137Cs Gamma Radiation Effect on Fungal Strains on an Artwork by Candido Portinari-Reference-Cited by-同舟云学术

137Cs Gamma Radiation Effect on Fungal Strains on an Artwork by Candido Portinari

Published:2024-06-15 Issue:1 Volume:15 Page:939-954
ISSN:2067-533X
Container-title:International Journal of Conservation Science
language:
Short-container-title:Int J Conserv Sci

Author:

,CARDOSO Renata Nascimento,CORREA Fernanda do Nascimento, ,CHAVEZ Ana Lucia Oliveira, ,LUTTERBACH Marcia Teresa Soares, ,FERREIRA Ana Critina de Mello, ,De Souza Marcia Valeria, ,Da SILVA Luciano Procopio, ,Da COSTA Antonio Carlos Augusto,

Abstract

Gamma radiation is an effective technique for the conservation of art collections, reducing microbial loads and can be obtained by the emission of a radioactive isotope, such as Cesium 137. A Portinari’s artwork (National Museum, Brazil) was analysed, and the fungi contained therein were isolated and treated with gamma radiation for decontamination. Radiation doses used were 16, 19 and 22kGy. Results indicated 11 genera and 17 species of fungi isolated. Penicillium and Cladosporium were isolated from air, the artwork, and its support. The genera Penicillium, Cladosporium, Nigrospora and Curvularia showed high resistance to radiation (16kGy) being the most resistant species Cladosporium, with no growth just under 22kGy. The results outlined indicate that the rates of DNA damage and repair were critical, depending on chronic or acute doses. The biochemical mechanism acting on fungal cells under irradiation was basically the inactivation of specific enzymes and, probably, DNA damage, particularly stimulating double-strand breaks.

Publisher

Universitatea Gheorghe Asachi din Iasi

Reference46 articles.

1. "[1] C. Cicero C, F. Pinzari, F. Mercuri, 18th. Century knowledge in microbial attacks on parchment: Analytical and historical evidence, International Biodeterioration & Biodegradation, 134, 2018, pp. 76-82. https://doi.org/10.1016/j.ibiod.2018.08.007.

2. [2] K. Sterflinger, B. Little, G. Pinae, F. Pinzari, J.D. Gu, Future directions and challenges in biodeterioration research on historic materials and cultural properties, International Biodeterioration & Biodegradation, 129, 2018, pp. 10-12. https://doi.org/10.1016/j.ibiod.2017.12.007.

3. [3] M. Lisińska-Kuśnierz, M. Krupa, K. Paprzyca, J. Syguła-Cholewińska, K. Kuśnierz, O. Ivashko, Deterioration of wood by microorganisms in a historical building on the example of a historical health resort villa, International Journal of Conservation Science, 11(4), 2020, pp. 905-916.

4. [4] M. Abdelmoniem, W.S. Mohamed, N. Mahmoud, M.A. Elfatah, A.M. Omar, Wooden coffin biodeterioration assessment and its restoration with different antimicrobial substances, International Journal of Conservation Science, 13(1), 2022, pp. 73-84.

5. [5] A. Michaelsen, F. Pinzari, N. Barbabietola, G. Pinar, Monitoring the effects of different conservation treatments on paper-infecting fungi, International Biodeterioration & Biodegradation, 84, 2013, pp. 333-341. https://doi.org/10.1016/j.ibiod.2012.08.005.