The study found that honeybee colonies respond to infestation from a harmful mite by modifying the use of space
Honeybees increase social distancing when their hive is under threat from a parasite, a study has found.
Researchers discovered that honeybee colonies respond to infestation from a harmful mite by modifying the use of space.
They also change interactions to increase the distance between young and old bees.
Co-author Dr Alessandro Cini, UCL Centre for Biodiversity & Environment Research, said: “Here we have provided the first evidence that honeybees modify their social interactions and how they move around their hive in response to a common parasite.
“Honeybees are a social animal, as they benefit from dividing up responsibilities and interactions such as mutual grooming, but when those social activities can increase the risk of infection, the bees appear to have evolved to balance the risks and benefits by adopting social distancing.”
Researchers evaluated if the presence of a particular mite resulted in changes in social organisation, that could reduce the spread of the parasite in the hive.
There are two main compartments to honey bee colonies – an outer one occupied by the foragers, and the innermost compartment inhabited by nurses, the queen and brood.
This segregation leads to a lower frequency of interactions between the two compartments than those within each compartment.
It also allows the most valuable individuals (queen, young bees and brood) to be protected from the outside environment and thus from the arrival of diseases.
Comparing colonies that were or were not infested, the scientists found that one behaviour, foraging dances, that can increase mite transmission, occurred less often in central parts of the hive if it was infested.
They also found that grooming behaviours became more concentrated in the central hive.
The researchers say it appears that overall, foragers (older bees) move towards the edges of the nest while young nurse and groomer bees move towards its centre, in response to an infestation.
Lead author Dr Michelina Pusceddu, University of Sassari, Italy, said: “The observed increase in social distancing between the two groups of bees within the same parasite-infested colony represents a new and, in some ways, surprising aspect of how honeybees have evolved to combat pathogens and parasites.
“Their ability to adapt their social structure and reduce contact between individuals in response to a disease threat allows them to maximise the benefits of social interactions where possible, and to minimise the risk of infectious disease when needed.
“Honeybee colonies provide an ideal model for studying social distancing and for fully understanding the value and effectiveness of this behaviour.”
The findings are published in Science Advances.