Dust-Associated Bacterial and Fungal Communities in Indoor Multiple-Use and Public Transportation Facilities

Indoor microbes are readily transmitted among humans in indoor environments. Therefore, this study employed 16S rRNA gene and ITS amplicon profiling to investigate the dust-associated bacterial and fungal communities in six indoor facilities in Busan, South Korea. The collected samples were categorized into two groups: indoor multiple-use facilities (MUFs), including a public bathing facility, business office, and food court; and public transportation facilities (PTFs), including two subway stations and an airport. The bacterial diversity in the MUF samples was significantly higher than the fungal diversity (p < 0.05). However, no significant differences between bacterial and fungal diversity were observed in PTF samples (p > 0.05). Moreover, the abundances of certain microbial taxa varied, suggesting that the microbial community structure was primarily determined by the source environment. Gram-positive bacterial genera, such as Corynebacterium, Kocuria, and Staphylococcus-all of which originated in the natural environment-were relatively predominant in the MUF samples; the Aspergillus, Penicillium, and Malassezia genera, which are human commensal taxa, were relatively more predominant in the PTF samples. These results suggest that different microbial communities can be formed depending on the purpose of the indoor facility type, level of passenger traffic, and surrounding environment. The findings of this study may help researchers understand indoor microbial communities in multi-use and transportation facilities.

Automated summary

This study investigated the bacterial and fungal communities in six indoor facilities in South Korea. The results showed that the bacterial diversity was higher than the fungal diversity in indoor multiple-use facilities, while no significant difference was observed in public transportation facilities. The abundances of certain microbial taxa varied, suggesting that the microbial community structure was determined by the source environment. These findings provide insights into indoor microbial communities in multi-use and transportation facilities.