Growth of Photosynthetic Biofilms and Fe, Pb, Cu, and Zn Speciation in Unsaturated Columns with Calcareous Mine Tailings from Arid Zones

J. V.García-Meza; M. I.Contreras-Aganza; J.Castro-Larragoitia; R. H.Lara

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Growth of Photosynthetic Biofilms and Fe, Pb, Cu, and Zn Speciation in Unsaturated Columns with Calcareous Mine Tailings from Arid Zones

机译：干旱区钙矿尾矿在不饱和柱中光合生物膜和Fe，Pb，Cu和Zn形态的生长

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Mine tailing remediation aims to reduce the rate of sulfide mineral oxidation. Earlier studies showed that photosynthetic biofilms may act as a physical barrier against oxygen diffusion. Currently, a long-term assay (6 months) is required to evaluate the solid phase redistribution of the Pb, Fe, Cu, and Zn originally present in historic and calcareous mine tailing samples (in our case from a semiarid region in North-Central Mexico). The presence of biofilms may provide chemical gradients and physical conditions that shift the proportion of Fe, Cu, and Zn originally associated with oxides to carbonates and organic matter/sulfide fractions.

机译：矿山尾矿治理旨在降低硫化物矿物的氧化速率。早期的研究表明，光合作用的生物膜可能充当阻止氧气扩散的物理屏障。目前，需要进行长期分析（6个月）来评估最初存在于历史性和钙质矿山尾矿样品中的Pb，Fe，Cu和Zn的固相再分布（在我们的案例中为中北部的半干旱地区）墨西哥）。生物膜的存在可能会提供化学梯度和物理条件，从而将最初与氧化物结合的Fe，Cu和Zn的比例转变为碳酸盐和有机物/硫化物馏分。

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《Applied and environmental soil science》 |2011年第20期|共9页
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J. V.García-Meza; M. I.Contreras-Aganza; J.Castro-Larragoitia; R. H.Lara;
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2. Speciation, Fate and Transport, and Ecological Risks of Cu, Pb, and Zn in Tailings from Huogeqi Copper Mine, Inner Mongolia, China [J] . Liwei Chen, Jun Wu, Jian Lu, Journal of Chemistry . 2018,第S1期

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Growth of Photosynthetic Biofilms and Fe, Pb, Cu, and Zn Speciation in Unsaturated Columns with Calcareous Mine Tailings from Arid Zones

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