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Deep sequencing reveals exceptional diversity and modes of transmission for bacterial sponge symbionts

Marine sponges contain complex bacterial communities of considerable ecological and biotechnological importance, with many of these organisms postulated to be specific to sponge hosts. Testing this hypothesis in light of the recent discovery of the rare microbial biosphere, we investigated three Aus...

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Bibliographic Details
Published in:Environmental microbiology 2010-08, Vol.12 (8), p.2070-2082
Main Authors: Webster, Nicole S, Taylor, Michael W, Behnam, Faris, Lücker, Sebastian, Rattei, Thomas, Whalan, Stephen, Horn, Matthias, Wagner, Michael
Format: Article
Language:English
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Summary:Marine sponges contain complex bacterial communities of considerable ecological and biotechnological importance, with many of these organisms postulated to be specific to sponge hosts. Testing this hypothesis in light of the recent discovery of the rare microbial biosphere, we investigated three Australian sponges by massively parallel 16S rRNA gene tag pyrosequencing. Here we show bacterial diversity that is unparalleled in an invertebrate host, with more than 250 000 sponge-derived sequence tags being assigned to 23 bacterial phyla and revealing up to 2996 operational taxonomic units (95% sequence similarity) per sponge species. Of the 33 previously described 'sponge-specific' clusters that were detected in this study, 48% were found exclusively in adults and larvae - implying vertical transmission of these groups. The remaining taxa, including 'Poribacteria', were also found at very low abundance among the 135 000 tags retrieved from surrounding seawater. Thus, members of the rare seawater biosphere may serve as seed organisms for widely occurring symbiont populations in sponges and their host association might have evolved much more recently than previously thought.
ISSN:1462-2912
1462-2920
DOI:10.1111/j.1462-2920.2009.02065.x