Litcius/Paper detail

Investigations on historical monuments’ deterioration through chemical and isotopic analyses: an Italian case study

Maria Ricciardi, Concetta Pironti, Oriana Motta, Rosa Fiorillo, Federica Camin, Antonio Faggiano, Antonio Proto

2021Environmental Science and Pollution Research32 citationsDOIOpen Access PDF

Abstract

Abstract In this paper, we analysed the efflorescences present in the frescos of a monumental complex named S. Pietro a Corte situated in the historic centre of Salerno (Campania, Italy). The groundwater of the historic centre is fed by two important streams (the Rafastia and the Fusandola) that can be the sources of water penetration. The aims of this work are to (i) identify the stream that reaches the ancient frigidarium of S. Pietro a Corte and (ii) characterize the efflorescences on damaged frescos in terms of chemical nature and sources. In order to accomplish the first aim, the water of the Rafastia river (7 samples) and the water of the Fusandola river (7 samples) were analysed and compared with the water of a well of the Church (7 samples). The ionic chromatography measurements on the water samples allowed us to identify the Rafastia as the river that feeds the ancient frigidarium of S. Pietro a Corte . To investigate the nature and the origin of the efflorescences (our second aim), anionic chromatography analyses, X-ray diffraction measurements, and the isotopic determination of nitrogen were performed on the efflorescences (9 samples) and the salts recovered from the well (6 samples) . Results of these analyses show that efflorescences are mainly made of potassium nitrate with a δ 15 N value of + 9.3 ± 0.2‰. Consequently, a plausible explanation for their formation could be the permeation of sewage water on the walls of the monumental complex.

Topics & Concepts

GroundwaterNitrateMineralogyArchaeologyEnvironmental chemistryGeologyChemistryGeographyOrganic chemistryGeotechnical engineeringBuilding materials and conservationConservation Techniques and StudiesCultural Heritage Materials Analysis