Galapagos ground finches balance investment in behavioural and immunological pathogen defences

The scientific community has long recognized the importance of individual behaviour in pathogen spread in wild animals. Furthermore, recent studies have highlighted the potential for behaviour to act as a pathogen defence mechanism. In line with these studies, the pathogen defence optimization hypothesis (PDOH) posits that individuals balance investment in costly behavioural and immunological defences against pathogen infection. Here, I test the PDOH using data from observations of wild Galapagos finches (Medium Ground Finches Geospiza fortis and Small Ground Finches Geospiza fuliginosa) at feeders, combined with immune data collected in the field. Both within and between species, those groups engaging to a greater extent in high transmission‐risk behaviours (not investing in behavioural defences against pathogen exposure) invest more heavily in immune pathogen defences. These data provide the first support for the PDOH in a wild population.