Date: November 24, 2014
Source: Rutgers University
During the warm months of the year, ladybugs are delightful to have around. Then fall arrives and the ladybugs need to find warmth, which is most available inside people’s homes – where they often descend in large numbers. Suddenly they’re not as cute to many people as they seemed outdoors. But an insect expert says having ladybugs indoors serves a very useful purpose, and humans should welcome their temporary houseguests.
This image shows a ladybird eating an aphid. New research suggests that the redness of a ladybird's wings directly links to its toxicity and its diet in early life.
Credit: Jan Stipala
A ladybug's colour indicates how well-fed and how toxic it is, according to an international team of scientists.
Research led by the Universities of Exeter and Liverpool directly shows that differences between animals' warning signals reveal how poisonous individuals are to predators.
Published in the journal Functional Ecology, the research shows that redder ladybugs are more poisonous than their paler peers. The study reveals that this variation is directly linked to diet in early life, with better-fed ladybugs being more visible and more deadly.
Ecologists have long assumed that there are no individual differences between the warning signals of animals of the same species. More recently, scientists have identified variation between individuals' warning signals, but have not known if these differences were meaningful and linked to levels of toxicity.
In this study, the researchers reared seven-spot ladybugs on either a low or high quality diet. They measured several effects of varying diet in the maturing ladybugs: body colouration which acts as a warning signal, levels of toxic defensive chemicals, and the relationship between signals and defences.
Ladybugs that were fed a high quality diet had greater pigmentation, resulting in redder wings, than less well-fed ladybugs. They also had higher levels of precoccinelline, one of the defensive chemicals which make them toxic to bugs. The study therefore suggests that better-fed ladybugs can afford to invest more into producing both warning signals and toxic chemicals, and are therefore less likely to be eaten by a predator.
Lead author of the paper, Dr Jon Blount of the University of Exeter's Centre for Ecology and Conservation on the Cornwall Campus said: "Warning signals tell us far more about the strength of an individual's defences than has previously been thought. Producing warning signals and chemical defences is costly, so when individuals lack access to an abundant supply of food they produce relatively weak chemical defences. This is revealed to predators through relatively inconspicuous signals. However, when resources are more abundant, ladybirds [ladybugs] invest in stronger chemical defences and more conspicuous signals."
Co-author Dr Mike Speed of the University of Liverpool added: "There seems to be an 'arms race' between prey: those with less good access to food are less toxic, so they try to copy the brighter, more expensive signals of the more toxic animals that had better access to food. However, the well fed animals appear to win the battle as the signals they make are too bright and expensive for the other animals to copy."
Although the variation between individual ladybugs' colouration appears quite subtle to humans, it is easily identified by birds. In this study, the research team measured the pigmentation of ladybugs biochemically, and ascertained the relationship between pigment levels and conspicuousness to a typical avian predator, the starling.
Because so little is known about the day-to-day movements of ladybugs, the research team does not know how paler ladybugs protect themselves against detection by predators. One possibility is that they hide away more than brighter ladybugs.
The scientists believe that their findings could be relevant to many other species across the animal kingdom and that warning signals could be just as individual and variable as sexual signals.
This study was carried out by the Universities of Exeter, Cambridge, Keele and Liverpool in the UK, Deakin (Australia) and Groningen (Netherlands). It was funded by the Natural Environment Research Council and the Royal Society.
Jonathan Blount, Hannah Rowland, Falko Drijfhout, John Endler, Richard Inger, John Sloggett, Gregory Hurst, David Hodgson and Michael Speed. How the ladybird got its spots. Functional Ecology, 2012 (in press) [link]
Cite This Page:
University of Exeter. "Redder ladybirds more deadly, say scientists." ScienceDaily. ScienceDaily, 6 February 2012. <www.sciencedaily.com/releases/2012/02/120206214228.htm>.