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斜长岩体中Fe-Ti-P矿床的特征与成因
Characteristics and origin of Fe-Ti-P oxide deposits associated with Proterozoic massif-type anorthosite

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赵太平 1   陈伟 1   卢冰 2  
文摘 岩体型斜长岩为由90%以上斜长石组成的岩浆岩,具变压结晶的特点,仅形成于元古宙(2.1~0.9 Ga),常赋存有Fe-Ti-P矿床.Fe-Ti-P矿体既呈整合层状也呈透镜状和席状等不规则形式产出;矿石类型有块状和侵染状,前者矿石矿物含量>70%,后者矿石矿物含量为20%~70%;矿物组成上,不同矿床稍有差别:部分矿床的Fe-Ti氧化物以钛磁铁矿为主、钛铁矿次之,而其他矿床则以赤钛铁矿为主、磁铁矿次之.一些矿床磷灰石含量较高,出现仅由Fe-Ti氧化物和磷灰石组成的铁钛磷灰岩.研究表明,Fe-Ti-P矿床由富Fe、Ti的岩浆演化形成,其母岩浆是在深部岩浆房中大量结晶斜长石后的残余岩浆.部分学者认为不同矿石经正常的结晶分异作用并堆晶形成,但该机制很难解释呈不规则状产出的矿石;其他学者则认为不混熔作用对矿石的富集(尤其是脉状、席状的铁钛磷灰岩)有重要作用,但该机制缺乏岩相学和地球化学方面的证据.河北大庙Fe-Ti-P矿体呈透镜状、席状等不连续地分布于斜长岩中,矿体不发育明显岩浆分层,但仍出现不同矿石的相带.依据详细的岩相学、矿体中矿物含量和成分的变化规律以及全岩地球化学特征,我们判断大庙矿床中不同矿石为堆晶矿物和晶隙流体的混合产物,它们由铁闪长质岩浆经结晶分异和堆晶作用形成,与不混熔作用关系不大.矿体不规则状产出的特点可能与岩浆动力分异作用有关,并伴随有小范围的亚固相迁移.
其他语种文摘 Massif-type anorthosite is referred to igneous rocks consisting of over 90% plagioclase. The massif-type anorthosite bodies formed in the Proterozoic ranging from 2.1 Ga to 0.9 Ga, and commonly host abundant Fe-Ti-P oxide ores. Fe-Ti-P ore bodies occurred as conformable layers or irregular shapes as lenses, sheets or veins. The ores usually are of massive and disseminated types;the former type contains more than 70% ore minerals, and the latter one contains 20% to 70%. Ore minerals from some deposits are mainly titanomagnetite with minor ilmenite, whereas the others are mainly hemo-ilmenite with minor magnetite. Some of ores contain abundant amounts of apatite, which forms nelsonite containing only Fe-Ti oxides and apatite. These Fe-Ti-P ores have been commonly interpreted as forming from a Fe-Ti-rich magma which usually represents residual magma after extensive crystallization of plagioclase in a deep chamber. However, it is controversial on the ore-formation mechanisms. They were assumed to have crystallized from immiscible Fe-Ti-P liquids separated from silicate magma or represent cumulate rocks that directly crystallized from silicate magmas. The Damiao Fe-Ti-P oxide deposit is the unique deposit hosted in massif-type anorthosite in China. Its ore bodies commonly occur as irregular lenses, veins or pods with sharp contact with anorthosite, and consist of different zones of Fe-Ti-P ores upwards instead of obvious igneous layering. Based on detailed petrography, mineral proportions, mineral compositions and whole-rock geochemistry, we conclude that various ores at Damiao are mixtures of cumulus mineral and trapped liquids, and that they formed from a ferrodioritic magma by fractional crystallization and accumulation. The discordant occurrence of various ores may be related to the dynamic crystallization process and/or subsolidus re-mobilization.
来源 地学前缘 ,2010,17(2):106-117 【核心库】
关键词 岩体型斜长岩 ; 铁钛磷灰岩 ; 变压结晶 ; 不混熔作用 ; 大庙Fe-Ti-P矿床
地址

1. 中国科学院广州地球化学研究所, 广东, 广州, 510640  

2. 中国科学院南海海洋研究所, 广东, 广州, 510301

语种 中文
文献类型 研究性论文
ISSN 1005-2321
学科 地质学
基金 国家自然科学基金 ;  国家973计划
文献收藏号 CSCD:3856268

参考文献 共 75 共4页

1.  Ashwal L D. Anorthosites,Minerals and Rocks 21,1993:82-217 被引 1    
2.  Dymek R F. Petrogenesis of apatite-rich rocks (nelsonite and oxide-apatite gabbronorite) associated with massif anorthosites. Economic Geology,2001,96:797-815 被引 8    
3.  Emslie R F. Ages and petrogenetic significance of igneous mangeritic-charnockite suites associated with massif anorthosites,Grenville Province. Journal of Geology,1990,98(2):213-232 被引 3    
4.  Emslie R F. Granitoids of rapakivi granite-anorthosite and related associations. Precambrian Research,1991,51:173-192 被引 8    
5.  Emslie R F. Proterozoic anorthosite massif. The Deep Proterozoic Crust in the North Atlantic Provinces,1985:39-60 被引 2    
6.  Duchesne J C. Fe-Ti deposit in Rogaland anorthosite (South Norway):Geochemical characteristic and problems of interpretation. Mineralium Deposita,1999,34(2):182-198 被引 16    
7.  Emslie R F. Reconnaissance isotopic geochemistry of anorthosite-mangerite-charnockite-granite (AMCG) complexes,Grenville Province,Canada. Chemical Geology,1993,106(3/4):279-298 被引 4    
8.  Barnichon J D. The deformation of the Egersund-Ogna anorthosite massif,South Norway:Finite element modeling of diapirism. TECTONOPHYSICS,1999,303:109-130 被引 4    
9.  Druppel K. Subsolidus reaction textures in the anorthositic rocks of the southern part of the Kunene intrusive complex,NW Namibia. EUROPEAN JOURNAL OF MINERALOGY,2001,13:238-309 被引 4    
10.  Krogh T E. The significance of inherited zircons on the age and origin of igneous rocks:An investigation of the ages of the Labrador adamellites. Carnegie Inst Wash Year Book,1973,72:610-613 被引 1    
11.  Kay S M. The origin of antiperthites in anorthosites. AMERICAN MINERALOGIST,1977,62:905-912 被引 1    
12.  Longhi J. Pressure effects,kinetics,and rheology of anorthositic and related magmas. AMERICAN MINERALOGIST,1993,78:1016-1030 被引 9    
13.  Scoates J S. The plagioclase-magma density paradox re-examinated and the crystallization of Proterozoic anorthosites:A reply. Journal of Petrology,2000,41(5):627-649 被引 4    
14.  Halama R. Geochemical and isotopic zoning patterns of plagioclase megacrysts in gabbroic dykes from the Gardar Province,South Greenland:Implications for crystallization processes in anorthositic magmas. Contributions to Mineralogy and Petrology,2002,144(1):109-127 被引 4    
15.  Weihed P. Precambrian geodynamics and ore formation:The Fennoscandian Shield. Ore Geological Reviews,2005,27:273-322 被引 10    
16.  Prasad S. The origin of orthopyroxene/biotite + plagioclase coronas from the Bolangir anorthosite complex (India),and implications for reconstructing P-T paths. AMERICAN MINERALOGIST,2005,90:291-303 被引 2    
17.  Berg J H. Dry granulite mineral assemblages in the contact aureole of the Nain complex,Labrador. Contributions to Mineralogy and Petrology,1977,64(1):32-52 被引 1    
18.  Mukherjee D. Crystallization history of a massif anorthosite in the eastern India shield margin based on borehole lithology. Journal of Asian Earth Sciences,2005,25(1):77-94 被引 1    
19.  Longhi J. Some phase equilibrium constraints on the origin of Proterozoic massif anorthosites and related rocks. Journal of Petrology,1999,40(2):339-362 被引 5    
20.  Owens B E. Fe-Ti-P rocks and massif anorthosite:Problems of interpretation illustrated from the Labrielle and St-Urbain plutons,Quebec. Canadian Mineralogist,1992,30:163-190 被引 5    
引证文献 9

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2 李立兴 冀北哈叭沁超镁铁岩锆石年代学及Hf同位素:对区域岩浆活动期次及源区的指示意义 岩石学报,2014,30(5):1472-1484
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