Genesis of the Enkafela Mn deposit: a record of submarine hydrothermal activity in the Afar Depression, Northeast Ethiopia

Pub Date : 2022-01-02 DOI:10.1080/25726838.2022.2035640

Abate A. Melaku, Worash Getaneh, Balemual Atnafu

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Abstract

ABSTRACT The genesis of the Enkafela Mn deposit and associated processes were investigated using field mapping, mineralogical and geochemical analyses by XRD, ICP-MS/AES and XRF. The geology is constituted by limestone, evaporites/gypsum, conglomerates and basalt. The orebody is hosted in the limestone and has two distinctive manganese layers: a massive bottom and powdery top. Pyrolusite, romanechite and birnessite are the major ore minerals. The geochemical results indicate elevated MnO (av. 70.25 wt-%), Ba (>10,000 ppm), Sr (>10,000 ppm) and depleted Fe2O3 (av. 0.37 wt-%) and other metals. The massive orebody has higher (172.9 ppm) REE content than the powdery ore (7.84 ppm). Chondrite normalised REE plot shows LREE enrichment for both orebodies. The massive manganese layer shows enrichment in Ce and no Eu anomaly. The powdery manganese is depleted in Ce and Eu. The geochemical and mineralogical studies indicate that the manganese mineralisation has dual sources: hydrogenous and hydrothermal sources (for the massive orebody), and hydrothermal (for the powdery). The data suggest that there was active submarine hydrothermal activity in Dallol associated with the regional geodynamic events while the area was inundated by the Red Sea during the Pleistocene.

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埃塞东北部阿法尔坳陷Enkafela锰矿床成因:海底热液活动记录

摘要通过野外测绘、XRD、ICP-MS/AES和XRF矿物学和地球化学分析，研究了恩卡费拉锰矿床的成因及其相关过程。地质由石灰岩、蒸发岩/石膏、砾岩和玄武岩组成。矿体位于石灰岩中，有两个独特的锰层：块状底部和粉状顶部。软锰矿、罗马针铁矿和水钠石是主要的矿石矿物。地球化学结果表明MnO升高（平均70.25 wt%）、Ba（>10000 ppm），Sr（>10000 ppm）和贫化的Fe2O3（平均0.37 wt%）和其它金属。块状矿体具有较高的（172.9 ppm）REE含量高于粉状矿石（7.84 ppm）。球粒陨石归一化REE图显示两个矿体的LREE富集。块状锰层Ce富集，无Eu异常。粉末状锰的Ce和Eu含量减少。地球化学和矿物学研究表明，锰矿化具有双重来源：含氢和热液来源（块状矿体），以及热液（粉状矿体）。数据表明，当该地区在更新世被红海淹没时，达尔洛尔存在与区域地球动力学事件有关的活跃海底热液活动。

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