Siyanobakteri Kaynaklı Toksin Tehlikesi
Year 2021,
Volume: 16 Issue: 1, 1 - 17, 21.01.2021
Doğanay Yüksel
,
Elif Çelik
,
Özlem Turgay
Abstract
Siyanobakteri kaynaklı toksin tehlikesi incelenmiştir. Siyanobakteriler Dünya atmosferinin oluşumuna ve azot fiksasyonuna önemli katkıda bulunan canlılar olmakla beraber insan ve hayvanlar için zehirli çeşitli sekonder metabolitler üretebilmektedirler. Yaklaşık 2.5 milyar yıl önce fotosentez yapma yeteneği kazandığı düşünülen siyanobakteriler dünya atmosferinin oksik duruma geçmesinde rol alan en ilkel fotosentetik canlılardır. Alg ve bakteri arası prokaryotik bir form olan siyanobakteriler dünya üzerinde çok çeşitli ve geniş habitatlara yayılmışlardır. Son yıllarda dünya genelindeki su kaynaklarında ortaya çıkan kirlilik sucul ekosistemlerde siyanobakterilerin aşırı üremelerine öncülük etmektedir. Siyanobakterilerin besin girdisinin yüksek olduğu sucul alanlarda aşırı çoğalmaları olgusu “alg patlaması (bloom)” olarak tanımlanmaktadır. Toksik türlerin de dahil olduğu alg patlamaları su kaynaklarının insan faaliyetleri için kullanımını sınırlandırmakta ve içme suyu güvenliğini tehdit etmektedir. Bu derlemede alg patlamaları ile neticelenen süreçteki mekanizmalar ve özellikleri, bazı siyanobakteriler tarafından üretilen siyanotoksinler ve etkileri, zararlı alg patlamalarını tetikleyebilen çevresel dinamikler ve alg patlamalarının henüz gerçekleşmeden önlenmesi veya devam eden alg patlamalarının kontrol altına alınması için uygulanabilecek olası tedbirler tartışılmıştır.
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Year 2021,
Volume: 16 Issue: 1, 1 - 17, 21.01.2021
Doğanay Yüksel
,
Elif Çelik
,
Özlem Turgay
References
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- Huisman, J., Codd, G.A., Paerl, H.W., Ibelings, B.W., Verspagen, J.M.H., and Visser, P.M., (2018). Cyanobacterial Blooms. Microbiology, 16:471-483.9.
- Humpage, A.R. and Falconer, I.R., (2003). Oral Toxicity of the Cyanobacterial Toxin Cylindrospermopsin in Male Swiss Albino Mice: Determination of No Observed Adverse Effect Level for Deriving a Drinking Water Guideline Value. Environmental Toxicology, 18(2):94-103.
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- İspirli, S., (2009). İzmir Tahtalı Baraj Gölü’nün Toksik Siyanobakteri Türleri ve Bazı Mikrosistin Varyantları Yönünden Araştırılması. Doktora Tezi. Ege Üniversitesi Fen Bilimleri Enstitüsü, İzmir, 77 sayfa.
- Janssen, E., (2019). Cyanobacterial Peptides Beyond Microcystins – A Review on Co-Occurrence, Toxicity and Challenges for Risk Assessment. Water Research. 151:488-499.
- Ji, X., Verspagen, J.M.H., Stomp, M., and Huisman, J., (2017). Competition Between Cyanobacteria and Green Algae at Low Versus Elevated CO2: Who Will Win, and Why? J. Exp. Bot. 68:3815–3828.
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- Jöhnk, K.D., (2008). Summer Heatwaves Promote Blooms of Harmful Cyanobacteria. Glob. Chang. Biol. 14:495–512.
- Kahraman, S.D. and Küplülü, Ö., (2012). Siyanobakteriler ve Toksinleri. Vet Hekim Der. Dergisi. 83(2):36-47.
- Krienitz, L. Ballot, A., Kotut, K., Wiegand, C., Pütz, S., Metcalf, J.S., Codd, A.G., and Pflugmacher, S., (2003). Contribution of Hot Spring Cyanobacteria to the Mysterious Deaths of Lesser Flamingos at Lake Bogoria, Kenya. FEMS Microbiology Ecology, 43:141-148.
- Lehman, P.W., (2017). Impacts of the 2014 Severe Drought on the Microcystis Bloom in San Francisco Estuary. Harmful Algae, 63:94–108.
- Lürling, M. and Faassen, E.J., (2012). Controlling Toxic Cyanobacteria: Effects of Dredging and Phosphorusbinding Clay on Cyanobacteria and Microcystins. Water Res. 46:1447–1459.
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