Goat’s Rue (Galega officinalis L.)

  • V. Našinec
  • B. Němcová
Part of the Biotechnology in Agriculture and Forestry book series (AGRICULTURE, volume 10)

Abstract

The genus Galega (Papilionoideae: Galegeae) comprises six to eight herbaceous and perennial species, which can be found from the warm temperate regions of Mediterranean Europe to Iran, three of them being indigenous to the mountainous areas of tropical East Africa (Allen and Allen 1981). Two agriculturally promising species, G. officinalis L. and G. orientalis L., have been introduced to many countries throughout the world, including relatively cold regions of Scandinavia and the Soviet Union. The yields reported from Europe are relatively high, ranging from 40 to 80 t/ha and 0.3 to 0.6 t/ha for the green matter and seeds, respectively (e.g., Kondratiuk and Azarach 1984).

Keywords

Toxicity Sucrose Ethyl Agar Europe 

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References

  1. Allen ON, Allen EK (eds) (1981) The Leguminosae. A source book of characteristics, uses, and nodulation. Wisconsin Univ Press, MadisonGoogle Scholar
  2. Brown DCW, Atanassov A (1985) Role of genetic background in somatic embryogenesis in Medicago. Plant Cell Tissue Organ Cult 4: 111–122CrossRefGoogle Scholar
  3. Faliu L, Puyt JD, Jean-Blein C (1985) Intoxication vegetable: Galega officinalis. Point Vet 17: 453–455Google Scholar
  4. Gamborg OL, Miller RA, Ojima K (1968) Nutrient requirements of suspension cultures of soybean root cells. Exp Cell Res 50: 151–158PubMedCrossRefGoogle Scholar
  5. Kondratiuk EN, Azarach LR (1984) Galega officinalis - a promising fodder plant for the Donbass region. Introdukciya Aklimatizaciya 2: 24–26Google Scholar
  6. Mears JA, Mabry TJ (1971) Alkaloids in the Leguminosae. In: Harborne JB, Boulter D, Turner BL (eds) Chemotaxonomy of the Leguminosae. Academic Press, New York, pp 73–178Google Scholar
  7. Mroginski LA, Kartha KK (1981) Regeneration of pea (.Pisum sativum L. cv. Century) plantlets by in vitro culture of immature leaflets. Plant Cell Rep 1: 64–66Google Scholar
  8. Mroginski LA, Kartha KK, Shyluk JP (1981) Regeneration of peanut ( Arachis hypogaea) plantlets by in vitro culture of immature leaves. Can J Bot 59: 826–830Google Scholar
  9. Murashige T, Skoog F (1962) A revised medium for rapid growth and bioassays with tobacco tissue culture. Physiol Plant 15: 473–497CrossRefGoogle Scholar
  10. Nasinec V, Rakousky S, Nemcova B (1984) Regeneration of Galega plants from primary callus. In: Novak FJ, Havel L, Dolezal J (eds) Proc Int Symp Plant tissue and cell culture. Application to crop improvement. Czech Acad Sci Prague, pp 169–170Google Scholar
  11. Nemcova B, Nasinec V, Chloupek O (1987) In vitro cloning of lucerne. Rostl Vyr 33: 1207–1213Google Scholar
  12. Orshinski BR, Tomes DT (1984) Comparison of plants derived from cuttings, node cultures, and ethyl methanesulfonate treated node cultures of bird’s-foot trefoil ( Lotus corniculatus ). Can J Bot 62: 1501–1504Google Scholar
  13. Pederson GA (1986) In vitro culture and somatic embryogenesis of four Trifolium species. Plant Sci 45: 101–104CrossRefGoogle Scholar
  14. Radwan SS, Kokade CK (1980) Production of higher levels of trigonelline by cell cultures of Trigonella foenum-graecum than by the differentiated plant. Planta Medica 147: 340–344Google Scholar

Copyright information

© Springer-Verlag Berlin Heidelberg 1990

Authors and Affiliations

  • V. Našinec
  • B. Němcová
    • 1
  1. 1.Institute of Experimental BotanyCzechoslovak Academy of SciencesČeské BudějoviceCzechoslovakia

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