Geographic Distance and Habitat Type Influence Fungal Communities in the Arctic and Antarctic Sites

The Antarctic and Arctic regions are collectively referred to as the Two Poles of the earth and have extremely harsh climate conditions and fragile ecosystems. Until now, the biogeography of the fungal communities in the bipolar regions is not well known. In this study, we focused on the fungal communities in 110 samples collected from four habitat types (i.e., soil, vascular plant, freshwater, moss) in the Antarctic and Arctic sites using high-throughput sequencing. The data showed that the diversity and composition of fungal communities were both geographically patterned and habitat-patterned. ANOSIM tests revealed statistically significant differences among fungal communities in the eight sample types (R = 0.5035, p < 0.001) and those in the bipolar regions (R = 0.32859, p < 0.001). Only 396 OTUs (14.8%) were shared between the bipolar sites. Fungal communities in the four habitat types clustered together in the Arctic site but were separate from those of the Antarctic site, indicating that geographic distance was a more important determinant of fungal communities in the bipolar sites. These findings offer insights into the present-day biogeography of fungal communities in the bipolar sites.

Automated summary

This study examined the fungal communities in the Antarctic and Arctic regions using high-throughput sequencing, revealing that diversity and composition of fungal communities are influenced by geography and habitat. There were significant differences in fungal communities between the polar regions, with geographic distance playing a more important role in determining fungal communities.