Origin of nelsonite and Fe–Ti oxides ore of the Damiao anorthosite complex, NE China: Evidence from trace element geochemistry of apatite, plagioclase, magnetite and ilmenite | |
Hai-Long He; Song-Yue Yu; Xie-Yan Song; Zhi-Song Du; Zhi-Hui Dai; Ting Zhou; Wei Xie | |
2016 | |
发表期刊 | Ore Geology Reviews |
卷号 | 79页码:367-381 |
摘要 | Nelsonite and Fe–Ti oxides ore are common in Proterozoic massif-type anorthositesand layered intrusions. Their geneses have long been controversial, with existing hypotheses including liquid immiscibility between Si-rich and Fe–Ti–P-rich melts and gravitational fractionation among apatite, magnetite, ilmenite and silicates. In this paper, we report detailed field geology and mineral geochemical studies of the nelsonite and Fe–Ti oxides ore from the Damiao anorthosite complex, NE China. Geological observations indicate that the nelsonite and Fe–Ti oxides ore occur as irregularly inclined stratiform-like or lensoid or veins, and are in sharp contact with the anorthosite and gabbronorite. The widespread veins and lenses structure of the Damiao nelsonite and Fe–Ti oxides ore in the anorthosite indicates their immiscibility-derived origin. The apatite in the nelsonite and gabbronorite shows evolution trends different from that in the gabbronorite in the diagrams of Sr versus REEs and Eu/Eu*, suggesting that petrogenesis of the nelsonite and gabbronorite is different from the gabbronorite. Compared with the gabbronorite, the nelsonite and Fe–Ti oxides ore have magnetite high in Cr, plagioclase high in Sr and low in An, and apatite high in Sr, low in REEs with negative Eu anomaly. The evidence permits us to propose that the Damiao Fe–Ti oxides ore/nelsonite and gabbronorite were derived from different parental magmas. The gabbronorite was formed by solidification of the interstitial ferrodioritic magma in the anorthosite, which was the residual magma after extensive plagioclase and pyroxenecrystallization and was carried upward by the plagioclase crystal mesh. In contrast, the Fe–Ti oxides ore and nelsonites and mangerite were produced by crystallization of the Fe–Ti–P-rich and SiO2-rich magmas, respectively, due to the liquid immiscibility that occurred when the highly evolved ferrodioritic magma mixed with newly replenished magmas. The variation from Fe–Ti oxides ore to nelsonite and gabbro-nelsonite upwards (as apatite content increases with height) in the steeply inclined Fe–Ti oxides orebodies suggest that gravity fractionation may have played important roles during the crystallization of the Fe–Ti–P-rich magma. |
关键词 | Nelsonite fe–ti Oxides Ore damiao Anorthosite Complex liquid Immiscibility magma Chamber Processes north China Craton |
收录类别 | SCI |
语种 | 英语 |
文献类型 | 期刊论文 |
条目标识符 | http://ir.gyig.ac.cn/handle/42920512-1/9588 |
专题 | 矿床地球化学国家重点实验室 |
作者单位 | 1.State Key Laboratory of Ore Deposit Geochemistry, Institute of Geochemistry, Chinese Academy of Sciences, Guiyang 550002, PR China 2.University of Chinese Academy of Sciences, Beijing 100049, PR China 3.The 4th Geological Team of Hebei Geology and Mining Bureau, Chengde 067000, PR China 4.State Key Laboratory of Isotope Geochemistry, Guangzhou Institute of Geochemistry, Chinese Academy of Sciences, Guangzhou 510640, PR China |
推荐引用方式 GB/T 7714 | Hai-Long He;Song-Yue Yu;Xie-Yan Song;Zhi-Song Du;Zhi-Hui Dai;Ting Zhou;Wei Xie. Origin of nelsonite and Fe–Ti oxides ore of the Damiao anorthosite complex, NE China: Evidence from trace element geochemistry of apatite, plagioclase, magnetite and ilmenite[J]. Ore Geology Reviews,2016,79:367-381. |
APA | Hai-Long He;Song-Yue Yu;Xie-Yan Song;Zhi-Song Du;Zhi-Hui Dai;Ting Zhou;Wei Xie.(2016).Origin of nelsonite and Fe–Ti oxides ore of the Damiao anorthosite complex, NE China: Evidence from trace element geochemistry of apatite, plagioclase, magnetite and ilmenite.Ore Geology Reviews,79,367-381. |
MLA | Hai-Long He;Song-Yue Yu;Xie-Yan Song;Zhi-Song Du;Zhi-Hui Dai;Ting Zhou;Wei Xie."Origin of nelsonite and Fe–Ti oxides ore of the Damiao anorthosite complex, NE China: Evidence from trace element geochemistry of apatite, plagioclase, magnetite and ilmenite".Ore Geology Reviews 79(2016):367-381. |
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