9 μg L−1 for hexadecane (C16) and is equivalent to 003–0009 pp

9 μg L−1 for hexadecane (C16) and is equivalent to 0.03–0.009 p.p.m. The very low water solubility of these compounds BMN 673 molecular weight would have made their utilization

by the 12 field isolates difficult. However, although not at high levels, growth was observed through changes in the OD600 nm measurements. Some microbial organisms, such as some Pseudomonas, Acinetobacter, and Rhodococcus species, produce biosurfactants, which effectively make the hydrocarbons more available for microbial utilization (Beal & Betts, 2000; Chang et al., 2009; Henry & Abazinge, 2009). Pseudomonas and Rhodococcus species, in particular, are well known for their production of biosurfactants. In the current study, both achieved relatively high growth on all of the alkane substrates, and principally the mid-chain length alkanes. In summary, results suggest that members of the same community showed preference for specific carbon sources shown through their ability to utilize various diesel constituents, potentially leading to a cooperative hypothesis within the community. Some are likely to be competitive in a broader range of scenarios, while others may be more suited to specific conditions and habitats. The site isolates could be categorized into two classes of microorganisms,

which Crenolanib datasheet have previously been identified in terms of their survival strategy: the K-strategists and the r-strategists (Winogradsky, 1924; Kuznetsov et al., 1979; Andrews & Harris, 1985). The r-strategists exist mostly in a resting phase demonstrating brief periods of activity stimulated by the appearance ASK1 of an available substrate. Examples in the present study could be R. erythropolis, Pseudomonas sp. 1, and A. xylosoxidans 1. In contrast, the K-strategists are continually

and slowly active: for example Pseudomonas sp. 2 and 3, and Psychrobacter sp. 3. It was observed that, in general, organisms that were particularly good at degrading diesel were likely to fall into the r-strategists. Previous studies of communities utilizing a mixed hydrocarbon source have observed either antagonism and competition between the organisms or cometabolism (Bouchez et al., 1999; Mariano et al., 2008). The investigation demonstrated that high community diversity may allow for the coexistence of both K- and r-strategists and the compartmentalization of functions among key organisms resulting in the utilization of the whole spectrum of diesel fuel components. This work was supported by the Natural Environment Research Council and Napier University, Edinburgh. We would like to thank CORUS UK for the GC-MS analysis of the site diesel fuel and ERS Ltd (http://www.ersremediation.com/index.php) for access to the study site.

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