We determined the relationship between living microbial mat activity, mineral occurrence, arsenic speciation, distribution of major and trace elements and their relationship with the mineralogy and the exopolymeric substances (EPS) in modern microbial mats from high-altitude Andean lakes, potential analogues of early Earth environments. Specifically, we documented a number of features that support the existence of the biological cycling of arsenic: the incorporation of arsenic into EPS, the heterogeneous distribution of As(III) and As(V), either together or separately, in confined areas, and the identification of organic-rich globules containing significant arsenic but no other trace metal(loid)s.
The presence of As(III) and As(V) represent the first geochemical evidence of arsenic microbial-mediated cycling in Diamante microbialites, supporting the metagenomic analysis done by Rascovan and co-workers (Rascovan et al., 2016). Moreover, we propose a mechanism for preserving the microbially-mediated cycle of arsenic in the carbonate structure of microbialites from a living, biological active area to an early diagenesis zone. This can be extended to the fossil record, where further studies can lead to develop arsenic as a fingerprint for life, evolution on the ancient Earth and, possibly, on other planets like Mars.
The obtained results within the AsLife project were presented at several international conferences and seminars:
Conferences:
- Goldschmidt Conference, Yokohama, Japan (July 2016): M. Sancho-Tomás, A. Somogyi, A. Bergamaschi, K. Medjoubi, M.E. Farias, P.T. Visscher and P. Philippot. Oxidation state distribution of arsenic in modern stromatolites: a trace of life evolution.
- Goldschmidt Conference, Yokohama, Japan (July 2016): Philippot, P., Medjoubi, K., Sancho-Tomás, M., Sugitani, K., Visscher, P.T. Konhauser, K., Wing, B. and Somogyi, A. (2016) Arsenic-based metabolisms in a 3.4 Ga old ecosystem.
- Goldschmidt Conference, Paris, France (July 2017): M. Sancho-Tomás, A. Somogyi, A. Bergamaschi, K. Medjoubi, A.E.S. van Driessche, P.T. Visscher, E. Gérard, M.E. Farias, M. Contreras and P. Philippot. Arsenic in living microbial mats: distribution, redox state and (bio)geochemical implications.
- IMS, Toulouse, France (September 2017): M. Sancho-Tomás, A. Somogyi, A. Bergamaschi, K. Medjoubi, A.E.S. van Driessche, P.T. Visscher, E. Gérard, M.E. Farias, M. Contreras and P. Philippot. Arsenic in microbial mats of La Brava: distribution, redox state and (bio)geochemical implications.
In addition to the above, I was the chair of the session Geochemistry on March 16th 2017 to the “Congrès des doctorants” of the Doctoral School STEP’UP.
Seminars:
- Petit-Déjeuner, SOLEIL Synchrotron (October, 2017). Life in Arsenic rich environments:
A challenge or an opportunity?
- CONICET, Cordoba, Argentina (November, 2017). Life in Arsenic rich environments:
A challenge or an opportunity?
Publications: (at least, one more paper is planned)
- M. Sancho-Tomás, A. Somogyi, A. Bergamaschi, K. Medjoubi, A.E.S. van Driessche, P.T. Visscher, E. Gérard, M.E. Farias, M. Contreras and P. Philippot. Distribution, redox state and (bio)geochemical implications of arsenic in present day microbialites of Laguna Brava, Salar de Atacama. Accepted in Chemical Geology. DOI: 10.1016/j.chemgeo.2018.04.029.
- M. Sancho-Tomás, A. Somogyi, A. Bergamaschi, K. Medjoubi, A.E.S. van Driessche, P.T. Visscher, E. Gérard, M.E. Farias, M. Contreras and P. Philippot. Geochemical evidence for arsenic cycling in living microbialites of a High Altitude Andean lake. In prep.
- P. Philippot, K. Medjoubi, M. Sancho-Tomás, P. Visscher, K. Sugitani , A. Somogyi. Arsenic-based metabolisms and/or detoxication processes in a 3.45-billion-year-old ecosystem. In prep.
In addition, an interview was conducted and article published in Horizon, the EU Research & Innovation Magazine, entitled “Arsenic and permafrost microbes help hunt for life on Mars” (January, 2018):
https://horizon-magazine.eu/article/arsenic-and-permafrost-microbes-help-hunt-life-mars_en.html(odnośnik otworzy się w nowym oknie)