利用经济型营养物优化细菌孢子形成用于自修复混凝土。

Optimization of bacterial sporulation using economic nutrient for self-healing concrete.

机构信息

Laboratory of Molecular Environmental Microbiology, Department of Environmental Sciences and Ecological Engineering, Korea University, Seoul, 02841, Republic of Korea.

National Institute of Biological Resources, Incheon, 22689, Republic of Korea.

出版信息

J Microbiol. 2020 Apr;58(4):288-296. doi: 10.1007/s12275-020-9580-y. Epub 2020 Feb 27.

DOI:10.1007/s12275-020-9580-y

PMID:32103443

Abstract

The use of heat- and alkali-resistant bacteria is essential for the biological repair of damaged concrete. Lysinibacillus boronitolerans YS11 was isolated from the rhizosphere of Miscanthus sacchariflorus. The increased pH in the urea-minus condition during the growth of the YS11 strain promoted calcium carbonate (CaCO) formation. To identify the optimum medium that promoted the growth of the YS11 strain, a Plackett-Burman design was conducted for the screening process. Consequently, malt powder, rice bran, (NH)SO, and corn syrup were chosen to enhance YS11 growth. The optimization of these four useful factors was carried out using a central composite design. To obtain higher survivability in mortar, the sporulation process is essential, and additional factors such as Mn, Fe, and Ca were found to contribute to sporulation. A mixture of L. boronitolerans YS11 spore powder, cement, paste, sand, yeast extract, calcium lactate, and water showed a healing effect on a 0.3 mm mortar crack in 7 days. Furthermore, calcium carbonate precipitation was observed over the crack surface. Thus, we confirmed that mortar treated with YS11 spore powder was effective in healing micro-cracks in concrete.

摘要

耐热耐碱菌的使用对于受损混凝土的生物修复至关重要。从芒属植物根际中分离到一株耐热耐碱菌 Lysinibacillus boronitolerans YS11。YS11 菌株在尿素缺失条件下生长时，pH 值升高，促进碳酸钙（CaCO3）的形成。为了确定促进 YS11 菌株生长的最佳培养基，采用 Plackett-Burman 设计进行了筛选过程。结果表明，麦芽粉、米糠、（NH4）2SO4 和玉米糖浆可促进 YS11 生长。通过中心复合设计对这四个有用因素进行了优化。为了提高在砂浆中的存活率，孢子形成过程是必不可少的，并且发现 Mn、Fe 和 Ca 等额外因素有助于孢子形成。L. boronitolerans YS11 孢子粉、水泥、糊剂、沙子、酵母提取物、乳酸钙和水的混合物在 7 天内对 0.3 毫米的砂浆裂缝显示出愈合效果。此外，在裂缝表面观察到碳酸钙沉淀。因此，我们证实了用 YS11 孢子粉处理的砂浆可有效修复混凝土中的微裂缝。

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利用经济型营养物优化细菌孢子形成用于自修复混凝土。

Optimization of bacterial sporulation using economic nutrient for self-healing concrete.

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