4.6 Article

Fine-Scale Distribution Patterns of Synechococcus Ecological Diversity in Microbial Mats of Mushroom Spring, Yellowstone National Park

Journal

APPLIED AND ENVIRONMENTAL MICROBIOLOGY
Volume 77, Issue 21, Pages 7689-7697

Publisher

AMER SOC MICROBIOLOGY
DOI: 10.1128/AEM.05927-11

Keywords

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Funding

  1. National Science Foundation [EF-0328698]
  2. National Aeronautics and Space Administration [NAG5-8807]
  3. Danish Natural Science Research Council
  4. U.S. Department of Energy (DOE) Office of Biological and Environmental Research (BER)
  5. Pacific Northwest National Laboratory (PNNL) [112443]

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Past analyses of sequence diversity in high-resolution protein-encoding genes have identified putative ecological species of unicellular cyanobacteria in the genus Synechococcus, which are specialized to 60 degrees C but not 65 degrees C in Mushroom Spring microbial mats. Because these studies were limited to only two habitats, we studied the distribution of Synechococcus sequence variants at 1 degrees C intervals along the effluent flow channel and at 80-mu m vertical-depth intervals throughout the upper photic layer of the microbial mat. Diversity at the psaA locus, which encodes a photosynthetic reaction center protein (PsaA), was sampled by PCR amplification, cloning, and sequencing methods at 60, 63, and 65 degrees C sites. The evolutionary simulation programs Ecotype Simulation and AdaptML were used to identify putative ecologically distinct populations (ecotypes). Ecotype Simulation predicted a higher number of putative ecotypes in cases where habitat variation was limited, while AdaptML predicted a higher number of ecologically distinct phylogenetic clades in cases where habitat variation was high. Denaturing gradient gel electrophoresis was used to track the distribution of dominant sequence variants of ecotype populations relative to temperature variation and to O-2, pH, and spectral irradiance variation, as measured using microsensors. Different distributions along effluent channel flow and vertical gradients, where temperature, light, and O-2 concentrations are known to vary, confirmed the ecological distinctness of putative ecotypes.

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