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Responses of soil microbiome to steel corrosion

Ye Huang, Dake Xu, Luyao Huang, Yuntian Lou, Jiang-Baota Muhadesi, Hongchang Qian, Enze Zhou, Baojun Wang, Xiu-Tong Li, Zhen Jiang, Shuang‐Jiang Liu, Dawei Zhang, Cheng‐Ying Jiang

2021npj Biofilms and Microbiomes50 citationsDOIOpen Access PDF

Abstract

The process of microbiologically influenced corrosion (MIC) in soils has received widespread attention. Herein, long-term outdoor soil burial experiments were conducted to elucidate the community composition and functional interaction of soil microorganisms associated with metal corrosion. The results indicated that iron-oxidizing (e.g., Gallionella), nitrifying (e.g., Nitrospira), and denitrifying (e.g., Hydrogenophaga) microorganisms were significantly enriched in response to metal corrosion and were positively correlated with the metal mass loss. Corrosion process may promote the preferential growth of the abundant microbes. The functional annotation revealed that the metabolic processes of nitrogen cycling and electron transfer pathways were strengthened, and also that the corrosion of metals in soil was closely associated with the biogeochemical cycling of iron and nitrogen elements and extracellular electron transfer. Niche disturbance of microbial communities induced by the buried metals facilitated the synergetic effect of the major MIC participants. The co-occurrence network analysis suggested possible niche correlations among corrosion related bioindicators.

Topics & Concepts

Denitrifying bacteriaCorrosionEnvironmental chemistryNitrospiraBiogeochemical cycleNitrifying bacteriaMicrobial population biologyChemistryNitrificationNitrogenMetallurgyMaterials scienceDenitrificationBiologyBacteriaGeneticsOrganic chemistryWater Treatment and DisinfectionCorrosion Behavior and InhibitionBuilding materials and conservation
Responses of soil microbiome to steel corrosion | Litcius