ABSTRACT The UNESCO‐listed Bochnia Salt Mine in Poland is a heritage site whose galleries remain coupled to surface air, generating warm, humid, salt‐laden summers and cool, dry, ion‐poor winters. Airborne halophilic archaea were recently reported here but their seasonal behaviour remained unknown. We quantified physicochemical parameters and airborne microbes at three underground stations and an outdoor control site. Winter measurements of air samples were compared with previously published summer data from the same transect. Winter relative humidity (~42%–63%) was lower than summer values (~65%–77%). Furthest from the intake shaft, the combined Na + + Cl − aerosol load fell from 2665 to 1280 μg/m 3 (~52%), and cultivable halophilic archaea dropped from 7164 to 528 colony‐forming units/m 3 (~93%). Averaged across the underground stations, halophilic archaeal densities declined by at least 13‐fold between seasons. Halophilic richness contracted from seven to two taxa. Only Halalkalicoccus subterraneus and Halococcus hamelinensis persisted through winter. Non‐halophilic bacterial loads varied by 3.5‐fold but species richness was relatively high. The visitor‐intensive chamber was dominated by skin‐associated bacteria, underscoring anthropogenic control of non‐halophilic communities. This first demonstration of seasonally responsive airborne halophilic archaea shows that their abundance and diversity are strongly influenced by microclimatic water availability in subterranean salt environments.
Puławska et al. (Sun,) studied this question.