DETERIORATION OF LIMESTONE WALLS IN JERUSALEM AND MARBLE MONUMENTS IN ROME CAUSED BY CYANOBACTERIA AND CYANOPHILOUS LICHENS

被引：80

作者：

DANIN, A

CANEVA, G

机构：

[1] Department of Botany, The Hebrew University, Jerusalem

[2] Istituto Biologia Agraria, Universita Basilicata, Potenza

来源：

INTERNATIONAL BIODETERIORATION | 1990年 / 26卷 / 06期

关键词：

D O I：

10.1016/0265-3036(90)90004-Q

中图分类号：

X [环境科学、安全科学];

学科分类号：

08 ; 0830 ;

摘要：

Hard limestone walls in Jerusalem and marble monuments in Rome were studied. An attempt was made to classify the principal biodeterioration processes in walls facing the prevailing wind and those which were protected from it. In Jerusalem, those that face the prevailing rain-bearing wind become populated by cyanobacteria and cyanophilous lichens. Within c. 100 years white walls are turned to grey or black colour by these organisms. Rain detaches rock particles from the vicinity of the microorganisms at a rate of 1 mm in 200 years. Dark patches on marble monuments in Rome indicate the presence of cyanobacteria. Such biological activity promotes detachment of particles by rain and accelerates weathering leading to pit formation. The estimated rate of pitting is 1 mm per 40 years in the Forum Traianum. To prevent the biodeterioration of limestone and marble monuments the habitats and ecological demands of the various microorganisms must be considered.

引用

页码：397 / 417

页数：21

共 50 条

[1]

Alessandri, Alessandri, Campisi, Colalucci, Conti, Zanardi, Osservazione sugli strati monocromipresenti sui monumenti romani antichi, Proc. Congr. ‘Scienza e Beni Culturali’ (Manutenzione e conservazione del costruito fra tradizione ed innovazione), pp. 733-749, (1986)

[2]

Anagnostidis, Economou-Amilli, Roussomoustakaki, Epilithic and chasmolithic microflora (Cyanophyta, Bacillariophyta) from marbles of Parthenon (Acropolis - Athens, Greece), Nova Hedwigia, 38, pp. 227-281, (1983)

[3]

Bech-Anderson, Biodeterioration of natural and artificial stone caused by algae, lichens, mosses, and higher plants, Biodeterioration, pp. 126-131, (1984)

[4]

Cameron, A comparison of soil microbial ecosystems in hot, cold and polar desert regions, Eco-Physiological Foundation of Ecosystem Productivity in Arid Zones, International Symposium, (1972)

[5]

Caneva, Roccardi, Marenzi, Napoleone, Proposal for a data base on biodeterioration of stone artworks, Proceedings of the V International Congress ‘Deterioration and Conservation of Stone’, pp. 587-596, (1985)

[6]

Caneva, Salvadori, Biodeterioration og stone. (UNESCO Course on Conservation of Stone of Venice), Studies and Documents on the Cultural Heritage, pp. 182-234, (1988)

[7]

Colacino, Lavagnini, Elementi di climatologia della bassa valle del Tevere, IFA SP No 14, pp. 1-113, (1980)

[8]

Curri, Paleni, Aspetti biochimici e morfologici della microlitoflora, Atti Petrolio e Ambiente, pp. 171-201, (1973)

[9]

Danin, Weathering of limestone in Jerusalem by cyanobacteria, Zeischrift für Geomorphologie, 27, pp. 413-421, (1983)

[10]

Danin, Palaeoclimates in Israel evidence from weathering patterns of stones in and near archaeological sites, Bulletin of the American Schools of Oriental Research, 259, pp. 33-43, (1985)

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