**Author details**

Franco Palla Laboratory of Biology and Biotechnology for Cultural Heritage (LaBBCH), University of Palermo-Department of Biological, Chemical and Pharmaceutical Sciences and Technologies (STEBICEF), Palermo, Italy

\*Address all correspondence to: franco.palla@unipa.it

© 2020 The Author(s). Licensee IntechOpen. This chapter is distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/ by/3.0), which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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*Biotechnology and Cultural Heritage Conservation DOI: http://dx.doi.org/10.5772/intechopen.90669*

[1] Crispim CA, Gaylarde PM,

biofilms on calcareous historic buildings. Current Microbiology.

[2] Miller AZ, Sanmartín P, Pereira-Pardo L, Dionísio A, Saiz-Jimenez C, Macedo MF, et al. Bioreceptivity of building stones: A review. Science of The Total Environment. 2012;**426**:e1-e12

[3] Manso S, De Muynck W, Segura I, Aguado A, Steppe K, Boon N, et al. Bioreceptivity evaluation of cementitious materials designed to stimulate biological growth. Science of The Total Environment.

[4] Zurita YP, Cultrone G, Castillo PS, Sebastián E, Bolívar FC. Microalgae associated with deteriorated stonework of the fountain of Bibatauín in Granada, Spain. International Biodeterioration &

Biodegradation. 2005;**5**(1):55-61

[5] Schiavon N. Biodeterioration of calcareous and granitic building stones in urban environments. In: Siegesmund S, Weiss T, Vollbrecht A, editors. Natural Stone, Weathering Phenomena, Conservation Strategies and Case Studies. Vol. 205. London: Geological Society Special Publications;

[6] Wilson MJ. Weathering of rocks by lichens with special reference to stonework: A review. In: Mitchell DJ, Searle DE, editors. Stone Deterioration in Polluted Urban Environments. Land Reconstruction and Management Series 3. Enfield: NH Science Publishers; 2004.

[7] Sarró MI, García AM, Rivalta VM, Moreno DA, Arroyo I. Biodeterioration of the lions fountain at the Alhambra Palace, Granada (Spain). Building and Environment. 2006;**41**:1811-1820

Gaylarde CC. Algal and cyanobacterial

[8] Salvadori O, Municchia AC. The role of fungi and lichens in the

[9] Scheerer S, Ortega-Morales O, Gaylarde C. Microbial deterioration

Journal. 2016;**7**(1):39-54

of stone monuments—An updated overview. In: Laskin AL,

2009. pp. 97-139

pp. 1-9

biodeterioration of stone monuments. The Open Conference Proceedings

Saraslani S, Gadd G, editors. Advances in Microbiology. Vol. 66. London: Elsevier;

[10] Krumbein WE. Patina and cultural

heritage – a geomicrobiologist's prospective – How microbes change surfaces. In: Proceedings of the 5th European Commission Conference on Cultural Heritage Research: A Pan European Challenge; Cracow; 2003.

[11] Sterflinger K, Prillinger H. Molecular taxonomy and biodiversity of rock fungal communities in an urban environment (Vienna, Austria). Antonie van Leeuwenhoek. 2001;**80**:275-286

[12] Isola D, Zucconi L, Onofri S, Caneva G, De Hoog GS, Selbmann L. Extremotolerant rock inhabiting black fungi from Italian monumental sites. Fungal Diversity. 2016;**76**(1):1-22

[13] Palla F, Tartamella E. Chromatic alteration on marble surfaces

analyzed by molecular biology tools. Conservation Science in Cultural

Heritage. 2007;**7**:11-121

2018;**130**:48-54

[14] Tescari M, Frangipani E, Caneva G, Casanova Municchia AL, Sodo A, Visca P. Arthrobacter agilis and rosy discoloration in "Terme del Foro" (Pompei, Italy). International Biodeterioration and Biodegradation.

[15] Zanardini E, Abbruscato P, Ghedini N, Realini M, Sorlini C.

**References**

2003;**46**:79-82

2014;**481**:e232-e241

2002. pp. 195-205

*Biotechnology and Cultural Heritage Conservation DOI: http://dx.doi.org/10.5772/intechopen.90669*
