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The Beauty and Biology of Egg Color

By Pat Leonard
One of the key functions of egg pigmentation is camouflage. These Little Ringed Plover eggs blend in with their stony surroundings. Photo by Michel Poinsignon/Minden Pictures.

From the Summer 2017 issue of Living Bird magazine. Subscribe now.

Fish do it. Frogs do it. Even insects lay eggs with color. But birds do it best.

Only birds produce eggs in such a wide range of eye-pleasing shades and intricate patterns on the hard surface of their eggs.

Like gems in a jeweler’s window, they vary in base color, how shiny they are, and whether they are covered in Sanskrit-like scrawls or patterns of spots.

But, how does the color get there? What is it made of? Does it benefit the embryo? And, why are some eggs plain white?

Egg pigmentation is surprisingly complex.

Building the Egg

The production process of eggs resembles a miniature assembly line inside a female bird. Eggs receive their signature color and patterning during the last few hours before they are laid. Graphic from Handbook of Bird Biology, 2nd edition.
The production process of eggs resembles a miniature assembly line inside a female bird. Eggs receive their signature color and patterning during the last few hours before they are laid. From Handbook of Bird Biology, Second Edition.

An egg’s story begins in a female bird’s single ovary. When an ovum is released into the oviduct and fertilized, it is just a protein-packed yolk. The albumen—the gelatinous egg white—is added next. The blobby mass then gets plumped up with water and encased in soft, stretchy membrane layers. The first globs of the calcium carbonate shell are then deposited on the exterior, with the mineral squirting from special cells lining the shell gland (uterus). Pigmentation, if any, comes next, with an overall protein coating added before the egg is laid. It takes about 24 hours to build a single egg.

In his book, The Most Perfect Thing: Inside (and Outside) a Bird’s Egg, University of Sheffield zoologist Tim Birkhead compares the pigmentation process to an array of “paint guns.” Each gun is genetically programmed to fire at a certain time so that the signature background color and spotting of a species’ eggs is produced.

“Examination of birds’ oviducts at the time the color is placed on the egg suggests that the color is produced and released over a very short time frame,” Birkhead says, “usually in the last few hours before the egg is laid, and that makes it very hard to study.”

The intricate squiggles of the Great Bowerbird egg make it stunningly beautiful. Photo by John Weinstein, © 2014 The Field Museum. Egg from the collection of the Western Foundation of Vertebrate Zoology.
The intricate squiggles of the Great Bowerbird egg make it stunningly beautiful. Photo by John Weinstein, © 2014 The Field Museum. Egg from the collection of the Western Foundation of Vertebrate Zoology.

Coatings of Many Colors

Despite the variety of egg colors and patterns, the palette is surprisingly small. Egg pigments are versatile substances made of complex molecules synthesized in a bird’s shell gland. Only two pigments are at work. Protoporphyrin produces reddish-brown colors. Biliverdin produces shades of blue and green. More of one pigment, less of the other, and the egg gets a different background color, spots of a different color, or a combination of both.

Cetti’s Warbler egg. Photo by John Weinstein, © 2014 The Field Museum.
Cetti’s Warbler eggs are an intense brick-red. Photo by John Weinstein, © 2014 The Field Museum.

For example, the intense brick-red of Cetti’s Warbler eggs comes from protoporphyrin alone. All birds are likely to have the basic genetic machinery to produce the two pigments, even if they use only one of them, or use none at all and produce plain white eggs.

A female bird needs to take in extra calcium in order to produce the egg­shell, and her diet can also be a factor in the production of the type and quantity of pigments. Paler-than-normal colors may be the by-product of a bird’s poor diet or an immune system challenged by disease. Even in the same clutch, each egg will be pigmented somewhat differently.

All of these eggs were laid by Common Murres. Each has a distinctive color or pattern so parents can identify their own egg among all the others in a breeding colony. Photo by Pat Leonard from the Cornell University Museum of Vertebrates collection.
All of these eggs were laid by Common Murres. Each has a distinctive color or pattern, possibly to help parents identify their own egg among all the others in a breeding colony. Photo by Pat Leonard; eggs from the Cornell University Museum of Vertebrates.

“Birds that lay multiple eggs, such as thrushes and flycatchers, seem to change the color of their eggs through­out the laying cycle as if they were running out of the pigments,” says Cornell PhD Mark Hauber, who wrote The Book of Eggs and studies them at Hunter College of the City University of New York.

And over time, eggshell colors and patterns within a species can also change. Mark Hauber feels bird-egg pigmentation may have evolved and disappeared multiple times and says it seems to be a rather “pliable” trait.

“With just two mutations, a Japa­nese Quail, which lays beige eggs with brown speckles, can start laying plain blue eggs,” Hauber says. “So, it’s really easy to genetically regulate metabolic pathways to start laying different col­ored eggs.”

The deep history of egg color re­mains unknown. Some scientists think the dinosaur ancestors of birds pro­duced only white eggs, as reptiles still do today, and that pigmentation came later. Others suggest dinosaur eggs could have been blue.

Left: The eggs of the Black Tinamou (top) and the Red-winged Tinamou (bottom) get their high-gloss shine from a protein-based coating. Right: Guira Cuckoo egg background colors range from gray to the lovely turquoise shade shown here. Note along the broken edge, the turquoise color is not just deposited on the surface but permeates the entire shell. Photos of tinamou eggs by John Weinstein © 2014 The Field Museum. Cuckoo egg by Paula and Michael Webster
Left: The eggs of the Black Tinamou (top) and the Red-winged Tinamou (bottom) get their high-gloss shine from a protein-based coating. Right: The background color of a Guira Cuckoo egg can range from gray to the lovely turquoise shade shown here. Note along the broken edge, the turquoise color is not just deposited on the surface but permeates the entire shell. Photos of tinamou eggs by John Weinstein © 2014 The Field Museum. Cuckoo egg by Paula and Michael Webster.

Finishing Touches

Though all bird eggs are made of calcium carbonate, the underlying shell structure differs among species. The outer coating of the shell—the cuticle—can also make a difference in the finish of the egg. For example, the glossy eggs of the tinamou family—from the reddish-purple egg of the Red-winged Tinamou to the emer­ald green of the Elegant Crested-Tina­mou—give off a high-wattage shine.

The white deposits on the exterior of this Guira Cuckoo egg resemble the surface of the moon. Photo by John Weinstein, © 2014 The Field Museum.
The white deposits on the exterior of this Guira Cuckoo egg resemble the surface of the moon. Photo by John Weinstein © 2014 The Field Museum.

The Guira Cuckoo’s egg is a wonder. Before the egg is laid, the base color is covered with a chalky layer of flaky cal­cium carbonate called vaterite that is structurally different from the eggshell itself. During incubation, the outer layer flakes off in patches, revealing a smoky gray or turquoise underneath in intricate patterns, rather like an artist’s scratch­board. It’s one of Hauber’s favorite eggs.

“It’s like having a little jewel in your hand,” he says. “The eggs of some spe­cies of anis are like this, too. Among communal nesters that chalky lay­er might act as a bumper to prevent damage when the eggs knock against each other. We’re trying to figure out if that flaky white material has any pigments in it.”

Killdeer on nest by Wayne Bierbaum via Birdshare
A Killdeer on its nest with well-camouflaged eggs. Photo by Wayne Bierbaum via Birdshare.

Pigmentation as a Parental Cue

Semipalmated Plover eggs are laid in the open, and both eggs and chicks are extremely well camouflaged for protection from predators. Photo by Doug Sonerholm via Birdshare.
Semipalmated Plover eggs are laid in the open, and both eggs and chicks are extremely well camouflaged for protection from predators. Photo by Doug Sonerholm via Birdshare.

Some egg pigment functions are well established by science. Camouflage is one. Many species that nest on the ground produce speckled or streaked eggs that blend in well with their surroundings and befuddle predators. Look at the eggs of any shorebird and you’ll find nearly all of them are speckled to blend in among rocks, pebbles, and sand to foil egg-stealing snakes, lizards, squirrels, and raptors.

As a general rule, birds that lay all-white eggs tend to be cavity-nesting species, such as owls and woodpeckers. Their eggs are already hidden from view so there’s no reason to produce pigmented eggs. There’s also a theory that white eggs show up better in a dark cavity.

But, there are exceptions. Even though camouflage makes sense for most species that lay their eggs in nests on the ground, some ground-nesting species—such as tinamous and nightjars—produce bright-colored, conspicuous eggs, which means other forces are at work. It helps to understand a species’ life history.

Great Gray Owls lay dull white, unmarked eggs in old nests built by other birds. Photo by Michael Quinton/Minden Pictures.
Great Gray Owls lay dull white, unmarked eggs in old nests built by other birds. Photo by Michael Quinton/Minden Pictures.

Several Great Tinamou females may lay their shiny, unspeckled turquoise eggs on contrasting brown leaf litter in the same depression or scrape on the ground without building an actual nest of sticks or mud. Cornell PhD Patricia Brennan, now at the University of Massachusetts, Amherst, studied these birds in Costa Rica, noting that the eggs are not camouflaged or well concealed despite the threat of predation. Brennan suggests that egg color is a signal to other females, drawing their attention to the nest and promoting synchronous laying. The benefit to the birds is that, even if a predator does strike, it cannot eat all the eggs and those of any one individual stand a better chance of surviving.

Scientists say some species get away with laying conspicuous eggs because the parents sit tightly on the nest, with both male and female sharing round-the-clock incubation duty so the eggs are almost never exposed to view. In fact, another novel, though disputed, explanation for brightly colored, conspicuous eggs is called the “blackmail theory.” Bucknell University’s Daniel Hanley has theorized that, because conspicuous eggs are at greater risk of predation, females may lay them to blackmail their mate into more active participation at the nest. If the male wants the showy eggs to stay covered up and protected, he must take turns incubating on the nest himself or bring food to the female so she can stay on the nest.

The Parasitic Weaver lays its eggs (right) in the nest of the Tawny-flanked Prinia (left). But the weaver cannot replicate the prinia’s fine squiggles. Photo by Claire Spottiswoode.
Tawny-flanked Prinia eggs (left) often sit side by side in their nest with eggs laid by the Parasitic Weaver (right). The colors are similar, but the weaver cannot replicate the prinia’s fine squiggles. Photo by Claire Spottiswoode.

Pigmentation as Identifier

Some eggs are pigmented and patterned in defense against brood parasitism, which is when one species lays its eggs in the nest of another species as a ploy to get host parents to raise its young. Brown-headed Cowbirds are among the most famous nest parasites in North America, inducing Red-winged Blackbirds and other species into caring for cowbird nestlings.

A cowbird egg stands out in a Yellow Warbler nest. Photo by Stylurus via Birdshare
A single, reddish-brown-spotted cowbird egg sits next to three smaller, whiter Yellow Warbler eggs. Photo by Stylurus via Birdshare.

Evolutionary biologist Claire Spottiswoode from the University of Cambridge says egg speckling can be a strategy to help parents differentiate their own eggs from those laid by an intruder. But it doesn’t always work.

“It seems likely that natural selection seized on egg speckling and elaborated upon it to generate the complex egg signatures of identity that we see in host birds,” explains Spottiswoode. “But those patterns can also be mimicked to some degree by their parasites.”

Spottiswoode’s studies of a species called the Parasitic Weaver in Zambia attempt to measure the competing pressures on both host and parasite in what she terms a “coevolutionary arms race.” The battle between host and parasite often plays out in alternating egg pigmentation changes. Over time, the host species alters the look of its eggs, which the parasite then tries to mimic closely enough so that its eggs are not rejected. These changes happen surprisingly quickly—even within a few decades.

Bird eggs from various species can be pigmented in a variety of patterns, including spots, blotches, scrawls, and streaks. Illustration by Katherine A. Smith.
Bird eggs from various species can be pigmented in a variety of patterns, including spots, blotches, scrawls, and streaks. Illustration by Katherine A. Smith.

“What we’ve seen in Zambia is primarily a shift in the frequency of existing colors, given that the range of egg pigments is actually quite limited,” Spottiswoode says. “We know from other systems that natural selection can sometimes be startlingly effective in generating evolutionary change and that eons aren’t always needed!”

But again, nature throws in a few wrinkles that are hard to explain. For example, the Tawny-flanked Prinia produces fine squiggles on its eggs that are impossible for Parasitic Weavers to replicate, yet the weaver often successfully parasitizes prinia nests.

“This is a real mystery to me because having apparently evolved a perfect signature, the prinias seem not to use it,” Spottiswoode says. “Unsquiggled eggs are clearly accepted at least sometimes, otherwise this strain of parasites would be defeated and have died out.”

Robin nest by Steve Fisher via Birdshare
“Robin’s-egg blue” isn’t just a fanciful term: American Robins and many other thrushes lay eggs that are a lovely sky-blue to blue-green color. Photo by Steve Fisher via Birdshare.

Pigmentation as Sun Block

Pigment may also have a specific func­tion related to sunlight. David Lahti, at Queens College of the City Universi­ty of New York, and Cornell PhD Dan Ardia at Franklin and Marshall College, studied specimens of Village Weaver eggs from Africa, which naturally vary from white to blue-green. Their theory is that egg color can represent a balanc­ing act between two impacts of light—one good, one bad.

“There must be a trade-off between embryo protection from damaging UV rays, what we call the parasol effect, and the cost of additional pigmenta­tion causing overheating, the dark-car effect,” Ardia explains. “We found good evidence that DNA-damaging UV light transmits more easily through the egg­shell when there isn’t much pigmen­tation. But heavily pigmented eggs do heat up faster, which is also very dan­gerous for the embryo.”

Lahti plans further studies to explore whether light levels have an influence on egg colors in other species.

Multiple studies have examined egg color in relation to the embryo’s growth. Some theories suggest that variable amounts of pigment at each end of an egg allow differing levels of light to filter through, which may help the embryo develop a sense of direction and also cue the development of specific structures in its body. Another idea is that darker or lighter colors among eggs in the same clutch might play a role in whether the eggs hatch all at once or in sequence.

Some researchers think the intensity of an egg’s color may say something about the health of the female bird, important information for males who may be decid­ing how much time to invest in incubat­ing eggs and bringing food to the nest.

“There are many competing hy­potheses to explain egg coloration and they’re not all mutually exclusive,” Ardia points out. “Pigment function is almost surely a complicated combination of factors depending on the idiosyncrasies of each species.”

More Questions

Despite the research already done on the colors and patterns of bird eggs, plenty of questions remain.

For example, what do the birds see when they look at the eggs? Mark Hau­ber’s lab is investigating how some birds see more of the light spectrum than hu­mans do.

“Some birds, such as most galliforms or ducks, don’t see ultraviolet light,” Hauber explains. “But some gulls, hum­mingbirds, most songbirds, and even ostriches do see UV light and might be picking up more information from egg colors and patterns than we can see.”

Lahti is fascinated by instances in which some birds lay only blue eggs, but other individuals of the same species lay only white eggs, as is the case with East­ern Bluebirds.

“I don’t know what’s going on there,” he says. “Bluebirds are in the Turdidae family in which nearly all species have blue eggs. But bluebirds may be mak­ing an evolutionary transition to white eggs, which would be expected since they nest in cavities or nest boxes.”

“One persistent mystery is why many open-nesters like the American Robin lay blue eggs. Is this camouflage? Does it sig­nal, as one study strongly suggests, female quality? We don’t know,” muses Birkhead. “Among other species, we also don’t know how those exquisite pencil-like scribbles are produced on some eggs.”

Whether scientists are trying to un­lock their secrets, or simply enjoy their beauty, bird eggs are one of nature’s lit­tle miracles—a fragile, self-contained, breathable package evolved to protect the tender bud of life unfolding within.

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