Description: Small mammals harbor a diverse array of zoonotic pathogens. To date, however, metagenomic surveys of these species have primarily focused on viral diversity, with limited attention paid to bacteria and eukaryotic pathogens. Additionally, the ecological determinants of pathogen diversity within these mammals have not been systematically examined. Herein, we employed a metatranscriptomics approach to survey the infectome of 2,408 samples, representing lung, liver, and gut tissues from 858 animals across Guangdong province, China, with a study design that accounted for host species, tissue, season, and geographic location. We identified 76 pathogen species, including 29 RNA viruses, 12 DNA viruses, 5 bacteria, and 30 eukaryotic pathogens, 33 of which were newly discovered. Tissue distribution analysis revealed distinct organotropisms, suggesting varied transmission routes, while host distribution analysis showed that each animal carried an average of one pathogen, with 10 pathogens widely distributed across mammalian orders. Our characterization of the geographic and seasonal patterns of these pathogens revealed that pathogen richness was primarily influenced by region, host species, and season, while pathogen composition was largely shaped by host genetic distance. Collectively, these data provide the first comprehensive insight into the dynamics of the total infectome in these key mammalian disease reservoirs, highlighting the major factors driving pathogen diversity and transmission.

Data type: Metagenome; Virus sequences

Sample scope: Multispecies

Relevance: Evolution

Release date: 2025-01-21

Last updated: 2025-01-21

Data size: 6.6TB