Randolph P. Maier, Sarah A. S. Dare, William D. Smith
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From the base to the top of Zone B there is an overall progressive decrease in An<sub>pl</sub>, Fo<sub>ol</sub>, and Mg#<sub>cpx</sub>, and in Cr and Ni concentrations of magnetite, albeit with several reversals to more primitive compositions, including one near the base of Zone C. This indicates fractional crystallisation in an open magma chamber. The intrusion crystallised at moderate <i>f</i>O<sub>2</sub> (~FMQ 1.1 ± 0.3), resulting in the late crystallisation of V-rich magnetite from a relatively evolved magma. The parental magma was likely a high-Al basalt derived from a depleted mantle source, recording minimal crustal contamination, in contrast to coeval massif-type anorthosites that commonly contain orthopyroxene reflecting higher degrees of crustal contamination. As a result, V mineralisation in noritic anorthosites formed at higher <i>f</i>O<sub>2</sub>, with early crystallisation of relatively V-poor magnetite, whereas magnetite in troctolitic-olivine gabbroic intrusions crystallised later with higher V contents, due to lower <i>f</i>O<sub>2</sub>.</p>","PeriodicalId":18682,"journal":{"name":"Mineralium Deposita","volume":"13 1","pages":""},"PeriodicalIF":4.4000,"publicationDate":"2024-08-10","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Petrogenesis of the 1149 Ma Etoile Suite Mafic Intrusion, Quebec: implications for vanadium mineralisation in Proterozoic anorthosite-bearing terranes\",\"authors\":\"Randolph P. Maier, Sarah A. S. Dare, William D. 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From the base to the top of Zone B there is an overall progressive decrease in An<sub>pl</sub>, Fo<sub>ol</sub>, and Mg#<sub>cpx</sub>, and in Cr and Ni concentrations of magnetite, albeit with several reversals to more primitive compositions, including one near the base of Zone C. This indicates fractional crystallisation in an open magma chamber. The intrusion crystallised at moderate <i>f</i>O<sub>2</sub> (~FMQ 1.1 ± 0.3), resulting in the late crystallisation of V-rich magnetite from a relatively evolved magma. The parental magma was likely a high-Al basalt derived from a depleted mantle source, recording minimal crustal contamination, in contrast to coeval massif-type anorthosites that commonly contain orthopyroxene reflecting higher degrees of crustal contamination. 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引用次数: 0
摘要
铁-钛-钒(Fe-Ti-V)氧化物矿化通常与新生代块状正长岩有关,但对其形成所需的条件仍然知之甚少。位于加拿大魁北克省格勒维尔省的 Etoile 组岩浆岩侵入体(1149 ± 11 Ma)由层状岩浆岩侵入体组成,与附近的块状正长岩共生。该黑云母侵入体由透辉石和橄榄辉长岩积块组成,其中磁铁矿和钛铁矿在底部(A 区)和顶部(C 区)为层间积块,但在中部(B 区)为积块(30%模数)。在B区底部,钒矿化出现在1千米厚的富氧化物魏长岩地层中,其中富含V的钛磁铁矿(V2O5含量为1.85 wt%)和钛铁矿形成半大量氧化物层。从 B 区底部到顶部,磁铁矿中的安普尔、福尔、镁#cpx 以及铬和镍的浓度总体上逐渐降低,尽管有几次逆转到更原始的成分,包括 C 区底部附近的一次逆转。侵入体在中等 fO2(~FMQ 1.1 ± 0.3)条件下结晶,导致富 V 磁铁矿从相对进化的岩浆中晚期结晶。母岩浆很可能是来自贫化地幔源的高铝玄武岩,地壳污染极少,与之形成对比的是,共生地块型正长岩通常含有正辉石,反映了较高程度的地壳污染。因此,诺里特质正长岩中的钒矿化是在较高的 fO2 条件下形成的,早期结晶的是相对贫钒的磁铁矿,而特长辉石-橄榄辉石辉长岩侵入体中的磁铁矿则由于较低的 fO2 而较晚结晶,钒含量较高。
Petrogenesis of the 1149 Ma Etoile Suite Mafic Intrusion, Quebec: implications for vanadium mineralisation in Proterozoic anorthosite-bearing terranes
Iron-titanium-vanadium (Fe-Ti-V) oxide mineralisation is commonly associated with Proterozoic massif-type anorthosites, but the conditions required for their formation remain poorly understood. The Etoile Suite Mafic Intrusion (1149 ± 11 Ma), in the Grenville Province, Quebec (Canada), comprises a layered mafic intrusion that is coeval with nearby massif-type anorthosites. The mafic intrusion consists of troctolite and olivine gabbro cumulates, where magnetite and ilmenite are intercumulus at the base (Zone A) and top (Zone C) but cumulus (<30 modal %) in the centre (Zone B). Towards the base of Zone B, vanadium mineralisation occurs in a 1-km-thick oxide-rich wehrlite horizon, where V-rich titanomagnetite (<1.85 wt% V2O5) and ilmenite form semi-massive oxide layers. From the base to the top of Zone B there is an overall progressive decrease in Anpl, Fool, and Mg#cpx, and in Cr and Ni concentrations of magnetite, albeit with several reversals to more primitive compositions, including one near the base of Zone C. This indicates fractional crystallisation in an open magma chamber. The intrusion crystallised at moderate fO2 (~FMQ 1.1 ± 0.3), resulting in the late crystallisation of V-rich magnetite from a relatively evolved magma. The parental magma was likely a high-Al basalt derived from a depleted mantle source, recording minimal crustal contamination, in contrast to coeval massif-type anorthosites that commonly contain orthopyroxene reflecting higher degrees of crustal contamination. As a result, V mineralisation in noritic anorthosites formed at higher fO2, with early crystallisation of relatively V-poor magnetite, whereas magnetite in troctolitic-olivine gabbroic intrusions crystallised later with higher V contents, due to lower fO2.
期刊介绍:
The journal Mineralium Deposita introduces new observations, principles, and interpretations from the field of economic geology, including nonmetallic mineral deposits, experimental and applied geochemistry, with emphasis on mineral deposits. It offers short and comprehensive articles, review papers, brief original papers, scientific discussions and news, as well as reports on meetings of importance to mineral research. The emphasis is on high-quality content and form for all articles and on international coverage of subject matter.