Abstract
Nests of cavity‐nesting birds usually harbor some species of haematophagous ectoparasites that feed on the incubating adults and nestlings. Given the negative impact of ectoparasites on nestlings there will be selection on hosts to reduce parasite infestations through behavioural means. We have experimentally reduced the abundance of all ectoparasites in nests of pied flycatchersFicedula hypoleucato explore both whether there are changes in the frequency and duration of putative anti‐parasite behaviours by tending adults, as well as whether such anti‐parasite behaviours are able to compensate for the deleterious effects that parasites may have on nestlings. Heat treatment of nests substantially decreased the density of ectoparasites, and thereby positively affected nestling growth. The frequency and intensity of female grooming and nest sanitation behaviours during the incubation and nestling periods decreased as a consequence of the experimental reduction of ectoparasite infestation. Although nestlings begged more intensely in infested nests, the experiment had no significant effect on parental provisioning effort. Reduction of parasites resulted in larger nestlings shortly before fledging and increased fledging success. This study shows a clear effect of a complete natural nest ectoparasite fauna on parental behaviour at the nest and nestling growth in a cavity‐nesting bird. Although ectoparasites induce anti‐parasite behaviours in females, these behaviours are not able to fully remove parasite's deleterious effects on nestling growth and survival.
Highlights
Parasites have been proposed as an important ecological and evolutionary force affecting avian life histories and behaviour (Atkinson and van Riper 1991, Møller 1997)
In our study of Pied Flycatchers in central Spain, we have reduced the abundance of all ectoparasites by a heat treatment of nestboxes
In order to assess the efficiency of our manipulation, we compared the ectoparasite abundances of the two treatments
Summary
Parasites have been proposed as an important ecological and evolutionary force affecting avian life histories and behaviour (Atkinson and van Riper 1991, Møller 1997). Given the negative impact of ectoparasites on host fitness there will be selection on hosts to avoid parasite infestations through behavioural, physiological and immunological responses (Møller and Erritzoe 1996, Hart 1997, Heeb et al 1998, Cantarero et al 2013). All these responses are complementary and may be induced in adults, nestlings or both (Hart 1992, Keymer and Read 1991, Simon et al 2005). Adults may take measures to indirectly minimize the effects of nest parasites through incorporation of fresh plant material containing compounds that either directly affect the development of parasites (Malan et al 2002, Clark and Mason 1988, Lafuma et al 2001, Tomás et al 2012) or stimulate elements of the immune system of chicks that help them to cope better with the harmful
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
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
