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Global radiation in a rare biosphere soil diatom. | LitMetric

AI Article Synopsis

  • Soil micro-organisms, particularly protists like Pinnularia borealis, play a crucial role in global carbon and nutrient cycles, but their diversity and biogeography are not well understood.
  • A study of over 800 strains of Pinnularia borealis reveals high species diversity and a history of global radiation since the Eocene/Oligocene cooling.
  • The findings suggest that the diversification of these organisms is largely due to their colonization of new geographic areas and subsequent isolated evolution, highlighting allopatric speciation as a key mechanism in microbial diversity.

Article Abstract

Soil micro-organisms drive the global carbon and nutrient cycles that underlie essential ecosystem functions. Yet, we are only beginning to grasp the drivers of terrestrial microbial diversity and biogeography, which presents a substantial barrier to understanding community dynamics and ecosystem functioning. This is especially true for soil protists, which despite their functional significance have received comparatively less interest than their bacterial counterparts. Here, we investigate the diversification of Pinnularia borealis, a rare biosphere soil diatom species complex, using a global sampling of >800 strains. We document unprecedented high levels of species-diversity, reflecting a global radiation since the Eocene/Oligocene global cooling. Our analyses suggest diversification was largely driven by colonization of novel geographic areas and subsequent evolution in isolation. These results illuminate our understanding of how protist diversity, biogeographical patterns, and members of the rare biosphere are generated, and suggest allopatric speciation to be a powerful mechanism for diversification of micro-organisms.

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Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC7221085PMC
http://dx.doi.org/10.1038/s41467-020-16181-0DOI Listing

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