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东昆仑造山带沟里地区瓦勒尕南金矿床二长花岗岩成因:锆石U−Pb年龄、Hf同位素和岩石地球化学证据

Petrogenesis of monzogranite in Walega South Gold Deposit, Gouli Area, East Kunlun Orogenic Belt: Evidence from zircon U−Pb geochronology, Hf isotopes, and petrogeochemistry

  • 摘要: 东昆仑造山带古生代构造演化的研究对理解特提斯域构造格局具有重要意义。对东昆仑造山带沟里地区瓦勒尕南金矿区二长花岗岩进行了系统的岩石学、岩石地球化学、锆石U−Pb年代学及Hf同位素等研究,探讨了成岩年代和构造环境,同时为追索东昆仑造山带东段晚古生代早期的地质演化脉络提供了相关认识。锆石U−Pb定年结果显示,二长花岗岩结晶年龄为410 Ma±7 Ma,揭示东昆仑造山带东北缘早泥盆世时期存在岩浆活动。岩石地球化学结果表明,二长花岗岩具有富硅、富铝、富碱特征,属于强过铝质S型花岗岩;相对富集大离子亲石元素(Rb、U、Pb)、亏损高场强元素(Nb、Zr),轻重稀土元素分馏程度不高,Eu和Ce呈明显负异常。结合锆石εHft)值(−12.9~2.3)及对应的二阶段模式年龄(1.24~2.20 Ga),指示其成因为加厚下地壳古元古界变质杂砂岩源岩的高程度(75 %~85 %)部分熔融。构造判别揭示:二长花岗岩形成于后碰撞伸展环境,反映早泥盆世东昆仑造山带地壳由增厚到减薄的过程,对应原特提斯洋闭合后东昆仑造山带已进入后碰撞伸展阶段。研究结果为完善东昆仑古生代早期构造−岩浆演化序列提供了关键年代学约束。

     

    Abstract: Studies on the Paleozoic tectonic evolution of the East Kunlun Orogenic Belt are of great significance for understanding the tectonic framework of the Tethyan realm. This study systematically investigated petrology, petrogeochemistry, zircon U−Pb geochronology, and Hf isotopes of the monzogranite from the Walega South Gold Deposit in the Gouli Area, East Kunlun Orogenic Belt. This research aimed to determine its emplacement age and tectonic setting, thereby providing new insights into the geological evolution of the eastern segment of the East Kunlun Orogenic Belt during the early Late Paleozoic. Zircon U−Pb dating yields a crystallization age of 410 Ma±7 Ma for the monzogranite, indicating the occurrence of magmatic activity along the northeastern margin of the East Kunlun Orogenic Belt during the Early Devonian. Petrogeochemical results show that the monzogranite is characterized by high content of SiO2, Al2O3, and alkali, and belongs to strongly peraluminous S-type granite. It is relatively enriched in large-ion lithophile elements (e.g., Rb, U, and Pb) and depleted in high-field-strength elements (e.g., Nb and Zr), exhibits weak fractionation between light and heavy rare earth elements, and displays pronounced negative Eu and Ce anomalies. Combined with zircon εHft) values ranging from −12.9 to 2.3 and corresponding two-stage Hf model ages (1.24–2.20 Ga), these findings indicate that the monzogranite was generated by a high degree (75%–85%) of partial melting of Paleoproterozoic metagreywacke in the thickened lower crust. Tectonic discrimination suggests that the monzogranite formed in a post-collisional extensional setting. This reflects the transition from crustal thickening to thinning in the East Kunlun Orogenic Belt during the Early Devonian, corresponding to the post-collisional extensional stage following the closure of the Proto-Tethys Ocean. These results provide crucial geochronological constraints for refining the early Paleozoic tectonic-magmatic evolutionary sequence of the East Kunlun Orogenic Belt.

     

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