In addition to the literature referenced throughout this handbook, we would like to acknowledge key workshop attendees whose insights inspired this resource: Mackenzie Best, Wenying Liu, Daniel Merino-Garcia, Sasha Milshteyn, Paul Reginato, Gerhard (Gary) Schenk, Alan Tordoir, and Luis Valencia. We also thank Ariana Caiati, Colbey Derwin, Jayme Feyhl-Buska, and the Homeworld team for bringing this handbook to life.
References below are being used as placeholders. Final references will be updated prior to publication.
Showing 15 references
Brierley, C.L. & Brierley, J.A. (2013). Progress in bioleaching: part B: application of microbial processes by the minerals industries. Applied Microbiology and Biotechnology, 97(17), 7543-7552.
bioleachingindustrial
Rawlings, D.E. & Johnson, D.B. (2007). The microbiology of biomining: development and optimization of mineral-oxidizing microbial consortia. Microbiology, 153(2), 315-324.
microbiologyconsortia
Johnson, D.B. (2014). Biomining—biotechnologies for extracting and recovering metals from ores and waste materials. Current Opinion in Biotechnology, 30, 24-31.
biominingreview
Vera, M., Schippers, A. & Sand, W. (2013). Progress in bioleaching: fundamentals and mechanisms of bacterial metal sulfide oxidation—part A. Applied Microbiology and Biotechnology, 97(17), 7529-7541.
bioleachingmechanisms
Watling, H.R. (2006). The bioleaching of sulphide minerals with emphasis on copper sulphides — A review. Hydrometallurgy, 84(1-2), 81-108.
bioleachingcopperreview
van Aswegen, P.C., van Niekerk, J. & Olivier, W. (2007). The BIOX process for the treatment of refractory gold concentrates. Biomining, 1-33.
biooxidationgoldBIOX
Gericke, M., Neale, J.W. & van Rooyen, P.H. (2009). A Mintek perspective of the past 25 years in minerals bioleaching. Journal of the Southern African Institute of Mining and Metallurgy, 109(10), 567-585.
biooxidationbioleachingindustrial
Cotruvo, J.A., Feber, E.R. & Jové, A.D. (2018). Lanmodulin: A highly selective lanthanide-binding protein from a lanthanide-utilizing bacterium. Journal of the American Chemical Society, 140(44), 15056-15061.
bioseparationREElanmodulin
Park, D.M. et al. (2023). Bioadsorption of rare earth elements through cell surface display of lanthanide binding tags. Environmental Science & Technology, 54(9), 5956-5964.
bioseparationREEbiosorption
Johnson, D.B. & Hallberg, K.B. (2005). Acid mine drainage remediation options: a review. Science of the Total Environment, 338(1-2), 3-14.
AMDremediationreview
Neculita, C.M., Zagury, G.J. & Bussière, B. (2007). Passive treatment of acid mine drainage in bioreactors using sulfate-reducing bacteria. Journal of Environmental Quality, 36(1), 1-16.
AMDSRBbioreactor
van der Ent, A. et al. (2015). Agromining: farming for metals in the future?. Environmental Science & Technology, 49(8), 4773-4780.
phytominingagromininghyperaccumulator
Chaney, R.L. et al. (2007). Improved understanding of hyperaccumulation yields commercial phytoextraction and phytomining technologies. Journal of Environmental Quality, 36(5), 1429-1443.
phytominingphytoextraction
Ilyas, S. & Lee, J. (2014). Biometallurgical recovery of metals from waste electrical and electronic equipment: a review. ChemBioEng Reviews, 1(4), 148-169.
e-wastebioleachingreview
Brandl, H., Bosshard, R. & Wegmann, M. (2001). Computer-munching microbes: metal leaching from electronic scrap by bacteria and fungi. Hydrometallurgy, 59(2-3), 319-326.
References
In addition to the literature referenced throughout this handbook, we would like to acknowledge key workshop attendees whose insights inspired this resource: Mackenzie Best, Wenying Liu, Daniel Merino-Garcia, Sasha Milshteyn, Paul Reginato, Gerhard (Gary) Schenk, Alan Tordoir, and Luis Valencia. We also thank Ariana Caiati, Colbey Derwin, Jayme Feyhl-Buska, and the Homeworld team for bringing this handbook to life.
References below are being used as placeholders. Final references will be updated prior to publication.
Brierley, C.L. & Brierley, J.A. (2013). Progress in bioleaching: part B: application of microbial processes by the minerals industries. Applied Microbiology and Biotechnology, 97(17), 7543-7552.
Rawlings, D.E. & Johnson, D.B. (2007). The microbiology of biomining: development and optimization of mineral-oxidizing microbial consortia. Microbiology, 153(2), 315-324.
Johnson, D.B. (2014). Biomining—biotechnologies for extracting and recovering metals from ores and waste materials. Current Opinion in Biotechnology, 30, 24-31.
Vera, M., Schippers, A. & Sand, W. (2013). Progress in bioleaching: fundamentals and mechanisms of bacterial metal sulfide oxidation—part A. Applied Microbiology and Biotechnology, 97(17), 7529-7541.
Watling, H.R. (2006). The bioleaching of sulphide minerals with emphasis on copper sulphides — A review. Hydrometallurgy, 84(1-2), 81-108.
van Aswegen, P.C., van Niekerk, J. & Olivier, W. (2007). The BIOX process for the treatment of refractory gold concentrates. Biomining, 1-33.
Gericke, M., Neale, J.W. & van Rooyen, P.H. (2009). A Mintek perspective of the past 25 years in minerals bioleaching. Journal of the Southern African Institute of Mining and Metallurgy, 109(10), 567-585.
Cotruvo, J.A., Feber, E.R. & Jové, A.D. (2018). Lanmodulin: A highly selective lanthanide-binding protein from a lanthanide-utilizing bacterium. Journal of the American Chemical Society, 140(44), 15056-15061.
Park, D.M. et al. (2023). Bioadsorption of rare earth elements through cell surface display of lanthanide binding tags. Environmental Science & Technology, 54(9), 5956-5964.
Johnson, D.B. & Hallberg, K.B. (2005). Acid mine drainage remediation options: a review. Science of the Total Environment, 338(1-2), 3-14.
Neculita, C.M., Zagury, G.J. & Bussière, B. (2007). Passive treatment of acid mine drainage in bioreactors using sulfate-reducing bacteria. Journal of Environmental Quality, 36(1), 1-16.
van der Ent, A. et al. (2015). Agromining: farming for metals in the future?. Environmental Science & Technology, 49(8), 4773-4780.
Chaney, R.L. et al. (2007). Improved understanding of hyperaccumulation yields commercial phytoextraction and phytomining technologies. Journal of Environmental Quality, 36(5), 1429-1443.
Ilyas, S. & Lee, J. (2014). Biometallurgical recovery of metals from waste electrical and electronic equipment: a review. ChemBioEng Reviews, 1(4), 148-169.
Brandl, H., Bosshard, R. & Wegmann, M. (2001). Computer-munching microbes: metal leaching from electronic scrap by bacteria and fungi. Hydrometallurgy, 59(2-3), 319-326.