Late Permian plume and Neoproterozoic subduction-modified mantle interaction: Insights from geochronology and Sr-Nd-O isotopes of mafic dikes of the western Emeishan large igneous province

IF 1.9 3区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY American Journal of Science Pub Date : 2022-10-01 DOI:10.2475/08.2022.02
Yanning Wang, Shengchao Xue, R. Klemd, Lin Yang, F. Zhao, Qingfei Wang
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引用次数: 1

Abstract

Geochronological investigations of mafic dikes along the southwestern margin of the Emeishan large igneous province (ELIP) in the South China block display a restricted range of U-Pb zircon, baddeleyite, and apatite isotopic ages ranging from 263 to 257 Ma, which overlaps with that of previously studied ELIP basalts and mafic intrusions. The dikes are divided into high-Ti and low-Ti groups, whereby the latter is further divided into two subgroups (low-Ti group-1 and -2). The high-Ti group rocks (Ti/Y > 500) are characterized by ocean island basalt-like trace element patterns with mantle-like zircon δ18O of 5.0 ± 0.10‰ and slightly enriched εNd(t) values of −1.0 to +1.0. The low-Ti group-1 rocks (Ti/Y < 500) have trace element patterns similar to those of the high-Ti group, yet generally with weak negative Nb-Ta anomalies, lower (Sm/Yb)N ratios, elevated zircon δ18O (6.6 ± 0.33 ‰), and highly variable εNd(t) values (−3.9 to +3.2). The low-Ti group-2 rocks (Ti/Y < 500) are characterized by pronounced negative Nb-Ta anomalies, more negative εNd(t) (−8.4 to −6.6) values, and higher initial 87Sr/86Sr ratios than those of the other two groups. The compositional variations of the high-Ti group and the low-Ti group-1 rocks, in conjunction with the negative correlation between the εNd(t) values and the (Th/Nb)N ratios, suggest that the two groups were generated from an isotopically heterogeneous mantle plume at different depths, and experienced varying degrees of crustal contamination (but < 20 wt.%). The high-Ti group rocks are considered to have originated from a deeper garnet-stable source, and the low-Ti group-1 rocks from a shallower source. Mixing calculations indicate that the highly enriched Sr-Nd isotopes of the low-Ti group-2 rocks cannot be explained by crustal contamination. A subduction-modified mantle source is required to account for the arc-like geochemical characteristics of this group. This is consistent with the spatial overlap of the low-Ti group-2 rocks and previously studied geochemically similar samples with rocks from the Neoproterozoic subduction zone along the western margin of the South China block. Furthermore, a fertilized mantle is also consistent with the variable δ18O values of various mafic-ultramafic rocks of the western and central ELIP due to the involvement of recycled oceanic crustal materials. Our results are in accordance with the model that the western ELIP late Permian magmatism was generated by the interaction of two distinct sources, that is, an isotopically heterogenous mantle plume and a Neoproterozoic subduction-modified, Nd isotope-enriched lithospheric mantle with distinct heterogenous oxygen isotope characteristics.
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晚二叠世地幔柱与新元古代俯冲修正的地幔相互作用:来自峨眉山西部大火成岩省基性岩脉年代学和Sr-Nd-O同位素的启示
华南地块峨眉山大火成岩省(ELIP)西南缘基性岩脉年代学研究显示,其U-Pb锆石、坏辉石和磷灰石同位素年龄范围在263 ~ 257 Ma之间,与前人研究的峨眉山大火成岩省玄武岩和基性侵入岩有一定的重叠。岩脉分为高钛组和低钛组,低钛组又分为低钛组1和低钛组-2两个亚组。高Ti组岩石(Ti/Y bbb500)表现为洋岛玄武岩样微量元素模式,锆石δ18O值为5.0±0.10‰,εNd(t)值为- 1.0 ~ +1.0,略富集。低Ti组1岩石(Ti/Y < 500)具有与高Ti组相似的微量元素模式,但普遍具有较弱的Nb-Ta负异常,(Sm/Yb)N比较低,锆石δ18O升高(6.6±0.33‰),εNd(t)值变化较大(- 3.9 ~ +3.2)。低Ti组2岩石(Ti/Y < 500)具有明显的负Nb-Ta异常,εNd(t)负(−8.4 ~−6.6),初始87Sr/86Sr比值高于其他两组岩石。高ti组和低ti组1岩石的组成变化,结合εNd(t)值与(Th/Nb)N比值的负相关关系,表明两组岩石来自不同深度的同位素不均匀地幔柱,经历了不同程度的地壳污染(但< 20 wt.%)。高ti组岩石被认为起源于较深的石榴石稳定源,而低ti组岩石起源于较浅的石榴石稳定源。混合计算表明,低钛族2岩石的高富集Sr-Nd同位素不能用地壳污染来解释。要解释该群的类弧地球化学特征,需要一个俯冲修饰的地幔源。这与低钛组2岩石的空间重叠一致,也与华南地块西缘新元古代俯冲带岩石的地球化学相似样品一致。此外,由于海洋地壳物质的循环作用,地幔的富营养化也与ELIP西部和中部各种基性-超基性岩石的δ18O值变化相一致。本文的研究结果符合西ELIP晚二叠世岩浆活动是由两个不同来源的相互作用产生的模型,即一个同位素非均质地幔柱和一个新元古代俯冲修饰的富Nd同位素岩石圈地幔,具有明显的非均质氧同位素特征。
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来源期刊
American Journal of Science
American Journal of Science 地学-地球科学综合
CiteScore
5.80
自引率
3.40%
发文量
17
审稿时长
>12 weeks
期刊介绍: The American Journal of Science (AJS), founded in 1818 by Benjamin Silliman, is the oldest scientific journal in the United States that has been published continuously. The Journal is devoted to geology and related sciences and publishes articles from around the world presenting results of major research from all earth sciences. Readers are primarily earth scientists in academia and government institutions.
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