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Ladybird colors reveal their toxicity

Date: June 5, 2015

Source: University of Exeter

Summary:
For one of Britain's best-loved and colorful group of insects, ladybirds, the brightness of their color reveals the extent of their toxicity to predators, according to new research. Although red ladybirds with black spots are most familiar, ladybirds are a diverse group of species and come in many different colors and patterns, from yellow and orange to even camouflaged browns.
A new study shows that for ladybirds, the brightness of their color reveals the extent of their toxicity to predators. The research also found that the more conspicuous and colorful the ladybird species, the less likely it is to be attacked by birds.
Credit: Lina Arenas

For one of Britain's best-loved and colorful group of insects, ladybirds, the brightness of their color reveals the extent of their toxicity to predators, according to new research undertaken at the Universities of Exeter and Cambridge. The study which is published in the journal Scientific Reports, also found that the more conspicuous and colorful the ladybird species, the less likely it is to be attacked by birds.

Lina María Arenas, a PhD student at the Centre for Ecology and Conservation at the University of Exeter and from the University of Cambridge said: "Ladybird beetles are one of the most cherished and charismatic insects, being both beautifully colored and a friend to every gardener. Our study shows that not only does ladybird color reveal how toxic they are to predators, but also that birds understand the signals that the ladybirds are giving. Birds are less likely to attack more conspicuous ladybirds."

Although red ladybirds with black spots are most familiar, ladybirds are a diverse group of species and come in many different colors and patterns, from yellow and orange to even camouflaged browns. The bright coloration of different ladybird species acts as a warning signal, telling potential predators to beware of the foul smelling, poisonous chemicals they use for defence.

The researchers measured toxicity using a biological assay, by counting the number of dead Daphnia -- tiny crustaceans -- in water containing the different ladybird toxins. The results show that five common ladybird species each have different levels of toxic defence. Those species with the most colorful and conspicuous colors against the natural vegetation where they live are also the most toxic.

Dr Martin Stevens from the University of Exeter said: "Our results tell us that the ladybirds present 'honest' signals to predators, because their color reveals how well defended they are.

"Relatively inconspicuous species, such as the larch ladybird, have low levels of defence and place more emphasis on avoiding being seen, whereas, more conspicuous and colorful species, such as the 2-spot ladybird, openly flaunt their strong defences to predators like birds."

Modified cameras that are sensitive to ultraviolet light were used to photograph the ladybirds, allowing the researchers to use special modelling and image analysis techniques to analyse how each species would appear to predatory birds, which have very different color vision to humans.

To test how likely each species was to be attacked, artificial versions of each ladybird species were presented to wild birds. The birds were able to recognise the differences in coloration between the prey, and were least likely to attack the brighter, more conspicuous ladybird species.

The study is the first to comprehensively show that the level of colorfulness and conspicuousness of different species with warning signals reveals how toxic they are, and that in turn more toxic and colorful species are less likely to be attacked in the wild.

Story Source:

Materials provided by University of Exeter. Note: Content may be edited for style and length.

Journal Reference:
Lina María Arenas, Dominic Walter and Martin Stevens.Signal honesty and predation risk among a closely related group of aposematic species. Scientific Reports, June 2015

Cite This Page:
University of Exeter. "Ladybird colors reveal their toxicity." ScienceDaily. ScienceDaily, 5 June 2015. <www.sciencedaily.com/releases/2015/06/150605081632.htm>.

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