Titlebook: Biomining Technologies; Extracting and Recov David Barrie Johnson,Christopher George Bryan,Fran Book 2023 The Editor(s) (if applicable) and

Commission

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Reductive Mineral Bioprocessing,e. The anaerobic reductive dissolution of iron and manganese oxy-hydroxide minerals coupled to the oxidation of elemental sulfur is catalyzed by acidophilic, chemolithotrophic bacteria such as . and has shown to be a more promising approach, especially for bioprocessing of limonitic laterite ores, a

Asperity

Biological Removal and Recovery of Metals from Waste Streams and Process Waters,successfully in laboratory to full-scale operations to recover transition metals and remove contaminants from both acid mine drainage waters and mineral-processing effluents. Biological methods can also be selective and applicable for mine waters where metal concentrations are relatively small. The

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The Future of Biomining: Towards Sustainability in a Metal-Demanding World,ntional biolixiviants, bioelectrochemical leaching, biosorption, bioaccumulation, phytomining, biobeneficiation of minerals, and upcycling of metals through biomineralisation, are discussed. While there are many interesting potential routes for sustainable metal extraction, it is important to evalua

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Book 2023rds sustainability in a metal-demanding world are also highlighted..Thebook is aimed at an interdisciplinary audience involving operators and researchers working across disciplines including geology, chemical engineering, microbiology and molecular biology. This is reflected by the content of this b

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PACT

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Multidisciplinary Research Platform,and biomolecular techniques have been developed and applied to study “biomining” microorganisms, and how this has led to major advances in understanding both how they function as pure cultures and in mixed communities.

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Life Sciences and Biotechnology,vanced microbiological methods has begun to reveal the full extent of microbial diversity and function in these systems. This chapter discusses the microbial ecology of mine wastes, heap, dump, and tank bioleaching, general approaches for their study as well as current questions and future direction

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