in Chinese:
85引用:生物多样性在导致净水过程中的多功能作用:目前的概念化和总结性言论;SA Ostroumov - Hydrobiologia,2002; - 斯普林格全文免费:https://www.researchgate.net/publication/200582742;
中国,本文由美国,俄罗斯,西班牙,比利时,荷兰,法国,德国,瑞典,爱尔兰,希腊,乌克兰,捷克共和国,et al。 ;
http://5bio5.blogspot.com/2017/04/in-chinese-85-sa-ostroumov.html;
http://5bio5.blogspot.com/2017/04/85-citations-of-polyfunctional-role-of.html;
水生资源的可持续利用是基于水生生态系统的能力保持一定水平的水质。淡水和海洋中的水自净化生态系统是基于许多相互关联的过程(例如,Wetzel,1983; Spellman,
**以污水为主的生态系统的水质:生态毒理学,水文和管理考虑;BW Brooks,TM Riley,RD Taylor - Hydrobiologia,2006 - Springer;摘要在美国西南部的干旱和半干旱地区世界,历史上短暂的流的流动现在是常年主导的市政和/或工业废水排放,特别是在城市化流域。引用201相关文章全部13个版本Web of Science:127 Cite Saved[HTML] scienceblog.com将两个河口大型藻类的综合户外文化作为生物过滤器,用于从Sparus auratus废水中溶解营养物质IHernández,MAFernández-Engo ... - 应用...杂志,2005 - Springer摘要综合户外种植两种大型藻类:Ulva rotundata(Chlorophyta)和Gracilariopsis longissima(Rhodophyta)被设计。大型藻类在来自密集海洋文化(growout阶段)的金头脑的废水中培养被引用54相关文章全部11个版本Web of Science:23被保存长江三角洲生物过滤能力研究:从微观到宏观尺度IHernández,Pérez-Pastor,JJ Vergara ... - 水产养殖,2006 - Elsevier红藻ag ima ima ima ima。。。。。。。。。。。。评估不同浓度海洋鱼类培养物排出流出物中的铵秤。以前的研究表明,实验室(微尺度)和室外引用53相关文章全部6个版本Web of Science:25 Cite Save[PDF] researchgate.net全视图[HTML]生物多样性,公共卫生和城市化的科学政策挑战:比利时的例子H Keune,C Kretsch,G De Blust,M Gilbert ... - 环境...,2013 - iopscience.iop.org摘要在国际上,协调努力保护生物多样性的重要性公共卫生越来越受到认可。这些问题往往集中在或在城市地区尤其具有挑战性,因此在全球范围内正在进行城市化引用14相关文章全部15个版本Web of Science:6 Cite Save[PDF] rae.ru全视图大型地中海河流污染负荷估算的流域内空间方法Y Chatzinikolaou,A Ioannou,M Lazaridou - 海水淡化,2010 - Elsevier为了找到缺乏BOD保留能力的Pinios河段和营养投入,估计输入和输出污染负荷的差异是在上游和下游集聚地区共有73个细分市场。被引用11相关文章全部7个版本Web of Science:5 Cite Save[PDF] researchgate.net(Un)在西非可持续使用青蛙,并对生态系统造成后果M Mohneke - 2011 - edoc.hu-berlin.de使用自然资源是维护生物多样性的强有力的政治论据(CBD 2008)。然而,过度开发这些资源也是其中的主要威胁之一生物多样性(COWLISHAW et al。2005,CBD 2008),例如过度开发被提及为一个引用8相关文章全部4个版本引用保存[PDF] uni-konstanz.de使用湍流模型评估印度东部热带浅水体生态系统健康状况NR Samal,A Mazumdar,KDJöhnk... - 生态系统健康与...,2009 - Taylor&Francis在本研究中,水动力和热结构的数值模型印度东部的人造浅湖已被开发为评估的工具生态水质由气象强迫驱动。它允许量化引用7相关文章全部7个版本Web of Science:3 Cite Save[HTML] scirp.org[HTML]来自埃及地中海沿岸的一些鱼类和双壳类的重金属MA Shreadah,LMA Fattah,MA Fahmy - Journal of Environmental ...,2015 - file.scirp.org从埃及三年连续三年收集了生物群样本沿海地区沿海地区,分析Zn,Cu,Cd,Pb和Hg。此外双壳贝类,七种商业上重要的鱼品种被检查提供
**
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;
85引用:生物多样性在导致净水过程中的多功能作用:目前的概念化和总结性言论;SA Ostroumov - Hydrobiologia,2002; - 斯普林格全文免费:https://www.researchgate.net/publication/200582742;
中国,本文由美国,俄罗斯,西班牙,比利时,荷兰,法国,德国,瑞典,爱尔兰,希腊,乌克兰,捷克共和国,et al。 ;
http://5bio5.blogspot.com/2017/04/in-chinese-85-sa-ostroumov.html;
http://5bio5.blogspot.com/2017/04/85-citations-of-polyfunctional-role-of.html;
水生资源的可持续利用是基于水生生态系统的能力保持一定水平的水质。淡水和海洋中的水自净化生态系统是基于许多相互关联的过程(例如,Wetzel,1983; Spellman,
**以污水为主的生态系统的水质:生态毒理学,水文和管理考虑;BW Brooks,TM Riley,RD Taylor - Hydrobiologia,2006 - Springer;摘要在美国西南部的干旱和半干旱地区世界,历史上短暂的流的流动现在是常年主导的市政和/或工业废水排放,特别是在城市化流域。引用201相关文章全部13个版本Web of Science:127 Cite Saved[HTML] scienceblog.com将两个河口大型藻类的综合户外文化作为生物过滤器,用于从Sparus auratus废水中溶解营养物质IHernández,MAFernández-Engo ... - 应用...杂志,2005 - Springer摘要综合户外种植两种大型藻类:Ulva rotundata(Chlorophyta)和Gracilariopsis longissima(Rhodophyta)被设计。大型藻类在来自密集海洋文化(growout阶段)的金头脑的废水中培养被引用54相关文章全部11个版本Web of Science:23被保存长江三角洲生物过滤能力研究:从微观到宏观尺度IHernández,Pérez-Pastor,JJ Vergara ... - 水产养殖,2006 - Elsevier红藻ag ima ima ima ima。。。。。。。。。。。。评估不同浓度海洋鱼类培养物排出流出物中的铵秤。以前的研究表明,实验室(微尺度)和室外引用53相关文章全部6个版本Web of Science:25 Cite Save[PDF] researchgate.net全视图[HTML]生物多样性,公共卫生和城市化的科学政策挑战:比利时的例子H Keune,C Kretsch,G De Blust,M Gilbert ... - 环境...,2013 - iopscience.iop.org摘要在国际上,协调努力保护生物多样性的重要性公共卫生越来越受到认可。这些问题往往集中在或在城市地区尤其具有挑战性,因此在全球范围内正在进行城市化引用14相关文章全部15个版本Web of Science:6 Cite Save[PDF] rae.ru全视图大型地中海河流污染负荷估算的流域内空间方法Y Chatzinikolaou,A Ioannou,M Lazaridou - 海水淡化,2010 - Elsevier为了找到缺乏BOD保留能力的Pinios河段和营养投入,估计输入和输出污染负荷的差异是在上游和下游集聚地区共有73个细分市场。被引用11相关文章全部7个版本Web of Science:5 Cite Save[PDF] researchgate.net(Un)在西非可持续使用青蛙,并对生态系统造成后果M Mohneke - 2011 - edoc.hu-berlin.de使用自然资源是维护生物多样性的强有力的政治论据(CBD 2008)。然而,过度开发这些资源也是其中的主要威胁之一生物多样性(COWLISHAW et al。2005,CBD 2008),例如过度开发被提及为一个引用8相关文章全部4个版本引用保存[PDF] uni-konstanz.de使用湍流模型评估印度东部热带浅水体生态系统健康状况NR Samal,A Mazumdar,KDJöhnk... - 生态系统健康与...,2009 - Taylor&Francis在本研究中,水动力和热结构的数值模型印度东部的人造浅湖已被开发为评估的工具生态水质由气象强迫驱动。它允许量化引用7相关文章全部7个版本Web of Science:3 Cite Save[HTML] scirp.org[HTML]来自埃及地中海沿岸的一些鱼类和双壳类的重金属MA Shreadah,LMA Fattah,MA Fahmy - Journal of Environmental ...,2015 - file.scirp.org从埃及三年连续三年收集了生物群样本沿海地区沿海地区,分析Zn,Cu,Cd,Pb和Hg。此外双壳贝类,七种商业上重要的鱼品种被检查提供
**
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;