Bacterial distinctions in practical rural sewage collection systems caused by the location, season, and system type.
暂无分享,去创建一个
Tianlong Zheng | K. Feng | Yingqun Ma | Wenkai Li | Wenhu Cheng | Wei Xu | Jianguo Liu | Xiaopeng Xi | Jianrong Luo
[1] Yun Han,et al. The difference between drainage channels and sewers in rural areas: from sewage quality to bacterial characteristics. , 2022, Water science and technology : a journal of the International Association on Water Pollution Research.
[2] Z. Liu,et al. Characteristics of rural sewage discharge and a case study on optimal operation of rural sewage treatment plant in Shaanxi, China , 2022, Chemical Engineering Journal.
[3] Peifang Wang,et al. Revealing factors influencing spatial variation in the quantity and quality of rural domestic sewage discharge across China , 2022, Process Safety and Environmental Protection.
[4] Xiangdong Xu,et al. Investigation of the microbial community structure and diversity in the environment surrounding a veterinary antibiotic production factory , 2021, RSC advances.
[5] Lifeng Zhu,et al. Animal gut microbiome mediates the effects of antibiotic pollution on an artificial freshwater system. , 2021, Journal of hazardous materials.
[6] H. Maier,et al. Water quality modeling in sewer networks: Review and future research directions. , 2021, Water research.
[7] Jun-xin Liu,et al. Time-based succession existed in rural sewer biofilms: Bacterial communities, sulfate-reducing bacteria and methanogenic archaea, and sulfide and methane generation. , 2020, The Science of the total environment.
[8] S. Atashgahi,et al. Long-Chain Fatty Acids Degradation by Desulfomonile Species and Proposal of “Candidatus Desulfomonile Palmitatoxidans” , 2020, Frontiers in Microbiology.
[9] P. Jin,et al. Towards the formulation of rural sewage discharge standards in China. , 2020, The Science of the total environment.
[10] Jun-xin Liu,et al. Greywater: Understanding biofilm bacteria succession, pollutant removal and low sulfide generation in small diameter gravity sewers , 2020 .
[11] Rui Liu,et al. Management mode construction for operation and supervision of rural sewage treatment facilities: Towards the information-to-intelligence strategy , 2020 .
[12] Jun-xin Liu,et al. Characteristics of sewer biofilms in aerobic rural small diameter gravity sewers. , 2020, Journal of environmental sciences.
[13] Jun-xin Liu,et al. Influences of flow conditions on bacterial communities in sewage and greywater small diameter gravity sewer biofilms. , 2020, Environmental research.
[14] Jun-xin Liu,et al. Current status and future prospects of sewer biofilms: Their structure, influencing factors, and substance transformations. , 2019, The Science of the total environment.
[15] R. Singh,et al. Designing process and operational effect of modified septic tank for the pre-treatment of rural domestic sewage. , 2019, Journal of environmental management.
[16] Jizhong Zhou,et al. Biodegradability of wastewater determines microbial assembly mechanisms in full-scale wastewater treatment plants. , 2019, Water research.
[17] Guang-hao Chen,et al. Advances in sulfur conversion-associated enhanced biological phosphorus removal in sulfate-rich wastewater treatment: A review. , 2019, Bioresource technology.
[18] F. Jiang,et al. Different ferric dosing strategies could result in different control mechanisms of sulfide and methane production in sediments of gravity sewers. , 2019, Water research.
[19] M. Hipsey,et al. The development and application of improved solids modelling to enable resilient urban sewer networks. , 2019, Journal of environmental management.
[20] M. V. van Loosdrecht,et al. Recent advances in dissimilatory sulfate reduction: From metabolic study to application. , 2019, Water research.
[21] W. Verstraete,et al. Legionella occurrence in municipal and industrial wastewater treatment plants and risks of reclaimed wastewater reuse: Review. , 2019, Water research.
[22] M. V. van Loosdrecht,et al. The leakage of sewer systems and the impact on the 'black and odorous water bodies' and WWTPs in China. , 2019, Water science and technology : a journal of the International Association on Water Pollution Research.
[23] Xiaochang C. Wang,et al. Pollutant exchange between sewage and sediment in urban sewer systems , 2018, Chemical Engineering Journal.
[24] G. Zeng,et al. The bioenergetics mechanisms and applications of sulfate-reducing bacteria in remediation of pollutants in drainage: A review. , 2018, Ecotoxicology and environmental safety.
[25] Xiuhong Liu,et al. Current state and future perspectives of sewer networks in urban China , 2018, Frontiers of Environmental Science & Engineering.
[26] J. Englehardt,et al. Advanced oxidation and disinfection processes for onsite net-zero greywater reuse: A review. , 2017, Water research.
[27] Joel J. Ducoste,et al. A critical review of fat, oil, and grease (FOG) in sewer collection systems: Challenges and control , 2017 .
[28] G. Arnaud-Fassetta,et al. A field experiment to evaluate the cleaning performance of sewer flushing on non-uniform sediment deposits. , 2017, Water research.
[29] Yanchen Liu,et al. Microbial Character Related Sulfur Cycle under Dynamic Environmental Factors Based on the Microbial Population Analysis in Sewerage System , 2017, Front. Microbiol..
[30] H. Ngo,et al. Current status of urban wastewater treatment plants in China. , 2016, Environment international.
[31] Saad B. Almasaudi. Acinetobacter spp. as nosocomial pathogens: Epidemiology and resistance features , 2016, Saudi journal of biological sciences.
[32] Guangming Zhang,et al. Current state of sewage treatment in China. , 2014, Water research.
[33] Michael W Taylor,et al. dsrAB-based analysis of sulphate-reducing bacteria in moving bed biofilm reactor (MBBR) wastewater treatment plants , 2014, Applied Microbiology and Biotechnology.
[34] M. Wichern,et al. Sedimentation dynamics in combined sewer systems. , 2013, Water science and technology : a journal of the International Association on Water Pollution Research.
[35] Karin Leder,et al. Microbial quality assessment of household greywater. , 2012, Water research.
[36] Rob Knight,et al. Bayesian community-wide culture-independent microbial source tracking , 2011, Nature Methods.
[37] C. Huttenhower,et al. Metagenomic biomarker discovery and explanation , 2011, Genome Biology.
[38] Biljana Kurcik-Trajkovska. Acinetobacter spp. - A Serious Enemy Threatening Hospitals Worldwide , 2009 .
[39] M. Kühl,et al. Growth and chemosensory behavior of sulfate-reducing bacteria in oxygen-sulfide gradients. , 2002, FEMS microbiology ecology.
[40] R. Podschun,et al. Klebsiella spp. as Nosocomial Pathogens: Epidemiology, Taxonomy, Typing Methods, and Pathogenicity Factors , 1998, Clinical Microbiology Reviews.
[41] B. Schink,et al. Desulfoprunum benzoelyticum gen. nov., sp. nov., a Gram-stain-negative, benzoate-degrading, sulfate-reducing bacterium isolated from a wastewater treatment plant. , 2015, International journal of systematic and evolutionary microbiology.