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Physical dormancy in the endemic Australian genus Stylobasium, a first report for the family Surianaceae (Fabales)

Published online by Cambridge University Press:  22 February 2007

Jerry M. Baskin*
Affiliation:
Department of Biology, University of Kentucky, Lexington, KY 40506-0225, USA
Carol C. Baskin
Affiliation:
Department of Biology, University of Kentucky, Lexington, KY 40506-0225, USA Department of Plant and Soil Sciences, University of Kentucky, Lexington, KY 40546-0312, USA
Kingsley W. Dixon
Affiliation:
Plant Science Division, Kings Park and Botanic Garden, West Perth, WA 6005, Australia
*
Correspondence Fax: +1 859 257 1717 Email: [email protected]

Abstract

The intact germination unit [seed+endocarp, (‘seed’)] of the two species of the Australian endemic genus Stylobasium (Surianaceae, Fabales) is water impermeable. Thus, the seed does not imbibe water or germinate until the integrity of the endocarp, which contains an outer layer of palisade cells, is disrupted. In this study, intact seeds of S. australe and of S. spathulatum, incubated on a moist substrate (for up to 2 years), did not imbibe water, whereas those that were mechanically scarified (both species), or dipped in boiling water for 30 s (S. spathulatum), imbibed and germinated. Thus, seeds of Stylobasium species have physical dormancy (PY). This is the first report of PY in Surianaceae, making it only the sixteenth family of angiosperms (no gymnosperms) in which this class of seed dormancy has been identified.

Type
Short Communication
Copyright
Copyright © Cambridge University Press 2006

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References

APG II (Angiosperm Phylogeny Group) (2003) An update of the Angiosperm Phylogeny Group classification of the orders and families of flowering plants: APG II. Botanical Journal of the Linnean Society 141, 399436.CrossRefGoogle Scholar
Barton, L.V. (1951) Germination of seeds of Juniperus virginiana L. Contributions from Boyce Thompson Institute 16, 387393.Google Scholar
Baskin, C.C. and Baskin, J.M. (1998) Seeds: Ecology, biogeography, and evolution of dormancy and germination. San Diego, Academic Press.Google Scholar
Baskin, J.M. and Baskin, C.C. (2003) Classification, biogeography, and phylogenetic relationships of seed dormancy. pp. 517544. in Smith, R.D.;, Dickie, J.B.;, Linington, S.H.;, Pritchard, H.W.;, Probert, R.J. (Eds) Seed conservation: Turning science into practice. London, The Royal Botanical Gardens, Kew.Google Scholar
Baskin, J.M. and Baskin, C.C. (2004) A classification system for seed dormancy. Seed Science Research 14, 116.CrossRefGoogle Scholar
Baskin, J.M., Baskin, C.C. and Li, X. (2000) Taxonomy, ecology, and evolution of physical dormancy in seeds. Plant Species Biology 15, 139152.CrossRefGoogle Scholar
Carlquist, S. (1978) Wood anatomy and relationships of Bataceae, Gyrostemonaceae, and Stylobasiaceae. Allertonia 1, 5 297330.Google Scholar
Donoso Zegers, C., Cabello Lechuga, A. (1978) Antecedentes fenologicos y de germinacion de especies leñosas Chilenas. Revista de Ciencias Forestales 1, 2 3141.Google Scholar
Dixon, K.W. and Barrett, R.L. (2003) Defining the role of fire in south-west Western Australian plants. pp. 205223. Abbott, I.;, Burrows, N. (Eds). Fire in ecosystems of south-west Western Australia: Impacts and management. Leiden, Backhuys Publishers.Google Scholar
Fernando, E.S. and Quinn, C.J. (1992) Pericarp anatomy and systematics of the Simaroubaceae sensu lato. Australian Journal of Botany 40, 263289.CrossRefGoogle Scholar
Harden, G. (2002) Flora of New South Wales, Vol. 2. Kensington, The University of New South Wales Press.Google Scholar
Heo, K. and Tobe, H. (1994) Embryology and relationships of Suriana maritima (Surianaceae). Journal of Plant Research 107, 2937.CrossRefGoogle Scholar
Jessop, J. (1981) The flora of Central Australia. Sydney, A.H. & A.N. Reed.Google Scholar
Kajita, T., Ohashi, H., Tateishi, Y., Bailey, C.D. and Doyle, J.J. (2001) rbc L and legume phylogeny, with particular reference to Phaseoleae, Millettieae, and allies. Systematic Botany 26, 515536.Google Scholar
Mabberley, D.J. (1997) The plant book. A portable dictionary of the vascular plants (2nd edition). Cambridge, Cambridge University Press.Google Scholar
Nikolaeva, M.G. (1990) The characteristic features of seed germination in gymnosperms. Botanicheskii Zhurnal 75, 16481656. (in Russian with English summary)Google Scholar
Nikolaeva, M.G. (1999) Patterns of seed dormancy and germination as related to plant phylogeny and ecological and geographical conditions of their habitats. Russian Journal of Plant Physiology 46, 369373.Google Scholar
Nkang, A. (1988) Some aspects of the biochemical basis of viability loss in stored Guilfoylia monostylis seeds. Seed Science and Technology 16, 247260.Google Scholar
Pack, D.A. (1921) After-ripening and germination of Juniperus seeds. Botanical Gazette 71, 3260.CrossRefGoogle Scholar