Methane-rich fluid inclusions from ophiolitic dunite and post-collisional mafic–ultramafic intrusion: The mantle dynamics underneath the Palaeo-Asian Ocean through to the post-collisional perio
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- 作者:Wei Liu and Pan Xiao Fei
- 关键词:CH4– ; H2O + N2 fluid inclusion ; dunite ; mafic– ; ultramafic intrusion ; redox melting ; Palaeo-Asian Ocean
- 刊名:Earth and Planetary Science Letters
- 出版年:2006
- 出版时间:28 February 2006
- 年:2006
- 卷:242
- 期:3-4
- 页码:286-301
- 全文大小:1088 K
文摘
The protracted development history of the Palaeo-Asian Ocean starting from 1000 Ma to 320 Ma, and continuation of mantle-derived magmatism right through the post-collisional period as manifested by the widespread mafic–ultramafic intrusion and alkaline–peralkaline granite suggest a vigorous, long-running mantle dynamo. Using the micro-laser Raman spectrometer, we analyzed olivine- and plagioclase-hosted fluid inclusions from ophiolitic dunite, Kudi of the western Kunlun Range, and post-collisional mafic–ultramafic intrusions of the Xiangshan and the Huangshandong, eastern Chinese Tienshan Mountains. Our results show that fluids brought from the mantle by these rocks are rich in H2O and CH4 with variable amounts of N2. Estimation of the redox state, pressure and depth of formation for the melt–CH4–H2O + N2 fluid systems from the 3 rock suites of the Xinjiang, and comparison of these parameters with those of the peridotite–fluid parageneses for the sub-cratonic upper mantle give meaningful results. These fluids were formed in the asthenosphere, were originally CH4–N2-rich, primordial mantle fluid, but have been progressively diluted with H2O and become oxidized by repeated subduction of oceanic slab. We propose that repeated redox melting in the mantle due to dilution of CH4 with H2O and oxidation caused formation of the long-lived Palaeo-Asian Ocean, brought about extensive intrusion of mafic–ultramafic complexes and alkaline–peralkaline granites right through the post-collisional period, and, consequently, resulted in significant Phanerozoic continental growth in the Central Asian Orogenic Belt. Rise of atmospheric O2 and the Earth's major oxidation occurred at about 2.4 to 2.2 Ga. Oxidation of the Earth's mantle promoted the mantle melting and magma input to the crust, resulting in major continental growth after 2.5 Ga. However, much-postponed oxidation of the primordial mantle underneath the Central Asian Orogenic Belt led to significant continental growth in the Phanerozoic times.