Abstract
A 96-well microtiter plate most-probable-number (MPN) procedure was developed to enumerate hydrocarbondegrading microorganisms. The performance of this method, which uses number 2 fuel oil (F2) as the selective growth substrate and reduction of iodonitrotetrazolium violet (INT) to detect positive wells, was evaluated by comparison with an established 24-well microtiter plate MPN procedure (the Sheen Screen), which uses weathered North Slope crude oil as the selective substrate and detects positive wells by emulsification or dispersion of the oil. Both procedures gave similar estimates of the hydrocarbon-degrader population densities in several oil-degrading enrichment cultures and sand samples from a variety of coastal sites. Although several oils were effective substrates for the 96-well procedure, the combination of F2 with INT was best, because the color change associated with INT reduction was more easily detected in the small wells than was disruption of the crude oil slick. The method's accuracy was evaluated by comparing hydrocarbon-degrader MPNs with heterotrophic plate counts for several pure and mixed cultures. For some organisms, it seems likely that a single cell cannot initiate sufficient growth to produce a positive result. Thus, this and other hydrocarbon-degrader MPN procedures might underestimate the hydrocarbon-degrading population, even for culturable organisms.
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Haines, J.R., Wrenn, B.A., Holder, E.L. et al. Measurement of hydrocarbon-degrading microbial populations by a 96-well plate most-probable-number procedure. Journal of Industrial Microbiology 16, 36–41 (1996). https://doi.org/10.1007/BF01569919
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DOI: https://doi.org/10.1007/BF01569919