In this study, the pH of sediments representative of the Sellafie

In this study, the pH of sediments representative of the Sellafield nuclear facility was increased via extensive reduction of nitrate, a common contaminant at nuclear sites, from c. pH 6.8 to 9.3, and Fe(III) reduction was observed to occur thereafter (Thorpe et al., in press). Here, a gradual increase in pH resulted in adaptation of the moderately acidotolerant microbial community to a moderately alkaline environment where the dominance of alkali-tolerant bacteria would be expected. PCR-based 16S rRNA gene analyses

of an enrichment culture BIBF1120 taken from a pH c. 9.3 Fe(III)-reducing sediment stimulated with acetate as the electron donor identified a close relative (99% sequence homology) of the known alkaliphilic bacterium Alkaliphilus crotonatoxidans (41% of 16S rRNA genes in a clone library prepared from the enriched community) and a close relative (99% sequence selleck products homology) of Serratia liquefaciens (56% of the clone library). Surprisingly, over successive enrichment cultures at pH c. 9, the known alkaliphilic

species A. crotonatoxidans was outcompeted by the Serratia species not previously reported as alkali-tolerant. Interestingly, previous work suggests that members of the genus Serratia favour low pH with strains reported as acidotolerant with an optimum growth pH of c. 6.5 and a growth range pH as low as 3 (Adams et al., 2007). Enrichment for, isolation of and characterization of this new Serratia species are described. Sediments representative of the quaternary unconsolidated alluvial flood-plain deposits that underlie the Sellafield site were collected from the Calder Valley, Cumbria (Law et al., 2010). Sampling was conducted selleck kinase inhibitor c. 2 km from the site at Lat 54°26′30N, Long 03°28′09W. Sediment samples from bioreduced pH c. 9.5 sediment were used to inoculate enrichment cultures (10 % inoculum) with acetate as the electron donor (10 mM) and Fe(III)-citrate as the electron acceptor (20 mM). The enrichment medium

was based on the recipe of Lovley et al. (1991) and comprised (in grams per litre of deionized water) NaHCO3, 2.5; NH4Cl, 0.25; NaH2PO4·H2O, 0.6; and KCl, 0.1. In addition, stock solutions of vitamins and minerals were added (Lovley & Phillips, 1988). The medium was adjusted to c. 9.3 with the addition of NaOH, sparged with N2/CO2 (80 : 20) gas mix and filter-sterilized (0.2 μm) before dispensing into autoclaved 30-mL serum bottles and sealing with sterile butyl rubber stoppers and aluminium crimp caps. Inoculated bottles were kept in the dark at 20 °C. Standard anaerobic sampling techniques were used throughout for monitoring the cultures. The sediment enrichment culture grown in Fe(III)-citrate medium was transferred seven times at pH c. 9.3, and 16S rRNA gene analysis was then performed.

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