Abstract
Small and isolated populations are prone to future extinctions and thus perceived as ‘living dead’. Although generally considered to be of low conservation value, their existence can still enhance species survival at the landscape scale through improving the connectivity of other populations and facilitating some (even if little) gene flow. We investigated the demography and genetic status of a tiny and highly isolated local population of Maculinea (= Phengaris) alcon near its distribution margin with the aim of identifying the features that allow it to persist. The study comprised intensive mark-recapture, surveys of Gentiana pneumonanthe foodplants and butterfly eggs laid on them, as well as genetic analyses. The population has been found to be characterised by low genetic diversity and estimated at only a few tens of individuals. The foodplant availability turned out to be the most obvious factor limiting M. alcon abundance. Nevertheless, the life expectancy of adult butterflies is fairly long, and their flight period very short, implying that most individuals occur within the same time window. Together with the relatively little protandry observed, i.e. almost synchronous emergence of males and females, this increases the chances of random mating among the individuals. Moreover, the butterflies move freely across the core habitat fragment. All things concerned, the effective population size is presumably not much lower than the recorded population size. Our findings provide guidelines for pinpointing those among ‘living dead’ populations that are likely to be the most persistent and thus worth conservation efforts aimed at preserving them.
Highlights
Habitat loss and fragmentation is nowadays one of the most serious threats to biodiversity, with more and more species forced to live in increasingly fragmented landscapes (Caughley 1994; Hanski and Gaggiotti 2004)
Small and highly isolated local populations experience a high risk of stochastic extinctions, and following such extinctions their habitat patches have little chance to become recolonized (Prugh et al 2008)
We investigated a tiny and highly isolated local population of the Maculinea (= Phengaris) alcon butterfly near its distribution margin in north-eastern Poland using intensive mark-recapture sampling and genetic analysis, with the aim of identifying the features that allow it to persist against all the odds
Summary
Habitat loss and fragmentation is nowadays one of the most serious threats to biodiversity, with more and more species forced to live in increasingly fragmented landscapes (Caughley 1994; Hanski and Gaggiotti 2004). Certain thresholds of area and connectivity, habitat patches have dramatically low probability of being continuously occupied (Hanski 1994) Populations inhabiting such habitat patches are perceived as ‘living dead’ (Hanski et al 1996); even if they exist at present, they are bound to go extinct in the coming future. Despite being dubbed as living dead, some small and relatively isolated local populations may be worth conservation efforts aimed at preserving them. The decision whether such populations deserve to be included in conservation programmes should depend on their persistence chances. We provide guidelines for pinpointing those among ‘living dead’ populations that are likely to be the most persistent and worth conservation efforts
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