بررسی برخی از صفات ریختشناختی و فیتوشیمیایی میوه در ژنوتیپهای مختلف گیاه L. Ficus carica
الموضوعات :
زهرا کیخا
1
,
اسماعیل سیفی
2
,
فریال وارسته
3
,
عظیم قاسمنژاد
4
1 - دانشجوی کارشناسیارشد، گروه علوم باغبانی، دانشگاه علوم کشاورزی و منابع طبیعی گرگان، گرگان، ایران
2 - استادیار، گروه علوم باغبانی، دانشگاه علوم کشاورزی و منابع طبیعی گرگان، گرگان، ایران
3 - استادیار، گروه علوم باغبانی، دانشگاه علوم کشاورزی و منابع طبیعی گرگان، گرگان، ایران
4 - استادیار، گروه علوم باغبانی، دانشگاه علوم کشاورزی و منابع طبیعی گرگان، گرگان، ایران
تاريخ الإرسال : 22 الإثنين , رجب, 1436
تاريخ التأكيد : 14 الأحد , ذو الحجة, 1436
تاريخ الإصدار : 10 الأحد , صفر, 1437
الکلمات المفتاحية:
صفات ریختشناختی,
قند,
آنتوسیانین,
انجیر,
فنول,
فلاونوئید,
ملخص المقالة :
این تحقیق به منظور بررسی اثر مرحلهی رشد میوه و ژنوتیپ بر خصوصیات ریختشناختی و برخی از ترکیبات فیتوشیمیایی میوهی انجیر (Ficus carica) در منطقهی گرگان انجام شد. میوهها در چهار مرحلهی رشد و نمو از درختان سالم سه ژنوتیپ انجیر (گلبهار، قرمز جلین و رضوان) برداشت و صفات ریختشناختی و فیتوشیمیایی در آنها بر اساس دسکریپتور مخصوص انجیر و روشهای استاندارد اندازهگیری گردید. نتایج نشان داد که با رشد میوه بر طول و قطر میوه، طول گردن و طول بخش گوشتی میوه به طور معنیداری افزوده شد. در هر سه ژنوتیپ، نسبت قطر به طول میوه بین 0.9 تا 1.1 و در نتیجه شکل میوهها گرد بود. به علاوه، طی رشد، این نسبت افزایش یافت، در حالی که طول دم میوه تغییر معنیداری نکرد. از نظر میزان آنتوسیانین، بین ژنوتیپهای مورد مطالعه تفاوت وجود داشت، به طوری که میزان آنتوسیانین در میوههای سیاه رنگ ژنوتیپ گلبهار طی مراحل رشد افزایش یافت، ولی در ژنوتیپهای قرمز جلین و رضوان در مراحل پایانی رشد از میزان آن کاسته شد. از طرف دیگر، در هر سه ژنوتیپ، از میزان ترکیبات آنتیاکسیدانی، فنول و فلاونوئید کاسته و بر میزان قند کل میوه افزوده شد. از بین ژنوتیپهای مورد مطالعه، ژنوتیپ رضوان دارای بیشترین مقدار آنتوسیانین، فنول و فلاونوئید بود اما مقدار قند کل در آن در سطوح پایین تری قرار داشت.
المصادر:
Celik, H., Ozgen, M., Serce, S. and Kaya, C. 2008. Phytochemical accumulation and antioxidant capacity at four maturity stage of cranberry fruit. Scientia Horticulturae, 117: 345-348.
Conde, C., Silva, P. and Fontes, N. 2007. Grape development and wine quality. Global Science Book, pp: 1-22.
Du Toit, R., Volsteedt, Y. and Apostolides, Z. 2001. Comparison of the antioxidant content of fruits, vegetables and teas measured as vitamin C equivalents. Toxicology, 166:63-69.
Eberhardt, M.V., Lee, C.Y. and Liu, R.H. 2000. Antioxidant activity of fresh apples. Nature, 405: 903-904.
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Fawole, O.A. and Opara, U.L. 2013. Developmental changes in maturity indices of pomegranate fruit: A descriptive review. Scientia Horticlturae, 159: 152-161.
Gozlekci, S. and Kaynak, L. 2000. Physical and chemical changes during fruit development and flowering in pomegranate (Punica granatum) cultivar Hicaznar grown in Antalya region. CIHEAM, 79-85.
Hassanpour, A., Esmaiili, M., Modarres Motlagh, A., and Rahmani Didar, A. 2010. Changes in viscoelastic properties of thompson seedless grapes during ripening. Journal of Food Research, 20 (2): 133-145.
Hind, A. Bashir, A. and Abu-Goukh, A. 2003. Compositional changes during guava fruit ripening. Food Chemistry, 80: 557-563.
2003. Descriptors for Figs. International Plant Genetic Resources Institute, Rome, Italy. 52 p.
Kim, M.Y., Choi, S.W. and Chung, S.K. 2000. Antioxidative flavonoids from the garlic (Allium sativum) shoot. Food Science and Biotechnology, 9: 199-203.
Kulkarni, A.P. and Aradhya, S.M. 2005. Chemical changes and antioxidant activity in pomegranate arils during fruit development. Food Chemistry, 93: 319-324.
Labbe, M., Pena, A. and Saens, C. 2010. Antioxidant capacity and phenolic composition of juices from pomegranates stored in refrigeration, In: International Conference on Food Innovation.
Merken, H.M. and Beecher, G.R. 2000. Measurement of food flavonoids by high performance liquid chromatography: a review. Journal of Agricultural and Food Chemistry, 48: 577-599.
Miura,, Kondo, K., Saito, T., Shimada, H., Fraser, P.D. and Misawa, N. 1998. Production of carotenoids lycopene, β-caroten and astaxanthin in the food yeast Candida utilise. Apple. Environmental Microbiology, 64: 1226.
Omokolo, N.D., Tsala, N.G. and Djocgoue, P.F. 1996. Change in carbohydrate in, amino acid and phenol content in cocoa pods from three clones after infection and dwarfing in tomato seedlings. Plant Physiology and Biochemistry, 41: 283-288.
Salmani, A. 2012. The effect of fruit harvesting time on the quantity and quality of oil and the percent of seed germination in olive cultivar Koroneiki. M.Sc thesis, Gorgan University of Agricultural Sciences and Natural Resources, Gorgan, Iran.
Silva, R.H., Abilio, V.C., Takatsu, A.L., Kameda, S.R., Grassl, C., Chehin, A.B., Medrano, W.A., Calzavara, M.B., Registro, S., Andersen, M.L., Machado, R.B., Carvalho, R.C., Ribeiro, A., Tufik, S. and Frussa-Filho, R. 2004. Role of hippocampal oxidative stress in memory deficits induced by sleep deprivation in mice. Neuropharmacology, 46: 895-903.
Solomon, A., Golubowicz, S., Yablowicz, Z., Grossman, S., Bergman, M., Gottlieb, H., Altman, A., Kerem, Z. and Flaishman, M.A. 2006. Antioxidant activities and anthocyanin content of fresh fruits of common fig (Ficus carica). Journal of Agricultural and Food Chemistry, 54: 7717-7723.
Su, Q., Rowley, K.G., Itsiopoulos, C. and Dea, O’K. 2002. Identification and quantitation of major carotenoids in selected components of the mediterranean diet: green leafy vegetables, figs and olive oil. European Journal of Clinical Nutrition, 56: 1149-1154.
Varaste, V., Arzani, K., and Zamani, Z. 2008. An Investigation of the Physicochemical Seasonal Changes of Pomegranate (Punica granatum) Fruit cv. Malas-e-Torsh-e-Saveh'. Iranian Journal of Horticultural Sciences, 39 (1): 29-38.
Wanger, G.J. 1979. Content and vacuole/extra vacuole distribution of neutral sugars free amino acids, and anthocyanins in protoplast. Plant physiology, 64:88-93.
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Celik, H., Ozgen, M., Serce, S. and Kaya, C. 2008. Phytochemical accumulation and antioxidant capacity at four maturity stage of cranberry fruit. Scientia Horticulturae, 117: 345-348.
Conde, C., Silva, P. and Fontes, N. 2007. Grape development and wine quality. Global Science Book, pp: 1-22.
Du Toit, R., Volsteedt, Y. and Apostolides, Z. 2001. Comparison of the antioxidant content of fruits, vegetables and teas measured as vitamin C equivalents. Toxicology, 166:63-69.
Eberhardt, M.V., Lee, C.Y. and Liu, R.H. 2000. Antioxidant activity of fresh apples. Nature, 405: 903-904.
Ebrahimzade, M.A., Pourmorad, F. and Hafezi, S. 2008. Antioxidant Activities of Iranian Corn Silk. Turkish Journal of Biology, 32: 43-49.
2014. Agricultural data. Faostat.fao.org/faostat/collections? subset=agriculture, Aug. 2014.
Fawole, O.A. and Opara, U.L. 2013. Developmental changes in maturity indices of pomegranate fruit: A descriptive review. Scientia Horticlturae, 159: 152-161.
Gozlekci, S. and Kaynak, L. 2000. Physical and chemical changes during fruit development and flowering in pomegranate (Punica granatum) cultivar Hicaznar grown in Antalya region. CIHEAM, 79-85.
Hassanpour, A., Esmaiili, M., Modarres Motlagh, A., and Rahmani Didar, A. 2010. Changes in viscoelastic properties of thompson seedless grapes during ripening. Journal of Food Research, 20 (2): 133-145.
Hind, A. Bashir, A. and Abu-Goukh, A. 2003. Compositional changes during guava fruit ripening. Food Chemistry, 80: 557-563.
2003. Descriptors for Figs. International Plant Genetic Resources Institute, Rome, Italy. 52 p.
Kim, M.Y., Choi, S.W. and Chung, S.K. 2000. Antioxidative flavonoids from the garlic (Allium sativum) shoot. Food Science and Biotechnology, 9: 199-203.
Kulkarni, A.P. and Aradhya, S.M. 2005. Chemical changes and antioxidant activity in pomegranate arils during fruit development. Food Chemistry, 93: 319-324.
Labbe, M., Pena, A. and Saens, C. 2010. Antioxidant capacity and phenolic composition of juices from pomegranates stored in refrigeration, In: International Conference on Food Innovation.
Merken, H.M. and Beecher, G.R. 2000. Measurement of food flavonoids by high performance liquid chromatography: a review. Journal of Agricultural and Food Chemistry, 48: 577-599.
Miura,, Kondo, K., Saito, T., Shimada, H., Fraser, P.D. and Misawa, N. 1998. Production of carotenoids lycopene, β-caroten and astaxanthin in the food yeast Candida utilise. Apple. Environmental Microbiology, 64: 1226.
Omokolo, N.D., Tsala, N.G. and Djocgoue, P.F. 1996. Change in carbohydrate in, amino acid and phenol content in cocoa pods from three clones after infection and dwarfing in tomato seedlings. Plant Physiology and Biochemistry, 41: 283-288.
Salmani, A. 2012. The effect of fruit harvesting time on the quantity and quality of oil and the percent of seed germination in olive cultivar Koroneiki. M.Sc thesis, Gorgan University of Agricultural Sciences and Natural Resources, Gorgan, Iran.
Silva, R.H., Abilio, V.C., Takatsu, A.L., Kameda, S.R., Grassl, C., Chehin, A.B., Medrano, W.A., Calzavara, M.B., Registro, S., Andersen, M.L., Machado, R.B., Carvalho, R.C., Ribeiro, A., Tufik, S. and Frussa-Filho, R. 2004. Role of hippocampal oxidative stress in memory deficits induced by sleep deprivation in mice. Neuropharmacology, 46: 895-903.
Solomon, A., Golubowicz, S., Yablowicz, Z., Grossman, S., Bergman, M., Gottlieb, H., Altman, A., Kerem, Z. and Flaishman, M.A. 2006. Antioxidant activities and anthocyanin content of fresh fruits of common fig (Ficus carica). Journal of Agricultural and Food Chemistry, 54: 7717-7723.
Su, Q., Rowley, K.G., Itsiopoulos, C. and Dea, O’K. 2002. Identification and quantitation of major carotenoids in selected components of the mediterranean diet: green leafy vegetables, figs and olive oil. European Journal of Clinical Nutrition, 56: 1149-1154.
Varaste, V., Arzani, K., and Zamani, Z. 2008. An Investigation of the Physicochemical Seasonal Changes of Pomegranate (Punica granatum) Fruit cv. Malas-e-Torsh-e-Saveh'. Iranian Journal of Horticultural Sciences, 39 (1): 29-38.
Wanger, G.J. 1979. Content and vacuole/extra vacuole distribution of neutral sugars free amino acids, and anthocyanins in protoplast. Plant physiology, 64:88-93.