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Arbuscular mycorrhizal fungal networks vary throughout the growing season and between successional stages

To date, few analyses of mutualistic networks have investigated successional or seasonal dynamics. Combining interaction data from multiple time points likely creates an inaccurate picture of the structure of networks (because these networks are aggregated across time), which may negatively influenc...

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Published in:PloS one 2013-12, Vol.8 (12), p.e83241-e83241
Main Authors: Bennett, Alison Elizabeth, Daniell, Tim John, Öpik, Maarja, Davison, John, Moora, Mari, Zobel, Martin, Selosse, Marc-André, Evans, Darren
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cited_by cdi_FETCH-LOGICAL-c758t-5d756e177081bc3e141311b3d0dccf2cc585ae166d903f8071496cae1ce9a7743
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creator Bennett, Alison Elizabeth
Daniell, Tim John
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description To date, few analyses of mutualistic networks have investigated successional or seasonal dynamics. Combining interaction data from multiple time points likely creates an inaccurate picture of the structure of networks (because these networks are aggregated across time), which may negatively influence their application in ecosystem assessments and conservation. Using a replicated bipartite mutualistic network of arbuscular mycorrhizal (AM) fungal-plant associations, detected using large sample numbers of plants and AM fungi identified through molecular techniques, we test whether the properties of the network are temporally dynamic either between different successional stages or within the growing season. These questions have never been directly tested in the AM fungal-plant mutualism or the vast majority of other mutualisms. We demonstrate the following results: First, our examination of two different successional stages (young and old forest) demonstrated that succession increases the proportion of specialists within the community and decreases the number of interactions. Second, AM fungal-plant mutualism structure changed throughout the growing season as the number of links between partners increased. Third, we observed shifts in associations between AM fungal and plant species throughout the growing season, potentially reflecting changes in biotic and abiotic conditions. Thus, this analysis opens up two entirely new areas of research: 1) identifying what influences changes in plant-AM fungal associations in these networks, and 2) what aspects of temporal variation and succession are of general importance in structuring bipartite networks and plant-AM fungal communities.
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subjects Analysis
Annual variations
Arbuscular mycorrhizas
Conservation
Data processing
Earth
Earth science
Ecological succession
Ecology
Ecosystem
Ecosystem assessment
Ecosystems
Environmental changes
Extinction, Biological
Fungi
Growing season
Mutualism
Mycorrhizae - growth & development
Networks
Plant communities
Plant Development
Plant growth
Plant sciences
Plants (botany)
Plants - microbiology
Protection and preservation
Researchers
Seasons
Studies
Succession
Symbiosis
Temporal variations
Trees - growth & development
Trees - microbiology
title Arbuscular mycorrhizal fungal networks vary throughout the growing season and between successional stages
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