He Yang, Biji Luo, Hongfei Zhang, Wenjiao Xiao, Lu Tao, Zhong Gao, Liqi Zhang, Xi Chen
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Magmatic and xenocrystic garnet were identified from the tonalite and biotite plagiogranite, respectively. The two-mica plagiogranite, tonalite, and biotite plagiogranite all belong to low-K series rocks (K<sub>2</sub>O/Na<sub>2</sub>O = 0.10–0.26), and were derived from deep crustal sources mainly consisting of juvenile mafic rocks, with involvement of minor metasedimentary rocks in the magma sources of the two-mica plagiogranite and tonalite. The diorite enclave within the tonalite was probably derived from an enriched mantle-derived basaltic magma. Mineral compositions, thermobarometric calculations, and whole-rock geochemical data indicate that the low-K intrusive units of the Wujinxia composite pluton resulted from multiple magmatic systems at different depths. The results suggest that I-type granites can contain metasedimentary components by partial melting of a mixed crustal source, and high-Mn content helps the preservation of high-Ca garnet within such rocks. 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引用次数: 0
摘要
花岗岩成因是了解大陆地壳演化的关键,然而关于花岗岩成因的许多问题仍未得到很好的解答,如I型花岗岩是否含有变质岩成分、是什么控制了花岗岩成分的多样性,以及花岗质柱岩是如何构造的。为了探讨这些问题,我们对青藏高原东北部祁连造山带东部乌金峡复合岩浆岩的双云母长花岗岩、辉长岩和生物长花岗岩单元进行了详细研究。这些单元由双云母长花岗岩、辉长岩(含闪长岩飞地)和生物长花岗岩组成。锆石U-Pb数据显示,三个花岗岩单元分别形成于约487Ma、约464Ma和约430Ma。岩浆榴辉岩和异晶榴辉岩分别来自辉长岩和斜长花岗岩。双云母长花岗岩、辉绿岩和生物长花岗岩均属于低K系列岩石(K2O/Na2O = 0.10-0.26),主要来源于由幼年黑云母岩组成的深部地壳,双云母长花岗岩和辉绿岩的岩浆源中也有少量的玄武岩参与。辉长岩中的闪长岩飞地可能来自富集的地幔玄武岩岩浆。矿物成分、热压计算和全岩地球化学数据表明,乌金峡复合岩体的低 K 侵入单元来自不同深度的多个岩浆系统。研究结果表明,I型花岗岩中可能含有混合地壳源部分熔融而成的玄武岩成分,而高锰含量有助于这类岩石中高钙石榴石的保存。对于成分差异较大的复合岩体来说,其成分多样性是由岩浆源成分、单个岩浆脉冲的熔融条件和热演化以及岩体建造过程中的组装方式共同控制的。
Generation of multiple low-K granitic magmas in the eastern Qilian orogen, NE Tibetan Plateau: implications for granite genesis and pluton construction
Granite genesis is crucial to understanding the evolution of continental crust, yet many concerns about granite genesis remain not well answered, such as whether I-type granite contains metasedimentary components, what controls granite compositional diversity, and how granitic plutons are constructed. To explore these issues, we conducted a detailed study on the two-mica plagiogranite, tonalite, and biotite plagiogranite units of the Wujinxia composite pluton in the eastern Qilian orogen, NE Tibetan Plateau. These units comprise two-mica plagiogranite, tonalite (with diorite enclave), and biotite plagiogranite. Zircon U–Pb data reveal that three granitic units formed at ~ 487 Ma, ~ 464 Ma, and ~ 430 Ma, respectively. Magmatic and xenocrystic garnet were identified from the tonalite and biotite plagiogranite, respectively. The two-mica plagiogranite, tonalite, and biotite plagiogranite all belong to low-K series rocks (K2O/Na2O = 0.10–0.26), and were derived from deep crustal sources mainly consisting of juvenile mafic rocks, with involvement of minor metasedimentary rocks in the magma sources of the two-mica plagiogranite and tonalite. The diorite enclave within the tonalite was probably derived from an enriched mantle-derived basaltic magma. Mineral compositions, thermobarometric calculations, and whole-rock geochemical data indicate that the low-K intrusive units of the Wujinxia composite pluton resulted from multiple magmatic systems at different depths. The results suggest that I-type granites can contain metasedimentary components by partial melting of a mixed crustal source, and high-Mn content helps the preservation of high-Ca garnet within such rocks. For a composite pluton spanning a large compositional variation, its compositional diversity is jointly controlled by magma source composition, melting condition and thermal evolution of individual magma pulses, and the resulted assembly style during pluton construction.
期刊介绍:
The International Journal of Earth Sciences publishes process-oriented original and review papers on the history of the earth, including
- Dynamics of the lithosphere
- Tectonics and volcanology
- Sedimentology
- Evolution of life
- Marine and continental ecosystems
- Global dynamics of physicochemical cycles
- Mineral deposits and hydrocarbons
- Surface processes.