Literature DB >> 19137339

Microbial analysis of backflowed injection water from a nitrate-treated North Sea oil reservoir.

Gunhild Bødtker1, Kristine Lysnes, Terje Torsvik, Eva Ø Bjørnestad, Egil Sunde.   

Abstract

Reservoir souring in offshore oil fields is caused by hydrogen sulphide (H(2)S) produced by sulphate-reducing bacteria (SRB), most often as a consequence of sea water injection. Biocide treatment is commonly used to inhibit SRB, but has now been replaced by nitrate treatment on several North Sea oil fields. At the Statfjord field, injection wells from one nitrate-treated reservoir and one biocide-treated reservoir were reversed (backflowed) and sampled for microbial analysis. The two reservoirs have similar properties and share the same pre-nitrate treatment history. A 16S rRNA gene-based community analysis (PCR-DGGE) combined with enrichment culture studies showed that, after 6 months of nitrate injection (0.25 mM NO(3) (-)), heterotrophic and chemolithotrophic nitrate-reducing bacteria (NRB) formed major populations in the nitrate-treated reservoir. The NRB community was able to utilize the same substrates as the SRB community. Compared to the biocide-treated reservoir, the microbial community in the nitrate-treated reservoir was more phylogenetically diverse and able to grow on a wider range of substrates. Enrichment culture studies showed that SRB were present in both reservoirs, but the nitrate-treated reservoir had the least diverse SRB community. Isolation and characterisation of one of the dominant populations observed during nitrate treatment (strain STF-07) showed that heterotrophic denitrifying bacteria affiliated to Terasakiella probably contributed significantly to the inhibition of SRB.

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Year:  2009        PMID: 19137339     DOI: 10.1007/s10295-008-0515-6

Source DB:  PubMed          Journal:  J Ind Microbiol Biotechnol        ISSN: 1367-5435            Impact factor:   3.346


  34 in total

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4.  Effect of nitrate injection on the microbial community in an oil field as monitored by reverse sample genome probing.

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4.  Effect of Thermophilic Nitrate Reduction on Sulfide Production in High Temperature Oil Reservoir Samples.

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5.  Nutrients and oxygen alter reservoir biochemical characters and enhance oil recovery during biostimulation.

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6.  Prokaryotic community structure and sulfate reducer activity in water from high-temperature oil reservoirs with and without nitrate treatment.

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7.  Comparison of microbial community compositions of injection and production well samples in a long-term water-flooded petroleum reservoir.

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8.  Selective Pressure of Temperature on Competition and Cross-Feeding within Denitrifying and Fermentative Microbial Communities.

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9.  Inhibition of microbial sulfate reduction in a flow-through column system by (per)chlorate treatment.

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10.  Spatial isolation and environmental factors drive distinct bacterial and archaeal communities in different types of petroleum reservoirs in China.

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