Seasonal variation in airborne microbial communities of the Akiyoshido Cave: Lampenflora dispersed by phototrophic bioaerosols

Lampenflora, such as phototrophic microorganisms, multiply on speleothem surfaces under the show-cave lighting, causing deterioration of the natural and cultural heritages of the caves. Speleothems change color from white to green through microbial photosynthesis and are destroyed by microbial metabolisms. Aerosol transmission are suspected to disperses photosynthetic microorganisms. However, the mechanism underlying the process remains unclear, because the complexity of air ventilation affects the cave atmosphere. In the present study, we collected aerosol samples from the Akiyoshido Cave, which is a special natural monument in Japan and possesses various types of speleothems, to analyze microbial concentrations and communities in the cave atmosphere. Under a fluorescence microscope, phototrophic and heterotrophic microorganisms were observed in the aerosols with in the cave. The aerosol concentrations showed seasonal changes depending on air-flow variations in cave ventilation. High-throughput DNA sequencing targeting 16S rRNA genes revealed that the airborne bacterial communities inside the cave were dominated by members of the phyla Actinomycetota, Bacillota, and Pseudomonadota, originating from the external terrestrial, phyllosphere or freshwater environments, as well as its interior (guano). Cyanobacteria showed small relative abundances (from 1.0 to 10%) randomly in the aerosol samples at several locations in the cave, suggesting that the lampenflora-derived cyanobacteria were dispersed throughout the cave by the ventilation. Additionally, phototrophic microorganisms closely related to the relatives of the genera Leptolyngbya, Calothrix, and Chroococcidiopsis from the phylum Cyanobacteria were isolated from the aerosol samples. These results confirm that Cyanobacteria are one of the candidate microorganisms responsible for lampenflora dispersion and are “alive and airborne” in caves. [Display omitted] •Lampeflora microorganisms turn speleothems green, affecting Akiyoshido cave's biodeterioration.•Seasonal ventilation varies bacterial communities in cave atmosphere.•Airborne bacteria in Akiyoshido originate from outside and inside of cave.•Cyanobacteria in cave aerosols contribute to the lampeflora dispersion.