Assembly Mechanisms and Functional Adaptations of Soil Fungal Communities of Different Plant Rhizospheres in Ilmenite Mining Area DOI Creative Commons

Chen Sumin,

Bingliang Liu, Yunfeng Zhang

et al.

Journal of Fungi, Journal Year: 2025, Volume and Issue: 11(3), P. 165 - 165

Published: Feb. 20, 2025

This study investigated the mechanisms of structural assembly and functional adaptations fungal communities in rhizosphere soils seven different plants grown ilmenite zone. We analyzed changes soil using ITS sequencing. The results revealed that affected properties soil. contents organic matter, total nitrogen, potassium exhibited significant variations compared to was not occupied by plants. Soil composition analysis Ascomycota Basidiomycota were dominant phyla this mining area. At genus level, mineral without plants, proportion Epicoccum increased while Fusarium decreased. Alpha diversity studies rhizospheres changed significantly. Beta showed a differentiation community structure plant KB group. FunGuild predictions indicated are enriched with guilds trophic patterns fungi. In addition, we found physical chemical significantly correlated abundance communities. above indicate species physicochemical important factors influencing rhizosphere. research provides insights into structures iron areas. helps us screen assemblages can promote restoration areas provide theoretical basis for future ecological

Language: Английский

Assembly Mechanisms and Functional Adaptations of Soil Fungal Communities of Different Plant Rhizospheres in Ilmenite Mining Area DOI Creative Commons

Chen Sumin,

Bingliang Liu, Yunfeng Zhang

et al.

Journal of Fungi, Journal Year: 2025, Volume and Issue: 11(3), P. 165 - 165

Published: Feb. 20, 2025

This study investigated the mechanisms of structural assembly and functional adaptations fungal communities in rhizosphere soils seven different plants grown ilmenite zone. We analyzed changes soil using ITS sequencing. The results revealed that affected properties soil. contents organic matter, total nitrogen, potassium exhibited significant variations compared to was not occupied by plants. Soil composition analysis Ascomycota Basidiomycota were dominant phyla this mining area. At genus level, mineral without plants, proportion Epicoccum increased while Fusarium decreased. Alpha diversity studies rhizospheres changed significantly. Beta showed a differentiation community structure plant KB group. FunGuild predictions indicated are enriched with guilds trophic patterns fungi. In addition, we found physical chemical significantly correlated abundance communities. above indicate species physicochemical important factors influencing rhizosphere. research provides insights into structures iron areas. helps us screen assemblages can promote restoration areas provide theoretical basis for future ecological

Language: Английский

Citations

0