Recursos de Investigación de la Alhambra

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Biofilms on exposed monumental stones: mechanism of formation and development of new control methods

Title: Biofilms on exposed monumental stones: mechanism of formation and development of new control methods
Author: Cuzman, Oana Adriana
Abstract: Biofilms on exposed monumental stones: mechanism of formation and development of new control methods Cuzman, Oana Adriana (2009) Biofilms on exposed monumental stones: mechanism of formation and development of new control methods Documenti full-text disponibili: Documento PDF - Richiede un lettore di PDF come Xpdf o Adobe Acrobat Reader 9Mb Abstract Within the stone monumental artefacts artistic fountains are extremely favorable to formation of biofilms, giving rise to biodegradation processes related with physical-chemical and visual aspect alterations, because of their particular exposure conditions. Microbial diversity of five fountains (two from Spain and three from Italy) was investigated. It was observed an ample similarity between the biodiversity of monumental stones reported in literature and that one found in studied fountains. Mechanical procedures and toxic chemical products are usually employed to remove such phototrophic patinas. Alternative methods based on natural antifouling substances are recently experimented in the marine sector, due to their very low environmental impact and for the bio settlement prevention on partially immersed structures of ships. In the present work groups of antibiofouling agents (ABAs) were selected from literature for their ability to interfere, at molecular level, with the microbial communication system “quorum sensing”, inhibiting the initial phase of biofilm formation. The efficacy of some natural antibiofoulants agents (ABAs) with terrestrial (Capsaicine - CS, Cinnamaldehyde - CI) and marine origin (Zosteric Acid - ZA, poly-Alkyl Pyridinium Salts – pAPS and Ceramium botryocarpum extract - CBE), incorporated into two commercial coatings (Silres BS OH 100 - S and Wacker Silres BS 290 - W) commonly used in stone conservation procedures were evaluated. The formation of phototrophic biofilms in laboratory conditions (on Carrara marble specimens and Sierra Elvira stone) and on two monumental fountains (Tacca’s Fountain 2 - Florence, Italy and Fountain from Patio de la Lindaraja - Alhambra Palace, Granada, Spain) has been investigated in the presence or absence of these natural antifouling agents. The natural antibiofouling agents, at tested concentrations, demonstrated a certain inhibitory effect. The silane-siloxane based silicone coating (W) mixing with ABAs was more suitable with respect to ethyl silicate coating (S) and proved efficacy against biofilm formation only when incompletely cured. The laboratory results indicated a positive action in inhibiting the patina formation, especially for poly-alkyl pyridinium salts, zosteric acid and cinnamaldehyde, while on site tests revealed a good effect for zosteric acid.
Description: Investiga la diversidad microbiana de tres fuentes italianas y dos españolas, una de ellas la Fuente del Patio de Lindaraja
URI: http://amsdottorato.cib.unibo.it/2257/
http://hdl.handle.net/10514/14288

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Biofilms on exposed monumental stones: mechanism of formation and development of new control methods

Title: Biofilms on exposed monumental stones: mechanism of formation and development of new control methods
Author: Cuzman, Oana Adriana
Abstract: Biofilms on exposed monumental stones: mechanism of formation and development of new control methods Cuzman, Oana Adriana (2009) Biofilms on exposed monumental stones: mechanism of formation and development of new control methods Documenti full-text disponibili: Documento PDF - Richiede un lettore di PDF come Xpdf o Adobe Acrobat Reader 9Mb Abstract Within the stone monumental artefacts artistic fountains are extremely favorable to formation of biofilms, giving rise to biodegradation processes related with physical-chemical and visual aspect alterations, because of their particular exposure conditions. Microbial diversity of five fountains (two from Spain and three from Italy) was investigated. It was observed an ample similarity between the biodiversity of monumental stones reported in literature and that one found in studied fountains. Mechanical procedures and toxic chemical products are usually employed to remove such phototrophic patinas. Alternative methods based on natural antifouling substances are recently experimented in the marine sector, due to their very low environmental impact and for the bio settlement prevention on partially immersed structures of ships. In the present work groups of antibiofouling agents (ABAs) were selected from literature for their ability to interfere, at molecular level, with the microbial communication system “quorum sensing”, inhibiting the initial phase of biofilm formation. The efficacy of some natural antibiofoulants agents (ABAs) with terrestrial (Capsaicine - CS, Cinnamaldehyde - CI) and marine origin (Zosteric Acid - ZA, poly-Alkyl Pyridinium Salts – pAPS and Ceramium botryocarpum extract - CBE), incorporated into two commercial coatings (Silres BS OH 100 - S and Wacker Silres BS 290 - W) commonly used in stone conservation procedures were evaluated. The formation of phototrophic biofilms in laboratory conditions (on Carrara marble specimens and Sierra Elvira stone) and on two monumental fountains (Tacca’s Fountain 2 - Florence, Italy and Fountain from Patio de la Lindaraja - Alhambra Palace, Granada, Spain) has been investigated in the presence or absence of these natural antifouling agents. The natural antibiofouling agents, at tested concentrations, demonstrated a certain inhibitory effect. The silane-siloxane based silicone coating (W) mixing with ABAs was more suitable with respect to ethyl silicate coating (S) and proved efficacy against biofilm formation only when incompletely cured. The laboratory results indicated a positive action in inhibiting the patina formation, especially for poly-alkyl pyridinium salts, zosteric acid and cinnamaldehyde, while on site tests revealed a good effect for zosteric acid.
Description: Investiga la diversidad microbiana de tres fuentes italianas y dos españolas, una de ellas la Fuente del Patio de Lindaraja
URI: http://amsdottorato.cib.unibo.it/2257/
http://hdl.handle.net/10514/14288

Files in this item

Files Size Format View
Cuzman_Oana-Adriana_tesi.pdf 10.24Mb PDF View/Open

The following license files are associated with this item:

This item appears in the following Collection(s)

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