Fungi in the future: interannual variation and effects of atmospheric change on arbuscular mycorrhizal fungal communities

Summary Understanding the natural dynamics of arbuscular mycorrhizal ( AM ) fungi and their response to global environmental change is essential for the prediction of future plant growth and ecosystem functions. We investigated the long‐term temporal dynamics and effect of elevated atmospheric carb...

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Bibliographic Details
Published in:The New phytologist 2015-01, Vol.205 (4)
Main Authors: Cotton, T. E. Anne, Fitter, Alastair H., Miller, R. Michael, Dumbrell, Alex J., Helgason, Thorunn
Format: Article
Language:English
Subjects:
18S rRNA
arbuscular mycorrhizas
atmospheric change
ENVIRONMENTAL SCIENCES
free air concentration enrichment (FACE)
Glomeromycota
microbial diversity
soil fungi
temporal dynamics
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Summary:Summary Understanding the natural dynamics of arbuscular mycorrhizal ( AM ) fungi and their response to global environmental change is essential for the prediction of future plant growth and ecosystem functions. We investigated the long‐term temporal dynamics and effect of elevated atmospheric carbon dioxide ( CO 2 ) and ozone (O 3 ) concentrations on AM fungal communities. Molecular methods were used to characterize the AM fungal communities of soybean ( Glycine max ) grown under elevated and ambient atmospheric concentrations of both CO 2 and O 3 within a free air concentration enrichment experiment in three growing seasons over 5 yr. Elevated CO 2 altered the community composition of AM fungi, increasing the ratio of Glomeraceae to Gigasporaceae. By contrast, no effect of elevated O 3 on AM fungal communities was detected. However, the greatest compositional differences detected were between years, suggesting that, at least in the short term, large‐scale interannual temporal dynamics are stronger mediators than atmospheric CO 2 concentrations of AM fungal communities. We conclude that, although atmospheric change may significantly alter AM fungal communities, this effect may be masked by the influences of natural changes and successional patterns through time. We suggest that changes in carbon availability are important determinants of the community dynamics of AM fungi.
ISSN:0028-646X
1469-8137