BibTex RIS Kaynak Göster
Yıl 2015, Cilt: 36 Sayı: 3, 550 - 562, 13.05.2015

Öz

Kaynakça

  • Askin, M.A., Balta, M.F., Tekintas, F.E., Kazankaya, A., Balta, F., 2007. Fatty acid composition affected by kernel weight in almond [Prunus dulcis (Mill.) D.A. Webb. genetic resources. J. Food Comp. Anal. 20, 7–12.
  • Abdallah, A., Ahumada, M.H. and Gradziel, T.M. 1998. Oil content and fatty acid composition of almond kernels from different genotypes and California production regions. J. Am. Soc. Hort. Sci. 123:1029–1033.
  • Beringer, H., and N.P. Saxena. 1968. Effect of temperature on the tocopherol content of seed oils. Z. Pflanzenern. Bodenk. 120:71–78.
  • Dicenta, F., Ortega, E., Ca´novas, J.A., Egea, J., 2002a. Self-pollination vs. cross- pollination in almond: pollen tube growth, fruit and fruit characteristics. Plant Breeding 121, 163–167.
  • Dogan, M. and Akgul, A. 2005. Fatty acid composition of some walnut (Juglans regia L.) cultivars from east Anatolia. Grasasy Aceites (Sevilla). 4: 328-331.
  • Dong-dong, C., Jin, H., Xin-xian, H., Xian-ju, W., Ya-jing, G and Zhou-fei ,W. 2008.Relationships between changes of kernel nutritive components and seed vigor during development stages of F1 seeds of sh2 sweet corn. Journal of Zhejiang University Science. Volume 9, Issue 12, pp 964-968.
  • Feng, C., LAN-JU, M, Xiao- long, A., Shu, G and Tang, C. 2011. Lipid Peroxidation and Antioxidant Responses during Seed Germination of Jatropha curcas. International journal of agriculture & Biology: (13) 25-30.
  • Garcia, J. M., I. T. Agar. and J. Streif. 1994. Lipid characteristics of kernels from different hazelnut cultivars. Journal of Agricultural and Forestry. 18:199-202.
  • García-López, C., N.Grané-Teruel, V. Berenguer-Navarro, J.E. García-García, and M.L. Martín-Carratalá. 1996. Major fatty acid composition of 19 almond cultivars of different origins. A chemometric approach. J. Agr. Food Chem. 46:963–967.
  • García-Pascual, P., M. Mateos, V. Carbonell, and D.M. Salazar. 2003. Influence of storage conditions on the quality of shelled and roasted almonds. Biosystems Eng. 84: 201–209.
  • Hallabo, S.A.S., El-Wakeil, F.A., Morsi, M., Khairy, S., 1975. Chemical and physical properties of apricot kernel oil and almond kernel oil. Egypt. J. Food Sci. 3, 1–5. Hassanein, M.M.M., 1999. Studies on non-traditional oils. I. Detailed studies on different lipid profiles of some Rosaceae kernel oils. Grasas y Aceites 50, 379–384.
  • Harwood,J. 1974. Lipid Synthesis By germinating soya bean. Photochemistry. vol. 14. pp. 1985-1990.
  • Hoppe A, Th eimer RR. Degradation of oil bodies isolated from cotyledons during germination of rapeseed seedlings. J Plant Physiol 151: 471-478, 1997.
  • Huang, lands grunwald, C. 1990. Lipid and Fatty Acid Changes during germination of Alfalfa Seeds. Photochemistry, Vol. 29, No. 5, pp. 1441-1445, Hyson, D.A., B.O. Schneeman, and P.A. Davis. 2002. Almonds and almond oil have similar effects on plasma lipids and LDL oxidation in healthy men and women. J. Nutr. 132:703–707.
  • Johansson, A., Laakso, P., Kallio, H., 1997. Characterization of seed oils of wild, edible Finish berries. Z. Lebensm. Unters. Forsch. A 204, 300–307.
  • Kamymak, H. 2012. The relationships between seed fatty acids profile and seed germination in cucurbit species. Žemdirbystė=Agriculture, vol. 99, No. 3. pp. 299–304.
  • Kester, D.E., Gradziel, T.M., Micke, W.C., 1994. Identifying pollen incompatibility groups in California almond cultivars. J. Am. Soc. Hort. Sci. 119, 106– 109.
  • Kodad O., Socias i Company R., Prats M.S. and López Ortiz M.C., 2006. Variability in tocopherol concentrations in almond oil and its use as a selection criterion in almond breeding. In: J. Hort. Sci. Biotechnol., 81, p. 501-507.
  • Kodad, O., R. Socias i Company, M.S. Prats, and M.C. López Ortiz. 2006. Variability in tocopherol concentrations in almond oil and its use as a selection criterion in almond breeding. J. Hort. Sci. Biotechnol. 81:501–507.
  • Kodak, O. and Socias, R. 2008. Fruit quality in almond as related to the type of pollination in self compatible gynotypes. J. Amer. Soc. Hort. 133(3): 320-326.
  • Mehran, M., Filsoof, M., 1974. Characteristics of Iranian almond nuts and oils. J. Am. Oil Chem. Soc. 51, 433–434.
  • Munshi1, S. K,. Sandhu1, S and Sharma1, S. 2007. Lipid Composition in fast and slow germinating Sunflower (Hellanthus annuus l.) Seeds. Gen. Appl. Plant Physiology. 33 (3-4), 235-246.
  • Offem, J., Egebe, E and Onen, E. 2006. Changes in lipid content and composition during germination of groundnuts. Journal of the Science of Food and Agriculture. Volume 62, Issue 2, 147–155.
  • Oukabli, A., Lansari, A., Loudiyi, W., Abousalim, A., 2001. Effets endogamiques sur la germination et la croissance de semis du cultivar autocompatible Tuono (Prunus dulcis). Fruits 56, 197–205.
  • Oukabli, A., Lansari, A., Wallali, D.L., Abousalem, A., Egea, J., Micheaux-Ferrier, N., 2000. Self and cross pollination effects on pollen tube growth and fertilization in self- compatible almond Prunus dulcis ‘Tuono’. J. Hort. Sci. Biotechnol. 75, 739– 744.
  • Ren, Y., K.W. Waldron, J.F. Pacy, and P.R. Ellis. 2001. Chemical and histochemical characterization of cell wall polysaccharides in almond seeds in relation to lipid bioavailability, pp. 448–452. In W. Pfannhauser, G.R. Fenwick, and S Khokhar (eds.), Biologically active phytochemicals in food. Royal Soc. Chemistry, Cambridge, UK.
  • Riazi, GH., M. Rahemi and Sh. Khanizadeh. 1996. Effects of selected pistachio pollen on developmen and quality of pistachio nuts of three commercially grown cultivars. Journal of Plant Nutrition. 19(3): 635-641.
  • Romero, M.P., M.J. Tovar, T. Ramos, and M.J. Motilva. 2003. Effect of crop season on the composition of virgin olive oil with protected designation of ‘Les Garrigues’. J. Am. Oil Chem. Soc. 80:423–430.
  • Salvo, F., G. Dugo, A.Cotroneo.1997 .Composition of almond oil. II. Distinction of sweet almond oil from blends with peach and apricot seed oil", Rivista Italiana delle Sostanze Grasse, Vol 57, No.:1, p. 24-26.
  • Socias i Company, R., and Alonso, J.M., 2004. Cross-incompatibility of ‘Ferragne` s’ and‘Ferralise’ and pollination efficiency for self-compatibility transmission in almond. Euphytica 135: 333–338.
  • Soler, L., Canellas, J., Saura-Calixto, F., 1988. Oil content and fatty acid composition of developing almond seeds. J. Agric. Food Chem. 36, 695–697.
  • Wanasundara, P.K., Wanasundara, U.N and Shahidi F. 1999. Changes in Flax (Linum usitatissimum L.) Seed Lipids during Germination. Canadian journal agricultural research.43- 49.
  • ng to water stress”, Indian Journal of Biology Technologly, 1, 44-49.

Changes in the quality of the fatty acids in almond breeding program strategy And grow

Yıl 2015, Cilt: 36 Sayı: 3, 550 - 562, 13.05.2015

Öz

Abstract. This study was conducted to evaluate the effect of pollen donor ( Eskandar  Tuono) to increase fatty acid changes almond seed germination before and after the hybridization was performed . Factorial in a randomized complete block design method comletley randomized design  during years 2011 and 2012 on the confluence of two varieties of almonds Eskandar and Tuono pollen was used  of sh-12 . In order to perform hybridization flowers Variety sh- 12 in the balloon were castrated. The pollen of the Skander and Tuono were collected pollen transfer was done at the right time Arriving hybrid fruit, seeds are collected and used to study sleep and study their properties, Beginning with a 2% solution of tetra-methyl fungicide Tyvram disulfide were sterilized for 2 minutes. The seeds of any combination of two of the 90 specimens (with skin and without skin), respectively. Changes in the fatty acid methyl oleate, which is one of the major fatty acids in peanut cultivars Tuono and Eskandar  with sh- 12 were studied before and after germination.. The results showed that 73.35% methyl oleate at the Skander before germination, After germination, the Tuono 76.37% and 76.70%, respectively, before and after germination and 77.37% respectively According to the study, an increase in fatty acids in the seeds of almonds and almond lead to improved nutritional value will increase its weight. According to the study, an increase in fatty acids in the seeds of almonds and almond lead to improved nutritional value will increase its weight Thus increasing the amount of acid methyl Lynvlyat pollen in both cross with theEskander and Tuono effective sh- 12 was evaluated anymore The effects of pollen at the intersection of Skander cross with sh-12 Lynvlyat methyl showed the highest rate chang.

Kaynakça

  • Askin, M.A., Balta, M.F., Tekintas, F.E., Kazankaya, A., Balta, F., 2007. Fatty acid composition affected by kernel weight in almond [Prunus dulcis (Mill.) D.A. Webb. genetic resources. J. Food Comp. Anal. 20, 7–12.
  • Abdallah, A., Ahumada, M.H. and Gradziel, T.M. 1998. Oil content and fatty acid composition of almond kernels from different genotypes and California production regions. J. Am. Soc. Hort. Sci. 123:1029–1033.
  • Beringer, H., and N.P. Saxena. 1968. Effect of temperature on the tocopherol content of seed oils. Z. Pflanzenern. Bodenk. 120:71–78.
  • Dicenta, F., Ortega, E., Ca´novas, J.A., Egea, J., 2002a. Self-pollination vs. cross- pollination in almond: pollen tube growth, fruit and fruit characteristics. Plant Breeding 121, 163–167.
  • Dogan, M. and Akgul, A. 2005. Fatty acid composition of some walnut (Juglans regia L.) cultivars from east Anatolia. Grasasy Aceites (Sevilla). 4: 328-331.
  • Dong-dong, C., Jin, H., Xin-xian, H., Xian-ju, W., Ya-jing, G and Zhou-fei ,W. 2008.Relationships between changes of kernel nutritive components and seed vigor during development stages of F1 seeds of sh2 sweet corn. Journal of Zhejiang University Science. Volume 9, Issue 12, pp 964-968.
  • Feng, C., LAN-JU, M, Xiao- long, A., Shu, G and Tang, C. 2011. Lipid Peroxidation and Antioxidant Responses during Seed Germination of Jatropha curcas. International journal of agriculture & Biology: (13) 25-30.
  • Garcia, J. M., I. T. Agar. and J. Streif. 1994. Lipid characteristics of kernels from different hazelnut cultivars. Journal of Agricultural and Forestry. 18:199-202.
  • García-López, C., N.Grané-Teruel, V. Berenguer-Navarro, J.E. García-García, and M.L. Martín-Carratalá. 1996. Major fatty acid composition of 19 almond cultivars of different origins. A chemometric approach. J. Agr. Food Chem. 46:963–967.
  • García-Pascual, P., M. Mateos, V. Carbonell, and D.M. Salazar. 2003. Influence of storage conditions on the quality of shelled and roasted almonds. Biosystems Eng. 84: 201–209.
  • Hallabo, S.A.S., El-Wakeil, F.A., Morsi, M., Khairy, S., 1975. Chemical and physical properties of apricot kernel oil and almond kernel oil. Egypt. J. Food Sci. 3, 1–5. Hassanein, M.M.M., 1999. Studies on non-traditional oils. I. Detailed studies on different lipid profiles of some Rosaceae kernel oils. Grasas y Aceites 50, 379–384.
  • Harwood,J. 1974. Lipid Synthesis By germinating soya bean. Photochemistry. vol. 14. pp. 1985-1990.
  • Hoppe A, Th eimer RR. Degradation of oil bodies isolated from cotyledons during germination of rapeseed seedlings. J Plant Physiol 151: 471-478, 1997.
  • Huang, lands grunwald, C. 1990. Lipid and Fatty Acid Changes during germination of Alfalfa Seeds. Photochemistry, Vol. 29, No. 5, pp. 1441-1445, Hyson, D.A., B.O. Schneeman, and P.A. Davis. 2002. Almonds and almond oil have similar effects on plasma lipids and LDL oxidation in healthy men and women. J. Nutr. 132:703–707.
  • Johansson, A., Laakso, P., Kallio, H., 1997. Characterization of seed oils of wild, edible Finish berries. Z. Lebensm. Unters. Forsch. A 204, 300–307.
  • Kamymak, H. 2012. The relationships between seed fatty acids profile and seed germination in cucurbit species. Žemdirbystė=Agriculture, vol. 99, No. 3. pp. 299–304.
  • Kester, D.E., Gradziel, T.M., Micke, W.C., 1994. Identifying pollen incompatibility groups in California almond cultivars. J. Am. Soc. Hort. Sci. 119, 106– 109.
  • Kodad O., Socias i Company R., Prats M.S. and López Ortiz M.C., 2006. Variability in tocopherol concentrations in almond oil and its use as a selection criterion in almond breeding. In: J. Hort. Sci. Biotechnol., 81, p. 501-507.
  • Kodad, O., R. Socias i Company, M.S. Prats, and M.C. López Ortiz. 2006. Variability in tocopherol concentrations in almond oil and its use as a selection criterion in almond breeding. J. Hort. Sci. Biotechnol. 81:501–507.
  • Kodak, O. and Socias, R. 2008. Fruit quality in almond as related to the type of pollination in self compatible gynotypes. J. Amer. Soc. Hort. 133(3): 320-326.
  • Mehran, M., Filsoof, M., 1974. Characteristics of Iranian almond nuts and oils. J. Am. Oil Chem. Soc. 51, 433–434.
  • Munshi1, S. K,. Sandhu1, S and Sharma1, S. 2007. Lipid Composition in fast and slow germinating Sunflower (Hellanthus annuus l.) Seeds. Gen. Appl. Plant Physiology. 33 (3-4), 235-246.
  • Offem, J., Egebe, E and Onen, E. 2006. Changes in lipid content and composition during germination of groundnuts. Journal of the Science of Food and Agriculture. Volume 62, Issue 2, 147–155.
  • Oukabli, A., Lansari, A., Loudiyi, W., Abousalim, A., 2001. Effets endogamiques sur la germination et la croissance de semis du cultivar autocompatible Tuono (Prunus dulcis). Fruits 56, 197–205.
  • Oukabli, A., Lansari, A., Wallali, D.L., Abousalem, A., Egea, J., Micheaux-Ferrier, N., 2000. Self and cross pollination effects on pollen tube growth and fertilization in self- compatible almond Prunus dulcis ‘Tuono’. J. Hort. Sci. Biotechnol. 75, 739– 744.
  • Ren, Y., K.W. Waldron, J.F. Pacy, and P.R. Ellis. 2001. Chemical and histochemical characterization of cell wall polysaccharides in almond seeds in relation to lipid bioavailability, pp. 448–452. In W. Pfannhauser, G.R. Fenwick, and S Khokhar (eds.), Biologically active phytochemicals in food. Royal Soc. Chemistry, Cambridge, UK.
  • Riazi, GH., M. Rahemi and Sh. Khanizadeh. 1996. Effects of selected pistachio pollen on developmen and quality of pistachio nuts of three commercially grown cultivars. Journal of Plant Nutrition. 19(3): 635-641.
  • Romero, M.P., M.J. Tovar, T. Ramos, and M.J. Motilva. 2003. Effect of crop season on the composition of virgin olive oil with protected designation of ‘Les Garrigues’. J. Am. Oil Chem. Soc. 80:423–430.
  • Salvo, F., G. Dugo, A.Cotroneo.1997 .Composition of almond oil. II. Distinction of sweet almond oil from blends with peach and apricot seed oil", Rivista Italiana delle Sostanze Grasse, Vol 57, No.:1, p. 24-26.
  • Socias i Company, R., and Alonso, J.M., 2004. Cross-incompatibility of ‘Ferragne` s’ and‘Ferralise’ and pollination efficiency for self-compatibility transmission in almond. Euphytica 135: 333–338.
  • Soler, L., Canellas, J., Saura-Calixto, F., 1988. Oil content and fatty acid composition of developing almond seeds. J. Agric. Food Chem. 36, 695–697.
  • Wanasundara, P.K., Wanasundara, U.N and Shahidi F. 1999. Changes in Flax (Linum usitatissimum L.) Seed Lipids during Germination. Canadian journal agricultural research.43- 49.
  • ng to water stress”, Indian Journal of Biology Technologly, 1, 44-49.
Toplam 33 adet kaynakça vardır.

Ayrıntılar

Bölüm Derleme
Yazarlar

Syied Hatef Gorishi

Tahereh Hasanlo Bu kişi benim

Ali Imani Bu kişi benim

Yayımlanma Tarihi 13 Mayıs 2015
Yayımlandığı Sayı Yıl 2015 Cilt: 36 Sayı: 3

Kaynak Göster

APA Hatef Gorishi, S., Hasanlo, T., & Imani, A. (2015). Changes in the quality of the fatty acids in almond breeding program strategy And grow. Cumhuriyet Üniversitesi Fen Edebiyat Fakültesi Fen Bilimleri Dergisi, 36(3), 550-562.
AMA Hatef Gorishi S, Hasanlo T, Imani A. Changes in the quality of the fatty acids in almond breeding program strategy And grow. Cumhuriyet Üniversitesi Fen Edebiyat Fakültesi Fen Bilimleri Dergisi. Mayıs 2015;36(3):550-562.
Chicago Hatef Gorishi, Syied, Tahereh Hasanlo, ve Ali Imani. “Changes in the Quality of the Fatty Acids in Almond Breeding Program Strategy And Grow”. Cumhuriyet Üniversitesi Fen Edebiyat Fakültesi Fen Bilimleri Dergisi 36, sy. 3 (Mayıs 2015): 550-62.
EndNote Hatef Gorishi S, Hasanlo T, Imani A (01 Mayıs 2015) Changes in the quality of the fatty acids in almond breeding program strategy And grow. Cumhuriyet Üniversitesi Fen Edebiyat Fakültesi Fen Bilimleri Dergisi 36 3 550–562.
IEEE S. Hatef Gorishi, T. Hasanlo, ve A. Imani, “Changes in the quality of the fatty acids in almond breeding program strategy And grow”, Cumhuriyet Üniversitesi Fen Edebiyat Fakültesi Fen Bilimleri Dergisi, c. 36, sy. 3, ss. 550–562, 2015.
ISNAD Hatef Gorishi, Syied vd. “Changes in the Quality of the Fatty Acids in Almond Breeding Program Strategy And Grow”. Cumhuriyet Üniversitesi Fen Edebiyat Fakültesi Fen Bilimleri Dergisi 36/3 (Mayıs 2015), 550-562.
JAMA Hatef Gorishi S, Hasanlo T, Imani A. Changes in the quality of the fatty acids in almond breeding program strategy And grow. Cumhuriyet Üniversitesi Fen Edebiyat Fakültesi Fen Bilimleri Dergisi. 2015;36:550–562.
MLA Hatef Gorishi, Syied vd. “Changes in the Quality of the Fatty Acids in Almond Breeding Program Strategy And Grow”. Cumhuriyet Üniversitesi Fen Edebiyat Fakültesi Fen Bilimleri Dergisi, c. 36, sy. 3, 2015, ss. 550-62.
Vancouver Hatef Gorishi S, Hasanlo T, Imani A. Changes in the quality of the fatty acids in almond breeding program strategy And grow. Cumhuriyet Üniversitesi Fen Edebiyat Fakültesi Fen Bilimleri Dergisi. 2015;36(3):550-62.