Space station biomining experiment demonstrates rare earth element extraction in microgravity and Mars gravity

Microorganisms are employed to mine economically important elements from rocks, including the rare earth elements (REEs), used in electronic industries and alloy production. We carried out a mining experiment on the International Space Station to test hypotheses on the bioleaching of REEs from basal...

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Autores principales: Cockell, Charles S., Santomartino, Rosa, Finster, Kai, Waajen, Annemiek C., Eades, Lorna J., Moeller, Ralf, Rettberg, Petra, Fuchs, Felix M., Van Houdt, Rob, Leys, Natalie, Coninx, Ilse, Hatton, Jason, Parmitano, Luca, Krause, Jutta, Koehler, Andrea, Caplin, Nicol, Zuijderduijn, Lobke, Mariani, Alessandro, Pellari, Stefano S., Carubia, Fabrizio, Luciani, Giacomo, Balsamo, Michele, Zolesi, Valfredo, Nicholson, Natasha, Loudon, Claire-Marie, Doswald-Winkler, Jeannine, Herová, Magdalena, Rattenbacher, Bernd, Wadsworth, Jennifer, Craig Everroad, R., Demets, René
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Nature Publishing Group UK 2020
Materias:
Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7656455/
https://www.ncbi.nlm.nih.gov/pubmed/33173035
http://dx.doi.org/10.1038/s41467-020-19276-w
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author Cockell, Charles S.
Santomartino, Rosa
Finster, Kai
Waajen, Annemiek C.
Eades, Lorna J.
Moeller, Ralf
Rettberg, Petra
Fuchs, Felix M.
Van Houdt, Rob
Leys, Natalie
Coninx, Ilse
Hatton, Jason
Parmitano, Luca
Krause, Jutta
Koehler, Andrea
Caplin, Nicol
Zuijderduijn, Lobke
Mariani, Alessandro
Pellari, Stefano S.
Carubia, Fabrizio
Luciani, Giacomo
Balsamo, Michele
Zolesi, Valfredo
Nicholson, Natasha
Loudon, Claire-Marie
Doswald-Winkler, Jeannine
Herová, Magdalena
Rattenbacher, Bernd
Wadsworth, Jennifer
Craig Everroad, R.
Demets, René
author_facet Cockell, Charles S.
Santomartino, Rosa
Finster, Kai
Waajen, Annemiek C.
Eades, Lorna J.
Moeller, Ralf
Rettberg, Petra
Fuchs, Felix M.
Van Houdt, Rob
Leys, Natalie
Coninx, Ilse
Hatton, Jason
Parmitano, Luca
Krause, Jutta
Koehler, Andrea
Caplin, Nicol
Zuijderduijn, Lobke
Mariani, Alessandro
Pellari, Stefano S.
Carubia, Fabrizio
Luciani, Giacomo
Balsamo, Michele
Zolesi, Valfredo
Nicholson, Natasha
Loudon, Claire-Marie
Doswald-Winkler, Jeannine
Herová, Magdalena
Rattenbacher, Bernd
Wadsworth, Jennifer
Craig Everroad, R.
Demets, René
author_sort Cockell, Charles S.
collection PubMed
description Microorganisms are employed to mine economically important elements from rocks, including the rare earth elements (REEs), used in electronic industries and alloy production. We carried out a mining experiment on the International Space Station to test hypotheses on the bioleaching of REEs from basaltic rock in microgravity and simulated Mars and Earth gravities using three microorganisms and a purposely designed biomining reactor. Sphingomonas desiccabilis enhanced mean leached concentrations of REEs compared to non-biological controls in all gravity conditions. No significant difference in final yields was observed between gravity conditions, showing the efficacy of the process under different gravity regimens. Bacillus subtilis exhibited a reduction in bioleaching efficacy and Cupriavidus metallidurans showed no difference compared to non-biological controls, showing the microbial specificity of the process, as on Earth. These data demonstrate the potential for space biomining and the principles of a reactor to advance human industry and mining beyond Earth.
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spelling pubmed-76564552020-11-12 Space station biomining experiment demonstrates rare earth element extraction in microgravity and Mars gravity Cockell, Charles S. Santomartino, Rosa Finster, Kai Waajen, Annemiek C. Eades, Lorna J. Moeller, Ralf Rettberg, Petra Fuchs, Felix M. Van Houdt, Rob Leys, Natalie Coninx, Ilse Hatton, Jason Parmitano, Luca Krause, Jutta Koehler, Andrea Caplin, Nicol Zuijderduijn, Lobke Mariani, Alessandro Pellari, Stefano S. Carubia, Fabrizio Luciani, Giacomo Balsamo, Michele Zolesi, Valfredo Nicholson, Natasha Loudon, Claire-Marie Doswald-Winkler, Jeannine Herová, Magdalena Rattenbacher, Bernd Wadsworth, Jennifer Craig Everroad, R. Demets, René Nat Commun Article Microorganisms are employed to mine economically important elements from rocks, including the rare earth elements (REEs), used in electronic industries and alloy production. We carried out a mining experiment on the International Space Station to test hypotheses on the bioleaching of REEs from basaltic rock in microgravity and simulated Mars and Earth gravities using three microorganisms and a purposely designed biomining reactor. Sphingomonas desiccabilis enhanced mean leached concentrations of REEs compared to non-biological controls in all gravity conditions. No significant difference in final yields was observed between gravity conditions, showing the efficacy of the process under different gravity regimens. Bacillus subtilis exhibited a reduction in bioleaching efficacy and Cupriavidus metallidurans showed no difference compared to non-biological controls, showing the microbial specificity of the process, as on Earth. These data demonstrate the potential for space biomining and the principles of a reactor to advance human industry and mining beyond Earth. Nature Publishing Group UK 2020-11-10 /pmc/articles/PMC7656455/ /pubmed/33173035 http://dx.doi.org/10.1038/s41467-020-19276-w Text en © The Author(s) 2020 Open Access This article is licensed under a Creative Commons Attribution 4.0 International License, which permits use, sharing, adaptation, distribution and reproduction in any medium or format, as long as you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The images or other third party material in this article are included in the article’s Creative Commons license, unless indicated otherwise in a credit line to the material. If material is not included in the article’s Creative Commons license and your intended use is not permitted by statutory regulation or exceeds the permitted use, you will need to obtain permission directly from the copyright holder. To view a copy of this license, visit http://creativecommons.org/licenses/by/4.0/.
spellingShingle Article
Cockell, Charles S.
Santomartino, Rosa
Finster, Kai
Waajen, Annemiek C.
Eades, Lorna J.
Moeller, Ralf
Rettberg, Petra
Fuchs, Felix M.
Van Houdt, Rob
Leys, Natalie
Coninx, Ilse
Hatton, Jason
Parmitano, Luca
Krause, Jutta
Koehler, Andrea
Caplin, Nicol
Zuijderduijn, Lobke
Mariani, Alessandro
Pellari, Stefano S.
Carubia, Fabrizio
Luciani, Giacomo
Balsamo, Michele
Zolesi, Valfredo
Nicholson, Natasha
Loudon, Claire-Marie
Doswald-Winkler, Jeannine
Herová, Magdalena
Rattenbacher, Bernd
Wadsworth, Jennifer
Craig Everroad, R.
Demets, René
Space station biomining experiment demonstrates rare earth element extraction in microgravity and Mars gravity
title Space station biomining experiment demonstrates rare earth element extraction in microgravity and Mars gravity
title_full Space station biomining experiment demonstrates rare earth element extraction in microgravity and Mars gravity
title_fullStr Space station biomining experiment demonstrates rare earth element extraction in microgravity and Mars gravity
title_full_unstemmed Space station biomining experiment demonstrates rare earth element extraction in microgravity and Mars gravity
title_short Space station biomining experiment demonstrates rare earth element extraction in microgravity and Mars gravity
title_sort space station biomining experiment demonstrates rare earth element extraction in microgravity and mars gravity
topic Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7656455/
https://www.ncbi.nlm.nih.gov/pubmed/33173035
http://dx.doi.org/10.1038/s41467-020-19276-w
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