Differences in texture, physical properties and microbiology of weathering crust and host rock: a case study of the porous limestone of Budapest (Hungary)

doi:10.1144/GSL.SP.2007.271.01.25

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Geological Society, London, Special Publications

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Geological Society, London, Special Publications; 2007; v. 271; p. 261-276;
DOI: 10.1144/GSL.SP.2007.271.01.25
© 2007 Geological Society of London

Record of decay in rock properties

Differences in texture, physical properties and microbiology of weathering crust and host rock: a case study of the porous limestone of Budapest (Hungary)

Á. Török¹, S. Siegesmund², C. Müller², A. Hüpers², M. Hoppert³ & T. Weiss²

^¹ Department of Construction Materials, Budapest University of Technology and Economics, Sztoczek u. 2, H-1111 Budapest, Hungary (e-mail: torokakos{at}mail.bme.hu)
^² Geoscience Centre, University of Göttingen, Goldschmidtstr. 3, D-37077 Göttingen, Germany
^³ Institute of Microbiology and Genetics, University of Göttingen, Grisebachstrasse 8, D-37077 Göttingen, Germany

Ashlars of the Parliament building and Citadella fortress madeof three porous Miocene limestones, a fine-grained limestone,a medium-grained oolitic limestone and a coarse-grained bioclasticlimestone, were studied and compared with quarry blocks of thesame lithologies. The commonest weathering forms are white (thinand thick) and black (laminar and framboidal) crusts. To assessthe processes of crust formation and detachment, descriptionsof lithologies and associated weathering features were combinedwith micro-drilling, pore-size distribution and ultrasonic pulsevelocity tests. Microbiological and textural analyses were alsoperformed. The micro-drilling resistance measurements and ultrasonicpulse velocities clearly document the presence of crusts andthe degradation of underlying fine- and medium-grained limestones.A textural change, with calcite recrystallization, is also markedby pore occlusion and reduction of microporosity in the crustzone. Crust detachment is initiated by the opening up of microfissuresthat develop below the cemented crust zones. Fine-grained limestoneappears to be less durable than the coarse-grained variety andmore prone to rapid crust formation and detachment. Ashlarsfrom where the crusts were removed have lower micro-drillingresistance compared to quarry stones. Microbiological activityappears to play an insignificant role in crust formation andremoval. Indeed, the combined effect of air pollution and relatedgypsum crystallization and more probably freeze-thaw weatheringactivity lead to crust detachment with rates strongly controlledby the texture and porosity of the limestone substrate.

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