Abstract
Myrtus communis L, ‘Common myrtle’ is a Mediterranean evergreen shrub, growing in the wild in hill regions from Morocco to Iran. The common myrtle has been used since ancient times as an ornamental and as a source of fragrance and medications. Its cultivation also dates back to the classic era. Major current uses include production of leaf essential oil for aromatherapy and perfume industry, production of liqueurs and the use of myrtle as one of the ‘Four species’ in the ritual of the Jewish feast of Tabernacles (Sukkot). Myrtle shoots for Tabernacles need to have a tricussate (three-leaved) phyllotactic arrangement. Wild myrtle as well as ornamental myrtle shrubs give rise to a small percentage of tricussate shoots. However, severe pruning either solely or followed by burning of myrtle shrubs during winter or early spring were found to dramatically increase the yield of tricussates; a technique currently used in cultivation of the tricussate myrtle in Israel. Detailed analyses of myrtle essential oils are currently available, revealing α-pinene as the principal constituent out of ca. 40 compounds. The increasing demand by the myrtle liqueur industry in recent decades created an ecological risk for the wild myrtle population of Sardinia. The survival potential and genetic variation among wild myrtle population was evaluated, prompting an extensive selection of the best cultivars, vegetative propagation and cultivation program. The liqueurs, Mirto rosso and Mirto bianco, are produced by hydro-alcoholic infusions of deep purple berries and yellow-white berries (with young shoots), respectively. Myrtus communis’ medical potential focuses on its anti-oxidant as well as anti-hyperglycemic, antibacterial and analgesic properties. Of particular interest are the myrtucommulones, a unique group of myrtle compounds, showing anti-inflammatory and selective apoptosis-inducing activities.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Agrimonti A, Bianchi R, Bianchi A, Ballero M, Poli F, Marmiroli N (2007) Understanding biological conservation strategies: a molecular-genetic approach to the case of myrtle (Myrtus communis L.) in two Italian regions: Sardinia and Calabria. Conserv Genet 8:385–396
Albaladejo RG, Carrillo LF, Aparicio A, Fernandez-Manjarres JF, Gonzalez-Varo JP (2009) Population genetic structure in Myrtus communis L. in a chronically fragmented landscape in the Mediterranean: can gene flow counteract habitat perturbation? Plant Biol 11:442–453
Albaladejo RG, Sebastiani F, González-Martinez SC, González-Varo JP, Vendramin GG, Aparicio A (2010) Isolation of microsatellite markers for the common Mediterranean shrub Myrtus communis (Myrtaceae). Am J Bot 97(5):23–25
Aleksic V, Knezevic P (2014) Antimicrobial and antioxidative activity of extracts and essential oils of Myrtus communis L. Microb Res 169(4):240–254
Appendino G, Bianchi F, Minassi A, Sterner O, Ballero M, Gibbons S (2002) Oligomeric acylphloroglucinols from myrtle (Myrtus communis). J Nat Prod 65:334–338
Barboni T, Cannac M, Massi L, Perez-Ramirez Y, Chiaramonti N (2010a) Variability of polyphenol compounds in Myrtus Communis L. (Myrtaceae) berries from Corsica. Molecules 15(11):7849–7860
Barboni T, Venturini N, Paolini J, Desjobert JM, Chiaramonti N, Costa J (2010b) Characterization of volatiles and polyphenols for quality assessment of alcoholic beverages prepared from Corsican Myrtus communis berries. Food Chem 122:1304–1312
Boelens MH, Jimenez R (1992) The chemical composition of Spanish myrtle oil. Part II. J Essent Oil Res 4(4):349–353
Bruna S, Portis E, Cervelli C, De Benedetti L, Schiva T, Mercuri A (2007) AFLP-based genetic relationships in the Mediterranean myrtle (Myrtus communis L.). Sci Hortic 113:370–375
Canhoto JM, Lopes ML, Cruz GS (1999) Somatic embryogenesis and plant regeneration in myrtle (Myrtaceae). Plant Cell Tissue Organ Cult 57:13–21
Fadda A, Mulas SM (2010) Chemical changes during myrtle (Myrtus communis L.) fruit development and ripening. Sci Hortic 125(3):171–544
Feisst C, Franke L, Appendino G, Werz O (2005) Identification of molecular targets of the oligomeric nonprenylated acylphloroglucinols from Myrtus communis and their implication as anti-inflammatory compounds. J Pharm Exp Ther 315:389–395
González-Varo JP, Albaladejo RG, Aparicio A (2009a) Mating patterns and spatial distribution of conspecific neighbours in the Mediterranean shrub Myrtus communis (Myrtaceae). Plant Ecol 203:207–215
González-Varo JP, Arroyo J, Aparicio A (2009b) Effects of fragmentation on pollinator assemblage, pollen limitation and seed production of Mediterranean myrtle (Myrtus communis). Biol Conserv 142:1058–1065
Greco R (1929) ‘Notizie preliminarisull’ embriologia e la cariologia del ‘Myrtus communis L.’. Nuovo Giorn Bot Italy 36(1):57–59
Grigorivker G (2011) Improvement of myrtle (Myrtus communis L.) branch quality: increasing tricussate phyllotactic arrangement and reducing lateral shoot sprouting. M.Sc. dissertation, The Hebrew University of Jerusalem
Halsall LJ, Dourado AM (2001) Germplasm evaluation of spontaneous myrtle (Myrtus communis L.) for cultivar selection and crop development. New Plantsman 8:224–226
Khosh-khui M, Shekafandeh A, Azarakhsh H (1984) Micropropagation of myrtle. Sci Hortic 22:139–146
Klein JD, Cohen S, Hebbe Y (2000) Seasonal variation in rooting ability of myrtle (Myrtus communisL.) cuttings. Sci Hortic 83(1):71–76
Lucchesini M, Mensuali-Sodi A, Massai R, Gucci R (2001) Development of autotrophy and tolerance to acclimatization of Myrtus communis transplant cultured in vitro under different aeration. Biol Plantar 44(2):167–174
Lucchesini M, Monteforti G, Mensuali-Sodi A, Serra G (2006) Leaf ultrastructure, photosynthetic rate and growth of myrtle plantlets under different in vitro culture conditions. Biol Plantar 50(2):161–168
Mabberley DJ (1997) The plant book, 2nd edn. Cambridge University Press, New York
Melito S, Chessa I, Erre P, Podani J, Mulas M (2013) The genetic diversity of Sardinian myrtle (Myrtus communis L.) populations. Electron J Biotechnol 16(6). ISSN:0717–3458. doi:10.2225/vol16-issue6-fulitext-13
Messaoud C, Khoudja MK, Boussaid M (2006) Genetic diversity and structure of wild Tunisian Myrtus communis L. (Myrtaceae) populations. Genet Res Crop Evol 53:407–417
Migliore J, Baumel A, Juin M, Medail F (2012) From Mediterranean shores to central Saharan mountains: key phylogeographical insights from the genus Myrtus. J Biogeogr 39:942–956
Mueller H, Paul M, Hartmann D, Huch V, Blaesius D, Koeberle A, Werz O, Jauch J (2010) Total synthesis of myrtucommulone A. Angew Chem Int Ed 49:2045–2049
Mulas M (2012) The myrtle (Myrtus communis L.) case, from a wild shrub to a new fruit crop. Acta Hortic 948:235–242
Mulas M, Cani MR (1996) Variability of rooting ability of softwood cuttings in myrtle germplasm. In: Pank F (ed) Proceedings of the international symposium on breeding resistance on medical and aromatic plants, Quedlinburg (Germany) vol 2(1), pp 191–194
Mulas M, Cani MR (1999) Germplasm evaluation of spontaneous myrtle (Myrtus communis L.) for cultivar selection and crop development. J Herbs Spices Med Plants 6(3):31–49
Mulas M, Fadda A (2004) First observations on biology and organ morphology of myrtle (Myrtus communis L.) flower. Agric Mediterr 134(3–4):223–235
Mulas M, Melis RAM (2011) Essential oil composition of myrtle (Myrtus communis) leaves. J Herbs Spices Med Plants 17:21–34
Mulas M, Cani MR, Brigaglia N (1998) Characters useful to cultivation in spontaneous populations of Myrtus communis L. Acta Hortic 457:271–277
Mulas M, Dias Francesconi AH, Perinu B (2002) Myrtle (Myrtus communis L.) as a new aromatic crop: cultivar selection. J Herbs Spices Med Plants 9(2–3):127–131
Nobre J (1994) In vitro shoot proliferation of Myrtus communis L., from field grown plants. Sci Hortic 58:253–258
Nuvoli F, Spano D (1996) Amalisi e prospettive economiche dell’utilizzazione industrial del mirto. Rivista Italiana EPPOS 7(19):231–236
Orlan T (1998) Factors affecting differentiation and growth of shots in myrtle (Myrtus communis L.) with an emphasis on shoots with a tricussate phyllotactic arrangement. PhD dissertation, The Hebrew University of Jerusalem
Ozkan AMG, Guray CG (2009) A Mediterranean: Myrtus communis L. (Myrtle). In: Morel JP, Mercuri AM (eds) Plants and culture: seeds of the cultural heritage of Europe. Edipuglia, Bari, pp 159–168
Parra R, Amo-Marco JB (1996) Effect of plant growth regulators and basal media on in vitro shoot proliferation and rooting of Myrtus communis L. Biol Plantar 38:161–168
Parra R, Amo-Marco JB (1998) Secondary somatic embryogenesis and plant regeneration in myrtle (Myrtus communis L.). Plant Cell Rep 18:325–330
Polunini O (1984) Guia Práctica Ilustrada de la Flora. Editorial Blume, Barcelona, 142
Romani A, Coinu R, Carta S, Pinelli P, Galardi C, Vinciery FF, Franconi F (2004) Evaluation of antioxidant effect of different extracts of Myrtus communis L. Free Radic Res 38:97–103
Rotstein A, Lifshitz A, Kashman Y (1974) Isolation and antibacterial activity of acylphloroglucinols from Myrtus communis. Antimicrob Agents Chemother 6:539–542
Ruffoni B, Airò M, Fascella G, Mascarello C, Zizzo G, Cervelli C (2003) Rooting and acclimatization of ornamental Myrtle genotypes. Acta Hortic 616:255–258
Ruffoni B, Mascarello C, Savona M (2010) In vitro propagation of ornamental Myrtus (Myrtus communis). In: Mohan Jain S, Ochatt SJ (eds) Methods in molecular biology, protocols for in vitro propagation of ornamental plants, vol 589. Humana Press, New York, pp 257–269
Saleh MA, Clark S, Woodward B, Deolu-Sobogun SA (2010) Antioxidant and free radical scavenging activities of essential oils. Ethn Dis 20:S1-78–S1-82
Savikin-Fodulovic KP, Bulatovic VM, Menkovic NR, Grubisic DV (2000) Comparison between the essential oil of Myrtus communis L. obtained from naturally grown and in vitro plants. J Essent Oil Res 12:75–78
Scarpa GM, Milia M, Satta M (2000) The influence of growth regulators on proliferation and rooting of in vitro propagated myrtle. Plant Cell Tiss Org Cult 62(3):175–179
Snoussi A, Hayet BHK, Essaidi I, Zgoulli S, Moncef CM, Thonart P, Bouzouita N (2012) Improvement of the composition of Tunisian Myrtle berries (Myrtus communis L.) alcohol extracts. J Agric Food Chem 60(2):608–614
Stebbins GL (1974) Flowering plants. Evolution above the species level. Belknap Press, Cambridge, MA, 399 pp
Steinmetz Y, Tamari Y, Gotlib Y, Zilkah S (2013) Directives for myrtle growth in Israel. http://shaham.moag.gov.il/ProfessionalInformation/Pages/hanchayot_gidul_adasim_2013.aspx
Sumbul S, Ahmad MA, Asifi M, Akhtar M (2011) Myrtus communis Linn. – a review. Indian J Nat Prod Res 2:395–402
Tuberoso CIG, Barra A, Angioni A, Sarritzu E, Pirisi FM (2006) Chemical composition of volatiles in Sardinian myrtle (Myrtus communis L.) alcoholic extracts and essential oils. J Agric Food Chem 54:1420–1426
Tuberoso CIG, Melis M, Angioni A, Pala M, Cabaras P (2007) Myrtle hydroalcoholic extracts obtained from different selections of Myrtus communis L. Food Chem 101:806–811
Wannes WA, Mhamdi B, Sriti J, Ben Jemia M, Ouchikh O, Hamdaoui G, Kchouk ME, Marzouk B (2010) Antioxidant activities of the essential oils and methanol extracts from myrtle (Myrtus communis var. italica L.) leaf, stem and flower. Food Chem Toxicol 48:1362–1370
Weyerstahl P, Marschall H, Rustaiyan A (1994) Constituents of the essential oil of Myrtus communis L. from Iran. Flavour Fragr J 9(6):333–337
Yoshimura M, Amakura Y, Tokuhara M, Yoshida T (2008) Polyphenolic compounds isolated from the leaves of Myrtus communis. J Nat Med 62:366–368
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Additional information
Dedication: In loving memory of Dr. Tsvi Orlan, who dedicated a lifetime to the study and improvement of three-leaf myrtle shoots for Sukkot.
Rights and permissions
Copyright information
© 2014 Springer Science+Business Media Dordrecht
About this chapter
Cite this chapter
Zilkah, S., Goldschdmidt, E.E. (2014). Myrtle (Myrtus communis L.) – A Native Mediterranean and Cultured Crop Species. In: Yaniv, Z., Dudai, N. (eds) Medicinal and Aromatic Plants of the Middle-East. Medicinal and Aromatic Plants of the World, vol 2. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-9276-9_14
Download citation
DOI: https://doi.org/10.1007/978-94-017-9276-9_14
Published:
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-017-9275-2
Online ISBN: 978-94-017-9276-9
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)