Morphological and molecular characterisation of fungal populations possibly involved in the biological alteration of stones in historical buildings

The deterioration process of historical building is progressive and irreversible, and the timing and mode of impact are different depending on the characteristics of building materials used, local microclimate, air pollution, presence of specific flora and fauna. The chemical and microbiological characterisation of building materials is mandatory in preventing and eventually recovering degradation effects. Ideally, the analysis of structural stones should be complete, efficient, rapid, and non destructive when dealing with a precious or unique construction. The investigation has been performed on a private historical building made using calcarenite stones and sited between the archaeological site of Lavello, a little town located in the Basilicata Region (South Italy), and the industrial area surrounding this town. To study in progress the degradation of stone materials, a new building sample (ca. 1 m3) was constructed by using the same stones (33x15cm), collected from a local quarry. The intact calcarenite stone was characterised by using different methods of surface analysis (XRD, XPS, SEM), and exposed to outdoor conditions. The analyses of the stone material were repeated after three and six months to early evaluate the progression of alterations and the forward modifications of calcarenite structure. After only three months of the new building sample exposure, the adopted analytical methods were able to provide a series of data, which allowed the assessment of the incipient modification of the stone surfaces. The degradation appeared worsened performing the same observations on sixth month replicates, suggesting that environmental conditions modified the structure and the compactness of stones and favoured the biological colonization of surfaces especially in the South–East direction of prevailing winds. For this reason the presence of fungi on the stones’ surface was investigated and a morphological and molecular characterization of sampled fungi was performed. Several genera and species of fungi, possibly, involved in degradation were found. The most frequent colonies belonged to Alternaria (A. infectoria, A. citri and Alternaria sp.), Coprinopsis sp., Penicillium piceum, Fusatrium equiseti and Scytalidium termophilus