Decreasing relatedness among mycorrhizal fungi in a shared plant network increases fungal network size but not plant benefit (In Press)

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DOI http://dx.doi.org/10.1111/ele.13947
Reference A. van't Padje, M. Klein, V.E.A. Caldas, L. Oyarte Galvez, C. Broersma, N. Hoebe, I.R. Sanders, T.S. Shimizu and E.T. Kiers, Decreasing relatedness among mycorrhizal fungi in a shared plant network increases fungal network size but not plant benefit (In Press), Ecology Letters, (2021)
Group Systems Biology

Theory suggests that relatives will cooperate more, and compete less, because of an increased benefit for shared genes. In symbiotic partnerships, hosts may benefit from interacting with highly related symbionts because there is less conflict among the symbionts. This has been difficult to test empirically. We used the arbuscular mycorrhizal symbiosis to study the effects of fungal relatedness on host and fungal benefits, creating fungal networks varying in relatedness between two hosts, both in soil and in-vitro. To determine how fungal relatedness affected overall transfer of nutrients, we fluorescently tagged phosphorus and quantified resource distribution between two root systems. We found that colonization by less-related fungi was associated with increased fungal growth, lower transport of nutrients across the network, and lower plant benefit – likely an outcome of increased fungal competition. More generally, we demonstrate how symbiont relatedness can mediate benefits of symbioses.