Research Article
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Year 2019, Volume: 34 Issue: 4, 103 - 111, 16.09.2019
https://doi.org/10.26650/ASE2019586048

Abstract

References

  • Aktan, Y., Aykulu, G., Albay, M., Okgerman, H., Akçaalan, R., Gürevin, C. & Dorak, Z. (2006). Büyükçekmece Gölü’nde aşırı artış gösteren fitoplankterlerin gelişimini kontrol eden faktörlerin araştırılması. Tübitak Projesi 2006; ÇAYDAG-103Y127, 112s.
  • Altınyurt, S. (2006). Ömerli Baraj Gölünde Zooplanktonların Mevsimsel Değişiminin Saptanması, Yüksek Lisans Tezi, Marmara Üniversitesi Fen Bilimleri Enstitüsü, İstanbul.
  • Apaydın Yağcı, M. (2014). Seasonal Variations in Zooplankton Species of Lake Gölhisar, a Shallow Lake in Burdur, Turkey. Pakistan Journal of Zoology, 46(4), 927–932.
  • Apaydın Yağcı, M., Yılmaz, S., Yazıcıoğlu, O., & Polat, N. (2015). The zooplankton composition of Lake Ladik (Samsun, Turkey). Turkish Journal of Zoology, 39, 652–659. [CrossRef]
  • APHA APHA-AWWA WPCF (1989). Standard methods for the examination of water and wastewater. 17th ed., Washington DC., 1391 p.
  • Arora, J., & Mehra, N.K. (2003). Seasonal dynamics of rotifers in relation to physical and chemical conditions of the river Yamun (Delhi), India. Hydrobiologia, 491, 101–109.
  • Attayde, J.L., & Bozelli, R.L. (1998). Assessing the indicator properties of zooplankton assemblages to disturbance gradients by canonical correspondence analysis. Canadian Journal of Fisheries and Aquatic Sciences, 55 (8), 1789–1797.
  • Bays, J.S., & Crisman, T.L. (1983). Zooplankton and trophic state relationships in Florida lakes. Canadian Journal of Fisheries and Aquatic Sciences, 40, 1813–1819.
  • Bath, K.S., & Kaur, H. (1998). Seasonal distribution and population dynamics and rotifers in Harike reservoir (Punjab-India). Journal of Environment and Pollution, 5(4), 249–252.
  • Berzins, B., & Pejler, B. (1989a). Rotifer occurrence in relation to temperature. Hydrobiologia, 175, 223–231.
  • Berzins, B., & Pejler, B., (1989b). Rotifer occurrence in relation to oxygen content. Hydrobiologia, 183, 165–172.
  • Brito, S.L., Maia-Barbosa, P.M., & Pinto-Coelho, R.M. (2011). Zooplankton as an indicator of trophic conditions in two large reservoirs in Brazil. Lakes & Reservoirs: Research and Management, 16, 253–264.
  • Brock, M.A., Nielsen, D.L., & Crossle, K. (2005). Changes in biotic communities developing from freshwater wetland sediments under experimental salinity and water regimes. Freshwater Biology, 50, 1376–1390.
  • Carlson, R.E. (1977). A Trophic State Index for Lakes. Limnology and Oceanography, 22 (2), 361–369.
  • Dorak, Z., Köker, L., Sağlam, O., Akçaalan, R., & Albay, M. (2017). Determination of zooplankton community structure, biomass and trophic state of a shallow turbid lake. Fresenius Environmental Bulletin, 26 (1a), 834–845.
  • Dorak, Z. (2019). Indicator zooplankton species and ecological requirements of zooplankton communities in man-made reservoirs. Fresenius Environmental Bulletin, 28 (3), 2185–2198.
  • Dorak, Z., Köker, L., Gaygusuz, Ö., Gürevin, C., Akçaalan, R., & Albay, M. (2019). Zooplankton biodiversity in reservoirs of different geographical regions of Turkey: composition and distribution related with some environmental conditions. Aquatic Sciences and Engineering, 34(1), 29–38.
  • Ergönül, M.B., Erdoğan, S., Altındağ, A., & Atasağun, S. (2016). Rotifera and Cladocera fauna of several lakes from Central Anatolia, Marmara, and Western Black Sea regions of Turkey. Turkish Journal of Zoology, 40, 141–146.
  • Gannon, J.E. & Stemberger, R.S. (1978). Zooplankton (especially crustaceans and rotifers) as indicators of water quality. Transactions of the American Microscopical Society, 97, 1635.
  • González, E., Matos, M., Peñaherrera, C., & Merayo, S. (2011). Zooplankton Abundance, Biomass and Trophic State in Some Venezuelan Reservoirs. Dr. Islam Atazadeh, editor. Biomass and Remote Sensing of Biomass. InTech pp. 57–74.
  • Green, J. (1993). Diversity and dominance in planktonic rotifers. Hydrobiologia, 255/256 (Dev. Hydrobiol. 83), 345–352.
  • Güher, H. (2000). A Faunistic study on the freshwater Cladocera (Crustacea) species in Turkish Thrace (Edirne, Tekirdağ, Kırklareli). Turkish Journal of Zoology, 24, 237–243.
  • Güher, H. & Çolak, Ş. (2015). Süloğlu Baraj Gölü’nün (Edirne) zooplankton (Rotifera, Cladocera, Copepoda) faunası ve mevsimsel değişimi. Trakya Üniversitesi Fen Bilimleri Dergisi, 16(1), 17–24.
  • Hanazato, T. (2001). Pesticide effects on freshwater zooplankton: an ecological perspective. -Environmental Pollution, 112, 1–10.
  • Harman, C.D., Bayne, D.R., & West, M.S. (1995). Zooplankton trophic state relationships in four Alabama–Georgia reservoirs. Lake and Reservoir Management, 11, 299–309.
  • Herzig, A. (1987). The analysis of planktonic rotifer populations: A plea for long-term investigations. Hydrobiologia, 147, 163–180.
  • Hra, M. (2011). Seasonal and spatial distribution of Brachionus (Pallas, 1966; Eurotatoria: Monogonanta: Brachionidae), a bioindicator of eutrophication in lake El-Manzalah, Egypt. Biology and Medicine, 3(2), Special Issue, 60–69.
  • Hulyal, S.B., & Kaliwal, B.B. (2008). Water quality assessment of Almatti Reservoir of Bijapur (Karnataka State, India) with special reference to zooplankton. Environmental Monitoring and Assessment, 139, 299–306.
  • Hutchinson, G.E. (1967). A Treatise on Limnology. II. Introduction to Lake Biology and the Limnoplankton. Wiley, New York.
  • Ismail, A.H., & Adnan, A.A.M. (2016). Zooplankton Composition and Abundance as Indicators of Eutrophication in Two Small Man-made Lakes. Tropical Life Sciences Research, 27(1), 31–38.
  • Jeppesen, E., Nõges, P., Davidson, T.A., Haberman, J., Nõges, T., Blank, K., Lauridsen, T.L., Søndergaard, M., Sayer, C., Laugaste, R., Johansson, L.S., Bjerring, R., & Amsinck, S.L. (2011). Zooplankton as indicators in lakes: a scientific-based plea for including zooplankton in the ecological quality assessment of lakes according to the European Water Framework Directive (WFD). Hydrobiologia, 676, 279–297.
  • Kaplan, H. (1989). Ömerli Baraj Gölü Zooplankton Gruplarının Mevsimsel Dağılımı, Yüksek Lisans Tezi, İstanbul Üniversitesi, Fen Bilimleri Enstitüsü.
  • Kaya, M., & Altındağ, A. (2007). Zooplankton Fauna and Seasonal Changes of Gelingüllü Dam Lake (Yozgat, Turkey). Turkish Journal of Zoology, 31, 347–351.
  • Kolisko, W.R. (1974). Planktonic Rotifers Biology and Taxonomy Biological Station. Lunz of The Austrian Academy of Science, Stuttgart.
  • Koste, W. (1978). Die Radertiere Mitteleuropas. Ein Bestimmungswerk, Begründet Von Max Voigt. Überordnung Monogononta. 2 Auflage Neubearbeitet Von II. Tafelband. Berlin Stutgart, 234pp.
  • Maley, D.F., Chang, P.S.S., & Schindler, D.W. (1988). Decline of zooplankton populations following eutrophication of Lake 227, Experimental Lakes Area, Ontario – 1969-1974. Canadian technical report of fisheries and aquatic sciences, 1619, 29 pp.
  • Michaloudi, E. (1997). Composition, Abundance and Biomass of the Zooplanktonic Organisms In Lake Micri Prespa (Macedonia, Greece). Doctoral dissertation, Aristotle University, Thessaloniki 199 pp.
  • Meriç, N. (1992). Büyükçekmece Baraj Gölü Balıkları. Fırat Üniv. XI. Ulusal Biyoloji Kongresi, Elazığ.167–174.
  • Mulani, S.K., Mule, M.B., & Patil, S.U. (2009). Studies on water quality and zooplankton community of the Panchganga river in Kolhapur city. Journal of Environmental Biology, 30(3), 455–459.
  • Nush, E.A. (1980). Comparison of different methods for chlorophyll and phaeopigment determination. Archiv für Hydrobiologie–Beiheft Ergebnisse der Limnologie, 14, 14–36.
  • Ministry of Forestry and Water Management (2012). Yüzeysel Su Kalitesi Yönetimi Yönetmeliği. Ankara, Turkey: Resmi Gazete 28483.
  • Özuluğ, M. (1999). A taxonomic study on the fish in the basin of Büyükçekmece Dam Lake. Turkish Journal of Zoology, 23, 439–451.
  • Pace, M.L. (1986). An empirical analysis of zooplankton community size structure across lake trophic gradients. Limnology and Oceanography, 31(1), 45–55.
  • Pennak, R.W. (1978). Freshwater invertebrates of the United States.2nd ed. New York: John Wiley & Sons.
  • Pereira, R., Soares, A.M., Ribeiro, R., & Goçalves, F. (2002). Assessing the trophic state of Linhos lake: a first step towards ecological rehabilitation. Journal of Environmental Management, 64, 285–297.
  • Pontin, R.M. (1978). A Key to the Freshwater planktonic and SemiPlanktonic Rotifera of the British Isles. Freshwater Biological Association Scientific Publication, No: 38.
  • Ramadan, F.M., Klimowicz, H., & Swelim, A.A. (1963). The pollutional effect of industrial waste on rotifers. Polish Archives Hydrobiology, 11, 97–108.
  • Ruttner-Kolisko, A. (1974). Plankton Rotifers Biology and Taxonomy. Stutgart: Biological Station Lunz of the Austrian Academy of Science.146pp.
  • Saler, S., & Alış, N. (2014). Zooplankton of Hancağız Dam Lake (Gaziantep–Turkey). Journal of Survey in Fisheries Sciences, 1(1), 36-45.
  • Saksena, N.D. (1987). Rotifer as indicators of water qality. Acta Hydrocim Hydrobiologia, 15, 481–485.
  • Segers, H. (2007). Annotated checklist of the rotifers (phylum Rotifera) with notes on nomenclature, taxonomy and distribution. Zootaxa, 1564, 1–104.
  • Siegfried, C.A., Bloomfield, J.A., & Sutherland, J.W. (1989). Planktonic rotifer community structure in Adirondack, New York, U.S.A. lakes in relation to acidity, trophic status and related water quality characteristics. Hydrobiologia, 175, 33–48.
  • Sharma, B.K. (1983). The Indian species of the genus Branchionus (Eurotatoria: Monogononta: Brachionida), Hydrobiologia, 104, 31–39.
  • Sladecek, V. (1983). Rotifers as indicators of water quality. Hydrobiologia, 100, 169–201.
  • Snell, T.W., & Janssen, C.R. (1995). Rotifers in ecotoxicology: a review. Hydrobiologia, 313/314, 231–247.
  • Soyer, E. (2003). Büyükçekmece Su Kaynağının Ozonlama Sonucu Bromat Oluşturma Potansiyelinin Araştırılması, Yüksek Lisans Tezi, İ.T.Ü. Fen Bilimleri Enstitüsü, İstanbul.
  • Tarkan, A.S. (2010). Effects of streams on drinkable water reservoir: an assessment of water quality, physical habitat and some biological features of the streams. Journal of FisheriesSciences.com, 4(1), 8–19.
  • Tüfekçi, V., Morkoç, E., Tüfekçi, H., Tolun, L., Telli Karakoç, F., Karakas, D., Olgun, A., & Aydöner, C. (2003). Ömerli Baraj Gölündeki Toksik Fitoplankton Türlerinin Tespiti ve Su Kalitesinin İyilestirilmesine Yönelik Çözüm Önerilerinin Belirlenmesi Projesi, Yer ve Deniz Bilimleri Arastırma Enstitüsü, TÜBİTAK-MAM, Gebze, Kocaeli.
  • Ustaoğlu, M.R., Altındağ, A., Kaya, M., Akbulut, N., Bozkurt, A., Özdemir Mis, D., Atasagun, S., Erdoğan, S., Bekleyen, A., Saler, S., & Okgerman, H.C. (2012). A Checklist of Turkish Rotifers. Turkish Journal of Zoology, 36(5), 607–622.
  • Ustaoğlu, M.R. (2015). An Updated Zooplankton Biodiversity of Turkish Inland Waters. Journal of Limnology and Freshwater Fisheries Research, 1(3), 151–159. [CrossRef]

A Preliminary Study on Using Rotifera Fauna to Determine The Trophic Level of The Büyükçekmece Reservoir (İstanbul, Turkey)

Year 2019, Volume: 34 Issue: 4, 103 - 111, 16.09.2019
https://doi.org/10.26650/ASE2019586048

Abstract

In this study, the abundance of rotifera fauna, in the Büyükçekmece Reservoir (İstanbul) and some physicochemical features of the reservoir, were investigated between May 2009 and February 2010. In terms of physicochemical conditions, the trophic state of the reservoir was determined as eutrophic (CTSI= 57.8). A total of 33 rotifera species were identified. Keratella cochlearis represented 40.62% of the total annual rotifera present, and was predominant. It was followed by Polyarthra vulgaris (10.14%), Synchaeta oblonga (9.06%), Brachionus urceolaris (5.58%), Pompholyx sulcata (5.21%) and Epiphanes macroura (%4.86), respectively. The contribution of the other rotifer species to the annual presence of rotifera was determined as being 24.52%. The dominance of these species was attributed to the eutrophic state of the reservoir, because K. cochlearis, P. vulgaris, B. urceolaris and P. sulcata are known as eutrophication indicator species, due to their saprobic valences. Also, the trophic state of the reservoir was found to be eutrophic according to the QB/T index (= 3). According to the present data about rotifera species, and the abundance of them, the Büyükçekmece Reservoir was specified as eutrophic. However it is necessary to follow the conditions with periodic monitoring to observe the alterations in the Büyükçekmece Reservoir, in this respect the results of the present study would constitute an important baseline for subsequent studies.

References

  • Aktan, Y., Aykulu, G., Albay, M., Okgerman, H., Akçaalan, R., Gürevin, C. & Dorak, Z. (2006). Büyükçekmece Gölü’nde aşırı artış gösteren fitoplankterlerin gelişimini kontrol eden faktörlerin araştırılması. Tübitak Projesi 2006; ÇAYDAG-103Y127, 112s.
  • Altınyurt, S. (2006). Ömerli Baraj Gölünde Zooplanktonların Mevsimsel Değişiminin Saptanması, Yüksek Lisans Tezi, Marmara Üniversitesi Fen Bilimleri Enstitüsü, İstanbul.
  • Apaydın Yağcı, M. (2014). Seasonal Variations in Zooplankton Species of Lake Gölhisar, a Shallow Lake in Burdur, Turkey. Pakistan Journal of Zoology, 46(4), 927–932.
  • Apaydın Yağcı, M., Yılmaz, S., Yazıcıoğlu, O., & Polat, N. (2015). The zooplankton composition of Lake Ladik (Samsun, Turkey). Turkish Journal of Zoology, 39, 652–659. [CrossRef]
  • APHA APHA-AWWA WPCF (1989). Standard methods for the examination of water and wastewater. 17th ed., Washington DC., 1391 p.
  • Arora, J., & Mehra, N.K. (2003). Seasonal dynamics of rotifers in relation to physical and chemical conditions of the river Yamun (Delhi), India. Hydrobiologia, 491, 101–109.
  • Attayde, J.L., & Bozelli, R.L. (1998). Assessing the indicator properties of zooplankton assemblages to disturbance gradients by canonical correspondence analysis. Canadian Journal of Fisheries and Aquatic Sciences, 55 (8), 1789–1797.
  • Bays, J.S., & Crisman, T.L. (1983). Zooplankton and trophic state relationships in Florida lakes. Canadian Journal of Fisheries and Aquatic Sciences, 40, 1813–1819.
  • Bath, K.S., & Kaur, H. (1998). Seasonal distribution and population dynamics and rotifers in Harike reservoir (Punjab-India). Journal of Environment and Pollution, 5(4), 249–252.
  • Berzins, B., & Pejler, B. (1989a). Rotifer occurrence in relation to temperature. Hydrobiologia, 175, 223–231.
  • Berzins, B., & Pejler, B., (1989b). Rotifer occurrence in relation to oxygen content. Hydrobiologia, 183, 165–172.
  • Brito, S.L., Maia-Barbosa, P.M., & Pinto-Coelho, R.M. (2011). Zooplankton as an indicator of trophic conditions in two large reservoirs in Brazil. Lakes & Reservoirs: Research and Management, 16, 253–264.
  • Brock, M.A., Nielsen, D.L., & Crossle, K. (2005). Changes in biotic communities developing from freshwater wetland sediments under experimental salinity and water regimes. Freshwater Biology, 50, 1376–1390.
  • Carlson, R.E. (1977). A Trophic State Index for Lakes. Limnology and Oceanography, 22 (2), 361–369.
  • Dorak, Z., Köker, L., Sağlam, O., Akçaalan, R., & Albay, M. (2017). Determination of zooplankton community structure, biomass and trophic state of a shallow turbid lake. Fresenius Environmental Bulletin, 26 (1a), 834–845.
  • Dorak, Z. (2019). Indicator zooplankton species and ecological requirements of zooplankton communities in man-made reservoirs. Fresenius Environmental Bulletin, 28 (3), 2185–2198.
  • Dorak, Z., Köker, L., Gaygusuz, Ö., Gürevin, C., Akçaalan, R., & Albay, M. (2019). Zooplankton biodiversity in reservoirs of different geographical regions of Turkey: composition and distribution related with some environmental conditions. Aquatic Sciences and Engineering, 34(1), 29–38.
  • Ergönül, M.B., Erdoğan, S., Altındağ, A., & Atasağun, S. (2016). Rotifera and Cladocera fauna of several lakes from Central Anatolia, Marmara, and Western Black Sea regions of Turkey. Turkish Journal of Zoology, 40, 141–146.
  • Gannon, J.E. & Stemberger, R.S. (1978). Zooplankton (especially crustaceans and rotifers) as indicators of water quality. Transactions of the American Microscopical Society, 97, 1635.
  • González, E., Matos, M., Peñaherrera, C., & Merayo, S. (2011). Zooplankton Abundance, Biomass and Trophic State in Some Venezuelan Reservoirs. Dr. Islam Atazadeh, editor. Biomass and Remote Sensing of Biomass. InTech pp. 57–74.
  • Green, J. (1993). Diversity and dominance in planktonic rotifers. Hydrobiologia, 255/256 (Dev. Hydrobiol. 83), 345–352.
  • Güher, H. (2000). A Faunistic study on the freshwater Cladocera (Crustacea) species in Turkish Thrace (Edirne, Tekirdağ, Kırklareli). Turkish Journal of Zoology, 24, 237–243.
  • Güher, H. & Çolak, Ş. (2015). Süloğlu Baraj Gölü’nün (Edirne) zooplankton (Rotifera, Cladocera, Copepoda) faunası ve mevsimsel değişimi. Trakya Üniversitesi Fen Bilimleri Dergisi, 16(1), 17–24.
  • Hanazato, T. (2001). Pesticide effects on freshwater zooplankton: an ecological perspective. -Environmental Pollution, 112, 1–10.
  • Harman, C.D., Bayne, D.R., & West, M.S. (1995). Zooplankton trophic state relationships in four Alabama–Georgia reservoirs. Lake and Reservoir Management, 11, 299–309.
  • Herzig, A. (1987). The analysis of planktonic rotifer populations: A plea for long-term investigations. Hydrobiologia, 147, 163–180.
  • Hra, M. (2011). Seasonal and spatial distribution of Brachionus (Pallas, 1966; Eurotatoria: Monogonanta: Brachionidae), a bioindicator of eutrophication in lake El-Manzalah, Egypt. Biology and Medicine, 3(2), Special Issue, 60–69.
  • Hulyal, S.B., & Kaliwal, B.B. (2008). Water quality assessment of Almatti Reservoir of Bijapur (Karnataka State, India) with special reference to zooplankton. Environmental Monitoring and Assessment, 139, 299–306.
  • Hutchinson, G.E. (1967). A Treatise on Limnology. II. Introduction to Lake Biology and the Limnoplankton. Wiley, New York.
  • Ismail, A.H., & Adnan, A.A.M. (2016). Zooplankton Composition and Abundance as Indicators of Eutrophication in Two Small Man-made Lakes. Tropical Life Sciences Research, 27(1), 31–38.
  • Jeppesen, E., Nõges, P., Davidson, T.A., Haberman, J., Nõges, T., Blank, K., Lauridsen, T.L., Søndergaard, M., Sayer, C., Laugaste, R., Johansson, L.S., Bjerring, R., & Amsinck, S.L. (2011). Zooplankton as indicators in lakes: a scientific-based plea for including zooplankton in the ecological quality assessment of lakes according to the European Water Framework Directive (WFD). Hydrobiologia, 676, 279–297.
  • Kaplan, H. (1989). Ömerli Baraj Gölü Zooplankton Gruplarının Mevsimsel Dağılımı, Yüksek Lisans Tezi, İstanbul Üniversitesi, Fen Bilimleri Enstitüsü.
  • Kaya, M., & Altındağ, A. (2007). Zooplankton Fauna and Seasonal Changes of Gelingüllü Dam Lake (Yozgat, Turkey). Turkish Journal of Zoology, 31, 347–351.
  • Kolisko, W.R. (1974). Planktonic Rotifers Biology and Taxonomy Biological Station. Lunz of The Austrian Academy of Science, Stuttgart.
  • Koste, W. (1978). Die Radertiere Mitteleuropas. Ein Bestimmungswerk, Begründet Von Max Voigt. Überordnung Monogononta. 2 Auflage Neubearbeitet Von II. Tafelband. Berlin Stutgart, 234pp.
  • Maley, D.F., Chang, P.S.S., & Schindler, D.W. (1988). Decline of zooplankton populations following eutrophication of Lake 227, Experimental Lakes Area, Ontario – 1969-1974. Canadian technical report of fisheries and aquatic sciences, 1619, 29 pp.
  • Michaloudi, E. (1997). Composition, Abundance and Biomass of the Zooplanktonic Organisms In Lake Micri Prespa (Macedonia, Greece). Doctoral dissertation, Aristotle University, Thessaloniki 199 pp.
  • Meriç, N. (1992). Büyükçekmece Baraj Gölü Balıkları. Fırat Üniv. XI. Ulusal Biyoloji Kongresi, Elazığ.167–174.
  • Mulani, S.K., Mule, M.B., & Patil, S.U. (2009). Studies on water quality and zooplankton community of the Panchganga river in Kolhapur city. Journal of Environmental Biology, 30(3), 455–459.
  • Nush, E.A. (1980). Comparison of different methods for chlorophyll and phaeopigment determination. Archiv für Hydrobiologie–Beiheft Ergebnisse der Limnologie, 14, 14–36.
  • Ministry of Forestry and Water Management (2012). Yüzeysel Su Kalitesi Yönetimi Yönetmeliği. Ankara, Turkey: Resmi Gazete 28483.
  • Özuluğ, M. (1999). A taxonomic study on the fish in the basin of Büyükçekmece Dam Lake. Turkish Journal of Zoology, 23, 439–451.
  • Pace, M.L. (1986). An empirical analysis of zooplankton community size structure across lake trophic gradients. Limnology and Oceanography, 31(1), 45–55.
  • Pennak, R.W. (1978). Freshwater invertebrates of the United States.2nd ed. New York: John Wiley & Sons.
  • Pereira, R., Soares, A.M., Ribeiro, R., & Goçalves, F. (2002). Assessing the trophic state of Linhos lake: a first step towards ecological rehabilitation. Journal of Environmental Management, 64, 285–297.
  • Pontin, R.M. (1978). A Key to the Freshwater planktonic and SemiPlanktonic Rotifera of the British Isles. Freshwater Biological Association Scientific Publication, No: 38.
  • Ramadan, F.M., Klimowicz, H., & Swelim, A.A. (1963). The pollutional effect of industrial waste on rotifers. Polish Archives Hydrobiology, 11, 97–108.
  • Ruttner-Kolisko, A. (1974). Plankton Rotifers Biology and Taxonomy. Stutgart: Biological Station Lunz of the Austrian Academy of Science.146pp.
  • Saler, S., & Alış, N. (2014). Zooplankton of Hancağız Dam Lake (Gaziantep–Turkey). Journal of Survey in Fisheries Sciences, 1(1), 36-45.
  • Saksena, N.D. (1987). Rotifer as indicators of water qality. Acta Hydrocim Hydrobiologia, 15, 481–485.
  • Segers, H. (2007). Annotated checklist of the rotifers (phylum Rotifera) with notes on nomenclature, taxonomy and distribution. Zootaxa, 1564, 1–104.
  • Siegfried, C.A., Bloomfield, J.A., & Sutherland, J.W. (1989). Planktonic rotifer community structure in Adirondack, New York, U.S.A. lakes in relation to acidity, trophic status and related water quality characteristics. Hydrobiologia, 175, 33–48.
  • Sharma, B.K. (1983). The Indian species of the genus Branchionus (Eurotatoria: Monogononta: Brachionida), Hydrobiologia, 104, 31–39.
  • Sladecek, V. (1983). Rotifers as indicators of water quality. Hydrobiologia, 100, 169–201.
  • Snell, T.W., & Janssen, C.R. (1995). Rotifers in ecotoxicology: a review. Hydrobiologia, 313/314, 231–247.
  • Soyer, E. (2003). Büyükçekmece Su Kaynağının Ozonlama Sonucu Bromat Oluşturma Potansiyelinin Araştırılması, Yüksek Lisans Tezi, İ.T.Ü. Fen Bilimleri Enstitüsü, İstanbul.
  • Tarkan, A.S. (2010). Effects of streams on drinkable water reservoir: an assessment of water quality, physical habitat and some biological features of the streams. Journal of FisheriesSciences.com, 4(1), 8–19.
  • Tüfekçi, V., Morkoç, E., Tüfekçi, H., Tolun, L., Telli Karakoç, F., Karakas, D., Olgun, A., & Aydöner, C. (2003). Ömerli Baraj Gölündeki Toksik Fitoplankton Türlerinin Tespiti ve Su Kalitesinin İyilestirilmesine Yönelik Çözüm Önerilerinin Belirlenmesi Projesi, Yer ve Deniz Bilimleri Arastırma Enstitüsü, TÜBİTAK-MAM, Gebze, Kocaeli.
  • Ustaoğlu, M.R., Altındağ, A., Kaya, M., Akbulut, N., Bozkurt, A., Özdemir Mis, D., Atasagun, S., Erdoğan, S., Bekleyen, A., Saler, S., & Okgerman, H.C. (2012). A Checklist of Turkish Rotifers. Turkish Journal of Zoology, 36(5), 607–622.
  • Ustaoğlu, M.R. (2015). An Updated Zooplankton Biodiversity of Turkish Inland Waters. Journal of Limnology and Freshwater Fisheries Research, 1(3), 151–159. [CrossRef]
There are 60 citations in total.

Details

Primary Language English
Journal Section Research Articles
Authors

Zeynep Dorak 0000-0003-4782-3082

Publication Date September 16, 2019
Submission Date July 3, 2019
Published in Issue Year 2019 Volume: 34 Issue: 4

Cite

APA Dorak, Z. (2019). A Preliminary Study on Using Rotifera Fauna to Determine The Trophic Level of The Büyükçekmece Reservoir (İstanbul, Turkey). Aquatic Sciences and Engineering, 34(4), 103-111. https://doi.org/10.26650/ASE2019586048
AMA Dorak Z. A Preliminary Study on Using Rotifera Fauna to Determine The Trophic Level of The Büyükçekmece Reservoir (İstanbul, Turkey). Aqua Sci Eng. September 2019;34(4):103-111. doi:10.26650/ASE2019586048
Chicago Dorak, Zeynep. “A Preliminary Study on Using Rotifera Fauna to Determine The Trophic Level of The Büyükçekmece Reservoir (İstanbul, Turkey)”. Aquatic Sciences and Engineering 34, no. 4 (September 2019): 103-11. https://doi.org/10.26650/ASE2019586048.
EndNote Dorak Z (September 1, 2019) A Preliminary Study on Using Rotifera Fauna to Determine The Trophic Level of The Büyükçekmece Reservoir (İstanbul, Turkey). Aquatic Sciences and Engineering 34 4 103–111.
IEEE Z. Dorak, “A Preliminary Study on Using Rotifera Fauna to Determine The Trophic Level of The Büyükçekmece Reservoir (İstanbul, Turkey)”, Aqua Sci Eng, vol. 34, no. 4, pp. 103–111, 2019, doi: 10.26650/ASE2019586048.
ISNAD Dorak, Zeynep. “A Preliminary Study on Using Rotifera Fauna to Determine The Trophic Level of The Büyükçekmece Reservoir (İstanbul, Turkey)”. Aquatic Sciences and Engineering 34/4 (September 2019), 103-111. https://doi.org/10.26650/ASE2019586048.
JAMA Dorak Z. A Preliminary Study on Using Rotifera Fauna to Determine The Trophic Level of The Büyükçekmece Reservoir (İstanbul, Turkey). Aqua Sci Eng. 2019;34:103–111.
MLA Dorak, Zeynep. “A Preliminary Study on Using Rotifera Fauna to Determine The Trophic Level of The Büyükçekmece Reservoir (İstanbul, Turkey)”. Aquatic Sciences and Engineering, vol. 34, no. 4, 2019, pp. 103-11, doi:10.26650/ASE2019586048.
Vancouver Dorak Z. A Preliminary Study on Using Rotifera Fauna to Determine The Trophic Level of The Büyükçekmece Reservoir (İstanbul, Turkey). Aqua Sci Eng. 2019;34(4):103-11.

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