Socially acquired predator recognition in complex ecosystems
journal contribution
posted on 2018-09-20, 00:00authored byRachel Manassa, MI McCormick, DP Chivers
Social animals acquire information on predator
identities through social learning, where individuals with no
prior experience learn from experienced members of the
group. However, a large amount of uncertainty is often associated
with socially acquired information especially in cases
of cross-species learning. Theory predicts that socially acquired
information from heterospecifics should take more
repetitions to develop in complex ecosystems where the number
of participants is greater. Our work focuses on coral reef
fish as their social and communal lifestyles, along with their
complex life histories, make them an ideal model to test for
socially acquired predator recognition. Specifically, we tested
if Pomacentrus wardi were capable of transmitting the recognition
of an unknown predator, Pseudochromis fuscus, to
closely related Pomacentrus moluccensis and phylogenetically
distant Apogon trimaculatus. Individuals of both species
were able to learn the predator's identity from experienced P.
wardi based on a single conditioning event. It is somewhat
surprising how fast social learning occurred particularly for
the distantly related cardinalfish. This study demonstrates the
widespread nature of social learning as a method of predator
recognition in biologically complex ecosystems, and highlights
that the benefits of responding to uncertain information
may override the costs associated with lost foraging opportunities.
Funding
Category 1 - Australian Competitive Grants (this includes ARC, NHMRC)