Waste Management and Disposal


Publications
37

CitationNamesAbstract
Tetrasphaera, rather than Candidatus Accumulibacter as performance indicator of free ammonia inhibition during the enhanced biological phosphorus removal processes Sun et al. (2021). Journal of Environmental Chemical Engineering 9 (5) “Accumulibacter”
Unraveling the nitrogen removal properties and microbial characterization of “Candidatus Scalindua”-dominated consortia treating seawater-based wastewater Yin et al. (2021). Science of The Total Environment 786 Ca. Scalindua
Stoichiometric and kinetic characterization of an acid-tolerant ammonia oxidizer ‘Candidatus Nitrosoglobus’ Wang et al. (2021). Water Research 196 Ca. Nitrosoglobus
Insights into microbial community variability and functional genes of various Candidatus Scalindua-based anammox processes treating nitrogen-rich saline wastewater Ma et al. (2021). Science of The Total Environment 766 Ca. Scalindua
Application of xylitol on nitrogen removal from saline wastewater through “ Candidatus Brocadia sinica”‐dominated anammox process under low temperature Guo et al. (2020). Water Environment Research 93 (5) Ca. Brocadia sinica
Transcriptional responses of Candidatus Accumulibacter clades to environmental dynamics in enhanced biological phosphorus removal Fan et al. (2020). Bioresource Technology 306 “Accumulibacter”
Microbial community at transcription level in the synergy of GAOs and Candidatus Accumulibacter for saving carbon source in wastewater treatment Fan et al. (2020). Bioresource Technology 297 “Accumulibacter”
“Candidatus Accumulibacter delftensis”: A clade IC novel polyphosphate-accumulating organism without denitrifying activity on nitrate Rubio-Rincón et al. (2019). Water Research 161 Ca. Accumulibacter delftensis
Growth kinetics of Candidatus ‘Methanoperedens nitroreducens’ enriched in a laboratory reactor Lu et al. (2019). Science of The Total Environment 659
Nitrogen removal through “Candidatus Brocadia sinica” treating high-salinity and low-temperature wastewater with glycine addition: Enhanced performance and kinetics Li et al. (2018). Bioresource Technology 270 Ca. Brocadia sinica