Abstract
Flight initiation distance (FID), the distance at which individuals take flight when approached by a potential (human) predator, is a tool for understanding predator–prey interactions. Among the factors affecting FID, tests of effects of group size (i.e., number of potential prey) on FID have yielded contrasting results. Group size or flock size could either affect FID negatively (i.e., the dilution effect caused by the presence of many individuals) or positively (i.e., increased vigilance due to more eyes scanning for predators). These effects may be associated with gregarious species, because such species should be better adapted to exploiting information from other individuals in the group than nongregarious species. Sociality may explain why earlier findings on group size versus FID have yielded different conclusions. Here, we analyzed how flock size affected bird FID in eight European countries. A phylogenetic generalized least square regression model was used to investigate changes in escape behavior of bird species in relation to number of individuals in the flock, starting distance, diet, latitude, and type of habitat. Flock size of different bird species influenced how species responded to perceived threats. We found that gregarious birds reacted to a potential predator earlier (longer FID) when aggregated in large flocks. These results support a higher vigilance arising from many eyes scanning in birds, suggesting that sociality may be a key factor in the evolution of antipredator behavior both in urban and rural areas. Finally, future studies comparing FID must pay explicit attention to the number of individuals in flocks of gregarious species.
Highlights
Flocking is an important behavior in birds, constituting anti‐ predator behavior by prey
The study by Laursen, Kahlert, and Frikke (2005) showed that, in different species of waterbirds, Flight initiation distance (FID) in‐ creased with flock size
The result of a phylogenetic gen‐ eralized linear regression model (PGLS) showed that relative FID of individuals from rural and urban habitats was positively associated with flock size (Figure 3) and starting distance, while relative FID was shorter in urban habitats and for granivorous–insectivorous and insectivorous species (Table 1)
Summary
Flocking is an important behavior in birds, constituting anti‐ predator behavior by prey. Flight initiation distance (FID) is defined as the distance at which animals take flight from approaching threats (Blumstein, 2013; Hediger, 1934) This behavioral trait has been used as a surrogate for antipredator or fear behavior in many ecological studies (Blumstein, 2006; Glover, Weston, Maguire, Miller, & Christie, 2011; Legagneux & Ducatez, 2013; Møller, 2008a; Møller, Grim, Ibáñez‐Álamo, Markó, & Tryjanowski, 2013; Weston, Mcleod, Blumstein, & Guay, 2012). The study by Laursen, Kahlert, and Frikke (2005) showed that, in different species of waterbirds, FID in‐ creased with flock size These findings are inconsistent with dilution effects, because if each individual in a flock experienced a smaller risk, we should expect a shorter FID in larger flocks. We used body mass‐corrected FID throughout, because large‐bodied species require more effort to get airborne
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
