One of the best-cited scientific publications with
vital innovations on conceptualization on, understanding of how aquatic organisms improve water quality in natural aquatic ecosystems. Citation of: Polyfunctional role of biodiversity in processes leading to water purification. http://5bio5.blogspot.com/2013/06/one-of-best-cited-scientific.html
Activity of many universities. Many universities, institutions cited this article.
Tags in short: citation, aquatic, organisms, improve, water, quality, ecosystems, role, biodiversity, water purification,
**
The reference to the article that was cited:
Polyfunctional role of biodiversity in processes leading to water purification: current
conceptualizations and concluding remarks. Hydrobiologia. 2002, 469 (1-3): 203-204.
Full text free:
http://www.scribd.com/doc/52627327
CITATION OF THIS PAPER, EXAMPLES OF THE ARTICLES OF MANY AUTHORS (U.S.A., France, Netherlands, Sweden, Belgium, Ireland, Spain, China, Germany, India, et al. ) WHO CITED IT:
**
Citation of: Polyfunctional role of biodiversity in processes leading to water purification.
Examples. Citation in the U.S.A., Spain, China, Germany, India, and other countries
http://5bio5.blogspot.com/2012/12/citation-of-polyfunctional-role-of_28.html
**
Water quality of effluent-dominated ecosystems: Ecotoxicological, hydrological, and management considerations.
BW Brooks, TM Riley, RD Taylor - Hydrobiologia, 2006 - Springer;
Abstract: In arid and semi-arid regions of the southwestern United States and other parts of
the world, flows of historically ephemeral streams are now perennially dominated by
municipal and/or industrial effluent discharges, particularly in urbanized watersheds. ...
**
Studies on the biofiltration capacity of Gracilariopsis longissima: From microscale to macroscale.
I Hernández, A Pérez-Pastor, JJ Vergara… - Aquaculture, 2006 - Elsevier
The potential of the red agarophyte Gracilariopsis longissima as biofilter for phosphate and
ammonium in effluents outflowing intensive marine fish cultures was assessed at different
scales. Previous studies showed that both laboratory (microscale level) and outdoor ...
**
Integrated outdoor culture of two estuarine macroalgae as biofilters for dissolved nutrients from Sparus auratus waste waters
I Hernández, MA Fernández-Engo… - Journal of applied …, 2005 - Springer
Abstract An integrated outdoor cultivation of two macroalgal species: Ulva rotundata
(Chlorophyta) and Gracilariopsis longissima (Rhodophyta) was designed. The macroalgae
were cultured in effluents from an intensive marine culture (growout phase) of gilthead ...
**
cje.net.cn [PDF]
[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 ...
**
vliz.be [PDF]
Identification of the self-purification stretches of the Pinios River, Central Greece
Y Chatzinikolaou, M Lazaridou - Mediterranean Marine Science, 2007 - vliz.be
Abstract: The Pinios River basin in Thessaly, Greece, is intensively farmed and heavily
polluted with poorly treated domestic and industrial waste. The river was divided into 35
homogenous stretches. We investigated the self-purification capacity along the different ...
**
hjkx.ac.cn [PDF]
[PDF] 南太湖地区小型浅水湖泊自净能力季节变化研究
许磊, 李华, 陈英旭, 姚玉鑫, 梁新强, 周李, 章献忠 - 环境科学, 2010 - hjkx.ac.cn
< N 占TN 的主要部分. 主成分分析结果表明, 影响南太湖地区小型浅水湖泊自净能力的3
个主成分分别为浮游植物因子(水温, pH, 高锰酸盐指数和Chl< a), 农田排水因子(pH, DO 和TN)
和营养因子(TN 和TP). 聚类分析结果表明, 3 个湖泊11 个采样点4 个季节的水质可聚为两大类 ...
**
Assessment of ecosystem health of tropical shallow waterbodies in eastern India using turbulence model
NR Samal, A Mazumdar, KD Jöhnk… - … Ecosystem Health & …, 2009 - Taylor & Francis
In the present study, a numerical model of the hydrodynamic and thermal structure of
artificial shallow lakes in eastern India has been developed as a tool to assess the
ecological water quality, driven by the meteorological forcings. It allows quantification of ...
**
[CITATION] 太湖氮素出入湖通量与自净能力研究
陈小锋, 揣小明, 曾巾, 刘涛, 杨柳燕 - 环境科学, 2012 - cqvip.com
为了探索太湖氮素迁移转化过程, 对2009-2010 水文年环太湖25 条主要河流及太湖梅梁湾,
东太湖等典型区域的各形态氮素进行分析, 并利用太湖出入湖水量, 蓝藻人工打捞量和鱼产量等
相关数据, 分析计算太湖氮素流动和转化潜力. 结果表明太湖全年河道输入氮素总量约7.00× ...
**
22 institutions of 5 countries of Europe recently cited this paper on innovative concept, a better understanding of how a healthy aquatic ecosystem can be useful to humans. Water safety and ecosystem services.
Belgium, Netherlands, France,Germany,Sweden Cited: Polyfunctional role of biodiversity in processes leading to water purification: current conceptualizations and concluding remarks.
http://5bio5.blogspot.com/2013/06/22-institutions-of-5-countries-of.html
http://5bio5.blogspot.com/2013/06/scientists-of-22-institutions-of.html
http://5bio5.blogspot.com/2013/06/belgium-netherlands-germany-sweden-et.html
The list of the 22 institutions see here:
http://5bio5.blogspot.com/2013/05/belgium-et-al-citation-of-article.html
These 22 institutions are as follows:
22 institutions: Belgium; Ireland;
Sweden; France; Germany; The Netherlands; Czech Republic:
1. Research Institute for Nature and Forest (INBO), Kliniekstraat 25, B-1070 Brussels, Belgium;
2. Belgian Biodiversity Platform, Belgium (www.biodiversity.be/)
3. Faculty of Applied Economics, University of Antwerp, Prinsstraat 13, B-2000 Antwerp, Belgium;
4. naXys, Namur Center for Complex Systems, University of Namur, 8 rempart de la vierge, B-5000, Belgium;
5. Co-Operation On Health And Biodiversity (COHAB), COHAB Initiative Secretariat, PO Box 16, Tuam, Co. Galway, Ireland;
6. Biological Control and Spatial Ecology Lab, Universite libre de Bruxelles, CP160/12, ´
50, av FD Roosevelt, B-1050 Brussels, Belgium;
7. Federal Public Service Health, Food Chain Safety and Environment, Eurostation II, Place Victor Horta, 40 Box 10, B-1060 Brussels, Belgium;
8. Agriculture and Veterinary Intelligence and Analysis (Avia-GIS), Risschotlei 33, B-2980 Zoersel, Belgium;
9. Institute for Housing and Urban Research, Uppsala University, PO Box 514, SE-75120 Uppsala, Sweden;
10. Agency for Nature and Forest (ANB), Koning Albert II-laan 20 bus 8, Graaf de Ferrarisgebouw 1000, Brussels, Belgium;
11 Royal Belgian Institute of Natural Sciences (RBINS), Rue Vautier 29, B-1000 Brussels, Belgium
12 Research Institute for Agriculture and Fisheries (ILVO), Burgemeester Van Gansberghelaan 96 Bus 1,
B-9820 Merelbeke, Belgium
13 Department of Geography, Universite catholique de Louvain, 2, Place des Sciences, ´
B-1348 Louvain-la-Neuve, Belgium
14 DIVERSITAS, c/o Museum National d’Histoire Naturelle, 57 rue Cuvier, CP 41, F-75231 Paris Cedex 05, France;
15 Helmholtz Centre for Environmental Research (UFZ), Permoserstrasse 15, D-04318 Leipzig, Germany;
16 International Centre for Integrated Assessment and Sustainable Development (ICIS), Maastricht
University, PO Box 616, 6200 MD Maastricht, The Netherlands;
17 Division of Agricultural and Food Economics, K U Leuven, Celestijnenlaan 200e—Box 2411,
B-3001 Heverlee, Belgium
18 Laboratory for Tropical and Subtropical Agriculture and Ethnobotany, Ghent University, Coupure
Links 653, B-9000 Gent, Belgium
19 Faculty of Tropical Agrisciences, Czech University of Life Sciences Prague, Kamycka 129,
Prague 6—Suchdol, 165 21, Czech Republic
20. Ecology, Evolution and Biodiversity Conservation Section, K U Leuven, Charles Deberiotstraat 32—Box 2439, B-3000 Leuven, Belgium;
21.Military Hospital Queen Astrid, Bruynstraat 1, 1120 Neder-over-Heembeek, Belgium;
22. Institute for Environmental Management and Land-use Planning, Universite libre de Bruxelles, Campus du Solbosch, Batiment D—6 ˆ eme niveau, Local DB6.246, Avenue Depage, 30, B-1050 Bruxelles, Belgium;
**
tags: Biodiversity, sustainable, Resources, freshwater, sustainability, marine, pollutants, Aquatic, water quality, Ecosystem Services, concepts, water purification, aquatic ecosystems, selfpurification, ecosystem function, ecosystem health, innovations,
vital innovations on conceptualization on, understanding of how aquatic organisms improve water quality in natural aquatic ecosystems. Citation of: Polyfunctional role of biodiversity in processes leading to water purification. http://5bio5.blogspot.com/2013/06/one-of-best-cited-scientific.html
Activity of many universities. Many universities, institutions cited this article.
Tags in short: citation, aquatic, organisms, improve, water, quality, ecosystems, role, biodiversity, water purification,
**
The reference to the article that was cited:
Polyfunctional role of biodiversity in processes leading to water purification: current
conceptualizations and concluding remarks. Hydrobiologia. 2002, 469 (1-3): 203-204.
Full text free:
http://www.scribd.com/doc/52627327
CITATION OF THIS PAPER, EXAMPLES OF THE ARTICLES OF MANY AUTHORS (U.S.A., France, Netherlands, Sweden, Belgium, Ireland, Spain, China, Germany, India, et al. ) WHO CITED IT:
**
Citation of: Polyfunctional role of biodiversity in processes leading to water purification.
Examples. Citation in the U.S.A., Spain, China, Germany, India, and other countries
http://5bio5.blogspot.com/2012/12/citation-of-polyfunctional-role-of_28.html
Water quality of effluent-dominated ecosystems: Ecotoxicological, hydrological, and management considerations.
BW Brooks, TM Riley, RD Taylor - Hydrobiologia, 2006 - Springer;
Abstract: In arid and semi-arid regions of the southwestern United States and other parts of
the world, flows of historically ephemeral streams are now perennially dominated by
municipal and/or industrial effluent discharges, particularly in urbanized watersheds. ...
**
Studies on the biofiltration capacity of Gracilariopsis longissima: From microscale to macroscale.
I Hernández, A Pérez-Pastor, JJ Vergara… - Aquaculture, 2006 - Elsevier
The potential of the red agarophyte Gracilariopsis longissima as biofilter for phosphate and
ammonium in effluents outflowing intensive marine fish cultures was assessed at different
scales. Previous studies showed that both laboratory (microscale level) and outdoor ...
**
Integrated outdoor culture of two estuarine macroalgae as biofilters for dissolved nutrients from Sparus auratus waste waters
I Hernández, MA Fernández-Engo… - Journal of applied …, 2005 - Springer
Abstract An integrated outdoor cultivation of two macroalgal species: Ulva rotundata
(Chlorophyta) and Gracilariopsis longissima (Rhodophyta) was designed. The macroalgae
were cultured in effluents from an intensive marine culture (growout phase) of gilthead ...
**
cje.net.cn [PDF]
[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 ...
**
vliz.be [PDF]
Identification of the self-purification stretches of the Pinios River, Central Greece
Y Chatzinikolaou, M Lazaridou - Mediterranean Marine Science, 2007 - vliz.be
Abstract: The Pinios River basin in Thessaly, Greece, is intensively farmed and heavily
polluted with poorly treated domestic and industrial waste. The river was divided into 35
homogenous stretches. We investigated the self-purification capacity along the different ...
**
hjkx.ac.cn [PDF]
[PDF] 南太湖地区小型浅水湖泊自净能力季节变化研究
许磊, 李华, 陈英旭, 姚玉鑫, 梁新强, 周李, 章献忠 - 环境科学, 2010 - hjkx.ac.cn
< N 占TN 的主要部分. 主成分分析结果表明, 影响南太湖地区小型浅水湖泊自净能力的3
个主成分分别为浮游植物因子(水温, pH, 高锰酸盐指数和Chl< a), 农田排水因子(pH, DO 和TN)
和营养因子(TN 和TP). 聚类分析结果表明, 3 个湖泊11 个采样点4 个季节的水质可聚为两大类 ...
**
Assessment of ecosystem health of tropical shallow waterbodies in eastern India using turbulence model
NR Samal, A Mazumdar, KD Jöhnk… - … Ecosystem Health & …, 2009 - Taylor & Francis
In the present study, a numerical model of the hydrodynamic and thermal structure of
artificial shallow lakes in eastern India has been developed as a tool to assess the
ecological water quality, driven by the meteorological forcings. It allows quantification of ...
**
[CITATION] 太湖氮素出入湖通量与自净能力研究
陈小锋, 揣小明, 曾巾, 刘涛, 杨柳燕 - 环境科学, 2012 - cqvip.com
为了探索太湖氮素迁移转化过程, 对2009-2010 水文年环太湖25 条主要河流及太湖梅梁湾,
东太湖等典型区域的各形态氮素进行分析, 并利用太湖出入湖水量, 蓝藻人工打捞量和鱼产量等
相关数据, 分析计算太湖氮素流动和转化潜力. 结果表明太湖全年河道输入氮素总量约7.00× ...
**
22 institutions of 5 countries of Europe recently cited this paper on innovative concept, a better understanding of how a healthy aquatic ecosystem can be useful to humans. Water safety and ecosystem services.
Belgium, Netherlands, France,Germany,Sweden Cited: Polyfunctional role of biodiversity in processes leading to water purification: current conceptualizations and concluding remarks.
http://5bio5.blogspot.com/2013/06/22-institutions-of-5-countries-of.html
http://5bio5.blogspot.com/2013/06/scientists-of-22-institutions-of.html
http://5bio5.blogspot.com/2013/06/belgium-netherlands-germany-sweden-et.html
The list of the 22 institutions see here:
http://5bio5.blogspot.com/2013/05/belgium-et-al-citation-of-article.html
These 22 institutions are as follows:
22 institutions: Belgium; Ireland;
Sweden; France; Germany; The Netherlands; Czech Republic:
1. Research Institute for Nature and Forest (INBO), Kliniekstraat 25, B-1070 Brussels, Belgium;
2. Belgian Biodiversity Platform, Belgium (www.biodiversity.be/)
3. Faculty of Applied Economics, University of Antwerp, Prinsstraat 13, B-2000 Antwerp, Belgium;
4. naXys, Namur Center for Complex Systems, University of Namur, 8 rempart de la vierge, B-5000, Belgium;
5. Co-Operation On Health And Biodiversity (COHAB), COHAB Initiative Secretariat, PO Box 16, Tuam, Co. Galway, Ireland;
6. Biological Control and Spatial Ecology Lab, Universite libre de Bruxelles, CP160/12, ´
50, av FD Roosevelt, B-1050 Brussels, Belgium;
7. Federal Public Service Health, Food Chain Safety and Environment, Eurostation II, Place Victor Horta, 40 Box 10, B-1060 Brussels, Belgium;
8. Agriculture and Veterinary Intelligence and Analysis (Avia-GIS), Risschotlei 33, B-2980 Zoersel, Belgium;
9. Institute for Housing and Urban Research, Uppsala University, PO Box 514, SE-75120 Uppsala, Sweden;
10. Agency for Nature and Forest (ANB), Koning Albert II-laan 20 bus 8, Graaf de Ferrarisgebouw 1000, Brussels, Belgium;
11 Royal Belgian Institute of Natural Sciences (RBINS), Rue Vautier 29, B-1000 Brussels, Belgium
12 Research Institute for Agriculture and Fisheries (ILVO), Burgemeester Van Gansberghelaan 96 Bus 1,
B-9820 Merelbeke, Belgium
13 Department of Geography, Universite catholique de Louvain, 2, Place des Sciences, ´
B-1348 Louvain-la-Neuve, Belgium
14 DIVERSITAS, c/o Museum National d’Histoire Naturelle, 57 rue Cuvier, CP 41, F-75231 Paris Cedex 05, France;
15 Helmholtz Centre for Environmental Research (UFZ), Permoserstrasse 15, D-04318 Leipzig, Germany;
16 International Centre for Integrated Assessment and Sustainable Development (ICIS), Maastricht
University, PO Box 616, 6200 MD Maastricht, The Netherlands;
17 Division of Agricultural and Food Economics, K U Leuven, Celestijnenlaan 200e—Box 2411,
B-3001 Heverlee, Belgium
18 Laboratory for Tropical and Subtropical Agriculture and Ethnobotany, Ghent University, Coupure
Links 653, B-9000 Gent, Belgium
19 Faculty of Tropical Agrisciences, Czech University of Life Sciences Prague, Kamycka 129,
Prague 6—Suchdol, 165 21, Czech Republic
20. Ecology, Evolution and Biodiversity Conservation Section, K U Leuven, Charles Deberiotstraat 32—Box 2439, B-3000 Leuven, Belgium;
21.Military Hospital Queen Astrid, Bruynstraat 1, 1120 Neder-over-Heembeek, Belgium;
22. Institute for Environmental Management and Land-use Planning, Universite libre de Bruxelles, Campus du Solbosch, Batiment D—6 ˆ eme niveau, Local DB6.246, Avenue Depage, 30, B-1050 Bruxelles, Belgium;
**
tags: Biodiversity, sustainable, Resources, freshwater, sustainability, marine, pollutants, Aquatic, water quality, Ecosystem Services, concepts, water purification, aquatic ecosystems, selfpurification, ecosystem function, ecosystem health, innovations,