Local genomic adaptation of coral reef-associated microbiomes to gradients of natural variability and anthropogenic stressors

TitleLocal genomic adaptation of coral reef-associated microbiomes to gradients of natural variability and anthropogenic stressors
Publication TypeJournal Article
Year of Publication2014
AuthorsKelly LW, Williams GJ, Barott KL, Carlson CA, Dinsdale E.A, Edwards R.A, Haas AF, Haynes M., Lim Y.W, McDole T., Nelson CE, Sala E, Sandin SA, Smith JE, Vermeij MJA, Youle M., Rohwer F
JournalProceedings of the National Academy of Sciences of the United States of America
Volume111
Pagination10227-10232
Date Published2014/07
Type of ArticleArticle
ISBN Number0027-8424
Accession NumberWOS:000338985700051
Keywordsbacterioplankton; diversity; genes; habitat; Marine bacteria; marine-bacteria; metabolic potential; Microbial biogeography; northern line islands; pacific-ocean; phylogeny; prochlorococcus ecotypes; shifts
Abstract

Holobionts are species-specific associations between macro-and microorganisms. On coral reefs, the benthic coverage of coral and algal holobionts varies due to natural and anthropogenic forcings. Different benthic macroorganisms are predicted to have specific microbiomes. In contrast, local environmental factors are predicted to select for specific metabolic pathways in microbes. To reconcile these two predictions, we hypothesized that adaptation of microbiomes to local conditions is facilitated by the horizontal transfer of genes responsible for specific metabolic capabilities. To test this hypothesis, microbial metagenomes were sequenced from 22 coral reefs at 11 Line Islands in the central Pacific that together span a wide range of biogeochemical and anthropogenic influences. Consistent with our hypothesis, the percent cover of major benthic functional groups significantly correlated with particular microbial taxa. Reefs with higher coral cover had a coral microbiome with higher abundances of Alphaproteobacteria (such as Rhodobacterales and Sphingomonadales), whereas microbiomes of algae-dominated reefs had higher abundances of Gammaproteobacteria (such as Alteromonadales, Pseudomonadales, and Vibrionales), Betaproteobacteria, and Bacteriodetes. In contrast to taxa, geography was the strongest predictor of microbial community metabolism. Microbial communities on reefs with higher nutrient availability (e. g., equatorial upwelling zones) were enriched in genes involved in nutrient-related metabolisms (e. g., nitrate and nitrite ammonification, Ton/Tol transport, etc.). On reefs further from the equator, microbes had more genes encoding chlorophyll biosynthesis and photosystems I/II. These results support the hypothesis that core microbiomes are determined by holobiont macroorganisms, and that those core taxa adapt to local conditions by selecting for advantageous metabolic genes.

DOI10.1073/pnas.1403319111
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