2013 Volume 7 Issue 4
Article Contents
Abstract
References
Previous Article Next Article

Zhou Xiaoyun, Huang Ruimin, Liu Xin, Wen Ganbin. Control of algal bloom with immobilized biological catalyst[J]. Chinese Journal of Environmental Engineering, 2013, 7(4): 1425-1429.
Citation: Zhou Xiaoyun, Huang Ruimin, Liu Xin, Wen Ganbin. Control of algal bloom with immobilized biological catalyst[J]. Chinese Journal of Environmental Engineering, 2013, 7(4): 1425-1429.
shu

Control of algal bloom with immobilized biological catalyst

  • 1.

    College of Environmental Science and Engineering, South China University of Technology, Guangzhou 510006, China

  • 2.

    Jiajing Water Treatment Technology Engineering Co. Ltd., Guangzhou 510730, China

  • Received Date: 18/06/2012
    Accepted Date: 25/04/2012
    Available Online: 09/04/2013
    Fund Project:
  • In situ experiment was conducted in one lake in Guangzhou for controlling the algal bloom using immobilized biological catalyst(IBC). The results show that IBC could quickly reduce algal biomass by the function of bacteria directly or indirectly killing algae, the removal rates of chlorophyll a was up to be 81.5%. Removal rates of total nitrogen, ammonia-nitrogen and COD were up to 81.9%, 80.3% and 65.3%, respectively from the water which was attributed to the function of microorganism and enzymes of IBC rapid degradation of organic pollutants. As a result, it could inhibit the formation of algae effectively and improve the water quality.
  • [1] Lambert T. W.,Holmes C.,Hrudey S.E. Microcystin class of toxins:Health effects and safety of drinking water supplies. Environmental Reviews,1994,2(2):167-186

    Google Scholar Pub Med

    [2] 郑建军,钟成华,邓春光.试论水华的定义.水资源保护,2006,22(5):45-47 Zheng Jianjun,Zhong Chenhua,Deng Chunguang. Discussion on definition of algal bloom. Water Resources Protection,2006,22(5):45-47(in Chinese)

    Google Scholar Pub Med

    [3] Hallegreff G. M. A review of harmful bloom and their apparent global increase. Phycologia,1993,32(2):79-83

    Google Scholar Pub Med

    [4] 范荣桂,朱东南,邓岚.湖泊富营养化成因及其综合治理技术进展.水资源与水工程学报,2010,21(6):48-52 Fan Ronggui,Zhu Dongnan,Deng Lan. Causes of eutrophication and progress of intrgrated management technology in lake. Journal of Water Resources & Water Engineering,2010,21(6):48-52(in Chinese)

    Google Scholar Pub Med

    [5] 刘玥,李毅. 富营养化水体除藻方法的研究. 环境科学导刊,2009,28(增刊):76-78 Liu Yue,Li Yi. Study on algae removal method for entrophicated water body. Environmental Science Survey,2009,28(supplement):76-78(in Chinese)

    Google Scholar Pub Med

    [6] 王士芬. 湖泊水藻类的去除方法. 污染防治技术, 2000,13(1):23-25 Wang Shifen. The means of removing algae in lake water. Pollution Control Technology,2000,13(1):23-25(in Chinese)

    Google Scholar Pub Med

    [7] 余冉,吕锡武,费治文. 富营养化水体中藻类和藻毒素处理研究. 环境导报,2001,(4):14-16 Yu Yan,Lü Xiwu,Fei Zhiwen. Research on the treatment of algae and cyanobacteria toxin in eutrophication water. Environment Herald,2001,(4):14-16(in Chinese)

    Google Scholar Pub Med

    [8] 李星,赵亮,杨艳玲,等.复合除藻剂灭藻效能及其机理.北京工业大学学报,2010,36(10):1402-1407 Li Xing,Zhao Liang,Yang Yanling,et al. Effectiveness and mechanism study of composited algaecide on algae removal. Journal of Beijing University of Technology,2010,36(10):1402-1407(in Chinese)

    Google Scholar Pub Med

    [9] Lambert T. W.,Holmes C. F. B.,Hrudey S. E. Adsorption of microcystin-LR by activated carbon and removal in full scale water treatment. Water Research, 1996,30(6):1411-1422

    Google Scholar Pub Med

    [10] 吕锡武,稻森悠平,丁国际.有毒蓝藻及藻毒素生物降解的初步研究. 中国环境科学,1999,19(2):138-140 Lü Xiwu,Yuhei Inamori,Ding Guoji. Degradation of Microcystis viridis and microcystins with biological reactors. China Environmental Science,1999,19(2):138-140(in Chinese)

    Google Scholar Pub Med

    [11] Jones D. R.,Karl D. M.,Laws E. A. DNA: ATP ratios in marine microaglae and bacteria: implications for growth rate estimates based on rates of DNA synthesis. Journal of Phycology,1995,31(2):215-223

    Google Scholar Pub Med

    [12] Dakhama A.,Noüe J.,Lavoie M. C. Isolation and identification of antialgal substances produced by Pseudomonas aeruginosa. Journal of Applied Phycology,1993,5(3):297-306

    Google Scholar Pub Med

    [13] 赵以军,刘永定. 有害藻类及其微生物防治的基础—藻菌关系的研究动态. 水生生物学报,1996,20(2):173-181 Zhao Yijun,Liu Yongding. Possible microbial control on the adverse impacts of algae—current information about the relationship between algae and microbes. Acta Hydrobiologica Sinica,1996,20(2):173-181(in Chinese)

    Google Scholar Pub Med

    [14] 李雪梅,杨中艺,简曙光,等. 有效微生物群控制富营养化湖泊蓝藻的效应. 中山大学学报(自然科学版), 2000,39(1):81-85 Li Xuemei,Yang Zhongyi,Jian Shuguang,et al. Control of algae bloom in eutrophic water by effective microorganisms. Acta Scientiarum Naturalium Universitatis Sunyaseni,2000,39(1):81-85(in Chinese)

    Google Scholar Pub Med

    [15] 王平,吴晓芙,李科林,等. 应用有效微生物群 (EM) 处理富营养化源水试验研究. 环境科学研究,2004,17(3):39-43 Wang Ping,Wu Xiaofu,Li Kelin,et al. Study of preliminary test with utilization of effective microorganisms (EM) in algae-type eutrophical water treatment. Research of Environmental Sciences,2004,17(3):39-43(in Chinese)

    Google Scholar Pub Med

    [16] 陈建,丛君,陈高云,等. 利用有效微生物菌群控制蓝藻水华研究. 环境工程学报, 2010,4(1):101-104 Chen Jian,Cong Jun,Chen Gaoyun,et al. Control of cyanobacterial bloom with effective microorganisms. Chinese Journal of Environmental Engineering,2010,4(1):101-104(in Chinese)

    Google Scholar Pub Med

    [17] 王丽风,邓柳,胡开林,等. 液可清微生物制剂修复西坝河水试验. 水资源保护,2006,22(6):64-67 Wang Lifeng,Deng Liu,Hu Kailin,et al. Remediation of Xiba River by Aqua Clean (ACF32) microbiological preparation. Water Resources Protection,2006,22(6):64-67(in Chinese)

    Google Scholar Pub Med

    [18] 任翱,郭文艳. 应用微生物组合技术治理富营养化水体的研究. 上海环境科学,1999,18(11):490-493 Ren Ao,Guo Wenyan. Study on application of microbe-technology to treating eutrophication water. Shanghai Environmental Science,1999,18(11):490-493(in Chinese)

    Google Scholar Pub Med

    [19] 潘立勇,朱争鸣,杨茜. 利用微生物消除故黄河藻类的初步研究. 环境科学与技术,2001,24(3):39-41 Pan Liyong,Zhu Zhengming,Yang Qian. A primary study on removal of algae in old Huang River by microorganism. Environmental Science and Technology,2001,24(3):39-41(in Chinese)

    Google Scholar Pub Med

    [20] 李燕,潘伟斌,杨丽丽. 三株溶藻细菌胞外溶藻活性物质若干分离特性的研究. 微生物学通报,2008,35(2):171-177 Li Yan,Pan Weibin,Yang Lili. Research on separation characteristics of the extracellular algae-lysing components from three-algae-lysing bacteria. Bulletin of Biology,2008,35(2):171-177(in Chinese)

    Google Scholar Pub Med

    [21] Sigee D. C.,Glenn R.,Andrews M. J.,et al. Biological control of cyanobacteria: Principles and possibilities. Hydrobiologia,1999,395-396:161-172

    Google Scholar Pub Med

    [22] 马宏瑞,章欣,王晓蓉,等.芽孢杆菌Z5溶铜绿微囊藻特性研究.中国环境科学,2011,31(5):828-833 Ma Hongrui,Zhang Xin,Wang Xiaorong,et al. Characteristics study of lysis of Microcystis aeruginosa by Bacillus. Z5. China Environmental Science,2011,31(5):828-833(in Chinese)

    Google Scholar Pub Med

    [23] Yamamoto Y.,Kouchiwa T.,Hodoki Y.,et al. Distribution and identification of actinomycetes lysing cyanobacteria in a eutrophic lake. Journal of Applied Phycology,1998,10(2):391-397

    Google Scholar Pub Med

    [24] 叶秋雯,王志平,于晓娟,等.有效微生物群(EM)中抑藻酵母及其活性物质特性.生态环境学报,2009,18(6):2033-2038 Ye Qiuwen,Wang Zhiping,Yu Xiaojuan,et al. Inhibition of algae with yeast in effective micro-organisms (EM) and their active extracellular matters. Ecology and Environmental Sciences,2009,18(6):2033-2038(in Chinese)

    Google Scholar Pub Med

    [25] Kirsten C.,Susanne L.,Anne W. Microbial activity andbacterial community structure during degradation of microcystins. Aquatic Microbial Ecology,2002,27(2):125-136

    Google Scholar Pub Med

    [26] Nybom S. M. K.,Salminen S. J.,Meriluoto J. A. O. Removal of microcystin-LR by strains of metabolically active probiotic bacteria. Fems Microbiology Letters,2007,270(1):27-33

    Google Scholar Pub Med

    [27] 周海滨,黄瑞敏,黄黎明.固定化生物催化剂用于污水厂污泥减量的研究.中国给水排水,2011,27(15):12-15 Zhou Haibin,Huang Ruimin,Huang Liming. Application of immobilized biocatalyst to sludge reduction in wastewater treatment plant. China Water & Wastewater,2011,27(15):12-15(in Chinese)

    Google Scholar Pub Med

  • Created with Highcharts 5.0.7Amount of accessChart context menuAbstract Views, HTML Views, PDF Downloads StatisticsAbstract ViewsHTML ViewsPDF Downloads2024-062024-072024-082024-092024-102024-112024-122025-012025-022025-032025-042025-050Highcharts.com
    Created with Highcharts 5.0.7Chart context menuAccess Class DistributionDOWNLOAD: 1.6 %DOWNLOAD: 1.6 %FULLTEXT: 88.2 %FULLTEXT: 88.2 %META: 10.2 %META: 10.2 %DOWNLOADFULLTEXTMETAHighcharts.com
    Created with Highcharts 5.0.7Chart context menuAccess Area Distribution其他: 83.0 %其他: 83.0 %Ashburn: 1.8 %Ashburn: 1.8 %Beijing: 3.3 %Beijing: 3.3 %Mountain View: 0.2 %Mountain View: 0.2 %Newark: 0.4 %Newark: 0.4 %Shanghai: 0.4 %Shanghai: 0.4 %Wuxi: 1.5 %Wuxi: 1.5 %Xingfeng: 0.9 %Xingfeng: 0.9 %XX: 6.4 %XX: 6.4 %上海: 0.4 %上海: 0.4 %台州: 0.2 %台州: 0.2 %广州: 0.2 %广州: 0.2 %洛阳: 0.2 %洛阳: 0.2 %济南: 0.4 %济南: 0.4 %贵阳: 0.2 %贵阳: 0.2 %长治: 0.2 %长治: 0.2 %其他AshburnBeijingMountain ViewNewarkShanghaiWuxiXingfengXX上海台州广州洛阳济南贵阳长治Highcharts.com
通讯作者: 陈斌, bchen63@163.com
  • 1. 

    沈阳化工大学材料科学与工程学院 沈阳 110142

  1. 本站搜索
  2. 百度学术搜索
  3. 万方数据库搜索
  4. CNKI搜索
Export Citation
PDF
XML

Article Metrics

Article views(2342) PDF downloads(1405) Cited by(0)

Access History

Control of algal bloom with immobilized biological catalyst

  • Received Date: 18/06/2012
  • Accepted Date: 25/04/2012
  • Available Online: 09/04/2013
Fund Project:

Abstract: In situ experiment was conducted in one lake in Guangzhou for controlling the algal bloom using immobilized biological catalyst(IBC). The results show that IBC could quickly reduce algal biomass by the function of bacteria directly or indirectly killing algae, the removal rates of chlorophyll a was up to be 81.5%. Removal rates of total nitrogen, ammonia-nitrogen and COD were up to 81.9%, 80.3% and 65.3%, respectively from the water which was attributed to the function of microorganism and enzymes of IBC rapid degradation of organic pollutants. As a result, it could inhibit the formation of algae effectively and improve the water quality.

    HTML

Reference (27)

Catalog

  • HTML

/

DownLoad:  Full-Size Img  PowerPoint
Return

All rights reserved: Reesearch Center for Eco-Environmental Sciences,Chinese Academy of Sciences Copyright © 1997-2016

Address: Postcode: 100085Phone: 010-62941074E-mail: cjee@rcees.ac.cn

Supported by: Beijing Renhe Information Technology Co. LtdTechnical support: info@rhhz.net