Abstract
The genus Daphne L. (Thymelaeceae family) contains approximately 70 species distributed across Europe and temperate and subtropical Asia, with a few representatives in North Africa. All species can be classified as shrubs, and vary in stature between the prostrate D. jasminea (eastern Mediterranean) and the upright D. bholua (eastern Himalayas), which can grow to over 3 m. Daphne plants are grown for their ornamental value in Europe, New Zealand (Christie and Brascamp 1989) and the USA (Gaschk 1989), where they are noted particularly for the fragrance of their flowers, often borne in early spring when few other shrubs are in bloom, and for their generally dwarf growth habit. However, their commercial availability is limited due to their slow growth, and the protracted development of a saleable plant of good form in the nursery. Where they can be readily propagated by seed (D. mezereum, D. laureola and D. pontica) or by cuttings (D. x burkwoodii and D. odora clones and D. cneorum forms) plants are more readily available (Brickell and Mathew 1976). In general, most species are currently underexploited.
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References
Brickell CD, Mathew B (1976) Daphne. The genus in the wild and in cultivation. The Alpine Garden Society, Woking
Bruckel D (1989) Propagating Carol Mackie is well worth the effort. Am Nurseryman 170: 62–68
Carosielli LA, Iaffaldano D, Troncone A, Palermo D (1991) Avvelenamento di trote (Salmo gairdneri) e di carpe a specchio (Cyprinus carpio) da Daphne gnidium L. Obiettivi Documenti Veterinari 12: 39–44
Christie CB, Brascamp W (1989) Exflasking high health Daphne plantlets. Comb Proc Int Plant Prop Soc 38: 394–398
Cohen D (1977) Thermotherapy and meristem-tip culture of some ornamental plants. Acta Hortic 78: 381–388
Cohen D, Le Gal PM (1976) Micropropagation of Daphne x burkwoodii Turrill. Comb Proc Int Plant Prop Soc 26: 330–333
Constantine DR, Abbott AJ, Wiltshire SE (1980) Metabolism and experimental morphogenesis in cell and tissue cultures. Rep Long Ashton Res Stn 1979: 72–73
Constantine DR, Abbott AJ, Wiltshire SE (1982) Metabolism and experimental morphogenesis in cell and tissue cultures. Rep Long Ashton Res Stn 1980: 77–78
Debergh PC, Maene LJ (1981) A scheme for commercial propagation of ornamental plants by tissue culture. Sci Hortic 14: 335–345
Debergh PC, Read PE (1991) Micropropagation. In: Debergh PC, Zimmerman RH (eds) Micropropagation, technology and application. Kluwer, Dordrecht, pp 1–13
Gaschk M (1989) Daphne: the plants. Am Nurseryman 169: 35–43
Howard BH, Jones OP, Vasek J (1989) Long-term improvement in the rooting of plum cuttings following apparent rejuvenation. J Hortic Sci 64: 147–156
Inamori Y, Takeuchi K, Baba K, Kozawa M (1987) Antifungal and insecticidal activities of daphnodorins A, B and C. Chem Pharm Bull (Tokyo) 35: 3931–3934
Jeanrenaud JP (1984) Lokta (Daphne spp.) and craft paper-making in Nepal. A report on the current status, based on a literature review and preliminary field observations (May 1984-October 1984). Department of Forests, Forest Research and Information Centre, Kathmandu, Nepal
Jeanrenaud JP (1985) Propagation and silviculture of lokta (Daphne) in Nepal. Forest Survey and Research Office, Department of Forests, Kathmandu, Nepal, no 43
Jones OP, Webster CA (1989) Improved rooting from conventional cuttings taken from micropropagated plants of Pyrus communis rootstocks. J Hortic Sci 64: 429–434
Kasai R, Lee KH, Huang HC (1981) Genkwadaphnin, a potent anti-leukaemic diterpene from Daphne genkwa. Phytochem 20: 2592–2594
Kogiso S, Wada K, Munadata K (1976) Odoracin, a nematicidal constituent from Daphne odora. Agric Biol Chem 40: 2119–2120
Lamb JGD, Nutty FJ (1986) Observations on the propagation of Daphnes. Plantsman 8: 109–111
Leifert C, Pryce S, Lumsden PJ, Waites WM (1992) Effect of medium acidity on growth and rooting of different plant species in vitro. Plant Cell Tissue Organ Cult 30: 171–179
Li Z, Chen Y (1986) Some factors which enhance the rapid propagation of Daphne odora Thunb. in vitro. Acta Hortic Sinica 13: 276–280
Linsmaier EM, Skoog F (1965) Organic growth factor requirements of tobacco tissue cultures. Physiol Plant 18: 100–127
Lloyd G, McCown B (1981) Commercially-feasible micropropagation of mountain laurel, Kalmia latifolia, by use of shoot tip culture. Comb Proc Int Plant Prop Soc 30: 421–437
Loach K (1988) Controlling environmental conditions to improve adventitious rooting. In: Davis TD, Haissig BE, Sankhla N (eds) Adventitious root formation in cuttings. Dioscorides Press, Portland, pp 248–273
Marks TR (1987) Micropropagation of hardy ornamental nursery stock. In: Alderson PG, Dulforce WM (eds) Micropropagation in horticulture. Trent Print Unit, University of Nottingham, pp 71–83
Marks TR (1991) Rhododendron cuttings. I. Improved rooting following “rejuvenation” in vitro. J Hortic Sci 66: 103–111
Marks TR, Myers PE (1992) Effect of explant location upon early culture development in vitro. J Hortic Sci 67: 583–591
Marks TR, Myers PE (1994) Physiological variability arising from in vitro culture is induced by shoot selection and manipulation strategies. J Hortic Sci 69: 1–9
Marks TR, Simpson SE (1990) Reduced phenolic oxidation at culture initiation in vitro following the exposure of field-grown stockplants to darkness or low levels of irradiance. J Hortic Sci 65: 103–111
Marks TR, Simpson SE (1994) Factors affecting shoot development in apically dominant Acer cultivars in vitro. J Hortic Sci 69: 543–541
Marks TR, Wiltshire SE (1985). Weaning. Micropropagation of hardy ornamentals. Rep E Malling Res Stn 1984: 5
Mok MC, Mok DWS, Armstrong DJ, Shudo K, Isogai Y, Okamoto T (1982) Cytokinin activity of N-phenyl-N2032–1,2,3-thiadiazol-5-ylurea (thidiazuron). Phytochemistry 21: 1509–1511
Murashige T, Skoog F (1962) A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol Plant 15: 473–497
Nikaido T, Ohmoto T, Sankawa U (1987) Inhibitors of adenosine 32032,52032-cyclic monophosphate phosphodiesterase in Daphne genkwa Sieb. et Zucc. Chem Pharm Bull 35: 675–681
Pernthaner A, Langer T (1993) Poisoning with Daphne mezereum in cattle. Wiener Tierarztl Monatsschr 80: 138–142
Richards M (1985) Enclosed mist system for propagation of broad-leaved evergreens. Comb Proc Int Plant Prop Soc 34: 50–53
Ripphausen F (1990) Propagation and nutrition of Daphne cutting and tissue culture plantlets. Comb Proc Int Plant Prop Soc 39: 305–308
Saikia CN, Chaliha BP, Lodh SB, Iyengar MS (1972) Bark of Supkaseng (Daphne cannabina): a unique raw material for paper making. Indian Pulp Pap 26: 42–47
Schum A, Muller C (1987) Vegetative Vermehrung einer Daphne cneorum-Hybride in vitro. Dtsch Baumschule 39: 34–35
Sweet JB, Constantine DR, Sparks TR (1979) The elimination of three viruses from Daphne spp. by thermotherapy and meristem excision. J Hortic Sci 54: 323–326
Topcuoglu A (1948) Production of Daphne (D. oleoides) leaves. Orman Av 20: 112–113
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© 1997 Springer-Verlag Berlin Heidelberg
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Marks, T.R. (1997). Micropropagation of Daphne L.. In: Bajaj, Y.P.S. (eds) High-Tech and Micropropagation VI. Biotechnology in Agriculture and Forestry, vol 40. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-662-03354-8_9
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DOI: https://doi.org/10.1007/978-3-662-03354-8_9
Publisher Name: Springer, Berlin, Heidelberg
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