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Journal Article 9

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2022 2

2021 1

2020 1

2018 2

2009 2

2008 1

Keywords

H. venusta TJPU05 1

Serratia marcescens 1

15N tracing technique 1

Aerobic denitrifying genes 1

Aerobic nitrate removal 1

Anaerobic phenol degradation 1

Archaeal group 1

Bacterial population 1

Bacterium 1

Biodegradation 1

Biological aerated filter 1

Bioremediation 1

Cryptanaerobacter 1

Degrading bacterium 1

Denitrification assimilatively and disimilatively 1

Fluorescence 1

Heterotrophic nitrification and aerobic denitrification 1

Hexabromocyclododecane 1

High-salinity wastewater 1

Ibuprofen 1

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Isolation and application of an ibuprofen-degrading bacterium to a biological aerated filter for the

Bingjie Xu, Gang Xue, Xing Yang

Frontiers of Environmental Science & Engineering 2018, Volume 12, Issue 5, doi: 10.1007/s11783-018-1080-5

Abstract:

• An ibuprofen-degrading strain, Serratia marcescens BL1,

Keywords: Ibuprofen     Biological aerated filter     Degrading bacterium     Serratia marcescens    

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Characterization of a phenanthrene-degrading methanogenic community

Quanhui Ye, Chengyue Liang, Chongyang Wang, Yun Wang, Hui Wang

Frontiers of Environmental Science & Engineering 2018, Volume 12, Issue 5, doi: 10.1007/s11783-018-1083-2

Abstract:

The mixed samples of contaminated soil, sludge and coke wastewater showed great phenanthrene methanogenic degradation potential.

Comamonadaceae, Nocardiaceae and Methanobacterium were dominant members.

Hexane, hexadecane and benzene could enhance phenanthrene degradation.

Keywords: Phenanthrene degradation potential     Methanogenic     Bacterial population     Archaeal group    

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A heterotrophic nitrification-aerobic denitrification bacterium TJPU05 suitable for nitrogen removal

Frontiers of Environmental Science & Engineering 2022, Volume 16, Issue 6, doi: 10.1007/s11783-021-1503-6

Abstract:

H. venusta TJPU05 showed excellent HN-AD ability at high salinity.

Keywords: Salt-tolerant bacteria     H. venusta TJPU05     Heterotrophic nitrification and aerobic denitrification     High-salinity wastewater    

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Studies on culture condition of new marine bacterium sp. SY01

LAN Wenjian, MO Linfeng, LI Houjin, CAI Chuanghua, ZHOU Yipin, YAO Junhua

Frontiers of Chemical Science and Engineering 2008, Volume 2, Issue 4,   Pages 443-446 doi: 10.1007/s11705-008-0065-5

Abstract: New marine bacterium sp.The culture conditions of this bacterium were investigated. sp.Lactonic acid, camphor, limonene, diphenyl guanidine, coumarin could inhibit the bacterium growth and

Keywords: producer     high-molecular-weight     relative     culture     different culture    

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LYX: A novel aerobic bacterium with advantage of removing nitrate high effectively by assimilation and

Yuxin Li, Jiayin Ling, Pengcheng Chen, Jinliang Chen, Ruizhi Dai, Jinsong Liao, Jiejing Yu, Yanbin Xu

Frontiers of Environmental Science & Engineering 2021, Volume 15, Issue 4, doi: 10.1007/s11783-020-1349-3

Abstract: A strain LYX of aerobic bacterium was isolated from the activated sludge of a wastewater treatment systemmendocina LYX, in which the transcription level of the indicator genes of this aerobic denitrifying bacterium

Keywords: Pseudomonas mendocina     Aerobic nitrate removal     15N tracing technique     Denitrification assimilatively and disimilatively     Aerobic denitrifying genes    

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Pollution and biodegradation of hexabromocyclododecanes: A review

Ling Huang, Syed Bilal Shah, Haiyang Hu, Ping Xu, Hongzhi Tang

Frontiers of Environmental Science & Engineering 2020, Volume 14, Issue 1, doi: 10.1007/s11783-019-1190-8

Abstract: To date, five bacterial strains capable of degrading HBCDs have been isolated and identified: Pseudomonasmicrobial resources should be explored to increase the resource library in order to identify more HBCD-degradingexploited to accelerate the biodegradation capability of existing bacteria, including modification of the degrading

Keywords: Hexabromocyclododecane     Biodegradation     Bioremediation     Phytoremediation     Bacterium    

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Bioproduction of D -psicose using permeabilized cells of newly isolated Rhodobacter sphaeroides SK011

Longtao ZHANG, Bo JIANG, Wanmeng MU, Tao ZHANG,

Frontiers of Chemical Science and Engineering 2009, Volume 3, Issue 4,   Pages 393-398 doi: 10.1007/s11705-009-0252-z

Abstract: In this paper, another bacterium which could convert -fructose to -psicose was isolated and identified

Keywords: reaction     permeabilized     substrate     bacterium     process    

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Enhanced biohydrogen generation from organic wastewater containing N H 4 + by phototrophic bacteria Rhodobacter sphaeroides AR-3

Guanghong ZHENG, Zhuhui KANG, Yifan QIAN, Lei WANG,

Frontiers of Environmental Science & Engineering 2009, Volume 3, Issue 4,   Pages 387-392 doi: 10.1007/s11783-009-0154-9

Abstract: Haifa RAJHI,Daniel PUYOL,Mirna C. MARTÍNEZ,Emiliano E. DÍAZ,José L. SANZ. [J]. Front. Environ. Sci. Eng., 2016, 10(3): 513-521.Yongtao LV,Xuan CHEN,Lei WANG,Kai JU,Xiaoqiang CHEN,Rui MIAO,Xudong WANG. [J]. Front. Environ. Sci. Eng., 2016, 10(2): 390-398.Zulkifly JEMAAT,Josep Anton TORA,Albert BARTROLI,Julián CARRERA,Julio PEREZ. [J]. Front. Environ. Sci. Eng., 2015, 9(3): 528-533.Wei LI, Xiaowen DING, Min LIU, Yuewen GUO, Lei LIU. [J]. Front Envir Sci Eng, 2012, 6(6): 892-900.Guochen ZHENG, Jianzheng LI, Feng ZHAO, Liguo ZHANG, Li WEI, Qiaoying BAN, Yongsheng ZHAO. [J]. Front Envir Sci Eng, 2012, 6(1): 125-130.Hailong LIN, Weiguang LI, Changhong GUO, Sihang QU, Nanqi REN. [J]. Front Envir Sci Eng Chin, 2011, 5(4): 519-525.Daijun ZHANG, Cui BAI, Ting TANG, Qing YANG. [J]. Front Envir Sci Eng Chin, 2011, 5(2): 291-297.Yanhui ZHAN, Jianwei LIN, Yanling QIU, Naiyun GAO, Zhiliang ZHU. [J]. Front Envir Sci Eng Chin, 2011, 5(1): 65-75.Rongchang WANG, Xinmin ZHAN, Yalei ZHANG, Jianfu ZHAO. [J]. Front Envir Sci Eng Chin, 2011, 5(1): 48-56.Bo WANG, Wei WAN, Jianlong WANG, . [J]. Front.Environ.Sci.Eng., 2009, 3(4): 380-386.GUO Jinsong, YANG Guohong, FANG Fang, QIN Yu. [J]. Front.Environ.Sci.Eng., 2008, 2(4): 439-445.GENG Bing, ZHU Yanfang, JIN Zhaohui, LI Tielong, KANG Haiyan, WANG Shuaima. [J]. Front.Environ.Sci.Eng., 2007, 1(3): 357-361.WU Deyi, HU Zhanbo, WANG Xinze, HE Shengbing, KONG Hainan. [J]. Front.Environ.Sci.Eng., 2007, 1(2): 213-220.XU Zhengyong, YANG Zhaohui, ZENG Guangming, XIAO Yong, DENG Jiuhua. [J]. Front.Environ.Sci.Eng., 2007, 1(1): 43-48.

Keywords: ammonium     anoxygenic phototrophic bacterium     biohydrogen     glutamine auxotrophic     tofu wastewater    

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Niche Differentiation of Phenol-Degrading Microorganisms in UASB Granular Sludge as Revealed by Fluorescence Article

Kengo Kubota, Kei Igarashi, Masayoshi Yamada, Yasuyuki Takemura, Yu-You Li, Hideki Harada

Engineering 2022, Volume 9, Issue 2,   Pages 61-66 doi: 10.1016/j.eng.2021.05.012

Abstract:

A microbial community structure of granules harvested from an anaerobic sludge blanket reactor treating phenolic wastewater was investigated using fluorescence in situ hybridization (FISH) and clone library construction. Clones of Syntrophorhabdaceae and Cryptanaerobacter were observed to be responsible for phenol degradation. For accurate taxonomic assignment of Cryptanaerobacter clones, phylogenetic analysis using nearly full-length 16S ribosomal RNA (rRNA) gene sequences was necessary. Three oligonucleotide probes were designed to detect the following three taxonomic groups: Syntrophorhabdaceae, Cryptanaerobacter, and Syntrophus. FISH analysis of thin sections of anaerobic granules showed a random distribution of Bacteria and Archaea. However, a well-defined distribution of Syntrophorhabdaceae, Cryptanaerobacter, and Syntrophus was observed. Cryptanaerobacter and Syntrophus were found on the outer layer of the granules and were closely associated with each other, while Syntrophorhabdaceae was located in the deeper part of the granules. Such specific distribution of the bacteria is most likely due to their metabolic association and affinity for the substrate. Phenol degradation in the granular sludge was observed to be carried out in the following way. First, Cryptanaerobacter converts phenol to benzoate, which is then degraded by Syntrophus into acetate. This syntrophic degradation of phenol occurs near the surface of the granule, where the phenol concentration is high. In the deeper part of the granule, where the phenol concentration is lower, Syntrophorhabdaceae degrades phenol into acetate. We observed that Syntrophorhabdaceae is less likely to produce benzoate as an intermediate to feed the neighboring organisms, which contradicts the theories presented by previous studies.

Keywords: Cryptanaerobacter     Fluorescence     in situ     hybridization     Anaerobic phenol degradation     Syntrophorhabdaceae     Syntrophus     UASB granular sludge    

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Title Author Date Type Operation

Isolation and application of an ibuprofen-degrading bacterium to a biological aerated filter for the

Bingjie Xu, Gang Xue, Xing Yang

Journal Article

Characterization of a phenanthrene-degrading methanogenic community

Quanhui Ye, Chengyue Liang, Chongyang Wang, Yun Wang, Hui Wang

Journal Article

A heterotrophic nitrification-aerobic denitrification bacterium TJPU05 suitable for nitrogen removal

Journal Article

Studies on culture condition of new marine bacterium sp. SY01

LAN Wenjian, MO Linfeng, LI Houjin, CAI Chuanghua, ZHOU Yipin, YAO Junhua

Journal Article

LYX: A novel aerobic bacterium with advantage of removing nitrate high effectively by assimilation and

Yuxin Li, Jiayin Ling, Pengcheng Chen, Jinliang Chen, Ruizhi Dai, Jinsong Liao, Jiejing Yu, Yanbin Xu

Journal Article

Pollution and biodegradation of hexabromocyclododecanes: A review

Ling Huang, Syed Bilal Shah, Haiyang Hu, Ping Xu, Hongzhi Tang

Journal Article

Bioproduction of D -psicose using permeabilized cells of newly isolated Rhodobacter sphaeroides SK011

Longtao ZHANG, Bo JIANG, Wanmeng MU, Tao ZHANG,

Journal Article

Enhanced biohydrogen generation from organic wastewater containing N H 4 + by phototrophic bacteria Rhodobacter sphaeroides AR-3

Guanghong ZHENG, Zhuhui KANG, Yifan QIAN, Lei WANG,

Journal Article

Niche Differentiation of Phenol-Degrading Microorganisms in UASB Granular Sludge as Revealed by Fluorescence

Kengo Kubota, Kei Igarashi, Masayoshi Yamada, Yasuyuki Takemura, Yu-You Li, Hideki Harada

Journal Article