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In Review

CLIMATOLOGYA Large Seagull . . . with Teeth Rochester team鈥檚 discovery of ancient bird species adds to understanding of climate. By Lindsey Valich

BUILDING A BIRD: New fossil records unearthed in the Canadian Arctic are offering scientists their first look at a prehistoric bird and its much warmer climate. (Photo: Michael Osadciw)

A Rochester team of geologists has discovered a new species of bird in the Canadian Arctic. At approximately 90 million years old, the bird fossils are among the oldest avian records found in the northernmost latitude, and offer further evidence of an intense warming event during the late Cretaceous period.

鈥淭he bird would have been a cross between a large seagull and a diving bird like a cormorant, but likely had teeth,鈥� says John Tarduno, professor and chair of the Department of Earth and Environmental Sciences and leader of the expedition.

Tarduno and his team, which included both undergraduate and graduate students, named the bird Tingmiatornis arctica; 鈥淭ingmiat鈥� means 鈥渢hose that fly鈥� in the Inuktitut language spoken in the central and eastern Canadian Arctic (Nunavut territory). The findings, published in Scientific Reports and based on work funded in part by a grant from the National Science Foundation, add to previous fossil records that Tarduno has uncovered from the same geological time period and location. Taken together, the fossils paint a clearer picture of an ecosystem that would have existed in the Canadian Arctic during the Cretaceous period鈥檚 Turonian age, which lasted from approximately 93.9 to 89.8 million years ago.

鈥淭hese fossils allow us to flesh out the community and add to our understanding of the community鈥檚 composition and how it differed from other places in the world,鈥� says Donald Brinkman, vertebrate paleontologist and director of preservation and research at the Royal Tyrrell Museum in Alberta, Canada.

(Illustration: Steve Boerner)

Building historic climate records further helps scientists determine the effects of climate on communities, ecosystems, and the distribution of species and could help predict the effects of future climatic events.

鈥淏efore our fossil, people were suggesting that it was warm, but you still would have had seasonal ice,鈥� Tarduno says. 鈥淲e鈥檙e suggesting that鈥檚 not even the case, and that it鈥檚 one of these hyper-warm intervals because the bird鈥檚 food sources and the whole part of the ecosystem could not have survived in ice.鈥�

From the fossil and sediment records, Tarduno and his team were able to conjecture that the bird鈥檚 environment would have been characterized by volcanic activity, a calm freshwater bay, temperatures comparable to those in northern Florida today, and creatures such as turtles, large freshwater fish, and champsosaurs鈥攁 now extinct, crocodile-like reptile.

鈥淭he fossils tell us what that world could look like, a world without ice at the Arctic,鈥� says Richard Bono, a PhD candidate in earth and environmental sciences and a member of Tarduno鈥檚 expedition. 鈥淚t would have looked very different than today, where you have tundra and fewer animals.鈥�

The fossils were found above basalt lava fields, created from a series of volcanic eruptions. Scientists believe volcanoes pumped carbon dioxide into the Earth鈥檚 atmosphere, causing a greenhouse effect and a period of extraordinary polar heat. That created an ecosystem allowing large birds, including Tingmiatornis arctica, to thrive.

(Photo: Courtesy of John Tarduno)

LOCATION LECTURE: The discovery of fossils (top) during an expedition in the Canadian Arctic that geophysicist John Tarduno led with Rochester students (above) suggests the area was once a more volcanically active region. (Photo: Courtesy of John Tarduno)

Tarduno鈥檚 team unearthed three bird bones: part of the ulna and portions of the humerus, which, in birds, are located in the wings. From the bones鈥� features, as well as their thickness and proportions, the team鈥檚 paleontologist, Julia Clarke of the University of Texas, was able to determine the evolutionary relationships of the new birds as well as characteristics that indicate whether the animals were likely able to fly or dive.

鈥淭hese birds are comparatively close cousins of all living birds and they comprise some of the oldest records of fossil birds from North America,鈥� Clarke says. 鈥淒etails of the upper arm bones tell us about how features of the flightstroke seen in living species came to be.鈥�

Previous fossil discoveries indicate the presence of carnivorous fish such as the half-meter-long bowfin. Birds feeding on the fish would have needed to be large and have teeth, offering additional clues to Tingmiatornis arctica鈥檚 characteristics.

Physiological factors, such as a rapid growth and maturation rate, might explain how the line of bird was able to survive the Cretaceous-Paleogene mass extinction event that occurred roughly 66 million years ago and eliminated about three-quarters of the Earth鈥檚 plant and animal species.

The physiological characteristics are still conjecture, Tarduno emphasizes, but he says the bird鈥檚 environment gives clear indications as to why the bird fossils were found where they were.

鈥淚t鈥檚 there because everything is right,鈥� he says. 鈥淭he food supply was there, there was a freshwater environment, and the climate became so warm that all of the background ecological factors were established to make it a great place.鈥�