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Microbial Functional Diversity Correlates with Species Diversity along a Temperature Gradient.
Ruhl, Ilona A; Sheremet, Andriy; Smirnova, Angela V; Sharp, Christine E; Grasby, Stephen E; Strous, Marc; Dunfield, Peter F.
Afiliação
  • Ruhl IA; Department of Biological Sciences, University of Calgarygrid.22072.35, Calgary, Canada.
  • Sheremet A; Department of Biological Sciences, University of Calgarygrid.22072.35, Calgary, Canada.
  • Smirnova AV; Department of Biological Sciences, University of Calgarygrid.22072.35, Calgary, Canada.
  • Sharp CE; Department of Geoscience, University of Calgarygrid.22072.35, Calgary, Canada.
  • Grasby SE; Department of Geoscience, University of Calgarygrid.22072.35, Calgary, Canada.
  • Strous M; Geological Survey of Canadagrid.470085.e, Calgary, Canada.
  • Dunfield PF; Department of Geoscience, University of Calgarygrid.22072.35, Calgary, Canada.
mSystems ; 7(1): e0099121, 2022 02 22.
Article em En | MEDLINE | ID: mdl-35166562
Microbial community diversity is often correlated with physical environmental stresses like acidity, salinity, and temperature. For example, species diversity usually declines with increasing temperature above 20°C. However, few studies have examined whether the genetic functional diversity of community metagenomes varies in a similar way as species diversity along stress gradients. Here, we investigated bacterial communities in thermal spring sediments ranging from 21 to 88°C, representing communities of 330 to 3,800 bacterial and archaeal species based on 16S rRNA gene amplicon analysis. Metagenomes were sequenced, and Pfam abundances were used as a proxy for metagenomic functional diversity. Significant decreases in both species diversity and Pfam diversity were observed with increasing temperatures. The relationship between Pfam diversity and species diversity followed a power function with the steepest slopes in the high-temperature, low-diversity region of the gradient. Species additions to simple thermophilic communities added many new Pfams, while species additions to complex mesophilic communities added relatively fewer new Pfams, indicating that species diversity does not approach saturation as rapidly as Pfam diversity does. Many Pfams appeared to have distinct temperature ceilings of 60 to 80°C. This study suggests that temperature stress limits both taxonomic and functional diversity of microbial communities, but in a quantitatively different manner. Lower functional diversity at higher temperatures is probably due to two factors, including (i) the absence of many enzymes not adapted to thermophilic conditions, and (ii) the fact that high-temperature communities are comprised of fewer species with smaller average genomes and, therefore, contain fewer rare functions. IMPORTANCE Only recently have microbial ecologists begun to assess quantitatively how microbial species diversity correlates with environmental factors like pH, temperature, and salinity. However, still, very few studies have examined how the number of distinct biochemical functions of microbial communities, termed functional diversity, varies with the same environmental factors. Our study examined 18 microbial communities sampled across a wide temperature gradient and found that increasing temperature reduced both species and functional diversity, but in different ways. Initially, functional diversity increased sharply with increasing species diversity but eventually plateaued, following a power function. This pattern has been previously predicted in theoretical models, but our study validates this predicted power function with field metagenomic data. This study also presents a unique overview of the distribution of metabolic functions along a temperature gradient, demonstrating that many functions have temperature "ceilings" above which they are no longer found.
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Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Bactérias / Microbiota Tipo de estudo: Prognostic_studies Idioma: En Revista: MSystems Ano de publicação: 2022 Tipo de documento: Article

Texto completo: 1 Coleções: 01-internacional Base de dados: MEDLINE Assunto principal: Bactérias / Microbiota Tipo de estudo: Prognostic_studies Idioma: En Revista: MSystems Ano de publicação: 2022 Tipo de documento: Article