Honey bees’ alarm system against killer GIANT HORNETS. Study shows that the insects make erratic shrieks to warn their hive about predators nearby.

  • Researchers led from Wellesley College recorded hornet attacks in Vietnam
  • They detected a unique alarm signal which they call an ‘antipredator pipe’ 
  • The team described this sound as harsh and irregular with sudden frequency shifts.
  • It has much in common with the alarm signals made by primates and meerkats 










Study has shown that honeybees produce erratic, alarming sounds similar to shrieks when threatened by giant hornets (Vespa soror).

Vespa soror — a close relative of the so-called murder hornets, V. mandarinia — attack bee colonies in groups, looking to overwhelm the pollinators’ colonies.

Experts led from Wellesley College recorded alarm signals made by bees in Vietnam, detecting a unique and previously unknown call dubbed an ‘antipredator pipe’.

This sound — distinct from the hissing and ‘stop’ signals previously observed in honey bee colonies — were harsh and irregular, with abrupt shifts in frequency.

When worker bees produced antipredator pipes, other members of the colony would gather at their hives’ entrance and start engaging in defensive actions. 

Such can include spreading animal dung around the colony entrance to repel the giant hornets, as well as forming ‘hot defensive balls’ to warm the attackers to death.

Honey bees make erratic, shriek-like warning sounds when they come under attack from vicious giant hornets (Vespa soror), a study has revealed. Pictured: V. soror on a bee hive

Honey bees make erratic, shriek-like warning sounds when they come under attack from vicious giant hornets (Vespa soror), a study has revealed. Pictured: V. soror on a bee hive

Vespa soror (pictured) ¿ a close relative of the so-called murder hornets, V. mandarinia ¿ attack bee colonies in groups, looking to overwhelm the pollinators' colonies

Vespa soror (pictured) — a close relative of the so-called murder hornets, V. mandarinia — attack bee colonies in groups, looking to overwhelm the pollinators’ colonies

ANTIPREDATOR PIPES

Professor Mattila and colleagues noted that when bees make antipredator pipes they raise their abdomens, buzz their winds and run about frantically.

At the same time, they reveal their so-called Nasonov gland on the tip of their abdomen, which is known to release pheromones. 

According to the team, the bees’ behaviour suggests that they are producing multiple types of information to warn their nestmates of the danger — something the team want to investigate further. 

The study was undertaken by entomologist Heather Mattila of Wellesley College in Massachusetts and her colleagues.

According to Professor Mattila, the bees’ distress signals are so distinctive that hearing it for the first time gave her the chills. 

‘The pipes share traits in common with a lot of mammalian alarm signals, so as a mammal hearing them, there’s something that is instantly recognisable as communicating danger.’

‘It feels like a universal experience,’ she concluded. 

Panic signals employing rapidly shifting frequencies are also produced by various other animals, including birds, meerkats and various primates.

For their study, Professor Mattila and colleagues spent seven years observing interactions between giant hornets and Asian honey bees, recording the sounds of hornet attacks on apiaries in Vietnam.

In total, the researchers’ microphones — which they installed within hives — captured nearly 30,000 bee signals over the course of 1,300 minutes (nearly 22 hours) of monitoring.

When colonies were not under threat, the recordings were found to be relatively quiet and calm. However, when the hornets attacked, hive chatter increased eight-fold to become noisy and frenetic.

Bees, the team explained in their paper, ‘are constantly communicating with each other, in both good times and in bad.’

‘But antipredator signal exchange is particularly important during dire moments when rallying workers for colony defence is imperative.’

Experts led from Wellesley College recorded alarm signals made by bees in Vietnam, detecting a unique and previously unknown call dubbed an 'antipredator pipe'. Pictured: two giant hornets extract bee brood from a honeycomb

Wellesley College experts recorded the alarm signal made by Vietnamese bees. They detected an unusual and unheard call that was dubbed an “antipredator pipe”. Pictured: two giant hornets extract bee brood from a honeycomb

The antipredator pipe ¿ distinct from the hissing and 'stop' signals previously observed in honey bee colonies ¿ were harsh and irregular, with abrupt shifts in frequency. Pictured: six giant hornets attack a bee hive in Vietnam

The antipredator pipe — distinct from the hissing and ‘stop’ signals previously observed in honey bee colonies — were harsh and irregular, with abrupt shifts in frequency. Pictured: six giant hornets attack a bee hive in Vietnam

‘This research shows how amazingly complex signals produced by Asian hive bees can be,’ said Professor Otis.

‘We feel like we have only grazed the surface of understanding their communication. There’s a lot more to be learned.’

The full findings of the study were published in the journal Royal Society Open Science. 

When worker bees produced antipredator pipes, other members of the colony would gather at their hives' entrance and start engaging in defensive actions. Such can include spreading animal dung around the colony entrance to repel the giant hornets, as well as forming 'hot defensive balls' to warm the attackers to death. Pictured: giant hornets attack a hive

Antipredator pipes were made by worker bees. This would lead to other colonies gathering at the entrance to their hives and engaging in defensive actions. To repel large hornets from entering the colony, you can spread animal dung or form hot defensive balls to keep them away. Image: Giant hornets attacking a beehive

HOW DOES THE HONEYBEES ’HOT DEFENSIVE BALLS’ DEFENCE STRATEGY WORK?

Honeybees shouldn’t have any chance against the fierce Japanese hornet. The predators measure in at 2.5cm (1/2 inch) and are extremely dangerous.

These tiny animals can still win, however. They will swarm over their enemies so many that the hornets become ‘cooked in’ a ball of honeyes. This was a new technique discovered in 1995.

It is commonly known as a hot defensive bee ball.

Hornets will attack worker bees to kill them all, and then they’ll ‘loot a nest’ for food, larvae, or other insects. Japanese honeybees devised a defense mechanism that would stop predators.

The bees swarm over the hornets in groups of up to 500, and start vibrating their wings until the temperature reaches 46°C (115°F). Heat is deadly for hornets.

You must do this quickly to avoid hornets releasing pheromones and requesting assistance. 

One study was conducted by Japanese researchers in 2012. They observed the bees attacking a hornet measuring one-inch in length. Then, they pulled the balls off of the ball and scanned their brains for clues about how they coordinated their attack.

Takeo Kubo of University of Tokyo, and Masato Toono of Tamagawa University collected bees during various points of the attack. They found higher levels of brain function in bees as they began to swarm towards the ball.

They coordinate their actions, sharing heat information from the ball with each other – this could trigger the brain waves that cause the bees to buzz.

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