Citation in China; Chinese scientists cited works of Sergei Ostroumov, environmental science, improving water quality, pollution control, water self-purification, Цитирование, 水，水质，污染控制，水自净化，中文，引文，中国， ~ CookingFood.Org

Citation in China; Chinese scientists cited works of Sergei Ostroumov, environmental science, improving water quality, pollution control, water self-purification,水，水质，污染控制，水自净化，中文，引文，中国，

https://www.researchgate.net/publication/316436329;

Цитирование.
These articles in China cited scientific publications of Sergei A. Ostroumov.
This publication was cited:
Polyfunctional role of biodiversity in processes leading to water purification: current conceptualizations and concluding remarks;

SA Ostroumov - Hydrobiologia, 2002; - Springer;
Full text free: https://www.researchgate.net/publication/200582742 ;

http://5bio5.blogspot.com/2017/04/citation-in-china-chinese-scientists_21.html

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These publications, these journals cited Sergei Ostroumov (selected examples):

Image result for 湖泊科学

太湖水体氮素污染状况研究进展;

吴雅丽，许海，杨桂军，朱广伟，秦伯强 - 湖泊科学, 2014 - cqvip.com;

氮是引起湖泊富营养化的关键要素之一. 传统观点认为氮缺乏时, 湖泊生态系统可以通过生物
固氮作用从大气中获取氮来满足自身的需求, 因此认为淡水湖泊水体的生产力主要受磷限制.
但随着进一步的研究, 发现氮限制与氮和磷共同限制更为普遍, 且氮的限制常常伴随着水体的富;

[PDF] cje.net.cn

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Image result for 生态学杂志

[PDF] 过水性湖泊自净能力的动态变化;

任瑞丽，刘茂松，章杰明，张明，许梅 - 生态学杂志, 2007 - cje.net.cn;

摘要通过对过水性湖泊骆马湖1991—2003 年出, 入湖口附近主要水质指标监测资料的分析,
研究了湖泊湿地自净能力的变化情况. 结果表明: 1991—2003 年, 各采样点水质指标无显著变化,
但出, 入湖口水质差异显著, 表明骆马湖目前尚有较强的自净能力; 各采样点间主要水质指标的;

Cited by 11 Related articles All 8 versions Cite Save More

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Image result for 干旱区资源与

[PDF] 乌梁素海水体营养盐削减的空间变化规律研究;

毛旭锋，崔丽娟，李胜男，张曼胤，郭嘉… - 干旱区资源与 …, 2012 - files.instrument.com.cn

提要: 乌梁素海作为过水性湖泊, 每年承接河套地区大量的农田退水. 在降低营养盐浓度的同时,
富营养化程度也大大提升. 为揭示乌梁素海水体营养盐削减的空间变化规律, 研究采集20
个监测点的100 份水体样本, 分析了2011 年8 月乌梁素海水体总磷(TP), 总氮(TN), 氨氮(NH-4-

[HTML] cyberleninka.ru;

[PDF] 太湖流域上游河网污染物降解系数研究

冯帅，李叙勇，邓建才 - 环境科学学报, 2016 - actasc.cn

摘要: 污染物在河流中物理, 化学和生物过程的共同作用下浓度会发生衰减, 衰减的速率可用表观
降解系数表示, 其中, 仅有生物过程引起污染物浓度衰减的速率用生物降解系数表示.
为了探究太湖流域上游河网污染物的降解规律, 在20 个采样点开展原位实验测算了高锰酸盐

[HTML] nthu.edu.tw

利用水族生物環境檢測法解析河川的自淨作用-以新竹柯子湖溪為例

鄭博仁 - 2005 - nthur.lib.nthu.edu.tw

本研究主要是利用水族環境生物檢測法(Aquatic Organisms environment Diagnostics,
簡稱AOD), 以此作為評估河川水體自淨的能力. 經由本研究之結果分析後,
水族環境生物檢測法能確實反映水體品質, 且較其他水質評估指標更能顯現出樣站間水體品質的

[PDF] researchgate.net

乌梁素海湿地对营养盐的削减效率及其分区研究

毛旭锋，魏晓燕，陈琼，魏希杰 - 水土保持研究, 2014 - cqvip.com

基于乌梁素湖区20 个监测点近2a 的监测数据, 分析不同介质(水体, 植物和底泥)
对总氮和总磷的净化过程, 构建削减效率指数, 核算不同湖区对营养盐的削减效率,
通过聚类分析划分削减区. 结果显示: 水体和植被中N 和P 营养盐浓度(含量)

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Image result for 环境科学, 2016 - hjkx.ac.cn

[HTML] hjkx.ac.cn

[HTML] 平原河网典型污染物生物降解系数的研究

冯帅，李叙勇，邓建才 - 环境科学, 2016 - hjkx.ac.cn

摘要: 生物降解是污染物综合降解的重要组成部分, 生物降解过程的快慢用生物降解系数表示.
为探明太湖上游平原河网典型污染物的生物降解规律, 于2015 年9 月进行原位实验,
采用一级反应动力学模型对高锰酸盐指数, 氨氮(NH 4+-N), 总氮(TN) 和总磷(TP)

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[PDF] researchgate.net

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Citation in China in 2017. Chinese scientists cited Sergei Ostroumov. https://www.researchgate.net/publication/316432914; Цитирование,
This article was cited:Ostroumov, S.A. Biocontrol of water quality: Multifunctional role of biota in water self-purification. Russ. J. Gen. Chem. 2011, 80, 2754–2761.] Full text of the cited article, free: https://www.researchgate.net/publication/227303635;
Xiong G., Wang G., Wang D., Yang W., Chen Y., Chen Z. Spatio-Temporal Distribution of Total Nitrogen and Phosphorus in Dianshan Lake, China: The External Loading and Self-Purification Capability. Sustainability. 2017; 9(4):500. Institution, affiliation of Chinese scientists who cited it: East China Normal University,
http://5bio5.blogspot.com/2017/04/citation-in-china-chinese-scientists.html;
** Sustainability 2017, 9(4), 500; doi:10.3390/su9040500; Published by MDPI AG, Basel, Switzerland; IMPACT FACTOR 1.343;
Article: Spatio-Temporal Distribution of Total Nitrogen and Phosphorus in Dianshan Lake, China: The External Loading and Self-Purification Capability; Guohua Xiong 1,2, Guochen Wang 1,2, Dongqi Wang 1,2,*, Weilin Yang 1,2, Yuanyuan Chen 1,2 and Zhenlou Chen 1,2;
1 Key Laboratory of Geographic Information Science (Ministry of Education), East China Normal University, Shanghai 200241, China;
2 School of Geographical Sciences, East China Normal University, Shanghai 200241, China;
* Correspondence: Tel.: +86-21-5434-1201; Academic Editor: Vincenzo Torretta; Received: 10 January 2017 / Accepted: 23 March 2017 / Published: 27 March 2017;
Abstract : In this article, long-term data, statistical analysis, and spatial interpolation method were applied to the analyses of the spatial and temporal changes of total nitrogen (TN) and total phosphorus (TP) in Dianshan Lake. We also estimated the self-purification capability of TN and TP in Dianshan Lake. The results showed that interannual variability of the average concentration of TN in Dianshan Lake changed significantly, showing a characteristic increase before a decline, and the average concentration of TN showed an obvious downward trend, especially after 2007. Interannual variability of the average concentration of TP in Dianshan Lake fluctuated, and the average concentration of TP showed a downward trend after 2007. The seasonal variations of TN and TP in Dianshan Lake were similar. Higher TN concentration occurred in winter and spring, while higher TP concentration appeared in summer, autumn, and winter. The spatial distribution of TN and TP in Dianshan Lake were similar, showing a characteristic which decreased from north to south and west to east. The highest TN and TP values were mainly distributed in the inlet monitoring sites, while the lowest TP values were distributed in the outlet monitoring sites. The self-purification capability of TN and TP were about 2289.97 t/yr and 112.16 t/yr, which suggested a deterioration of natural water quality. Our research showed that Dianshan Lake was highly eutrophic and that water quality showed a substantial improvement from 1996 to 2015. Keywords: interannual variability; spatio-temporal distribution; self-purification capability; Dianshan Lake;

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This innovative and fundamental article of S.A. Ostroumov [ Polyfunctional role of biodiversity in processes leading to water purification: current conceptualizations and concluding remarks; Hydrobiologia, 2002;
Full text free: https://www.researchgate.net/publication/200582742 ]
was also cited by researchers from U.S., Russia, Spain, Belgium, Netherlands, France, Germany, Sweden, Ireland, Greece, Ukraine, Czech Republic, et al. ; 85 citations in toto;
http://5bio5.blogspot.com/2017/04/85-citations-of-polyfunctional-role-of.html;
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Computer translation of the Chinese abstracts above from Chinese into English:

Research progress of nitrogen pollution in Taihu Lake water body;

Lake Science, 2014 - cqvip.com;

Nitrogen is one of the key elements that contribute to the eutrophication of lakes. The traditional view is that when the nitrogen is deficient, the lake ecosystem can
Nitrogen fixation from the atmosphere to obtain nitrogen to meet their own needs, so that the production of freshwater lake water is mainly limited by the phosphorus.
However, with further research, it is found that nitrogen limitation is more common than nitrogen and phosphorus, and nitrogen limitation is often accompanied by water rich;
Cited by 14 Related articles All 5 versions Cite Save

[PDF] cje.net.cn
[PDF] Dynamic changes in self-purification capacity of water-based lakes;

Journal of Ecology, 2007 - cje.net.cn;
Abstract Based on the analysis of the monitoring data of the main water quality indicators of Luoma Lake in the past year from 1991 to 2003,
The results showed that there was no significant change in water quality index at each sampling point in 1991-2003,
But there is a significant difference between the water quality of the lake and the lake, which indicates that there is still a strong self-purification ability in Luoma Lake. The main water quality indicators of each sampling point
Cited by 11 Related articles All 8 versions Cite Save More

[PDF] Study on the Spatial Variation Law of Nutrient Salt Reduction in Wuliangsuhai Sea;

Mao Xufeng, Cui Lijuan, Li Shengnan, Zhang Manyin, Guo Jia ... - Arid Zone Resources and ..., 2012 - files.instrument.com.cn
Abstract: Wuliangsuhai as a water-based lakes, each year to undertake a large number of Hetao farmland waterfall in reducing the concentration of nutrients at the same time,
Eutrophication degree is also greatly improved.To reveal the spatial variation of nutrient salt reduction in Wuliangsuhai water,
(TP), total nitrogen (TN), ammonia nitrogen (NH-4- (N-dimethylpyrite)) in Wuliangsuhai water were analyzed in August 2011,
Cited by 4 Related articles All 5 versions Cite Save More
[HTML] cyberleninka.ru;

Study on Degradation Coefficient of Pollutants in the Upper Reaches of Taihu Lake Basin

Journal of Environmental Science, 2016 - actasc.cn
Abstract: The concentration of pollutants in the river under the physical, chemical and biological processes under the combined concentration of attenuation, the rate of attenuation can be apparent
The degradation coefficient indicates that the rate at which only the biological process causes the contaminant concentration decay is expressed as a biodegradable coefficient.
In order to investigate the degradation of pollutants in the upper reaches of the Taihu Lake Basin, the in situ experiments were carried out at 20 sampling points to study the permanganate
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[HTML] nthu.edu.tw
Analysis on the Self-purification of River by Aquatic Biological Detection - A Case Study of Kezi Lake Creek in Hsinchu

Zheng buren - 2005 - nthur.lib.nthu.edu.tw
This study was mainly based on aquatic environmental biology (Aquatic Organisms environment Diagnostics,
Referred to as AOD) as the ability to assess the self-purification of river water.Through the analysis of the results of this study,
Aquatic biology detection method can truly reflect the quality of water, and compared with other water quality assessment indicators to show the quality of the sample between the water
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[PDF] researchgate.net

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Study on the Reduction Efficiency and Division of Nutrients in Wuliangsuhai Wetland

Soil and Water Conservation Research, 2014 - cqvip.com
Based on the monitoring data of nearly 20 monitoring points in Wuliangsu Lake area, different media (water body, plant and sediment)
The total nitrogen and total phosphorus purification process, to build the reduction efficiency index, accounting for different lake area on the nutrient reduction efficiency,
The results showed that the concentration of N and P in water and vegetation was higher than that in the control group (P <0.05)
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[HTML] hjkx.ac.cn
Study on Biodegradation Coefficient of Typical Pollutants in Plain River Network

Environmental Science, 2016 - hjkx.ac.cn
Abstract: Biodegradation is an important component of comprehensive degradation of pollutants. Biodegradation process is expressed by biodegradation coefficient.
In order to find out the biodegradation of typical pollutants in the upper reaches of Taihu Lake, in situ experiments were carried out in September 2015,
(NH 4 + -N), total nitrogen (TN) and total phosphorus (TP) were studied by using the first order reaction kinetics model.

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Citation in China in 2017. Chinese scientists cited Sergei Ostroumov. https://www.researchgate.net/publication/316432914; Цитирование,
This article was cited:Ostroumov, S.A. Biocontrol of water quality: Multifunctional role of biota in water self-purification. Russ. J. Gen. Chem. 2011, 80, 2754–2761.] Full text of the cited article, free: https://www.researchgate.net/publication/227303635;
Xiong G., Wang G., Wang D., Yang W., Chen Y., Chen Z. Spatio-Temporal Distribution of Total Nitrogen and Phosphorus in Dianshan Lake, China: The External Loading and Self-Purification Capability. Sustainability. 2017; 9(4):500. Institution, affiliation of Chinese scientists who cited it: East China Normal University,
http://5bio5.blogspot.com/2017/04/citation-in-china-chinese-scientists.html;
** Sustainability 2017, 9(4), 500; doi:10.3390/su9040500; Published by MDPI AG, Basel, Switzerland; IMPACT FACTOR 1.343;
Article: Spatio-Temporal Distribution of Total Nitrogen and Phosphorus in Dianshan Lake, China: The External Loading and Self-Purification Capability; Guohua Xiong 1,2, Guochen Wang 1,2, Dongqi Wang 1,2,*, Weilin Yang 1,2, Yuanyuan Chen 1,2 and Zhenlou Chen 1,2 1 Key Laboratory of Geographic Information Science (Ministry of Education), East China Normal University, Shanghai 200241, China; 2 School of Geographical Sciences, East China Normal University, Shanghai 200241, China;
* Correspondence: Tel.: +86-21-5434-1201; Academic Editor: Vincenzo Torretta; Received: 10 January 2017 / Accepted: 23 March 2017 / Published: 27 March 2017;
Abstract : In this article, long-term data, statistical analysis, and spatial interpolation method were applied to the analyses of the spatial and temporal changes of total nitrogen (TN) and total phosphorus (TP) in Dianshan Lake. We also estimated the self-purification capability of TN and TP in Dianshan Lake. The results showed that interannual variability of the average concentration of TN in Dianshan Lake changed significantly, showing a characteristic increase before a decline, and the average concentration of TN showed an obvious downward trend, especially after 2007. Interannual variability of the average concentration of TP in Dianshan Lake fluctuated, and the average concentration of TP showed a downward trend after 2007. The seasonal variations of TN and TP in Dianshan Lake were similar. Higher TN concentration occurred in winter and spring, while higher TP concentration appeared in summer, autumn, and winter. The spatial distribution of TN and TP in Dianshan Lake were similar, showing a characteristic which decreased from north to south and west to east. The highest TN and TP values were mainly distributed in the inlet monitoring sites, while the lowest TP values were distributed in the outlet monitoring sites. The self-purification capability of TN and TP were about 2289.97 t/yr and 112.16 t/yr, which suggested a deterioration of natural water quality. Our research showed that Dianshan Lake was highly eutrophic and that water quality showed a substantial improvement from 1996 to 2015. Keywords: interannual variability; spatio-temporal distribution; self-purification capability; Dianshan Lake;

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More info on publications of Sergei Ostroumov:

300 Titles of relevant publications with links.
Simple format (improved);
More than 300 publications, results of research at Lomonosov Moscow State University, environmental science, ecology, biology, water quality, water self-purification, biogeochemistry, ecotoxicology, aquatic, selected;
http://5bio5.blogspot.com/2017/03/repost-300-titles-of-relevant.html;

https://www.researchgate.net/publication/309549177;

author: Sergei A. Ostroumov, a researcher at Faculty of Biology, Fulbright award winner;

titles with links to ResearchGate; updated in 2017;

in English, in Russian:
previous drafts:

http://5bio5.blogspot.com/2017/03/repost-more-than-300-publications.html;

http://5bio5.blogspot.com/2017/02/300-titles-of-relevant-publications.html;

http://5bio5.blogspot.com/2017/02/repost-simple-format-improved-300.html;

http://5bio5.blogspot.com/2016/11/simple-format-300-publications-results_3.html;

http://5bio5.blogspot.com/2016/11/simple-format-300-publications-results.html;

http://5bio5.blogspot.com/2016/10/publications-results-of-research-at_30.html;

Publications, results of research at Moscow University, environmental science, selected; author: Sergei Andreevich Ostroumov, a researcher at Faculty of Biology, award winner; titles with links to ResearchGate;
in English, in Russian. https://www.researchgate.net/publication/309549177;