Amplicon Analysis of Dictean Cave Microbial Communities and Essential Oils as a Mild Biocide.

Naturally occurring caves are sites of significant cultural value, while also displaying the unique biodiversity of associated microbiomes that may provide an untapped source of potentially beneficial organisms. However, the touristic exploitation of show caves may ultimately result in the biodeterioration of speleothems, primarily through the introduction and establishment of alien microbiota or the uncontrolled growth of indigenous species, exacerbated by the use of artificial lighting. These habitat characteristics are present in the Dictean cave, also known as "Diktaion Andron", a highly visited cave in eastern Crete, Greece, which was regarded in ancient Greek mythology as one of the putative sites of the birth of Zeus. Therefore, an efficient approach to controlling these ecological niches without irreversibly disturbing microbial diversity is needed, and essential oils are currently being investigated as a mild cleaning method. The present study exami-ned the microbial diversity of the Dictean cave using 16S and 18S rRNA gene amplicon sequencing and methods for quantitative metabolic activity estimations and also investigated the application of a formulation containing specific essential oils as a mild cleaning method. Amplicon sequencing ana-lyses revealed distinct profiles among the different sample sites, with species of the genera Pseudomonas, Sporosarcina, Butiauxella, Glutamicibacter, Paenibacillus, Mortierella, and Jenufa being the most abundant, while uncharacterized microorganisms were also detected. The single simultaneous application of a formulation of 0.2% (v/v) oregano and 0.4% (v/v) cinnamon essential oils was effective at significantly reducing microbial metabolic activity by up to 89.2% within 24 h, without adversely affecting the coloration of speleothems.