Here we tested the ability of a juvenile marine fish to simultaneously learn the identity of multiple previously unknown predators. Individuals were conditioned with a 'cocktail' of novel odours (from two predators and two non-predators) paired with either a conspecific [from its own kind] alarm cue or a [meaningless] saltwater control and then tested for recognition of the four odours individually and two novel odours (one predator and one non-predator) the following day.
The three damselfish predators whose scent was used in the research were, from top to bottom:
These results demonstrate that individuals acquire recognition of novel odours and that the responses were not due to innate recognition of predators or due to a generalised response to novel odours.
Studies on associative learning have demonstrated that any unknown stimulus can be recognised as a predation risk through associative learning. In natural environments, fishes are constantly exposed to multiple chemical odours. This study highlights the potential for ecologically irrelevant odours to be learned by association when present during a predation event. Responding to irrelevant cues will negatively impact an individual's fitness.The lucky ones will live long enough to unlearn the false associations.
It may pay at first to be overly cautious and learn all odours associated with an alarm cue as a predation risk when entering a new environment and then slowly learn which of those actually do not represent a threat.
Coral Reef Fish Rapidly Learn to Identify Multiple Unknown Predators upon Recruitment to the Reef. PLoS ONE. 2011. DOI:10.1371/journal.pone.0015764
(I ♥ open-access papers.)
*CORRECTION:Thanks to lead author Mat Mitchell who corrected me here in writing that the fish did not jump into their terracotta pots but instead reduced their foraging time in response to the alarm cues and novel odors.
Crossposted from Deep Blue Home.