Distinct bacteria display genus and species-specific associations with mycobionts in paramo lichens in Colombia.

Abstract

Lichens are complex symbiotic systems where fungi interact with an extracellular arrangement of one or more photosynthetic partners and an indeterminate number of other microbes. Recently, specific lichen-microbial community associations have been proposed. In this study, we aimed to characterize the differences in bacteria associated with closely related lichens, under a defined set of environmental conditions in Colombian paramos. Our goal was to determine if there is a correlation between microbiota and host divergence in lichen species belonging to the genus Sticta. We found that specific microbiota are defined by their mycobiont at the genus level. Further, distinct bacterial families show differences among the three studied genera, and specific amplicon sequence variants further discriminate among lichen species within each genus. A geographic component also determines the composition of these microbial communities among lichen species. Our functional analysis revealed that fungal partners play a key role in synthesizing complex polysaccharides, while bacterial-derived antioxidants and photoprotective mechanisms contribute to desiccation tolerance in lichens. These insights highlight the complex interactions within lichen symbioses that could be relevant in environments such as the paramo ecosystem.