Buradasınız

Anasayfa » Content

Küçük Lota Gölünün (Hafik/SİVAS) Fiziksel-Kimyasal Özellikleri ve Fitoplankton Toplulukları

Some Physical-Chemical Properties and Phytoplankton Communities of The Small Lota Lake (Hafik/Sivas)

Journal Name:

  • Cumhuriyet Üniversitesi Fen Fakültesi Fen Bilimleri Dergisi

Publication Year:

  • 2014

Key Words:

Keywords (Original Language):

Author NameUniversity of AuthorFaculty of Author
Abstract (2. Language): 
Phytoplankton communities of Small Lota Lake and physical-chemical properties of the lake water were examined between November 2000 and December 2001. 119 taxa belong to seven divisions in Phytoplankton. Of these taxa belong to 41 Bacillariophyta (34.6 %), 38 Chlorophyta (32.7 %), 23 Cyanophyta (19.3 %), 7 Pyrrophyta (5.9 %), 4 Cryptophyta (3.4 %), 4 Euglenophyta (3.4 %) and 2 Xanthophyta (1.7 %). The annual means of temperature, dissolved oxygen, pH, total phosphate, nitrate, amonia, silica, calcium, sulphate and chlorophyll are 16.9 oC , 6.8 mg/l, 8.4, 56.2 μg/l, 0.2 mg/l, 149.8 μg /l, 2.6 mg/l, 417.7 mg/l, 302.3 mg/l and 1.3 μg/l respectively. Small Lota Lake exhibits oligotrophic character in terms of the biological and chemical properties.
Bookmark/Search this post with
Abstract (Original Language): 
Küçük Lota Gölü fitoplankton toplulukları ve göl suyunun fiziko-kimyasal özellikleri Kasım 2000-Aralık 2001 tarihleri arasında incelenmiştir. Fitoplanktonda 7 bölüme ait toplam 119 takson belirlenmiştir. Bu taksonların 41 tanesi Bacillariophyta (% 34,6), 38 tanesi Chlorophyta (% 32,7), 23 tanesi Cyanophyta (% 19,3), 7 tanesi Pyrrophyta (% 5,9), 4 tanesi Cryptophyta (% 3,4), 4 tanesi Euglenophyta (% 3,4) ve 2 tanesi Xanthophyta (% 1,7) bölümlerine aittir. Küçük lota gölünde yıllık ortalama sıcaklık: 16,9 oC, çözünmüş oksijen: 6,8 mg/l, pH: 8,4, toplam fosfat: 56,2 μg/l, nitrat: 0,2 mg/l, amonyak: 149,8 μg /l, silika: 2,6 mg/l, kalsiyum: 417,7 mg/l, sülfat: 302,3 mg/l ve klorofil a: 1,3 μg/l’dir. Küçük Lota Gölü biyolojik ve kimyasal özellikleri bakımından oligotrofik karakter göstermektedir.
FULL TEXT (PDF): 
PDF icon sivas-fiziksel-kimyasal-ozellikleri-fitoplankton-topluluklari.pdf
  • 2
42
53
  • Turkish

REFERENCES

References: 

[1] Çetin, A.K., Şen, B. Seasonal Distribution of Phytoplankton in Orduzu Dam Lake (Malatya,
Turkey), Turk J Bot, 28, 279-285, 2004.
[2] Ilmavirta, V., Dynamics of phytoplankton in Finish lakes, Hydrobiologia, 86, 11–20, 1982.
Küçük Lota Gölünün (Hafik/SİVAS) Fiziksel-Kimyasal Özellikleri
51
[3] Kıvrak, E., Karamuk Gölü (Afyonkarahisar) Fitoplankton Kommunitesinin Mevsimsel
Değişimi ve Bazı Fiziko-kimyasal Özellikleri, E.Ü. Su Ürünleri Dergisi, Cilt/Volume 28,
Sayı/Issue 1, 9-19, 2011.
[4] Rawson, D.S. Algal indicators of trophic lake types. Limnology and Oceanography, 1, 18-
25, 1956.
[5] Trifonova, I.S. Phytoplankton composition and biomass structure in relation to trophic
gradient in some temperate and subarctic lakes of north-western Russia and the Prebaltic.
Hydrobiologia, 369-370, 99- 108, 1998.
[6] Wetzel, R. G. Limnology: Lake and River Ecosystems. Third Edition, Academic Press, 1006
pp., 2001.
[7] Reynolds, C.S., V. Huszar, C. Kruk, L. Naselli-Flores, S. Melo. Review towards a functional
classification of the freshwater phytoplankton. Journal of Plankton Research, 24, 417-428,
2002.
[8] Kelly, M.G., Whitton, B.A. The Trophic Diatom Index: a New Index for Monitoring
Eutrophication in Rivers. J. Appl. Phycol., 7, 433-444, 1995.
[9] Lowe, R., Pan, Y. Benthic algal communities as biological monitors. In: Stevenson RJ,
Bothwell M, Lowe R (ed.), Algal Ecology: Academic Press., pp.,705-739, 1996.
[10] Schneider, S., Schranz, C., Melzer, A. Indicating the trophic state of running waters by
submersed macrophytes and epilithic diatoms. Limnologica, 30, 1 – 8, 2000.
[11] Prygiel, J., Carpentier, P., Almeida, S., Coste, M., Duart, J., Ector, L., Guillard, D., Honoré,
M., Iserentant, R., Ledeganck, P., Lananne-Cassou, C., Lesniak, C., Mercier, I., Moncaut, P.,
Nazart, M., Nouchet, N., Peres, F., Peeters, V., Rimet, F., Rumeau, A., Sabater, S., Straub, F.,
Torrisi, M., Tudesque, T., Van de Vijver, B., Vidal, H., Vizinet, J., Zydek, N. Determination of
the Biological Diatom Index (IBD NF T 90-354): Results of an Intercomparison Exercise. J.
Appl. Phycol., 14, 27-39, 2002.
[12] Rimet, F., Ector, L., Cauchie, H.M., Hoffmann, L. Regional Distribution of Diatom
Assemblages in the Headwater Streams of Luxemburg. Hydrobiologia, 520, 105-117, 2004.
[13] Taş, B., Gönülol, A., Derbent Baraj Gölü (Samsun, Türkiye)’nün Planktonik Algleri,
Journal of FisheriesSciences, 1 (3), 111-123, 2007.
[14] Kagalou, I., Papastergiadou, E., Tsimarakis, G., Petridis, D. Evalution of trophic state of
Lake Pamvotis Greece, a shallow urban Lake. Hydrobiologia 506-509, 745-752, 2003.
[15] Gökçe, A., Ceyhan, F. Miocene sediments in the southeast of the old gypsum plaster
stratigraphy, structural properties and formation. J.of Enginer., 5, 91-112, 1988.
[16] Günay, G. Gypsum karst, Sivas, Turkey. Environ. Geol., 42, 387-398, 2002.
[17] Lund, J.W.G., Kipling, C., Gren, D.E. The inverted microscope method of estimation algal
numbers and the statistical basis of estimation by counting. Hydrobiologia, 11, 143-170, 1958.
[18] Prescott, G.W. Algae of the Western Great Lakes Area, Otto Koeltz Science Publishers,
Germany, 977p., 1982.
Ergün KASAKA
52
[19] Krammer, K. and Lange Bertalot, H. Süwasserflora von Mitteleuropa Bacillariophyceae,
Band 2/3,3, Teil: Centrales Fragillariaceae, Eunotiaceae, Gustav Fischer Verlag, Stuttgart,
576p., 1991.
[20] Krammer, K. and Lange Bertalot, H. Süwasserflora von Mitteleuropa Bacillariophyceae,
Band 2/4,4 Teil: Achnantheceae, Kritische Erganzungen zu Navicula (Lineolatae) und
Gomphonema Gesamtliteraturverzeichnis, Gustav Fischer Verlag, Stuttgart, 437p., 1991.
[21] Krammer, K. and Lange Bertalot, H. Süwasserflora von Mitteleuropa Bacillariophyceae,
Band 2/1,1. Teil: Naviculaceae, Spectrum Academischer Verlag, Heidelberg, Berlin, 876p.,
1999.
[22] Moore, J.A. Charophytes of Great Britain and İreland, Botanical Society of the British
Isles, London, 140p., 1986.
[23] Lind, E.M., Brook, A.J. Desmids of the English Lake District, Freshwater Bio. Assoc.
Scientific Pub. No. 42, 1980.
[24] Mackeret, F.J.H., Heron, J., Talling, C.F. Water Analysis: Some Revised Methods for
Limnologists. Freshwater Biological Association, 120p., 1978.
[25] Clesceri, S., Greenberg, E.A., Eaton, D. Standard Methods for Examination of Water and
Wastewater. 20. Eddition. American Public Health Association. 1999.
[26] Tabitabai, M.A. Determination of Sulphate in Waters. Sulphur İnst. J. 10, 11-13, 1974.
[27] Chaney, A.L. & Morbach, E.P. Modified Reagents for The Determination of Urea and
Amonia. Clin. Chem. 8, 130-132, 1962.
[28] Elliot, R:J. & Porter, A.G. A Rapid Cadmium Reduction Method for The Determination of
Nitrate in Bacon and Curing Brines. Analyst, Lond. 96, 522-527, 1971.
[29] Mullin, J.D. & Riley, J. P. The Colorimetric Determination of Silica in Water. Part 3.
Method for Determining The Total Silica Content. Analyst. Lond. 88, 446-455, 1955.
[30] Rodhe, W. Environmental Requirements of Fresh Water Plankton Algae. Experimental
Studies in the Ecology of Phytoplankton. Symbolae Botanicae Upsaliensis 10, 1-149, 1948.
[31] Hutchinson, G. E. A treatise on Limnology, Vol: II, Introduction to Lake Biology and the
Limnoplankton, John Wiley, New York, 1115 pp., 1967.
[32] Round, F.E. A comparative survey of the epipelic diatom flora of some Irısh Loughs.
Proceedings of royal Irısh Academy, Vol:60, Section B, No:5, 193-215, 1959.
[33] Reynolds, C. S. The Ecology of Freshwater Phytoplankton. Cambridge University Press,
384 p., 1993.
[34] Wetzel, R.G. The Role of Carbon in Hardwater Marl Lakes. In G.E. Likens, ed. Nutrients
and Eutrophication: The limiting-Nutrient Controversy. Special Symposium, Amer. Soc.
Limnol. Oceanogr. 1, 84-97, 1972.
[35] Şen, B., Yıldız, Ş., Akbulut, A. Karamık Gölü Planktonundaki Bacillariophyta Üyeleri ve
Su Kalitesinin Değerlendirilmesi. XII. Ulusal Biyoloji Kongresi, 5-8 Temmuz, Edirne, 166-172,
1994.
Küçük Lota Gölünün (Hafik/SİVAS) Fiziksel-Kimyasal Özellikleri
53
[36] Legnerova, J. The Genera Ankistrodesmus Corda and Raphidium Ktitz. and Their Position
In The Family Ankistrodesmusmaceae, Preslia 37, l-8, 1965.
[37] Round, F.E. The Biology of the Algae, Second Edition, Edward Arnold (Publishers) Ltd,
London, 278p., 1973.
[38] Moss, B. A land awas with nutrients-the problem of eutrophication, Chemistry & Industry,
3 June 1996. 407-411p, 1996.
[39] Stevenson, R.J., Bothwell, M.B., Lowe, R.L. Algal Ecology freshwater Benthic
Ecosystems, Academic Press., p:753, 1996.
[40] John, D. M., Whitton, B. A., Brook, A. J. The Freshwater Algal Flora of the British Isles,
An identification guide to freshwater and terrestrial algae. Cambridge University Press, 702 p,
Cambridge UK. 2003.
[41] Şengül, F., Türkman, A. Su ve Atıksu Analizleri, TMMOB Çevre Mühendisleri Odası,
İzmir, 1998.
[42] Chapman, D., Kimstach, V. Chapter 3. Selection of Water Quality Variables. Water
Quality and Assesments-A Guide to Use of Biota, Sediments and Water in Enviromental
Monitoring, Second Edition, Chapman, D. (ed), pp 1-56, UNESCO / WHO/ UNEP, 1996.
[43] Goldman, C. R., Horne, A. J. Limnology. McGraw-Hill Int. Book Comp., 464 p., New
York., 1983.
[44] Taş, B. Derbent Baraj Gölü (Samsun) su kalitesinin incelenmesi. Ekoloji ve Çevre Dergisi
61, 6-15, 2006..
[45] Dişli, M., Akkurt, F., Alıcılar, A. Şanlıurfa Balıklıgöl Suyunun Bazı Kimyasal
Parametrelerinin Mevsimlere Göre Değişiminin Değerlendirilmesi. Gazi. Üniv. Müh. Mim. Fak.
Der. cilt. 19, No.3, 287-294 ,2004.

Thank you for copying data from http://www.arastirmax.com