Document Type
Article
Publication Title
Frontiers in Microbiology
Abstract
Previous analyses have shown how diversity among unicellular cyanobacteria inhabiting island-like hot springs is structured relative to physical separation and physiochemical differences among springs, especially at local to regional scales. However, these studies have been limited by the low resolution provided by the molecular markers surveyed. We analyzed large datasets obtained by high-throughput sequencing of a segment of the photosynthesis gene psaA from samples collected in hot springs from geothermal basins in Yellowstone National Park, Montana, and Oregon, all known from previous studies to contain populations of A/B′-lineage Synechococcus. The fraction of identical sequences was greater among springs separated by < 50 km than among springs separated by >50 km, and springs separated by >800 km shared sequence variants only rarely. Phylogenetic analyses provided evidence for endemic lineages that could be related to geographic isolation and/or geochemical differences on regional scales. Ecotype Simulation 2 was used to predict putative ecotypes (ecologically distinct populations), and their membership, and canonical correspondence analysis was used to examine the geographical and geochemical bases for variation in their distribution.
First Page
1
Last Page
17
DOI
10.3389/fmicb.2020.00077
Publication Date
2020
Recommended Citation
Becraft, Eric D.; Wood, Jason M.; Cohan, Frederick M.; and Ward, David M., "Biogeography of American Northwest Hot Spring A/B′-Lineage Synechococcus Populations" (2020). Biology. 7.
https://roar.una.edu/biology/7
