A great tit wearing a radiofrequency
identification tag as used in the study. Credit: James ONeill
Blue
and great tits recall what they have eaten in the past, where they found the
food and when they found it, a new study shows. In the first experiment of its
kind to involve wild animals, blue and great tits demonstrated 'episodic-like'
memory to cope with changes in food availability when foraging.
The same study may suggest that humans
leaving out seeds and nuts for garden birds could be contributing to the
evolution of these memory traits.
Episodic memory is a memory system involving the conscious recollection of
personally experienced events. Many psychologists believe that episodic memory is uniquely human but a growing body of evidence
suggests that many non-human animals possess episodic-like memory.
Published in Current
Biology, the study by
researchers from the University of Cambridge and the University of East Anglia
enabled 94 wild, free-living blue and great tits to take part in a series of memory tasks. These
tasks involved automated food containers and a new software program that
created unique experiences for individual birds, and tracked each bird's
behavior after they formed a memory.
The birds had previously been fitted
with unique radio frequency tracking tags on their legs so that when they
landed on the feeder's special perch, this read their tag, and custom-built
programs released (or did not release) food through an electronic door,
according to experimental rules with unique timed events specific to each
individual bird.
The experiment focused on blue tits and
great tits partly because they are opportunistic foragers feeding on a wide
range of food types, and may benefit from being able to recall ecological
details from a single experience as this would permit flexible decision-making.
"These findings provide the first
evidence for episodic-like memory in the wild and show that blue and great tits
have a more flexible memory system than we used to assume," said first
author James Davies, from the University of Cambridge's Comparative Cognition
Lab.
"Previous studies on episodic-like memory have involved bigger-brained bird species, corvids, which hide food. This study focuses on smaller brained more generalist birds that don't hide their food. Our findings suggest these birds are more intelligent than they've been given credit for."
Blue and great tits taking part in the
episodic-like memory test. The birds visit an automated food container, the
door releases and they take their preferred food: sunflower seeds. Credit:
James Davies
Senior author Dr. Gabrielle
Davidson from the University of East Anglia said, "The birds were behaving
naturally in a familiar environment, so we captured something more realistic
than if the birds had been captive. It was remarkable to see these birds
performed well in our memory tasks while also experiencing a bunch of other
memories out in the wild.
"For us, field
research is
challenging because the birds are completely free not to take part in our
experiments and just fly away, but we've shown this type of intelligence test
in the wild works."
Nicola Clayton, Professor of
Comparative Cognition at the University of Cambridge, an author of the study
and Davies' Ph.D. supervisor, said, "It is fascinating that these
non-caching species of birds showed episodic-like memory using two independent
tests.
"When I began this research in
the late 1990s, most psychologists assumed that the ability to remember the
'what, where and when' of unique past events was uniquely human. The initial
findings in scrub-jays showed that this was not the case. Subsequent research
suggests that this ability is much more widespread in the animal kingdom than
we previously thought."
The researchers suggest that having
a more flexible memory could help these birds cope with further environmental
stress and fluctuation influenced by climate change.
Davies said, "This type of
memory would allow them to flexibly react to new conditions and combine this
information with their original memory to make decisions. So whether they're
thinking about fruit ripening or caterpillars emerging, that's a powerful
ability to have when things get tough."
The study also might suggest that
humans leaving out food for garden birds could be one factor contributing to
the evolution of these memory traits, just as these birds have evolved beak
adaptations in response to increased reliance on garden feeders.
Dr. Davidson said, "It is
possible that these birds are picking up on and remembering our routines in
terms of when we top up bird feeders. This needs further study."
The tests
To assess 'what-where-when' memory, the researchers adapted an existing study design—developed by Nicola Clayton and Anthony Dickinson—to simulate a realistic foraging scenario in which two food items—sunflower seeds and peanut pieces—ran out and replenished at different rates. The foods were selected having already proven that great and blue tits prefer sunflower seeds to peanut pieces.
A great tit wearing a radiofrequency
identification tag as used in the study. Credit: James ONeill
The birds were given time to learn
the 'temporal feeder' rules before the tests began. When an individual was
first detected on the 'preferred' sunflower seed feeder, this triggered a
two-hour period of availability to that bird. After that point, a 'replenish
period' began and the feeder door remained closed to that individual until the
following day.
To pass the memory test, birds have
to remember the details of this experience and apply it to new situations. This
means that when they come back to the feeders two hours later, they should
remember they had already eaten their favorite food, and that only their less
preferred food is currently available.
This research shows great tits and
blue tits make this switch, without having to check if their favorite food is
available. This switch in behavior, based on previous experience, is what
indicates these birds use episodic-like memory—comparable to studies involving
captive rodents, dogs, corvids, cephalopods and non-human primates.
Only a bird's first choice after
each interval was counted to ensure that their critical choice regarding which
feeder to visit was based on a memory of their first visit of the day, rather
than a reaction to a non-rewarding feeder (i.e., a win-stay/lose-shift
strategy).
An advantage for juvenile birds
In a different task, the
researchers tested birds on their ability to recall 'incidental details' of
feeders to locate food.
In a 'where' test, the feeders were
arranged in a triangle and in a straight line. In the 'which' test, each feeder
was painted a different color (yellow, red or blue) or pattern (black stripes,
wavy lines, or spots on a white background).
While most birds passed the 'where'
test, in the 'which' test only the juveniles recalled visual clues to help them
access food.
Davies said, "We didn't expect
that finding. We already know juvenile blue tits and great tits have to be more
innovative in their foraging because adults outcompete them and monopolize
food, which may help to explain our own findings. As blue tits and great tits gain experience, perhaps they
start to rely less on visual information and more on spatial information."
Professor Clayton said, "The next step is to test whether individual birds that are better at using their episodic-like memory have enhanced reproductive success, in which case we would expect that memory system to evolve in response to more challenging environmental conditions."
Source: Blue and great tits deploy surprisingly powerful memories to find food, finds study (phys.org)
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