农科机构知识库联盟

USE OF FLOATING PLANTS FOR PURIFICATION OF HYPEREUTROPHIC FRESHWATER LAKE (CAOHAI BAY, DIANCHI LAKE, CHINA): A REVIEW OF ECOLOGICAL ENGINEERING MEASURES

文献类型：外文期刊

第一作者： Liu, Guo-Feng

作者： Liu, Guo-Feng;Liu, Hong-Jiang;Zhang, Zhi-Yong

作者机构：

关键词： water eutrophication;floating hydrophytes;water hyacinth;ecological engineering;nitrogen and phosphorus

期刊名称：JOURNAL OF ENVIRONMENTAL PROTECTION AND ECOLOGY （影响因子：0.577；五年影响因子：0.598 ）

ISSN： 1311-5065

年卷期： 2017 年 18 卷 2 期

页码：

收录情况： SCI

摘要： Water eutrophication is currently one of the most severe problems affecting humans worldwide. This phenomenon is particularly serious in freshwater systems in China. Thus, there is a need for a cost-effective, sustainable solution to this problem. One approach that meets all these requirements and is also ecologically friendly is the use of floating plants in the contaminated water areas. The ideal aquatic plant for ecological remediation is the water hyacinth (Eichharnia crassipes (Mart.) Solms.) is well adapted to an aquatic environment, and produces a larger biomass. This model of the controlled planting of floating plants to reuse resources from farmland was put into effect in lake Dianchi, Yunnan province (with a total planting area of 9 km(2) in 2011), which is the most seriously polluted lakes in China. In addition, this was the first large-scale implementation of the controlled planting of water hyacinths in China for treating polluted water. The results of this experimental replanting showed that the concentration of total nitrogen (TN) and phosphorus (TP) in the water decreased quickly. Thus, we hope that such an approach could be used in other polluted water bodies throughout the world to purify polluted water in a relatively short length of time.

分类号：

相关文献

[1]Reprint of: Biological control of rice insect pests in China. Lou, Yong-Gen,Zhang, Jin,Zhang, Gu-Ren,Zhang, Wen-Qing,Hu, Yang. 2014

[2]Ameliorants improve saline-alkaline soils on a large scale in northern Jiangsu Province, China. Liu Li-ping,Long Xiao-hua,Liu Zhao-Pu,Tao Ya,Zhou Quan-suo,Shao Hong-bo,Shao Hong-bo,Zong Jun-qin.

[3]Ecological engineering of trap cropping promotes biocontrol services in peach orchard ecosystems. Wan, Nian-Feng,Zhang, Yi-Ming,Huang, Kai-Hua,Ji, Xiang-Yun,Jiang, Jie-Xian,Wan, Nian-Feng,Zhang, Yi-Ming,Huang, Kai-Hua,Ji, Xiang-Yun,Jiang, Jie-Xian.

[4]Ecological engineering of ground cover vegetation promotes biocontrol services in peach orchards. Wan, Nian-Feng,Ji, Xiang-Yun,Gu, Xiao-Jun,Jiang, Jie-Xian,Wan, Nian-Feng,Wu, Ji-Hua,Li, Bo.

[5]Selective enhancement of parasitoids of rice Lepidoptera pests by sesame (Sesamum indicum) flowers. Zhu, Pingyang,Wang, Gengwei,Zheng, Xusong,Tian, Junce,Lu, Zhongxian,Xu, Hongxing,Yang, Yajun,Zhu, Pingyang,Chen, Guihua,Wang, Gengwei,Heong, Kong Luen,Gurr, Geoff M.,Gurr, Geoff M.,Gurr, Geoff M..

[6]Global warming affects the occurrence of stem borers in ecological engineering-based diversified farming ecosystems. Wan, Nian-Feng,Jiang, Jie-Xian,Cai, You-Ming,Wan, Nian-Feng,Shic, Sheng-Gao,Chen, Yi-Jun,Qin, Zhong,Yao, Ying-Juan.

[7]Mechanisms for flowering plants to benefit arthropod natural enemies of insect pests: Prospects for enhanced use in agriculture. Lu, Zhong-Xian,Zhu, Ping-Yang,Zheng, Xu-Song,Yang, Ya-Jun,Xu, Hong-Xing,Gurr, Geoff M.,Read, Donna M. Y.,Zhu, Ping-Yang,Heong, Kong-Luen. 2014

[8]Effects of sesame nectar on longevity and fecundity of seven Lepidoptera and survival of four parasitoid species commonly found in agricultural ecosystems. Kai, Liu,Lu Zhong-xian,Zhang Jing-ming,Lu Yao-bing,Lu Yan-hui,Kai, Liu,Zhu Ping-yang,Chen Gui-hua,Zhu Ping-yang. 2017

[9]Laboratory screening supports the selection of sesame (Sesamum indicum) to enhance Anagrus spp. parasitoids (Hymenoptera: Mymaridae) of rice planthoppers. Zhu, Pingyang,Lu, Zhongxian,Zheng, Xusong,Xu, Hongxing,Yang, Yajun,Gurr, Geoff M.,Gurr, Geoff M.,Heong, Kongluen,Chen, Guihua. 2013

[10]Biological control of rice insect pests in China. Lou, Yong-Gen,Zhang, Jin,Zhang, Gu-Ren,Zhang, Wen-Qing,Hu, Yang. 2013

[11]Quantifying the respective and additive effects of nectar plant crop borders and withholding insecticides on biological control of pests in subtropical rice. Zhu, Pingyang,Zheng, Xusong,Xu, Hongxing,Yang, Yajun,Lu, Zhongxian,Zhu, Pingyang,Johnson, Anne C.,Gurr, Geoff M.,Zhu, Pingyang,Zhang, Facheng,Chen, Guihua. 2018

[12]The occurrence of rice leaf roller, Cnaphalocrocis medinalis Guenee in the large-scale agricultural production on Chongming Eco-island in China. Wan, Nian-Feng,Ji, Xiang-Yun,Cao, Li-Ming,Jiang, Jie-Xian.

[13]Fenced cultivation of water hyacinth for cyanobacterial bloom control. Qin, Hongjie,Zhang, Zhiyong,Liu, Haiqin,Wen, Xuezheng,Zhang, Yingying,Wang, Yan,Yan, Shaohua,Li, Dunhai.

[14]Nitrogen removal from Lake Caohai, a typical ultra-eutrophic lake in China with large scale confined growth of Eichhornia crassipes. Wang, Zhi,Zhang, Zhiyong,Zhang, Yingying,Zhang, Jungian,Yan, Shaohua,Guo, Junyao,Wang, Zhi,Zhang, Jungian.

[15]Effects of engineered use of water hyacinths (Eicchornia crassipes) on the zooplankton community in Lake Taihu, China. Chen, Huai-Guo,Peng, Fei,Zhang, Lei,Zhou, Xiao-Dan,Wang, Wei,Xue, Wen-Da,Xu, Xiao-Feng,Zhang, Zhi-Yong,Liu, Hai-Qin,Liu, Guo-Feng,Yan, Shao-Hua.

[16]Site test of phytoremediation of an open pond contaminated with domestic sewage using water hyacinth and water lettuce. Qin, Hongjie,Zhang, Zhiyong,Liu, Minhui,Liu, Haiqin,Wang, Yan,Wen, Xuezheng,Zhang, Yingying,Yan, Shaohua.

[17]Use of biogas fluid-soaked water hyacinth for cultivating Pleurotus geesteranus. Chen, Xiuxia,Chen, Xi,Huang, Qin,Jiang, Zhihe,Lei, Jingui,Weng, Boqi.

[18]Water hyacinth (Eichhornia crassipes) waste as an adsorbent for phosphorus removal from swine wastewater. Chen, Xi,Chen, Xiuxia,Wan, Xianwei,Huang, Qin,Weng, Boqi.

[19]Efficient assimilation of cyanobacterial nitrogen by water hyacinth. Qin, Hongjie,Zhang, Zhiyong,Liu, Minhui,Wang, Yan,Wen, Xuezheng,Yan, Shaohua,Zhang, Yingying,Liu, Haiqin.

[20]Study on non-destructive estimation of nitrogen concentration of water hyacinth by hyperspectral data. Wang, Jingjing,Sun, Ling,Liu, Huazhou,Wang, Jingjing. 2016

作者其他论文更多>>

Sponge iron-coupled biochar solution can achieve the synergistic augmentation of carbon sequestration, carbon sink capacity, and denitrification in ecological ditches

作者：Jiang, Bi-Ni;Zhang, Ying-Ying;Wang, Yan;Liu, Hai-qin;Zhou, Qing;Zhang, Zhi-Yong;Guo, Wen-jing;Jiang, Bi-Ni;Yang, Yi-Jing;Yang, Yu-Li;Song, Hai-Liang

关键词：Drainage; Reactive iron protection; Mineral-associated organic carbon; Carbon accumulation; Nitrate pollution
Tree-structured parzen estimator optimized-automated machine learning assisted by meta-analysis for predicting biochar-driven N2O mitigation effect in constructed wetlands

作者：Jiang, Bi-Ni;Yang, Yu-Li;Song, Hai-Liang;Jiang, Bi-Ni;Zhang, Ying-Ying;Zhang, Zhi-Yong

关键词：TPE optimization; Hyperparameter tuning; Automated machine learning; Biochar; Nitrous oxide
Quantifying biochar-induced greenhouse gases emission reduction effects in constructed wetlands and its heterogeneity: A multi-level meta-analysis

作者：Jiang, Bi-Ni;Song, Hai-Liang;Jiang, Bi-Ni;Zhang, Zhi-Yong;Luc, Min-Bo;Xie, Bo-Lun

关键词：Meta-analysis; Biochar; Constructed wetlands; Carbon dioxide; Methane; Nitrous oxide
Gut microbiota of red swamp crayfish Procambarus clarkii in integrated crayfish-rice cultivation model

作者：Shui, Yan;Liu, Guo-Feng;Fan, Li-Min;Guan, Zheng-Bing;Liu, Guo-Feng

关键词：Integrated crayfish-rice cultivation model; Gut microbiota; Procambarus clarkii; Illumina MiSeq sequencing
Exploring potential proteins associated with cyclin B 3 ' UTR in Procambarus clarkii oocytes

作者：Shui, Yan;Liu, Guo-Feng;Xu, Zeng-Hong;Zhu, Guang-Yan;Shui, Yan;Liu, Guo-Feng;Xu, Zeng-Hong

关键词：Cydin B; 3 ' UTR; CPE; Translational activation regulation
CHARACTERISTICS OF PHOSPHORUS LOSSES DUE TO SURFACE RUNOFF IN A PEACH ORCHARD AND THE EFFECTS OF INTER-PLANTING WHITE CLOVER (TRIFOLIUM REPENS L.) ON FRUIT YIELD AND QUALITY

作者：Guo, Zhi;Liu, Hong-jiang;Zhou, Wei;Chen, Liu-gen;Zheng, Jian-chu;Guo, Zhi

关键词：peach orchard;phosphorus;Trifolium repens L.;Surface runoff;peach fruit yield;peach fruit quality
Eichhornia crassipes Cleans Wetlands by Enhancing the Nitrogen Removal and Modulating Denitrifying Bacteria Community

作者：Yi, Neng;Long, Xiao-hua;Shao, Hong-bo;Yan, Shao-hua;Yi, Neng;Gao, Yan;Zhang, Zhi-yong;Guo, Jun-yao;Zhang, Zhen-hua;Yan, Shao-hua;Shao, Hong-bo

关键词：Denitrification gene;DGGE;15N Stable isotope tracing;qPCR;Water hyacinth cleaning

USE OF FLOATING PLANTS FOR PURIFICATION OF HYPEREUTROPHIC FRESHWATER LAKE (CAOHAI BAY, DIANCHI LAKE, CHINA): A REVIEW OF ECOLOGICAL ENGINEERING MEASURES

作者其他论文 更多>>

Sponge iron-coupled biochar solution can achieve the synergistic augmentation of carbon sequestration, carbon sink capacity, and denitrification in ecological ditches

Tree-structured parzen estimator optimized-automated machine learning assisted by meta-analysis for predicting biochar-driven N2O mitigation effect in constructed wetlands

Quantifying biochar-induced greenhouse gases emission reduction effects in constructed wetlands and its heterogeneity: A multi-level meta-analysis

Gut microbiota of red swamp crayfish Procambarus clarkii in integrated crayfish-rice cultivation model

Exploring potential proteins associated with cyclin B 3 ' UTR in Procambarus clarkii oocytes

CHARACTERISTICS OF PHOSPHORUS LOSSES DUE TO SURFACE RUNOFF IN A PEACH ORCHARD AND THE EFFECTS OF INTER-PLANTING WHITE CLOVER (TRIFOLIUM REPENS L.) ON FRUIT YIELD AND QUALITY

Eichhornia crassipes Cleans Wetlands by Enhancing the Nitrogen Removal and Modulating Denitrifying Bacteria Community

作者其他论文更多>>