Abstract
Rosa x damascena Mill. also known as the oil-bearing rose is the predominant rose species worldwide used for production of rose essential oil products applied in the perfumery, cosmetics, pharmaceutical and food industries. The present chapter presents detailed information covering diverse aspects related to the botany, economic use and breeding strategies of this species. The reader is introduced to its origin, distribution and domestication starting from ancient times until present times. A detailed botanical description is presented describing all plant parts. The last 20 years were characterized by extensive application of DNA marker techniques for analysis of the biodiversity in this species. A summary of the obtained results in these studies is presented here and related to the geographic distribution of the species and the main production areas. Furthermore, the reader is introduced to all agricultural aspects related to R. x damascena cultivation including propagation strategies, requirements to climate and soil conditions, agrotechnology, pruning, fertilization, irrigation, disease and pest control. The economic use of R. x damascena is also summarized focusing on the diverse essential oil products including rose essential oil, rose water, absolute, concrete as well as on the economic parameters of rose growing and essential oil production in the main growing regions including the biggest producers Bulgaria and Turkey. Finally, we discuss the breeding strategies for improving R. x damascena, which have been applied so far as well as the future perspectives related to the application of molecular breeding, biotechnology and new plant breeding techniques.
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References
Ağaoğlu Y (2000) Rose oil industry and production of oil rose (Rosa damascena Mill.) in Turkey. Biotechnol Biotechnol Equip 2:8–15
Ağaoğlu Y, Ergul A, Baydar N (2000) Molecular analyses of genetic diversity of oil rose (Rosa damascena Mill.) grown in Isparta (Turkey) region. Biotechnol Biotechnol Equip 14:16–18
Agarwal S, Gupta A, Kapahi B, Baleshwar R, Thappa R, Suri O (2005) Chemical composition of rose water volatiles. J Essent Oil Res 17:265–267
Amal YA, Najlaa SA, Weam AY, Sabah MH (2018) Molecular characterization of Rosa damascena Mill. growing in Taif and Almadinah using ISSR and SSR markers. Res J Biotechnol 13(1):11–19
Amer S, Basaid S, Ali E (2016) Molecular identification of Rosa X damascena growing in Taif Region (Saudi Arabia). Plant Biol 7(1):7–10
Ara KA, Hossain MM, Quasim MA, Ali M, Ahmed JU (1997) Micropropagation of rose (Rosa sp cv). Plant Tissue Cult 7:135–142
Astadzhov N (1975) Study of the clones of Kazanlik rose population. Plant Sci 5:19–26 (Bg)
Astadzhov N (1978) New variety Kazanlak rose oil Iskra. Science 8:59–63 (Bg)
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 Sci 17(4):99–105 (Bg)
Astadzhov N (1988a) Improved populations of the Kazanlik rose. Plant Sci 6:21–26 (Bg)
Astadzhov N (1988b) Studies on the diversity of the population of the Kazanlak rose and some issues of reproduction and breeding to improve rose production in Bulgaria. Thesis, Plovdiv, 317 pp. (Bg)
Astadzhov N (1989) Study of the clones of Kazanlak oil-bearing rose with different coloration of the petals. Plant Sci 12:63–68 (Bg)
Atanasov Z (1965) Study on the location of the root system of the Kazanluk oil-bearing rose of deluvial-meadow and leavened cinnamon forest soils. Plant Sci 2(7):101–108 (Bg)
Babaei A, Tabaei-Aghdaei SR, Khosh-Khui M, Omidbaigi R, Naghavi MR, Esselink GD, Smulders MJ (2007) Microsatellite analysis of Damask rose (Rosa damascena Mill.) accessions from vaŽrious regions in Iran reveals multiple genotypes. BMC Plant Biol 7:12
Balinova-Tsvetkova A, Mihailova J, Atanassova R (1977) Investigation method of the natural composition of essential oil in flowers of oil-bearing rose. Medico-bio Inf 5:33–36 (Ru)
Baradaran GR, Aminaee MM, Assaari MJ (2012) Identification of fungal diseses of Rosa damascena in Kerman province of Iran. Arch Phytopathol Plant Protect 45(9):1097–1095
Baser KHC (1992) Turkish Rose oil. PerfumFlav 17:45–52
Baser KHC, Kürkçüoglu M, Özek T (2003) Turkish Rose oil research: recent results. Perfum Flav 28:34–42
Baydar H (2006) Oil-bearing rose (Rosa damascena Mill.) cultivation and rose oil industry in Turkey. Euro Cosmetics 14(6):13–17
Baydar N, Baydar H, Debener T (2004) Analysis of genetic relationships among Rosa damascena plants grown in Turkey by using AFLP and microsatellite markers. J Biotechnol 111(3):263–267
Baydar H, Erbas S, Kaza S (2016) Variation in floral characteristics and scent composition and breeding potential in seed-derived oil-bearing roses (Rosa damascena Mill.). Turk J Agric For 40:560–569
Bhat MS (1992) Micropropagation in rose. Indian Hortic 37:17–19
Bilov V, Shtanko I, Yudinceva E, Mihailov N (1962) Short results of introduction in the main botanical garden. Academy of Science, USSR, Moskva (Ru)
Bliznakov T (1934) Our rose industry. Plovdiv (Bg)
Boissier E (1872) Flora orientalis, vol ii. H. George, Geneva
Boneva K (1969) On the nutrition of the Kazanlаk oil-bearing rose with some microelements depending on the soil type. Soil Sci Agrochem 4(2):43–50 (Bg)
Bonstedt C. (1931) Pareys Blumengärtnerei. Beschreibung, Kultur und Verwendung der gesamten gärtnerischen Schmuckpflanzen. 792 pp. Verlag Paul Parey. Berlin, Germany (Ge)
Borissova A, Hvarleva T, Bedzhov I, Kondakova V, Atanassov A, Atanassov I (2005) Agrobacterium-mediated transformation of secondary somatic embryos from Rosa hybrida L. and recovery of transgenic plants. Biotechnol Biotechnol Equip 19:70–74
Boskabady M, Shafei M, Saberi Z, Amini S (2011) Pharmacological effects of Rosa damascena. Iran J Basic Med Sci 14(4):295–307
Bourke PM, Arens P, Voorrips RE, Esselink GD, Koning-Boucoiran CF, Van't Westende WP, Santos Leonardo T, Wissink P, Zheng C, van Geest G, Visser RG, Krens FA, Smulders MJ, Maliepaard C (2017) Partial preferential chromosome pairing is genotype dependent in tetraploid rose. Plant J 90(2):330–343
Canli F and Kazaz S (2009) Biotechnology of roses: progress and future prospects. Turkish Journal of Forestry 1:167–183
Crespel L, Chirollet M, Durel CE, Zhang D, Meynet J, Gudin S (2002) Mapping of qualitative and quantitative phenotypic traits in Rosa using AFLP markers. Theor Appl Genet 105(8):1207–1214
Da Porto C, Decortia D, Natolino A (2015) Application of a supercritical CO2 extraction procedure to recover volatile compounds and polyphenols from Rosa damascena. Sep Sci Technol 50:1175–1180
Debener T, Mattiesch L (1999) Construction of a genetic linkage map for roses using RAPD and AFLP markers. Theor Appl Genet 99(5):891–899
Demidov LV (1983) Biological features of varieties of rose essential oil used in its selection. Abstract of dissertation, Moscow (Ru)
Dobreva A (2010) Technological investigation on the yield and chemical composition of the essential oil of white oil-bearing rose (Rosa alba L.). PhD thesis. University of Food Technology, Plovdiv, Bulgaria (Bg)
Douglas M (1993) Rose: Rosa damascena “Trigintipetala”. Redbank Research Station. Central Otago, New Zealand Institute for Crop and Food Research, pp. 1–5
Egorova N and Stavtseva I (2016) Using biotechnological methods for developing source breeding material for some essential-oil plants. Materials of the Kuban State Agrarian University 2:122–131 (Ru)
Elenkov D, Minchev A, Totev ST (1976) Obtaining a rose concrete in an ultrasonic field. Proceedings of “problems of essential oil production”, 136–142
European Commission. (2000) Opinion concerning Methyleugenol adopted by the SCCNFP during the 14th plenary meeting of 24 October 2000. Executive summary. Available at: http://ec.europa.eu/health/scientific_committees/consumer_safety/opinions/sccnfp_opinions_97_04/sccp_out126_en.htm
European Commission (2008) Regulation (EC) no 1334/2008 of the European Parliament and of the council of 16 December 2008 on flavourings and certain food ingredients with flavouring properties for use in and on foods and amending council regulation (EEC) no 1601/91, regulations (EC) no 2232/96 and (EC) no 110/2008 and directive 2000/13/EC. Off J Eur Union L354 Available: http://eur-lex.europa.eu/LexUriServ/LexUriServ.do?uri=OJ:L:2008:354:0034:0050:en:PDF
Evtuhova MV (2016) Studying the ecological biological changes of the species of genus Rosa L. for selection in the conditions of southwest TsChZ, Abstract dissertation, Belgorod
Farooq A, Khan AM, Ali A, Riaz A (2011) Diversity of morphology and oil content of Rosa damascena landraces and related Rosa species from Pakistan. Pak J Agri Sci 48(3):177–183
Farooq A, Kiani M, Khan MA, Riaz A, Khan AA, Anderson N, Byrne DH (2013) Microsatellite analysis of Rosa damascena from Pakistan and Iran. Hortic Environ Biotechnol 54(2):141–147
FDA (2004) Synthetic favoring substances and adjuvants. US Food and Drug Administration, Code of Federal Regulations, 21 CFR §172.515, Washington, D.C. Available at: http://edocket.access.gpo.gov/cfr_2004/aprqtr/pdf/21cfr172.515.pdf
FDA (2018) Food additive and color additive petitions under review or held in abeyance. Available at: https://www.accessdata.fda.gov/scripts/fdcc/?set=FAP-CAP&id=FAP_5A4810
Ganchev G (1976) Studies on the irrigation regime and water flow of the Kazanluk Rose, Thesis, VSI, Plovdiv (Bg)
Georgiev K (1927) Annual report on the state experimental field on rose culture in Kazanlak. (Bg)
Georgiev K (1932) Annual report on the state experimental field on rose culture in Kazanlak. (Bg)
Ginova A, Kondakova V (2013) New approaches for in vitro propagation of oil-bearing rose. Bulgarian J Agr Sci 19(6):1198–1203
Ginova A, Tsvetkov I, Kondakova V. (2012) Rosa damascenа Mill. – an overwiew for evaluation of propagation methods
Giray FH, Kart Omerci MC (2012) Economics of Rosa damascena in Isparta, Turkey. Bulgarian J Agric Sci 18(5):658–667
Gudin S (2000) Rose: genetics and breeding. Plant Breed Rev 17:159–189
Haghighi M, Tehranifar A, Nikbakh A, Kafi M (2008) Research and current profile of Iranian production of Damask Rose (Rosa damascena Mill.). Proc. XXVII IHC-S2 Asian plants with unique hort. potential. Eds.- in-Chief: Donglin Zhang et al. Acta Hort. 769, ISHS pp. 449–455
Hassanein A (2010) Improved quantity of wintwr flowering in Rose (Rosa spp.) by controlling the timing and type of pruning applied in autumn. World J Agric Sci 6(3):260–267
Hayek A., Markgraf F. (1927) Prodromus Florae peninsulae Balcanicae. 1: Pteridophyta, gymnospermae, dicotyledoneae. In Repertorium specierum novarum regni vegetabilis. Beih. ; 30,1. 1193pp, Verlag des Repertoriums. Berlin, Germany (Ge)
Hayek A., Markgraf F. (1931) Prodromus florae peninsulae balcanica. 2: Dicotyledoneae sympetalae 1928-1931. In Repertorium specierum novarum regni vegetabilis. Beih. ; 30,2. 1152 pp. , Verlag des Repertoriums. Berlin, Germany (Ge)
Hegi G (1923) Illustrierte Flora von Mittel Europa, IV, 2, 993
Hibrand-Saint Oyant L, Crespel L, Rajapakse S, Zhang L, Foucher F (2008) Genetic linkage maps of rose constructed with new microsatellite markers and locating QTL controlling flowering traits. Tree Genet Genomes 4:11–23
Hrjanovskii VG (1958) Roses. Moskow, Soviet Science, 497 (Ru)
Hurst CC (1941) Notes on the origin and evolution of our garden roses. J Roy Hort Soc 66:73–82, 242–250, 282–289
Iliev I, Gajdoŝová A, Libiaková G, Mohan Jain S (2010) Plant micropropagation. In: Davey MR, Anthony P (eds) Plant cell culture: essential methods, pp 1–24
InteliAgro (2017) Production of essential oils in Bulgaria. 42, http://inteliagro.bg/article/220/Eterichni-masla-Bulgaria-2017 (Bg)
ISO 9842:2003. Oil of rose (Rosa x damascena Miller). International Standards for Business, Government and Society. Available online: http://www.iso.org
Iwata H, Kato T, Ohno S (2000) Triparental origin of Damask roses. Gene 259:53–59
Jirovets L, Buchbauer G, Shahabi M (2002) Comparative investigations of essential oils and their SPME headspace volatiles of Rosa damascena from Bulgaria and Rosa centifolia from Morocco using GC-FID, GC-MS and olfactometry. J Essent Oil-Bear Plan Theory 5(3):111–121
Karaivanov G (1966) Bulletin for the development of the essential oil industry. 4(2), 20 (Bg)
Kart ÖÇ, Ikiz M, Demircan V (2012) Development of oil rose (Rosa damascena) production and trade in Turkey. Sýüleyman Demirel Űniversitesi Ziraat Fakültesi Dergisi 7(1):124–134
Kaur N, Sharma RK, Sharma M, Singh V, Ahuja P (2007) Molecular evaluation and micropropagation of field selected elites of R. damascena. Gen Appl Plant Physiol 33(3–4):171–186
Kiani M, Zamania Z, Khalighia A, Fatahia R, Byrne D (2008) Wide genetic diversity of Rosa damascena Mill. germplasm in Iran as revealed by RAPD analysis. Sci Hortic 115:386
Kiani M, Zamani Z, Khalighi A, Fatahi R, Byrne DH (2010) Microsatellite analysis of Iranian Damask rose (Rosa damascena Mill.) germplasm. Plant Breed 129(5):551–557
Kluka I. 1964. Biological characteristics of the source material for breeding oil-bearing rose. Thesis. Kishinev (Ru)
Koinov V, Kabakchiev I, Boneva K (1998) Atlas of soils in Bulgaria, Zemizdat, Sofia (Bg)
Kolarova E, Syoynov D, Boneva K (1964) The soils in the areas of the rose plantations. Bulgarian Acad Sci, 126 (Bg)
Komarov VL (1940) Flora of the USSR, vol 10. Israel Program for Scientific Translations, Jerusalem, pp 322–363
Koning-Boucoiran CF, Gitonga VW, Yan Z, Dolstra O, van der Linden CG, van der Schoot J, Uenk GE, Verlinden K, Smulders MJ, Krens FA, Maliepaard C (2012) The mode of inheritance in tetraploid cut roses. Theor Appl Genet 125(3):591–607
Kornova K, Michailova J (1994) Study of the in-vitro rooting of Kazanlak oil-bearing rose (Rosa damascena Mill). J Essent Oil Res 6(5):485–492
Kornova K, Mihailova J, Astadjov N (2000) Application of in vitro techniques for propagation of Rosa Kazanlica Top. Bio Technol Bio Technol Equip 14(2):32–33 (Bg)
Kornova K, Mihailova J, Stefanova A (2001) Propagation of Rosa Kazanlika Top. (Rosa damascena var. Trigintipetala) using the in vitro method. Sci Works 46(1):61–66 (Bg)
Kovacheva N (2007) Characterization gene found of oil-bearing roses. Productivity and variability of some symptoms. Thesis. Plovdiv, 171 (Bg)
Kovacheva N (2010) New hybrid of oil-bearing rose. Agric Sci Plant Stud 1:191–199 (Bg)
Kovacheva N (2014) The results of the selection improvement work with oil-bearing rose in Bulgaria. In: Novelties in the cultivation and processing of essential oil crops. Bulpak Print Ltd, Kazanlak, p 151
Kovacheva N, Nedkov N (2009) Influence of pruning on some economic indicators for oil-bearing roses. Agric Sci Plant Stud 1:455–459
Kovacheva N, Nedkov N (2012) Effect of application of basic (rejuvenating) pruning on production traits of oil – bearing rose. Bulgarian J Agr Sci 18(4):578–582
Kovacheva N, Rusanov K, Atanassov I (2010a) Adaptive possibility and yield stability of varieties oil-bearing roses. Agric Sci Technol, ISSN 1313-8820 2(2):61–63
Kovacheva N, Rusanov K, Atanassov I (2010b) Industrial cultivation of oil bearing rose and rose oil production in Bulgaria during 21 st century, directions and challenges. Biotechnol Biotechnol Equip 24:1793–1798
Kovats E (1987) Composition of essential oils. Part 7. Bulgarian oil of rose (Rosa damascena Mill.). J Chromatogr 406(2):185–222
Kumar R, Sharma S, Sood S, Agnihotri V, Singh V, Singh B (2013) Evaluation of several Rosa damascena varieties and Rosa bourboniana accession for essential oil content and composition in western Himalayas. J Essent Oil Res 26(3):147–152
Kürkçüolu M, Baser KHC (2003) Studies on Turkish rose concrete, absolute and hydrosol. Chem Nat Compd 39(5):457–464
Lambev H (2011) Influence of organic fertilizer |Hummus life-universal on the development and productivity of Rosa damascena Mill. Sci Technol 1(6):118–121 (Bg)
Linde M, Mattiesch L, Debener T (2004) Rpp1, a dominant gene providing race-specific resistance to rose powdery mildew (Podosphaera pannosa): molecular mapping, SCAR development and confirmation of disease resistance data. Theor Appl Genet 109(6):1261–1266
Linde M, Hattendorf A, Kaufmann H, Debener T (2006) Powdery mildew resistance in roses: QTL mapping in different environments using selective genotyping. Theor Appl Genet 113(6):1081–1092
Mahboubi M (2016) Rosa damascena as holy ancient herb with novel applications. J Tradit Complement Med 6:10–16
Margina A, Lecheva I, Craker L, Zheljazkov V (1997) Diseases and pests on Bulgarian oil-bearing rose (Rosa kazanklika V.T. = Rosa damascena mill. Var. kazanlika). Acta Hort 502:237–242
Michoff N (1950) Contributia. Svichtova, 57 (Bg)
Mihailova J. and Kalaidzhieva M. 1984. Study self-pollination of Kazanlik oil-bearing rose hybrids. National Science Session, 28–29 June, Kazanlak (Bg)
Mirali N, Aziz R, Nabusli I (2012) Genetic characterization of Rosa damascena species growing in different regions of Syria and its relationship to the quality of the essential oils. Int J Med Arom Plants 2(1):41–52
Mirza MQB, Ishfaq AH, Azhar H, Touqeer A, Nadeem AA (2011) An efficient protocol for in vitro propagation of Rosa Gruss an Teplitz and Rosa centifolia. Afr J Biotechnol 10(22):4564–4573
Moates G, Reynolds J (1991) Comparison of rose extracts produced by different extraction techniques. J Essent Oil Res 3(9):289–294
Moghaddam H, Leus L, De Riek J, Van Huylenbroeck J, Van Bockstaele E (2012) Construction of a genetic linkage map with SSR, AFLP and morphological markers to locate QTLs controlling pathotype-specific powdery mildew resistance in diploid roses. Euphytica 184:413–427
Nazarenko LG (1978) Inheritance of the flower whit many petals in the oil-bearing roses in the first-generation hybrids. Sel Seed Prod Kiev 40:81–83 (Ru)
Nazarenko LG (1983) Raduga – new sort essential oil rose. Writ VNII Essent Oils Crop XV:49–54 (Ru)
Nazarenko LG, Grishchenko LA (1990) Selection new sorts – a way to increase the productivity of plantations oil-bearing rose. Fifth symposium, 17–18 September, Reports, 33–34, Simferopol (Ru)
Nazarenko L, Minkov B, Mustyatse G, Murin A (1983) Culture oil-bearing rose. Shtiintsa, Kishinev (Ru)
Nazarenko LG, Ggrishchenko LA, Grigorenko KP, Skripkin NS (1984) A new rose variety. Essent Oil Crops 6:35 (Ru)
Nedkov N, Kanev K, Kovacheva N, Stanev S, Djurmanski A, Seikova K, Lambev H, Dobreva A (2005) A handbook on main essential oils crop. Helicon, Kazanlak (Bg)
Nenov N, Atanasova T, Gochev V, Merdzhanov P, Girova T, Djurkov T, Stoyanova A (2016) New product from Bulgarian rose. Proc Int Sci Pract Conf World Sci Dubai 3(7):17–22
Nikolov T (1924) Source materials for the selection of our oil-bearing roses. J Agric Res Instit, book 1, IIIр Sofia (Bg)
Nikolov N, Tsutsulova A, Nenov N (1977) Bulgarian rose oil and other essential oils. MBI 2(41):41–45 (Ru)
Nilsson O (1972) Rosa. In: Davis PH (ed) Flora of Turkey and the Aegean Islands, vol 4. Univ. Press, Edinburgh, pp 106–128
Oka N, Ohishi H, Hatano T, Hornberger M, Sakato K, Watanabe N (2014) Aroma evolution during flower opening in Rosa damascena Mill. Z Naturforsch 54(11):889–895
Omata A, Yomogida K, Nakamura S, Ota T, Toyoda T, Amano A, Mura S (1991) New sulphur components of rose oil. Flavour Fragr J 6(2):149–152
Pal KP (2013) Evaluation, genetic diversity, recent development of distillation method, challenges and opportunities of Rosa damascena: a review. TEOP 16(1):1–10
Paskalev G (1986) Research on key elements of technology development and cultivation of intensive crops of Kazanlak rose, Thessis, Agrarian University, Plovdiv, 152 pp. (Bg)
Paskalev G, Tshachev S (1982) Studies on the rejuvenation of rose plants grown by mulching with polyethylene film. Plant Sci 19(7):36–38 (Bg)
Pati PKSP, Rath MS, Sood A, Ahuja PS (2006) In vitro propagation of rose: a review. Biotechnol Adv 24:94–114
Paul T, Siddique M, John A (1995) Effect of severity and time of pruning on growth and flower production of Rosa damascene Mill. An important aromatic plant. Adv Plant Sci 8(1):28–32
Pellati F, Orlandini G, Van Leeuwen K, Anesin G, Bertelli D, Paolini M, Benvenuti S, Camin F (2013) Gas chromatography combined with mass spectrometry, flame ionization detection and elemental analyzer/isotope ratio mass spectrometry for characterizing and detecting the authenticity of commercial essential oils of Rosa damascena Mill. Rapid Commun Mass Spectrom 27:591–602
Penkov M and Kovatcheva N (2013) The soils and their influence on the development and productivity of oil bearing rose. Journal of Mountain Agriculture on the Balkans 16:1585–1601 (Bg)
Pirseyedi S, Mardi M, Davazdahemami S, Krermani M, Mohammadi S (2005) Analysis of the genetic diversity of 12 Iranian Damask rose (Rosa damascena Mill.) genotypes using amplified fragment length polymorphism markers. Iran J Biotechnol 3:225–230
Ponomaryova N, Tyutyonnik V and Koshkaryov A (1979) The study of the essential oil of a single rose flower. Scientific Works of High Institute of Essential Oil Plants, Sympheropol (Ukraine) 12:71–77 (Ru)
Popova M, Kozhuharova K (1987) Studies on the hybridization of Rosa canina L. and Rosa Kazanlika V.T. IV Nation Conf Botany, Sofia, p. 2, 79–85 (Bg)
Porwal R, Nagra CL, Pindir JPC (2002) Effects of pruning severity and growth retardants on the vegetative growth, flower yield and oil content of damask rose (Rosa damascena Mill.). J Appl Hortic 4(1):37–40
Raymond O, Gouzy J, Just J, Badouin H, Verdenaud M, Lemainque A, Vergne P, Moja S, Choisne N, Pont C, Carrère S, Caissard J-C, Couloux A, Cottret L, Aury J-M, Szécsi J, Latrasse D, Madoui M-A, François L, Fu X, Yang S-H, Dubois A, Piola F, Larrieu A, Perez M, Labadie K, Perrier L, Govetto B, Labrousse Y, Villand P, Bardoux C, Boltz V, Lopez-Roques C, Heitzler P, Vernoux T, Vandenbussche M, Quesneville H, Boualem A, Bendahmane A, Liu C, Le Bris M, Salse J, Baudino S, Benhamed M, Wincker P, Bendahmane M (2018) The Rosa genome provides new insights into the domestication of modern roses. Nat Genet 50:772. https://doi.org/10.1038/s41588-018-0110-3
Remay A, Lalanne D, Thouroude T, Le Couviour F, Hibrand-Saint Oyant L, Foucher F (2009) A survey of flowering genes reveals the role of gibberellins in floral control in rose. Theor Appl Genet 119(5):767–781
Reverchon E, Della Porta G (1996) Rose concrete fractionation by supercritical CO2. J Supercrit Fluids 9(3):199–204
Reverchon E, Della Porta G, Gorgoglio D (1997) Supercritical CO2 extraction of volatile oil from rose concrete. Flavour Fragr J 12(1):37–41
Rietjens IMCM, Boersma MG, van der Woude H, Jeurissen SMF, Schutte ME, Alink GM (2005) Flavonoids and alkenylbenzenes: mechanisms of mutagenic action and carcinogenic risk. Mutat Res Fundam Mol Mech Mutagen 574(1–2):124–138
Roman H, Rapicault M, Miclot AS, Larenaudie M, Kawamura K, Thouroude T, Chastellier A, Lemarquand A, Dupuis F, Foucher F, Loustau S, Hibrand-Saint Oyant L (2015) Genetic analysis of the flowering date and number of petals in rose. Tree Genet Genomes 11(4):1–13
Rusanov K, Kovacheva N, Atanassov A, Atanassov I (2005a) Lessons from the microsatellite characterization of a segregating population derived from seeds of open pollinated Rosa damascena Mill. F. Trigintipetala plants. Biotechnol Biotechnol Equip 19(2):72–79
Rusanov K, Kovacheva N, Vosman B, Zhang L, Rajapakse S, Atanassov A, Atanassov I (2005b) Microsatellite analysis of Rosa damascena Mill. accessions reveals genetic similarity between genotypes used for rose oil production and old Damask rose varieties. Theor Appl Genet 111(4):804–809
Rusanov K, Kovacheva N, Rusanova M, Atanassov I (2011) Traditional Rosa damascena flower harvesting practices evaluated through GC/MS metabolite profiling of flower volatiles. Food Chem 129(4):1851–1859
Rusanov K, Kovacheva N, Rusanova M, Atanassov I (2012) Low variability of flower volatiles of Rosa damascena Mill. plants from rose plantations along the Rose Valley, Bulgaria. Ind Crop Prod 37:6–10
Saakov S (1965) The origin of garden roses and the trend in the development of their selection. Akad. Nauk SSSR. Bot. Inst. V. L. Komarova. Komarovskie Chteniya 18, 24 pp., Moscow, USSR
Safari V, Khalighi A, Lesani H, Babalar M, Obermaier J (2004) Effect of different plant growth regulators and time of pruning on yield components of Rosa damascena Mill. Int J Agric Biol 6:1040–1042
Semenova EF, Mezhennaya NA, Prsnyakova EV (2014) Anatomical morphological features of petals as an essential structure of flower of representatives genus Rosa. Nat Sci Biol 3(7):5–17 (Ru) Session- Conference, 28–29 June, Kazanlak, 33–66 (Bg)
Shahbazi K, Esmaeili A (2012) Evaluation effective interaction essence compound in Rosa damascenes genotypes. Intl J Agri Crop Sci 4(24):1827–1832
Shawl AS, Adams R (2009) Rose Oil in Kashmiri India. Perfum Flav 34:22–25
Singh DV, Ram M (1987) Effect of spacing, extent of pruning, growth hormone and nutrients on flower yield of essential oil bearing rose (Rosa damascena) in subtropical India. Acta Hort (ISHS) (208):83–86
Singh M, Singh A, Singh K, Singh HP (2002) Optimum time of pruning and comparative performance of Indian and Bulgarian clones of Damask rose (Rosa damascena) under subtropical climate of central U.P. J Med Aromat Plant Sci 24(4):978–983
Spiller M, Berger RG, Debener T (2010) Genetic dissection of scent metabolic profiles in diploid rose populations. Theor Appl Genet 120(7):1461–1471
Spiller M, Linde M, Hibrand-Saint Oyant L, Tsai CJ, Byrne DH, Smulders MJ, Foucher F, Debener T (2011) Towards a unified genetic map for diploid roses. Theor Appl Genet 122(3):489–500
Staykov V (1965) Study on the biology of flowering, pollination and fertilization of the Kazanlak Rose (Rosa damascena Mill.) in connection with the selection. Thesis for DSc. Agricultural Academy, Sofia, 316 pp. (Bg)
Staykov V, Astadzhov N (1975) New varieties of oil-bearing rose. Sat Scientific session, 15–16 May, Sofia, 110–117 (Bg)
Staykov V, Kalaidzhiev I (1972) Results of the interspecies hybridization of the oil-bearing rose. Sel Technol Cultiv Essent Oil Crops 5:168–173 (Ru)
Staykov V, Kalaidzhiev I (1980) Studies on oil-bearing roses (R. damascena Mill.) originating in India, Morocco, Iran and Bulgaria. Plant Breed Sci XVII(4) (Bg)
Staykov V, Decheva R, Balinova-Tsvetkova A (1975) Studies on the composition of rose oil obtained from the flowers in different stages of their development. Rivista Italiana 57(4):192–195
Stoyanov N (1948) History and origin of our cultivated plants, Bulgarian Academy of Sciences, Sofia, Bulgaria, 63 pp (Bg)
Tabaei-Aghdaei SR, Hosseini Monfared H, Fahimi H, Ebrahimzade H, Jebelly M, Naghavi MR, Babaei A (2006) Genetic variation analysis of different populations of Rosa damascena in NW. Iran using RAPD markers. Iran J Bot 12:121–127
Tabaei-Aghdaei SR, Babaei A, Khosh-Khui M, Jaimand K, Rezaee MB, Assareh MH, Naghavi MR (2007) Morphological and oil content variations amongst Damask rose (Rosa damascena Mill.) landraces from different regions of Iran. Sci Hortic 113(1):44–48
Tobyn G, Denham A, Whitelegg M (2011) Rosa damascena, Damask rose. In Chapter 25. Med Herbs:253–270
Todorov M, Kanev K, Tsachev S (1989) Study on the pruning of the top part of the rose bushes in order to create a machine for forming their habitus. Agric Tech 24(2):35–41 (Bg)
Topalov P (1954) Bulletin for the development of the essential oil industry. 6:38 (Bg)
Topalov V (1962) Aromatic and medicinal plants. Hristo G. Danov. Plovdiv (Bg)
Topalov V (1978) The Kazanlak rose and the rose production in Bulgaria. Plovdiv, Hristo G. Danov, 210 (Bg)
Topalov V, Irinchev I (1967) Rose production in Bulgaria. Plovdiv. Hristo G. Danov, 186 (Bg)
Tshachev S, Paskalev G (1982) On the rejuvenation of the Kazanlak rose under extreme conditions. Plant Sci 19(6):54–57 (Bg)
Tsvetkov R (1984) Mutation selection in Kazanlak oil-bearing rose. Plant Sci 8:92–98 (Bg)
Ulusoy S, Boşgelmez-Tınaz G, Seçilmiş-Canbay H (2009) Tocopherol, carotene, phenolic contents and antibacterial properties of rose essential oil, hydrosol and absolute. Curr Microbiol 59:554–558
Verma RS, Padalia RC, Chauhan A, Singh A, Yadav AK (2011) Volatile constituents of essential oil and rose water of damask rose (Rosa damascena Mill.) cultivars from North Indian hills. Nat Prod Res 25(17):1577–1584
Vlasova VS (1985) Obtaining high-yielding forms of oil-bearing roses by the method of inbredding. Main directions of research on the intensification of essential oil production. 1:15–16 (Ru)
von Malek B, Debener T (1998) Genetic analysis of resistance to blackspot (Diplocarpon rosae) in tetraploid roses. Theor Appl Genet 96(2):228–231
Widrlechner PM (1981) History and utilization of Rosa damascena. Econ Bot 35(1):42–58
Wilde P (1996) Fragrance extraction. US Patent № 5512285. Available at: https://patents.Google.com/patent/US5512285A/en
Yan Z, Denneboom C, Hattendorf A, Dolstra O, Debener T, Stam P, Visser PB (2005) Construction of an integrated map of rose with AFLP, SSR, PK, RGA, RFLP, SCAR and morphological markers. Theor Appl Genet 110(4):766–777
Yokoya K, Roberts AV, Mottley J, Lewis R, Brandham PE (2000) Nuclear DNA amounts in roses. AnnBot 85:557–561
Zarev K (2008) Bulgarian rose production and the traditional culture. Kazanlak. 272 (Bg)
Zarina G, Munir M, Qasim M, Jamil M, Baloch J, Gomal U, Khan D (2004) Effect of extent of pruning on growth and flowering characteristics of six exotic rose cultivars. Sarhad J Agric 20(4):501–506
Zlatev S, Margina A, Tcvetkov R (2001) Breeding of Kazanlik oil-bearing rose. Kazanlak, 40 (Bg)
Zǔraw B, Sulborska A, Stawiarz E, Weryszko-Chmielewska E (2015) Flowering biology and pollen production of four species of the genus Rosa L. Acta Agrobot 68(3):267–278
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Rusanov, K., Kovacheva, N., Dobreva, A., Atanassov, I. (2020). Rosa x damascena Mill. (Rose). In: Novak, J., Blüthner, WD. (eds) Medicinal, Aromatic and Stimulant Plants. Handbook of Plant Breeding, vol 12. Springer, Cham. https://doi.org/10.1007/978-3-030-38792-1_14
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