Stone Consolidation by Bacterial Carbonatogenesis: Evaluation of in situ Applications

C. Rodriguez-Navarro, F. Jroundi, M. T. González-Muñoz
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引用次数: 20

Abstract

Abstract Precipitation of calcium carbonate minerals by bacteria, the so-called bacterial carbonatogenesis, is a promising method for the consolidation of decayed stone. Despite extensive laboratory testing that has demonstrated the efficacy of this method, little is, however, known regarding the medium- and/or long-term performance of this bacterial conservation treatment once applied in situ, on stone buildings. Here, we report on the evaluation of the performance of bacterial consolidation treatments applied in three different historical buildings placed in an urban environment and built using a highly porous, easily decayed calcarenite stone. Peeling tape tests show a significant long-lasting (up to four years) strength improvement following treatment with either a Myxococcus xanthus bacterial culture or a sterile nutritional solution that selectively activates the carbonatogenic bacteria inhabiting the stone. Total color changes, measured before and after treatment using a spectrophotometer, are systematically below the acceptable value of ΔE ≤ 5. Culture-dependent analysis of the microbiota shows that 100% of the culturable bacteria collected before and after treatment is carbonatogenic, and the total count of fungi spores remains constant or diminishes, while the population of acid-producing bacteria decreases over time after treatment application. Culture-independent microbial analyses show that no deleterious microbiota develops after treatment, being carbonate-producing Proteobacteria, Firmicutes and Actinobacteria the most abundant phyla both before and after treatment. Overall these results show that the in situ application of the bacterial consolidation method shows no detrimental side effects and is highly effective in the medium- and long-term.
细菌碳化作用下的岩石固结:原位应用的评价
细菌沉淀碳酸钙矿物,即所谓的细菌产碳作用,是一种很有前途的碎石固结方法。尽管大量的实验室测试已经证明了这种方法的有效性,但是,对于这种细菌保存处理一旦在石头建筑物上就地应用的中期和/或长期性能知之甚少。在这里,我们报告了细菌固结处理在三座不同的历史建筑中的性能评估,这些建筑位于城市环境中,使用高多孔性,易腐烂的方解石建造。剥皮胶带试验显示,在使用黄粘球菌细菌培养物或无菌营养液(选择性地激活居住在结石中的碳原细菌)处理后,结石的持久强度显著提高(长达四年)。用分光光度计测量治疗前后的总颜色变化,系统地低于ΔE≤5的可接受值。微生物群的培养依赖性分析表明,处理前后收集的可培养细菌100%为产碳细菌,真菌孢子总数保持不变或减少,而产酸细菌的数量随着处理后的时间而减少。不依赖培养的微生物分析表明,处理后没有有害微生物群产生,产生碳酸盐的变形菌门、厚壁菌门和放线菌门是处理前后最丰富的门。综上所述,原位应用细菌固结法无不良副作用,中长期有效。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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