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Investigating Terrestrial and Extraterrestrial Bioremediation through Microbial Action Using Raman Spectroscopy

Author

Listed:
  • Daniel Keaney

    (Department of Biological Sciences, Munster Technological University, T12 P928 Cork, Ireland)

  • Venkata V. B. Yallapragada

    (Centre for Advanced Photonics and Process Analysis, Munster Technological University, T12 P928 Cork, Ireland
    Tyndall National Institute, Lee Maltings, Prospect Row, T12 R5C Cork, Ireland)

  • Liam O’Faolain

    (Centre for Advanced Photonics and Process Analysis, Munster Technological University, T12 P928 Cork, Ireland
    Tyndall National Institute, Lee Maltings, Prospect Row, T12 R5C Cork, Ireland)

  • Ganga Chinna Rao Devarapu

    (Centre for Advanced Photonics and Process Analysis, Munster Technological University, T12 P928 Cork, Ireland
    Tyndall National Institute, Lee Maltings, Prospect Row, T12 R5C Cork, Ireland)

  • Karen Finn

    (Department of Analytical, Biopharmaceutical and Medical Sciences, Atlantic Technological University Galway City, Dublin Road, H91 T8NW Galway, Ireland)

  • Brigid Lucey

    (Department of Biological Sciences, Munster Technological University, T12 P928 Cork, Ireland)

Abstract

Sodium perchlorate is a toxic salt-based compound found both terrestrially, (due to pollution) and extraterrestrially on the surface of Mars. Perchlorate pollution poses a risk to agricultural-based activities as once it enters soils/waterways it can be passed through the food chain via bioaccumulation. The purpose of the current study was to observe the perchlorate reduction potential of putative candidate bioremediation strains; Escherichia coli 25922 and E. coli 9079, Paraburkholderia fungorum, Deinococcus radiodurans and Dechloromonas aromatica both independently and in co-cultures, when exposed to 3000 mg/L (0.3%) sodium perchlorate. This was carried out in both a minimal medium environment and within an environment void of nutrients, using Raman spectroscopy to assess their potential for the bioremediation of Martian soils. The perchlorate reducing potential of all strains was 16% higher in reverse osmosis deionised water than in minimal medium, the former having a total absence of Nitrate. It was found that E. coli 25922 is a perchlorate reducer, which has not been previously described. Additionally, co-culturing of bacterial strains was found to have a higher bioremediation potential than individual strains. These findings suggest that not only could perchlorate pollution be remediated, but that the perchlorate composition of the Martian surface may support bioremediation microbial life, aiding in future colonisation.

Suggested Citation

  • Daniel Keaney & Venkata V. B. Yallapragada & Liam O’Faolain & Ganga Chinna Rao Devarapu & Karen Finn & Brigid Lucey, 2024. "Investigating Terrestrial and Extraterrestrial Bioremediation through Microbial Action Using Raman Spectroscopy," Challenges, MDPI, vol. 15(1), pages 1-15, January.
  • Handle: RePEc:gam:jchals:v:15:y:2024:i:1:p:4-:d:1317606
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