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ALTERNATİF YAĞ BİTKİSİ: KETENCİK [Camelina sativa (L.) Crantz

AN ALTERNATIVE OILSEED CROP: CAMELIN A [Camelina sativa (L.) Crantz]

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Abstract (2. Language): 
Camelina is an ancient cultivated crop of the Brassicaceae family and an alternative oilseed crop for using marginal areas in Turkey. Camelina was extensively cultivated for oil production since prehistoric times, but camelina production gradually declined and it is currently not grown on a large scale. However, due to its markedly low environmental impact and to the universal applicability of the products, the crop deserves high attention. Camelina oil appears very attrac¬tive due to its special fatty acid composition. The ratio of unsaturated fatty acids is in higher amounts to compare with most common vegetable oils such as soybean oil, sunflower oil and rapeseed oil. Camelina oil is also qualitatively different from the less common vegetable oils with a high content of polyunsaturated fatty acids such as linseed with a content of 50-55% a-linolenic acid. Because of its special fatty acid composition camelina may become more commonly known and an important food oil source in the near future.
Abstract (Original Language): 
Ketencik Brassicaceae familyasında yer alan, eski bir kültür bitkisi olup, Türkiye'de marjinal alanlarını değerlendirebilecek alternatif bir yağ bitkisidir. Ketenciğin yağ elde etmek amacıyla tarih öncesinden beri kültürü yapılmıştır. Fakat ketencik üretimi zamanla yavaş yavaş azalmış ve günümüzde geniş alanlarda yetiştirilmemektedir. Bununla birlikte, düşük çevre isteği ve ürünlerinin yaygın olarak kullanılabilirliği sayesinde bitki büyük ilgi görmüştür. Ketencik yağının özel kompozisyonu çok cazip gözükmektedir. Ketencik yağının doymamış yağ asitleri oranı soya, ayçiçeği ve kolza yağı gibi yaygın olarak kullanılan bitkisel yağların doymamış yağ asitlerinin oranından fazladır. Ayrıca, ketencik yağı tipki keten yağı (% 50-55 a-linolenik asit ihtiva eden) gibi yüksek oranda çoklu doymamış yağ asitlerine sahiptir. Özel yağ asitleri kompozisyonundan dolayı ketencik, yakın zamanda, yaygın olarak bilinen ve önemli bir bitkisel yağ kaynağı haline gelecektir.
116-120

REFERENCES

References: 

Agegnehu, M., Honermeier, B.,
1997
. Effects of seeding rate and nitrogen fertilization on seed yield, seed quality and yield components of false flax (Camelina sative Crtz). Die Bodenkultur. 48 (1).
Angelini, G., Moscheni, E., Colonna, G., Belloni, P., Bonari, E., 1997. Variation in agronomic characteristics and seed oil composition of new oilseed crops in central İtaly. İndustrail Crops and Products 6: 313-322.
Aufhammer, W., 1998. Getreide-und Andere Körnerfruchtarten. Eugen Ulmer GmbH & Co. S 560.
Crowley, J., 1998. Evaluation of Camelina sativa as an alternative oilseed crop. Teagasic project report 4320. http://www.teagasc.ie/research/reports/crops.
Davis, P.H., 1965. Flora of Turkey, University of Edinburg.
Gehringer, A., Friedt, W., Lühs, W., Snowdon, R. J., 2006. Genetic mapping of agronomic traits in false falx (Camelina sativa). Genome. 49: 1555-1563.
Fogelfors, H., 1984. Useful weeds ? Part 5. Lantmannen (Sweden) 105, S. 28.
Jones, G., Valamoti, S.M., 2005. Lallemantia, an imported or introduced oil plant in Bronze Age Northern Greece", Vegetation History and Archaeobotany 14 (4): 571-577, DOI 10.1007/s00334-005-0004-z.
Korsrud, G.O., Keith, M.O., Bell, J.M., 1978. A comparison of the nutritional value of crambe and camelina seed meals with egg and casein. Can. J. Anim. Sci. 58: 493¬499.
Lühs,
Friedt
, 1994. The major oil crops. Designer Oil Crops: Breeding, Processing and Biotechnology. Verlagsgesellschaft mbH. S. 5-71.
Marquard, R., Kuhlmann, H., 1986. Investigations of productive capacity and seed quality of linseed dodder (Camelina sativa Crtz). Fette-Seifen-Anstrichmittel 88
pp 245-249.
Peredi, J., 1969. Fatty acid composition of the oils of Hungarian rape varieties and of other cruciferous plants, and the contents of isotiocyanates and vinyl thiooxazolidon of their meals. Olag Szappan Kozmetika 18, S. 67-76.
Plessers, A.G., McGregor, W.G., Carson, R.B., Nakoneshny, W., 1962. Species trials with oilseed
plants, II. Camelina. Can. J. Plant Sci. 42:452-459. Putnam, D.H., Budin, J.T., Field, L.A., Brene, W.M., 1993.
Camelina: a promising low-input oilseed. p. 314-322. In: J. Janick and J.E. Simon (eds.), New crops. Wiley, New
York.
dengesiz beslenmeden kaynaklanan
sağlı
k sorunlarının azaltılmasına katkıda bulunulabilir. İlave olarak, ketenciğin Omega-3 yağ asitlerinin katılması sonucu Omega-3 yağ asitleri bakımından zenginleştirilmiş besinlerin tüketilmesiyle beslenme kalitesini artırılabilir.
Sonuç
olarak
; besin ve besin endüstrisi dışında olmak üzere çok geniş kullanım potansiyeline sahip olması sayesinde ketencik geleceğin önemli alternatif yağ bitkileri arasında, yakın bir gelecekte, mutlaka hak ettiği yerini alacaktır.
Robinson, R.G., Nelson, W.W., 1975. Vegetable oil
replacements for petroleum oil adjuvants in herbicide sprays. Econ. Bot. 29: 146-151. Robinson, R.G., 1987. Camelina: A useful research crop and a potential oilseed crop. Minnesota Agr. Expt. Sta. Bul.
579 (AD-SB-3275).
Sang, J.P., Salisbury, P.A., 1987. Wild Crucifer species and
4-hydroxyglucobassicin. Cruciferae Newsl. 12, S. 113. Schuster, W.H., 1992. Ölpflanzen in Europa. DLG-Verlags-
Gmbh, S. 240.
Seehuber, R., Dambroth, M., 1983. Studies on genotypic variability of yield components in linseed (Linum usitatissumum L.), poppy (Papaver somniferum L.) and Camelina sativa Crtz. Landbauforschung Volkenrode (Germany) 33: 183-188.
Seehuber, R. 1984. Genotypic variation for yield- and quality-traits in poppy and false flax. Fette-Seifen-Anstrichmittel 86:177-180.
Seehuber, R., Dambroth, M., 1987. Development of basic populations of plant species suitable for the production of fatty acids, especially considering linseed, false flax and poppy. Landbauforsch. Voelkenrode (Germany) 37:219-223.
Seehuber, R., Vollmann, J., Dambroth, M., 1987.
Application of the single-seed-descent method in false flax to increase the yield level. Landbauforsch. Voelkenrode (Germany) 37:132-136.
Umarov, A.U., Chernenko, T.V., Markman, A.L., 1972. The
oils of some plants of the family cruciferae. Khimiya
Prirodnykh Soedinenii (USSR) 1: 24-27.
Vollmann, J., Damboeck, A., Eckl, A., Schrems, H., Ruckenbauer, P., 1996. Improvement of Camelina sativa, and under exploited oilseed. In Progress in New Crops. J. Janick (ed). ASHS Press, Alexandria, Va. S.
357-362.
Vollmann, J. , Grausgruber, H., Stift, G., Dryzhyruk, V., Lelley, T., 2005. Genetic diversity in camelina germplasm as revealed by seed quality characteristics and RAPD polymorphism. Plant Breeding 124, 446-453.
Zimmermann, H.G., Kuechler, M., 1961. Die Ertraege von Leindotter und Öllein und Untersuchungen Über den Einfluss der Saatstaerke auf den Anbauerfolg bei einer Landsorte und Zuchtstaemmen des Leindotters [Camelina sativa (L.) Cr.]. Albrecht-Thaer-Archiv
(Germany) 5:622-636.
Zubr, J., 1997. Oil-seed crop: Camelina sativa. Industrial Crops and Products 6, p 113-119.

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