by Staff Writers
London, UK (SPX) Aug 18, 2011
Bumblebees use complex problem solving skills to minimise the energy they use when flying to collect food, according to new research from Queen Mary, University of London.
For the bumblebee (Bombus terrestris), as with many other animals, the simplest approach to finding more nectar would be to fly to the nearest neighbouring flower, particularly considering their tiny brain size. But a team from Queen Mary's School of Biological and Chemical Sciences has found that this isn't the case.
The research team arranged six artificial flowers in a flight arena so that the bees would have to follow an unnecessarily long route when flying between nearest neighbour flowers to collect nectar. They watched the bees as they carried out 80 foraging bouts, and recorded which flowers they visited and in which order.
Writing in the journal Biology Letters, Dr Mathieu Lihoreau and colleagues report how, over 640 flower visits, the bees significantly reduced their flight distances as they learned the position of each flower within the array.
Surprisingly, the bees almost never followed a nearest-neighbour strategy (in which the bee would fly to the nearest unvisited flower until all flowers are visited). Instead they prioritised following the shortest possible route by learning and memorising individual flower locations.
The team's findings suggest that bees are able to solve complex routing problems by learning, without needing a sophisticated cognitive representation of space.
Dr Lihoreau explained: "Despite having tiny brains, bees effectively used gradual optimisation (comparing several different routes), to solve this famously complex routing problem which still baffles mathematicians 80 years after it was first posed."
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UBC researchers discover key mechanism that regulates shape and growth of plants
Edmonton, Canada (SPX) Aug 18, 2011
UBC researchers have discovered a key mechanism that - much like a construction site foreperson - controls the direction of plant growth as well as the physical properties of the biopolymers that plants produce. The finding is a major clue in a 50-year-long quest to explain how plants coordinate the behaviour of millions of cells as they grow upward to compete for light, penetrate soil to ... read more
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