Remediation of Historic Marble Architectural Heritages by Bacterially-Induced Biomineralization

Journal of South China University of Technology (Natural Science Edition) ›› 2009, Vol. 37 ›› Issue (9): 36-41.

• Architecture & Civil Engineering • Previous Articles Next Articles

Remediation of Historic Marble Architectural Heritages by Bacterially-Induced Biomineralization

Li Pei-hao¹ Qu Wen-jun¹ Xu De-qiang² Xiao Yi-ping²

1. College of Civil Engineering, Tongji University, Shanghai 200092, China; 2. School of Life Sciences, Fudan University, Shanghai 200453, China

Received:2008-08-17 Revised:2008-12-29 Online:2009-09-25 Published:2009-09-25
Contact: 李沛豪（1978-），男，博士，主要从事历史建筑遗产生物修缮与维护研究． E-mail:pumalph@163．com
About author:李沛豪（1978-），男，博士，主要从事历史建筑遗产生物修缮与维护研究．
Supported by:
国家自然科学基金资助项目（50678127）;国家科技支撑计划项目（2006BAJ03A07-04）

Abstract

Abstract:

In order to avoid irreversible damages to historic architectural heritages caused by incorrect protection processes,the method of bacterially-induced calcium carbonate mineralization was adopted to form a deposition la-yer on the surface of marble samples.Then,the effects of crystal phase and growth of the mineralized layer as well as the deposited crystal on the porosity of samples and on the efficiency of bonding and protection were analyzed by means of XRD,SEM,mercury intrusion porosimeter（MIP） and ultrasonic test. Experimental results show that the mineral crystal is composed of calcite and vaterite phases, that bacteria act as nucleation sites in the precipitation of the mineral crystal uniformly depositing on the sample surface, that the precipitation has no significant effect on the pore size distribution of samples rather than results in a porosity decrease by 22.2% , and that the mineral crystal strongly attaches the substratum. It is thus concluded that the bacterially-induced biomineralization is effective in remediating historic stone architectural heritages.

Key words: bacterium, calcium carbonate, biomineralization, bioremediation, bioreinforcement, historic stone building

Li Pei-hao Qu Wen-jun Xu De-qiang Xiao Yi-ping . Remediation of Historic Marble Architectural Heritages by Bacterially-Induced Biomineralization[J]. Journal of South China University of Technology (Natural Science Edition), 2009, 37(9): 36-41.

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Remediation of Historic Marble Architectural Heritages by Bacterially-Induced Biomineralization

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