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Effect of Herbicides on Chlorophyll-a, β- Caroten, Phycocyanin and Allophycocyanin Content of Anabaena sp

Year 2013, Volume: 7 Issue: 2, 20 - 27, 01.07.2013

Abstract

Pigments are frequently use in medicine, food, pharmacology, cosmetic, ink and textile preparations. Cyanobacteria have a great potential for use as pigment producer, because they are easy to grow with simple nutrient requirements, unlike other microbial systems and additionally have a large number of pigment. Cyanobacteria produce some pigments such as chlorophyll-a, carotenoids, phycobiliproteins. In addition, cyanobacteria can fix free atmospheric nitrogen. Environmental conditions affect the cyanobacterial growth and pigment production. Herbicides use commonly in paddy fields. Because of this, herbicides can affect to non-target microorganisms such as cyanobacteria. In this study, production of some pigments by Anabaena sp. GO10 were studied using different herbicides in BG-11 medium. As herbicide, fenoxaprop-p-ethyl and cyhalofop- butyl used in this study. In this work, different herbicide concentrations were applied on pigment production. Initial fenoxaprop-p-ethyl concentrations (6,25 mg/L) stimulated chlorophyll-a, β- caroten, phycocyanin and allophycocyanin contents. But increasing herbicide concentrations suppressed to the all of pigment contents. The all of pigment contents of Anabaena sp. GO10 completely suppressed by 100 mg/L fenoxaprop-p-ethyl concentration. The other herbicide is cyhalofop-butyl. Initial cyhalofop-butyl concentrations partly stimulated the pigment contents. But, the pigment contents of Anabaena sp. GO10 increased sharply by 25 mg/L cyhalofop-butyl concentrations. The all of pigment contents of Anabaena sp. GO10 completely repressed by 400 mg/L cyhalofop-butyl concentrations

Year 2013, Volume: 7 Issue: 2, 20 - 27, 01.07.2013

Abstract

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Other ID JA26SZ22VR
Journal Section Collection
Authors

G. Okmen This is me

O. Turkcan This is me

P. Erdal This is me

Publication Date July 1, 2013
Published in Issue Year 2013 Volume: 7 Issue: 2

Cite

APA Okmen, G., Turkcan, O., & Erdal, P. (2013). Effect of Herbicides on Chlorophyll-a, β- Caroten, Phycocyanin and Allophycocyanin Content of Anabaena sp. Journal of Applied Biological Sciences, 7(2), 20-27.
AMA Okmen G, Turkcan O, Erdal P. Effect of Herbicides on Chlorophyll-a, β- Caroten, Phycocyanin and Allophycocyanin Content of Anabaena sp. J.appl.biol.sci. July 2013;7(2):20-27.
Chicago Okmen, G., O. Turkcan, and P. Erdal. “Effect of Herbicides on Chlorophyll-A, β- Caroten, Phycocyanin and Allophycocyanin Content of Anabaena Sp”. Journal of Applied Biological Sciences 7, no. 2 (July 2013): 20-27.
EndNote Okmen G, Turkcan O, Erdal P (July 1, 2013) Effect of Herbicides on Chlorophyll-a, β- Caroten, Phycocyanin and Allophycocyanin Content of Anabaena sp. Journal of Applied Biological Sciences 7 2 20–27.
IEEE G. Okmen, O. Turkcan, and P. Erdal, “Effect of Herbicides on Chlorophyll-a, β- Caroten, Phycocyanin and Allophycocyanin Content of Anabaena sp”, J.appl.biol.sci., vol. 7, no. 2, pp. 20–27, 2013.
ISNAD Okmen, G. et al. “Effect of Herbicides on Chlorophyll-A, β- Caroten, Phycocyanin and Allophycocyanin Content of Anabaena Sp”. Journal of Applied Biological Sciences 7/2 (July 2013), 20-27.
JAMA Okmen G, Turkcan O, Erdal P. Effect of Herbicides on Chlorophyll-a, β- Caroten, Phycocyanin and Allophycocyanin Content of Anabaena sp. J.appl.biol.sci. 2013;7:20–27.
MLA Okmen, G. et al. “Effect of Herbicides on Chlorophyll-A, β- Caroten, Phycocyanin and Allophycocyanin Content of Anabaena Sp”. Journal of Applied Biological Sciences, vol. 7, no. 2, 2013, pp. 20-27.
Vancouver Okmen G, Turkcan O, Erdal P. Effect of Herbicides on Chlorophyll-a, β- Caroten, Phycocyanin and Allophycocyanin Content of Anabaena sp. J.appl.biol.sci. 2013;7(2):20-7.