Asia cited Moscow University ecologist: Japan, China, Hong Kong, Korea, Malaysia, Indonesia,Turkey, Kuwait, Pakistan, Saudi Arabia, Philippines,


Citation in Asia: Asian scientists cited publications of a Moscow University researcher on environmental science, ecology. Selected examples. Japan, China, Hong Kong, Korea, Malaysia, Indonesia,Turkey, Kuwait, Pakistan, Saudi Arabia, Philippines,

Key words: improvement, water quality, sea mussel, freshwater, detergent, water resources, natural purification, eutrophic lake, lakes, rivers, sea, self-purification


China, Korea:
Renata Brzozowska a, Zhenghong Sui b,  Kyoung Ho Kang c, Testing the usability of sea mussel (Mytilus sp.) for the improvement of seawater quality—An experimental study // Ecological Engineering, In Press,   doi:10.1016/j.ecoleng.2011.10.017 ;   [a              Department of Environment Protection Engineering, Warmia and Mazury University in Olsztyn, Prawochenskiego St. 1, 10-957 Olsztyn, Poland; b Ocean University of China, Qingdao 266003, People’s Republic of China;  c      Division of Marine Technology, Chonnam National University, Dundeok-dong, San 96-1, Yeosu-city, 550-749 Jeollanam-do, Republic of Korea; 

Abstract:  From the text: … Filtering processes create a possibility of removing chemical compounds, such as organic compounds, heavy metals and nutrients, from water ( [Todd and Josephson, 1996] , [Ostroumov, 2005] , [Zhou et al., 2006] and [Elliott et al., 2008] ). …]


Japan.  Citation of a Moscow University publication authored by an environmental scientist

The main achievement of the work and publications that was cited:  conceptualization of role of biota in purification of water, upgrading water quality


The paper that was cited:

S.A. Ostroumov (2005) On the multifunctional role of the biota in the self-purification of aquatic ecosystems, Russian Journal of Ecology, 36 (6): 414 – 420;


The Japanese article that cited the abovementioned paper:

A. Shrivastava, T. Hori, and H. Takahashi.  The Activities of Natural Purification of Lake Water and Types of Shores Surrounding Lake Biwa, Japan. – In: Sengupta, M., and Dalwani, R. (Editors). 2008; Proceedings of Taal 2007: The 12th World Lake Conference, p. 1408-1413;

Full text see at:;



China:  Chinese scientific Internet-service (  Cited the paper:   Author: S.A. Ostroumov; Year: 2008; Source: Contemporary Problems of Ecology; Volume 1, Number 2,  238-244;;;



*Yilmaz O., Sunlu U., Sunlu F. S. Research of anionic detergent levels in Izmir Bay. – E.U. Journal of Fisheries & Aquatic Sciences. 2006. Volume 23, Issue (1-2): 107–111. [İzmir Körfezi’nde Anyonik Deterjan Düzeylerinin Araştırılması; *Özlem Yılmaz1,   İzmir, Türkiye; Turkey; 2Ege Üniversitesi, Su Ürünleri Fakültesi Temel Bilimler Bölümü, 35100, Bornova, İzmir, Türkiye; Turkey; *E mail: [email protected] ***; About the journal:© Ege University Press, ISSN 1300 – 1590,]; Cited: Ostroumov, S.A., 2003, Studying Effects of Some Surfactants and Detergents on Filter-Feeding Bivalves, Hydrobiologia, 2003, 500:341-344;; DOI: 10.1023/A:1024604904065;; from the abstract of the Turkish paper:  this research is to monitor anionic detergent, chlorophyll a and reactive phosphate levels in samples of surface water those were taken monthly in the period of January, 2003-December, 2003, from three stations (Station of Çiğli Offshore, Station of Yat Club Offshore, Station of Melez River Offshore) selected in İzmir Bay. The concentrations of anionic surface-active substances are evaluated between 0.032 mg L-1 and 0.232 mg L-1 and average value is 0.095 mg L-1. The concentrations of reactive phosphate are evaluated between 0.018 mg L-1 and 0.564 mg L-1 and average value is 0.113 mg L-1. There was no definite correlation among anionic surface active substances and reactive phosphate. The concentrations of chlorophyll a are measured between 1.6 μg chl a L-1 and 33.75 μg chl a L-1 and average value is 6.54 μg chl a L-1. The heat levels are measured between 9 and 27.1 oC and the average is 18.44 oC. Also, samples of surface water were taken in dry (August, 2005) and rainy (December, 2005) seasons from source stations (Station of Melez River, Station of Bostanlı River, Station of Bayraklı River, Station of Manda River), in these samples the concentrations of surface active substances were evaluated. Maximum concentration was evaluated in rainy season from Station of Melez River with 4.549 mg L-1;


Malaysia. Citation of Moscow scientists. Nature Conservation.

Cited the innovative book:  Yablokov A.V., Ostroumov S.A. 1991. Conservation of Living Nature and Resources: Problems, Trends and Prospects. Springer-Verlag: Berlin.

The book was cited in the synopsis of the course ‘SB 3123 Conservation Management’

at University Malaysia Sabah (Malaysia);;;    viewed 11.7.2010


Indonesia: A site in Indonesia, in Indonesian:; cited a number of Internet publications authored by Dr. S.A.O., viewed September 9, 2011;


China: Dingjiang Chen 1, Jun Lu 1, 2 *, Yena Shen 3. Artificial neural network modelling of concentrations of nitrogen, phosphorus and dissolved oxygen in a non-point source polluted river in Zhejiang Province, southeast China. // Hydrological Processes. Early View (Articles online in advance of print); Published Online: 21 Oct 2009; Copyright © 2010 John Wiley & Sons, Ltd.

[1Department of Natural Resources, College of Environmental Science and Natural Resources, Zhejiang University, Hangzhou 310029, China; 2China Ministry of Education Key Lab of Environment Remediation and Ecological Health, Zhejiang University, Hangzhou 310029, China;  3Zhejiang Provincial Key Laboratory of Subtropical Soil and Plant Nutrition, Zhejiang University, Hangzhou 310029, China; email: Jun Lu ([email protected]); *Correspondence to Jun Lu, Department of Natural Resources, College of Environmental Science and Natural Resources, Zhejiang University, Kaixuan Road 258#, Hangzhou 310029, Zhejiang Province, China].

KEYWORDS: artificial neural network , agricultural non-point source pollution , total nitrogen , total phosphorus ,dissolved oxygen , river water quality, freshwater aquatic ecosystem, A back-propagation algorithm neural network (BPNN), modelling tool for managers, spatiotemporal water quality variations, agricultural drainage river, Changle River, southeast China, Monthly river flow, water temperature, flow travel time, rainfall and upstream TN, TP and DO concentrations,

ABSTRACT: A back-propagation algorithm neural network (BPNN) was developed to synchronously simulate concentrations of total nitrogen (TN), total phosphorus (TP) and dissolved oxygen (DO) in response to agricultural non-point source pollution (AGNPS) for any month and location in the Changle River, southeast China. Monthly river flow, water temperature, flow travel time, rainfall and upstream TN, TP and DO concentrations were selected as initial inputs of the BPNN through coupling correlation analysis and quadratic polynomial stepwise regression analysis for the outputs, i.e. downstream TN, TP and DO concentrations. The input variables and number of hidden nodes of the BPNN were then optimized using a combination of growing and pruning methods. The final structure of the BPNN was determined from simulated data based on experimental data for both the training and validation phases. The predicted values obtained using a BPNN consisting of the seven initial input variables (described above), one hidden layer with four nodes and three output variables matched well with observed values. The model indicated that decreasing upstream input concentrations during the dry season and control of NPS along the reach during average and flood seasons may be an effective way to improve Changle River water quality. If the necessary water quality and hydrology data are available, the methodology developed here can easily be applied to other case studies. The BPNN model is an easy-to-use modelling tool for managers to obtain rapid preliminary identification of spatiotemporal water quality variations in response to natural and artificial modifications of an agricultural drainage river. [Copyright © 2009 John Wiley & Sons, Ltd.] Digital Object Identifier (DOI) 10.1002/hyp.7482;


China:  Jiang, J.-G., Shen, Y.-F.  Estimation of the natural purification rate of a eutrophic lake after pollutant removal,  2006, Ecological Engineering, 28 (2), pp. 166-173.


China: Ren, R.-L., Liu, M.-S., Zhang, J.-M., Zhang, M., Xu, M.  Self-purification ability of a water-carrying lake.  2007.-  Chinese Journal of Ecology 26 (8), pp. 1222-1227.  .


China:  Wang X., Y. An, J. Zhang, X. Shi, C. Zhu, R. Li, M. Zhu, S. Chen. Contribution of biological processes to self-purification of  water with respect to petroleum hydrocarbon associated with No. 0 diesel in Changjiang Estuary and Jiaozhou Bay, China // Hydrobiologia, 2002. Volume 469, Numbers 1-3, P. 179-191.


Hong Kong, HKUST Library

acquired books,  papers written by a Moscow University scientist. 香港,  libraries, bought, book, HKUST, Library, environmental science, ecology


Kuwait and United Kingdom. Citation of works of ecologist at Moscow University


The effect of salinity and temperature on the uptake of cadmium and zinc by the common blue mussel, Mytilus edulis with some notes on their survival. Mesopot. J. Mar. Sci., 2010, 25 (1): 11 – 30. ¹Aquaculture, Fisheries and Marine Environment Department, Kuwait Institute for Scientific Research, P.O. Box 1638, Salmiya 22017, Kuwait ²Faculty of Biomedical & Life Sciences, University of Glasgow, Glasgow, G12 8QQ, United Kingdom.


Pakistan, Saudi Arabia: Citation in Pakistan and Saudi Arabia of Moscow University research on water quality


Saudi Arabia:

Saudi Arabia. Citation of research at Moscow University. Example: Citation of the book


Saudi Arabia:

Al-Lohedan,  H.A.* and  Al-Blewi , F.F.  SURFACTANTS  PART 1: OVERVIEW ON THEIR PHYSICAL  PROPERTIES.  J. Saudi Chem. Soc.,  (2008).  Vol. 12, No. 4; pp. 489-514.




cited the paper:

Ostroumov S.A. Inhibitory analysis of top-down control: new keys to studying eutrophication, algal blooms, and water self-purificationHydrobiologia 469 1-3 (2002) 117-129 


key words in various languages of Asia:

Chinese (s):  引用在亚洲:亚洲科学家的莫斯科大学的研究人员在环境科学,生态学引用的出版物。选择的例子。



Chinese (t):  引用在亞洲:亞洲科學家的莫斯科大學的研究人員在環境科學,生態學引用的出版物。選擇的例子。



Japanese:  アジアにおける引用:アジアの科学者は環境科学、生態学上のモスクワ大学の研究者の出版物を引用した。例を選択しました。



Indonesian:  Kutipan di Asia: Asian ilmuwan dikutip publikasi dari seorang peneliti Universitas Moskow pada lingkungan, ekologi ilmu. Dipilih contoh.

Kata kunci: perbaikan, kualitas air, laut kerang, air tawar, deterjen, sumber daya air, pemurnian alami, danau eutrofik, danau, sungai, laut, pemurnian diri,



Citation di Asia: Asia saintis menyebut penerbitan penyelidik Universiti Moscow dalam bidang sains alam sekitar, ekologi. Dipilih contoh.

Kata kunci: penambahbaikan, kualiti air, kepah laut, air tawar, detergen, sumber air, penulenan semulajadi, tasik eutrofik, tasik, sungai, laut, pembersihan diri,



 एशिया में प्रशस्ति पत्र: एशियाई वैज्ञानिकों पर्यावरण विज्ञान, पारिस्थितिकी पर एक मास्को विश्वविद्यालय के शोधकर्ता के प्रकाशनों का आह्वान किया. उदाहरण चयनित.

: कुंजी शब्द सुधार, पानी की गुणवत्ता, समुद्र सीपी, मीठे पानी, डिटर्जेंट, जल संसाधन, प्राकृतिक शोधन, eutrophic झील, झीलों, नदियों, समुद्र, आत्म शुद्धि,



এশিয়ার তলব: এশিয়ান বিজ্ঞানীদের একটি মস্কো পরিবেশগত বিজ্ঞান, বাস্তব্যবিদ্যা উপর বিশ্ববিদ্যালয়ের গবেষক এর প্রকাশনা উদাহৃত. সিলেক্টেড উদাহরণ.

মূল শব্দ: উন্নতি, জলের গুণমান, সমুদ্র ঝিনুক, ঈষৎ, ডিটারজেন্ট, পানি সম্পদ, প্রাকৃতিক পরিশোধন, eutrophic লেক, হ্রদ, নদী, সমুদ্র, আত্মশোধন,


Arabic:   الاقتباس في آسيا: ذكر العلماء الآسيوية منشورات جامعة موسكو الباحث على البيئة علم البيئة، والعلوم. تحديد أمثلة.

الكلمات الدالة: تحسين ونوعية المياه، البحر بلح البحر، والمياه العذبة، والمنظفات، والموارد المائية، وتنقية الطبيعية، البحيرة حسن التغذية، والبحيرات، والأنهار، البحار، صاحبة تنقية،


Persian:  استنادی در آسیا: دانشمندان آسیایی اشاره کرد انتشارات مسکو محقق دانشگاه علوم محیط زیست، محیط زیست. انتخاب نمونه است.

کلید واژه ها: بهبود، کیفیت آب، دریا صدف، آب شیرین، مواد شوینده، منابع آب، تصفیه طبیعی، دریاچه eutrophic ها، دریاچه ها، رودخانه ها، دریا، خود پالایی،



Pagsipi sa Asya: Asian siyentipiko nabanggit na publication ng tagapagpananaliksik ng Moscow University sa kapaligiran ekolohiya agham. Napiling mga halimbawa.

Key salita: pagpapabuti, kalidad ng tubig, dagat tahong, freshwater, sabong panglaba, mga mapagkukunan ng tubig, natural pagdalisay, eutrophic lawa, lawa, ilog, dagat, self-pagdalisay,



Asya’da Citation: Asyalı bilim adamları çevre bilimi, ekoloji üzerine birkaç Moskova Üniversitesi araştırmacılarından yayınları gösterdi. Örnekler seçilir.

Anahtar kelimeler: iyileştirme, su kalitesi, deniz midye, tatlı su, deterjan, su kaynakları, doğal arıtma, ötrofik göl, göl, nehir, deniz, arınma,



Freshwater sustainability. Secrets that became open: the previously unknown or underestimated facts and principles

Freshwater sustainability. Secrets that became open: the previously unknown or underestimated facts and principles relevant to water quality.
New conceptualization: how ecosystems improve water quality. A series of publications that provided a clear scientific analysis and picture.

The scientific problem and its scientific solution.

There is a water crisis: a deficit in freshwater supply in many countries. In future, the deficit will increase. Necessity for a solution of the problem of food supply, and the problem of energy supply will increase the deficit even to a greater extent. 1,000 litres of water is used to produce one kilogram of wheat.  Moreover, an additional problem is that what we need is  more than just some amount of water. We need not only some amount of water but also we want the water to be of proper quality. It is really very important that we need water of good quality. Is there any solution at all? One of prerequisites in finding a way out is to get a better insight into how the proper water quality is formed by the natural forces of aquatic ecosystems. An innovative analysis was made in a series of scientific publications which provide a clear system of factors and processes that lead to improving water quality (water self-purification). To exploit this system and to benefit from it, we need to understand it.
The innovative contribution:;
Innovative conceptualization of how ecosystems improve water quality (ecosystemic water self-purification):

Some of the key publications:;;
Aquatic ecosystem as a bioreactor. – RIVISTA DI BIOLOGIA – BIOLOGY FORUM, Volume: 97,No.1, Pages: 67-78, 2004]:
full text free:

Another paper: Biocontrol of water quality:;
Relevant info: [water quality: multifunctional role of biota]:;;;
Analysis of water crisis:;;
Application of the innovative contribution commented above:
better water resources management, water sustainability, protection of water quality; environmental education, environmental safety, sustainable use of resources,
Countries that may benefit from the better understanding of how water quality is formed:

Israel, Syria, Jordan, other countries of that region;
some areas of the U.S.A., Australia;
In the paper on the water crisis [], the following countries, regions and cities (and numbers of people affected) were mentioned:

Sudan, Venezuela, Ethiopia, Tunisia, Cuba,
* Sudan  12.3 million
* Venezuela 5.0 million
* Ethiopia 2.7 million
* Tunisia 2.1 million
* Cuba 1.3 million
Los Angeles,
China, India,
Pakistan, Iran, Mexico,
Algeria, Egypt,
Bangladesh, Nepal, Myanmar,
Singapore,  Saudi Arabia, United Arab Emirates,