Bodin, F.; Morlon, H.; Perez-Lamarque, B.

A large majority of plants form mycorrhizal symbioses. The ecological importance of these mutualistic interactions has sparked interest in their long evolutionary history. By examining interaction networks and phylogenetic trees, several studies have suggested that plants codiversify or cospeciate with their associated mycorrhizal fungi. However, recent research has demonstrated that phylogenetic congruence (often interpreted as codiversification) has often been conflated with another pattern called cophylogenetic signal (i.e., closely related plants interacting with closely related fungi), which arises from different biological processes. We performed cophylogenetic analyses on 29 diverse mycorrhizal networks to reevaluate the evidence for codiversification in mycorrhizal symbioses. We found significant cophylogenetic signal but no phylogenetic congruence: closely related plants interact with closely related fungi, but their phylogenies do not match. Instead of codiversification, this finding suggests that plants and fungi undergo diffuse coevolution, likely driven by trait-matching, where compatible, evolutionarily conserved plant and fungal traits govern their interactions. Our work highlights the importance of appropriately interpreting the cophylogenetic methods used to study the macroevolution of plants and their mycorrhizal fungi. It suggests that previous studies proposing codiversification in mycorrhizal symbioses actually detected cophylogenetic signal, indicating that there is no evidence of codiversification or cospeciation occurring during the evolution of mycorrhizal symbioses.