Plant-mycorrhizal fungus co-occurrence network lacks substantial structure

Francisco Encinas-Viso*, David Alonso, John N. Klironomos, Rampal S. Etienne, Esther R. Chang

*Corresponding author for this work

Research output: Contribution to journalArticleAcademicpeer-review

16 Citations (Scopus)

Abstract

The interactions between plants and arbuscular mycorrhizal fungi (AMF) maintain a crucial link between macroscopic organisms and the soil microbial world. These interactions are of extreme importance for the diversity of plant communities and ecosystem functioning. Despite this importance, only recently has the structure of plant-AMF interaction networks been studied. These recent studies, which used genetic data, suggest that these networks are highly structured, very similar to plant-animal mutualistic networks. However, the assembly process of plant-AMF communities is still largely unknown, and an important feature of plant-AMF interactions has not been incorporated: they occur at an extremely localized scale. Studying plant-AMF networks in a spatial context seems therefore a crucial step. This paper studies a plant-AMF spatial co-occurrence network using novel methodology based on information theory and a unique set of spatially explicit species-level data. We apply three null models of which only one accounts for spatial effects. We find that the data show substantial departures from null expectations for the two non-spatial null models. However, for the null model considering spatial effects, there are few significant co-occurrences compared with the other two null models. Thus, plant-AMF spatial co-occurrences seem to be mostly explained by stochasticity, with a small role for other factors related to plant-AMF specialization. Furthermore, we find that the network is not significantly nested or modular. We conclude that this plant-AMF spatial co-occurrence network lacks substantial structure and, therefore, plants and AMF species do not track each other over space. Thus, random encounters seem more important in the first step of the assembly of plant-AMF communities.

Synthesis The symbiotic interaction between plants and arbuscular mycorrhizal fungi (AMF) is crucial for ecosystem functioning. However, the factors affecting the assembly of plant-AMF communities are poorly understood. An important factor of the assembly of plant-AMF communities has been overlooked: plant-AMF interactions occur at a localized spatial scale. Our study investigated the importance of space in the structure of plant-AMF communities. We studied a plant-AMF spatial co-occurrence network using a unique set of spatially explicit data and applied three null models. We found that plant-AMF spatial co-occurrences seem to be mostly explained by stochasticity. In particular, our study shows that this plant-AMF spatial co-occurrence network lacks substantial structure and, therefore, plants and AMF species do not track each other over space. Thus, random encounters seem to drive the assembly of plant-AMF communities.

Original languageEnglish
Pages (from-to)457-467
Number of pages11
JournalOikos
Volume125
Issue number4
DOIs
Publication statusPublished - Apr-2016

Keywords

  • ANIMAL MUTUALISTIC NETWORKS
  • SPECIES ASSOCIATIONS
  • COMMUNITIES
  • ROOTS
  • PATTERNS
  • HETEROGENEITY
  • BIODIVERSITY
  • ASSEMBLAGES
  • GROWTH
  • FOREST

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