Abstract
BACKGROUND: Archaea are vital members of the gut microbiota, yet their diversity and functions in high-altitude wildlife remain poorly understood. Understanding their ecological roles can provide insights into host health and microbial community dynamics. METHODS: We applied metagenome-assembled genome (MAG)-based approaches to investigate gut archaea in Tibetan antelopes (Pantholops hodgsonii) and assess their shifts in the presence of Blastocystis. A total of 463 non-redundant archaeal MAGs were reconstructed and analyzed for taxonomic diversity and functional potential. RESULTS: The MAGs encompassed 16,189 protein clusters, with over 70% representing potentially novel species, highlighting substantial unexplored archaeal diversity. Alpha diversity showed no significant differences between healthy and Blastocystis-present groups, but beta diversity analysis revealed marked community restructuring, including decreased Methanobacteriota and increased Halobacteriota and Thermoplasmatota in the Blastocystis-present group. Functional annotation indicated changes in energy and nucleotide metabolism and alterations in carbohydrate-active enzyme composition. Additionally, putative viral sequences were detected within archaeal MAGs, suggesting potential virus-microbe interactions. CONCLUSION: Our findings provide novel insights into the diversity and ecological functions of gut archaea in Tibetan antelopes, offering a foundation for future research on their contributions to host health and microbial ecology.