Cézar Augusto Crispim scite author profile

Growing concern for the preservation of cultural heritage has led to a greater interest in the biological attack on these buildings. The importance of cyanobacteria as deteriogens is emphasized and the traditional and more modern molecular methods used to detect these microorganisms are discussed. The development of molecular techniques for the rapid identification of cyanobacteria without need for culture and isolation is fundamental if our knowledge of these communities in biofilms on the surfaces of historic buildings is to be extended.

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Algal and Cyanobacterial Biofilms on Calcareous Historic Buildings

Crispim

Gaylarde

2003

Current Microbiology

119

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Major microorganisms in biofilms on external surfaces of historic buildings are algae, cyanobacteria, bacteria, and fungi. Their growth causes discoloration and degradation. We compared the phototrophs on cement-based renderings and limestone substrates at 14 historic locations (47 sites sampled) in Europe and Latin America. Most biofilms contained both cyanobacteria and algae. Single-celled and colonial cyanobacteria frequently constituted the major phototroph biomass on limestone monuments (32 sites sampled). Greater numbers of phototrophs, and especially of algae and of filamentous morphotypes, were found on cement-based renderings (15 sites), probably owing to the porosity and small pore size of the latter substrates, allowing greater entry and retention of water. All phototrophic groups were more frequent on Latin American than on European buildings (20 and 27 sites, respectively), with cyanobacteria and filamentous phototrophs showing the greatest differences. The results confirm the influence of both climate and substrate on phototroph colonization of historic buildings.

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Biofilms on church walls in Porto Alegre, RS, Brazil, with special attention to cyanobacteria

Crispim

Gaylarde

2004

International Biodeterioration & Biodegradation

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Deteriogenic cyanobacteria on historic buildings in Brazil detected by culture and molecular techniques

Crispim¹,

Gaylarde²,

Gaylarde³

et al. 2006

International Biodeterioration & Biodegradation

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Molecular biology for investigation of cyanobacterial populations on historic buildings in Brazil

Crispim¹,

Gaylarde²,

Gaylarde³

et al. 2017

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