Investigation of Floral Scent and Essential Oil of Rosa iberica Petals
محورهای موضوعی : مجله گیاهان زینتیHabib Hosseini 1 , Bahman Zahedi 2 , Abolfazl Jowkar 3 , Maryam Jafarkhani Kermani 4 , Akbar Karami 5
1 - Department of Horticultural Science, Faculty of Agriculture, Lorestan University, Khorramabad, Iran
2 - Department of Horticultural Science, Faculty of Agriculture, Lorestan University, Khorramabad, Iran|Department of Horticultural Science, College of Agriculture, Shiraz University, Shiraz, Iran
3 - Department of Horticultural Science, College of Agriculture, Shiraz University, Shiraz, Iran
4 - Department of Tissue Culture and Gene Transformation, Agricultural Biotechnology Research Institute of Iran (ABRII), Karaj, Iran
5 - Department of Horticultural Science, College of Agriculture, Shiraz University, Shiraz, Iran
کلید واژه: Benzyl alcohol, Essential oil, Anethole, Floral scent, Phenyl ethyl alcohol, Phthalic acid, <i>Rosa iberica</i>,
چکیده مقاله :
The flowers of wild Rosa iberica are investigated to find the chemical constituents of its aroma and essential oil. The measurements were carried out by GC-FID and GC-MS analysis. The aromatic compositions emitted from the flowers revealed 11 constituents, among which phenyl ethanol (38.82%), benzyl alcohol (28.48%), and geraniol (12.57%) were the most abundant. The essential oil investigation detected 13 compounds, the most abundant ones being anethole (45.56%) and phthalic acid (32.23%). The scent and essential oil detected de novo in the petals of R. iberica are beneficial as natural ingredients in seasonings, therapeutic compositions, and an aromatic plant in breeding strategies of ornamental shrubs and flowers.
گلهای وحشی رز ایبریکا بهمنظور پیدا کردن عطر و اسانس مورد بررسی قرار گرفتند. تجزیه و تحلیل توسط گاز کروماتوگرافی و گاز کروماتوگرافی / طیف سنج جرمی (GS / MS) انجام شد. ترکیبات آلی فرار استخراج شده از گلبرگها حاوی یازده ترکیب بود که فراوانترین این ترکیبات عبارتند از: الکل فنیل اتیل (82/38 %)، بنزیل الکل (48/28 %) و ژرانیول (57/12 %). تجزیه و تحلیل اسانس شامل سیزده ترکیب بود که آنتول (56/45 %) و اسید فتالیک (23/32 %) بیشترین میزان را داشتند. رایحه و اسانس موجود در گلبرگهای R. iberica بهعنوان مواد افزودنی طبیعی غذایی، ترکیبات دارویی و یک گیاه معطر در استراتژیهای اصلاحی گیاهان زینتی مفید است.
Abad, M.J., Bedoya, L.M. and Bermejo, P. 2013. Essential oils from the Asteraceae family active against multidrug-resistant bacteria. In: Fighting multidrug resistance with herbal extracts, essential oils and their components; Rai, M.K. and Kon, K.V. Eds.; Academic Press: San Diego, 14: 205- 210.
Abdolmohammadi, M., Jafarkhani Kermani, M., Zakizadeh, H. and Hamidoghli, Y. 2014. In vitro embryo germination and interploidy hybridization of rose (Rosa sp.). Euphytica, 198: 255-264.
Al-Bari, M.A.A., Sayeed, M.A., Rahman, M.S. and Mossadik, M.A. 2006. Characterization and antimicrobial activities of a phthalic acid derivative produced by Streptomyces bangladeshiensis – A novel species collected in Bangladesh. Research Journal of Medicine and Medical Sciences, 1: 77-81.
Antonelli, A., Fabbri, C., Giorgioni, M.E. and Bazzocchi, R. 1997. Characterization of 24 old garden roses from their volatile compositions. Journal of Agricultural and Food Chemistry, 45 (11): 4435-4439.
Ashurst, P.R. 1999. Food flavorings. Springer, New York.
Aslam Khan, M. and Rehman, S.H. 2005. Extraction and analysis of essential oil of Rosa species. International Journal of Agriculture and Biology, 6: 973-974.
Aza, M., Song, M., Fan, F., Zhang, B., Xu, Y., Xu, C. and Chen, K. 2013. Comparative analysis of flower volatiles from nine citrus at three blooming stages. International Journal of Molecular Sciences, 14: 22346-22367.
Bayrak, A. and Akgul, A. 1994. Volatile oil composition of Turkish rose (Rosa damascena). Journal of the Science of Food and Agriculture, 64: 441-448.
Bergougnoux, V., Caissard, J,C., Jullien, F., Magnard, J.L., Scalliet, G. and Mark, C.J. 2007. Both the adaxial and abaxial epidermal layers of the rose petal emit volatile scent compounds. Planta, 226: 853-866.
Camurca-Vasconcelos, A.L., Bevilaqua, C.M., Morais, S.M., Maciel, M.V., Costa, C.T., Macedo, I.T., Oliveira, L.M., Braga, R.R., Silva, R.A. and Vieira, L.S. 2007. Anthelmintic activity of Croton zehntneri and Lippia sidoides essential oils. Veterinary Parasitology, 148 (3): 288-294.
Chamorro, E.R., Zambon, S.N., Morales, W.G., Sequeira, A.F. and Velasco, G.A. 2012. Study of the chemical composition of essential oils by gas chromatography. In: Gas chromatography in plant science, wine technology, toxicology and some specific applications; Salih, B. and Celikbcak, O., Eds., IntechOpen: Rijeka, pp. 307-324.
Corcoran, G. and Ray, S. 2014. Benzyl alcohol. In: Encyclopedia of toxicology; Phil Wexler, Ed.; Publisher: Elsevier/ Academic Press: Oxford, pp. 262-264.
De, M. De, A.K., Sen, P. and Banerjee, A.B. 2002. Antimicrobial properties of star anise (Illicium verum Hook. f.). Phytotherapy Research, 16 (1): 94-95.
Feng, L., Chen, C., Sheng, L., Liu, P., Tao, J., Su, J. and Zhao, L. 2010. Comparative analysis of headspace volatiles of Chinese Rosa rugosa. Molecules, 15: 8390-8399.
Fujita, K., Fujita, T. and Kubo, I. 2007. Anethole a potential antimicrobial synergist, converts a fungistatic dodecanol to a fungicidal agent. Phytotherapy Research, 21 (1): 47-51.
Hainan, S., Ting, Z., Qingqing, F., Xiangyu, Q., Fei, Z., Weimin, F., Jiafu, J., Fadi, C.H. and Sumei, C.H. 2015. Identification of floral scent in chrysanthemum cultivars and wild relatives by gas chromatography-mass spectrometry. Molecules, 20: 5346-5359.
Hirulkar, N.B. and Agrawal, M. 2010. Antimicrobial activity of rose petals extract against some pathogenic bacteria. International Journal of Pharmaceutical and Biological Archive, 1: 478-484.
Hosni, K., Kerkenni, A., Medfei, W., Ben, B.N. and Sebei, H. 2010. Volatile oil constituents of Rosa canina L.: Quality as affected by the distillation method. Organic Chemistry International, 1-7. https://doi.org/10.1155/2010/621967
Jowkar, A. and Karami, A. 2016. Analysis of leaf essential oils of Iranian Rosa iberica. Chemistry of Natural Compounds, 52: 737- 739.
Jowkar, A. and Karami, A. 2018. Characterization of volatile organic compounds from leaves of Rosa iberica Stev. Acta Horticulturae, 1190 (24): 141- 144.
Karami, A. and Jandoust, S. 2016. Comparison scent compound emitted from flowers of damask rose and Persian musk rose. Medicinal and Aromatic Plants, 5: 259. doi:10.4172/2167-0412.1000259.
Khatamsaz, M. 1992. Flora of Iran (Rosaceae). Research Institute of Frests and Rangelands: Tehran. 6: 65. (in Persian)
Koksal, N., Aslancan, H., Sadighazadi, S. and Kafkas. E. 2015. Chemical investigation on Rosa damascena Mill. Volatiles; effects of storage and drying conditions. Acta Scientiarum Polonorum Hortorum Cultus, 14: 105-114.
Koobaz, P., Jafarkhani Kermani, M., Hosseini, Z., Jowkar, A. and Khatamsaz, M. 2011. Biosystematic study of Rosa (Sect. Pimpinellifoliae) and described R. abrica (Rosaceae) as a new species from Iran. Rostaniha, 12: 51- 62. (in Persian)
Kubo, I. and Fujita, K. 2001. Naturally occurring anti- Salmonella agents. Journal of Agricultural and Food Chemistry, 12: 5750-5754.
Kumar, P. P. 2013. Evaluation, genetic diversity, recent development of distillation method, challenges and opportunities of Rosa damascena, A review. Journal of Essential Oil Bearing Plants, 16: 1-10.
Manouchehri, R., Saharkhiz, M.J., Karami, A. and Niakousari, M. 2018. Extraction of essential oils from damask rose using green and conventional techniques: Microwave and ohmic assisted hydrodistillation versus hydrodistillation. Sustainable Chemistry and Pharmacy, 8: 76-81.
Mavar-Manga, H., Haddad, M., Pieters, L., Baccelli, C., Penge, A. and Quetin, L.J. 2008. Anti-inflammatory compounds from leaves and root bark of Alchornea cordifolia (Schumach. & Thonn.) Mull. Agr. Journal of Ethnopharmacology, 15 (1): 25-29.
Mohamadi, M., Shamspur, T. and Mostafavi, A. 2011. Effect of storage on essential oil content and composition of Rosa damascena Mill, petals under different conditions. Journal of Essential Oil Bearing Plants, 14: 430-441.
Mookherjee, B.D. and Wilson, R.A. 2000. Benzyl alcohol and β-Phenethyl alcohol. In: Kirk othmer encyclopedia of chemical technology, John Wiley & Sons: New York, 1999-2014.
Morsy, N.F.S. 2017. Chemical structure, quality indices and bioactivity of essential oil constituents. In: Active ingredients from aromatic and medicinal plan, El-Shemy, H.A. Ed.; IntechOpen: Rijeka, 11: 175-206.
Naquvi, K.J., Ansari, S.H. and Najmi, A.K. 2014. Volatile oil composition of Rosa damascene Mill. (Rosaceae). Journal of Pharmacognosy and Phytochemistry, 2: 177-181.
Neurath, A.R. 2000. Microbicide for prevention of sexually transmitted diseases using a pharmaceutical excipient. AIDS Patient Care and STDs, 1 (4): 215-219.
Newberne, P., Smith, R.L., Doull, J., Goodman, J.I., Munro, I.C., Portoghese, P.S., Wagner, B.M., Weil, C.S., Woods, L.A., Adams, T.B., Lucas, C.D. and Ford, R.A. 1999. The FEMA GRAS assessment of trans-anethole used as a flavouring substance. Flavour and Extract Manufacturers' Association. Food and Chemical Toxicology, 37 (7): 789-811.
Rameshthangam, P. and Ramasamy, P. 2007. Antiviral activity of bis (2-methylheptyl) phthalate isolated from Pongamia pinnata leaves against white spot syndrome virus of Penaeus monodon Fabricius. Virus Research, 126: 38-44.
Sabri. E. and Hasan, B. 2016. Variation in scent compounds of oil-bearing rose (Rosa damascena mill.) produced by headspace solid phase microextraction, hydrodistillation and solvent extractio. Records of Natural Products, 10: 555-565.
Salehi Surmaghi, M.H. and Amin, G.H. 1993. Screening of Iranian plants for antimicrobial activity. School of Pharmacy, 3: 56-62.
Shimoni, E., Baasov, T., Ravid, U. and Shoham, Y. 2002. The trans-anethole degradation pathway in an Arthrobacter sp. Journal of Biological Chemistry, 277 (14): 11866-11872.
Taghavizad, R.A. and Nazarian, H. 2009. Palinological comparisons of plants during honey bee activity different mounts in Sirachal region, Tehran province. Iran Biology Magazine, 2: 204-217.
Tambe, E. and Gotmare, S.R. 2016. Study of variation and identification of chemical composition in Rosa species oil collected from different countries. Journal of Applied Chemistry, 9 (11): 11- 18.
Victoria, J., MacPhail, P. and Kevan, G. 2009. Review of breeding systems of wild roses (Rosa spp.). Floriculture and Ornamental Biothechnology, 3 (1): 1-13.
Voon, H. C., Bhat, R. and Rusul, G. 2012. Flower extracts and their essential oils as potential antimicrobial agents for food uses and pharmaceutical applications. Comprehensive Reviews in Food Science and Food Safety, 11: 34-52.
Younis, A., Riaz, A., Khan, M.A., Khan, A. and Pervez, M.A. 2008. Extraction and identification of chemical constituents of the essential oil of Rosa species. Acta Horticulturae, 766: 485- 492.