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使用微放射自显影术原位检测参与阴极去极化和不锈钢表面腐蚀的细菌。

In situ detection of bacteria involved in cathodic depolarization and stainless steel surface corrosion using microautoradiography.

作者信息

Kjellerup B V, Olesen B H, Nielsen J L, Sowers K R, Nielsen P H

机构信息

University of Maryland Biotechnology Institute, Center of Marine Biotechnology, Baltimore, MD, USA.

出版信息

J Appl Microbiol. 2008 Dec;105(6):2231-8. doi: 10.1111/j.1365-2672.2008.03944.x. Epub 2008 Nov 1.

Abstract

AIMS

To examine the activity of bacteria involved in cathodic depolarization and surface corrosion on stainless steel in an in situ model system.

METHODS AND RESULTS

The microautoradiographic technique (MAR) was used to evaluate the activity of bacterial populations on stainless steel surfaces with a single cell resolution. Anaerobic uptake and fixation of (14)C-labelled bicarbonate occurred within corrosion sites in the absence of atmospheric hydrogen or other external electron donors, whereas it was taken up and fixed by bacteria at all other stainless steel surfaces in the presence of atmospheric hydrogen. This indicates that the bacteria utilized electrons originating from the corrosion sites due to the ongoing corrosion (cathodic depolarization).

CONCLUSION

Under in situ conditions, bacteria were fixating (14)C-labelled bicarbonate at corrosion sites in the absence of atmospheric hydrogen. This indicates that electrons transferred to the bacteria provided energy for bicarbonate fixation due to cathodic depolarization.

SIGNIFICANCE AND IMPACT OF THE STUDY

Application of the MAR method showed ongoing biocorrosion in the applied in situ model system and allowed in situ examination of bacterial activity on a single cell level directly on a metal surface providing information about potential corrosion mechanisms. Furthermore, application of fluorescence in situ hybridization in combination with MAR allows for identification of the active bacteria.

摘要

目的

在原位模型系统中研究参与不锈钢阴极去极化和表面腐蚀的细菌活性。

方法与结果

采用微放射自显影技术(MAR)以单细胞分辨率评估不锈钢表面细菌群体的活性。在没有大气氢或其他外部电子供体的情况下,(14)C标记的碳酸氢盐在腐蚀部位发生厌氧摄取和固定,而在有大气氢存在的情况下,所有其他不锈钢表面的细菌都会摄取和固定它。这表明细菌利用了由于持续腐蚀(阴极去极化)而来自腐蚀部位的电子。

结论

在原位条件下,细菌在没有大气氢的情况下在腐蚀部位固定(14)C标记的碳酸氢盐。这表明转移到细菌的电子由于阴极去极化而为碳酸氢盐固定提供了能量。

研究的意义和影响

MAR方法的应用表明在所应用的原位模型系统中存在持续的生物腐蚀,并允许在单细胞水平上直接在金属表面原位检查细菌活性,提供有关潜在腐蚀机制的信息。此外,荧光原位杂交与MAR结合应用可鉴定活性细菌。

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