Mineralogy and Pollution Status of Columbite-Tin Ore Contaminated Soil

A. Itodo, R. Wuana, Bulus Emmanuel Duwongs, D. D. Bwede
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引用次数: 1

Abstract

Mining activities are one of the numerous ways by which man impacts on his environment. In this study, two non-destructive analytical techniques (XRF and XRD) were employed in the mineralogical characterization of Columbite-Tin ore and their contaminated soils. This investigates associated unnoticed minerals as well as the impact of mining on vicinity farmland soils on the Yelwa-Mbar mining site, Nigeria. The chemical characterization of Columbite ore using electron dispersive XRF revealed that most of the Columbite mineral deposits in the Plateau mining sites contain Niobium mineral in various proportions and vary from deposit to deposit depending on the geochemical composition of the minerals that formed the parent rock. Tin content as determined by ED-XRF impart that the ore can be utilized directly in the furnace because of its high cassiterite content (85.43%). The percentage elemental composition of soil around the mining vicinity unveiled the presence of Radionuclides K-40, Rubidium and Thorium in the soil. This is of great concern. The XRD mineralogical investigation of Columbite shows the presence of associated braunite, cassiterite, ilmenite, quartz, and zircon while the phase pattern for Tin ore confirmed the availability of cassiterite, magnetite and litharge. Pollution status based on contamination factor and geo-accumulation indices gave both radionuclides and heavy metal concentrations that depicts moderate to extreme contaminations.
铌锡矿污染土壤矿物学及污染现状
采矿活动是人类影响环境的众多方式之一。采用XRF和XRD两种无损分析技术对铌锡矿石及其污染土壤进行了矿物学表征。本研究调查了相关的未被注意的矿物以及采矿对尼日利亚Yelwa-Mbar矿区附近农田土壤的影响。利用电子色散XRF对铌矿进行了化学表征,结果表明,高原矿区大部分铌矿均含有不同比例的铌矿物,且不同矿床的铌矿物的地球化学组成取决于构成母岩的矿物的地球化学组成。经ED-XRF测定,该矿石锡石含量高(85.43%),可直接在炉内利用。矿区附近土壤元素组成的百分比揭示了土壤中放射性核素K-40、铷和钍的存在。这是非常令人关切的。x射线衍射(XRD)矿物学研究表明,铌长石伴生有褐铁矿、锡石、钛铁矿、石英和锆石,锡矿石的相图证实了锡石、磁铁矿和锂矿的存在。基于污染因子和地质累积指数的污染状况给出了放射性核素和重金属浓度,描述了中度到极端污染。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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