A sick ant knows to stay away from its co-workersWendy Kreeftenberg, Buiten-beeld/FLPA By Sam WongDo you wish your coughing, sneezing colleagues would stay away from the office? Unlike some humans, ants seem to understand the importance of avoiding others when they are infected. When foraging ants are exposed to a fungal pathogen, they reduce their contact…


ants

A sick ant knows to stay away from its co-workers

Wendy Kreeftenberg, Buiten-beeld/FLPA

Do you wish your coughing, sneezing colleagues would stay away from the office? Unlike some humans, ants seem to understand the importance of avoiding others when they are infected. When foraging ants are exposed to a fungal pathogen, they reduce their contact with workers inside the nest.

Nathalie Stroeymeyt at the University of Lausanne, Switzerland, and colleagues studied colonies ofLasius nigerants using an automated ant-tracking system.

Workers in these colonies are split into nurses, which work inside the nest caring for the brood, and foragers, which collect food outside the nest. Foragers are most likely to pick up infections, but they interact less with other ants, and come into contact with those inside the nest infrequently.

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              <div id="video-mid-article" class="mpu">                                    </div>                  <h2>Killer fungus</h2><p>The researchers exposed some of the foragers to spores of<em>Metarhizium brunneum</em>fungus. The spores attach to an ant&rsquo;s cuticle and after a day or two, the fungus gets inside the ant and kills it.

Within one day of exposure to the pathogen — before ants became sick — the separation between work groups was reinforced. Exposed foragers changed their behaviour, spending even more time outside the nest and decreasing their contact with other workers. Foragers that were not exposed to the pathogen also took steps to isolate themselves, and nurses moved the brood deeper inside the nest.

It’s not clear how the ants recognise the infection, but they may be able to detect the spores on other ants as well as on their own bodies.

Simulations show that these changes in behaviour reduce the spread of infections and protect healthy workers and the queen from disease.

Responses like this are to be expected in social insects, since only the queen reproduces, so evolution favours individual behaviour that benefits the whole colony.

“I think we could learn from the social insects about ways to decrease transmission of disease at the scale of the population,” says Stroeymeyt. Although she concedes that the ants are good role models only up to a point. “We can’t really ask sick people to sacrifice themselves by dying in isolation like the ants do.”

Journal reference:Science, DOI: 10.1126/science.aat4793

                                                                                        <!-- ADD article topics at the end of the article -->                       <section class="article-topics"><p>More on these topics:</p><ul><li>animals</li><li>biology</li><li>insects</li></ul></section>                                              

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