Present address: Zoological Society of London, Institute of Zoology, Regent's Park, London NW1 4RY, UK.
Demographic models and the management of endangered species: a case study of the critically endangered Seychelles magpie robin
Article first published online: 26 SEP 2003
Journal of Applied Ecology
Volume 40, Issue 5, pages 890–899, October 2003
How to Cite
Norris, K. and Mcculloch, N. (2003), Demographic models and the management of endangered species: a case study of the critically endangered Seychelles magpie robin. Journal of Applied Ecology, 40: 890–899. doi: 10.1046/j.1365-2664.2003.00840.x
- Issue published online: 26 SEP 2003
- Article first published online: 26 SEP 2003
- Received 30 June 2002; final copy received 20 May 2003
- Copsychus sechellarum;
- matrix model;
- elasticity analysis;
- endemic species;
- scope for management
- 1Demographic models are assuming an important role in management decisions for endangered species. Elasticity analysis and scope for management analysis are two such applications. Elasticity analysis determines the vital rates that have the greatest impact on population growth. Scope for management analysis examines the effects that feasible management might have on vital rates and population growth. Both methods target management in an attempt to maximize population growth.
- 2The Seychelles magpie robin Copsychus sechellarum is a critically endangered island endemic, the population of which underwent significant growth in the early 1990s following the implementation of a recovery programme. We examined how the formal use of elasticity and scope for management analyses might have shaped management in the recovery programme, and assessed their effectiveness by comparison with the actual population growth achieved.
- 3The magpie robin population doubled from about 25 birds in 1990 to more than 50 by 1995. A simple two-stage demographic model showed that this growth was driven primarily by a significant increase in the annual survival probability of first-year birds and an increase in the birth rate. Neither the annual survival probability of adults nor the probability of a female breeding at age 1 changed significantly over time.
- 4Elasticity analysis showed that the annual survival probability of adults had the greatest impact on population growth. There was some scope to use management to increase survival, but because survival rates were already high (> 0·9) this had a negligible effect on population growth. Scope for management analysis showed that significant population growth could have been achieved by targeting management measures at the birth rate and survival probability of first-year birds, although predicted growth rates were lower than those achieved by the recovery programme when all management measures were in place (i.e. 1992–95).
- 5Synthesis and applications. We argue that scope for management analysis can provide a useful basis for management but will inevitably be limited to some extent by a lack of data, as our study shows. This means that identifying perceived ecological problems and designing management to alleviate them must be an important component of endangered species management. The corollary of this is that it will not be possible or wise to consider only management options for which there is a demonstrable ecological benefit. Given these constraints, we see little role for elasticity analysis because, when data are available, a scope for management analysis will always be of greater practical value and, when data are lacking, precautionary management demands that as many perceived ecological problems as possible are tackled.