posted on 2021-04-06, 09:08authored byRafael Barrientos, Rodrigo Megía-Palma
Mitigation-driven
translocations represent an increasingly common management solution to reduce animal
mortality and habitat loss caused by human development. Although they currently
outnumber other translocation types, there is a lack of scientific approaches
to evaluate the outcome of this management tool. We designed an experimental
translocation with two groups of translocated males and two of control males of
a small (6-14 g) lizard (totaling 120 individuals). Our results suggest that translocated individuals covered longer distances (53
vs. 18 m) from their respective release points during their first month (on
average), although this distance diminished over time. Displacing longer
distances was associated with a body condition impoverishment and an increase
in parasitization by ectoparasites. To the best of our knowledge, this is the
first study that finds a positive relationship between covering longer
distances and an increase in the number of mites. This was also explained by
the initial mite load that lizards had, suggesting that controlling the
infestation by mites is energetically demanding for lizards, being traded by
locomotor activity. At least for those individuals in poorer body condition, we
recommend the implementation of soft release (gradually accustoming individuals
to their new environment by previously releasing them into controlled
conditions) and deparasitization before accomplishing a mitigation-driven
translocation.