Genetic structure of natterjack toad (Epidalea calamita) populations in Flanders, Belgium, and its implications for conservation: Supplementary material
posted on 2018-10-16, 12:47authored byJoke Maes, Arend Raoul Van Oosten, Natalie Van Houtte, Erik Matthysen
Unique evolutionary
potential could be lost when a population goes extinct or when individuals are
translocated to other existing populations. Therefore, in order to identify
priorities and to predict the efficiency and consequences of conservation
actions, information is needed on the genetic structure of natural populations.
In the urbanized and diverse landscapes of Flanders, Belgium, natterjack toad (Epidalea calamita) populations have been
declining over the last decades. Therefore, this species is subjected to a wide
range of different types of conservation measures (e.g. habitat management,
corridor development, translocations). However, more information is needed on
its genetic population structure. In this study, we sampled egg clutches from
six populations and studied their genetic structure with six microsatellite
markers. In total, 184 samples from 99 different egg strings were genotyped.
Observed heterozygosity was generally high, even for the small and isolated
populations (overall mean HO
= 0.43). The weak clustering by the Bayesian analyses (STRUCTURE, Adegenet and
BAPS) does not allow us to make strong conclusions on the population structure.
However, the significant ΦST values between the populations underline the
importance of genetic information when conservation priorities are discussed.
Unique evolutionary potential could be lost when one or more natterjack toad
populations would go extinct, and translocation of individuals to other
existing populations should be considered with caution.