Waste Management and Disposal

Publications
37

Tetrasphaera, rather than Candidatus Accumulibacter as performance indicator of free ammonia inhibition during the enhanced biological phosphorus removal processes

Citation: Sun et al. (2021). Journal of Environmental Chemical Engineering 9 (5)
Names: “Accumulibacter”
Abstract

Unraveling the nitrogen removal properties and microbial characterization of “Candidatus Scalindua”-dominated consortia treating seawater-based wastewater

Citation: Yin et al. (2021). Science of The Total Environment 786
Names: Ca. Scalindua
Abstract

Stoichiometric and kinetic characterization of an acid-tolerant ammonia oxidizer ‘Candidatus Nitrosoglobus’

Citation: Wang et al. (2021). Water Research 196
Names: Ca. Nitrosoglobus
Abstract

Insights into microbial community variability and functional genes of various Candidatus Scalindua-based anammox processes treating nitrogen-rich saline wastewater

Citation: Ma et al. (2021). Science of The Total Environment 766
Names: Ca. Scalindua
Abstract

Application of xylitol on nitrogen removal from saline wastewater through “ Candidatus Brocadia sinica”‐dominated anammox process under low temperature

Citation: Guo et al. (2020). Water Environment Research 93 (5)
Names: Ca. Brocadia sinica
Abstract

Transcriptional responses of Candidatus Accumulibacter clades to environmental dynamics in enhanced biological phosphorus removal

Citation: Fan et al. (2020). Bioresource Technology 306
Names: “Accumulibacter”
Abstract

Microbial community at transcription level in the synergy of GAOs and Candidatus Accumulibacter for saving carbon source in wastewater treatment

Citation: Fan et al. (2020). Bioresource Technology 297
Names: “Accumulibacter”
Abstract

“Candidatus Accumulibacter delftensis”: A clade IC novel polyphosphate-accumulating organism without denitrifying activity on nitrate

Citation: Rubio-Rincón et al. (2019). Water Research 161
Names: Ca. Accumulibacter delftensis
Abstract

Growth kinetics of Candidatus ‘Methanoperedens nitroreducens’ enriched in a laboratory reactor

Citation: Lu et al. (2019). Science of The Total Environment 659
Names
Abstract

Nitrogen removal through “Candidatus Brocadia sinica” treating high-salinity and low-temperature wastewater with glycine addition: Enhanced performance and kinetics

Citation: Li et al. (2018). Bioresource Technology 270
Names: Ca. Brocadia sinica
Abstract