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攀枝花岩体钛铁矿成分特征及其成因意义
Composition and genetic significance of the ilmenite of the Panzhihua intrusion

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郑文勤 1   邓宇峰 2   宋谢炎 1 *   陈列锰 1   于宋月 1   周国富 1   刘世荣 1   向建新 3  
文摘 峨眉大火成岩省是全球最大的钒钛磁铁矿床聚集区,攀枝花岩体是其中的典型代表。根据岩性特点,攀枝花岩体主体可划分为上、中、下三个岩相带,其中中部岩相带和下部岩相带岩性旋回非常发育,每个旋回从下向上铁钛氧化物和暗色硅酸盐矿物逐渐减少,块状铁钛氧化物矿石或磁铁矿辉长岩都出现在每个旋回的底部和下部。然而,尽管钛铁矿固相线以下固溶体出溶远弱于磁铁矿,从而能更好地保留成因信息,但其成分变化的成因意义没有受到足够重视。本次研究发现作为主要金属氧化物之一的钛铁矿的成分不仅在不同岩性中有明显差异,同时,中、下部岩相带的各岩性旋回中钛铁矿成分也具有周期性变化。例如,块状矿石中钛铁矿具有最高的MgO 和TiO_2及最低的FeO、Fe_2O_3和MnO,而辉长岩中钛铁矿则具有相反的成分特征。同时,钛铁矿的MgO 含量与磁铁矿的MgO 含量及橄榄石的Fo 牌号具有显著的正相关关系。这种规律性变化说明每个旋回可以代表一次比较明显的岩浆补充,每次新岩浆补充后,钛铁矿和磁铁矿及橄榄石都是结晶较早的矿物。与 Skaergaard 岩体相比,攀枝花岩体钛铁矿的MgO 含量较高,表明攀枝花岩体分离结晶过程中铁钛氧化物结晶较早; 与挪威Tellnes 斜长岩套铁钛矿床中的钛铁矿相比,攀枝花岩体的钛铁矿不仅具有较高的MgO 和FeO,还具有极高的TiO_2和MnO,但Fe_2O_3却很低,说明地幔柱背景下形成的钛铁矿与斜长岩套中钛铁矿的成分有显著的区别。
其他语种文摘 The Panzhihua intrusion is the layered intrusion hosting Fe-Ti oxide deposit mined earliest in the Emeishan large igneous province,which is the largest ore-concentrated area of V-Ti magnetite deposits over the world. Therefore,the petrogenesis of the Panzhihua intrusion is significant for understanding of the formation of the other ore-bearing intrusions in the area. The Panzhihua intrusion can be divided into Upper,Middle and Lower zones. The lithologic cycles,shown by periodically decreases of the Fe-Ti oxides and dark silicate minerals from the bottom upwards,are well developed in the Middle and Lower zones,in which massive Fe-Ti oxide ore and magnetite gabbro occur in the bottom and lower part of each cyclic unit. However,although ilmenite can remain its original compositional feature due to weak sub-solidus exsolution relative to magnetite,the significances of the compositional variation of the ilmenite have not been well addressed yet. We find that the ilmenite compositions are distinguishable in different types of rocks, and periodically variable in each cyclic unit of the Middle and Lower zones. For example,the ilmenite of the massive ores is the highest in MgO and TiO_2 and the lowest in FeO,Fe_2O_3 and MnO,whereas the ilmenite of the gabbro has opposite compositional characteristics. MgO content of the ilmenite and magnetite has a significant positive correlation with forsterite content (Fo) of olivine. Such regular variations in each cyclic unit represent obvious magma replenishment and the ilmenite and magnetite as well as olivine is the minerals crystallized early in each pulse of magma. This study also reveals that,MgO contents in the Panzhihua ilmenite are higher than those of the Skaergaard intrusion,indicating that the Fe-Ti oxides in the Panzhihua intrusion crystallize earlier during magma evolution. Compared with ilmenite of the Tellnes Fe-Ti oxide deposit in Norway,the ilmenite in the Panzhihua intrusion is high in MgO and FeO,very high in TiO_2 and MnO,but very low in Fe_2O_3,suggesting that the ilmenite formed in mantle plume environment is significantly different from that in the anorthosite massif.
来源 岩石学报 ,2014,30(5):1432-1442 【核心库】
关键词 钛铁矿 ; 电子探针 ; 分离结晶 ; 攀枝花岩体
地址

1. 中国科学院地球化学研究所, 矿床地球化学国家重点实验室, 贵阳, 550002  

2. 合肥工业大学资源与环境工程学院, 合肥, 230009  

3. 攀钢集团矿业有限公司, 攀枝花, 617000

语种 中文
文献类型 研究性论文
ISSN 1000-0569
学科 地质学
基金 国家973计划 ;  中科院国家外专局创新团队国际合作伙伴计划 ;  国家自然科学基金项目 ;  矿床地球化学国家重点实验“十二五”项目群
文献收藏号 CSCD:5166905

参考文献 共 45 共3页

1.  Cawthorn R G. Origin of anorthosite and magnetitite layers in the Bushveld Complex, constrained by major element compositions of plagioclase. Journal of Petrology,2009,50(9):1607-1637 被引 8    
2.  Charlier B. Magma chamber processes in the Tellnes ilmenite deposit (Rogaland Anorthosite Province,SW Norway) and the formation of Fe-Ti ores in massiftype anorthosites. Chemical Geology,2006,234(3/4):264-290 被引 16    
3.  Charlier B. Ilmenite composition in the Tellnes Fe-Ti deposit, SW Norway: Fractional crystallization, postcumulus evolution and ilmenite-zircon relation. Contribution to Mineralogy and Petrology,2007,154(2):119-134 被引 3    
4.  Chung S L. Plume-lithosphere interaction in generation of the Emeishan flood basalts at the Permian-Triassic boundary. Geology,1995,23(10):889-892 被引 232    
5.  Hanski E. Origin of the Permian-Triassic komatiites, northwestern Vietnam. Contribution to Mineralogy and Petrology,2004,147(4):453-469 被引 39    
6.  He B. Sedimentary evidence for a rapid,kilometer-scale crustal doming prior to the eruption of the Emeishan flood basalts. Earth and Planetary Science Letters,2003,213(3/4):391-405 被引 192    
7.  Hou T. A new metallogenic model of the Panzhihua giant V-Ti iron oxide deposit in the Emeishan large province: Based on high-Mg olivine-bearing wehrlites and new field evidence. International Geology Review,2012,54(15):1721-1745 被引 16    
8.  Hou T. The role recycled oceanic crust in magmatism and metallogenesis: Os-Sr-Nd isotpes,U-Pb geochronology and geochemistry of picritic dykes in the Panzhihua giant Fe-Ti oxide deposit,central Emeishan large igneous province. Contributions to Mineralogy and Petrology,2013,165(4):805-822 被引 29    
9.  Hunter R H. The differentiation of the Skaergaard intrusion. Contribution to Mineralogy and Petrology,1987,95(4):451-461 被引 14    
10.  Jang Y D. The differentiation trend of the Skaergaard Intrusion and the timing of magnetite crystallization: Iron enrichment revisited. Earth and Planetary Science Letters,2001,189(3/4):189-196 被引 16    
11.  Jang Y D. Major and trace element variation in ilmenite in the Skaergaard intrusion: Petrologic implications. Chemical Geology,2003,193(1/2):109-125 被引 2    
12.  Klemm D D. The geochemistry of titanomagnetite in magnetite layers and their host rocks of the Eastern Bushveld Complex. Economic Geology,1985,80(4):1075-1088 被引 2    
13.  Namur O. Crystallization sequence and magma chamber processes in the ferrobasaltic septiles layered intrusion, Canada. Journal of Petrology,2010,51(6):1203-1236 被引 17    
14.  Pang K N. Origin of Fe-Ti Oxide ores in mafic intrusions: Evidence from the Panzhihua Intrusion,SW China. Journal of Petrology,2008,49(2):295-313 被引 45    
15.  Pang K N. Mineral compositional constraints on petrogenesis and oxide ore genesis of the Late Permian Panzhihua layered gabbroic intrusion,SW China. Lithos,2009,110(1/4):199-214 被引 28    
16.  Reynolds I M. The nature and origin of titaniferous magnetiterich layers in the Upper Zone of the Bushveld complex: A review and synthesis. Economic Geology,1985,80(4):1089-1108 被引 14    
17.  Song X Y. Geochemical constraints on the mantle source of the Upper Permian Emeishan continental flood basalts, southwestern China. International Geology Review,2001,43(3):213-225 被引 53    
18.  Song X Y. Late Permian rifting of the South China Craton caused by the Emeishan mantle plume?. Journal of the Geological Society London,2004,161(5):773-781 被引 62    
19.  Song X Y. Platinumgroup element geochemistry of the continental flood basalts in the central Emeisihan large igneous province,SW China. Chemical Geology,2009,262(3/4):246-261 被引 28    
20.  Song X Y. Formation of thick stratiform Fe-Ti oxide layers in layered intrusion and frequent replenishment of fractionated mafic magma: Evidence from the Panzhihua intrusion,SW China. Geochemistry Geophysics Geosystems,2013,14(3):712-732 被引 38    
引证文献 6

1 佘宇伟 磁铁矿和钛铁矿成分对四川太和富磷灰石钒钛磁铁矿床成因的约束 岩石学报,2014,30(5):1443-1456
被引 3

2 陈赟 古地幔柱作用“遗迹”的深部地球物理探测———以峨眉山大火成岩省为例 矿物岩石地球化学通报,2017,36(3):394-403
被引 14

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