Factors affecting the weathering and colonization of monuments by phototrophic microorganisms

Phototrophic microorganisms are common inhabitants of monuments. This paper reviews different aspects of their culture, ecology and deterioration mechanisms. Opportunistic species of cyanobacteria and chlorophytes, present in soils and in the air, are commonly found on the surfaces of monuments. Their growth represents a significant input of organic matter to the stone, as estimated through chlorophyll a quantification. Monuments provide unusual niches for the growth of algal communities, as in the case of black sulfated crusts, or endolithic and hypogeal niches, where more specific processes and/or communities occur.

[1]  J. Wimpenny,et al.  Microbes in their Natural Environments , 1983 .

[2]  Cristina Sabbioni,et al.  Chemical and biological weathering of an historical building: Reggio Emilia Cathedral , 1986 .

[3]  Cesáreo Sáiz-Jiménez,et al.  Endolithic cyanobacteria in Maastricht limestone , 1990 .

[4]  K. Shephard Evaporation of water from the mucilage of a gelatinous algal community , 1987 .

[5]  Cesáreo Sáiz-Jiménez,et al.  Isolation and characterization of epilithic chlorophytes and cyanobacteria from two Spanish cathedrals (Salamanca and Toledo) , 1993 .

[6]  Cesáreo Sáiz-Jiménez,et al.  Deposition of airborne organic pollutants on historic buildings , 1993 .

[7]  M. A. Mason-Williams Further investigations into bacterial and algal populations of caves in South Wales , 1967 .

[8]  Arthur Harry Walters,et al.  Biodeterioration of materials , 1972 .

[9]  M. Sommerfeld,et al.  CRYPTOENDOLITHIC ALGAL COMMUNITIES OF THE COLORADO PLATEAU 1 , 1986 .

[10]  H. J. Jones Algological investigations in Mammoth Cave, Kentucky , 1965 .

[11]  H. Viles Blue-green algae and terrestrial limestone weathering on Aldabra Atoll: An S.E.M. and light microscope study , 1987 .

[12]  R. Sneyers,et al.  The conservation of stone , 1968 .

[13]  L. Tomaselli,et al.  Indagine sperimentale sul ruolo dei cianobatteri e delle microalghe nel deterioramento dei monumenti ed affreschi , 1982 .

[14]  H. Schlichting Some subaerial algae from Ireland , 1975 .

[15]  C. Sabbioni,et al.  Weddellite on limestone in the Venice [Italy] environment. , 1983, Environmental science & technology.

[16]  K. Anagnostidis,et al.  Epilithic and chasmolithic microflora (Cyanophyta, Bacillariophyta) from marbles of the Parthenon (Acropolis-Athens, Greece) , 1983 .

[17]  F. E. Round,et al.  The ecology of algae , 1981 .

[18]  Gene E. Likens,et al.  Primary production: The biosphere and man , 1973 .

[19]  B. Moss,et al.  Survival strategies of the algae , 1984 .

[20]  L. Margulis Biology of the blue green algae: G. E. Fogg, W. P. D. Stewart, P. Fay, and A. E. Walsby, Academic Press, London and New York, 1973. 459 pp., £8.50 , 1976 .

[21]  N. Abdelahad,et al.  Geitleria calcarea Friedmann, Cyanophycée cavernicole nouvelle pour l'Italie , 1988 .

[22]  C. Sabbioni,et al.  Weddellite on limestone in the Venice environment , 1983 .

[23]  Cristina Sabbioni,et al.  A study of the patina called «Scialbatura» on imperial roman marbles , 1987 .

[24]  A. Walsby The Biology of the Cyanobacteria , 1982 .

[25]  F. R. Trainor,et al.  Ecology of soil algae: a review , 1981 .

[26]  J. West Contributions in Phycology , 1972 .

[27]  H. J. Hueck,et al.  The biodeterioration of materials as a part of hylobiology , 1965 .

[28]  Cesáreo Sáiz-Jiménez,et al.  SULFATED CRUSTS: A MICROSCOPIC, INORGANIC AND ORGANIC ANALYSIS , 1991 .

[29]  M. Alexander Introduction to Soil Microbiology , 1978 .

[30]  P. Albertano,et al.  Characterization of the algal flora growing on ancient Roman frescoes , 1987 .

[31]  G. E. Fogg,et al.  The Blue-Green Algae. , 1975 .

[32]  J. Ortega-Calvo,et al.  Cyanobacterial Sulfate Accumulation from Black Crust of a Historic Building , 1994 .

[33]  Cesáreo Sáiz-Jiménez,et al.  Biodeterioration of building materials by cyanobacteria and algae , 1991 .

[34]  L. Hoffmann Rediscovery of Loriella osteophila (Cyanophyceae) , 1990 .

[35]  J. Ortega-Calvo,et al.  Applications of analytical pyrolysis to the study of stony cultural properties , 1991 .

[36]  J. Waterbury,et al.  Generic assignments, strain histories, and properties of pure cultures of cyanobacteria , 1979 .

[37]  Marcel Lefèvre,et al.  LA ‘MALADIE VERTE’ DE LASCAUX , 1974 .

[38]  S. Golubić,et al.  The lithobiontic ecological niche, with special reference to microorganisms , 1981 .

[39]  F. E. Fritsch The structure and reproduction of the Algae , 1935 .

[40]  J. A. Hellebust,et al.  GLUCOSE TRANSPORT SYSTEMS AND GROWTH CHARACTERISTICS OF BRACTEACOCCUS MINOR 1, 2 , 1974 .

[41]  Tim Padfield,et al.  Science, Technology and European Cultural Heritage , 1992 .

[42]  R. Palmer,et al.  Photosynthesis‐based microbial communities on two churches in northern Germany: Weathering of granite and glazed brick , 1991 .