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How bumblebees find their path to flowers without GPS | Bumblebees were studied for the first time to see how they select the optimal route to collect nectar from multiple flowers and return to their nest.
Scientists from Queen Mary, University of London , working with the Harmonic Radar
Group at Rothamsted Research, were able to use radar tracking to show how bumblebees
discover flowers, learn their location and use trial and error to find the most
efficient route between flowers over large distances. Professor Lars Chittka and
Dr Mathieu Lihoreau from Queen Mary’s School of Biological and Chemical Sciences
and colleagues set up five artificial flowers in a 1km diameter field. Each flower
was fitted with motion-triggered webcams and had landing platforms with drops
of sucrose in the middle. “Using mathematical models, we dissected bees’ learning
process and identified how they may decipher this optimal solution without a map.
Initially, their routes were long and complex, revisiting empty flowers several
times,” Dr Lihoreau explained. “But, as they gained experienced, the bees gradually
refined their routes through trial and error. Each time a bee tried a new route
it increased its probability of re-using the new route if it was shorter than
the shortest route it had tried before. Otherwise the new route was abandoned
and another was tested. “After an average of 26 times each bee went foraging,
which meant they tried about 20 of the 120 possible routes, they were able to
select the most efficient path to visit the flowers, without computing all the
possibilities,” he added. Professor Chittka and colleagues have previously shown
that bees were able to learn the shortest route possible to navigate between flowers
in the lab but this is the first time they have been able to observe this behaviour
in natural conditions and to describe how bees may optimise their routes. “The
speed at which they learn through trial and error is quite extraordinary for bumblebees
as this complex behaviour was thought to be one which only larger-brained animals
were capable of,” Professor Chittka said. “Interestingly, we also found that if
we removed a flower, bees continued looking at that location – even if it was
empty for an extended period of time. It seems bees don’t easily forget a fruitful
flower,” she stated. The scientists used motion-triggered web cams and tiny bumblebee-mounted
radar transponders to track the bumblebees. The recordings on the flowers showed
that bees exhibited considerable individuality – each one had a favoured arrival
and departure direction, different from the other bees. Head of Computational
and Systems Biology at Rothamsted Research, Professor Chris Rawlings, said: “This
is an exciting result because it shows that seemingly complex behaviours can be
described by relatively simple rules which can be described mathematically. “This
means we can now use mathematics to inform us when bee behaviour might be affected
by their environment and to assess, for example, the impact of changes in the
landscape,” Rawlings added. The study has been published in PLOS Biology.
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