Nov. 26, 2015

Researchers look at fossilized eggs to explain evolution of dinosaur nests

Scientists show dinosaur nesting styles may have contributed to evolutionary success of brooding birds
A reconstruction of dinosaurs nesting shows a duckbill dinosaur in the background with its eggs in a buried in a covered nest for incubation, and an oviraptorid dinosaur in the foreground incubating its eggs in an open nest.

A reconstruction of dinosaurs nesting shows a duckbill dinosaur and an oviraptorid dinosaur (front).

IIlustrated by Julius Csotonyi

Dinosaurs have long captured mankind’s imagination, primarily because of the many questions emerging from their very distant existence.

Recent research from the University of Calgary is helping to close that knowledge gap by linking the porosity of fossilized eggs with dinosaurs’ nesting styles, potentially explaining the evolutionary success of current brooding birds.

Kohei Tanaka, a PhD student in the Faculty of Science, recently published a paper in PLOS ONE where he and his co-authors demonstrate, for the first time, the link between dinosaur eggshell porosity and different nesting types. The article establishes how dinosaur egg nesting styles correlate with current crocodile covered nests as well as modern, exposed open-bird nests.

“Dinosaur nest structures and nesting materials are usually not preserved in the fossil record,” says Tanaka. “In the past, this lack of data has made working with dinosaur eggs and eggshells extremely difficult to determine how dinosaurs built their nests and how the eggs were incubated for hatching young.”

Study compared egg porosity of dinosaurs to birds and crocodiles

Working under the supervision of Darla Zelenitsky, assistant professor and a world expert in dinosaur eggs and nesting sites in the Department of Geoscience, Tanaka conducted an in-depth study of the egg porosity of 30 different dinosaur species. He compared those results with the egg porosity of 120 species of birds and crocodiles, which are the closest living relatives to dinosaurs.

“Brooding birds, which incubate their eggs in open nests, tend to have low eggshell porosities compared to crocodiles and megapode bird species that incubate in buried nests,” explains Tanaka.

The study’s results show that most dinosaurs, including the long-necked sauropods, primitive meat-eating theropods and possibly plant-eating ornithischians, produced low porosity eggshells and therefore, were highly likely to bury their eggs in nests much like their crocodile predecessors.

Working under the supervision of Darla Zelenitsky, assistant professor and a world expert in dinosaur eggs and nesting sites in the Department of Geoscience, Koehei Tanaka conducted an in-depth study of the egg porosity of 30 different dinosaur species.

Working under the supervision of Darla Zelenitsky, Koehei Tanaka conducted a study on dinosaur eggs.

Riley Brandt, University of Calgary

Shift in nest type and incubation style during evolution towards birds

Advanced theropods like the maniraptorans featured high porosity eggshells, suggesting that they laid and incubated their eggs in open nests in a similar fashion as their most closely related living birds. Other paleontological evidence also revealed that these early open-nesters did, however, still partly bury their eggs.

The researchers concluded that it was probably not until modern-looking birds that open nests with fully exposed eggs came to be, meaning that there was a shift in the type of nest, and probably incubation style of dinosaurs, during their evolution toward birds.

“Because buried nests needed to be built and incubated on the ground, open nesting and brooding may have allowed advanced theropods —including birds — to incubate eggs in a greater diversity of locations and occasionally away from ground predators, potentially contributing to their evolutionary success,” says Zelenitsky, referring to birds as the most diverse living species with more than 10,000 unique types.

Laying the groundwork for further research into dinosaur nesting habits

It is anticipated that this research will pave the way for further inquiries into the world of dinosaurs’ nesting habits.

“With a large amount of data gathered though Tanaka’s diligent work on the eggs of living and fossils animals, we plan to dig even deeper on new questions such as how long it took for dinosaurs to hatch their eggs,” says Zelenitsky.

This work, done in collaboration with François Therrien from the Royal Tyrrell Museum, was made possible thanks to a scholarship to Tanaka from the Yoshida Scholarship Foundation, the Japan Student Services Organization, a Natural Science and Engineering Research Council of Canada (NSERC) Discovery Grant to Zelenitsky, as well as funding from the University of Calgary and the Royal Tyrrell Museum.

An eggshell fragment from the egg of the small dinosaur Troodon from the Late Cretaceous of Alberta, which shows small pores on the outer surface. Pores (eggshell porosity) were used in this study to help determine the style of nest in dinosaurs.

An eggshell fragment from the egg of the small dinosaur Troodon from the Late Cretaceous of Alberta.

Darla Zelenitsky


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