Comparative analysis of biological phosphate removal (BPR) and non-BPR activated sludge bacterial communities with particular reference to Acinetobacter

Abstract

The bacterial community of a biological phosphate removal (BPR) activated sludge process was studied and compared to that of a non-BPR process treating the same municipal waste water. Bacterial isolates from the BPR process, as characterized by whole cell fatty acids, belonged to more than twenty genera, with Micrococcus, Staphylococcus and Acidovorax scoring highest. Acinetobacter spp represented 4% of cultured bacteria, ≤3% as estimated by fluorescence in situ hybridization, and well under 10% on the basis of the proportion of ubiquinone Q9 in the sludge. The mole proportions of ubiquinones, Q8 : Q10 : Q9 in the sludge were maintained fairly stable at approximately 9:4:1. The spectra of the isolated strains and the proportions of ubiquinones in the processes (BPR vs non-BPR) were otherwise similar, but a significant number of isolates related to actinomycetes were obtained from the BPR sludge only. The BPR process did not enrich Acinetobacter. Pure cultures of Acinetobacter isolated from the sludge stained for polyphosphate, but Acinetobacter cells responding to the ACA probe in native sludge from the BPR process did not. Instead, the bulk of the polyphosphate in the BPR sludge was located in a distinct morphotype of large, coccoid, highly clustered cells.