| China Geological Survey Chinese Academy of Geological Sciences | Host |
| 科学出版社 | Publish |
| Citation: |
WU Datian, ZHOU Yongheng, ZHAO Yuandong, ZHOU Jiulong, XU Fengming, SHAO Jianbo. 2017. A metallogenic model for transmagmatic fluid of vanadium-titanium magnetite deposit:Evidence from Zhaka intrusion of Madagascar[J]. Geology in China, 44(4): 737-754. doi: 10.12029/gc20170407
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A metallogenic model for transmagmatic fluid of vanadium-titanium magnetite deposit:Evidence from Zhaka intrusion of Madagascar
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Abstract
At present, there are many different interpretations for the genesis of the vanadium-titanium magnetite deposits in the mafic-ultramafic complex, which has to a certain extent caused confusion to the resource exploration of these deposits. Therefore, it is very important to discuss the mechanism of large-scale aggregation of ore-forming minerals in mafic-ultramafic intrusion. The Zhaka rock mass in the Alaotra Lake area of the northeast of Madagascar is a typical mafic layered intrusion with a very large vanadium-titanium magnetite deposit. The Shenyang center of CGS has found the vanadic titianomagnetite deposit with 800 million tons of iron ore (including 333), associated with 60 million tons of Ti and 2.3 million tons of V. These results provide a good condition for clarifying the genesis of the vanadium and titanium magnetite deposit. This paper reports the geology, orebody geology, petrography, mineralogy and petrological geochemical characteristics of the Zhaka rock mass. The main conclusions are as follows:(1) The rhythmic layering is a typical mafic layered rock mass, whereas the pegmatite can form an independent invasive unit; (2) orebodies mainly occur in the layered rock mass, and can be divided into three different types, i.e., integrated type, unconformity type and pegmatite type; (3) gabbro has the crystallization sequence of olivine → plagioclase → clinopyroxene or olivine → plagioclase+clinopyroxene, suggesting that the Zacha rock mass is a shallow stratigraphic rock mass, with the emplacement depth of ~ 3 km; (4) ore mineral and silicate minerals are thermodynamically unbalanced and shared with water-dark mineral minerals, suggesting that mineralization occurred in the rich volatiles in the late magma evolution; (5) The REE quadruple effect of dense massive iron ore also indicates that the mineralization process was accompanied by fluid activities of F, Cl and other components. It is held that the formation of vanadium-titanium magnetite deposit in the Zacha rock mass was related to the process of the magmatic fluid.
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References
Duchesne J C. 1999, Fe-Ti deposit in Rogaland anorthosites (South Norway):geochemical characteristics and problems of interpretation[J]. Mineralium Deposita, 34:182-198. doi: 10.1007/s001260050195 Dulski. 1994. Interferenes of oxide, hydroxide and chloride analyte species in the determinatoin of rare earth elements in geological samples by inductively coupled plasma-mass spectrometry.[J]. Fresenius Journal of Analytical Chemistry, 350(4), 194-203. Eales H V, Cawthorn R G. 1996, The Bushveld Complex[J]. Developments in Petrology, 15:181-229. doi: 10.1016/S0167-2894(96)80008-X Franzini P, Newman R, Eisele F, Engelmann R, Filthuth H, Föhlisch F, Hepp V, Leitner E, Linke V, Presser W, Schneider H, Stevenson M L, Zech G, Barash N, Day T B, lasser R G, Kehoe B, Knopp B, Sechi-Zorn B, Snow G A, Cole J A, Lee-Franzini J, Loveless R, McFadyen J. 1972, Decay Σ+/--->Λe+/-ν[J]. Physical Review D Particles & Fields, 6(6):2417-2423. Higgins M W. 1973. Petrology of Newberry Volcano, Central Oregon[J]. Geological Society of America Bulletin, 84(2):455-487. doi: 10.1130/0016-7606(1973)84<455:PONVCO>2.0.CO;2 Irber. 1999. The lanthanide tetrad effect and its correlation with K/Rb, Eu/Eu*, Sr/Eu, Y/Ho, and Zr/Hf of evolving peraluminous granite suites[J]. Geochimica et Cosmochimica Acta, 63:489-508. doi: 10.1016/S0016-7037(99)00027-7 Irvine A R, Bresky R, Crowder B M, Forster R K, Hunter D M, Kulvin S M. 1971. Macular edema after cataract extraction[J]. Annals of Ophthalmology, 3(11):1234-1235. Kolker A. 1982. Mineralogy and geochemistry of Fe-Ti oxide and apatite (Nelsonite) deposits and evaluation of the liquid immiscibility hypothesis[J]. Economic Geology, 77:1146-1158. doi: 10.2113/gsecongeo.77.5.1146 Le Maitre R W. 1976. The chemical variability of some common igneous rocks[J]. 17:589-598. https://academic.oup.com/petrology/article-abstract/17/4/589/1570269/The-Chemical-Variability-of-some-Common-Igneous Lu Jiren, Zhang Chengxin, Zhang Guangdi, Gu Guangxian, Liu yushu, Huang Yuneng. 1988, Genetic type of V-Ti magnetite deposits in Panzhihua-Xichang area[J]. Mineral Deposits, (1):3-15(in Chinese with English abstract). Luo Zhaohua, Mo Xuanxue, Lu Xinxiang, Chen Bihe, Ke Shan, Hou Zengqian, Wan Jiang. 2007. Metallogeny by trans-magmatic fluids-theoretical analysis and field evidence[J]. Earth Science Frontiers, 14(3):165-183 (in Chinese with English abstract). doi: 10.1016/S1872-5791(07)60025-6 Luo Zhaohua, Lu Xinxiang, Chen Bihe, Huang Fan, Yang Zongfeng, Wang Bingzhang. 2008a, The constraints from deep processes on the porphyry metallogenesis in collisional orogens[J]. Acta Petrologica Sinica, 24:447-456. (in Chinese with English abstract). Luo Zhaohua, Lu Xinxiang, Guo Shaofeng, Sun Jing, Chen Bihe, Huang Fan, Yang Zongfeng. 2008b. Metallogenic systems on the transmagmatic fluid theory[J]. Acta Petrologica Sinica, 24:2669-2678(in Chinese with English abstract). Luo Zhaohua, Lu Xinxiang, Chen Bihe, Li Mingli, Liang Tao, Huang Fan, Yang Zongfeng. 2009. Introduction to Mineralization by transmagmagmatic fluid[M]. Beijing:Geological Publishing House, 177(in Chinese with English abstract). Luo Zhaohua, Lu Xinxiang, Xu Junyu, Liu Cui, Li Dedong. 2010. Petrographic indicators of the ore-bearing intrusions[J]. Acta Petrologica Sinica, 26:2247-2254 (in Chinese with English abstract). Luo Zhaohua, Zhou Jiulong, Hei Huixin, Liu Cui, Su Shangguo. 2014, Post-supereruption(-superintrusion) metallogenesis[J]. Acta Petrologica Sinica, 30(11):3131-3154. (in Chinese with English abstract). Marsh Bruce D. 2013. On some fundamentals of igneous petrology[J]. Contributions to Mineralogy & Petrology, 166(3):665-690. Middlemost Eric A K.1994. Naming materials in the magma/igneous rock system[J]. Earth-Science Reviews, 37(3-4):215-224. doi: 10.1016/0012-8252(94)90029-9 Namur Olivier, Bernard Charlier, Michael J. Toplis, Michael D. Higgins, Jean-Paul Liégeois, Jacqueline Vander Auwera. 2010. Crystallization sequence and magma chamber processes in the ferrobasaltic sept Iles layered intrusion, Canada[J]. Journal of Petrology, 51(6):1203-1236. doi: 10.1093/petrology/egq016 Nex P A M, Cawthorn R G, Kinnaird J A. 2002. Geochemical effects of magma addition:Compositional reversals and decoupling of trends in the Main Zone of the western Bushveld Complex[J]. Mineralogical Magazine, 66(6):833-856. doi: 10.1180/0026461026660063 Pang Kwannang, Zhou MeiFu, Lindsley Donald, Zhao Donggao, Malpas John. 2008. Origin of Fe-Ti oxides ores in mafic intrusions:Evidence from the Panzhihua intrusion, SW China[J]. Journal of Petrology, 49:295-313. Pang Kwan Nang. 2008. Origin of the Permian Panzhihua layered gabbroic intrusion and the hosted Fe-Ti-V oxide deposit, Sichuan Province, SW China[D]. The University of Hong Kong (Pokfulam, Hong Kong). https://core.ac.uk/display/37887962 Pang KwanNang, Li Chusi, Zhou MeiFu, Ripley Edward M. 2009. Mineral compositional constraints on petrogenesis and oxide ore genesis of the late Permian Panzhihua layered gabbroic intrusion, SW China[J]. Lithos, 110(1):199-214. Philpotts A R. 1967. Origin of certain iron-titanium oxide and apatite rocks[J]. Economic Geology, 62:303-315 doi: 10.2113/gsecongeo.62.3.303 Reynolds I M. 1985. The nature and origin of titaniferous magnetiterich layers in the upper zone of the Bushveld Complex:A review and synthesis[J]. Economic Geology, 80(4):1089-1108. doi: 10.2113/gsecongeo.80.4.1089 Shenyang Center of CGS. 2008. Geochemical Survey Report of Ambatondrazaka Area in Madagascar[R] (in Chinese). Shenyang center of CGS. 2011. Achievement Report of Researches on the Metallogenic Rules and Prospecting of Greenstone Belt in Northern Madagascar[R]. (in Chinese). Sun Jing, Luo Zhaohua, Zhang Changhou, Guo Shaofeng, Li Jian, Du Weihe, Wang Dezhong, Pan Yin, Zhou Jiulong, Li Xudong. 2009, Is the Damiao ore field a crisis mine or a potential giant iron base?[J]. Geology in China, 36:255-267(in Chinese with English abstract). Vantongeren J A, Mathez E A. 2012, Large-scale liquid immiscibility at the top of the Bushveld Complex[J]. Geology, 40(6):03. Wang Chenwen. 2009. Characteristics and tectonic evolution of maficultramafic rocks of Ambatondrazaka area in Madagascar[D]. University of Jilin(in Chinese with English abstract). Wang Yan. 2008. Origin of the Permian Baimazhai magmatic Ni-Cu-(PGE) sulfide deposits, Yunnan:Implications for the relationship of crustal contamination and mineralization[J]. Bulletin of Mineralogy Petrology & Geochemistry, 27(4):332-343. Yang Zongfeng, Luo Zhaohua, Lu Xinxiang, Huang Fan, Chen Bihe. 2011. Geological characteristics and prospecting potential of the Shanggusi Porphyry Molybdenum Deposit in the East Qinling[J]. Geology and Exploration, 47:1077-1090(in Chinese with English abstract). Ye Donghu. 1986. Discussion on several problems of diagenesis and mineralization mechanism of plagioclase, Mineral source of Norite-vanadium-titanium magnetite apatite deposit-Monzonite from Chengde Damiao plagioclase area[C]//National Mafic -Ultramafic Rocks and Related Mineral Ophiolite Seminar(in Chinese) Yu Chongwen. 2006. Mineral Deposits in Chaotic Edge Fractal Growth[M]. Hefei:Anhui Education Press, 1-705(in Chinese with English abstract). Zhou Jiulong, Shao Shuai, Luo Zhaohua, Shao Jianbo, Wu Datian, Rasoamalala V. 2015, Geochronology and geochemistry of Cryogenian gabbros from the Ambatondrazaka area, east-central Madagascar:Implications for Madagascar-India correlation and Rodinia paleogeography[J]. Precambrian Research, 256(8):256-270. Zhou Jiulong, Shao Shuai, Wu Datian, Luo Zhaohua, Shao Jianbo, Wang Kuiliang, Rasoamalala V. 2014. Response to the Neoproterozoic mantle plume(s) on the western margin of Rodinia:Preliminary evidence from the Malagasy Shield[J].Acta Petrologica Sinica, 30(11):3366-3374 (in Chinese with English abstract). Zhai Yusheng. 1965. The meaning of endogenous mineralization with the disconcordant face[J]. Geological Review, 23(5):359-364. (in Chinese). Zhao Taiping, Chen Wei, Zhou Meifu. 2009. Geochemical and Nd-Hf isotopic constraints on the origin of the~1.74 Ga Damiao anorthosite complex, North China Craton[J]. Lithos, 113:673-690. doi: 10.1016/j.lithos.2009.07.002 Zhou Meifu, Robinson Paul T, Lesher C Michael, Keays Reid R, Zhang Chengjiang, Malpas John. 2005. Geochemistry, Petrogenesis and Metallogenesis of the Panzhihua Gabbroic Layered Intrusion and Associated Fe-Ti-V Oxide Deposits, Sichuan Province, SW China[J]. Journal of Petrology, 46(11):2253-2280. doi: 10.1093/petrology/egi054 卢记仁, 张承信, 张光弟, 顾光先, 刘玉书, 黄与能. 1988.攀西地区钒钛磁铁矿矿床的成因类型[J].矿床地质, (1):3-15. 罗照华, 莫宣学, 卢欣祥, 陈必河, 柯珊, 侯增谦, 江万. 2007.透岩浆流体成矿作用-理论分析与野外证据[J].地学前缘, 14:165-183. doi: 10.3321/j.issn:1005-2321.2007.03.015 罗照华, 卢欣祥, 陈必河, 黄凡, 杨宗锋, 王秉璋. 2008a.碰撞造山带斑岩型矿床的深部约束机制[J].岩石学报, 24:447-456. 罗照华, 卢欣祥, 郭少丰, 孙静, 陈必河, 黄凡, 杨宗锋. 2008b.透岩浆流体成矿体系[J].岩石学报, 24:2669-2678. 罗照华, 卢欣祥, 陈必河, 李明立, 梁涛, 黄凡, 杨宗峰. 2009.透岩浆流体成矿作用导论[M].北京:地质出版社, 177. 罗照华, 卢欣祥, 许俊玉, 刘翠, 李德东. 2010.成矿侵入体的岩石学标志[J].岩石学报, 26:2247-2254. 罗照华, 周久龙, 黑慧欣, 刘翠, 苏尚国. 2014.超级喷发(超级侵入)后成矿作用[J].岩石学报, 30(11):3131-3154. 孙静, 罗照华, 张长厚, 郭少丰, 李健, 杜维河, 王德忠, 潘颖, 周久龙, 李旭东. 2009, 大庙铁矿田——危机矿山还是潜在的超大型铁矿基地[J].中国地质, 36:255-267. doi: 10.3969/j.issn.1000-3657.2009.02.001 王成文. 2009. 马达加斯加阿巴通德拉扎卡地区基性-超基性特征及其构造演化[D]. 吉林大学. 於崇文. 2006, 矿床在混沌边缘分形生长[M].合肥:安徽教育出版社, 1-705. 杨宗锋, 罗照华, 卢欣祥, 黄凡, 陈必河. 2011.东秦岭尚古寺斑岩钼矿地质特征及成矿潜力分析[J].地质与勘探, 47:1077-1090. 叶东虎. 1986. 关于承德大庙斜长岩区斜长岩、矿源苏长岩-钒钛磁铁磷灰石矿床-二长岩成岩成矿机制几个问题的探讨[C]//全国基性岩-超基性岩蛇绿岩及有关矿产讨论会. 中国地质调查局沈阳地质调查中心. 2008. 马达加斯加阿巴通德拉扎卡地区1: 50000水系沉积物测量成果报告[R]. 中国地质调查局沈阳地质调查中心. 2011. 马达加斯加北部地区绿岩带成矿规律与找矿方法研究成果报告[R]. 周久龙, 邵帅, 吴大天, 罗照华, 邵俭波, 王奎良, 赵院冬, Rasoamalala V. 2014.新元古代地幔柱事件在Rodinia超大陆西缘的响应:来自马达加斯加的初步证据[J].岩石学报, 30(11):3366-3374. 翟裕生. 1965.不整合面对内生成矿作用的意义[J].地质论评, 23(5):359-364. -
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WU Datian, ZHOU Yongheng, ZHAO Yuandong, ZHOU Jiulong, XU Fengming, SHAO Jianbo. 2017. A metallogenic model for transmagmatic fluid of vanadium-titanium magnetite deposit:Evidence from Zhaka intrusion of Madagascar[J]. Geology in China, 44(4): 737-754. doi: 10.12029/gc20170407
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Figure 1.
Geological map of the Zhaka mafic intrusion
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Figure 2.
Characteristics of the conformable orebody
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Figure 3.
Characteristics of the unconformable orebody
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Figure 4.
Pegmatite and its weathering products
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Figure 5.
TAS (a) and AFM (b) diagram of gabbro in Zhaka area
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Figure 6.
Chondrite-normalized REE patterns (a) and primitive mantle-normalized multi-element patterns (b) of gabbro and iron ores in Zhaka area
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Figure 7.
The dissolution and alteration of ores and ore-bearing rocks
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Figure 8.
H2O-bearing silicate minerals precipitate on the surface of the dissolved mineral
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Figure 9.
Geochemical characteristics of gabbro and iron ores in Zhaka area
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Figure 10.
The metallogenic model of the Zhaka vanadic titianomagnetite deposit formed by transmagmatic fluid