Profiling population-level diversity and dynamics of Accumulibacter via high throughput sequencing of ppk1

Abstract

As the key organism for enhanced biological phosphorus removal, Accumulibacter has shown high intragenus diversity based on the phylogeny of polyphosphate kinase1 gene (ppk1) and many clade-specific features related to performance of wastewater treatment. However, the widely used molecular approaches are deficient or cost-inefficient in providing a comprehensive and quantitative population-level profile for Accumulibacter in complex community. In this study, we introduced a pipeline to analyze the population-level diversity and dynamics of Accumulibacter via high throughput sequencing (HTS) of ppk1 and 16S rRNA gene simultaneously. The HTS approach was assessed by testing primer coverage, performing sample replication, and comparing with a traditional clone library. Based on survey on full-scale activated sludge samples, unexpected high microdiversity in Accumulibacter and a tendency of exclusivity between two phylogenetic types were discovered. Moreover, the pipeline facilitated monitoring the population-level dynamics and co-occurrence pattern under various laboratory enriching conditions. The results revealed previously uncharacterized intraclade dynamics during enrichment, little effect of denitrifying process on the Accumulibacter diversity, and the niche adaption of Clade IIC on propionate as sole carbon source. Co-occurrence of Accumulibacter populations further partially supported the exclusivity of two types. A few bacterial taxa, including Cytophagaceae-, Prosthecobacter-, and Compteibacter-related taxa, showed co-occurrence with many Accumulibacter populations, suggesting their niche co-selection or potential metabolic interactions with Accumulibacter. The present pipeline is transplantable for studying microdiversity and niche differentiation of other functional microorganisms in complex microbial systems.