Chemical characterization and source apportionment of fine and coarse particulate matter inside the refectory of santa maria delle grazie church, home of Leonardo da Vincis "last supper"

Abstract

The association between exposure to indoor particulate matter (PM) and damage to cultural assets has been of primary relevance to museum conservators. PM-induced damage to the "Last Supper" painting, one of Leonardo da Vincis most famous artworks, has been a major concern, given the location of this masterpiece inside a refectory in the city center of Milan, one of Europes most polluted cities. To assess this risk, a one-year sampling campaign was conducted at indoor and outdoor sites of the paintings location, where time-integrated fine and coarse PM (PM2.5 and PM2.5-10) samples were simultaneously collected. Findings showed that PM2.5 and PM2.5-10 concentrations were reduced indoors by 88 and 94% on a yearly average basis, respectively. This large reduction is mainly attributed to the efficacy of the deployed ventilation system in removing particles. Furthermore, PM2.5 dominated indoor particle levels, with organic matter as the most abundant species. Next, the chemical mass balance model was applied to apportion primary and secondary sources to monthly indoor fine organic carbon (OC) and PM mass. Results revealed that gasoline vehicles, urban soil, and wood-smoke only contributed to an annual average of 11.2 ± 3.7% of OC mass. Tracers for these major sources had minimal infiltration factors. On the other hand, fatty acids and squalane had high indoor-to-outdoor concentration ratios with fatty acids showing a good correlation with indoor OC, implying a common indoor source. © 2011 American Chemical Society.