The University of Oklahoma Biocorrosion

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  • Colombian crude oil and production water studies: assessing the role of CO2 in methanogenic biodegradation and corrosion processes - T. Lenhart
  • Iron-reducing bacteria and iron-chelating metabolites: another MIC mechanism - M. Nanny
  • A biocorrosion cell - R. Tanner
  • Bringing new molecular methods to the field - K. Duncan & V. Sandifer
  • Development of a dockerized RESTful API to allow web-driven execution of bioinformatical workflows via a celery asynchronous queue - B. Wawrik
  • Understanding MIC: Combining genomic and metabolomic imaging of biofilms on corroding surfaces - I. Beech
  • Does continued analysis of the middle east field offer potential insights for future biocorrosion mitigation strategies - C. Marks
  • Microbial ATP detection from oily samples: Evaluating the efficacy of a commercial luminescent ATP detection kit - T. Lenhart
  • Effect of quaternary ammonium compounds on sulfate-reducing prokaryotes - D. Llanos
  • Change in scale inhibitor associated with an increase in the number of sulfate-reducing archaea - K. Duncan
  • Barnett shale production water tanks: Sequence analysis of the microbial community and characterization of the water and metal chemistry - K. Duncan & M. Nanny
  • North Texas corroded storage tanks: Biodegradation of hydrocarbon and related constituents under defined electron acceptor conditions - B. Harriman
  • Marine corrosion of 1020 carbon steel exposed to a complex microbial consortium - Z. Makama & I. Beech
  • Downstream issues in fueling infrastructure: Methyl esters, fatty acids, alkanes - D. Aktas
  • Anaerobic biodegradation of alternative fuels and associated biocorrosion of carbon steel in sulfate-rich environments - R. Liang
  • Marine corrosion of 1018 carbon steel in the presence of naval fuels - Z. Makama & V. Bonifay
  • Composition and corrosivity of EPS from the hydrocarbon-degrading sulfate reducing bacterium Desulfoglaeba alkanexedens - I. Davidova & M. Nanny
  • Corrosivity of long-chain paraffins degrading consortium under methanogenic and sulfate reducing conditions - I. Davidova
  • Investigating pathways of sulfidogenesis in thiosulfate-reducing Halanaerobium species - A. Decapite
  • Metabolomic approach to characterize microbially-induced corrosion: Application to a hydraulic fracturing field - E. Aydin
  • Evidence that metabolomics can be used as a system-independent tool for MIC detection - V. Bonifay
  • A metabolomics-based platform for biocorrosion monitoring and mitigation of MIC in oil fields - J. Sunner
  • Response of microbial community to petroleum hydrocarbon contamination in soil - J. Tang
  • Characterizing an autotrophic biocathode microbial consortia using electrochemistry, spectroscopy and meta-omics - S. Glaven

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    © 2010 University of Oklahoma Biocorrosion Center