Objective Arbuscular mycorrhizal (AM) fungi are crucial components of the plant rhizosphere microbiota, capable of forming symbiotic relationships with 72% of terrestrial plants. However, AM fungi are plant-specific symbiotic fungi in soil, and they are difficult to be enriched for isolation and achieve artificial pure culture. This study aimed to develop a non-plant symbiotic culture system based on the addition of root exudates to solve the problem of difficult in vitro culture of AM fungi.Methods The “multi-layer sandwich” culture system was used for the in vitro quasi-asymbiotic culture of AM fungal spores from soil. Molecular systematics methods were employed to identify the cultured AM fungi.Results A “multi-layer sandwich” culture system was used for the in vitro quasi-asymbiotic culture of AM fungi from soil. It was found that the root exudates of Astragalus sinicus effectively promoted the hyphal growth of AM fungi. A large number (951±45) of secondary spores were produced after 60 days of culture, exceeding those after 30 days and 45 days of culture. Further spore inoculation tests indicated that the secondary spores produced from this culture colonized the roots of A. sinicus seedlings. Two AM fungal species, Funneliformis mosseae and Paraglomus occultum, were identified by molecular characterization as suitable for the “multi-layer sandwich” culture system. Finally, a nutrient solution composed of simulated root exudate components from A. sinicus was used for the “multi-layer sandwich” culture of AM fungal spores. The results showed that the addition of root exudates significantly promoted the hyphal growth of AM fungi.Conclusion In the plant-assisted “multi-layer sandwich” culture system, the root exudates of A. sinicus can continually induce AM fungi to produce hyphae and secondary spores capable of colonizing host plants under non-symbiotic conditions. This study provides a new method for solving the problem related to the in vitro culture, isolation, and identification of AM fungi.