Bioindication of Water Quality of the Xinlicheng Reservoir by Algal Communities

1. Barinova S. S., 1997 – Morphology of connective spines in diatom algae of the genus Aulacoseira Thwaites, Paleontological Journal, Moscow, 31, 239-245.Search in Google Scholar

2. Barinova S., 2017a – How to align and unify the cell counting of organisms for bioindication, International Journal of Environmental Sciences and Natural Resources, 2, 1-3, doi: 10.19080/IJESNR.2017.02.555585.10.19080/IJESNR.2017.02.555585Search in Google Scholar

3. Barinova S., 2017b – On the classification of water quality from an ecological point of view, International Journal of Environmental Sciences and Natural Resources, 2, 1-8, doi: 10.19080/IJESNR.2017.02.555581.10.19080/IJESNR.2017.02.555581Search in Google Scholar

4. Barinova S. S., Medvedeva L. A. and Anissimova O. V., 2006 – Diversity of algal indicators in environmental assessment, Tel Aviv, Pilies Studio, 458. (in Russian)Search in Google Scholar

5. Barinova S. S., Medvedeva L. and Nevo E., 2008 – Regional influences on algal biodiversity in two polluted rivers of Eurasia by bio-indication and Canonical Correspondence Analysis (CCA), Applied Ecology and Environmental Research, 6, 4, 29-55.10.15666/aeer/0604_029059Search in Google Scholar

6. Barinova S. S., Bragina T. M. and Nevo E., 2009 – Algal species diversity of arid region lakes in Kazakhstan and Israel, Community Ecology, 10, 7-16, doi: 10.1556/ComEc.10.2009.1.2.10.1556/ComEc.10.2009.1.2Search in Google Scholar

7. Barinova S., Keshri J. P., Ghosh S. and Sikdar J., 2012 – The influence of the monsoon climate on phytoplankton in the Shibpukur pool of Shiva temple in Burdwan, West Bengal, India, Limnological Review, 2, 47-63, doi: 10.2478/v10194-011-0044.Search in Google Scholar

8. Barinova S. S., Medvedeva L. A., Kondratieva L. M. and Shesterkin V. P., 2015 – Bio-indication in Amur River, Research Journal of Pharmaceutical, Biological and Chemical Sciences, 6, 1, 1171-1187.Search in Google Scholar

9. Barinova S., Liu N., Ding J., An Y. and Qin X et al., 2016 – Ecological assessment of water quality of the Songhua River upper reaches by algal communities, Acta Ecologica Sinica, 36, 126-132, doi: 10.1016/j.chnaes.2015.12.001.10.1016/j.chnaes.2015.12.001Search in Google Scholar

10. Barinova S., Bilous O. and Tsarenko P. M., 2019 – Algal indication of water bodies in Ukraine: methods and perspectives, Haifa University Publishing House, Haifa, Kiev, 367.Search in Google Scholar

11. BBC News, 2007 ‒ China to clean up polluted lake, 27 October.Search in Google Scholar

12. Bellinger E. G. and Sigee D. C., 2010 – Freshwater algae: identification and use as bioindicators, Chichester, John Wiley and Sons, 271.10.1002/9780470689554Search in Google Scholar

13. Berdnikov N. V., Rapoport V. L., Rybas O. V., Pelykh T. I., Zolotukhina G. F. and Zazulina V. Ye., 2006 – Monitoring of the Amur River ecosystem pollution resulting from the accident at the chemical plant in Jilin (China): nitrobenzene, Tihookeanskaya geologiya, 25, 5, 94-63.Search in Google Scholar

14. Browder G. J., Shiqing Xie, Yoonhee Kim, Lixin Gu, Mingyuan Fan, Ehrhardt D., 2007 – Improving the performance of China’s urban water utilities, New York, Washington DC, The International Bank for Reconstruction and Development / The World Bank, 176.Search in Google Scholar

15. Guiry M. D. and Guiry G. M., 2018 – AlgaeBase, World-Wide electronic publication, Galway, Ireland: National University of Ireland, Galway (online), http://www.algaebase.org/, June 2020.Search in Google Scholar

16. Heywood V., 2004 – Modern approaches to floristics and their impact on the region of SW Asia, Turkish Journal of Botany, 28, 1-2, 7-16.Search in Google Scholar

17. Kao J., Wen-Pei S. and Ran C., 2013 – Analysis of phytoplankton and eutrophication in Xinlicheng Reservoir, Advanced Materials Research, 779-780, 1230-1233.10.4028/www.scientific.net/AMR.779-780.1230Search in Google Scholar

18. John D. M., Whitton B. A. and Brook A. J. (eds), 2011 – The freshwater algal flora of the British Isles: an identification guide to freshwater and terrestrial algae, Cambridge University Press, 878.Search in Google Scholar

19. Krammer K. and Lange-Bertalot H., 1986 – Bacillariophyceae, Teil 1, Naviculaceae, in Süßwasserflora von Mitteleuropa, Band 2, Ettl H., Gerloff J., Heynig H. and Mollenhauer D. (eds), Berlin, Germany, Gustav Fischer Verlag, 876. (in German)Search in Google Scholar

20. Krammer K. and Lange-Bertalot H., 1988 – Bacillariophyceae, Teil 2. Epithemiaceae, Bacillariaceae, Surirellaceae, in Süßwasserflora von Mitteleuropa, Band 2, Ettl H., Gerloff J., Heynig H. and Mollenhauer D. (eds), Berlin, Germany, Gustav Fischer Verlag. 596. (in German).Search in Google Scholar

21. Krammer K. and Lange-Bertalot H., 1991a – Bacillariophyceae, Teil 3, Centrales, Fragilariaceae, Eunotiaceae, in Süßwasserflora von Mitteleuropa, Band 2, Ettl H., Gerloff J., Heynig H. and Mollenhauer D. (eds), Berlin, Germany, Gustav Fischer Verlag. 576. (in German)Search in Google Scholar

22. Krammer K. and Lange-Bertalot H., 1991b – Bacillariophyceae, Teil 4, Achnanthaceae, Kritische Ergänzungen zu Navicula (Lineolatae) und Gomphonema, in Süßwasserflora von Mitteleuropa, Band 2, Ettl H., Gerloff J., Heynig H. and Mollenhauer D. (eds), Gustav Fischer Verlag. 437. (in German)Search in Google Scholar

23. Li Y. and Han D., 2007 – Water environment protection problems, Journal of Jilin Water Resources, 12, 1-2.Search in Google Scholar

24. Love J., Selker R., Marsman M., Jamil T., Dropmann D., Verhagen A. J., Ly A., Gronau Q. F., Smira M., Epskamp S., Matzke D., Wild A., Rouder J. N., Morey R. D. and Wagenmakers E. J., 2019 – JASP: graphical statistical software for common statistical designs, Journal of Statistical Software, 88, 2, 1-17.10.18637/jss.v088.i02Search in Google Scholar

25. Ma X., 2002 ‒ China’s environmental governance, 2007-02-21.Search in Google Scholar

26. Staub R., Appling J. W., Hofstetter A. M. and Haas I. J., 1970 – The effects of industrial wastes of Memphis and Shelby County on primary planktonic producers, BioScience, 20, 16, 905-912.10.2307/1295583Search in Google Scholar

27. Sun L. L., 2011 – Study on water quality characteristics and eutrophication trends based on al method in Xinlicheng Reservoir, Changchun, Environmental Engineering, 23.06.2011.Search in Google Scholar

28. Swift E., 1967 – Cleaning diatom frustules with ultraviolet radiation and peroxide, Phycologia, 6, 161-163.10.2216/i0031-8884-6-2-161.1Search in Google Scholar

29. Ter Braak C. J. F. and Šmilauer P., 2002 – CANOCO reference manual and CanoDraw for Windows user’s guide: software for Canonical Community Ordination (4.5), Ithaca, Microcomputer Power Press.Search in Google Scholar

30. Wilhm J. L. and Dorris T. C., 1968 – Biological parameters for water quality, BioScience, 18, 447-481.10.2307/1294272Search in Google Scholar

31. Xian F. Z., Chang L. X., Yong Q. L. and Ding F. S., 2014 – Water Environmental Quality Assessment and Protection Strategies of the Xinlicheng Reservoir, China, Applied Mechanics and Materials, 501-504, 1863-1867.10.4028/www.scientific.net/AMM.501-504.1863Search in Google Scholar

32. Xian F. Z., Chang L. X. and Yong Q. L., 2013 – Seasonal variations of the water quality in the Xinlicheng Reservoir, China, Advanced Materials Research, 864-867, 2408-2412.10.4028/www.scientific.net/AMR.864-867.2408Search in Google Scholar

33. Zalewski M., 2000 – Ecohydrology – the scientific background to use ecosystem properties as management tools towards sustainability of water resources, Ecological Engineering, 165, 1-8.10.1016/S0925-8574(00)00071-9Search in Google Scholar