Birds were nesting in the Arctic during age of dinosaurs, scientists discover
The Arctic might evoke images of polar bears and seals, but 73m years ago it was a dinosaur stomping ground. Now fossil hunters say these beasts shared their turf with a host of different birds.
Researchers believe their discovery of more than 50 bird fossils from the Prince Creek formation in Alaska is the oldest evidence of birds nesting in polar regions, pushing back the date by more than 25m years.
'The previous oldest evidence for polar nesting is a penguin colony from the Eocene of Antarctica [that lived about 46.5m years ago],' said Lauren Wilson, first author of the work from Princeton University.
More than 200 species of bird nest in the Arctic today, with the researchers saying they are crucial members of the ecosystem, helping with essential tasks such as pollination and seed dispersal. And the latest findings suggest their presence is nothing new.
'These new fossils fill a major gap in our understanding of bird evolution,' said Prof Patrick Druckenmiller, director of the University of Alaska Museum of the North and a co-author of the study published in the journal Science.
While the earliest birds emerged in the Late Jurassic, about 150m years ago, the delicate nature of bird bones means such animals are rare in the fossil record. 'Prior to this work, and with the exception of a few footprints, bird fossils weren't known from Alaska,' said Druckenmiller.
The discovery involved far more than mere good fortune, with the team carefully excavating bones as well as washing and sieving material from small, sandy deposits to isolate tiny fossils, many of which were less than 2mm in size.
'It was literally like panning for gold, except bird bones are our prize,' said Druckemiller.
Wilson added that many of the bones were from embryos or hatchlings. At least one species of bird, she said, belonged to a now-extinct group called Ichthyornithes, and would have resembled a toothed seagull, while the researchers also found at least one member of another extinct group called Hesperornithes: foot-propelled diving birds with teeth.
Many of the fossils came from toothless birds that may have resembled ducks. That, the team note, is significant because features such as a lack of teeth are a hallmark of Neornithes, the group that includes all living birds and their most recent common ancestor. It suggests the prehistoric birds nesting in the Arctic were close relatives of modern birds.
Druckenmiller said that, like the Arctic today, the Prince Creek ecosystem of 73m years ago would have experienced about six months of continuous daylight in the summer, during which it would have been very green. As a result there would have been an abundance of food. However, the winter would have been chilly.
'While [winters were] not as harsh as today, year-round residents would have to endure freezing temperatures, occasional snowfall, and about four months of continuous winter darkness,' he said.
Wilson said the newly discovered fossils showed the birds were breeding in the Arctic, but she said it was unclear if they spent the winter there, adding it was highly likely at least some of them were migratory.
Steve Brusatte, a professor of palaeontology and evolution at the University of Edinburgh who was not involved in the work, said that while the fossils discovered by the team were 'absolutely minuscule', they told a huge story.
'These fossils show that birds were already integral parts of the these high-latitude communities many tens of millions of years ago, and thus that these communities are a long-term norm of Earth history, not a recent ecological innovation of modern times,' he said.
Hashtags
Try Our AI Features
Explore what Daily8 AI can do for you:
Comments
No comments yet...
Related Articles
Yahoo
an hour ago
- Yahoo
Trump science cuts may close WA LIGO observatory that confirmed theory of relativity
The Trump administration wants to close one of the nation's two cutting-edge observatories — one of them in the Tri-Cities — that made scientific history and launched a new way to study the universe. It's part of a $5.2 billion, or 57% cut, proposed Friday for the National Science Foundation and could result in the permanent closure of one of the special observatories, threatening the U.S.'s scientific leadership in such research. The National Science Foundation funds two Laser Interferometer Gravitational-wave Observatories, LIGO Hanford, which is about 10 miles from Richland on unused Hanford nuclear site land, and its twin, LIGO Livingston in Louisiana. In 2015 the two LIGOs detected gravitational waves from outer space passing through the Earth for the first time, nearly 100 years after Albert Einstein predicted their existence. The detection of matching vibrations at both sites confirmed that the infinitesimal movement detected was from gravitational waves reaching Earth from a violent event in space. In the first detection it was from the collision of two black holes 1.3 billion years ago. The finding led to a Nobel Prize in Physics for the work by three U.S. professors emeritus to design and build the two observatories. Since the two U.S. LIGOs came online, gravitational wave observatories have begun operating in Italy and Japan, but the United States remains the leader in the field with the most advanced and sensitive equipment. Fiscal 2026 budget documents released late Friday by the Trump administration proposed reducing the overall budget for the two LIGOs by 40% from $48 million in fiscal 2024 to $29 million in fiscal 2026. The current fiscal budget signed into law in March has not yet had program-specific spending plans released to compare to the fiscal 2026 proposal. The document released Friday is the Trump administration's recommendation for fiscal 2026, which Congress will use as a guide as it sets the budget amount. The Trump proposal calls for not only closing one of the two U.S. observatories in fiscal 2026 but also reducing LIGO spending for technology development. The two LIGOs were planned to be in an upgrade phase in 2026, with technology improvements being made to both. The Trump administration has not said which LIGO it would favor shutting down or why both would not be kept open with limited operations. If one of the two LIGOs were closed for a year, rehiring their highly specialized scientists to resume operating the next year could be very difficult, say officials. Louisiana Gov. Jeff Landry has been a frequent visitor to the White House in Trump's second term, as reported by the Shreveport Times, while Washington state is led by a Democrat governor and has filed numerous lawsuits against the Trump administration. On Wednesday, Washington state Attorney General Nick Brown joined a coalition of 15 other attorneys general to file a lawsuit against the Trump administrations attempts to cut National Science Foundation programs that it said helped maintain the United States' position as a global leader in science, technology, engineering and math. The 'National Science Foundation FY 2026 Budget Request to Congress' calls the LIGO system 'the most sensitive detector of gravitational waves ever built' and the leader in 'the worldwide effort to study the structure and evolution of the universe through gravitational radiation.' Since the initial detection of gravitational waves passing through Earth in 2015 through early spring of this year, the two LIGOs have detected 290 possible gravitational wave events from mergers of black holes and neutron stars, with more detections being made as scientific equipment has been upgraded and improved. The most recent improvements were made with the goal of improved detection and more advanced data analysis methods to allow scientists to extract more information from detections and increase their understanding of black holes and neutron stars. With improvements in sensitivity also comes new opportunities to detect signals from sources other than mergers, such as the continuous gravitational-wave signals that are generated by rapidly rotating neutron stars in our Galaxy, according to LIGO officials. At LIGO Hanford vacuum tubes extend for 2.5 miles at right angles across previously unused Hanford site shrub steppe land near the Tri-Cities. At the end of each tube, a mirror is suspended on glass fibers. A high-power laser beam is split to go down each tube, bouncing off the mirrors at each end. If the beam is undisturbed, it will bounce back and recombine perfectly. But if a gravitational wave is pulsing through the Earth, making one of the tubes repeatedly infinitesimally longer and the other infinitesimally shorter, the beam will not recombine as expected. LIGO Hanford and its Louisiana twin now can measure the stretching and the squeezing of the fabric of space-time on scales 10 thousand trillion times smaller than a human hair. Having multiple gravitational-wave observatories can allow scientist to localize the region of the sky from which the signal emerged and alert astronomers using more traditional telescopes, as well as neutrino detectors, to make observations. LIGO's most important finding to date may have been the detection of the fiery collision of two neutron stars in August 2017, opening up a new field of astronomy. The crash of the neutron stars — the collapsed cores of large stars — spewed material that radioactively decayed, creating heavy metals like gold and platinum. Unlike black holes, colliding neutron stars emit a flash of light in the form of gamma rays. It allows the event to be captured both by LIGO and by observatories that observe forms of light, including X-ray, ultraviolet, infrared and radiowaves. It was the first time that a cosmic event had been viewed in both gravitational waves and light, giving scientists a new way of learning about the universe through 'multi-messenger astronomy.' Within months, about a quarter of the world's professional astronomers have been involved in the follow-up of the initial discovery.
Yahoo
2 hours ago
- Yahoo
Scientists Startled by Discovery of Small Star Swimming Through Outer Layers of Another Larger Star
A team of researchers in China have discovered a stunning binary system in which a stellar object known as a pulsar orbited inside the outer layers of its companion star — which it accomplished after stripping its host's innards and dispersing them into space. The findings, detailed in a new study published in the journal Science, are an incredibly rare example of a "spider star" that preys on its companion, so-named because of the female arachnids that devour males after mating. And tantalizingly, the grisly scene is some of the best evidence yet of a stage of stellar evolution called the common envelope phase, which has never been directly observed by astronomers. Pulsars are rapidly spinning neutron stars, the incredibly dense stellar cores that are left over in the aftermath of a supernova. Everything about neutron stars exhaust superlatives — their gravity most of all. They are so tightly packed, containing more mass than our Sun inside a form just a dozen miles in radius, that all their atoms and their constituent protons and electrons have been crushed into neutrons, with just a teaspoon of this improbable matter weighing trillions of pounds. Their powerful magnetic fields, billions of times stronger than Earth's, unleash beams of radio waves into space along their poles. Further beggaring belief, some neutron stars become pulsars, which spin up to hundreds of times per second after siphoning material from a stellar companion, if it has one. Their sweeping beams of radiation, like cosmic lighthouses, look like a repeating signal to observers. The newly discovered pulsar, PSR J1928+1815, intrigued the astronomers because its radio pulses suggested that it was extremely close to its host, completing an orbit every 3.6 hours. They also noticed that for one-sixth of that orbit, the pulsar would vanish from view, indicating that the host was eclipsing it. "That's a large part of the orbit," coauthor Jin-Lin Han, a radio astronomer at the National Astronomical Observatories in Beijing, told Gizmodo. "That's strange, only a larger companion can do this." Over four and a half years, Han's team closely observed the system using the Five-hundred-meter Aperture Spherical Radio Telescope (FAST) in southern China, the largest and most powerful single-dish radio telescope in the world. Their observations revealed that the host star was between one to 1.6 times the mass of our Sun, while the pulsar was more likely 1.4 stellar masses. Determining the make of the host star, however, took some additional sleuthing. Its tight orbit and the fact that it was only detectable in radio wavelengths, Giz noted, ruled out its being a Sun-like star. And since it was large enough to eclipse the pulsar, it had to be something larger than a stellar remnant like another neutron star. That pointed to something altogether more spectacular: a helium star, created after the pulsar, when it was still an ordinary neutron star, tore off its host's layers and created a huge common envelope, a cloud of hydrogen gas that swallows both the stars. In this case, the poor star under attack managed to cling on to its evacuated innards for just 1,000 years — a blink in a stellar lifespan — before the whole, mighty envelope fell apart. Fleeting as it was, its impact is lasting: the friction exerted by the gases gradually nudged both stars closer together. Common envelopes are rare because the process of a neutron star stripping its companion, which causes it to spin and graduate to a pulsar, usually results in all the siphoned material being devoured. But if the companion is massive enough, much of it survives. The discovery marks the first spider star found orbiting a helium star. While the astronomers didn't get to witness the envelope in action, this is some of the most convincing evidence to date that this long-theorized stage of stellar evolution exists. In all, the team estimates that there're just 16 to 84 star systems like this one in the entire Milky Way — and, against all odds, we got to see one. More on space: Scientists Puzzled by Mysterious Motion in Atmosphere of Saturn's Moon
Yahoo
2 hours ago
- Yahoo
New York Giants Rookie Quarterback Jaxson Dart Showing Makeup Behind Russell Wilson
The New York Giants drafted quarterback Jaxson Dart with little intention of playing him in Year 1. Dart may see time when the games don't matter, or after the Week 14 bye week gives him ample time to prepare. But the Giants didn't just sign a starter for him to compete with; they insulated the room with both Russell Wilson and Jameis Winston to ensure he only plays on their terms. Wilson, signed to a $10.5 million deal in March, is set to start in Week 1, and at the very least through the first portion of the season that sees New York play its division rivals, along with the Kansas City Chiefs and Los Angeles Chargers. Advertisement Not every prospect is comfortable with that kind of environment. Dart has been quick to confirm that he's on board with the team's plans, and it is part of why he checked so many boxes for the front office during the pre-draft process. The Giants' rookie is showing the makeup that made him a first-round pick, most recently in an interview with Sports Illustrated. "Our sole focus as a quarterback room is to win games," said Dart. "That's what we come to work every single day to do. We want to win. So, we all have the same focus. We have the same intent of what we're doing and how we're trying to handle it, and make the team better. So obviously, you're competing. But you know, those guys, they've been in my shoes. They were rookies once, too. So they understand the growing pains." Wilson and Winston have over two decades of experience between them. Wilson won a Super Bowl and lost another while rising from third-round pick to a full-fledged superstar. Winston, the first-overall pick in the 2015 NFL Draft, knows all about the expectations Dart is facing. Advertisement Together, they'll take on New York and hope to be the mentors Dart needs to successfully leap from SEC star to NFL stalwart. At rookie camp, Dart emphasized how he is willing to sit behind those veterans as he gets acclimated to the next level. 'Golly, yeah, they've been great,' he said at rookie camp. 'They were some of the first people to text me when I got drafted. And I thought that was just super cool. Those are guys that I've looked up to for such a long time. I've said this before, I remember I was wearing Russell's jersey with the Seahawks when he won a Super Bowl. So, like I said, these guys have been people who I've really looked up to. And I hold them in the highest regard. 'So, I think for me, being in this situation, being able to be a sponge and soak in all the information that I can, will help elevate me. And then at the same time, I just want to compete and make everybody else better in the room as well.' Related: Giants Schedule Reveals Potential Dart Debuts Related: Jaxson Dart Reveals Surprising Take on Giants Teammate
