The dark crust on the surface of the Nossa Senhora do Carmo church, in the centre of Rio de Janeiro, was shown to contain high salt levels and neogypsum above the original granite. Delamination and scaling were macroscopically obvious. Next generation DNA sequencing techniques were used for the first time to determine the total microbial populations that could be involved in surface deterioration of historic stone buildings in a tropical climate. High levels of halophilic and stress-resistant bacteria and fungi were identified, able to grow at high temperatures, salt and UV levels, and in the presence of low moisture and toxic fossil fuel emissions. Many produced pigments, adding to the discoloration of the stone surface. The most abundant bacterial group was the Actinobacteria, which can burrow into the compromised rock and produce organic acids that further degrade the substrate. Geodermatophilaceae and Micrococcaceae were the major bacterial families. The majority of the fungi identified were dimorphic and present on the facade in their yeast forms, with few filamentous fungi being seen in the scanning electron microscope. Basidiomycetes were the most common group and the Tremellomycetes the most abundant class. Low numbers of phototroph operational taxonomic units, mainly of Chloroflexi, were detected by the MiSeq sequencing method. Initial chemical alterations of the granite surface, together with the climatic conditions in the city of Rio de Janeiro, determined the surface-colonizing microflora. Salt content appeared to be a major driving factor in community structure. This microbial population participated strongly in crust, formation. The final results of biofilm formation on the stone are surface discoloration, induration and degradation of the facade.

• 出版日期2017-2