Cyanobacterial ecotypes in the microbial mat community of Mushroom Spring (Yellowstone National Park, Wyoming) as species-like units linking microbial community composition, structure and function

We have investigated microbial mats of alkaline siliceous hot springs in Yellowstone National Park as natural model communities to learn how microbial populations group into species-like fundamental units. Here, we bring together empirical patterns of the distribution of molecular variation in predo...

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Veröffentlicht in:	Philosophical transactions of the Royal Society of London. Series B. Biological sciences 2006-11, Vol.361 (1475), p.1997-2008
Hauptverfasser:	Ward, David M, Bateson, Mary M, Ferris, Michael J, Kühl, Michael, Wieland, Andrea, Koeppel, Alex, Cohan, Frederick M
Format:	Artikel
Sprache:	eng
Schlagworte:	Adaptation Adaptation, Biological - genetics Base Sequence Community structure Cyanobacteria Cyanobacteria - genetics Cyanobacteria - physiology Ecological genetics Ecosystem Ecotype Euphotic zone Genetic Variation Genotypes Hot Spring Hot springs Models, Biological Molecular Sequence Data Mushrooms Oxygen - analysis Phylogeny Population ecology RNA, Ribosomal, 16S - genetics Sequence Analysis, DNA Species Species Specificity Spectrum Analysis Synecology Temperature Wyoming
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container_end_page	2008
container_issue	1475
container_start_page	1997
container_title	Philosophical transactions of the Royal Society of London. Series B. Biological sciences
container_volume	361
creator	Ward, David M Bateson, Mary M Ferris, Michael J Kühl, Michael Wieland, Andrea Koeppel, Alex Cohan, Frederick M
description	We have investigated microbial mats of alkaline siliceous hot springs in Yellowstone National Park as natural model communities to learn how microbial populations group into species-like fundamental units. Here, we bring together empirical patterns of the distribution of molecular variation in predominant mat cyanobacterial populations, theory-based modelling of how to demarcate phylogenetic clusters that correspond to ecological species and the dynamic patterns of the physical and chemical microenvironments these populations inhabit and towards which they have evolved adaptations. We show that putative ecotypes predicted by the theory-based model correspond well with distribution patterns, suggesting populations with distinct ecologies, as expected of ecological species. Further, we show that increased molecular resolution enhances our ability to detect ecotypes in this way, though yet higher molecular resolution is probably needed to detect all ecotypes in this microbial community.
doi_str_mv	10.1098/rstb.2006.1919
format	Article
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Series B. Biological sciences</title><addtitle>Philos Trans R Soc Lond B Biol Sci</addtitle><description>We have investigated microbial mats of alkaline siliceous hot springs in Yellowstone National Park as natural model communities to learn how microbial populations group into species-like fundamental units. Here, we bring together empirical patterns of the distribution of molecular variation in predominant mat cyanobacterial populations, theory-based modelling of how to demarcate phylogenetic clusters that correspond to ecological species and the dynamic patterns of the physical and chemical microenvironments these populations inhabit and towards which they have evolved adaptations. We show that putative ecotypes predicted by the theory-based model correspond well with distribution patterns, suggesting populations with distinct ecologies, as expected of ecological species. 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Biological sciences</jtitle><addtitle>Philos Trans R Soc Lond B Biol Sci</addtitle><date>2006-11-29</date><risdate>2006</risdate><volume>361</volume><issue>1475</issue><spage>1997</spage><epage>2008</epage><pages>1997-2008</pages><issn>0962-8436</issn><eissn>1471-2970</eissn><abstract>We have investigated microbial mats of alkaline siliceous hot springs in Yellowstone National Park as natural model communities to learn how microbial populations group into species-like fundamental units. Here, we bring together empirical patterns of the distribution of molecular variation in predominant mat cyanobacterial populations, theory-based modelling of how to demarcate phylogenetic clusters that correspond to ecological species and the dynamic patterns of the physical and chemical microenvironments these populations inhabit and towards which they have evolved adaptations. We show that putative ecotypes predicted by the theory-based model correspond well with distribution patterns, suggesting populations with distinct ecologies, as expected of ecological species. Further, we show that increased molecular resolution enhances our ability to detect ecotypes in this way, though yet higher molecular resolution is probably needed to detect all ecotypes in this microbial community.</abstract><cop>London</cop><pub>The Royal Society</pub><pmid>17028085</pmid><doi>10.1098/rstb.2006.1919</doi><tpages>12</tpages><oa>free_for_read</oa></addata></record>
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subjects	Adaptation Adaptation, Biological - genetics Base Sequence Community structure Cyanobacteria Cyanobacteria - genetics Cyanobacteria - physiology Ecological genetics Ecosystem Ecotype Euphotic zone Genetic Variation Genotypes Hot Spring Hot springs Models, Biological Molecular Sequence Data Mushrooms Oxygen - analysis Phylogeny Population ecology RNA, Ribosomal, 16S - genetics Sequence Analysis, DNA Species Species Specificity Spectrum Analysis Synecology Temperature Wyoming
title	Cyanobacterial ecotypes in the microbial mat community of Mushroom Spring (Yellowstone National Park, Wyoming) as species-like units linking microbial community composition, structure and function
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