Litcius/Paper detail

<scp>AMF</scp> diversity promotes plant community phosphorus acquisition and reduces carbon costs per unit of phosphorus

Sören E. Weber, Jordi Bascompte, Ansgar Kahmen, Pascal A. Niklaus

2025New Phytologist27 citationsDOIOpen Access PDF

Abstract

Summary Plants may benefit from more diverse communities of arbuscular mycorrhizal fungi (AMF), as functional complementarity of AMF may allow for increased resource acquisition, and because a high AMF diversity increases the probability of plants matching with an optimal AMF symbiont. We repeatedly radiolabeled plants and AMF in the glasshouse over c. 9 months to test how AMF species richness (SR) influences the exchange of plant C ( 14 C) for AMF P ( 32 P &amp; 33 P) and resulting shoot nutrients and mass from a biodiversity–ecosystem functioning perspective. Plant P acquisition via AMF increased with sown AMF SR, as did shoot biomass, shoot P, and shoot N. The rate of plant C transferred to AMF for this P (C:P) decreased with sown AMF SR. Plants in plant communities benefit from inoculation with a variety of AMF species via more favorable resource exchange. Surprisingly, this effect did not differ among functionally distinct communities comprised entirely of either legumes, nonlegume forbs, or C3 grasses.

Topics & Concepts

ShootBiologyPhosphorusNutrientTerrestrial plantBiomass (ecology)BiodiversityAgronomyEcosystemSpecies richnessBotanyPlant communityChemistryEcologyOrganic chemistryMycorrhizal Fungi and Plant InteractionsFungal Biology and ApplicationsPlant Parasitism and Resistance