Abstract
In this work, we want to investigate the impact of different substrates and different environmental condition on the biofilm communities growing on plaster, marble, and mortar substrates inside the Herculaneum Suburban Baths. To do so, we measured environmental conditions and sampled biofilm communities along the walls of the baths and used culture-dependent and -independent molecular techniques (DGGE) to identify the species at each sampling sites. We used the species pool to infer structure and richness of communities within each site in each substrate, and confocal light scanning microscopy to assess the three-dimensional structure of the sampled biofilms. To gather further insights, we built a meta-community network and used its local realizations to analyze co-occurrence patterns of species. We found that light is a limiting factor in the baths environment, that moving along sites equals moving along an irradiation gradient, and that such gradient shapes the community structure, de facto separating a dark community, rich in Bacteria, Fungi and cyanobacteria, from two dim communities, rich in Chlorophyta. Almost all sites are dominated by photoautotrophs, with Fungi and Bacteria relegated to the role of rare species., and structural properties of biofilms are not consistent within the same substrate. We conclude that the Herculaneum suburban baths are an environment-shaped community, where one dark community (plaster) and one dim community (mortar) provides species to a “midway” community (marble).
Highlights
The Roman city of Herculaneum was destroyed in AD 79 when the Vesuvius erupted and inundated the town with hot volcanic material, submerging houses and streets [1]
This study aims to assess the influence of substrate and microclimatic conditions on species composition and three-dimensional structure of biofilms growing in Herculaneum Suburban Baths
Plotting the environmental features of samples (Table 2) shows that relative humidity (RH) is always close to saturation and that both humidity and temperature values partially overlaps among samples and substrates, while irradiance changes moving from the plaster substrate towards marble and mortar is lower in the plaster site (Fig 2)
Summary
The Roman city of Herculaneum was destroyed in AD 79 when the Vesuvius erupted and inundated the town with hot volcanic material, submerging houses and streets [1]. Due to their burial under a thick layer of solidified lava, the Suburban Baths of ancient Herculaneum. The inside environment is highly humid, indirectly exposed to a weak light filtering from the outside, and thermally stable [3]; the public is currently not allowed to enter the site These conditions allowed different microorganisms to quickly and permanently colonize the walls of the Baths, forming dark green or blackpigmented patinas and incrustations that extensively spread on different substrates in some of the Baths’ rooms
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