Nitrogen removal from Lake Caohai, a typical ultra-eutrophic lake in China with large scale confined growth of Eichhornia crassipes

Zhi Wang; Zhiyong Zhang; Yingying Zhang; Junqian Zhang; Shaohua Yan; Junyao Guo

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Nitrogen removal from Lake Caohai, a typical ultra-eutrophic lake in China with large scale confined growth of Eichhornia crassipes

机译：曹海（中国典型的超富营养湖，凤眼凤眼的大规模有限生长）中的氮去除

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An ecological engineering project, with large-scale utilization of Eichhornia crassipes (coverage area ～4.3 km~2) for pollution control in an open ultra-eutrophic lake, Lake Caohai, was first implemented in 2011. In this study, the efficiency of N removal using E crassipes in the lake was evaluated. After E. crassipes was planted in May, the concentrations of TN and NH_4~+ in Waicaohai, the main part of Lake Caohai, were significantly decreased within a month, and then, remained stable from June to November, 2011, although the lake had received waste water continuously from river inlets. The average concentrations of TN, NH_4~+-N and NO_3~--N in water of Xi Yuan Channel (outlet) were reduced to 3.3,0.02 and 0.8 mg L~(-1) from 13.8,4.7 and 5.8 mg L~(-1) in river inlets, respectively. The DO levels in 2011 were not decreased, but concentrations of TN and NH_4~+ were significantly reduced when compared with the historical data from 2007 in the lake. Assimilation by E. crassipes was the main pathway to remove N in Lake Caohai, accounted for 52% of the total N influent (936t), or 64% of the removed N (761t). These results indicated that large scale utilization of E. crassipes for removal of N in the eutrophic lake is practicable.

机译：2011年首次实施了在开放的超富营养湖草海中大规模利用凤眼莲（覆盖面积〜4.3 km〜2）进行污染治理的生态工程项目。评价了在湖中使用E十字花科植物的去除情况。在5月份种植了景天草后，草海的主要部分外草海的TN和NH_4〜+的浓度在一个月内显着下降，然后，尽管该湖已经从河口连续接收废水。西苑河道（出口）水中的TN，NH_4〜+ -N和NO_3〜--N的平均浓度从13.8、4.7和5.8 mg L〜降低到3.3、0.02和0.8 mg L〜（-1）（-1）分别在河口。与2007年的湖泊历史数据相比，2011年的溶解氧水平没有降低，但TN和NH_4〜+的浓度却显着降低。 cr海藻的吸收是除去草海中氮的主要途径，占氮流入总量（936t）的52％，或氮去除总量（761t）的64％。这些结果表明，在富营养化湖泊中大规模利用大肠埃希菌去除氮是可行的。

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来源
《Chemosphere》 |2013年第2期|177-183|共7页
作者
Zhi Wang; Zhiyong Zhang; Yingying Zhang; Junqian Zhang; Shaohua Yan; Junyao Guo;
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作者单位

Institute of Agricultural Resource and Environment, Jiangsu Academy of Agricultural Sciences, Nanjing 210014, China,Key Laboratory for Environment and Disaster Monitoring and Evaluation, Hubei, Institute of Geodesy and Geophysics, Chinese Academy of Sciences, Wuhan 430077, China;

Institute of Agricultural Resource and Environment, Jiangsu Academy of Agricultural Sciences, Nanjing 210014, China;

Institute of Agricultural Resource and Environment, Jiangsu Academy of Agricultural Sciences, Nanjing 210014, China;

Institute of Agricultural Resource and Environment, Jiangsu Academy of Agricultural Sciences, Nanjing 210014, China,State Key Laboratory of Freshwater Ecology and Biotechnology, Institute of Hydrobiology, Chinese Academy of Sciences, Wuhan 430072, China;

Institute of Agricultural Resource and Environment, Jiangsu Academy of Agricultural Sciences, Nanjing 210014, China;

Institute of Agricultural Resource and Environment, Jiangsu Academy of Agricultural Sciences, Nanjing 210014, China;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《化学文摘》(CA);
原文格式 PDF
正文语种 eng
中图分类
关键词
Eutrophication; Lake; Nitrogen; Water hyacinth;

机译：富营养化湖;氮;水葫芦;

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3. 凤眼莲对不同程度富营养化水体氮磷的去除贡献研究 [J] . 张志勇 ,郑建初 ,刘海琴 . 中国生态农业学报 . 2010,第001期

4. 凤眼莲与微生物组合处理对水体中氮磷去除能力的比较研究 [J] . 王非 ,吴金男 ,尹凡 . 现代农业科技 . 2015,第017期

5. 凤眼莲和水浮莲对滇池草海水体中氮去除效果的比较研究 [J] . 闻学政 ,刘海琴 ,张迎颖 . 农业环境与发展 . 2015,第004期

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1. 凤眼莲治理富营养化水体中的蓝藻 [P] . 中国专利： CN1406880A . 2003-04-02

2. 富营养化水体中氮、磷的生物去除方法 [P] . 中国专利： CN105645588B . 2018.06.26

3. the method and arrangement for the removal and extraction of mainly ammonium nitrogen to avoid the formation of nitrates and nitrites, the removal and extraction of phosphorus and oxygen-consuming substance, BOD, from lakes, wastewater or other similar waters, after filtration of large particles; through the interaction of a multi-stage filter system and thereby the adaptation of filter media and control parameters for effective biological, mechanical and chemical purification; [P] . 外国专利： SE9803002L . 2000-03-08

机译：去除大颗粒过滤后主要去除铵态氮以避免形成硝酸盐和亚硝酸盐，从湖泊，废水或其他类似水中去除和提取磷和耗氧物质BOD的方法和装置;通过多级过滤器系统的相互作用，从而调整过滤器介质和控制参数，以有效地进行生物，机械和化学净化;

4. the method and arrangement for the removal and extraction of mainly ammonium nitrogen to avoid the formation of nitrates and nitrites, the removal and extraction of phosphorus and oxygen-consuming substance, BOD, from lakes, wastewater or other similar waters, after filtration of large particles; through the interaction of a multi-stage filter system and thereby the adaptation of filter media and control parameters for effective biological, mechanical and chemical purification; [P] . 外国专利： SE9803002D0 . 1998-09-07

机译：去除大颗粒过滤后主要去除铵态氮以避免形成硝酸盐和亚硝酸盐，从湖泊，废水或其他类似水中去除和提取磷和耗氧物质BOD的方法和装置;通过多级过滤器系统的相互作用，从而调整过滤器介质和控制参数，以有效地进行生物，机械和化学净化;

5. remedies to the abnormal distribution of aquatic plants in seas and lakes.produced by the difference in volume between the ionic and molecular state of nitrogenous substances and fosfate placed in sea water and lake [P] . 外国专利： IT9044001A1 . 1991-07-17

机译：对海洋和湖泊中水生植物异常分布的补救措施，是通过将含氮物质和放置在海水和湖泊中的磷酸盐的离子态和分子态之间的体积差异产生的

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Nitrogen removal from Lake Caohai, a typical ultra-eutrophic lake in China with large scale confined growth of Eichhornia crassipes

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