tmax阶段包括石榴石+斜长石+K长石+斜长石+尖晶石±蓝晶石+石英+钛铁矿+熔体组合,由微观尺度(<;5 μm)尖晶石中不同绿泥石化的蓝辉石斑点为证;逆行冷却阶段的固相组合为石榴石+斜长石+斜长石+K长石+菱锰矿+堇青石+石英+钛铁矿+熔体。相平衡模型显示,最高温度为 958-1055 °C,最高压力为 6.4-7.8 千巴,这表明在超高温条件下,地热梯度较高,约为 150 °C/千巴。此外,还建立了顺时针的 P-T 轨迹,包括最高温度前的减压和最高温度后的近等压冷却。通过激光烧蚀电感耦合等离子体质谱法(LA-ICP-MS)对超高温沸石花岗岩进行锆石和独居石 U-Pb 测定,发现其年龄集中在 1.91 Ga 左右,标志着贺兰山岩群进入了超高温变质时代。这一发现扩大了超高温变质作用的范围,表明在1.93-1.91 Ga期间,整个箜达岩带经历了一次区域性的超高温变质作用,这很可能是由最初的辐射加热协同作用和随后的地幔热通量增强所诱发的。
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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.
期刊最新文献
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