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

Charles S CockellRosa SantomartinoKai FinsterAnnemiek C WaajenLorna J EadesRalf MoellerPetra RettbergFelix M FuchsRob Van HoudtNatalie LeysIlse ConinxJason HattonLuca ParmitanoJutta KrauseAndrea KoehlerNicol CaplinLobke ZuijderduijnAlessandro MarianiStefano S PellariFabrizio CarubiaGiacomo LucianiMichele BalsamoValfredo ZolesiNatasha NicholsonClaire-Marie LoudonJeannine Doswald-WinklerMagdalena HerováBernd RattenbacherJennifer WadsworthR Craig EverroadRené Demets
Published in: Nature communications (2020)
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.
Keyphrases
  • bacillus subtilis
  • wastewater treatment
  • endothelial cells
  • anaerobic digestion
  • electronic health record
  • big data
  • induced pluripotent stem cells
  • machine learning
  • deep learning