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The Bird That Paints Its Eggs With Bacteria

It’s spring. A female hoopoe—a bird that looks like a pickaxe painted in a tiger’s colours—lays her eggs in a hole within a tree. The eggs come out milky blue, but they soon change colour to a mucky brown. That’s not just because the nests are dirty, as Wikipedia currently claims. It’s also because of a liquid that the female produces.

Look under the tail feathers of any bird and you’ll find the uropygial gland, or preen gland. It secretes oils and waxes that birds use to clean and waterproof their feathers. But during breeding season, a female hoopoe’s uropygial gland becomes exceptionally large, and it makes a weird dark brown fluid that smells of rotting meat. This is the stuff that discolours the eggs.

The nature of this pungent secretion became clearer a decade ago, when scientists injected the hoopoe’s gland with antibiotics. Suddenly, it produced fluids that were similar to those made by other birds—lighter in colour, thinner in consistency, and weaker in smell. The gland turned out to be full of bacteria—mostly Enterococcus, but other species too.

Manuel Martin-Vivaldi and Juan Soler from the University of Granada have been studying the hoopoe’s bacteria for many years. They found that the microbes produce powerful antibiotics, and that hoopoes uses these chemicals to keep feather-eating bacteria from destroying its pristine plumes.

Now, they’ve found evidence that these birds use the same bacteria to protect their young before they’re even born. By filming nesting females, they confirmed that the birds actively paint their eggs with their uropygial secretions.

That’s unusual in itself: bird eggs usually have smooth shells, and preening oils wouldn’t normally stick to them. But when Martin-Vivaldi and Soler looked at freshly laid hoopoe eggs under a powerful microscope, they found a multitude of tiny pits. These are new—no one has ever seen anything like them on bird eggs before. By the time the chicks hatch, almost 90 percent of these pits have been filled with a doughy material that’s loaded with Enterococcus bacteria.

Left: Pits in a hoopoe's eggshell. Right: Close up of the pits, with bacteria lining them.
Left: Pits in a hoopoe’s eggshell. Right: Close up of the pits, with bacteria lining them.

It’s the female who fills the pits. When Martin-Vivaldi and Soler stuck catheters into the hoopoes’ uropygial glands to stop them from reaching their own secretions, the birds couldn’t fill the pits in their eggs, which ended up with fewer bacteria on their surfaces. The eggs, however, had more bacteria inside them. It seems that the microbes in the pits, and the antibiotics they produce, act as a living shield. They stop harmful bacteria from colonising the eggs, and from travelling through pores in the shell to reach the chicks inside.

How does that benefit the chicks? Here, the researchers’ results become a bit more ambiguous. They found that normally, when females had more bacteria in their glands, their eggs had more bacteria in their pits and were more likely to hatch. When the females couldn’t reach their glands, these correlations disappeared. However, the two groups of females—the normal ones and those that couldn’t reach their glands—were just as likely to raise successfully hatching eggs.

The team think that if the gland bacteria really are protecting the chicks, it might take a larger study to detect any benefits. It’s possible that these bacteria only matter depending on the levels of other disease-causing microbes in the hoopoes’ nests. It’s also possible that harmful microbes that manage to travel into the eggs doesn’t change the odds that the chicks will hatch, but affects them later in life.

For now, we know that the hoopoes are painting their eggs in bacteria. Why? That’s still not fully clear. And why are hoopoes the only birds that have these pits on their eggs? Martin-Vivaldi and Soler suspect that it’s because of their unusually dirty nests.

Hoopoe nestlings can defend themselves by squirting streams of faeces at intruders and, unlike other birds, they don’t clean their waste from their nests. Their slovenliness might save their lives but it also comes with a high risk of infection. Perhaps they have evolved to cope with this extra risk by forming partnerships with defensive microbes, and laying eggs that are full of bacterial condos.

Hoopoes might be the only birds with such structures, but they’re far from the only animals with them. Leafcutter ants keep Streptomyces bacteria in special chambers on their bodies that kill parasitic fungi. Rove beetles carry Pseudomonas bacteria that make pederin—a toxin that deters spiders and can even irritate human skin. We typically think of bacteria as ‘germs’ that cause illness. They’re just as likely to be guardians that protect us from disease.

Reference: Martin-Vivaldi, Soler, Peralta-Sanchez, Arco, Martin-Platero, Martinez-Bueno, Ruiz-Rodriguez & Valdivi. 2014. Special structures of hoopoe eggshells enhance the adhesion of symbiont-carrying uropygial secretion that increase hatching success. http://dx.doi.org/10.1111/1365-2656.12243

10 thoughts on “The Bird That Paints Its Eggs With Bacteria

  1. Only saw hoopoes once [in southern Spain], but WHAT A BIRD!
    A great example of an organism that names itself. Latin name is Upupa epops. Tibetan name [I learned many years ago from a lama making animal masks at the UWashington museum] is Upo.. Probably same name in many other languages.

  2. That’s a good example of symbiotic relationship between birds and microbes.But the smell of a hoopoe is really disgusting despite its beautiful feathers.

  3. Great timing! I just saw my first Hoopoes in China, and everything about them is very odd – the way they look, the way they move, the way they feed. I didn’t hear the call, unfortunately, but clearly that’s a bit odd (at least the way they call, if not the sound). Now we see that even their nesting is weird. What an odd bird.

  4. Gorgeous bird. Have Martin-Vivaldi, et al. considered that they coat the eggs in bacteria that smells like rotting meat to ward off predators? Seems like the most obvious explanation.

  5. This reminds me somewhat of the beneficial bacteria that human babies receive from their mothers when they are delivered vaginally versus those that are delivered via c-section, who do not receive those same bacteria.

  6. Thank you for your interest on the study. The secretions of hoopoes and woodhoopoes have traditionally been considered a defense against predators. Its value as predator repellent has only been demonstrated in the case of woodhoopoes, but we are also studying this function in the hoopoe. Despite this is a potential reason for the use of the secretion on eggs, we have previously found a high antimicrobial activity of the secretion, and in this study our results clearly show a relationship between the abundance of the symbiotic bacteria in the secretion and the hatching success of eggs, suggesting that a main function is to protect eggs from pathogens. But both functions are compatible.

  7. Yowza. I have always wanted to see a Hoopoe, and now I want to see one even more (just not too close, that poop-spraying thing probably has quite a range)!

  8. Desde hace no mucho tiempo, el interés de todos los biólogos se ha volcado hacia la ecología y la fisiología de las bacterias (y de los virus que pueden atacar a las bacterias o que pueden volverlas más peligrosas), sobre todo, dentro del colon. Por ejemplo, sabemos que una de las medidas para salvar a alguien con infección por Clostridium difficile es un transplante de heces. Seguramente, los enterococos que tenemos producen, también, algunas substancias que inhiben a otras bacterias menos adecuadas.

    Una observación, de paso, me parece que el género Streptomyces (griseus, rubrus, venezuelae) se trata de unos hongos, no son bacterias.

  9. I was interested to read your statement that, under normal circumstances in the wild, the presence of the preening oil bacteria has been observed to increase viability of the hoopoe’s eggs, but that untreated eggs seem to survive as well. Immediately it occurred to me that the hoopoe might be stuck in a local minimum with respect to that particular characteristic.To test the idea, one would need to qualitatively evaluate not just the two cases of bacteria versus no bacteria, but also try to get a quantitative measure of reproductive success with various in-between levels of bacteria transferred to the eggs. One might then see a double peak in the response curve. I am skeptical that anyone would perform such a complicated study, but who knows?

    In any case, thank you for a very thought-provoking article. I’m sure I will not soon forget the image of the poor hoopoe’s eggs, coated with stinky bacteria, apparently for their own good.

  10. Streptomyces griseus and the remaining species of Streptomyces are Gram positive bacteria belong to Actynobacteria group. The term myces refers to the cells of this bacterium are grouped in filaments resembling to the fungi micelium

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