Abstract
Some 450 Quercus spp., found distributed throughout the world, are crops of major importance to forest industries such as timber, tan bark, or cork. Among the most noteworthy are: Q. aegilops L. for tanning (East Europe, West Asia); Q. alba L. for timber (North America); Q. robur L. for timber and tan bark (Europe, West Asia); Q. tinctoria Bartr. bark for yellow dye (North America; Willis 1973).
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
Preview
Unable to display preview. Download preview PDF.
References
Bellarosa R (1981) In vitro culture of Quercus suber L. embryos. In: Coll Int Culture in vitro des essences forestières, Nangis, France. AFOCEL (Association Foret-Cellulose), pp 119–126
Bellarosa R (1989) Oak (Quercus spp.). In: Bajaj YSP (ed) Biotechnology in agriculture and forestry, vol. 5. Trees II. Springer, Berlin Heidelberg New York, pp 387–401
Cai T, Daly B, Butler L (1987) Callus induction and plant regeneration from shoot portions of mature embryos of high tannin sorghums. Plant Cell Tissue Organ Cult 9: 245–252
Chalupa V (1979) In vitro propagation of some broad-leaved forest trees. Commun Inst For Cech 11: 159–170
Chalupa V (1981) Clonal propagation of broad-leaved forest trees in vitro. Commun Inst For Cech 12: 255–271
Chalupa V (1984) In vitro propagation of oak (Quercus robur L.) and linden (Tilia cordata Mill.) Biol Plant 26: 374–377
Chalupa V (1990) Plant regeneration by somatic embryogenesis from cultured immatured embryos of oak (Quercus robus L.) and linden (Tilia cordata Mill.). Plant Cell Rep 9: 398–401
Chang WC, Hsing YL (1980) Plant regeneration through somatic embryogenesis in root derived callus of ginseng (Panax ginseng C.A. Meyer). Theor Appl Genet 57: 133–135
Chèvre AM, Gill SS, Mouras A, Salessas G (1983) In vitro vegetative multiplication of chestnut. J Hortic Sci 58: 23–29
Haraguchi M (1987) Induction of embryoids by cotyledon culture in Quercus acutissima. Bull Kanto Branch Jpn For Soc 39: 99–100
Haraguchi M (1988) Plantlet regeneration from adventitious embryos induced by cotyledon cutlure in Quercus acutissima. J Jpn For Soc 70: 411–416
Hatano K, Shoyama Y, Nishioka I (1987) Somatic embryogenesis and plant regeneration from the anther of Aconitum carmichaeli Debx. Plant Cell Rep 6: 446–448
Hiraoka N, Kodama T, Oyanagi M, Nakano S, Tomita Y, Yamada N, Iida O, Satake M (1986) Characteristics of Bupleurum falcatum plants propagated through somatic embryogenesis of callus culture. Plant Cell Rep 5: 319–321
Ide Y, Yamamoto S (1986) In vitro plantlet regeneration from axillary buds of juvenile seedling of Kunugi (Quercus acutissima). J Jpn For Soc 68: 472–474
Ishimaru K, Nonaka G, Nishioka I (1987a) Tannin and related compounds LV. Isolation and characterization of acutisimins A and B, novel tannin from Quercus and Castanea species. Chem Pharm Bull 35: 602–610
Ishimaru K, Nonaka G, Nishioka I (1987b) Phenolic glucoside gallates from Quercus mongolia and Q. acutissima. Phytochemistry 26: 1147–1152
Lee BC, Kim JH, Park JI (1985) Induction of plantlets by bud culture in Quercus acutissima. Res Rep Inst For Gen Korea 21: 104–108
Lloyd G, McCown BH (1980) Commercially feasible micropropagation of mountain laurel, Kalmia latifolia, by use of shoot tip culture. Comb Proc Int Plant Propagations Soc 30: 421–427
Manzanera J A, Pardos J A (1990) Micropropagation of juvenile and adult Quercus suber L. Plant Cell Tissue Organ Cult 21: 1–8
McCown DD, McCown BH (1987) North American hardwood. In: Bonga JM, Durzan JD (ed) Cell and tissue culture in forestry, vol 3. Nijhoff, Dordrecht, pp 247–260
Miura Y, Fukui H, Tabata M (1988) Reduced inhomogeneity of Angelica acutiloba plants propagated clonally through somatic embryos. Planta Med 54: 79–81
Murashige T, Skoog F (1962) A revised medium for rapid growth and bioassay with tobacco tissue culture. Physiol Plant 15: 473–497
Nakazawa Y, Toda Y (1987) Mass propagation of Kunnugi (Quercus acutissima Carruth) by in vitro tissue culture. For Tree Breed 142: 20–22
Nkanka BK (1982) Influence de la vitamine E sur la multiplication végétative in vitro de l’Eucalytpus rudis Endl, Larix x eurolepis Henry et de Quercus borealis Michx. Bull Rech Agron Gembloux 17 (3): 219–226
Nonaka G, Ishimaru K, Nishioka I (1984) Tannin and related compounds XIII. Galloylhamameloses from Castanea crenata L. and Sanguisorba officinalis L. Chem Pharm Bull 32: 483–489
Pardos JA (1981) In vitro plants formation from stem pieces of Quercus suber L. In: Coll Int Culture in vitro des essences forestieres, Nangis, France, AFOCEL (Association Foret-Cellulose), pp 186–190
Qi-guang Y, Read PE, Fellman, CC, Hosier MA (1986) Effect of cytokinin, IBA and rooting regime on Chinese chestnut cultured in vitro. Hort Science 21: 133–134
Rodriguez R (1982) Multiple shoot bud formation and plantlet regeneration on Castanea sativa Mill. seeds in culture. Plant Cell Rep 1: 161–164
Sanjose MC, Vieitez AM, Vieitez E (1982) In vitro plantlet regeneration from adventitious buds of chestnut. J Hort Sci 59: 359–361
Sasaki Y, Shoyama Y (1988) Differences of individual stocks on tissue culture of Quercus acutissima Carr. Bull Kyushu Branch Jpn For Soc 41: 63–64
Sasaki Y, Shoyma Y (1989) Effect of some additives on somatic embryo propagation of Quercus acutissima Bull Kyushu Branch Jpn For Soc 42: 81–82
Sasaki Y, Shoyama Y, Nishioka I, Suzaki T (1988) Clonal propagation of Quercus acutissima Carruth by somatic embryogenesis from embryonic axes. J Fac Agar Kyushu Univ 33: 95–101
Seckinger GR, McCown B, Struckmeyer BE (1979) Production of anomalous structures in Quercus rubra L. callus cultures. Am J Bot 66: 993–996
Shoyama Y, Hatano K, Nishioka I (1983) Rapid and simple multiplication of Pinellia ternata by tissue culture. Planta Med 47: 103–105
Shoyama Y, Nishioka I, Fujioka N, Kohda H, Yamasaki K (1987) Clonal multiplication of Panax japonicus by tissue culture. Shoyakugaku Zasshi 41: 333–337
Shoyama Y, Sasaki Y, Nishioka I (1988) Clonal propagation of Quercus acutissima by somatic embryogenesis from embryonic axes. In: Conf Advanced technology and plant breeding strategy, potential application to woody species, Paris, Abstr, p 61
Srivastava PS, Steinhauer A (1982) In vitro culture of embryo segments of Quercus lebani: organogenesis and callus growth as a differential response to experimental conditions. Z Pflanzenphysiol 106: 93–96
Toda Y (1969) Karyotype and chromsome number in Quercus spp. Bull. Kyushu Branch Jpn For Soc 23: 148–150
Vieitez AM, Vieitez ML (1978) In vitro culture of cotyledon tissue of Castanea sative. Sci Hortic 8: 243–247
Vieitez AM, Vieitez ML (1980a) Plantlet formation from embryonic tissue of chestnut grown in vitro. Physiol Plant 50: 127–130
Vieitez AM, Vieitez ML (1980b) Culture of chestnut shoots from buds in vitro. J. Hortic Sci 55: 83–84
Vieitez AM, Vieitez ML (1982) Castanea sativa plantlet proliferated from axillary buds cultivated in vitro. Sci Hortic 18: 343–351
Vieitez AM, Sanjose MC, Vieitez E (1985) In vitro plantlet regeneration from juvenile and mature Quercus robus L. J Hortic Sci 60: 99–106
Willis JC (1973) A dictionary of the flowering plants and ferns, 8th edn. Univ Press, Cambridge, pp 972
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1992 Springer-Verlag Berlin Heidelberg
About this chapter
Cite this chapter
Shoyama, Y., Sasaki, Y., Nishioka, I., Suzaki, T. (1992). Clonal Propagation of Oak (Quercus acutissima Carruth). In: Bajaj, Y.P.S. (eds) High-Tech and Micropropagation II. Biotechnology in Agriculture and Forestry, vol 18. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-76422-6_9
Download citation
DOI: https://doi.org/10.1007/978-3-642-76422-6_9
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-76424-0
Online ISBN: 978-3-642-76422-6
eBook Packages: Springer Book Archive