Deakin University
Browse

File(s) under permanent embargo

Omics-based approaches and their use in the assessment of microbial-influenced corrosion of metals

Version 2 2024-06-04, 12:58
Version 1 2018-07-09, 12:36
journal contribution
posted on 2024-06-04, 12:58 authored by DJ Beale, AV Karpe, Snehal JadhavSnehal Jadhav, TH Muster, EA Palombo
Microbial-influenced corrosion (MIC) has been known to have economic, environmental, and social implications to offshore oil and gas pipelines, concrete structures, and piped water assets. While corrosion itself is a relatively simple process, the localised manner of corrosion makes in situ assessments difficult. Furthermore, corrosion assessments tend to be measured as part of a forensic investigation. Compounding the issue further is the impact of microbiological/biofilm processes, where corrosion is influenced by the complex processes of different microorganisms performing different electrochemical reactions and secreting proteins and metabolites that can have secondary effects. While traditional microbiological culture-dependent techniques and electrochemical/physical assessments provide some insight into corrosion activity, the identity and role of microbial communities that are related to corrosion and corrosion inhibition in different materials and in different environments are scarce. One avenue to explore MIC and MIC inhibition is through the application of omics-based techniques, where insight into the bacterial population in terms of diversification and their metabolism can be further understood. As such, this paper discusses the recent progresses made in a number of fields that have used omics-based applications to improve the fundamental understanding of biofilms and MIC processes.

History

Journal

Corrosion reviews

Volume

34

Pagination

1-15

Location

Berlin, Germany

ISSN

0334-6005

Language

eng

Publication classification

C1 Refereed article in a scholarly journal

Copyright notice

2016 by De Gruyter.

Issue

1-2

Publisher

De Gruyter