‘Lazy’ moths release chemicals to make themselves taste disgusting so that they don’t need to put as much effort into fleeing from predators
- Tiger moths with chemical defences are more ‘nonchalant’ against bat attacks
- The moths have evolved to become unpalatable to predators as a defence
- The relationship between palatability and nonchalance may exist elsewhere in the animal kingdom, the US researchers say
It might seem like they are being lazy, but some moths do not bother to flee from predators because they taste so disgusting that they don’t need to.
Some of the less appetising winged insects are more nonchalant when attacked by bats while their tastier friends tend to employ evasive manoeuvres, a new study suggests.
Moths were observed to see if they used these ducking and diving tactics, while the bats were watched to see if they consumed the bugs or spat them out.
Researchers say their findings show the risks and rewards of anti-predator strategies, where mistakes can inevitably mean death.
Lazy moths taste disgusting and put less effort into evading predators, a study suggests
Many creatures in the animal kingdom have evolved defence tactics to evade and deter potential predators, known as aposematism.
In moths, this includes chemical defences that make them less appetising, ultrasonic hearing to hear bats approaching and mid-flight swoops and dives to avoid being eaten.
Dr Nicolas Dowdy, of the Milwaukee Public Museum and Wake Forest University in the US, noticed unusual behaviour in certain species of tiger moths.
They seemed to be relatively relaxed when attacked by predatory bats, prompting scientists to investigate the reasons behind this casual behaviour.
In the five moth species, researchers found a correlation between unpalatability and nonchalant flight behaviour
WHAT IS APOSEMATISM?
Aposematism is the biological means by which a dangerous, or noxious, organism signals to potential predators that it is not worth attacking or eating.
Aposematic signals are beneficial for both predator and prey, since both avoid potential harm
The most common aposematism is the possession of bright, contrasting colours – such as the black and yellow of many wasps.
Other organisms, such as North American rattlesnakes, employ acoustic warning systems.
Source: Encyclopedia Britannica
They hypothesised that nonchalant moths have evolved chemical defences that made them unpalatable, meaning they have less motivation to evade bats than their more delicious moth counterparts.
In order to test this theory the researchers collected five different species of tiger moths and then released them in an outdoor ‘flight arena’ at night, where wild bats would frequently swoop in to feed.
Using infrared cameras they monitored interactions between the bats and moths and recorded how often different species displayed evasive or nonchalant behaviour during a bat attack.
They also measured how palatable the moths were to the bats.
Dr Dowdy said: ‘Strikingly, we observed that moths with weak or no chemical defences often dive away to escape bat attacks.
‘However, moths with more potent chemical defences are more ‘nonchalant’, performing evasive manoeuvres less often.’
According to the study published in the Frontiers in Ecology and Evolution journal, this correlation allowed the researchers to predict the evasive or nonchalant behaviour of the moths based on their palatability.
When considering why the insects did not just try to evade the bats anyway, researchers suggest that the method poses both risks and rewards.
As well as being exhausting, performing panicked evasive manoeuvres might help a moth avoid becoming dinner but it might also land it in a spider’s web or away from a food source or mate.
Dr Dowdy speculated that unsavoury moths may often take the lazier and potentially safer option by relying on their chemical defences rather than roll the dice on an emergency flight.
It may be possible that this relationship between palatability and nonchalance exists elsewhere in the animal kingdom but future studies are needed, say the scientists.
‘We argue that the bat-moth predator-prey system is an ideal model for future studies of escape behaviors of prey which overcomes some of the limitations inherent to current model systems,’ they write.
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