Science
Scientists Discover Ice Age Structure Made From Bones of 60 Mammoths – Gizmodo
An unusually large structure from the last ice age built from the bones of dozens of woolly mammoths has been uncovered in Russia. Dating back some 25,000 years, it’s the oldest known structure of its kind—but its purpose isn’t entirely clear.
Circular structures made from mammoth bones are surprisingly common in the archaeological record, dating to around 22,000 years ago and appearing across much of ice age Eastern Europe. Scientists working at the Kostenki 11 site, located next to the Don River near the Russian city of Voronezh, have found the largest one yet: a 12.5-meter-wide structure (41-foot) made from hundreds of woolly mammoth bones. The dwelling was radiocarbon dated to 25,000 years old, making it the oldest known mammoth bone structure in the world. Details of this remarkable discovery were published today in Antiquity.
These structures are typically surrounded by a series of large pits, the purpose of which isn’t known. It’s possible the pits were a place to store food or bones used for burning. They could’ve also been a place to dump waste or quarries that formed during construction. As to the overall purpose of the mammoth-bone structures themselves, that’s also unclear.
“Other than being explained as ‘dwellings,’ sites of this type have previously been interpreted as having potential ritual significance,” Alexander Pryor, the first author of the new study and a researcher from the University of Exeter, said in an email to Gizmodo. “However, exactly what this ritual significance might have been is difficult to say from archaeology alone.”
This is not the first time that archaeologists have found a mammoth bone structure at Kostenki 11. Back in the 1950s and 1960s, Soviet scientists found a pair of smaller structures, also made from mammoth bones.
In 2013, archaeologists were conducting surveys in the area when they stumbled upon the third structure at Kostenki 11, which is located on the Russian Plain and approximately 520 kilometers (323 miles) due south of Moscow. Excavations lasted for three years and included a technique known as floatation, in which water and sieves are used to separate archaeological material from the soil. A key advantage of this approach is that it allows for the discovery of exceptionally small remnants and artifacts.
That Pleistocene humans living in Eastern Europe at the time would bother to build such structures is definitely a surprise. Hunter-gatherers of the Upper Paleolithic lived mobile, nomadic lifestyles, and making permanent structures is not something typically associated with their mode of existence.
“Sourcing so many mammoth bones, from at least 60 different mammoths, is a significant challenge,” said Pryor. “These would have been gathered either from recent kills or by scavenging bones from long-dead carcasses found around the landscape. Either way, mammoth bones are really heavy, particularly when fresh, and simply carrying the bones around would have taken an enormous amount of work.”
No signs of butchery were found on the bones, but Pryor said that’s not altogether surprising. These animals were so big that it was relatively easy to remove meat and fats without leaving obvious traces on the bones, he said. A similar thing has been documented in modern times, in which humans butchered elephants using metal knives and without marking the bones, he added.
Using the floatation technique, the researchers uncovered evidence of charcoal, burnt bone, bits of stone tools, and soft plant tissue associated with edible roots or tubers. Excitingly, the discovery hints at the foods eaten by Upper Paleolithic humans in Central Europe. What’s more, the site yielded the first meaningful collection of charred plant remains from a site of this kind, which means trees were still around in the area during the frigid time period, according to the new research.
The humans who built these structures burned their wood inside, so the dwelling likely served as a refuge from the harsh ice age winters and possibly year-round, according to the authors. It might have also been a place to store and stockpile food.
“If at least some of these mammoths were hunted, this is going to generate a lot of food from each kill,” said Pryor. “Therefore, preserving and storing that food could be a really significant part of what humans were doing there,” but more research will be required to suss this out, he said. And indeed, the next stage of the project will focus on the potential role of the structure as a place to store and stockpile food.
The structure might have also carried ritualistic significance; perhaps it was some kind of shrine or monument in honor of woolly mammoths. That mammoths held an important spiritual role in the lives of these humans is not a stretch of the imagination.
Importantly, Pryor and his colleagues could not find evidence consistent with the idea that the dwellings were a place for long-term, day-to-day habitation.
“It is difficult to imagine how an area this large could have been roofed,” Pryor told Gizmodo. “Some of the bones that make up the ring were found in articulation—for example groups of vertebrae—indicating that at least some of the bones still had cartilage and fat attached when they were added to the pile. This would have been smelly, and would have attracted scavengers including wolves and foxes, which is not great if this was a dwelling.”
There weren’t many stone chips at the site linked to the manufacture of stone tools, compared to similar sites. “This suggests the intensity of activity at the site was lower than might be expected from a dwelling and was a real surprise given the time and effort invested by the people that built the site,” Pryor said.
This discovery shows that hunter-gatherers were more crafty and strategic than is typically assumed. Instead of mindlessly following animal herds and picking nuts and berries along the way, these humans were actively planning for the future and building structures accordingly. At least, if this particular interpretation is correct. Hopefully the team will succeed during the next stage of the project and shed new light on this remarkable structure.
A University of Victoria micropaleontologist found that marine plankton may act as an early alert system before a mass extinction occurs.
With help from collaborators at the University of Bristol and Harvard, Andy Fraass’ newest paper in the Nature journal shows that after an analysis of fossil records showed that plankton community structures change before a mass extinction event.
“One of the major findings of the paper was how communities respond to climate events in the past depends on the previous climate,” Fraass said in a news release. “That means that we need to spend a lot more effort understanding recent communities, prior to industrialization. We need to work out what community structure looked like before human-caused climate change, and what has happened since, to do a better job at predicting what will happen in the future.”
According to the release, the fossil record is the most complete and extensive archive of biological changes available to science and by applying advanced computational analyses to the archive, researchers were able to detail the global community structure of the oceans dating back millions of years.
A key finding of the study was that during the “early eocene climatic optimum,” a geological era with sustained high global temperatures equivalent to today’s worst case global warming scenarios, marine plankton communities moved to higher latitudes and only the most specialized plankton remained near the equator, suggesting that the tropical temperatures prevented higher amounts of biodiversity.
“Considering that three billion people live in the tropics, the lack of biodiversity at higher temperatures is not great news,” paper co-leader Adam Woodhouse said in the release.
Next, the team plans to apply similar research methods to other marine plankton groups.
Read More: Global study, UVic researcher analyze how mammals responded during pandemic
Blue whales have been considered the largest creatures to ever live on Earth. With a maximum length of nearly 30 meters and weighing nearly 200 tons, they are the all-time undisputed heavyweight champions of the animal kingdom.
Now, digging on a beach in Somerset, UK, a team of British paleontologists found the remains of an ichthyosaur, a marine reptile that could give the whales some competition. “It is quite remarkable to think that gigantic, blue-whale-sized ichthyosaurs were swimming in the oceans around what was the UK during the Triassic Period,” said Dean Lomax, a paleontologist at the University of Manchester who led the study.
Giant jawbones
Ichthyosaurs were found in the seas through much of the Mesozoic era, appearing as early as 250 million years ago. They had four limbs that looked like paddles, vertical tail fins that extended downward in most species, and generally looked like large, reptilian dolphins with elongated narrow jaws lined with teeth. And some of them were really huge. The largest ichthyosaur skeleton so far was found in British Columbia, Canada, measured 21 meters, and belonged to a particularly massive ichthyosaur called Shonisaurus sikanniensis. But it seems they could get even larger than that.
What Lomax’s team found in Somerset was a surangular, a long, curved bone that all reptiles have at the top of the lower jaw, behind the teeth. The bone measured 2.3 meters—compared to the surangular found in the Shonisaurus sikanniensis skeleton, it was 25 percent larger. Using simple scaling and assuming the same body proportions, Lomax’s team estimated the size of this newly found ichthyosaur at somewhere between 22 and 26 meters, which would make it the largest marine reptile ever. But there was one more thing.
Examining the surangular, the team did not find signs of the external fundamental system (EFS), which is a band of tissue present in the outermost cortex of the bone. Its formation marks a slowdown in bone growth, indicating skeletal maturity. In other words, the giant ichthyosaur was most likely young and still growing when it died.
Correcting the past
In 1846, five large bones were found at the Aust Cliff near Bristol in southwestern England. Dug out from the upper Triassic rock formation, they were dubbed “dinosaurian limb bone shafts” and were exhibited in the Bristol Museum, where one of them was destroyed by bombing during World War II.
But in 2005, Peter M. Galton, a British paleontologist then working at the University of Bridgeport, noticed something strange in one of the remaining Aust Cliff bones. He described it as an “unusual foramen” and suggested it was a nutrient passage. Later studies generally kept attributing those bones to dinosaurs but pointed out things like an unusual microstructure that was difficult to explain.
According to Lomax, all this confusion was because the Aust Cliff bones did not belong to dinosaurs and were not parts of limbs. He pointed out that the nutrient foramen morphology, shape, and microstructure matched with the ichthyosaur’s bone found in Somerset. The difference was that the EFS—the mark of mature bones—was present on the Aust Cliff bones. If Lomax is correct and they really were parts of ichthyosaurs’ surangular, they belonged to a grown individual.
And using the same scaling technique applied to the Somerset surangular, Lomax estimated this grown individual to be over 30 meters long—slightly larger than the biggest confirmed blue whale.
Looming extinction
“Late Triassic ichthyosaurs likely reached the known biological limits of vertebrates in terms of size. So much about these giants is still shrouded by mystery, but one fossil at a time, we will be able to unravel their secrets,” said Marcello Perillo, a member of the Lomax team responsible for examining the internal structure of the bones.
This mystery beast didn’t last long, though. The surangular bone found in Somerset was buried just beneath a layer full of seismite and tsunamite rocks that indicate the onset of the end-Triassic mass extinction event, one of the five mass extinctions in Earth’s history. The Ichthyotian severnensis, as Lomax and his team named the species, probably managed to reach an unbelievable size but was wiped out soon after.
The end-Triassic mass extinction was not the end of all ichthyosaurs, though. They survived but never reached similar sizes again. They faced competition from plesiosaurs and sharks that were more agile and swam much faster, and they likely competed for the same habitats and food sources. The last known ichthyosaurs went extinct roughly 90 million years ago.
PLOS ONE, 2024. DOI: 10.1371/journal.pone.0300289
Early Life and Education
Jeremy Hansen grew up on a farm near the community of Ailsa Craig, Ontario, where he attended elementary school. His family moved to Ingersoll,
Ontario, where he attended Ingersoll District Collegiate Institute. At age 12 he joined the 614 Royal Canadian Air Cadet Squadron in London, Ontario. At 16 he earned his Air Cadet
glider pilot wings and at 17 he earned his private pilot licence and wings. After graduating from high school and Air Cadets, Hansen was accepted for officer training in the Canadian Armed Forces (CAF). He was trained at Chilliwack, British Columbia, and the Royal Military College at Saint-Jean-sur-Richelieu,
Quebec. Hansen then enrolled in the Royal Military College of Canada in Kingston,
Ontario. In 1999, he completed a Bachelor of Science in space science with First Class Honours and was a Top Air Force Graduate from the Royal Military College. In 2000, he completed his Master of Science in physics with a focus on wide field of view satellite tracking.
CAF Pilot
In 2003, Jeremy Hansen completed training as a CF-18 fighter pilot with the 410 Tactical Fighter Operational Training Squadron at Cold Lake, Alberta.
From 2004 to 2009, he served by flying CF-18s with the 441 Tactical Fighter Squadron and the 409 Tactical Fighter Squadron. He also flew as Combat Operations Officer at 4 Wing Cold Lake. Hansen’s responsibilities included NORAD operations effectiveness,
Arctic flying operations and deployed exercises. He was promoted to the rank of colonel in 2017. (See also Royal Canadian Air Force.)
Career as an Astronaut
In May 2009, Jeremy Hansen and David Saint-Jacques were chosen out of 5,351 applicants in the Canadian Space Agency’s
(CSA) third Canadian Astronaut Recruitment Campaign. He graduated from Astronaut Candidate Training in 2011 and began working at the Mission Control Center in Houston, Texas, as capsule communicator (capcom, the person in Mission Control who speaks directly
to the astronauts in space.
As a CSA astronaut, Hansen continues to develop his skills. In 2013, he underwent training in the High Arctic and learned how to conduct geological fieldwork (see Arctic Archipelago;
Geology). That same year, he participated in the European Space Agency’s CAVES program in Sardinia, Italy. In that human performance experiment Hansen lived underground for six days.
In 2014, Hansen was a member of the crew of NASA Extreme Environment Mission Operations (NEEMO) 19. He spent seven days off Key Largo, Florida, living in the Aquarius habitat on the ocean floor, which is used to simulate conditions of the International
Space Station and different gravity fields. In 2017, Hansen became the first Canadian to lead a NASA astronaut class, in which he trained astronaut candidates from Canada and the United States.
Did you know?
Hansen has been instrumental in encouraging young people to become part of the STEM (Science, Technology,
Engineering, Mathematics) workforce with the aim of encouraging future generations of space explorers.
His inspirational work in Canada includes flying a historical “Hawk One” F-86 Sabre jet.
Artemis II
In April 2023, Hansen was chosen along with Americans Christina Koch, Victor Glover and Reid Wiseman to crew NASA’s Artemis II mission to the moon. The mission, scheduled for no earlier
than September 2025 after a delay due to technical problems, marks NASA’s first manned moon voyage since Apollo 17 in 1972. The Artemis II astronauts will not land on the lunar
surface, but will orbit the moon in an Orion spacecraft. They will conduct tests in preparation for future manned moon landings, the establishment of an orbiting space station called Lunar Gateway, or Gateway, and a base on the moon’s surface where astronauts
can live and work for extended periods. The path taken by Orion will carry the astronauts farther from Earth than any humans have previously travelled. Hansen’s participation in Artemis II is a direct result of Canada’s contribution of Canadarm3
to Lunar Gateway. (See also Canadarm; Canadian Space Agency.)
“Being part of the Artemis II crew is both exciting and humbling. I’m excited to leverage my experience, training and knowledge to take on this challenging mission on behalf of Canada. I’m humbled by the incredible contributions and hard work of so many
Canadians that have made this opportunity a reality. I am proud and honoured to represent my country on this historic mission.” – Jeremy Hansen (Canadian Space Agency, 2023)
Did you know?
On his Artemis II trip, Hansen will wear an Indigenous-designed mission patch created for him by Anishinaabe artist Henry Guimond.
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Jeremy Hansen – The Canadian Encyclopedia
