This research was conducted by Maurizio Rossetto as part of a PhD project on recovery of rare Western Australian flora. Kings Park and Botanic Garden is the major ex situ conservation agency in Western Australia. Staff of the research section are involved in a multidisciplinary approach to conservation and key programs include conservation genetics, recovery strategies for rare species, micropropagation, cryogenics, seed bank biology and ecology. The group welcomes enquiries from individuals and institutions with similar interest.
Use of RAPD analysis in devising conservation strategies for the rare and endangered Grevillea scapigera (Proteaceae)
Article first published online: 28 JUN 2008
Volume 4, Issue 3, pages 321–330, June 1995
How to Cite
ROSSETTO, M., WEAVER, P. K. and DIXON, K. W. (1995), Use of RAPD analysis in devising conservation strategies for the rare and endangered Grevillea scapigera (Proteaceae). Molecular Ecology, 4: 321–330. doi: 10.1111/j.1365-294X.1995.tb00225.x
- Issue published online: 28 JUN 2008
- Article first published online: 28 JUN 2008
- Received 21 October 1994 revised 4 January 1995 accepted 9 January 1995
- conservation strategy;
- endangered flora;
- population genetics;
Extensive human impact in south western Australia has resulted in a high incidence of rarity throughout the highly endemic flora of the region. Grevillea scapigera (Proteaceae) is a typical example, with 27 plants (represented by four extant populations) remaining in the wild. In order to devise an appropriate strategy for the conservation of this species, its population genetics were studied using RAPD analysis, which enabled the discrimination of individual plants and the detection of a relatively high amount of variability (V = 0.32) within G. scapigera. This variability was found to be evenly distributed within the plants analysed despite the clear distinction between most populations (87% of the variability being attributable to single plant difference and 13% to population difference). Finally, RAPD analysis was used to select a small group of plants that captured maximum genetic variability to be used in the recovery program of the species. Because of the low genetic difference between populations, the mixing of these selected plants during the recovery process should not create genetic imbalances. The methods used in this study provide a useful model for future projects involving the recovery of rare flora.