Free Standard AU & NZ Shipping For All Book Orders Over $80!
Register      Login
Australian Journal of Botany Australian Journal of Botany Society
Southern hemisphere botanical ecosystems
Shopping Cart: ( empty )
You are here: Home > Journals > BT > BT06188
RESEARCH ARTICLE
Contents Vol 55(6)

Seed morphology and ultrastructure in Citrus garrawayi (Rutaceae) in relation to germinability

Kim N. Hamilton A C , Sarah E. Ashmore A , Rod A. Drew A and Hugh W. Pritchard B
+ Author Affiliations
- Author Affiliations

A Centre for Forestry and Horticultural Research, School of Biomolecular and Physical Sciences, Griffith University, Nathan, Qld 4111, Australia.

B Seed Conservation Department, Royal Botanic Gardens Kew, Wakehurst Place, West Sussex RH17 6TN, UK.

C Corresponding author. Email: k.hamilton@griffith.edu.au

Australian Journal of Botany 55(6) 618-627 https://doi.org/10.1071/BT06188
Submitted: 4 September 2006  Accepted: 5 April 2007   Published: 27 September 2007

Abstract

Combinational traits of seed size and seed-coat hardness in Citrus garrawayi (F.M.Bailey) (syn. of Microcitrus garrowayi) were investigated as markers for estimation of seed morphological and physiological maturity. Seed size (length) and coat hardness correlated well with changes in seed coat and embryo morphological development, dry-weight accumulation, decreases in moisture content and a significant increase in germinability. Seed moisture content decreased from 82 ± 1% in immature seeds to 40 ± 1% at seed maturation. The outer integument of immature seeds consisted of thin-walled epidermal fibres from which outgrowths of emerging protrusions were observed. In comparison, mature seed coats were characterised by the thickening of the cell walls of the epidermal fibres from which arose numerous protrusions covered by an extensive mucilage layer. Immature seeds, with incomplete embryo and seed-coat histodiffereniation, had a low mean germination percentage of 4 ± 4%. Premature seeds, with a differentiated embryonic axis, were capable of much higher levels of germination (51 ± 10%) before the attainment of mass maturity. Mature seeds, with the most well differentiated embryonic axis and maximum mean dry weight, had the significantly highest level of germination (88 ± 3%).


Acknowledgements

We gratefully thank Malcolm Smith (QPDI) for his assistance and for supplying fruits, and Dr Deb Stenzel (AEMF) for technical training in SEM. Kim Hamilton received part-funding from the Millennium Seed Bank Project, Royal Botanic Gardens, Kew and the IPGRI–ACIAR project, ‘Development of Advanced Technologies for the Conservation of Tropical Fruits’.


References


Aiazzi MT, Cid MV, Seisdedos L, Argüello JA (2006) Effect of dispersion unit size and seed colour on germination of Atriplex cordobensis (Gandoger et Stuckert). Seed Science and Technology 34, 25–31. open url image1

Boesewinkel FD (1978) Development of ovule and testa in Rutaceae. III. Some representatives of the Aurantioideae. Acta Botanica Neerlandica 27, 341–354. open url image1

Clarke K, Prakash N (2001) Floral morphology and embryology of two Australian species of Citrus (Rutaceae). Australian Journal of Botany 49, 199–207.
Crossref | GoogleScholarGoogle Scholar | open url image1

Corner EJH (1976) ‘The seeds of dicotyledons. Vols 1 and 2.’ (Cambridge University Press: Cambridge)

Dussert S, Engelmann F (2006) New determinants for tolerance of coffee (Coffea arabica L.) seeds to liquid nitrogen exposure. Cryo Letters 27, 169–178.
PubMed |
open url image1

FAO (2005) The International Treaty on Plant Genetic Resources for Food and Agriculture. ‘Food and Agricultural Organisation of the United Nations.’ Available at (ftp://ftp.fao.org/ag/cgrfa/it/ITPGRe.pdf).

Forster PI (2002) Rutaceae. In ‘Names and distributions of Queensland plants, algae and lichens’. (Ed. RJF Henderson) pp. 177–181. (Queensland Government, Environmental Protection Agency: Brisbane)

Hamilton KN , Ashmore SE , Drew RA (2005) Investigations on desiccation and freezing tolerance of Citrus australasica seed for ex situ conservation. In ‘Proceedings of the fifth Australian workshop on native seed biology’. (Eds SW Adkins, PJ Ainsley, SM Bellairs, DJ Coates, LC Bell) pp. 157–161. (ACMER: Brisbane)

Hay FR , Smith RD (2003) Seed maturity: when to collect seeds from wild plants. In ‘Seed conservation: turning science into practice’. (Eds RD Smith, JD Dickie, SH Linington, HW Pritchard, RJ Probert) pp. 97–133. (Royal Botanic Gardens, Kew: London)

Hong TD, Ellis RH (1995) Interspecific variation in seed storage behaviour within two genera—Coffea and Citrus. Seed Science and Technology 23, 165–181. open url image1

Hor YL, Kim YJ, Ugap A, Chabrillange N, Sinniah UR, Engelmann F, Dussert S (2005) Optimal hydration status for cryopreservation of intermediate oily seeds: Citrus as a case study. Annals of Botany 95, 1153–1161.
Crossref | GoogleScholarGoogle Scholar | PubMed | open url image1

Kermode AR , Finch-Savage BE (2002) Desiccation sensitivity in orthodox and recalcitrant seeds in relation to development. In ‘Desiccation and survival in plants: drying without dying’. (Eds M Black, HW Pritchard) pp. 149–184. (CAB International: Wallingford, UK)

Lambardi M, De Carlo A, Biricolti S, Puglia AM, Lombardo G, Siragusa M, De Pasquale F (2004) Zygotic and nucellar embryo survival following dehydration/cryopreservation of Citrus intact seeds. CryoLetters 25, 81–90.
PubMed |
open url image1

Mabberley DJ (2004) Citrus (Rutaceae): a review of recent advances in etymology, systematics and medical applications. Blumea 49, 481–498. open url image1

Pritchard HW (2004) Classification of seed storage ‘types’ for ex situ conservation in relation to temperature and moisture. In ‘Ex situ plant conservation: supporting species survival in the wild’. (Eds EO Guerrant, K Havens , M Maunder) pp. 139–161. (Island Press: Washington DC)

Sykes SR (1997) Australian native limes (Eremocitrus and Microcitrus): a citrus breeder’s viewpoint. Australian Bushfood Magazine 3, 12–15. open url image1

Vaughan JG (1970) ‘The structure and utilization of oil seeds.’ (Chapman and Hall: London)

Wakana A, Ngo BX, Iwamasa M (2004) Germinability of embryos during seed development in Citrus (Rutaceae). Journal of Faculty of Agriculture, Kyushu University 49, 49–59. open url image1

Walters C (2003) Optimizing seed banking procedures. In ‘Seed conservation: turning science into practice’. (Eds RD Smith, JD Dickie, SH Linington, HW Pritchard, RJ Probert) pp. 724–743. (Royal Botanic Gardens, Kew: London)