从单个独居石晶粒的 ID-TIMS U-Pb 定年到 APT 纳米地质年代：在 Andriamena（马达加斯加中北部）UHT 花岗岩中的应用

BSGF - Earth Sciences Bulletin Pub Date : 2024-06-05 DOI:10.1051/bsgf/2024013

M. Turuani, A. Seydoux‐Guillaume, A. Laurent, D. Fougerouse, Simon L. Harley, Steven M. Reddy, Philippe Goncalve, D. Saxey, Julie Michaud, J. Montel, Christian Nicollet, Jean-Louis Paquette

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引用次数: 0

摘要

Paquette 等人（2004 年）使用高空间分辨率技术：原子探针断层扫描（APT）、透射电子显微镜（TEM）、激光烧蚀电感耦合等离子体质谱法，对马达加斯加中北部 Andriamena 单元超高温（UHT）花岗岩中的独居石和锆石颗粒进行了研究。(Paquette 等人（2004 年）采用高空间分辨率技术：原子探针层析成像（APT）、透射电子显微镜（TEM）、激光烧蚀电感耦合等离子体质谱法（LA-ICP-MS）和二次离子质谱法（SIMS）重新进行了研究。年代测定的晶粒位于石英、石榴石中，属于峰值超高温变质集合体，以及由生物橄榄石、堇青石和正闪石组成的逆冲冠状纹理中。蒙皂石晶粒显示出复杂的不和谐趋势，具有多种放射性铅（Pb*）损失分散，以前曾被解释为至少记录了从Archean（约2.7 Ga）到Proterozoic-Cambrian（约0.5 Ga）的四个地质事件。利用 SIMS、TEM 和 APT 对独居石进行了多尺度研究，并对锆石进行了 LA-ICP-MS 研究。石榴石中的锆石颗粒和石英中的锆石颗粒的年龄一致，分别为 2758 ±28 Ma 和 2609 ±51 Ma。独居石晶粒显示出年龄分散和与晶粒岩相位置相关的铅*损失趋势。位于石榴石和石英中的晶粒比位于冠状纹理中的晶粒的铅*损失要少。不整合岩表明结晶年龄为 2555 ±71 Ma，而石英和石榴石中的独居石晶粒则记录了 1053 ±246 Ma 的扰动事件。TEM 研究表明，与冠状纹理中的独居石相比，石英和石榴石中的独居石含有大量含铅纳米相。含铅纳米相的数量与独居石晶粒中铅*流失的百分比成反比关系。在位于石英和石榴石中的独居石基质（即不包括含铅纳米相）中，利用 APT 获得的 232Th/208Pb 比率表明平均年龄为 1092 ±127 Ma。该日期被解释为安德里阿梅纳单元迄今为止尚未发现的地质年代记录。

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From ID-TIMS U-Pb dating of single monazite grain to APT-nanogeochronology: application to the UHT granulites of Andriamena (North-Central Madagascar)

Monazite and zircon grains from the ultra-high temperature (UHT) granulite of the Andriamena unit in the centre north of Madagascar, previously investigated using micro-drilled single grain isotopic dissolution geochronology and in-situ electron microprobe chemical dating by Paquette et al. (2004), are reinvestigated using high spatial resolution techniques: atom probe tomography (APT), transmission electron microscopy (TEM), laser ablation inductively coupled plasma mass spectrometry (LA-ICP-MS) and secondary ion mass spectrometry (SIMS). The dated grains are located in quartz, garnet belonging to the peak UHT metamorphic assemblage and in retrograde coronitic texture composed of biotite, cordierite and orthoamphibole. Monazite grains show complex discordant trends with several radiogenic Pb (Pb*) loss dispersions, that were previously interpreted as recording at least four geologic episodes occurring from the Archean (~2.7 Ga) to the Proterozoic-Cambrian (~0.5 Ga). Multiscale investigations with SIMS, TEM and APT have been carried out on monazite and LA-ICP-MS on zircon. Zircon grains hosted in garnet and those in quartz record concordant ages at 2758 ±28 Ma and 2609 ±51 Ma, respectively. Monazite grains show age dispersion and a Pb*-loss trend correlated with the grain petrographic position. Grains located in garnet and quartz present less Pb*-loss than those located in the coronitic texture. The discordia indicates a crystallisation age at 2555 ±71 Ma and monazite grains hosted in quartz and garnet record a disturbance event at 1053 ±246 Ma. TEM investigations show that monazite located in quartz and garnet contain numerous Pb-bearing nanophases compared to monazite located in coronitic texture. There is an inverse correlation between the number of Pb-bearing nanophases and the percentage of Pb*-loss in monazite grains. 232Th/208Pb ratio obtained with APT in monazite matrix (i.e. excluding Pb-bearing nanophases) located in quartz and garnet indicated a mean age of 1092 ±127 Ma. This date is interpreted as a hitherto undetected geochronological record in Andriamena unit.

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BSGF - Earth Sciences Bulletin

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