Nitrogen　and　phosphate　removal　from　wastewater　relies　on　different　functional　bacteria.　In　this　study,　a　novel　strain　affiliated　with　Pseudomonas　aeruginosa　was　isolated　from　activated　sludge　by　gradient　dilution　and　per-formed　heterotrophic　nitrification-aerobic　denitrification　and　aerobic　phosphate　removal　(HNADPR).　The　strain　showed　an　ammonium　removal　efficiency　of　87%　and　a　phosphate　removal　efficiency　of　97%　under　optimal　conditions,　such　as　C/N　ratio　of　10,　P/N　ratio　of　0.1,　temperature　of　30C,　and　pH　of　7.5-8.5.　The　modified　Gompertz　model　could　fit　well　the　heterotrophic　ammonium　nitrification,　aerobic　nitrite/nitrate　denitrification,　and　aerobic　phosphate　removal　processes.　Functional　gene　amplification　indicated　that　ammonium　removal　followed　the　complete　HN-AD　pathway　(NH4+　-＞　NH2OH　-＞　NO2-　-＞　NO3?　-＞　NO2-　-＞　NO　-＞　N2O　-＞　N-2).　Phosphate　removal　only　occurred　under　aerobic　conditions　and　ceased　under　anaerobic　conditions.　In　successive　aerobic　cycles,　the　strain　persistently　took　up　phosphate.　In　wastewater,　phosphate　was　aerobically　converted　into　cell　membrane,　intracellular　and　extracellular　polymeric　substrates　(EPS).　Phosphorus　in　the　form　of　phosphate　monoester　was　pooled　in　EPS.　A　hypothetic　aerobic　phosphate　removal　model　for　strain　SNDPR-01　is　proposed　to　improve　our　understanding　of　the　novel　bacterial　function　of　HNADPR.