水体富营养化与磷污染控制研究进展
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摘要
重点对国内外在磷污染控制领域的研究进展进行了综合分析,并提出磷污染控制的可行性措施和建议,对进一步研究我国水体磷污染和治理富水体营养化方面具有一定的理论指导意义。
The research progress of phosphorus pollution control at home and abroad are analyzed. The feasible measures and suggestions for phosphorus pollution control are put forward. The article is significative in theory guidance for the further study of phosphorus pollution and restoration of eutrophicated water body.
The research progress of phosphorus pollution control at home and abroad are analyzed. The feasible measures and suggestions for phosphorus pollution control are put forward. The article is significative in theory guidance for the further study of phosphorus pollution and restoration of eutrophicated water body.
引文
[1]何淑英,徐亚同,胡宗泰,等.湖泊富营养化的产生机理及治理技术研究进展[J].上海化工,2008,33(2):1-5.
[2]蔡龙炎,李颖,郑子航.我国湖泊系统氮磷时空变化及对富营养化影响研究[J].地球与环境,2010,38(2):235-241.
[3]周生贤.2009年中国环境状况公报[R].北京:国家环保总局,2010:1-53.
[4]杨松琴,张慧珍,巴月,等.水体富营养化状况的人工神经网络预测模型的建立[J].卫生研究,2008,37(5):543-545.
[5]蒋庆丰,周琳,赵玲,等,南通市区河道磷污染分布特征[J].南通大学学报:自然科学版,2009,8(3):42-46.
[6]王晓峰,赵璐,解维宁.南水北调中线陕西水源区环境质量评价[J].长江流域资源与环境,2009,18(12):1137-1142.
[7]Gregor K,Sophie V.Eutrophication and endangered aquatic plants:an experimental study on Baldellia ranunculoides(L.)Parl.(Alismataceae)[J].Hydrobiologia,2009,635:181-187.
[8]吴国平,郑丰,涂建峰,湖泊富营养化危害机理研究[J].水利水电快报,2007,28(12):4-5.
[9]Kirilova E P,Cremer H,Heire O,et al.Eutrophication of moderately deep Dutch lakes during the past century:flaws in the expectations of water management[J].Hydrobiologia,2010,637:157-171.
[10]袁夫臣.水体富营养化及其防治[J].现代农业科学,2008,15(4):43-44.
[11]韦立峰.浅谈水体富营养化的成因及其防治[J].中国资源综合利用,2006,8:25-27.
[12]王冬,张进忠.水体沉积物中磷释放的影响因素[J].内蒙古环境科学,2008,20(1):45-48.
[13]Jorgensen.Application of ecology in environmental management[M].Boca Raton,FL,USA:CRC Press,1983.
[14]饶群,芮孝芳.富营养化机理及数学模拟研究进展[J].水利,2001,21(20):15-19.
[15]张晟,李崇明,郑丙辉,等.三峡库区次级河流营养状态及营养盐输出影响[J].环境科学,2007,28(3):500-504.
[16]刘腊美,龙天渝,李崇明.三峡水库上游流域非点源颗粒态磷污染负荷研究[J].长江流域资源与环境,2009,18(4):320-325.
[17]Ekholm P,Krogerus K.Bioavailability of phosphorus in purified municipal wastewaters[J].Wat Res,1998,32(2):343-351.
[18]Mehner T,Diekmann M,Gonsiorczyk T,et al.Rapid recovery from eutrophication of a stratified lake by disruption of internal nutrient load[J].Ecosystems,2008,11:1142-1156.
[19]钱茜,王玉秋.我国中水回用现状及对策[J].再生资源研究,2003(1):27-30.
[20]张志剑,王珂,朱荫湄,等.浙北水稻主产区田间土水磷素流失潜能[J].环境科学,2001,2(1):8-101.
[21]Huang J L,Hong H S.mparative study of two models to simulate diffuse nitrogen and phosphorus pollution in a medium-sized watershed,southeast China[J].Estuarine,Coastal and Shelf Science,2010,86:387-394.
[22]吕凯,王树恩.我国环境法的一个重要而现实的问题[J].《生产力研究》2007,2:79-80.
[23]俞兴东.水体富营养化与防治对策[J].中国水运:理论版·自然科学,2006,4(1):6-8.
[24]莫灼均.城市景观水体富营养化污染及治理技术初探[J].广东化工,2010,37(7):239-244.
[25]孙华,梁伟.我国水体磷污染及其监控管理技术的研究[J].浙江师范大学学报:自然科学版,2007,30(2):201-205.
[26]宋旭,蔡继杰,丁学锋,等.富营养化水体的物理-生态修复技术发展综述[J].农业环境科学学报,2007,26(S2):465-468.
[27]邢丽贞,王立鹏,张志斌,等.湖泊内源磷的释放与富营养化的植物修复[J].四川环境,2010,29(3):71-76.
[28]Gao J Q,Xiong Z T,Zhang J D,et al.Phosphorus removal from water of eutrophic Lake Donghu by five submerged macrophytes[J].Desalination,2009,242:193-204.
[29]Covneny M F,Stites D L.Nutrient removal from eutrophic lake water by wetland filtration[J].Ecological Engineering,2002,19:141-159.
[30]Zhang G S,Liu H J,Liu R P,et al.Removal of phosphate from water by a Fe-Mn binary oxide adsorbent[J].Journal of Colloid and Interface Science,2009(335):168-174.
[31]杨炎明,刘树元,郑显鹏,等.污水除磷技术现状及其发展趋势[J].济南大学学报(自然科学版),2008,22(2):166-169.
[32]肖新程,董业斌,李志东.膜生物反应器脱氮除磷技术的研究进展[J].工业用水与废水,2009,40(5):5-9.
[33]刘晓亮,李亚新.生物除磷机理与新工艺[J].山西建筑,2006,32(1):191-192.
[34]尹军,吴相会,王晓玲,等.污水生物除磷技术若干研究进展[J].中国资源综合利用,2009(1):24-27.
[35]Angle C R,Powers W J,Applegate T J,et al.Influence of phytase on water soluble phosphorus in poultry and swine manure[J].J Environ Qual,2005,34:563-571.
[36]Penn C J,Mullins G L,Zelazny L W,et al.Surface runoff losses of phosphorus from Viginia solis amended with turkey manure using phytase and high available phosphorus corn diets[J].J Environ Qual,2004,33:1431-1439.
[37]Hhang Z L,Hu Y H,Xu J,et al.Removal of phosphate from municipal sewage by high gradient magnetic separation[J].Journal CSUT,2004,11(4):391-394.
[38]王莎莎.环境中磷污染的危害及常用的除磷方法研究[J].教育经济研究,2008(5):4.
[39]贾永志,吕锡武.污水处理领域磷回收技术及应用[J].水资源保护,2007,23(5):59-62.
[40]汪慧贞,王绍贵.pH值对污水处理厂磷回收的影响[J].北京建筑工程学院学报,2004,20(4):5-8.
[41]王兵,赵兴武.城市污水污泥磷回收技术[J].当代化工,2010,39(2):177-179.
[42]张林生,叶峰,吴海锁,等.多孔陶粒结晶床除磷试验研究[J].东南大学学报:自然科学版,2003,33(5):664-667.
[43]徐微,杨贤明.污水磷回收方法与技术概述[J].山西建筑,2010,36(20):152-154.
[44]林建伟,刘漪,詹艳慧.CPB改性沸石对磷酸盐的吸附—解吸性能研究[J].环境工程学报,2010,4(3):
[2]蔡龙炎,李颖,郑子航.我国湖泊系统氮磷时空变化及对富营养化影响研究[J].地球与环境,2010,38(2):235-241.
[3]周生贤.2009年中国环境状况公报[R].北京:国家环保总局,2010:1-53.
[4]杨松琴,张慧珍,巴月,等.水体富营养化状况的人工神经网络预测模型的建立[J].卫生研究,2008,37(5):543-545.
[5]蒋庆丰,周琳,赵玲,等,南通市区河道磷污染分布特征[J].南通大学学报:自然科学版,2009,8(3):42-46.
[6]王晓峰,赵璐,解维宁.南水北调中线陕西水源区环境质量评价[J].长江流域资源与环境,2009,18(12):1137-1142.
[7]Gregor K,Sophie V.Eutrophication and endangered aquatic plants:an experimental study on Baldellia ranunculoides(L.)Parl.(Alismataceae)[J].Hydrobiologia,2009,635:181-187.
[8]吴国平,郑丰,涂建峰,湖泊富营养化危害机理研究[J].水利水电快报,2007,28(12):4-5.
[9]Kirilova E P,Cremer H,Heire O,et al.Eutrophication of moderately deep Dutch lakes during the past century:flaws in the expectations of water management[J].Hydrobiologia,2010,637:157-171.
[10]袁夫臣.水体富营养化及其防治[J].现代农业科学,2008,15(4):43-44.
[11]韦立峰.浅谈水体富营养化的成因及其防治[J].中国资源综合利用,2006,8:25-27.
[12]王冬,张进忠.水体沉积物中磷释放的影响因素[J].内蒙古环境科学,2008,20(1):45-48.
[13]Jorgensen.Application of ecology in environmental management[M].Boca Raton,FL,USA:CRC Press,1983.
[14]饶群,芮孝芳.富营养化机理及数学模拟研究进展[J].水利,2001,21(20):15-19.
[15]张晟,李崇明,郑丙辉,等.三峡库区次级河流营养状态及营养盐输出影响[J].环境科学,2007,28(3):500-504.
[16]刘腊美,龙天渝,李崇明.三峡水库上游流域非点源颗粒态磷污染负荷研究[J].长江流域资源与环境,2009,18(4):320-325.
[17]Ekholm P,Krogerus K.Bioavailability of phosphorus in purified municipal wastewaters[J].Wat Res,1998,32(2):343-351.
[18]Mehner T,Diekmann M,Gonsiorczyk T,et al.Rapid recovery from eutrophication of a stratified lake by disruption of internal nutrient load[J].Ecosystems,2008,11:1142-1156.
[19]钱茜,王玉秋.我国中水回用现状及对策[J].再生资源研究,2003(1):27-30.
[20]张志剑,王珂,朱荫湄,等.浙北水稻主产区田间土水磷素流失潜能[J].环境科学,2001,2(1):8-101.
[21]Huang J L,Hong H S.mparative study of two models to simulate diffuse nitrogen and phosphorus pollution in a medium-sized watershed,southeast China[J].Estuarine,Coastal and Shelf Science,2010,86:387-394.
[22]吕凯,王树恩.我国环境法的一个重要而现实的问题[J].《生产力研究》2007,2:79-80.
[23]俞兴东.水体富营养化与防治对策[J].中国水运:理论版·自然科学,2006,4(1):6-8.
[24]莫灼均.城市景观水体富营养化污染及治理技术初探[J].广东化工,2010,37(7):239-244.
[25]孙华,梁伟.我国水体磷污染及其监控管理技术的研究[J].浙江师范大学学报:自然科学版,2007,30(2):201-205.
[26]宋旭,蔡继杰,丁学锋,等.富营养化水体的物理-生态修复技术发展综述[J].农业环境科学学报,2007,26(S2):465-468.
[27]邢丽贞,王立鹏,张志斌,等.湖泊内源磷的释放与富营养化的植物修复[J].四川环境,2010,29(3):71-76.
[28]Gao J Q,Xiong Z T,Zhang J D,et al.Phosphorus removal from water of eutrophic Lake Donghu by five submerged macrophytes[J].Desalination,2009,242:193-204.
[29]Covneny M F,Stites D L.Nutrient removal from eutrophic lake water by wetland filtration[J].Ecological Engineering,2002,19:141-159.
[30]Zhang G S,Liu H J,Liu R P,et al.Removal of phosphate from water by a Fe-Mn binary oxide adsorbent[J].Journal of Colloid and Interface Science,2009(335):168-174.
[31]杨炎明,刘树元,郑显鹏,等.污水除磷技术现状及其发展趋势[J].济南大学学报(自然科学版),2008,22(2):166-169.
[32]肖新程,董业斌,李志东.膜生物反应器脱氮除磷技术的研究进展[J].工业用水与废水,2009,40(5):5-9.
[33]刘晓亮,李亚新.生物除磷机理与新工艺[J].山西建筑,2006,32(1):191-192.
[34]尹军,吴相会,王晓玲,等.污水生物除磷技术若干研究进展[J].中国资源综合利用,2009(1):24-27.
[35]Angle C R,Powers W J,Applegate T J,et al.Influence of phytase on water soluble phosphorus in poultry and swine manure[J].J Environ Qual,2005,34:563-571.
[36]Penn C J,Mullins G L,Zelazny L W,et al.Surface runoff losses of phosphorus from Viginia solis amended with turkey manure using phytase and high available phosphorus corn diets[J].J Environ Qual,2004,33:1431-1439.
[37]Hhang Z L,Hu Y H,Xu J,et al.Removal of phosphate from municipal sewage by high gradient magnetic separation[J].Journal CSUT,2004,11(4):391-394.
[38]王莎莎.环境中磷污染的危害及常用的除磷方法研究[J].教育经济研究,2008(5):4.
[39]贾永志,吕锡武.污水处理领域磷回收技术及应用[J].水资源保护,2007,23(5):59-62.
[40]汪慧贞,王绍贵.pH值对污水处理厂磷回收的影响[J].北京建筑工程学院学报,2004,20(4):5-8.
[41]王兵,赵兴武.城市污水污泥磷回收技术[J].当代化工,2010,39(2):177-179.
[42]张林生,叶峰,吴海锁,等.多孔陶粒结晶床除磷试验研究[J].东南大学学报:自然科学版,2003,33(5):664-667.
[43]徐微,杨贤明.污水磷回收方法与技术概述[J].山西建筑,2010,36(20):152-154.
[44]林建伟,刘漪,詹艳慧.CPB改性沸石对磷酸盐的吸附—解吸性能研究[J].环境工程学报,2010,4(3):