The mineralization potential of the I-type granites from Misajé pluton (NW-Cameroon): AMS and geochemical constraints

IF 2 4区地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY Solid Earth Sciences Pub Date : 2021-09-15 DOI:10.1016/j.sesci.2021.06.002

E.M. Fozing , M. Kwékam , S. Tetsopgang , T. Njanko , B. Chako-Tchamabé , J. Tcheumenak Kouémo , M. Gountié Dedzo , E.A. Asobo Nkengmatia , C. Njiki Chatué

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引用次数: 3

Abstract

The I-type Pan-African Misajé granites, situated in the Western domain of the Central African Fold Belt are among the late-to post tectonic granites that intruded the ante-Pan-African country rocks. In this study, magnetic susceptibility and geochemistry data are integrated to evaluate the productive and non-productive metal potential of these I-type plutonic granites, which comprise Leucocratic granite, Biotite granite, Biotite-hornblende granite, and granodiorites. The magnetic susceptibility of the representative rock samples of the Misajé pluton ranges from 0.001 × 10⁻³ SI to 33.2 × 10⁻³ SI. These values indicate the coexistence of both magnetite and ilmenite-series. The magnetite-series (>3 × 10⁻³ SI; oxidized type) constitute about 32 vol.% while the ilmenite-series (<3 × 10⁻³ SI; reduced type) represent 68 vol.%. These magnetite-series vary from small MD (Ms ≤ 1) to coarse PSD (Ms > 1) grains sizes. The Misajé plutonics are high potentially productive in Zn, Th, ilmenite, and magnetite and low productive in Sn, W and Cu though their extension remains limited, probably due to the remobilization of the ancient Paleoproterozoic crust that would have contributed to the dispersing of pre-Pan-African metal deposits.

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喀麦隆西北部misaj岩体i型花岗岩成矿潜力:AMS与地球化学约束

i型泛非misaj花岗岩位于中非褶皱带西域，是侵入前泛非岩体的晚-后构造花岗岩之一。本研究综合磁化率和地球化学资料，评价了这些i型深闪花岗岩的成矿和非成矿潜力，包括白斑花岗岩、黑云母花岗岩、黑云母角闪石花岗岩和花岗闪长岩。misaj岩体代表性岩石样品磁化率范围为0.001 × 10 - 3 SI ~ 33.2 × 10 - 3 SI。这些数值表明磁铁矿系列和钛铁矿系列同时存在。磁铁矿系列(>3 × 10−3 SI;氧化型)约占32 vol.%，而钛铁矿系列(<3 × 10 - 3 SI;减少型)代表68体积%。这些磁铁矿系列从小的MD (Ms≤1)到粗的PSD (Ms >1)粒度。misaj岩体的锌、钍、钛铁矿和磁铁矿的潜在产量较高，而锡、钨和铜的潜在产量较低，但它们的伸展仍然有限，这可能是由于古古元古代地壳的再活动导致了前泛非金属矿床的分散。

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