Estimation of Ecological Quality Using Aquatic Macrophytes in Lake Mogan

Müge Şanal; Birsel Köse; Tolga Coşkun; Nilsun Demı̇r

Research Article

Estimation of Ecological Quality Using Aquatic Macrophytes in Lake Mogan

Year 2015, Volume: 5 Issue: 4, 51 - 55, 31.12.2015

Müge Şanal Birsel Köse Tolga Coşkun Nilsun Demı̇r

Abstract

In this study, it was aimed to estimate the ecological quality according to aquatic macrophytes in shallow Lake Mogan. The abundance of submerged macrophytes were investigated in 2003 and 2013. Five species of submerged macrophytes (Ceratophyllum demersum L., Chara vulgaris L., Najas marina L., Myriophyllum spicatum L. and Stuckenia pectinata (L.) Börner) were identi ed. Ecological quality of Lake Mogan was estimated as bad in July 2013, while it was medium in July 2003.

Keywords

Ecological quality, Lake Mogan, Water Framework Directive, aquatic macrophyte

References

Anonim, 1993. Mogan Gölü Limnolojik Etüt Raporu. DSİ yayını, 212 s., Ankara.
Anonim, 1999. Gölbaşı Yerel Gündem 21. Mevcut Durum Raporu, 83 s., Ankara.Asaeda T, Trung VK, Monetunge J, 2000. Modeling the effects of macrophyte growth and decomposition on the nutrient budget in shallow lakes. Aquatic Botany, 68: 217-237.
Beklioğlu M, 2004. Sığ göl sulakalanları: ekoloji ötro kasyon ve restorasyon, ODTÜ, 119 s., Ankara.
Burnak SL, Beklioğlu M, 2000. Macrophyte-dominated Clearwater State of Lake Mogan. Turk J. Zool., 24: 305-313.
Can eld DE Jr. JV, Shireman DE, Colle WT, Haller CE, Watkins II, Maceina MJ, 1984. Prediction of chlorophyll a concentrations in Florida Lakes: importance of aquatic macrophytes. Can. J. Fish. Aquat. Sci., 41: 497-501.
Casper SJ, Krausch HD, 1980. Pteridophyta und Anthophyta. 1. Teil. Lycopodiaceae bis Orchidaceae. Süsswasser ora Von Mitteleuropa. Band 23, Gustav Fisher Verlag, Stuttgart, 403 p.
Casper SJ, Krausch HD, 1981. Pteridophyta und Anthophyta. 2. Teil. Saururaceae bis Asteraceae. Süsswasser ora Von Mitteleuropa. Band 24, Gustav Fisher Verlag, Stuttgart, 942 p.
Coops H, Boers P, Portielje R, Noordhuis R, Marcel van den Berg S, 2004. Veluwemeer Gölü’nün ekolojik restorasyonu (çeviri M. Beklioğlu), Sığ göl sulak alanları: ekoloji, ötro kasyon ve restorasyon, ODTÜ, 79-87 s., Ankara.
Demir AN, Fakıoğlu Ö, Dural B, 2014. Phytoplankton functional groups provide a quality assessment method by the Q assemblage index in Lake Mogan (Turkey). Turk. J. Bot., 38: 169-179.
Duarte CM, Kalff J, Peters RH, 1986. Patterns in biomass and cover of aquatic macrophytes in lakes. Can. J. Fish. Aquat. Sci., 43:1900-1908.
Fassett NC, 1966. A Manual of Aquatic Plants. 4th ed. Univ. Of Wisconsin Press, Wisconsin, 405 p.
Jeppesen E, Sammalkorpi I, Lauridsen TL, Jensen JP, Sondergaard M, 2004. Ilıman iklim kuşağındaki tatlı su sığ göllerinin özellikle biyomaniplasyonla restorasyonu (çeviri M. Beklioğlu), Sığ göl sulak alanları: ekoloji, ötro kaston ve restorasyon, ODTÜ, 7-22 s., Ankara
Karabulut Doğan Ö, 2007. Monitoring of water clarity and submerged and emergent plant coverages in shallow lake wetlands using remote sensing techniques. MSc Thesis. The Middle East Technical University, Ankara. 117 p.
Kisambira M, 2003. The impact of water level uctuations on the development of submerged plants and their role in the clear water state of Lake Mogan (Turkey). M.Sc. thesis. The Middle East Technical University, Ankara. 92 p.
Kohler A, 1978. Methoden der Kartierung von Flora und Vegetation von Susswasserbiotopen. Landschaft & Stadt 10: 73–85.
Köse B, 2005. Mogan Gölü sualtı makro tlerinde toprak üstü biyokütlenin mevsimsel değişimleri. Ankara Üniversitesi Fen Bilimleri Enstitüsü, Su ürünleri Anabilim Dalı, Yüksek Lisans Tezi, 72 s.
Melzer A, 1999. Aquatic macrophytes as tools for lake management. Hydrobiologia 395/396: 181-190.
Moss B, 2004. Sulak alanların ekonomik, kültürel, bilimsel ve koruma değerleri (çeviri M. Beklioğlu), Sığ göl sulak alanları: ekoloji, ötro kaston ve restorasyon, ODTÜ, 3-6 s., Ankara.
Prescott GW, 1973. Algae of the Western Great Lakes Area. 5th ed. W. M. C. Brown Co. Publ., Dubuque, 977 p.
Pulatsü S, Aydın F, 1997. Water quality and phosphorus budget of Mogan Lake, Turkey. Acta hydrochim. Hydrobiol., 25 (3): 128-134.
Schneider S, Melzer A, 2003. The Trophic Index of Macrophytes (TIM) – a New Tool for Indicating the Trophic State of Running Waters. Internat. Rev. Hydrobiol. 88: 49-67.
Seçmen Ö, Leblebici E, 1997. Türkiye Sulak Alan Bitkileri ve Bitki Örtüsü, Ege Üniversitesi Fen Fakültesi Yayınları No:158, İzmir.
Sheffer M, 1998. Ecology of Shallow Lakes. First Edition. Kluwer Academic Publishers, The Netherland 1-357 p.
Susamlı S, 1998. Mogan Gölü’nde (Ankara) su altı makro tlerinin balık-zooplankton ilişkisine ve su kalitesine etkileri. Gazi Üniversitesi Fen Bilimleri Enstitüsü, Yüksek Lisans Tezi, 68 s.
Tanyolaç J, Karabatak M, 1974. Mogan Gölünün Biyolojik ve Hidrobiyolojik Özellikleri. Tübitak Yay. No. 255, 50 s. TS EN 15460, 2008. Su Kalitesi - Göllerdeki Makro tlerin Araştırılması için Kılavuz Standard. Ankara, 20 s.
Topçu A, 2006. Mogan Gölü Litoral Sedimentte Fosforun Mevsimsel ve Yersel Değişimi ile Göle Salınım Potansiyelinin Araştırılması. Ankara Üniversitesi Fen Bilimleri Enstitüsü Su Ürünleri Anabilim Dalı, Doktora Tezi, 217s.
Van Donk E, Van de Bund WJ, 2002. İmpact of submerged macrophytes including charophytes on phyto and zooplankton communities: allelopaty versus other mechanisms. Aquatic Botany, 72: 261-274.
Westlake DF, 1986. The direct determination of biomas of aquatic macrophytes and measurement of underwater light. Crown copyright, HMSO, 45p., London.
Wetzel RG, 1983. Limnology. 2nd Edition, Saunders College, Philadelphia. 767 p.
WFD 2000. Water Framework Directive. 2000/60/EC. Directive of the European Parliament and of the Council of 23 Oct. 2000 establishing a Framework for Community action in the eld of water policy. Of cial Journal of European Communities, 72 p.
Yerli SV, 2002. Mogan Gölü havzası biyolojik zenginlikleri ve ekolojik yönetim planı. Çevre Bak. ÖÇKK Yay., Ankara, 166 s.

Mogan Gölü’nde Sucul Makro tlere Göre Ekolojik Kalitenin Tahmini

Year 2015, Volume: 5 Issue: 4, 51 - 55, 31.12.2015

Müge Şanal Birsel Köse Tolga Coşkun Nilsun Demı̇r

Abstract

Bu çalışmada, sığ bir göl olan Mogan Gölü’nde sucul makro tlere göre ekolojik kalitenin tahmin edilmesi
amaçlanmıştır. Makro tlerin bolluğu, 2003 ve 2013 yıllarında incelenmiştir. Mogan Gölü’nde sualtı makro tlerden
5 tür (Ceratophyllum demersum L., Chara vulgaris L., Najas marina L., Myriophyllum spicatum L. ve Stuckenia
pectinata (L.) Börner) teşhis edilmiştir. Mogan Gölü’nde Makro t İndeksine göre ekolojik kalite Temmuz 2003’de
orta olarak tahmin edilirken, Temmuz 2013’de kötü olarak bulunmuştur.

Keywords

Ekolojik kalite, Mogan Gölü, Su Çerçeve Direkti, sucul makrofit

References

Anonim, 1993. Mogan Gölü Limnolojik Etüt Raporu. DSİ yayını, 212 s., Ankara.
Anonim, 1999. Gölbaşı Yerel Gündem 21. Mevcut Durum Raporu, 83 s., Ankara.Asaeda T, Trung VK, Monetunge J, 2000. Modeling the effects of macrophyte growth and decomposition on the nutrient budget in shallow lakes. Aquatic Botany, 68: 217-237.
Beklioğlu M, 2004. Sığ göl sulakalanları: ekoloji ötro kasyon ve restorasyon, ODTÜ, 119 s., Ankara.
Burnak SL, Beklioğlu M, 2000. Macrophyte-dominated Clearwater State of Lake Mogan. Turk J. Zool., 24: 305-313.
Can eld DE Jr. JV, Shireman DE, Colle WT, Haller CE, Watkins II, Maceina MJ, 1984. Prediction of chlorophyll a concentrations in Florida Lakes: importance of aquatic macrophytes. Can. J. Fish. Aquat. Sci., 41: 497-501.
Casper SJ, Krausch HD, 1980. Pteridophyta und Anthophyta. 1. Teil. Lycopodiaceae bis Orchidaceae. Süsswasser ora Von Mitteleuropa. Band 23, Gustav Fisher Verlag, Stuttgart, 403 p.
Casper SJ, Krausch HD, 1981. Pteridophyta und Anthophyta. 2. Teil. Saururaceae bis Asteraceae. Süsswasser ora Von Mitteleuropa. Band 24, Gustav Fisher Verlag, Stuttgart, 942 p.
Coops H, Boers P, Portielje R, Noordhuis R, Marcel van den Berg S, 2004. Veluwemeer Gölü’nün ekolojik restorasyonu (çeviri M. Beklioğlu), Sığ göl sulak alanları: ekoloji, ötro kasyon ve restorasyon, ODTÜ, 79-87 s., Ankara.
Demir AN, Fakıoğlu Ö, Dural B, 2014. Phytoplankton functional groups provide a quality assessment method by the Q assemblage index in Lake Mogan (Turkey). Turk. J. Bot., 38: 169-179.
Duarte CM, Kalff J, Peters RH, 1986. Patterns in biomass and cover of aquatic macrophytes in lakes. Can. J. Fish. Aquat. Sci., 43:1900-1908.
Fassett NC, 1966. A Manual of Aquatic Plants. 4th ed. Univ. Of Wisconsin Press, Wisconsin, 405 p.
Jeppesen E, Sammalkorpi I, Lauridsen TL, Jensen JP, Sondergaard M, 2004. Ilıman iklim kuşağındaki tatlı su sığ göllerinin özellikle biyomaniplasyonla restorasyonu (çeviri M. Beklioğlu), Sığ göl sulak alanları: ekoloji, ötro kaston ve restorasyon, ODTÜ, 7-22 s., Ankara
Karabulut Doğan Ö, 2007. Monitoring of water clarity and submerged and emergent plant coverages in shallow lake wetlands using remote sensing techniques. MSc Thesis. The Middle East Technical University, Ankara. 117 p.
Kisambira M, 2003. The impact of water level uctuations on the development of submerged plants and their role in the clear water state of Lake Mogan (Turkey). M.Sc. thesis. The Middle East Technical University, Ankara. 92 p.
Kohler A, 1978. Methoden der Kartierung von Flora und Vegetation von Susswasserbiotopen. Landschaft & Stadt 10: 73–85.
Köse B, 2005. Mogan Gölü sualtı makro tlerinde toprak üstü biyokütlenin mevsimsel değişimleri. Ankara Üniversitesi Fen Bilimleri Enstitüsü, Su ürünleri Anabilim Dalı, Yüksek Lisans Tezi, 72 s.
Melzer A, 1999. Aquatic macrophytes as tools for lake management. Hydrobiologia 395/396: 181-190.
Moss B, 2004. Sulak alanların ekonomik, kültürel, bilimsel ve koruma değerleri (çeviri M. Beklioğlu), Sığ göl sulak alanları: ekoloji, ötro kaston ve restorasyon, ODTÜ, 3-6 s., Ankara.
Prescott GW, 1973. Algae of the Western Great Lakes Area. 5th ed. W. M. C. Brown Co. Publ., Dubuque, 977 p.
Pulatsü S, Aydın F, 1997. Water quality and phosphorus budget of Mogan Lake, Turkey. Acta hydrochim. Hydrobiol., 25 (3): 128-134.
Schneider S, Melzer A, 2003. The Trophic Index of Macrophytes (TIM) – a New Tool for Indicating the Trophic State of Running Waters. Internat. Rev. Hydrobiol. 88: 49-67.
Seçmen Ö, Leblebici E, 1997. Türkiye Sulak Alan Bitkileri ve Bitki Örtüsü, Ege Üniversitesi Fen Fakültesi Yayınları No:158, İzmir.
Sheffer M, 1998. Ecology of Shallow Lakes. First Edition. Kluwer Academic Publishers, The Netherland 1-357 p.
Susamlı S, 1998. Mogan Gölü’nde (Ankara) su altı makro tlerinin balık-zooplankton ilişkisine ve su kalitesine etkileri. Gazi Üniversitesi Fen Bilimleri Enstitüsü, Yüksek Lisans Tezi, 68 s.
Tanyolaç J, Karabatak M, 1974. Mogan Gölünün Biyolojik ve Hidrobiyolojik Özellikleri. Tübitak Yay. No. 255, 50 s. TS EN 15460, 2008. Su Kalitesi - Göllerdeki Makro tlerin Araştırılması için Kılavuz Standard. Ankara, 20 s.
Topçu A, 2006. Mogan Gölü Litoral Sedimentte Fosforun Mevsimsel ve Yersel Değişimi ile Göle Salınım Potansiyelinin Araştırılması. Ankara Üniversitesi Fen Bilimleri Enstitüsü Su Ürünleri Anabilim Dalı, Doktora Tezi, 217s.
Van Donk E, Van de Bund WJ, 2002. İmpact of submerged macrophytes including charophytes on phyto and zooplankton communities: allelopaty versus other mechanisms. Aquatic Botany, 72: 261-274.
Westlake DF, 1986. The direct determination of biomas of aquatic macrophytes and measurement of underwater light. Crown copyright, HMSO, 45p., London.
Wetzel RG, 1983. Limnology. 2nd Edition, Saunders College, Philadelphia. 767 p.
WFD 2000. Water Framework Directive. 2000/60/EC. Directive of the European Parliament and of the Council of 23 Oct. 2000 establishing a Framework for Community action in the eld of water policy. Of cial Journal of European Communities, 72 p.
Yerli SV, 2002. Mogan Gölü havzası biyolojik zenginlikleri ve ekolojik yönetim planı. Çevre Bak. ÖÇKK Yay., Ankara, 166 s.

There are 31 citations in total.

Details

Journal Section	Su Ürünleri / Fisheries
Authors	Müge Şanal This is me Birsel Köse This is me Tolga Coşkun This is me Nilsun Demı̇r This is me
Publication Date	December 31, 2015
Submission Date	June 10, 2015
Acceptance Date	October 8, 2015
Published in Issue	Year 2015 Volume: 5 Issue: 4

Cite

APA	Şanal M., Köse B., Coşkun T., Demı̇r N. (2015). Estimation of Ecological Quality Using Aquatic Macrophytes in Lake Mogan. Journal of the Institute of Science and Technology, 5(4), 51-55.
AMA	Şanal M, Köse B, Coşkun T, Demı̇r N. Estimation of Ecological Quality Using Aquatic Macrophytes in Lake Mogan. J. Inst. Sci. and Tech. December 2015;5(4):51-55.
Chicago	Şanal Müge, Köse Birsel, Coşkun Tolga, and Demı̇r Nilsun. “Estimation of Ecological Quality Using Aquatic Macrophytes in Lake Mogan”. Journal of the Institute of Science and Technology 5, no. 4 (December 2015): 51-55.
EndNote	Şanal M, Köse B, Coşkun T, Demı̇r N (December 1, 2015) Estimation of Ecological Quality Using Aquatic Macrophytes in Lake Mogan. Journal of the Institute of Science and Technology 5 4 51–55.
IEEE	Şanal M., Köse B., Coşkun T., and Demı̇r N., “Estimation of Ecological Quality Using Aquatic Macrophytes in Lake Mogan”, J. Inst. Sci. and Tech., vol. 5, no. 4, pp. 51–55, 2015.
ISNAD	Şanal Müge et al. “Estimation of Ecological Quality Using Aquatic Macrophytes in Lake Mogan”. Journal of the Institute of Science and Technology 5/4 (December 2015), 51-55.
JAMA	Şanal M, Köse B, Coşkun T, Demı̇r N. Estimation of Ecological Quality Using Aquatic Macrophytes in Lake Mogan. J. Inst. Sci. and Tech. 2015;5:51–55.
MLA	Şanal Müge et al. “Estimation of Ecological Quality Using Aquatic Macrophytes in Lake Mogan”. Journal of the Institute of Science and Technology, vol. 5, no. 4, 2015, pp. 51-55.
Vancouver	Şanal M, Köse B, Coşkun T, Demı̇r N. Estimation of Ecological Quality Using Aquatic Macrophytes in Lake Mogan. J. Inst. Sci. and Tech. 2015;5(4):51-5.

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