Eukaryotic algae and cyanobacteria occur virtually in every terrestrial habitat on our planet. Organisms belonging to these groups are present even in some of the most extreme terrestrial environments, such as rocks in hot and cold deserts (Friedmann and Ocampo-Friedmann, 1984), Antarctic soils (Broady, 1996) and highly acidic post-mining sites (Lukešová, 2001). As early as the beginning of the nineteenth century, it was realized that microalgae occur also on walls, masonry and other man-made substrata (e.g. Dillwyn, 1809; Agardh, 1824); however, very little attention has been devoted to this type of algal communities until recently. Cities are artificial environments in which artificial substrata (such as concrete, asphalt, glass and metal) provide the largest part of the surfaces available for the colonization of microorganisms. The surfaces of many urban buildings are exposed to full sunlight; organisms growing on such surfaces are therefore frequently subjected to extremely high light irradiance, high levels of UV radiation and extreme dehydration (Crispim and Gaylarde, 2004; Karsten et al., 2005). The temperature of walls and roofs is subjected to a high range of variation and, in tropical regions, can reach 60–70ºC (Tripathi et al., 1990). Most urban habitats are also affected by large amounts of pollutants, such as gases (SO2, CO, NOX, hydrocarbons, ozone), aerosols, dusts and heavy metals (Seaward, 1979; John, 1988). Due to such a negative combination of factors for organisms of aquatic origin, for microalgae and cyanobacteria cities can be certainly considered extreme environments. Reports on algae and cyanobacteria from urban habitats have gradually appeared in the last few decades. Most studies on this subject concern European, Asiatic and South American cities; at present, there is almost no information published for other continents. In general, the knowledge of the diversity and ecology of these communities is still rudimentary, because most studies have focused much more on the biodeterioration operated by these organisms on artificial surfaces than on their biology. In this chapter, the information currently available on cyanobacteria and green algae of urban environments is summarized. General aspects of the diversity and distribution of these organisms in urban habitats are discussed, and the composition and ecology of the most common algal assemblages in these environments are described in detail.
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References
Agardh, C.A. (1824). Systema algarum. Literis Berlingiana, Lund, 312 pp.
Anagnostidis, K., Economou-Amilli, A. and Roussomoustakaki, M. (1983). Epilithic and chas-molithic microflora (Cyanophyta, Bacillariophyta) from marbles of the Parthenon (Acropolis-Athens, Greece). Nova Hedwigia 38: 227-287.
Barkman, J.J. (1958). Phytosociology and Ecology of Cryptogamic Epiphytes. Van Gorcum and Comp. N.V. - G.A. Hak and Dr. H.J. Prakke, Assen, 628 pp.
Bates, J.W., Bell, J.N.B. and Farmer, A.M. (1990). Epiphyte recolonization of oaks along a gradient of air-pollution in South-East England, 1979-1990. Environ. Pollut. 68: 81-99.
Bates, J.W., Bell, J.N.B. and Massara, A.C. (2001). Loss of Lecanora conizaeoides and other fluctua-tions of epiphytes on oak in SE England over 21 years with declining SO2 concentrations. Atmos. Environ. 35: 2557-2568.
Bellinzoni, A.M., Caneva, G. and Ricci, S. (2003). Ecological trends in travertine colonisation by pio-neer algae and plant communities. Int. Biodeter. Biodegr. 51: 203-210.
Boye Petersen, J. (1928). The aerial algae of Iceland. In: L.K. Rosenvinge and E. Warming (eds.) The Botany of Iceland. Vol. II. Part II. J. Frimodt, Copenhagen, and Wheldon and Wesley, London, pp. 325-447.
Broady, P.A. (1996). Diversity, distribution and dispersal of Antarctic terrestrial algae. Biodivers. Conserv. 5: 1307-1335.
Brook, A.J. (1968). The discoloration of roofs in the United States and Canada by algae. J. Phycol. 4: 250.
Caneva, G., Gori, E. and Danin, A. (1992a). Incident rainfall in Rome and its relation to biodeterio-ration of buildings. Atmos. Environ. 26B: 255-259.
Caneva, G., Nugari, M.P., Ricci, S. and Salvadori O. (1992b). Pitting of marble Roman monuments and the related microflora. In: J.D. Rodrigues, F. Henriques and F.T. Jeremias (eds.) Proceedings of the Seventh International Congress on Deterioration and Conservation of Stone. Laboratorio Nacional de Engenharia Civil, Lisbon, pp. 521-530.
Caneva, G. Danin, A., Ricci, S. and Conti, C. (1994). The pitting of the Trajan’s column, Rome: an ecological model of its origin. In: Conservazione del patrimonio culturale. Contributi del Centro Linceo Interdisciplinare“Beniamino Segre”n.88 Accademia Nazionale dei Lincei, Rome, pp. 77-101.
Caneva, G., Gori, E. and Montefinale, T. (1995). Biodeterioration of monuments in relation to cli-matic changes in Rome between 19-20th centuries. Sci. Total Environ. 167: 205-214.
Crispim, C.A. and Gaylarde, C.C. (2004). Cyanobacteria and biodeterioration of cultural heritage: a review. Microb. Ecol. 49: 1-9.
Crispim, C.A., Gaylarde, P.M. and Gaylarde, C.C. (2003). Algal and cyanobacterial biofilms on cal-careous historic buildings. Curr. Microbiol. 46: 79-82.
Crispim, C.A., Gaylarde, C.C. and Gaylarde, P.M. (2004). Biofilms on church walls in Porto Alegre, RS, Brazil, with special attention to cyanobacteria. Int. Biodeter. Biodegr. 54: 121-124.
Danin, A. and Caneva, G. (1990). Deterioration of limestone walls in Jerusalem and marble monu-ments in Rome caused by cyanobacteria and cyanophilous lichens. Int. Biodeter. 26: 397-417.
Darienko, T. and Hoffmann, L. (2003). Algal growth on cultural monuments in Ukraine. Biologia, Bratislava 58: 575-587.
Darlington, A. (1981). Ecology of Walls. Heinemann Educational Books, London, 138 pp.
Dillwyn, L.W. (1809). British Confervae or colored figures and descriptions of the British plants referred by botanists to the genus Conferva. W. Phillips, London, 87 pp.
Ettl, H. and Gärtner, G. (1995). Syllabus der Boden-, Luft- und Flechtenalgen. Gustav Fischer Verlag, Stuttgart, Jena and New York, 721 pp.
Flores, M., Lorenzo, J. and Gómez-Alarcón, G. (1997). Algae and bacteria on historic monuments at Alcalá de Henares, Spain. Int. Biodeter. Biodegr. 40: 241-246.
Friedmann, E.I. and Ocampo-Friedmann (1984). Endolithic microorganisms in extreme dry environ-ments: analysis of a lithobiontic microbial habitat. In: M.J. Klug and C.A. Reddy (eds.) Microbial Ecology. American Society for Microbiology, Washington DC, pp. 177-185.
Fritsch, F.E. and Haines, F.M. (1923). The moisture-relations of terrestrial algae. II. The changes dur-ing exposure to drought and treatment with hypertonic solutions. Ann. Bot. 37: 683-728.
Garcia-Pichel, F., Sherry, N.D. and Castenholz, R.W. (1992). Evidence for ultraviolet sunscreen role of the extracellular pigment scytonemin in the terrestrial cyanobacterium Chlorogloeopsis sp. Photochem. Photobiol. 56: 17-23.
Garcia-Pichel, F., Wingard, C.E. and Castenholz, R.W. (1993). Evidence regarding the UV sunscreen role of a mycosporine-like compound in the cyanobacterium Gloeocapsa sp. Appl. Environ. Microbiol. 59: 170-176.
Gärtner, G. (1994). Zur Taxonomie aerophiler grüner Algenflüge an Baumrinden. Ber. Nat.-Med. Verein Innsbruck 81: 51-59.
Gärtner, G. and Stoyneva, M.P. (2003). First study of aerophytic cryptogams on monuments in Bulgaria. Ber. Nat.-Med. Verein Innsbruck 90: 73-82.
Garty, J. (1990). Influence of epilithic microorganisms on the surface temperature of building walls. Can. J. Bot. 68: 1349-1353.
Gaylarde, P.M. and Gaylarde, C.C. (1999). Algae and cyanobacteria on painted surfaces in southern Brazil. Rev. Microbiol. 30: 209-213.
Gaylarde, P.M. and Gaylarde, C.C. (2000). Algae and cyanobacteria on painted buildings in Latin America. Int. Biodeter. Biodegr. 46: 93-97.
Gaylarde, C.C. and Gaylarde, P.M. (2005). A comparative study of the major microbial biomass of biofilms on exteriors of buildings in Europe and Latin America. Int. Biodeter. Biodegr. 55: 131-139.
Gaylarde, C.C. and Morton, L.H.G. (1999). Deteriogenic biofilms on buildings and their control: a review. Biofouling 14: 59-74.
Gaylarde, C.C., Gaylarde, P.M., Copp, J. and Neilan, B. (2004). Polyphasic detection of cyanobacteria in terrestrial biofilms. Biofouling 20: 71-79.
Giaccone, G. and Di Martino, V. (1999). Biologia delle alghe e conservazione dei monumenti. Boll. Acc. Gioenia Sci. Nat. 32: 53-81.
Gilbert, O.L. (1991). The Ecology of Urban Habitats. Chapman and Hall, London, 369 pp.
Golubic, S. (1967). Algenvegetation der Felsen. Eine ökologische Algenstudie im dinarischen Karstgebiet. In: H.J. Elster and W. Ohle (eds.) Die Binnengewässer 23. E. Schweizerbart’sche Verlagsbuchhandlung, Stuttgart, pp. 1-183.
Gómez-Alarcón, G., Muñoz, M., Ariño, X. and Ortega-Calvo, J.J. (1995). Microbial communities in weathered sandstones: the case of Carrascosa del Campo church, Spain. Sci. Total Environ. 167: 249-254.
Grant, C. (1982). Fouling of terrestrial substrates by algae and implications for control - a review. Int. Biodeter. Bull. 18: 57-65.
Häubner, N., Schumann, R. and Karsten, U. (2006). Aeroterrestrial miroalgae growing in biofilms on facades - response to temperature and water stress. Microb. Ecol. 51: 285-293.
Ho, K.K., Tan, K.H. and Wee, Y.C. (1983). Growth conditions of Trentepohlia odorata (Chlorophyta, Ulotrichales). Phycologia 22: 303-308.
Hoffmann, L. (1986). Cyanophycées aériennes et subaériennes du Grand-Duché de Luxembourg. Bull. Jard. Bot. Nat. Belg. 56: 77-127.
Hoffmann, L. (1989). Algae of terrestrial habitats. Bot. Rev. 55: 77-105.
Jaag, O. (1945). Untersuchungen über dieVegetation und Biologie der Algen des nackten Gesteins in den Alpen, im Jura und im schweizerischen Mittelland. Beiträge zur Kryptogamenflora der Schweiz, Band IX, Heft 3. Kommissionsverlag Buchdruckerei Büchler and Co., Bern, 560 pp.
John, D.M. (1988). Algal growths on buildings: a general review and methods of treatment. Biodeter. Abstr. 2: 81-102.
John, D.M. (2002). Orders Chaetophorales, Klebsormidiales, Microsporales, Ulotrichales. In: D.M. John, B.A. Whitton and A.J. Brook (eds.) The Freshwater Algal Flora of the British Isles. Cambridge University Press, Cambridge, pp. 433-468.
Joshi, C.D. and Mukundan, U. (1997). Algal disfigurement and degradation of architectural paints in India. Paintindia 47: 27-32.
Kapusta, M and Kovacik, L. (2000). Epilithic phycoflora on the selected anthropogenic objects in Bratislava (Slovakia) (in Slovak). Bull. Slov. Bot. Spolocn. Bratislava 22: 15-22.
Karsten, U., Friedl, T., Schumann, R., Hoyer, K. and Lembcke, S. (2005). Mycosporine-like amino acids and phylogenies in green algae: Prasiola and its relatives from the Trebouxiophyceae (Chlorophyta). J. Phycol. 41: 557-566.
Kovacik, L. (2000). Cyanobacteria and algae as agents of biodeterioration of stone substrata of his-torical buildings and other cultural monuments. In: S. Choi and M. Suh (eds.) Proceedings of the New Millennium International Forum on Conservation of Cultural Property. Kongju National University, Kongju, pp. 44-58.
Lamenti, G., Tiano, P. and Tomaselli, L. (2000). Biodeterioration of ornamental marble statues in the Boboli Gardens (Florence, Italy). J. Appl. Phycol. 12: 427-433.
Lee, K.B. and Wee, Y.C. (1982). Algae growing on walls around Singapore. Malay. Nat. J. 35: 125-132.
López-Bautista, J.M., Waters, D.A. and Chapman, R.L. (2002). The Trentepohliales revisited. Constancea 83 (http://ucjeps.berkeley.edu/constancea/83/lopez_etal/trentepohliales.html).
Lukešová, A. (2001). Soil algae in brown coal and lignite post-mining areas in central Europe (Czech Republic and Germany). Restor. Ecol. 9: 341-350.
Lüttge, U. (1997). Cyanobacterial tintenstrich communities and their ecology. Naturwissenschaften 84: 526-534.
Menéndez, J.L. and Rico, J.M. (2001). Rosenvingiella polyrhiza (Rosenv.) P.C. Silva y Prasiola calophylla (Carmich. ex Grev.) Kützing (Prasiolaceae), dos nuevas Prasiolales del NW peninsular. An. Jard. Bot. Madrid 58: 352-354.
Menéndez, J.L., Rindi, F., Rico, J.M. and Guiry, M.D. (2006). The use of CHAID classification trees as an effective descriptor of the distribution of Rosenvingiella radicans (Prasiolales, Chlorophyta) in urban environments. Cryptogamie, Algol. 27: 153-164.
Mikami, K. and Murata, M. (2003). Membrane fluidity and the perception of environmental signals in cyanobacteria and plants. Prog. Lipid Res. 42: 527-543.
Morison, M.O. and Sheath, R.G., (1985). Responses to desiccation stress by Klebsormidium rivulare (Ulotrichales, Chlorophyta) from a Rhode Island stream. Phycologia 24: 129-145.
Nienow, J.A. (1996). Ecology of subaerial algae. Nova Hedwigia Beih. 112: 537-552.
Noguerol-Seoane, A. and Rifón-Lastra, A. (1997). Epilithic phycoflora on monuments. A survey of San Esteban de Ribas de Sil monastery (Ourense, NW Spain). Cryptogamie, Algol. 18: 351-361.
Ong, B.L., Lim, M. and Wee, Y.C. (1992). Effects of desiccation and illumination on photosynthesis and pigmentation of an edaphic population of Trentepohlia odorata (Chlorophyta). J. Phycol. 28: 768-772.
Ortega-Calvo, J.J., Hernández-Mariné, M. and Saiz-Jiménez, C. (1991). Biodeterioration of building materials by cyanobacteria and algae. Int. Biodeter. 28: 165-185.
Ortega-Calvo, J.J., Hernández-Mariné, M. and Saiz-Jiménez, C. (1993a). Cyanobacteria and algae on historic buildings and monuments. In: K.L. Garg, N. Garg and K.G. Mukerji (eds.) Recent Advances in Biodeterioration and Biodegradation. Naya Prokash, Calcutta, pp. 175-203.
Ortega-Calvo, J.J., Hernández-Mariné, M. and Saiz-Jiménez, C. (1993b). Niches for phototrophic microoganisms in stone monuments. In: R. Guerrero and C. Pedrós-Alió (eds.) Trends in Microbial Ecology. Spanish Society for Microbiology, pp. 673-676.
Ortega-Calvo, J.J., Sanchez-Castillo, P.M., Hernández-Mariné, M. and Saiz-Jiménez, C. (1993c). Isolation and characterization of epilithic chlorophytes and cyanobacteria from two Spanish cathedrals (Salamanca and Toledo). Nova Hedwigia 57: 239-253.
Ortega-Calvo, J.J., Ariño, X., Hernández-Mariné, M. and Saiz-Jiménez, C. (1995). Factors affecting the weathering and colonization of monuments by phototrophic microorganisms. Sci. Total. Environ. 167: 329-341.
Pisut, I. and Lisicka, E. (2000). Monitoring ofepiphytes on permanent plot in the vicinity of Bratislava (SW Slovakia). Biologia 55: 369-373.
Poli Marchese, E., Luciani, F., Razzara, S., Grillo, M., Auricchia, A., Stagno, F., Giaccone, G., Di Geronimo, R. and Di Martino, V. (1995). Biodeteriorating plants on monuments and stonework in historical city centre of Catania: “Il monastero dei Benedettini”. In: Proceedings of the first International Congress on “Science and technology for the safeguard of cultural heritage in the Mediterranean basin”. University of Catania, Catania, pp. 1195-1203.
Potts, M. (1999). Mechanisms of desiccation tolerance in cyanobacteria. Eur. J. Phycol. 34: 319-328.
Ricci, S., Pietrini, A.M. and Giuliani, M.R. (1989). A contribution to the knowledge of the algal flora of archaeological remains: the Foro Romano. Braun-Blanquetia 3: 319-320.
Rifón-Lastra, A. and Noguerol-Seoane, Á. (2001). Green algae associated with the granite walls of monuments in Galicia (NW Spain). Cryptogamie, Algol. 22: 305-326.
Rindi, F. and Guiry, M.D. (2002). Diversity, life history and ecology of Trentepohlia and Printzina (Trentepohliales, Chlorophyta) in urban habitats in western Ireland. J. Phycol. 38: 39-54.
Rindi, F. and Guiry, M.D. (2003). Composition and distribution of subaerial algal assemblages in Galway City, western Ireland. Cryptogamie, Algol. 24: 245-267.
Rindi, F. and Guiry, M.D. (2004). Composition and spatial variability of terrestrial algal assemblages occurring at the bases of urban walls in Europe. Phycologia 43: 225-235.
Rindi, F., Guiry, M.D., Barbiero, R.P. and Cinelli, F. (1999). The marine and terrestrial Prasiolales (Chlorophyta) of Galway City, Ireland: a morphological and ecological study. J. Phycol. 35: 469-482.
Rindi, F. Guiry, M.D., Critchley, A.T. and Ar Gall, E. (2003). The distribution of some species of Trentepohliaceae (Trentepohliales, Chlorophyta) in France. Cryptogamie, Algol. 24: 133-144.
Rindi, F., McIvor, L. and Guiry, M.D. (2004). The Prasiolales (Chlorophyta) of Atlantic Europe: an assessment based on morphological, molecular and ecological data, including the characterization of Rosenvingiella radicans (Kützing) comb. nov. J. Phycol. 40: 977-997.
Rosas, I., Roy-Ocotla, G., Mosiño, P., Baez, A. and Rivera, L. (1987). Abundance and heterogeneity of algae in the Mexico City atmosphere. Geofis. Int. 26: 359-373.
Roy-Ocotla, G. and Carrera, J. (1993). Aeroalgae: responses to some aerobiological questions. Grana 32: 48-56.
Saiz-Jimenez, C., Garcia-Rowe, J., Garcia del Cura, M.A., Ortega-Calvo, J.J., Roekens, E. and Van Grieken, R. (1990). Endolithic cyanobacteria in Maastricht limestone. Sci. Total Environ. 94: 209-220.
Schlichting, H.E. (1975). Some subaerial algae from Ireland. Brit. Phycol. J. 10: 257-261.
Seaward, M.R.D. (1979). Lower plants and the urban landscape. Urb. Ecol. 4: 217-225.
Segal, S. (1969). Ecological Notes on Wall Vegetation. W. Junk, The Hague, 325 pp.
Siefermann-Harms, D. (1987). The light-harvesting and protective functions of carotenoids in photo-synthetic membranes. Physiol. Plant. 69: 561-568.
Sing, l.W. (2002). Product development for green productivity – a case study of the development of algae resistant surface coating for building facades in the human tropics. Second World Conference on Green Productivity: http://www.apo-tokyo.org/gp/manila_conf02/resource_papers/narrative/dr_loh_wah_sing.pdf.
Stapper, N.J. and Franzen-Reuter, I. (2004). Mapping aerial hypertrophication with epiphytic lichens as biomonitors in North Rhine-Westphalia (NRW, Germany). Engl. Nat. Res. Reports 525: 31-36.
Tanaka, N. and Nakamoto, H. (1999). HtpG is essential for the thermal stress management in cyanobacteria. FEBS Letters 458: 117-123.
Tiano, P., Accolla, P. and Tomaselli, L. (1995). Phototrophic bideteriogens on lithoid surfaces: an eco-logical study. Microb. Ecol. 29: 299-309.
Tomaselli, L., Lamenti, G., Bosco, M. and Tiano, P. (2000). Biodiversity of photosynthetic micro-organisms dwelling on stone monuments. Int. Biodeter. Biodegr. 46: 251-258.
Tomaselli, L., Margheri, M.C. and Florenzano, G. (1982). Indagine sperimentale sul ruolo dei cianobatteri e delle microalghe nel deterioramento di monumenti e affreschi. In: Proceedings of the Third International Congress on Deterioration and Preservation of Stone. Universitá degli Studi, Istituto di Chimica Industriale, Padova, pp. 313-325.
Tripathi, P., Roy, A. and Adhikary, S.P. (1997). Survey of epilithic blue-green algae (cyanobacteria) from temples of India and Nepal. Algol. Stud. 87: 43-57.
Tripathi, S.N., Tiwari, B.S. and Talpasayi, E.R.S. (1990). Growth of cyanobacteria (blue-green algae) on urban buildings. Energ. Buildings 15: 499-505.
Turian, G. (1979) Composants de la croûte lichenoïde noire colonisatrice primaire des roches murales. Saussurea 12: 87-100.
Turian, G. (1981). Traînées noires biotiques (Cyanobactéries) et abiotiques (suie) de roches murales en ville de Genève. Saussurea 12: 71-77.
Turian, G. (1985). Colonisation primaire des murs de béton par une Chrysocapsa (Cyanobactérie) à pigment U.V.-protecteur. Saussurea 16: 43-48.
Uher, B., Aboal, M. and Kovacik, L (2004a), Cyanobacteria and algae on monuments and buildings ˇn. Bratislava 10: 77-82.
Uher, B., Aboal, M. and Kovacik, L. (2004b). Primitive coccal cyanobacteria of genus Chroococcidiopsis Geitler as the constantly appearing organisms in extreme urban environments. In: 16th Symposium of the International Association for Cyanophyte Research. Centre de Recherche Public - Gabriel Lippmann, Luxembourg, p. 70.
Uher, B. and Kovacik, L. (2004). Epilithic cyanobacteria and algae in subterranean Mausoleum ˇn. Bratislava 10: 83-86.
Uher, B., Aboal, M. and Kovacik, L. (2005). Epilithic and chasmoendolithic phycoflora of monu-ments and buildings in South-eastern Spain. Cryptogamie, Algol. 26: 275-308.
Verb, R.G. and Vis, M.L. (2001). Macroalgal communities from an acid mine drainage impacter watershed. Aquat. Bot. 71: 93-107.
Wee, Y.C. and Lee, K.B. (1980). Proliferation ofalgae on surfaces of buildings in Singapore. Int. Biodeter. Bull. 16: 113-117.
Whitton, B.A. (1992). Diversity, ecology and taxonomy of the cyanobacteria. In: N.H. Mann and N.G. Carr (eds.) Photosynthetic Prokaryotes. Plenum Press, New York, pp. 1-51.
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Rindi, F. (2007). Diversity, Distribution and Ecology of Green Algae and Cyanobacteria in Urban Habitats. In: Seckbach, J. (eds) Algae and Cyanobacteria in Extreme Environments. Cellular Origin, Life in Extreme Habitats and Astrobiology, vol 11. Springer, Dordrecht. https://doi.org/10.1007/978-1-4020-6112-7_34
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