LABORATORY OBSERVATION ON Bacillus cereus ENHANCED BIOLOGICAL PHOSPHORUS REMOVAL (EBPR) PERFORMANCE UNDER ANOXIC AND AEROBIC CONDITIONS

Qian Zhang; Jiajie He; Hongyu Wang; Kai Yang; Fang Ma

首页> 外文期刊>Fresenius Environmental Bulletin >LABORATORY OBSERVATION ON Bacillus cereus ENHANCED BIOLOGICAL PHOSPHORUS REMOVAL (EBPR) PERFORMANCE UNDER ANOXIC AND AEROBIC CONDITIONS

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LABORATORY OBSERVATION ON Bacillus cereus ENHANCED BIOLOGICAL PHOSPHORUS REMOVAL (EBPR) PERFORMANCE UNDER ANOXIC AND AEROBIC CONDITIONS

机译：厌氧和需氧条件下蜡状芽孢杆菌增强生物除磷（EBPR）性能的实验室观察

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Only two groups of microorganisms are currently accepted as classic polyphosphate-accumulating microorganisms (PAOs) per the strictly defined physiological model for PAOs in enhanced biological phosphorus removal (EBPR) process. However, numerous other microorganisms can also contribute to EBPR, and there is no absolute necessity for a microorganism to behave exactly as the classic PAOs in order to be considered as a PAO. In this study, the anoxic and aerobic EBPR performance of a denitrifying phosphorus-accumulating strain of Bacillus cereus was explored. Results showed that this strain can perform EBPR function in the same way as the defined classic models for PAOs under both anoxic and aerobic conditions. Impact from pH, temperature, and NO_3-N concentrations on its aerobic and anoxic phosphorus uptake rates were observed.

机译：根据严格定义的增强生物除磷（EBPR）过程中PAO的生理模型，目前仅接受两类微生物作为经典的聚磷酸盐积累微生物（PAO）。但是，许多其他微生物也可导致EBPR，并且绝对没有必要让微生物完全表现为经典的PAO，才能被视为PAO。在这项研究中，探索了蜡状芽孢杆菌反硝化富磷菌株的厌氧和好氧EBPR性能。结果表明，该菌株可以在缺氧和有氧条件下以与定义的PAO经典模型相同的方式执行EBPR功能。观察到pH，温度和NO_3-N浓度对其需氧和缺氧磷吸收速率的影响。

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来源
《Fresenius Environmental Bulletin 》 |2013年第1期| 81-85| 共5页
作者
Qian Zhang; Jiajie He; Hongyu Wang; Kai Yang; Fang Ma;
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作者单位

School of Civil Engineering and Architecture, Wuhan University of Technology, Wuhan 430070, China;

College of Resources and Environment, Huazhong Agricultural University, Wuhan, 430070, China;

School of Civil Engineering, Wuhan University, Wuhan 430070, China;

School of Civil Engineering, Wuhan University, Wuhan 430070, China;

State Key Lab of Urban Water Resources and Environment, Harbin Institute of Technology, Harbin 150090, China;

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正文语种 eng
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关键词
cultured bacteria; denitrifying; EBPR; PAOs.;

机译：培养细菌;反硝化;EBPR;PAOs;

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1. Improving anoxic/aerobic nutrients removal by the enhanced biological phosphorus removal-sulfur autotrophic denitrification (EBPR-SAD) system when treating low C/N ratio municipal wastewater [J] . Li Haibo, Zhou Beihai, Tian Zhiyong, Desalination and water treatment . 2017 ,第NOVa期

机译：在处理低C / N比市政污水时，通过增强的生物除磷-硫自养反硝化（EBPR-SAD）系统改善缺氧/需氧养分的去除
2. Impact of Cr(VI) on P removal performance in enhanced biological phosphorus removal (EBPR) system based on the anaerobic and aerobic metabolism [J] . Fang J., Sun P.-D., Xu S.-J., Bioresource Technology: Biomass, Bioenergy, Biowastes, Conversion Technologies, Biotransformations, Production Technologies . 2012 ,第Null期

机译：基于厌氧和好氧代谢的增强型生物除磷（EBPR）系统中六价铬对除磷性能的影响
3. The biomass fraction of phosphate-accumulating organisms grown in anoxic environment in an enhanced biological phosphorus removal (EBPR) system [J] . Wang Xiao-Ling, Song Tie-Hong, Yu Xiao-Dan Desalination and water treatment . 2015 ,第7期

机译：在增强的生物除磷（EBPR）系统中在缺氧环境中生长的磷酸盐积累生物的生物质分数
4. Investigate PAO-GAO Competition under Extended Anaerobic Conditions as in Side-stream Enhanced Biological Phosphorus Removal (S2EBPR) using Agent-based Model [C] . Guangyu Li, Nicholas B. Tooker, Dongqi Wang, Annual Water Environment Federation technical exhibition and conference . 2018

机译：使用基于代理的模型研究在扩展厌氧条件下（如侧流增强生物除磷（S2EBPR））中的PAO-GAO竞争
5. Mechanisms of the System and Performance Stability in Enhanced Biological Phosphorus Removal (EBPR) Process -Insights from Functionally Relevant Microbial Populations and Intracellular Polymers Dynamics. [D] . Majed, Nehreen. 2011

机译：增强型生物除磷（EBPR）过程中系统的机制和性能稳定性-从功能相关的微生物种群和细胞内聚合物动力学的角度出发。
6. Influence of Extraction Solvent on Nontargeted Metabolomics Analysis of Enrichment Reactor Cultures Performing Enhanced Biological Phosphorus Removal (EBPR) [O] . Nay Min Min Thaw Saw, Pipob Suwanchaikasem, Rogelio Zuniga-Montanez, 2021

机译：萃取溶剂对富含生物磷去除（EBPR）的富集反应器培养物不靶向代谢分析的影响
7. Impact of Influent Carbon to Phosphorus Ratio on Performance and Phenotypic Dynamics in Enhanced Biological Phosphorus Removal (EBPR) System - Insights into Carbon Distribution, Intracellular Polymer Stoichiometry and Pathways Shifts [O] . Nehreen Majed, April Z. Gu 2019

机译：影响碳与磷比对增强生物磷去除（EBPR）系统的性能和表型动力学的影响 - 碳分布，细胞内聚合物化学计量和途径偏移

LABORATORY OBSERVATION ON Bacillus cereus ENHANCED BIOLOGICAL PHOSPHORUS REMOVAL (EBPR) PERFORMANCE UNDER ANOXIC AND AEROBIC CONDITIONS

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