Diversity and Functionalities of Unknown Mycorrhizal Fungal Microbiota

Abstract

Beneficial ecosystem services provided by arbuscular mycorrhizal fungi (AMF) are the outcome of their synergistic actions with diverse bacterial communities (AMF–associated bacteria; AAB) living in strict association with AMF hyphae and spores. Herein, bacterial diversity associated with 6 AMF species from 33 different co-cultures belonging to order Glomerales and Diversisporales were identified, using a combination of culture-dependent functional analyses and amplicon sequencing. Overall, 231 bacterial strains were isolated from the AMF spores and hyphae which covered 30 bacterial genera and 52 species. Hierarchical clustering based on plant growth promoting traits identified 9 clades comprising diverse bacterial genera with clades 7, 8 and 9 representing the most functionally rich AAB. High-throughput amplicon sequencing across a small subset of 8 AMF co-cultures spread across 3 AMF genera identified Operational Taxonomic Units belonging to 118 bacterial genera. The study revealed a greater diversity of AAB from spores of in vitro transformed AMF root co-cultures rather than in situ, pot AMF cultures. Functionally active, culturable AABs with multiple plant growth promoting traits such as phosphate solubilisation, nitrogen fixation, biofilm formation, enzyme and plant growth regulator production along with biocontrol activity were identified. These properties could be utilized individually and/or as consortia with AMF, as biological growth enhancers.