The Eukaryome Of Modern Microbialites Reveals Distinct Colonization Across Aquatic Ecosystems
Protists are less studied for their role and diversity in ecosystems. Notably, protists have played and still play an important role in microbialites. Microbialites, or lithified microbial mats, represent the oldest evidence of fossil biofilms (~3.5 Gyr).
Modern microbialites may offer a unique proxy to study the potential role of protists within a geological context. We examined protist diversity in freshwater (Kelly and Pavilion Lake in British Columbia, Canada) and marine (Highborne Cay, Bahamas) to hypersaline (Shark Bay, Australia) microbialites to decipher their geomicrobiological role.
The freshwater microbialite communities were clearly distinct from their marine and hypersaline counterparts. Chlorophytes had higher numerical abundance in freshwater microbialites; whereas pennate diatoms dominated numerically in marine microbialites.
Despite the differences, protists across ecosystems may have adopted similar roles and functions. We suggest a consistent biogeochemical role of protists across microbialites globally; but that salinity may shape protist composition and evolution in these ecosystems.
The eukaryome of modern microbialites reveals distinct colonization across aquatic ecosystems, (open access) via PubMed
NPJ Biofilms Microbiomes. 2024; 10: 78. Published online 2024 Sep 3. doi: 10.1038/s41522-024-00547-z PMCID: PMC11372052PMID: 39227595
Astrobiology