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蜘蛛兰去除不同程度富营养水体中氮磷及抑藻效应

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黄伟, 郭沛涌, 陈淑芳. 蜘蛛兰去除不同程度富营养水体中氮磷及抑藻效应[J]. 环境工程学报, 2014, 8(1): 62-66.
引用本文: 黄伟, 郭沛涌, 陈淑芳. 蜘蛛兰去除不同程度富营养水体中氮磷及抑藻效应[J]. 环境工程学报, 2014, 8(1): 62-66.
shu
Huang Wei, Guo Peiyong, Chen Shufang. Removal of nitrogen and phosphorus from different degree eutrophic waters and restraint of algae by Hymenocallis americana[J]. Chinese Journal of Environmental Engineering, 2014, 8(1): 62-66.
Citation: Huang Wei, Guo Peiyong, Chen Shufang. Removal of nitrogen and phosphorus from different degree eutrophic waters and restraint of algae by Hymenocallis americana[J]. Chinese Journal of Environmental Engineering, 2014, 8(1): 62-66.
shu

蜘蛛兰去除不同程度富营养水体中氮磷及抑藻效应

  • 1.

    华侨大学环境科学与工程系, 厦门 361021

  • 2.

    华侨大学环境与资源技术研究所, 厦门 361021

  • 3.

    厦门市安兜自来水有限公司, 厦门 361021

  • 基金项目:

    国家自然科学基金资助项目(20777021)

    教育部科学技术研究重点项目(210253)

    福建省自然科学基金计划资助项目(2010J01043,D0610012)

  • 中图分类号: X52

Removal of nitrogen and phosphorus from different degree eutrophic waters and restraint of algae by Hymenocallis americana

  • 1.

    Department of Environmental Science and Engineering, College of Chemical Engineering, Huaqiao University, Xiamen 361021, China

  • 2.

    Institute of Environmental and Resources Technology, Huaqiao University, Xiamen 361021, China

  • 3.

    Andou water supply company, Xiamen 361021, China

  • Fund Project:

  • 摘要: 研究了蜘蛛兰在不同程度富营养化水体中对氮、磷的去除和对藻类的抑制效应。结果表明,蜘蛛兰在3种不同程度富营养化水体中均能正常生长,且对富营养水体中的氮、磷和叶绿素a浓度均表现出良好的净化去除效果。在45 d的实验中,3种不同程度富营养水体的TN、NO3--N、NH4+-N和TP浓度分别由初始的3.69~25.65、2.79~21.14、0.75~3.57和0.14~1.23mg/L降至1.25~18.99、1.08~16.03、0.18~1.39和0.06~0.77mg/L,在3种不同程度富营养水体中植物的平均生物量累积增长率分别为40.98% 、64.41% 和95.08%。实验各处理组富营养化水体中的叶绿素a浓度及荧光参数短期内都显著下降,而各对照组中则较稳定或略有下降。蜘蛛兰不仅可以净化富营养水体中营养元素,且对水体中藻类的生长有明显的抑制作用,其在水体生态修复工程中具有良好的应用前景。
    Abstract: The ability of Hymenocallis americana in removing nitrogen, phosphorus and inhibiting algae from varying degrees of eutrophic waters was studied. The results showed that Hymenocallis americana was able to grow normally in different degrees of eutrophic waters,and was very efficient at removing nitrogen, phosphorus and inhibiting algae. In different degrees of eutrophic waters, the total nitrogen, nitrate, ammonium and total phosphorus contents of 3.69~25.65, 2.79~21.14,0.75~3.57 and 0.14~1.23 mg/L could be dropped to 1.25~18.99,1.08~16.03, 0.18~1.39 and 0.06~0.77 mg/L, respectively. The average increases rates of plant biomass accumulated in varying degrees of eutrophic waters were 40.98%, 64.41% and 95.08%, respectively. The chlorophyll-a content and fluorescence parameter in treatment group of eutrophic water decreased sharply in a week, but chlorophyll-a content and fluorescence parameter was stabilized in the control group of eutrophic water. It was found that Hymenocallis americana could better purify water bodies with various eutrophic levels whilst inhibiting the growth of algae. It has a good application perspective in the remediation of eutrophic waters.
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  • [1] Xian Q.M., Li X.H., Cheng C. Removal of nutrients and veterinary antibiotics from swine wastewater by a constructed macrophyte floating bed system. Journal of Environmental Management, 2010, 91 (12):2657-2661
    [2] Li M., Wu Y.J., Yu Z.L. Nitrogen removal from eutrophic water by floating-bed grown water spinach ( Ipomoea aquatica Forsk.) with ion implantation.Water Research, 2007, 41(2):3152-3158
    [3] Lu Q., He Z.L., Graetz D.A., et al. Phytoremediation to remove nutrients and improve eutrophic stormwaters using water lettuce (Pistia stratiotes L.). Environ. Sci. Pollut. Res. Int., 2010,17(1):84-96
    [4] Sooknah R.D., Wilkie A.C. Nutrient removal by floating aquatic macrophytes cultured in anaerobically digested flushed dairy manure wastewater. Ecological Engineering,2004,22(1):27-42
    [5] Fox L.J.,Struik P.C., Appleton B.L., et al. Nitrogen phytoremediation by water hyacinth (Eichhornia crassipes (Mart.) Solms). Water, Air and Soil Pollution, 2008,194(1): 199-207
    [6] 万蕾,徐德兰,高明侠,等.大型水生植 物对骆马湖氮、磷元素的影响.环境工程学报,2012,6(10):3579-3584 Wan Lei, Xu Delan, Gao Mingxia,et al. Effect of macrophytes on nitrogen and phosphorus in Luoma Lake.Chinese Journal of Environmental Engineering,2012,6(10): 3579-3584 (in Chinese)
    [7] Korner S., Nicklisch A. Allelopathic growth inhibition of selected phytoplankton species by submerged macrophytes. Journal of Phycology, 2002,38(5): 862-871
    [8] Nakai S., Zou G., Okuda T. Anti-cyanobacterial allelopathic effects of plants use for artificial floating islands. Allelopathy Journal, 2010, 26(1): 113-121
    [9] 舒金华.我国主要湖泊富营养化程度的评价. 海洋与湖沼,1993,24(6):616-620 Shu Jinhua. Assessment of eutrophication in main lakes of china. Oceanologia et Limnologia Sinica,1993,24(6):616-620 (in Chinese)
    [10] GmbH H.W. Phytoplankton Analyzer PHYTO-PAM and Phyto-Win Software V 1.45. Germany, 2003, 33-107
    [11] 国家环境保护总局.水和废水监测分析方法(第4版).北京:中国环境科学出版社,2002
    [12] 黄蕾,翟建平,王传瑜,等.4种水生植物在冬季脱氮除磷效果的试验研究.农业环境科学学报, 2005, 24(2):366-370 Huang Lei,Zhai Jianping,Wang Chuanyu,et al. Removals of nitrogen and phosphorus in taihu lake water by four hydrophytes in winner season. Journal of Agro-environment Science,2005, 24(2):366-370(in Chinese)
    [13] Ellen V.D., Wouter J.B. Impact of submerged macrophytes including charophytes on phyto-and zooplankton communities:Allelopathy versus other mechanisms.Aquatic Botany, 2002,72(3-4):261-274
    [14] Zhu J.Y., Liu B.Y., Wang J., et al. Study on the mechanism of allelopathic influence on cyanobacteria and chlorophytes by submerged macrophyte(Myriophyllum spicatum) and its secretion. Aquatic Toxicology, 2010,98(2): 196-203
    [15] Zhang T.T.,He M.,Wu A.P., et al. Inhibitory effects and mechanisms of Hydrilla verticillata (Linn.f.) royle extracts on freshwater algae.Bull. Environ. Contam. Toxicol., 2012, 88(3):477-481
    [16] Weir T.L., Park S.W., Vivanco J.M. Biochemical and physiological mechanisms mediated by allelochemicals.Current Opinion in Plant Biology,2002,7(4):472-479
    [17] Gross E.M. Allelopathy of aquatic autotrophs. Critical Reviews in Plant Sciences, 2003, 22(3-4): 313-339
    [18] Srivastava A., Juttner F., Strasser R.J. Action of the allelochemical, fischerellin A, on photosystem Ⅱ. Biochimica et Biophysics Acta/Bioenergetics, 1998,1364(3):326-336
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出版历程
  • 收稿日期:  2012-12-21
  • 刊出日期:  2014-01-03
黄伟, 郭沛涌, 陈淑芳. 蜘蛛兰去除不同程度富营养水体中氮磷及抑藻效应[J]. 环境工程学报, 2014, 8(1): 62-66.
引用本文: 黄伟, 郭沛涌, 陈淑芳. 蜘蛛兰去除不同程度富营养水体中氮磷及抑藻效应[J]. 环境工程学报, 2014, 8(1): 62-66.
shu
Huang Wei, Guo Peiyong, Chen Shufang. Removal of nitrogen and phosphorus from different degree eutrophic waters and restraint of algae by Hymenocallis americana[J]. Chinese Journal of Environmental Engineering, 2014, 8(1): 62-66.
Citation: Huang Wei, Guo Peiyong, Chen Shufang. Removal of nitrogen and phosphorus from different degree eutrophic waters and restraint of algae by Hymenocallis americana[J]. Chinese Journal of Environmental Engineering, 2014, 8(1): 62-66.
shu

蜘蛛兰去除不同程度富营养水体中氮磷及抑藻效应

  • 1.  华侨大学环境科学与工程系, 厦门 361021
  • 2.  华侨大学环境与资源技术研究所, 厦门 361021
  • 3.  厦门市安兜自来水有限公司, 厦门 361021
  • 收稿日期:  2012-12-21
基金项目:

国家自然科学基金资助项目(20777021)

教育部科学技术研究重点项目(210253)

福建省自然科学基金计划资助项目(2010J01043,D0610012)

摘要: 研究了蜘蛛兰在不同程度富营养化水体中对氮、磷的去除和对藻类的抑制效应。结果表明,蜘蛛兰在3种不同程度富营养化水体中均能正常生长,且对富营养水体中的氮、磷和叶绿素a浓度均表现出良好的净化去除效果。在45 d的实验中,3种不同程度富营养水体的TN、NO3--N、NH4+-N和TP浓度分别由初始的3.69~25.65、2.79~21.14、0.75~3.57和0.14~1.23mg/L降至1.25~18.99、1.08~16.03、0.18~1.39和0.06~0.77mg/L,在3种不同程度富营养水体中植物的平均生物量累积增长率分别为40.98% 、64.41% 和95.08%。实验各处理组富营养化水体中的叶绿素a浓度及荧光参数短期内都显著下降,而各对照组中则较稳定或略有下降。蜘蛛兰不仅可以净化富营养水体中营养元素,且对水体中藻类的生长有明显的抑制作用,其在水体生态修复工程中具有良好的应用前景。

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