Research Article
BibTex RIS Cite

Effects of Top-Pruning Time on Fresh Flower Yield, Rose Oil Content and Compounds in Oil-Bearing Rose (Rosa damascena Mill.)

Year 2022, Volume: 26 Issue: 2, 211 - 215, 20.08.2022
https://doi.org/10.19113/sdufenbed.1021987

Abstract

The aim of the research was to determine the effects of top-pruning time on flower yield, rose oil content and oil constituents in oil-bearing rose. Five-year old rose plants were top-pruned in three different dates starting from 15 March (early), 30 March (middle) and ending 15 April (late) before they started new growth in spring. In addition, non-pruned (untreated) parcels were used as controls. Top pruning time significantly affected the flower yield, oil content and its constituents. The highest flower yield (4302 kg/ha) was obtained from non-pruned plants. The fresh flower yield and rose oil content increased significantly from 3559 kg/ha to 3905 kg/ha and from 0.030 % to 0.045 %, respectively when the pruning time was delayed. GC-FID/MS analyses of rose oils revealed that monoterpenic constituents, such as geraniol and citronellol were higher in the rose oils distilled from late-pruned plants, paraffinic hydrocarbones (stearoptenes), such as nonadecane and heneicosane were higher in the rose oils distilled from early-pruned plants. The mid- pruning time (30 March) gave the highest citronellol and geraniol by 27.28 % and 30.64 %, respectively. A remarkable result was that methyl eugenol content, which is not desirable above a spesific quantity in rose oil due to allergic effects and mutagenic, decreased from early to late pruning.

References

  • [1] Guenther, E. 1952. Oil of rose. In: The essential oils. Vo:l 5, Florida, USA, pp. 3-48.
  • [2] Anac, O. 1984. Gas chromatographic analysis on Turkish rose oil, absulute and concrete. Perfumer & Flavorist, 9, 1-14.
  • [3] Baser, K. H. C. 1992. Turkish rose oil. Perfumer & Flavorist, 17, 45-52.
  • [4] Aydinli, M., Tutas, M. 2003. Production of rose absolute from rose concrete. Flavour and Fragrance Journal, 18(1), 26–31.
  • [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] Paul, T. M., Siddique, M. A. A., John, A. Q. 1995. Effect of severity and time of pruning on growth and flower production of Rosa damascena Mill., an important aromatic plant. Advanced Plant Science, 8, 28–32.
  • [7] Kovatcheva, N., Nedkov, N. 2012. Effect of application of basic (rejuvenating) pruning on production traits of oil- bearing rose. Bulgarian Journal of Agricultural Science, 18(4), 578-582.
  • [8] Topalov, V., Irinchev, I. 1967. Rose production in Bulgaria. Danoff, C. G., ed. Plovdiv, 187 pp.
  • [9] Astadzhov, N. 1980. Influence of clipping the tops of the annual shoots of Kazanlak rose on the extraction of color, quality and quantity of oil. Plant Science, 17(4), 99-105.
  • [10] Astadzhov, N., Kamburova, K., Peshov, I. 1986. Changes in flower and essential oil productivity of the Kazanlik rose caused by single pruning of shoots. Rastenievadni Nauki, 23, 63-68.
  • [11] Sarıbaş, R., Aslancan, H., Dağıstanlıoğlu, C., Baydar, H. 2013. Effects of whipping pruning heights on rose oil and quality in oil-bearing rose (Rosa damascena Mill). Suleyman Demirel University Journal of Natural and Applied Science, 17(2), 28-31.
  • [12] European Pharmacopoeia, 1975. Maisonneuve SA, Sainte Ruffine, France, 3, 68.
  • [13] Erbas, 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.
  • [14] 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.
  • [15] Dudareva, N., Pichersky, E. 2000. Biochemical and molecular genetic aspects of floral scents. Plant Physiology, 122, 627-633.
  • [16] Kovacheva, N, Rusanov, K., Atanassov, I. 2010. Industrial cultivation of oil bearing rose and rose oil production in Bulgaria during 21st century, directions and challenges. Biotechnology & Biotechnological Equipment, 24(2), 1793-1789.
  • [17] Bayrak, A., Akgul, A. 1994. Volatile oil composition of Turkish rose (Rosa damascena). Journal of the Science of Food and Agriculture, 64, 441-448.
  • [18] ISO 9842, 2003. Oil of rose (Rosa x damascena Miller). International Standards for Business, Government and Society. www.iso.org (Data of access: 01.11.2021).
  • [19] Baydar, H., Schulz, H., Kruger, H., Erbas, S., Kineci, S. 2008. Influences of fermentation time, hydro-distillation time and fractions on essential oil composition of Damask Rose (Rosa damascena Mill.). Journal of Essential Oil Bearing Plants, 11(3), 224-232.
  • [20] 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. The Journal European Food Research and Technology, 234, 921-926.
  • [21] Harris, B. 2002. Methyl eugenol-the current bete noir of aromatherapy. International Journal of Aromatherapy, 12(4), 193-201.

Yağ gülü (Rosa damascena Mill.)’nde Çırpma Budama Zamanının Çiçek Verimi, Gül Yağ Oranı ve Bileşenleri Üzerine Etkisi

Year 2022, Volume: 26 Issue: 2, 211 - 215, 20.08.2022
https://doi.org/10.19113/sdufenbed.1021987

Abstract

Bu araştırmanın amacı, Isparta gülünde çırpma budama zamanının çiçek verimi, gül yağı oranı ve kompozisyonu üzerine olan etkilerini belirlemektir. Beş yaşındaki gül bitkileri ilkbaharda sürgünler patlamadan önce 15 Mart (erken), 30 Mart (orta) ve 15 Nisan (geç) olmak üzere üç farklı tarihte çırpma budama tekniğine göre budanmıştır. Kontrol parsellerinde budama yapılmamıştır. Çalışma sonucunda, budama zamanının çiçek verimi, gül yağ oranı ve bileşenlerini etkilediği bulunmuştur. En yüksek çiçek verimi (4302 kg/ha) kontrol bitkilerinden elde edilmiştir. Çiçek verimi ve uçucu yağ içeriği, budama zamanı ertelendiğinde sırasıyla 3559 kg/ha'dan 3905 kg/ha'a ve %0.030'dan %0.045'e çıkmıştır. Gül yağlarının GC-FID/MS analizlerine göre; geç budanan bitkilerden damıtılan gül yağlarında geraniol ve sitronelol gibi monoterpenik bileşenler daha yüksek iken, erken budanmış bitkilerde nonadekan ve heneikosan gibi parafinik hidrokarbonlar (stearoptenler) daha yüksek bulunmuştur. En yüksek sitronelol ve geraniol içeriği orta budama zamanında sırasıyla %27.28 ve %30.64 olarak tespit edilmiştir. Dikkat çekici bir sonuç, olumsuz toksik ve alerjik etkiler nedeniyle gül yağında belirli bir konsantrasyonun üzerinde istenmeyen metil öjenol içeriğinin erken budamadan geç budamaya kadar azalması olmuştur.

References

  • [1] Guenther, E. 1952. Oil of rose. In: The essential oils. Vo:l 5, Florida, USA, pp. 3-48.
  • [2] Anac, O. 1984. Gas chromatographic analysis on Turkish rose oil, absulute and concrete. Perfumer & Flavorist, 9, 1-14.
  • [3] Baser, K. H. C. 1992. Turkish rose oil. Perfumer & Flavorist, 17, 45-52.
  • [4] Aydinli, M., Tutas, M. 2003. Production of rose absolute from rose concrete. Flavour and Fragrance Journal, 18(1), 26–31.
  • [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] Paul, T. M., Siddique, M. A. A., John, A. Q. 1995. Effect of severity and time of pruning on growth and flower production of Rosa damascena Mill., an important aromatic plant. Advanced Plant Science, 8, 28–32.
  • [7] Kovatcheva, N., Nedkov, N. 2012. Effect of application of basic (rejuvenating) pruning on production traits of oil- bearing rose. Bulgarian Journal of Agricultural Science, 18(4), 578-582.
  • [8] Topalov, V., Irinchev, I. 1967. Rose production in Bulgaria. Danoff, C. G., ed. Plovdiv, 187 pp.
  • [9] Astadzhov, N. 1980. Influence of clipping the tops of the annual shoots of Kazanlak rose on the extraction of color, quality and quantity of oil. Plant Science, 17(4), 99-105.
  • [10] Astadzhov, N., Kamburova, K., Peshov, I. 1986. Changes in flower and essential oil productivity of the Kazanlik rose caused by single pruning of shoots. Rastenievadni Nauki, 23, 63-68.
  • [11] Sarıbaş, R., Aslancan, H., Dağıstanlıoğlu, C., Baydar, H. 2013. Effects of whipping pruning heights on rose oil and quality in oil-bearing rose (Rosa damascena Mill). Suleyman Demirel University Journal of Natural and Applied Science, 17(2), 28-31.
  • [12] European Pharmacopoeia, 1975. Maisonneuve SA, Sainte Ruffine, France, 3, 68.
  • [13] Erbas, 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.
  • [14] 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.
  • [15] Dudareva, N., Pichersky, E. 2000. Biochemical and molecular genetic aspects of floral scents. Plant Physiology, 122, 627-633.
  • [16] Kovacheva, N, Rusanov, K., Atanassov, I. 2010. Industrial cultivation of oil bearing rose and rose oil production in Bulgaria during 21st century, directions and challenges. Biotechnology & Biotechnological Equipment, 24(2), 1793-1789.
  • [17] Bayrak, A., Akgul, A. 1994. Volatile oil composition of Turkish rose (Rosa damascena). Journal of the Science of Food and Agriculture, 64, 441-448.
  • [18] ISO 9842, 2003. Oil of rose (Rosa x damascena Miller). International Standards for Business, Government and Society. www.iso.org (Data of access: 01.11.2021).
  • [19] Baydar, H., Schulz, H., Kruger, H., Erbas, S., Kineci, S. 2008. Influences of fermentation time, hydro-distillation time and fractions on essential oil composition of Damask Rose (Rosa damascena Mill.). Journal of Essential Oil Bearing Plants, 11(3), 224-232.
  • [20] 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. The Journal European Food Research and Technology, 234, 921-926.
  • [21] Harris, B. 2002. Methyl eugenol-the current bete noir of aromatherapy. International Journal of Aromatherapy, 12(4), 193-201.
There are 21 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Makaleler
Authors

Sabri Erbaş 0000-0003-0691-6127

Soner Kazaz 0000-0002-6644-9690

Hasan Baydar 0000-0003-1317-2066

Publication Date August 20, 2022
Published in Issue Year 2022 Volume: 26 Issue: 2

Cite

APA Erbaş, S., Kazaz, S., & Baydar, H. (2022). Effects of Top-Pruning Time on Fresh Flower Yield, Rose Oil Content and Compounds in Oil-Bearing Rose (Rosa damascena Mill.). Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi, 26(2), 211-215. https://doi.org/10.19113/sdufenbed.1021987
AMA Erbaş S, Kazaz S, Baydar H. Effects of Top-Pruning Time on Fresh Flower Yield, Rose Oil Content and Compounds in Oil-Bearing Rose (Rosa damascena Mill.). J. Nat. Appl. Sci. August 2022;26(2):211-215. doi:10.19113/sdufenbed.1021987
Chicago Erbaş, Sabri, Soner Kazaz, and Hasan Baydar. “Effects of Top-Pruning Time on Fresh Flower Yield, Rose Oil Content and Compounds in Oil-Bearing Rose (Rosa Damascena Mill.)”. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi 26, no. 2 (August 2022): 211-15. https://doi.org/10.19113/sdufenbed.1021987.
EndNote Erbaş S, Kazaz S, Baydar H (August 1, 2022) Effects of Top-Pruning Time on Fresh Flower Yield, Rose Oil Content and Compounds in Oil-Bearing Rose (Rosa damascena Mill.). Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi 26 2 211–215.
IEEE S. Erbaş, S. Kazaz, and H. Baydar, “Effects of Top-Pruning Time on Fresh Flower Yield, Rose Oil Content and Compounds in Oil-Bearing Rose (Rosa damascena Mill.)”, J. Nat. Appl. Sci., vol. 26, no. 2, pp. 211–215, 2022, doi: 10.19113/sdufenbed.1021987.
ISNAD Erbaş, Sabri et al. “Effects of Top-Pruning Time on Fresh Flower Yield, Rose Oil Content and Compounds in Oil-Bearing Rose (Rosa Damascena Mill.)”. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi 26/2 (August 2022), 211-215. https://doi.org/10.19113/sdufenbed.1021987.
JAMA Erbaş S, Kazaz S, Baydar H. Effects of Top-Pruning Time on Fresh Flower Yield, Rose Oil Content and Compounds in Oil-Bearing Rose (Rosa damascena Mill.). J. Nat. Appl. Sci. 2022;26:211–215.
MLA Erbaş, Sabri et al. “Effects of Top-Pruning Time on Fresh Flower Yield, Rose Oil Content and Compounds in Oil-Bearing Rose (Rosa Damascena Mill.)”. Süleyman Demirel Üniversitesi Fen Bilimleri Enstitüsü Dergisi, vol. 26, no. 2, 2022, pp. 211-5, doi:10.19113/sdufenbed.1021987.
Vancouver Erbaş S, Kazaz S, Baydar H. Effects of Top-Pruning Time on Fresh Flower Yield, Rose Oil Content and Compounds in Oil-Bearing Rose (Rosa damascena Mill.). J. Nat. Appl. Sci. 2022;26(2):211-5.

e-ISSN :1308-6529
Linking ISSN (ISSN-L): 1300-7688

All published articles in the journal can be accessed free of charge and are open access under the Creative Commons CC BY-NC (Attribution-NonCommercial) license. All authors and other journal users are deemed to have accepted this situation. Click here to access detailed information about the CC BY-NC license.