Exquisite Preserved Lungs from 120 million years old Stun researchers studying early bird

Exquisite Preserved Lungs from 120 million years old Stun researchers studying early bird

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Exquisite Preserved Lungs from 120 million years old Stun researchers studying early bird

Since ancient organs rarely fossilize, paleontologists were amazed to discover the surprisingly well-preserved remains of a dinosaur-era bird’s lung.

Scientists were initially excited to identify the Archaeorhynchus spathula specimen, a bird that lived around 120 million years ago because its fossil had feathers exquisitely preserved, including a peculiar pintail that is not seen in any other cretaceous bird, but nowadays is common in birds.

 The amazingly detailed Archaeorhynchus spathula, which has preserved feathers and what may be the oldest fossil lung ever seen in a bird.

However, a closer examination showed that the lungs of the birds had also been fossilized, indicating that the palaeontologists had found the oldest fossilized lung on record (more on that later) and the oldest fossilized lung ever seen in a bird fossil, said study co-lead researcher Jingmai O’Connor, a professor at the Institute of Vertebrate Paleontology and Paleoanthropology at the Chinese Academy of Sciences.

The fossil itself is from the early Cretaceous Jehol Lagerstätte formation in northeastern China, but O’Connor and her colleagues found it at the Shandong Tianyu Museum of Nature, in Pingyi, where an avid fossil collector houses the thousands of bird fossils he’s purchased over the decades.

This is the fifth described A. spathula specimen — a toothless, pigeon-size bird — but it’s by far the best-preserved, O’Connor said. That’s especially because of the speckled, white material in its chest cavity that appears to be a fossilized lung.

The finding reveals that the lung structures in early birds are similar to the lungs of modern birds, the researchers said. This means that A. spathula likely had unidirectional airflow in its lungs — the air that flowed in was largely fresh and full of oxygen, unlike the air in mammals’ lungs, which is mixed with both new and previously breathed air, meaning it has a lower oxygen content.

“Lungs of birds are very different from our lungs and [had] much more complex structures,” P. Martin Sander, a paleontologist at the University of Bonn in Germany who was not involved in the research, told Live Science in an email. “They are kind of like a bag pipe, with an air management system (the air sacs) separated from the gas exchanger (the lung proper) which is preserved here.”

An artist’s interpretation of the dinosaur-era bird Archaeorhynchus spathula, which was a bit larger than a modern pigeon.

Living crocodilians also have lungs with unidirectional airflow, and paleontologists considered it to be ancestral in early feathered dinosaurs. But the evidence for such a lung structure in an early bird has been elusive, until now.

Deep dive

To get a better look at the supposed lung remains, “we went and extracted some samples, put them in the SEM [scanning electron microscope] and — boom — lung tissue,” O’Connor told Live Science. Because O’Connor specializes in skeletal (not organ) anatomy, she roped in John Maina, a professor of zoology at the University of Johannesburg in South Africa, who is an expert on the lungs of living birds.

“I was like, ‘Look, do you think this is lung tissue? If you do think it is, then none of us digging-in-the-dirt paleontologists can argue with you,'” O’Connor said. Maina’s contribution was so critical, that he became a co-researcher on the study.

An analysis of the tissue showed that it contained structures that resemble blood capillaries, which absorb oxygen to help power the highly energetic flight of birds. “Avian flight is the most physically demanding form of locomotion, so you need a lot of oxygen for it,” O’Connor said.

It’s possible that this unique structure was unique to Ornithuromorpha, a clade (group) of ancient birds that survived the mass extinction about 66 million years ago and includes today’s living birds. “Maybe this specialization was only in that clade and was one of the many factors that allowed [their] survival,” O’Connor said.

What’s more, it appears that the fossilized lung was embedded in the bird’s ribs, just as bird lungs are today. Unlike human lungs, which expand with every breath, bird lungs are rigid, so they can easily inhale and exhale at the same time, O’Connor said.

The tissue doesn’t appear to be leftover stomach contents, as those usually preserve as black, carbonized organic matter, she noted. Moreover, the preserved tissue is paired, just like a modern lung. There are no other paired organs that it could be, and it’s likely not the liver (which is lobed) because that organ has a high iron content and usually preserves as red, O’Connor said.

However, this specimen isn’t the oldest lung on record. That honor goes to Spinolestes, an early Cretaceous mammal that has fossilized lungs about 5 million years older than the newly analyzed bird. But those lung fossils didn’t preserve any microstructure and don’t provide much information about Spinolestes, other than that it likely had a muscular diaphragm. So, O’Connor is calling the A. spathula fossil “the first informative lung remains,” because they shed light on bird evolution.

The lung findings are “cool stuff,” because it shows”what the lung of an early bird looked like,” Sander said. However, because it’s so rare to see a fossilized organ, more work is needed to verify that this is a lung, he said.

“We should apply various other analytical techniques to confirm that the area in the fossil really is lung,” he said. “But I would not be surprised if lung can fossilize because of its high iron content because the lung is rich in blood.”

The research was presented here at the 78th annual Society of Vertebrate Paleontology meeting yesterday (Oct. 18). It will be published in the journal the Proceedings of the National Academy of Sciences on Monday (Oct. 22).

 

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P. Natasha Covers Classical Archaeology news and has been with Histecho since 2017. She has a Master's degree in MA Archaeology from New York University's Science, Health and Environmental Reporting program. A California native, she also holds a Bachelor of science in molecular biology and a Master of Science in biology from the University of California, San Diego.

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