Di Stefano, G.; Baqué, M.; Garland, S.; Lorek, A.; de Vera, J.-P.; Gangi, M.E.M.; Bellucci, M.; Billi, D.
Resilience of Metabolically Active Biofilms of a Desert Cyanobacterium Capable of Far-Red Photosynthesis Under Mars-like Conditions. Life 2025, 15, 622.
https://doi.org/10.3390/life15040622
AMA Style
Di Stefano G, Baqué M, Garland S, Lorek A, de Vera J-P, Gangi MEM, Bellucci M, Billi D.
Resilience of Metabolically Active Biofilms of a Desert Cyanobacterium Capable of Far-Red Photosynthesis Under Mars-like Conditions. Life. 2025; 15(4):622.
https://doi.org/10.3390/life15040622
Chicago/Turabian Style
Di Stefano, Giorgia, Mickael Baqué, Stephen Garland, Andreas Lorek, Jean-Pierre de Vera, Manuele Ettore Michel Gangi, Micol Bellucci, and Daniela Billi.
2025. "Resilience of Metabolically Active Biofilms of a Desert Cyanobacterium Capable of Far-Red Photosynthesis Under Mars-like Conditions" Life 15, no. 4: 622.
https://doi.org/10.3390/life15040622
APA Style
Di Stefano, G., Baqué, M., Garland, S., Lorek, A., de Vera, J.-P., Gangi, M. E. M., Bellucci, M., & Billi, D.
(2025). Resilience of Metabolically Active Biofilms of a Desert Cyanobacterium Capable of Far-Red Photosynthesis Under Mars-like Conditions. Life, 15(4), 622.
https://doi.org/10.3390/life15040622