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Year 2015, Volume: 4 Issue: 2, 1 - 4, 11.07.2016

Abstract

References

  • AOAC. 2000. Official methods of analysis. 17 th Edition Vol II. Association of Official Analytical Chemists, Washington D.C., USA.
  • Arasaki, A. and T. Arasaki. 1983. Vegetables from the sea. Japan Publications (U.S.A.), Incorporated, 39-42.
  • Chapman, V.J. and D.J. Chapman. 1980. Seaweeds and their uses (3):25-42 New York: Chapman & Hall.
  • Darcy-Vrillon, B. 1993. Nutritional aspects of the developing use of marine macroalgae for the human food industry. International Journal of Food Sciences and Nutrition, 44:23-35.
  • Folch, J., Lees, M. and G.H.S. Sloane-Stanley. 1957. A simple method for the isolation and purification of total lipids from animal tissues. The Journal of Biological Chemistry, 226:497-509.
  • Fonseca, P.C., Marinho, E., Carneiro, M.A. and W.S. Moreira. 2005. Seasonal variation in the chemical composition of two tropical seaweeds. Bioresource Technology, 97:18-24.
  • Güner, H. and V. Aysel. 1999. Tohumsuz bitkiler sistematiği. Ege Üniversitesi, Fen Fakültesi Kitaplar Serisi, 108.
  • McDermid, K.J. and B. Stuercke. 2003. Nutritional composition of edible Hawaiian seaweeds. Journal of Applied Phycology, 1:513-524.
  • Morales, M.A., Valdez, M.C., Dominguez, S.C., Acosta, B.G. and F.P. Gil. 2005. Chemical Composition and Microbiological Assays of Marine Algae Enteromorpha spp. as a potential food source. Journal of Food Composition and Analysis, 18:79-88.
  • Parekh, R.G., Maru, L.V. and M.J. Dave. 1977. Chemical composition of green seaweeds of Saurashtra Coast. Botanica Marina, 20:359-362.
  • Renaud, M.S. and T.J. Luong-Van. 2006. Seasonal variation in the chemical composition of tropical Australian marine macroalgae. Journal of Applied Phycology, 18:381-387.
  • Rodde, R., Varum, K., Larsen, B. and S. Myklestad. 2004. Seasonal and geographical variation in the chemical composition of the red alga Palmaria palmata (L.) Kuntze. Botanica Marina, 47:125-133.
  • Ruperez, P., Ahrazem, O. and J.A. Leal. 2002. Potential antioxidant capacity of sulfated polysaccharides from the edibic marine brown seaweed Fucus vesiculosus. Journal of Agricultural and Food Chemistry, 50:840–845.
  • Santelices, B. and M. Doty. 1989. A review of gracilaria farming. Aquaculture, 78:68-133.
  • Southgate, D.A.T. 1990. Dietary fiber and health. The royal society of chemistry in Cambridge, 23-25.
  • Wong, K.H. and C.K. Cheung. 2000. Nutritional evaluation of some subtropical red and green seaweeds: Part I-proximate composition, amino acid profiles and some physicochemical properties. Food Chemistry, 71:475-482.

Seasonal variation in ash, lipid and protein contents of Scytosiphon lomentaria Lyngbye and Palisada perforata Bory de Saint-Vincent along Çanakkale Strait (Dardanelles), Turkey

Year 2015, Volume: 4 Issue: 2, 1 - 4, 11.07.2016

Abstract

Algae are important components of the marine ecosystem community and have been a popular subject of research because of their biological and ecological roles in the ecosystem and several active algal-derived compounds. Nowadays, agricultural and industrial resources cannot meet the needs of rapidly increasing human population. In countries especially where agricultural production is insufficient, seafood utilization gains importance. Today, the focus of algal research is the utilization of algae as a rich protein source due to their high protein contents and for their nutritional values. Moreover, regular consumption of algae may prevent some diseases and may be important in the treatment of diseases. In the present study, seasonal and geographical changes in the lipid and protein content of two macro algae from Dardanelles were investigated. According to the results, for Scystosiphon simplicissimus, the highest protein level (23.56 ± 0.54%) was recorded in Gelibolu and the minimum protein level (9.87 ± 0.52%) was recorded in Eceabat. The minimum ash amount (20.40 ± 0.44%) was recorded in Eceabat, the highest ash amount (53.05 ± 0.13%) was recorded in Gelibolu. The highest lipid amount (3.53 ± 0.87%) was recorded in Eceabat, the minimum lipid amount (1.19 ± 0.28%) was recorded in İntepe. For Palisada perforata, the highest protein amount (14.81 ± 0.73%) was recorded in winter in Eceabat. The highest lipid level (5.59 ± 0.11%) was recorded in winter in Eceabat. The minimum lipid amount (0.33 ± 0.88%) was recorded in winter in Yapıldak. The minimum protein level (7.74 ± 0.34%) was recorded in summer in Yapıldak. The highest ash amount (33.52 ± 0.66%) was recorded in winter in Yapıldak and the minimum ash amount (22.47 ± 0.86%) was recorded in summer in Eceabat.

References

  • AOAC. 2000. Official methods of analysis. 17 th Edition Vol II. Association of Official Analytical Chemists, Washington D.C., USA.
  • Arasaki, A. and T. Arasaki. 1983. Vegetables from the sea. Japan Publications (U.S.A.), Incorporated, 39-42.
  • Chapman, V.J. and D.J. Chapman. 1980. Seaweeds and their uses (3):25-42 New York: Chapman & Hall.
  • Darcy-Vrillon, B. 1993. Nutritional aspects of the developing use of marine macroalgae for the human food industry. International Journal of Food Sciences and Nutrition, 44:23-35.
  • Folch, J., Lees, M. and G.H.S. Sloane-Stanley. 1957. A simple method for the isolation and purification of total lipids from animal tissues. The Journal of Biological Chemistry, 226:497-509.
  • Fonseca, P.C., Marinho, E., Carneiro, M.A. and W.S. Moreira. 2005. Seasonal variation in the chemical composition of two tropical seaweeds. Bioresource Technology, 97:18-24.
  • Güner, H. and V. Aysel. 1999. Tohumsuz bitkiler sistematiği. Ege Üniversitesi, Fen Fakültesi Kitaplar Serisi, 108.
  • McDermid, K.J. and B. Stuercke. 2003. Nutritional composition of edible Hawaiian seaweeds. Journal of Applied Phycology, 1:513-524.
  • Morales, M.A., Valdez, M.C., Dominguez, S.C., Acosta, B.G. and F.P. Gil. 2005. Chemical Composition and Microbiological Assays of Marine Algae Enteromorpha spp. as a potential food source. Journal of Food Composition and Analysis, 18:79-88.
  • Parekh, R.G., Maru, L.V. and M.J. Dave. 1977. Chemical composition of green seaweeds of Saurashtra Coast. Botanica Marina, 20:359-362.
  • Renaud, M.S. and T.J. Luong-Van. 2006. Seasonal variation in the chemical composition of tropical Australian marine macroalgae. Journal of Applied Phycology, 18:381-387.
  • Rodde, R., Varum, K., Larsen, B. and S. Myklestad. 2004. Seasonal and geographical variation in the chemical composition of the red alga Palmaria palmata (L.) Kuntze. Botanica Marina, 47:125-133.
  • Ruperez, P., Ahrazem, O. and J.A. Leal. 2002. Potential antioxidant capacity of sulfated polysaccharides from the edibic marine brown seaweed Fucus vesiculosus. Journal of Agricultural and Food Chemistry, 50:840–845.
  • Santelices, B. and M. Doty. 1989. A review of gracilaria farming. Aquaculture, 78:68-133.
  • Southgate, D.A.T. 1990. Dietary fiber and health. The royal society of chemistry in Cambridge, 23-25.
  • Wong, K.H. and C.K. Cheung. 2000. Nutritional evaluation of some subtropical red and green seaweeds: Part I-proximate composition, amino acid profiles and some physicochemical properties. Food Chemistry, 71:475-482.
There are 16 citations in total.

Details

Primary Language English
Subjects Maritime Engineering (Other)
Other ID JA42JF34BV
Journal Section Research Article
Authors

Latife Ceyda İrkin This is me

Hüseyin Erdugan This is me

Publication Date July 11, 2016
Submission Date July 11, 2016
Published in Issue Year 2015 Volume: 4 Issue: 2

Cite

APA İrkin, L. C., & Erdugan, H. (2016). Seasonal variation in ash, lipid and protein contents of Scytosiphon lomentaria Lyngbye and Palisada perforata Bory de Saint-Vincent along Çanakkale Strait (Dardanelles), Turkey. Marine Science and Technology Bulletin, 4(2), 1-4.
AMA İrkin LC, Erdugan H. Seasonal variation in ash, lipid and protein contents of Scytosiphon lomentaria Lyngbye and Palisada perforata Bory de Saint-Vincent along Çanakkale Strait (Dardanelles), Turkey. Mar. Sci. Tech. Bull. January 2016;4(2):1-4.
Chicago İrkin, Latife Ceyda, and Hüseyin Erdugan. “Seasonal Variation in Ash, Lipid and Protein Contents of Scytosiphon Lomentaria Lyngbye and Palisada Perforata Bory De Saint-Vincent Along Çanakkale Strait (Dardanelles), Turkey”. Marine Science and Technology Bulletin 4, no. 2 (January 2016): 1-4.
EndNote İrkin LC, Erdugan H (January 1, 2016) Seasonal variation in ash, lipid and protein contents of Scytosiphon lomentaria Lyngbye and Palisada perforata Bory de Saint-Vincent along Çanakkale Strait (Dardanelles), Turkey. Marine Science and Technology Bulletin 4 2 1–4.
IEEE L. C. İrkin and H. Erdugan, “Seasonal variation in ash, lipid and protein contents of Scytosiphon lomentaria Lyngbye and Palisada perforata Bory de Saint-Vincent along Çanakkale Strait (Dardanelles), Turkey”, Mar. Sci. Tech. Bull., vol. 4, no. 2, pp. 1–4, 2016.
ISNAD İrkin, Latife Ceyda - Erdugan, Hüseyin. “Seasonal Variation in Ash, Lipid and Protein Contents of Scytosiphon Lomentaria Lyngbye and Palisada Perforata Bory De Saint-Vincent Along Çanakkale Strait (Dardanelles), Turkey”. Marine Science and Technology Bulletin 4/2 (January 2016), 1-4.
JAMA İrkin LC, Erdugan H. Seasonal variation in ash, lipid and protein contents of Scytosiphon lomentaria Lyngbye and Palisada perforata Bory de Saint-Vincent along Çanakkale Strait (Dardanelles), Turkey. Mar. Sci. Tech. Bull. 2016;4:1–4.
MLA İrkin, Latife Ceyda and Hüseyin Erdugan. “Seasonal Variation in Ash, Lipid and Protein Contents of Scytosiphon Lomentaria Lyngbye and Palisada Perforata Bory De Saint-Vincent Along Çanakkale Strait (Dardanelles), Turkey”. Marine Science and Technology Bulletin, vol. 4, no. 2, 2016, pp. 1-4.
Vancouver İrkin LC, Erdugan H. Seasonal variation in ash, lipid and protein contents of Scytosiphon lomentaria Lyngbye and Palisada perforata Bory de Saint-Vincent along Çanakkale Strait (Dardanelles), Turkey. Mar. Sci. Tech. Bull. 2016;4(2):1-4.

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