Leslie K Daille, John R Spear, Iwona Beech, Ignacio T Vargas, Rodrigo De la Iglesia
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引用次数: 0
Abstract
Characterizing seasonal changes in diatom community profiles in coastal environments is scarce worldwide. Despite diatoms being prevalent in microfouling, their role in microbially influenced corrosion of metallic materials remains poorly understood. This study reports the effect of seasonal variations on the settlement of marine diatoms and corrosion of 316 L stainless steel surfaces exposed to Chilean coastal seawater. Electron microscopy imaging revealed a diverse assembly of diatoms, exhibiting pronounced differences at genus level between summer and winter seasons, with a significant delay in diatom settlement during winter. Electrochemical measurements indicated an active role of diatoms in increasing corrosion current during biofilm development. While the final diatom composition was similar irrespective of the season, the analyses of diatom assemblages over time differed, showing faster colonization when silicate and nitrate were available. This study lays the foundation for future research on the dominant season-specific genera of diatoms to unveil the microbial interactions that could contribute to corrosion and to evaluate their potential as bioindicators for alternative surveillance strategies.
在全球范围内,对沿海环境中硅藻群落特征的季节性变化进行描述的研究很少。尽管硅藻在微污损中很普遍,但它们在微生物影响的金属材料腐蚀中的作用仍鲜为人知。本研究报告了季节变化对海洋硅藻沉降和暴露在智利沿海海水中的 316 L 不锈钢表面腐蚀的影响。电子显微镜成像显示硅藻的组合多种多样,夏季和冬季硅藻属的差异明显,冬季硅藻沉降明显延迟。电化学测量结果表明,在生物膜形成过程中,硅藻在增加腐蚀电流方面发挥了积极作用。虽然硅藻的最终组成与季节无关,但硅藻组合的分析结果随时间的变化而不同,显示在硅酸盐和硝酸盐含量较高时,硅藻的定殖速度更快。这项研究为今后研究特定季节的主要硅藻属奠定了基础,以揭示可能导致腐蚀的微生物相互作用,并评估它们作为替代监控策略的生物指标的潜力。
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