[1. Barinova S., 2011 ‒ Algal diversity dynamics, ecological assessment, and monitoring in the river ecosystems of the eastern Mediterranean, Nova Science Publishers, New York, USA, 363.]Search in Google Scholar
[2. Barinova 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
[3. Barinova 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.10.2009.1.2]Search in Google Scholar
[4. Barinova S., 2011 – Algal diversity dynamics, ecological assessment and monitoring in the river ecosystems of the eastern Mediterranean, New York, Nova Science Publishers, 363.]Search in Google Scholar
[5. Barinova S., Nevo E. and Bragina T. M., 2011 – Ecological assessment of wetland ecosystems of northern Kazakhstan on the basis of hydrochemistry and algal biodiversity, Acta Botanica Croatica, 70, 215-244, doi: 10.2478/v10184-010-0020-7.10.2478/v10184-010-0020-7]Search in Google Scholar
[6. Barinova S. and Krassilov V. A., 2012 – Algal diversity and bio-indication of water resources in Israel, International Journal of Environment and Resource, 1, 62-72.]Search 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-y.10.2478/v10194-011-0044-y]Search in Google Scholar
[8. Barinova S. and Sivaci R., 2013 – Experimental approach to a lake ecosystem assessment in the Great Lota, Turkey, The Experiment, 9, 566-586.]Search in Google Scholar
[9. Barinova S., Ali N. and Barkatullah Sarim F. M., 2013 ‒ Ecological adaptation to altitude of algal communities in the Swat Valley (Hindu Cush Mountains, Pakistan), Expert Opinion on Environmental Biology, 2, 1-15, doi: 10.4172/2325-9655.1000104.10.4172/2325-9655.1000104]Search in Google Scholar
[10. Barinova S., Gabyshev V. and Gabysheva O., 2014 ‒ Climate impact of freshwater biodiversity: general patterns in extreme environments of North-Eastern Siberia (Russia), British Journal of Environment and Climate Change, 4, 423-443, doi: 10.9734/BJECC/2014/9530.10.9734/BJECC/2014/9530]Search in Google Scholar
[11. Barinova S., Romanov R. and Solak C. N., 2014a – New Record of Chara hispida (L.) Hartm. (Streptophyta: Charophyceae, Charales) from the Işıklı Lake (Turkey) and critical checklist of Turkish Charophytes, Natural Resources and Conservation, 2, 33-42, doi: 10.13189/nrc.2014.020301.10.13189/nrc.2014.020301]Search in Google Scholar
[12. Barinova S., Solak C. N., Erdoğan O. and Romanov R., 2014b – Algae and zooplankton in ecological assessment of the Işıklı Lake, Turkey, Aquatic Biology Research, 2, 23-35, doi: 10.12966/abr.05.02.2014.10.12966/abr.05.02.2014]Search in Google Scholar
[13. Barinova S., Boboev M. and Hisoriev H., 2015a – Freshwater algal diversity of the South-Tajik depression in a high mountainous extreme environment, Turkish Journal of Botany, 39, 535-546, doi: 10.3906/bot-1406-45.10.3906/bot-1406-45]Search in Google Scholar
[14. Barinova S., Gabyshev V., Boboev M., Kukhaleishvili L. and Bilous O., 2015b – Algal indication of climatic gradients, American Journal of Environmental Protection, Special Issue: Applied Ecology: Problems, Innovations 4, 72-77, doi: 10.11648/j.ajep.s.2015040301.22.10.11648/j.ajep.s.2015040301.22]Search in Google Scholar
[15. Barinova S., Khuram I., Asadullah Ahmad N. and Jan S. and Shin D. H., 2016a – How water quality in the Kabul River, Pakistan, can be determined with algal bio-indication, Advanced Studies in Biology, 8, 151-171, doi: 10.12988/asb.2016.6830.10.12988/asb.2016.6830]Search in Google Scholar
[16. Barinova S., Liu N., Ding J., An Y. and Qin X., 2016b – 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.2015.12.001]Search in Google Scholar
[17. 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.2017.02.555585]Search in Google Scholar
[18. 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.2017.02.555581]Search in Google Scholar
[19. Barinova S. and Niyatbekov T. P., 2017 – Algal diversity of the Pamir high mountain mineral springs in environmental variables gradient, International Journal of Environmental Sciences and Natural Resources, 7, 555706, doi: 0.19080/IJESNR.2017.07.555706.]Search in Google Scholar
[20. Battarbee R. W., 1986 – Diatom analysis, in: Berglund B. E. (ed.), Handbook of Holocene palaeoecology and palaehydrology, Chichester, John Wiley and Sons, 527-570.]Search in Google Scholar
[21. Bellinger E. G. and Sigee D. C., 2010 – Freshwater algae: identification and use as bioindicators, Chichester, John Wiley and Sons, 271.10.1002/9780470689554]Search in Google Scholar
[22. Blanco S., Olenici A., De Vicente I. and Guerrero F., 2019 ‒ Contribution to the inventory of Iberian diatoms: Encyonema nevadense Blanco S. & al. sp. nov. (Cymbellales, Gomphonemataceae), Anales del Jardín Botánico de Madrid, 76, 2, e088.10.3989/ajbm.2519]Search in Google Scholar
[23. Buczkó K., Wojtal A. Z. and Magyari E. K., 2013 – Lectotypification, emended description and distribution of Planothidium distinctum (Achnanthidiaceae, Bacillariophyceae), Phytotaxa, 117, 1-10, doi: 10.11646/phytotaxa.117.1.1.10.11646/phytotaxa.117.1.1]Search in Google Scholar
[24. Cianfaglione K. and Di Felice P. L., 2012 ‒ Floral, faunal and environmental diversity of S.C.I. Area (SICIT110097), as a basis for environmental programming and planning (Valle Peligna, Abruzzo Region, Italy), Transylvanian Review of Systematical and Ecological Research, 14, 139-148.]Search in Google Scholar
[25. Koruma D. and Müdürlüğü M. P. G., 2013 – Artabel Gölleri Tabiat Parkı Uzun Devreli Gelişme Planı Analitik Etüt ve Sentez Raporu, Ankara, 193. (in Turkish)]Search in Google Scholar
[26. Feret L., Bouchez A. and Rimet F., 2017 – Benthic diatom communities in high altitude lakes: a large scale study in the French Alps, Annales de Limnologie – International Journal of Limnology, 53, 411-423, doi: 10.1051/limn/2017025.10.1051/limn/2017025]Search in Google Scholar
[27. Genkal S. I., Pautova V. N., Nomokonova V. N. and Tarasova N. G., 2008 – Ie of Cyclotella ambigua Grunow (Bacillariophyta) in the Kuibyshev Reservoir, Inland Water Biology, 1, 7-13, doi: 10.1007/s12212-008-1002-5.10.1007/s12212-008-1002-5]Search in Google Scholar
[28. Guiry M. D. and Guiry G. M., 2018 ‒ Algae Base. World-Wide electronic publication, Galway, Ireland: National University of Ireland, Galway (online), http://www.algaebase.org/ (accessed June 2018).]Search in Google Scholar
[29. Huber-Pestalozzi G., 1942 ‒ Das Phytoplankton des Süßwassers systematic und biologie (Die Binnengewässer, Band XVI), 2, 2, Diatomeen, Stuttgart, E. Schweizerbart’sche Verlagsbuchhandlung (Nagele u. Obermiller), 183. (in German)]Search in Google Scholar
[30. Hustedt F., 1930 ‒ Die Süsswasser Flora Mitteleuropas Heft 10: Bacillariophyta (Diatomeae), Germany, Jena Verlag von Gustav Fischer, 466. (in German)]Search in Google Scholar
[31. Jienbekov A., Barinova S., Bigaliev A., Nurashov S., Sametova E. and Fahima T., 2018a ‒ Bioindication using diversity and ecology of algae of the Alakol Lake, Kazakhstan, Applied Ecology and Environmental Research, 16, 7799-7831, doi: 10.15666/aeer/1606_77997831.10.15666/aeer/1606_77997831]Search in Google Scholar
[32. Jienbekov A., Barinova S., Bigaliev A., Nurashov S., Sametova E. and Fahima T., 2018b ‒ Algal comparative floristic of the Alakol Lake Natural State Reserve and other lakes in Kazakhstan, MOJ Ecology and Environmental Sciences, 3, 252-258, doi: 10.15406/mojes.2018.03.00096.10.15406/mojes.2018.03.00096]Search in Google Scholar
[33. Joh G., 2010 ‒ Algal Flora of Korea, Chrysophyta: Bacillariophyceae: Centrales Freshwater Diatoms I, 3/1, Seo-gu Incheon, Korea, National Institute of Biological Resources Ministry of Environment, 161.]Search in Google Scholar
[34. Joh G., 2012 ‒ Algal Flora of Korea, Chrysophyta: Bacillariophyceae: Pennales: Raphidineae: Achnanthaceae, Freshwater Diatoms, 3/7, Seo-gu Incheon, Korea, National Institute of Biological Resources Ministry of Environment, 134.]Search in Google Scholar
[35. Jovanovska E., Levkov Z. and Edlund M. B., 2015 ‒ The genus Diploneis Ehrenberg ex Cleve (Bacillariophyta) from Lake Hövsgöl, Mongolia, Phytotaxa, 217, 201-248, doi: 10.11646/phytotaxa.217.3.1.10.11646/phytotaxa.217.3.1]Search in Google Scholar
[36. Krammer K. and Lange-Bertalot H., 1986 ‒ Bacillariophyceae 1, Naviculaceae, in: Ettl H., Gerloff J., Heynig H., Mollenhauer D. (eds), Süßwasserflora von Mitteleuropa, 2, Berlin, Germany, Gustav Fischer Verlag, 876. (in German)]Search in Google Scholar
[37. Krammer K. and Lange-Bertalot H., 1988 ‒ Bacillariophyceae, 2. Epithemiaceae, Bacillariaceae, Surirellaceae, in: Ettl H., Gerloff J., Heynig H., Mollenhauer D. (eds), Süßwasserflora von Mitteleuropa, 2, Berlin, Germany, Gustav Fischer Verlag, 596. (in German)]Search in Google Scholar
[38. Krammer K. and Lange-Bertalot, 1991a ‒ Bacillariophyceae, 3, Centrales, Fragilariaceae, Eunotiaceae, in: Ettl H., Gerloff J., Heynig H. and Mollenhauer D. (eds), Süßwasserflora von Mitteleuropa, 2, Berlin, Germany, Gustav Fischer Verlag, 576. (in German)]Search in Google Scholar
[39. Krammer K. and Lange-Bertalot, 1991b ‒ Bacillariophyceae, 4, Achnanthaceae, Kritische Ergänzungen zu Navicula (Lineolatae) und Gomphonema, in: Ettl H., Gerloff J., Heynig H. and Mollenhauer D. (eds). Süßwasserflora von Mitteleuropa, 2, Berlin, Germany, Gustav Fischer Verlag, 468. (in German)]Search in Google Scholar
[40. Kryvosheia O. and Tsarenko P., 2018 ‒ Bacillariophyta in the high-mountain lakes of Chornogora range in Ukrainian Carpathians, Аlgologia, 28, 297-327, doi: 10.15407/alg28.03.297.10.15407/alg28.03.297]Search in Google Scholar
[41. MacArthur R. H., 1960 ‒ On the relative abundance of species. American Naturalist, 94, 1, 25-36.10.1086/282106]Search in Google Scholar
[42. Marchetto A., Rogora M., Boggero A., Musazzi S., Lami A., Lotte, A., Tolotti M., Thies H., Psenner R. and Massaferro J. 2009 ‒ Response of Alpine lakes to major environmental gradients, as detected through planktonic, benthic and sedimentary assemblages, Advances in Limnology, 62, 419-440, doi: 10.1127/advlim/62/2009/419.10.1127/advlim/62/2009/419]Search in Google Scholar
[43. Necchi O., (ed.) 2016 – River algae, Springer, 279.10.1007/978-3-319-31984-1]Search in Google Scholar
[44. Niyatbekov T. and Barinova S., 2018a ‒ Diatom species richness in algal flora of Pamir, Tajikistan, European Scientific Journal, 14, 301-323, doi: 10.19044/esj.2018.v14n3p301.10.19044/esj.2018.v14n3p301]Search in Google Scholar
[45. Niyatbekov T. P. and Barinova S., 2018b ‒ Diatoms (Bacillariophyta) of the thermal and mineral water sources of Pamir, Biota and Environment, 2, 5-23 (in Russian).]Search in Google Scholar
[46. Niyatbekov T. and Barinova S., 2018c ‒ Bioindication of water properties by algal communities in the Pamir high mountain mineral and thermal springs, Transylvanian Review of Systematical and Ecological Research, 20, 1-30, doi: 10.2478/trser-2018-0016.10.2478/trser-2018-0016]Search in Google Scholar
[47. Niyatbekov T. and Barinova S., 2018d ‒ Bioindication of aquatic habitats with diatom algae in the Pamir Mountains, Tajikistan, MOJ Ecology and Environmental Sciences, 3, 117-120, doi: 10.15406/mojes.2018.03.0007510.15406/mojes.2018.03.00075]Search in Google Scholar
[48. Novakovsky A. B., 2004 ‒ Abilities and base principles of program module “GRAPHS”, Scientific Reports of Komi Scientific Center, Ural Division of the Russian Academy of Sciences, 27, 1-28. (in Russian)]Search in Google Scholar
[49. Ognjanova-Rumenova N., Botev I. and Kernan M., 2009 ‒ Benthic diatom flora in relation to chemical and physical factors in high mountain lakes in the Rila Mountains (southwestern Bulgaria), Advances in Limnology, 62, 153-166, doi: 10.1127/advlim/62/2009/153.10.1127/advlim/62/2009/153]Search in Google Scholar
[50. Patrick R. and Reimer C. W., 1966 ‒ The Diatoms of the United States, exclusive of Alaska and Hawaii: Fragilariaceae, Eunotiaceae, Achnanthaceae, Naviculacae, Philadelphia, USA, Academy of Natural Sciences, 688.]Search in Google Scholar
[51. Paul M. J., 2017 ‒ Algal indicators in streams: a review of their application in water quality management of nutrient pollution, Tetra Tech, Inc., U.S. Environmental Protection Agency, Office of Water, Office of Science and Technology, Washington D. C., available 04.09.2019 at https://www.epa.gov/nutrient-policy-data/algal-indicators-streams-review-their-application-water-quality-management.]Search in Google Scholar
[52. Robinson C. T. and Kawecka B., 2005 ‒ Benthic diatoms of an alpine stream/lake network in Switzerland, Aquatic Sciences, 67, 492-506, doi: 10.1007/s00027-005-0783-4.10.1007/s00027-005-0783-4]Search in Google Scholar
[53. Rosenberg G. S., 2010 ‒ Informational index and diversity: Boltzmann, Kotelnikov, Shannon, Weaver, Bulletin Samarskaya Luka: problems of regional and global ecology, 19, 2, 4-25. (in Russian)]Search in Google Scholar
[54. Saros J. E., Interlandi S. J., Wolfe A. P. and Engstrom D. R., 2003 ‒ Recent changes in the diatom community structure of lakes in the Beartooth Mountain Range, U. S. A, Arctic, Antarctic, and Alpine Research, 3, 18-23, doi:10.1657/1523-0430(2003)035[0018:RCITDC]2.0.CO; 2.]Search in Google Scholar
[55. Saros J. E., Stone J. R., Pederson G. T., Slemmons K. E. H., Spanbauer T., Schliep A., Cahl D., Williamson C. E., Engstrom D. R. 2012 ‒ Climate-induced changes in lake ecosystem structure inferred from coupled neo- and paleoecological approaches, Ecology, 93, 2155-2164, doi: 10.1890/11-2218.1.10.1890/11-2218.123185877]Search in Google Scholar
[56. Sender J. and Maślanko W., 2017 ‒ Floristic diversity of lakes subjected to long term changes in the water network of the West Polesie (Eastern Poland), Transylvanian Review of Systematical and Ecological Research, The Wetlands Diversity, 19.3, 1-16.10.1515/trser-2017-0017]Search in Google Scholar
[57. Sivaci R. E., Barinova S., Solak C. N. and Çobanoglu K., 2013 ‒ Ecological assessment of Great Lota Lake (Turkey) on the base of diatom communities, African Journal of Biotechnology, 12, 453-464, doi: 10.5897/AJB12.671.10.5897/AJB12.671]Search in Google Scholar
[58. Sládeček, V., 1973 ‒ System of water quality from biological point of view, Ergebnisse der Limnologie, 7, 1-218.]Search in Google Scholar
[59. Solak C. N., Barinova S., Ács E. and Dayioğlu H., 2012 ‒ Diversity and ecology of diatoms from Felent creek (Sakarya river basin), Turkey, Turkish Journal of Botany, 36, 191-203, doi: 10.3906/bot-1102-16.10.3906/bot-1102-16]Search in Google Scholar
[60. Stevenson J., 2014 ‒ Ecological assessments with algae: a review and synthesis, Journal of Phycology, 50, 437-461, doi: 10.1111/jpy.12189.10.1111/jpy.1218926988318]Search in Google Scholar
[61. Ter Braak C. J. F. and Šmilauer P., 2002 ‒ CANOCO reference manual and CanoDraw for Windows user’s guide: software for Canonical Community Ordination (version 4.5), Ithaca, Microcomputer Power Press.]Search in Google Scholar
[62. Tolotti M., 2001 ‒ Phytoplankton and littoral epilithic diatoms in high mountain lakes of the Adamello-Brenta Regional Park (Trentino, Italy) and their relation to trophic status and acidification risk, Journal of Limnology, 60, 171-188, doi: 10.4081/jlimnol.2001.1.171.10.4081/jlimnol.2001.1.171]Search in Google Scholar
[63. Van Colen W. R., Mosquera P., Vanderstukken M., Goiris K. and Carrasco M. C., 2017 ‒ Limnology and trophic status of glacial lakes in the tropical Andes (Cajas National Park, Ecuador), Freshwater Biology, 62, 458-473, doi: 10.1111/fwb.12878.10.1111/fwb.12878]Search in Google Scholar
[64. Wang Q., Yang X., Anderson N. J. and Ji J., 2015 ‒ Diatom seasonality and sedimentation in a subtropical alpine lake (Lugu Hu, Yunnan-Sichuan, Southwest China), Arctic, Antarctic, and Alpine Research, 47, 461-472 doi: 10.1657/AAAR0014-039.10.1657/AAAR0014-039]Search in Google Scholar
[65. Wessa P., 2018 ‒ Free statistics software, Office for research development and education, version 1.1.23-r7 (online), website http://www.wessa.net/ (accessed 2018).]Search in Google Scholar