Abstract
We advocate the advantage of an evolutionary approach to conservation biology that considers evolutionary history at various levels of biological organization. We review work on three separate plant taxa, spanning from one to multiple decades, illustrating extremes in metapopulation functioning. We show how the rare endemics Centaurea corymbosa (Clape Massif, France) and Brassica insularis in Corsica (France) may be caught in an evolutionary trap: disruption of metapopulation functioning due to lack of colonization of new sites may have counterselected traits such as dispersal ability or self-compatibility, making these species particularly vulnerable to any disturbance. The third case study concerns the evolution of life history strategies in the highly diverse genus Leucadendron of the South African fynbos. There, fire disturbance and the recolonization phase after fires are so integral to the functioning of populations that recruitment of new individuals is conditioned by fire. We show how past adaptation to different fire regimes and climatic constraints make species with different life history syndromes more or less vulnerable to global changes. These different case studies suggest that management strategies should promote evolutionary potential andevolutionary processes to better protect extant biodiversity and biodiversification.
Highlights
This study belongs to a special issue on women’s contribution to evolutionary biology
Through the review of past work of our group, led by Isabelle Olivieri (Box 1), we seek to illustrate why evolution needs to be considered in conservation biology, based on extensive studies of the recent evolutionary history in three plant taxa
Our research suggested how evolution of dispersal, mating system and life history traits in the landscape inhabited by C. corymbosa may have worsened its persistence prospects in the long term, a potential concrete case of evolutionary suicide
Summary
This study belongs to a special issue on women’s contribution to evolutionary biology. Through three case studies, how concepts about evolution in metapopulations may allow us to understand the vulnerability of different populations, and propose management strategies to better protect populations and their diversity of ecological traits These investigations enriched and stimulated our conceptual understanding of evolutionary biology in metapopulations. The first case study concerns the biology of the rare endemic Centaurea corymbosa, which has an extremely restricted range (see Box 3 for a description about the biology and natural history of this species) It illustrates the conservation issues associated with sets of populations that do not function as metapopulations but still live in patchy habitats, that is where dispersal between extant populations and colonization of new patches are absent, and where founding of new populations cannot balance potential local extinctions. When seeds are released from the cones, they can be dispersed by wind, mammals, ants or gravity
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
