RT Journal Article
SR Electronic
T1 Proximity sensors reveal social information transfer in maternity colonies of Common noctule bats
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 421974
DO 10.1101/421974
A1 Ripperger, Simon
A1 Guenther, Linus
A1 Wieser, Hanna
A1 Duda, Niklas
A1 Hierold, Martin
A1 Cassens, Bjoern
A1 Kapitza, Ruediger
A1 Koelpin, Alexander
A1 Mayer, Frieder
YR 2018
UL http://biorxiv.org/content/early/2018/09/21/421974.abstract
AB Bats are a highly gregarious taxon suggesting that social information should be readily available for making decision. Social information transfer in maternity colonies might be a particularly efficient mechanism for naive pups to acquire information on resources from informed adults. However, such behaviour is difficult to study in the wild, in particular in elusive and small-bodied animals such as bats. The goal of this study was to investigate the role of social information in acquiring access to two types of resources, which are crucial in the life of a juvenile bat: suitable roosting sites and fruitful feeding grounds. We hypothesized that fledging offspring will make use of social information by following informed members of the social groups to unknown roosts or foraging sites. In the present study we applied for the first time the newly developed miniaturized proximity sensor system 'BATS', a fully automated system for documenting associations among individual bats both while roosting and while on the wing. We quantified associations among juveniles and other group member while switching roosts and during foraging. We found clear evidence for information transfer while switching roosts, mainly among juveniles and their genetically identified mothers. Anecdotal observations suggest intentional guidance behaviour by mothers, indicated by repeated commuting flights among the pup and the target roost. Infrequent, short meetings with colony members other than the mother indicate local enhancement at foraging sites, but no intentional information transfer. Our study illustrates how advances in technology enable researchers to solve long-standing puzzles. Miniaturized proximity sensors facilitate the automated collection of continuous data sets and represent an ideal tool to gain novel insights into the sociobiology of elusive and small-bodied species.