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Yağ Gülü (Rosa damascena Miller)’nde GA3 Uygulamalarının Verim ve Kalite Özelliklerine Etkisi

Year 2022, Volume: 26 Issue: 3, 490 - 501, 20.12.2022
https://doi.org/10.19113/sdufenbed.1118475

Abstract

Çalışmada yağ gülünde farklı dozlarda GA3 uygulamasının verim ve kalite özelliklerine üzerine etkisinin belirlenmesi amaçlanmıştır. Çalışmada yağ gülü bitkilerine tomurcuklanmaya başladığı ve pembe renkli petallerin sepallerden çıkmaya başladığı dönemde ve bu tarihten bir hafta sonra beş farklı dozda (0, 25, 50, 75, 100 ppm) GA3 uygulanmıştır. Bitkilerden çiçeklenme başında (1-7. gün), ortasında (8-14. gün) ve sonunda (15-21. gün) olmak üzere üç dönemde çiçek hasadı yapılmıştır. Bitkilerde çiçek çapı, petal oranı, 100 çiçek ağırlığı ile çiçek ve uçucu yağ verimi 50 ppm GA3 dozuna kadar artış göstermiştir. Çiçeklerdeki uçucu yağ oranı 25 ppm dozuna kadar artmış, sonraki dozlarda ise azalmaya başlamıştır. Uçucu bileşenleri, çiçeklenme başlangıcında kontrolden 100 ppm uygulamasına kadar geraniol oranı % 36.69’dan %21.16’ya, çiçeklenme ortasında %27.34’ten %12.93’e ve çiçeklenme sonunda ise %22.33’ten %21.14’e gerilemiştir. Çiçeklenme başlangıcında nonadesen ve nonadesan oranı kontrolden 100 ppm dozuna kadar sırasıyla % 1.44’ten %2.47’ye ve %16.50’ten %23.58’e, çiçeklenme ortasında %1.69’dan % 2.66’ya ve %17.15’ten %21.23’e yükselmiştir. Çiçeklenme sonunda ise nonadesen oranı %2.56’dan %1.87’ye düşerken, nonadesan oranı %20.66’tan %29.45’e yükselmiştir. Sonuç olarak; yağ gülünde yüksek çiçek ve uçucu yağ verimi ile uçucu yağ bileşenlerinin elde edilmesinde 25 ppm GA3 uygulanması önerilebilir.

References

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  • [2] Anonim, 2021. Türkiye İstatistik Kurumu. http://www.tuik.gov.tr (Son erişim tarihi: 31.12.2021).
  • [3] Aydinli, M, Tutas, M. 2003. Production of Rose Absolute from Rose Concrete. Flavour and Fragrance Journal, 18 (1), 26-31.
  • [4] Kürkçüoğlu, M., Başer, K.H.C. 2003. Studies on Turkish Rose Concrete, Absolute and Hydrosol. Chemistry of Natural Compounds, 39(5), 457-464.
  • [5] Ayci, F., Aydinli, M., Bozdemir, O. A., Tutas, M. 2005. Gas Chromotographic Investigation of Rose Concrete, Absolute and Solid Residue. Flavour and Fragrance Journal, 20, 481-486.
  • [6] Prins, C.L., Vieira. I.J.C., Freitas, S.P. 2010. Growth Regulators and Essential Oil Production. Brazilian Journal of Plant Physiology, 22(2), 91-102.
  • [7] El-Keltawi, N.E., Croteau, R. 1987. Influence of Foliar Applied Cytokinins on Growth and Essential Oil Content of Several Members of the Lamiaceae. Phytochemistry, 26(4), 891-895.
  • [8] Ansari, S.H., Qadry, J.S., Jain, V.K. 1988. Effect of Plant Hormones on the Growth and Chemical Composition of Volatile Oil of Cymbopogon. lndian Journal of Forestry, 11(2), 143-145.
  • [9] Farooqi, A.H.A., Sharma, S., Naqvi, A.A., Khan, A. 1993. The Effect of Kinetin on Flower and Oil Production in Rosa damascena. Journal of Essential Oil Research, 5(3), 305-309.
  • [10] Sharma, M.L. 1982. Cultivation of Rose and Manufacture of its Products in India. In: CK Atal and BM Kapur, eds. Cultivation and utilization of aromatic plants (pp. 537–544). Jammu, India: Regional Research Labroatory, CSIR.
  • [11] Farooqi, A.H.A., Shukla, Y.N., Sharma, S., Bansal, R.P. 1994. Relationship Between Gibberellin and Cytokinin Activity and Flowering in Rosa damascena Mill. Plant Growth Regulation, 14, 109-113.
  • [12] Farooqi, A.A., Srikant, S. 1990. Effect of Growth Retardants on Flowering of Rosa damascena Mill. Proceedings of the international congress of plant physiology, New Dehli, India, 2, 1355-1369.
  • [13] Bernier, G. 1988. The Control of Floral Evacation and Morphogenesis. Annual Reviews of Plant Physiology and Plant Molecular Biology, 39(1), 175-219.
  • [14] Safari, V.R., Khalighi, A., Lesani, H., Babalar, M., Obermaier, J.F. 2004. Effects of different plant growth regulators and time of pruning on yield components of Rosa damascena Mill. International Journal of Agriculture & Biology, 6(6), 1040-1042.
  • [15] European Pharmacopoeia, 1975. Maissonneuve Sainte Ruffine, 3, 68.
  • [16] Khan, M.A., Rehman, S.U. 2005. Extraction and Analysis of esSential Oil of Rosa Species. International Journal of Agriculture And Biology, 7, 973-974.
  • [17] SAS Institute, 1999. INC SAS/STAT User’s Guide Release 7.0, Cary, NC, USA.
  • [18] Hackett, W.P. 1987. Juvenility, Maturation and Rejuvenation in Woody Plants. Horticultural Reviews, 7, 109-155.
  • [19] Colasanti, J., Sundaresan, V. 2000. ‘Florigen’ Enters the Molecular Age: Long-Distance Signals that Cause Plants to Flower. Trends in Biochemical Sciences 25(5), 236-240.
  • [20] Zhao, D. Yu, Q. Chen, C., Ma, H. 2002. Genetic Control of Reproductive Meristems. In McManus MT and Veit BE (eds). Meristematic Tissues in Plant Growth and Development (pp. 89-141). Sheffield Academic Press. Sheffield.
  • [21] Mor, Y., Zieslin, N. 1987. Plant Growth Regulators in Rose Plants, Holticultural Reviews, 9, 53-73.
  • [22] Bianco, J., Garello, G. & Le Pege-DEgivry M.T. (1991). Gibberellins and Abscisic Acid in Reproductive Organs of Rosa hybrida. Acta Horticulturae, 298, 75-82.
  • [23] Le Bris, (2003). Hormones in Growth and Development. In: Encyclopedia of Rose Sciences (pp. 364-369). Elsevier Academic Press.
  • [24] Agbaria, H., Zamski, E., Zieslin, N. 2001. Effects of Gibberellin on Senescence of Rose Flower Petals. Acta Horticulturae, 547, 269-279.
  • [25] Arun, D.S., Ashok, A.D., Rengasamy, P. 2000. Effect of Some Growth Regulating Chemicals on Growth and Flowering of Rose ’First red’ under Greenhouse Conditions. Journal of Ornamental Horticulture, 3(1), 51-53.
  • [26] Sadanand, D.A., Ashok, A.D., Rangaswamy, P. 2000. Effect of Some Growth Regulating Chemicals on Growth and Flowering of Rose cv. First Red under Greenhouse Conditions. Journal of Ornamental Horticulture, 3(1), 51-53.
  • [27] Baydar H., Kazaz S., Erbaş S. 2016. Variations in Floral Characteristics and Scent Composition and the Breeding Potential in Seed Derived Oil Bearing Roses (Rosa damascena Mill). Turkish Journal of Agriculture and Forestry, 40, 560-569.
  • [28] Baydar H., Kazaz S., Erbaş S. 2013. Yağgülü (Rosa damascena Mill)’nde Morfogenetik Ontogenetik ve Diurnal Varyabiliteler. Süleyman Demirel Üniversitesi Ziraat Fakültesi Dergisi, 8, 1-11.
  • [29] Singh, A.K., Kumar, P., Sisodia, A., Padhi, M. 2019. Effect of GA3 and Salicylic Acid on Growth and Flowering in Rose Grown under Protected Condition. Journal of Pharmacognosy and Phytochemistry, 8(5), 462-465.
  • [30] Hashemabadi, D., Zarchini, M. 2010. Yield and Quality Management of Rose (Rosa hybrida cv. Poison) with Plant Growth Regulators. Plant Omics, 3(6), 167-171.
  • [31] Misra, A., Srivastava, N.K., Kumar, R., Khan, A. 2005. Effect of Palcobutrazol (PP333) on Flower Quality and Quantity of Rosa damascena. Communications in Soil Science and Plant Analysis, 36, 477-486.
  • [32] Aziz, S. 2014. Effect of Foliar Application of GA3 and Macronutrients on Growth and flowering of Rose Species. M.Sc. Thesis, University of Agriculture, Instute of Horticultural Sciences Faisalabad, Pakistan.
  • [33] Rohamare, Y,. Nikam, T.D., Dhumal, K.N. 2013. Effect of Foliar Application of Plant Growth Regulators on Growth, Yield and Essential Oil Components of Ajwain (Trachyspermum ammi L.). International Journal of Seed Spices, 3(2), 34-41.
  • [34] Rani, P., Singh, P. 2013. Impact of Gibberellic Acid Pre-Treatment on Growth and Flowering of Tuberose (Polianthes tuberosa L.) cv. Prajwal. Journal of Tropical Plant Physiology, 5(1), 33-41.
  • [35] Muthukumar, S., Ponnuswami, V., Jawaharlal, M., Ramesh, A.K. 2012. Effect of Plant Growth Regulators on Growth, Yield and Exportable Quality of Cut Roses. International Journal of Science and Research, 7(4), 733-738.
  • [36] Baydar, H., Kazaz, S. 2013. Yağ Gülü & Isparta Gülcülüğü. Gülbirlik Yayınları, (1), Isparta.
  • [37] Thakur, M., Kumar, R. 2020. Foliar Application of Plant Growth Regulators Modulates the Productivity and Chemical Profile of Damask Rose (Rosa damascena Mill.) under Mid-Hill Conditions of the Western Himalaya. Industrial Crops & Products, 158, 1-9.
  • [38] Saffari, V.R., Khalighi, A., Lesani, H., Babalar, M., Obermaier, J.F. 2004. Effects of Different Plant Growth Regulators and Time of Pruning on Yield Components of Rosa damascena Mill. International Journal of Agriculture & Biology, 6(6), 1040-1042.
  • [39] Roberts, A.V., Blake, P.S., Lewis, R., Taylor, J.M., Dunstan, D.J. 1999. The Effect of Gibberellins on Flowering in Roses. Journal of Plant Growth Regulation, 18(3), 113-119.
  • [40] Nanjan, K., Muthuswamy, S. 1975. Growth and Flowering of Edward Rose (Rosa barboniana Desp.) to Certain Growth Regulant Spray. South Indian Horticulture, 23, 94-99.
  • [41] Maharana, T., Pani, A. 1982. Effect of Post Pruning Spraying of Different Growth Regulators on the Growth and Flowering of Hybrid Rose. Bangladesh Horticulture, 10(1), 87-88.
  • [42] Bhattacharjee, S.K., Ranjan, R. 1995. Influence of Growth Regulators on Rosa hybrida cv. "Super Star". Scientific Horticulture, 4, 151-156.
  • [43] Bhadacharjee, S.K. 1993. Studies on the Effect of Gibberellic Acid on Growth, Flowering, Flower Quality and Post-Harvest Life of Rosa hybrida cv. "Raktagandha". Indian Rose Annual, 11, 77-83.
  • [44] Bhattacharjee, S.K., Singh, U.C. 1995. Growth and Flowering Response of Rosa hybrida ‘Raktagandha’ to Certain Growth Regulator Sprays. The Orissa Journal of Horticulture, 83, 275-281.
  • [45] Göktürk Baydar N., Baydar, H. 2005. The Effects of Harvest Date Fermentation Duration and Tween 20 Treatment on Essential Oil Content and Composition of Industrial Oil Rose (Rosa damascena Mill.) Industrial Crops and Products, 21, 251-255.
  • [46] Garnero, J., Buil, P. 1976. Evolution of the Composition of the Rose Essential Oils and Concrete during the Production Campaign. Riv. Ital Ess Prof Peante Offic Aromic Sap, Aerosol, 58, 537-540.
  • [47] Rusanov, K., Kovacheva, N., Rusanova, M., Atanassov, I. 2012. Reducing Methyl Eugenol Content in Rosa damascena Mill. Rose Oil by Changing the Traditional Rose Flower Harvesting Practices. European Food Research and Technology, 234(5), 921-926.
  • [48] Baydar H., Erbaş S. 2016. Yağ Gülü (Rosa damascena Mil)’nde Tepe Boşluğu Katı Faz Mikro Ekstraksiyonu HS SPME ve Konvansiyonel Su Distilasyonu Yöntemleri ile Elde Edilen Uçucu Bileşenlerin Karşılaştırılması. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 20, 27-36.

The Effect of GA3 Applications on Yield and Quality Properties in Oil Bearing Rosa (Rosa damascena Miller)

Year 2022, Volume: 26 Issue: 3, 490 - 501, 20.12.2022
https://doi.org/10.19113/sdufenbed.1118475

Abstract

The aim of the study was to investigate the effect of GA3 applications on yield and quality characteristics. In the study, GA3 was applied to oil rose plants at five different doses (0, 25, 50, 75 and 100 ppm) when budding and pink petals began to appear on sepals and one week after this date. Flowers were picked at the beginning of flowering (1-7 days), middle (8-14 days) and at the end of the (15-21 days) flowering season. Flower diameter, petal ratio, 100-flower weight and flower and essential oil yield increased up to 50 ppm GA3 dose in plants. But number of components in the essential oil increased up to 25 ppm doses, and started to decrease at the consequent GA3 doses. Geraniol decreased from 36.69% to 21.16% from the control to 100 ppm at the beginning of flowering, from 27.34% to 12.93% in the mid-flowering, and from 22.33% to 21.14% at the end of flowering. Nonadecene and nonadecane at the beginning of flowering increased from 1.44% to 2.47% and 16.50% to 23.58%, respectively, from control to 100 ppm dose, from 1.69% to 2.66 and from 17.15% to 21.23% in mid-flowering. At the end of flowering, nonadecene decreased from 2.56% to 1.87%, while nonadecene increased from 20.66% to 29.45%. Finally; it could be recommended to apply 25 ppm GA3 to obtain high flower and essential oil yield and its components in oil bearing.

References

  • [1] Erbaş, S., Baydar, H. 2016. Variation in Scent Compounds of Oil-Bearing Rose (Rosa damascena Mill.) Produced by Headspace Solid Phase Microextraction, Hydrodistillation and Solvent Extraction. Records of Natural Products, 10(5), 555-565.
  • [2] Anonim, 2021. Türkiye İstatistik Kurumu. http://www.tuik.gov.tr (Son erişim tarihi: 31.12.2021).
  • [3] Aydinli, M, Tutas, M. 2003. Production of Rose Absolute from Rose Concrete. Flavour and Fragrance Journal, 18 (1), 26-31.
  • [4] Kürkçüoğlu, M., Başer, K.H.C. 2003. Studies on Turkish Rose Concrete, Absolute and Hydrosol. Chemistry of Natural Compounds, 39(5), 457-464.
  • [5] Ayci, F., Aydinli, M., Bozdemir, O. A., Tutas, M. 2005. Gas Chromotographic Investigation of Rose Concrete, Absolute and Solid Residue. Flavour and Fragrance Journal, 20, 481-486.
  • [6] Prins, C.L., Vieira. I.J.C., Freitas, S.P. 2010. Growth Regulators and Essential Oil Production. Brazilian Journal of Plant Physiology, 22(2), 91-102.
  • [7] El-Keltawi, N.E., Croteau, R. 1987. Influence of Foliar Applied Cytokinins on Growth and Essential Oil Content of Several Members of the Lamiaceae. Phytochemistry, 26(4), 891-895.
  • [8] Ansari, S.H., Qadry, J.S., Jain, V.K. 1988. Effect of Plant Hormones on the Growth and Chemical Composition of Volatile Oil of Cymbopogon. lndian Journal of Forestry, 11(2), 143-145.
  • [9] Farooqi, A.H.A., Sharma, S., Naqvi, A.A., Khan, A. 1993. The Effect of Kinetin on Flower and Oil Production in Rosa damascena. Journal of Essential Oil Research, 5(3), 305-309.
  • [10] Sharma, M.L. 1982. Cultivation of Rose and Manufacture of its Products in India. In: CK Atal and BM Kapur, eds. Cultivation and utilization of aromatic plants (pp. 537–544). Jammu, India: Regional Research Labroatory, CSIR.
  • [11] Farooqi, A.H.A., Shukla, Y.N., Sharma, S., Bansal, R.P. 1994. Relationship Between Gibberellin and Cytokinin Activity and Flowering in Rosa damascena Mill. Plant Growth Regulation, 14, 109-113.
  • [12] Farooqi, A.A., Srikant, S. 1990. Effect of Growth Retardants on Flowering of Rosa damascena Mill. Proceedings of the international congress of plant physiology, New Dehli, India, 2, 1355-1369.
  • [13] Bernier, G. 1988. The Control of Floral Evacation and Morphogenesis. Annual Reviews of Plant Physiology and Plant Molecular Biology, 39(1), 175-219.
  • [14] Safari, V.R., Khalighi, A., Lesani, H., Babalar, M., Obermaier, J.F. 2004. Effects of different plant growth regulators and time of pruning on yield components of Rosa damascena Mill. International Journal of Agriculture & Biology, 6(6), 1040-1042.
  • [15] European Pharmacopoeia, 1975. Maissonneuve Sainte Ruffine, 3, 68.
  • [16] Khan, M.A., Rehman, S.U. 2005. Extraction and Analysis of esSential Oil of Rosa Species. International Journal of Agriculture And Biology, 7, 973-974.
  • [17] SAS Institute, 1999. INC SAS/STAT User’s Guide Release 7.0, Cary, NC, USA.
  • [18] Hackett, W.P. 1987. Juvenility, Maturation and Rejuvenation in Woody Plants. Horticultural Reviews, 7, 109-155.
  • [19] Colasanti, J., Sundaresan, V. 2000. ‘Florigen’ Enters the Molecular Age: Long-Distance Signals that Cause Plants to Flower. Trends in Biochemical Sciences 25(5), 236-240.
  • [20] Zhao, D. Yu, Q. Chen, C., Ma, H. 2002. Genetic Control of Reproductive Meristems. In McManus MT and Veit BE (eds). Meristematic Tissues in Plant Growth and Development (pp. 89-141). Sheffield Academic Press. Sheffield.
  • [21] Mor, Y., Zieslin, N. 1987. Plant Growth Regulators in Rose Plants, Holticultural Reviews, 9, 53-73.
  • [22] Bianco, J., Garello, G. & Le Pege-DEgivry M.T. (1991). Gibberellins and Abscisic Acid in Reproductive Organs of Rosa hybrida. Acta Horticulturae, 298, 75-82.
  • [23] Le Bris, (2003). Hormones in Growth and Development. In: Encyclopedia of Rose Sciences (pp. 364-369). Elsevier Academic Press.
  • [24] Agbaria, H., Zamski, E., Zieslin, N. 2001. Effects of Gibberellin on Senescence of Rose Flower Petals. Acta Horticulturae, 547, 269-279.
  • [25] Arun, D.S., Ashok, A.D., Rengasamy, P. 2000. Effect of Some Growth Regulating Chemicals on Growth and Flowering of Rose ’First red’ under Greenhouse Conditions. Journal of Ornamental Horticulture, 3(1), 51-53.
  • [26] Sadanand, D.A., Ashok, A.D., Rangaswamy, P. 2000. Effect of Some Growth Regulating Chemicals on Growth and Flowering of Rose cv. First Red under Greenhouse Conditions. Journal of Ornamental Horticulture, 3(1), 51-53.
  • [27] Baydar H., Kazaz S., Erbaş S. 2016. Variations in Floral Characteristics and Scent Composition and the Breeding Potential in Seed Derived Oil Bearing Roses (Rosa damascena Mill). Turkish Journal of Agriculture and Forestry, 40, 560-569.
  • [28] Baydar H., Kazaz S., Erbaş S. 2013. Yağgülü (Rosa damascena Mill)’nde Morfogenetik Ontogenetik ve Diurnal Varyabiliteler. Süleyman Demirel Üniversitesi Ziraat Fakültesi Dergisi, 8, 1-11.
  • [29] Singh, A.K., Kumar, P., Sisodia, A., Padhi, M. 2019. Effect of GA3 and Salicylic Acid on Growth and Flowering in Rose Grown under Protected Condition. Journal of Pharmacognosy and Phytochemistry, 8(5), 462-465.
  • [30] Hashemabadi, D., Zarchini, M. 2010. Yield and Quality Management of Rose (Rosa hybrida cv. Poison) with Plant Growth Regulators. Plant Omics, 3(6), 167-171.
  • [31] Misra, A., Srivastava, N.K., Kumar, R., Khan, A. 2005. Effect of Palcobutrazol (PP333) on Flower Quality and Quantity of Rosa damascena. Communications in Soil Science and Plant Analysis, 36, 477-486.
  • [32] Aziz, S. 2014. Effect of Foliar Application of GA3 and Macronutrients on Growth and flowering of Rose Species. M.Sc. Thesis, University of Agriculture, Instute of Horticultural Sciences Faisalabad, Pakistan.
  • [33] Rohamare, Y,. Nikam, T.D., Dhumal, K.N. 2013. Effect of Foliar Application of Plant Growth Regulators on Growth, Yield and Essential Oil Components of Ajwain (Trachyspermum ammi L.). International Journal of Seed Spices, 3(2), 34-41.
  • [34] Rani, P., Singh, P. 2013. Impact of Gibberellic Acid Pre-Treatment on Growth and Flowering of Tuberose (Polianthes tuberosa L.) cv. Prajwal. Journal of Tropical Plant Physiology, 5(1), 33-41.
  • [35] Muthukumar, S., Ponnuswami, V., Jawaharlal, M., Ramesh, A.K. 2012. Effect of Plant Growth Regulators on Growth, Yield and Exportable Quality of Cut Roses. International Journal of Science and Research, 7(4), 733-738.
  • [36] Baydar, H., Kazaz, S. 2013. Yağ Gülü & Isparta Gülcülüğü. Gülbirlik Yayınları, (1), Isparta.
  • [37] Thakur, M., Kumar, R. 2020. Foliar Application of Plant Growth Regulators Modulates the Productivity and Chemical Profile of Damask Rose (Rosa damascena Mill.) under Mid-Hill Conditions of the Western Himalaya. Industrial Crops & Products, 158, 1-9.
  • [38] Saffari, V.R., Khalighi, A., Lesani, H., Babalar, M., Obermaier, J.F. 2004. Effects of Different Plant Growth Regulators and Time of Pruning on Yield Components of Rosa damascena Mill. International Journal of Agriculture & Biology, 6(6), 1040-1042.
  • [39] Roberts, A.V., Blake, P.S., Lewis, R., Taylor, J.M., Dunstan, D.J. 1999. The Effect of Gibberellins on Flowering in Roses. Journal of Plant Growth Regulation, 18(3), 113-119.
  • [40] Nanjan, K., Muthuswamy, S. 1975. Growth and Flowering of Edward Rose (Rosa barboniana Desp.) to Certain Growth Regulant Spray. South Indian Horticulture, 23, 94-99.
  • [41] Maharana, T., Pani, A. 1982. Effect of Post Pruning Spraying of Different Growth Regulators on the Growth and Flowering of Hybrid Rose. Bangladesh Horticulture, 10(1), 87-88.
  • [42] Bhattacharjee, S.K., Ranjan, R. 1995. Influence of Growth Regulators on Rosa hybrida cv. "Super Star". Scientific Horticulture, 4, 151-156.
  • [43] Bhadacharjee, S.K. 1993. Studies on the Effect of Gibberellic Acid on Growth, Flowering, Flower Quality and Post-Harvest Life of Rosa hybrida cv. "Raktagandha". Indian Rose Annual, 11, 77-83.
  • [44] Bhattacharjee, S.K., Singh, U.C. 1995. Growth and Flowering Response of Rosa hybrida ‘Raktagandha’ to Certain Growth Regulator Sprays. The Orissa Journal of Horticulture, 83, 275-281.
  • [45] Göktürk Baydar N., Baydar, H. 2005. The Effects of Harvest Date Fermentation Duration and Tween 20 Treatment on Essential Oil Content and Composition of Industrial Oil Rose (Rosa damascena Mill.) Industrial Crops and Products, 21, 251-255.
  • [46] Garnero, J., Buil, P. 1976. Evolution of the Composition of the Rose Essential Oils and Concrete during the Production Campaign. Riv. Ital Ess Prof Peante Offic Aromic Sap, Aerosol, 58, 537-540.
  • [47] Rusanov, K., Kovacheva, N., Rusanova, M., Atanassov, I. 2012. Reducing Methyl Eugenol Content in Rosa damascena Mill. Rose Oil by Changing the Traditional Rose Flower Harvesting Practices. European Food Research and Technology, 234(5), 921-926.
  • [48] Baydar H., Erbaş S. 2016. Yağ Gülü (Rosa damascena Mil)’nde Tepe Boşluğu Katı Faz Mikro Ekstraksiyonu HS SPME ve Konvansiyonel Su Distilasyonu Yöntemleri ile Elde Edilen Uçucu Bileşenlerin Karşılaştırılması. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 20, 27-36.
There are 48 citations in total.

Details

Primary Language Turkish
Subjects Engineering
Journal Section Makaleler
Authors

Süleyman Efecan 0000-0003-0909-3410

Sabri Erbaş 0000-0003-0691-6127

Murat Mutlucan 0000-0002-6990-277X

Publication Date December 20, 2022
Published in Issue Year 2022 Volume: 26 Issue: 3

Cite

APA Efecan, S., Erbaş, S., & Mutlucan, M. (2022). Yağ Gülü (Rosa damascena Miller)’nde GA3 Uygulamalarının Verim ve Kalite Özelliklerine Etkisi. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 26(3), 490-501. https://doi.org/10.19113/sdufenbed.1118475
AMA Efecan S, Erbaş S, Mutlucan M. Yağ Gülü (Rosa damascena Miller)’nde GA3 Uygulamalarının Verim ve Kalite Özelliklerine Etkisi. J. Nat. Appl. Sci. December 2022;26(3):490-501. doi:10.19113/sdufenbed.1118475
Chicago Efecan, Süleyman, Sabri Erbaş, and Murat Mutlucan. “Yağ Gülü (Rosa Damascena Miller)’nde GA3 Uygulamalarının Verim Ve Kalite Özelliklerine Etkisi”. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi 26, no. 3 (December 2022): 490-501. https://doi.org/10.19113/sdufenbed.1118475.
EndNote Efecan S, Erbaş S, Mutlucan M (December 1, 2022) Yağ Gülü (Rosa damascena Miller)’nde GA3 Uygulamalarının Verim ve Kalite Özelliklerine Etkisi. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi 26 3 490–501.
IEEE S. Efecan, S. Erbaş, and M. Mutlucan, “Yağ Gülü (Rosa damascena Miller)’nde GA3 Uygulamalarının Verim ve Kalite Özelliklerine Etkisi”, J. Nat. Appl. Sci., vol. 26, no. 3, pp. 490–501, 2022, doi: 10.19113/sdufenbed.1118475.
ISNAD Efecan, Süleyman et al. “Yağ Gülü (Rosa Damascena Miller)’nde GA3 Uygulamalarının Verim Ve Kalite Özelliklerine Etkisi”. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi 26/3 (December 2022), 490-501. https://doi.org/10.19113/sdufenbed.1118475.
JAMA Efecan S, Erbaş S, Mutlucan M. Yağ Gülü (Rosa damascena Miller)’nde GA3 Uygulamalarının Verim ve Kalite Özelliklerine Etkisi. J. Nat. Appl. Sci. 2022;26:490–501.
MLA Efecan, Süleyman et al. “Yağ Gülü (Rosa Damascena Miller)’nde GA3 Uygulamalarının Verim Ve Kalite Özelliklerine Etkisi”. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi, vol. 26, no. 3, 2022, pp. 490-01, doi:10.19113/sdufenbed.1118475.
Vancouver Efecan S, Erbaş S, Mutlucan M. Yağ Gülü (Rosa damascena Miller)’nde GA3 Uygulamalarının Verim ve Kalite Özelliklerine Etkisi. J. Nat. Appl. Sci. 2022;26(3):490-501.

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