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13,000-Year-Old Tusk Reveals Life of ‘Fred,’ a Mastodon Who Died in Battle

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A mounted skeleton of the Buesching mastodon.
Photo: Eric Bronson, Michigan Photography

Researchers have detailed the life and grisly death of a male mastodon that died 13,200 years ago by scrutinizing the chemical composition of one of its tusks. The tusk revealed the mastodon grew up in the Great Lakes area and, later in life, made annual trips to a mating ground in northeastern Indiana—until it died there at age 34, after being stabbed in the face by another mastodon.

Mastodons (Mammut americanum) were proboscideans that roamed across North America before their extinction around 11,000 years ago. The animals’ migration patterns have previously been investigated using isotopes locked away in their tooth enamel, but the recent investigation of one individual’s right tusk shows in detail how male mastodons’ movements would change as the animals matured. The team’s research is published in the Proceedings of the National Academy of Sciences.

“Certainly for mastodons, there’s never been a study to look at changes in landscape use within an individual’s lifetime over many, many, many years, and certainly none that have indicated that there are annual migrations that are seasonally driven,” Joshua Miller, a paleoecologist at the University of Cincinnati and lead author of the study, told Gizmodo in a phone call.

The animal the team studied is called the Buesching mastodon, after the family who owns the land on which it was found (and who later donated the specimen to the Indiana State Museum). It’s nicknamed Fred, after a member of the Buesching family.

Though Fred (the mastodon) died over 13,000 years ago, the details of its travels could still be lifted from isotopes in its 9.5-foot tusk.

Isotopes of elements like oxygen and strontium have natural abundances that differ across time and location. Because those elements end up in soils and waterways, living things (mastodons, humans, Neanderthals—you name it) consume them, offering researchers a way of tracking the movements of ancient beings. Because mastodon tusks are really elongated teeth, the same scientific techniques can be applied to them.

Fisher handling Fred’s right tusk.
Photo: Daniel Fisher

Based on the isotopes in the tusk, the term determined that the male mastodon began to roam the Great Lakes area when it separated from its herd at 12 years old. (Some elephant herds today are matriarchal; mastodon herds may have functioned the same way.)

“There’s this growth of home range as the animal goes through adolescence,” Miller said. “As [an adult] male, it’s doing something very, very different than it was when the young male was in closer proximity to the maternal herd.” Fred died nearly 100 miles from its home territory, indicating the large range of the 8-ton adult.

Before this study, researchers knew “basically bupkis” about how individual extinct animals interacted with their environment seasonally, Miller said, and for mastodons, life revolved around seasonal change.

Like elephants, female mastodons had long gestation periods of about 22 months. Females would give birth to big baby mastodons in spring, to ensure their young could take in as many nutrients as possible before the next winter set in.

Males also would try to find mates in the spring—hence how the recently studied mastodon ended up in what is today northeastern Indiana. According to Daniel Fisher, a paleontologist at the University of Michigan, even if a fight between male mastodons wasn’t fatal (as was the case with Fred), when male mastodons fought, their tusks would basically twist in their sockets, stunting the growth of nascent cells at the base of the tusks.

“Every time spring comes around, we get an arc of these defects that that represents tusk damage [in male specimens],” Fisher said. The team could read the tusks chronologically, and they were able to line up springtime with the damage incurred by battles with competitors.

Ancient isotopes in teeth reveal animal’s past movements.
Photo: Daniel LeClaire (Getty Images)

The team found that Fred went to the same place in Indiana annually in the last three years of its 34-year life. They also confirmed that Fred never ventured to that region before adulthood—further evidence that this may have been a mating ground. Fred’s last trip ended with a fatal fight with another male, based on the puncture wound in the side of its head.

“I’ve got at least a half-dozen individuals that have the same kind of hole in the same place, sometimes on the left, sometimes on the right—in one awful case, on both sides,” Fisher said, indicating the extent to which combat was a regular part of mastodon life.

These findings “squarely fit” with what others have theorized about how mastodons roamed, Miller said.

Now, the researchers plan to study the isotopes in other tusks, to get a better sense of how mastodons migrated more generally and whether the specimen from Indiana had a typical or superlative amount of miles on its stocky legs. Future work may show if Fred was the rule or an exception for how male mastodons lived.

More: Monumental DNA Study Reveals Secrets of North American Mastodons

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Mastodon tusk reveals North America migration patterns

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The mastodon’s fossil was first found on a farm in 1998 by Kent and Janne Buesching, who were mining for peat on their property. Archaeologists then excavated the Buesching mastodon’s remains. His skeleton, which is 9 feet (2.7 meters) tall and 25 feet (7.6 meters) long, has been studied since 2006.

A closer look at the mastodon’s skull showed he was killed when the tusk tip of another male mastodon punctured the right side of his skull. He died about 100 miles (160 kilometers) away from his home territory, according to a new study that was published Monday in the Proceedings of the National Academy of Sciences.

“The result that is unique to this study is that for the first time, we’ve been able to document the annual overland migration of an individual from an extinct species,” said first study author Joshua Miller, paleoecologist and assistant research professor of geology at the University of Cincinnati, in a statement.

Northeast Indiana served as a summer mating ground for the mastodons, and the study found that this solitary creature annually migrated north from his home during the winter months the last three years of his life. The ancient animal was around 34 when he died, the researchers estimated.

“Using new modeling techniques and a powerful geochemical toolkit, we’ve been able to show that large male mastodons like Buesching migrated every year to the mating grounds,” Miller said.

Daniel Fisher, co-leader of the study, helped excavate the mastodon 24 years ago. He is a professor of paleontology at the University of Michigan, and director of the University of Michigan Museum of Paleontology.

Fisher cut a long, thin section from the center of the 9.5-foot-long (3-meter-long) right tusk. Like studying tree rings, analysis of the mastodon’s tusk revealed how he interacted with his landscape as an adolescent as well as during the last years of his life.

“You’ve got a whole life spread out before you in that tusk. The growth and development of the animal, as well as its history of changing land use and changing behavior — all of that history is captured and recorded in the structure and composition of the tusk,” Fisher said.

When he was younger, the mastodon stuck close to home with his female-led herd in central Indiana before separating and venturing out on his own — much like modern elephants. As a lone rover, the mastodon would trek for about 20 miles (32 kilometers) each month.

Analyzing the tusk

Migration was critical for the mastodons to find places where they could reproduce while living in harsh, cold climates. But it has been difficult for researchers to pin down their geographic ranges.

Looking for oxygen and strontium isotopes within mastodon tusks is revealing some of that insight.

Mastodon tusks, like elephant tusks, have new growth layers that form near the center throughout their life. Information about when they were born can be found stored at the tip of the tusk, while their death is in the layer at the tusk’s base.

As mastodons munched on shrubs and trees and drank water, chemical elements from their meals became stored in the tusks as well.

Chemical analysis of tiny samples taken from different tusk layers of the Buesching mastodon correlated to geographic locations as the elements changed according to the landscape, as well as seasonal fluctuations. This data was put into a movement model developed by the researchers to essentially track when, where and how far he traveled.

“Every time you get to the warm season, the Buesching mastodon was going to the same place — bam, bam, bam — repeatedly. The clarity of that signal was unexpected and really exciting,” Miller said.

Next, the researchers want to study the tusks of other mastodons to see if they can make similar discoveries.

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Ancient mammoth tusk discovered 10,000 feet deep in ocean off California coast

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An ancient mammoth tusk has been retrieved from the deep ocean waters off the coast of central California that could be more than 100,000 years old. 

In 2019, scientists from the Monterey Bay Aquarium Research Institute were exploring an underwater mountain around 10,000 feet deep and nearly 200 miles offshore with a remotely operated vehicle. 

The researchers saw what appeared to be an elephant tusk and managed to take a small piece of the tusk at the time, but returned this summer to recover the entire specimen. 

With the help of researchers from the University of California, Santa Cruz and the University of Michigan who examined the find, scientists confirmed last week the tusk actually once belonged to a Columbian mammoth. 

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Researchers said the deep sea’s cold, high-pressure environment helped keep the ancient tusk, which measures more than 3 feet in length, intact.

“This specimen’s deep-sea preservational environment is different from almost anything we have seen elsewhere,” Daniel Fisher, paleontologist with the University of Michigan, said in a statement

“Other mammoths have been retrieved from the ocean, but generally not from depths of more than a few tens of meters,” Fisher said. 

Research is underway to extract more information from the tusk. Scientists are using CT scans of the tusk to determine the animal’s age and how it may have ended up deep offshore. 

The research team believes the discovery could be the oldest well-preserved mammoth tusk recovered from this region of North America. Dating of the tusk is underway and it’s estimated to be more than 100,000 years old. 

“You start to ‘expect the unexpected’ when exploring the deep sea, but I’m still stunned that we came upon the ancient tusk of a mammoth,” Steven Haddock, senior scientist with the Monterey Institute, said. 

The Columbian mammoth roamed the Americas as far north as the Northern U.S. and as far south as Costa Rica. The species went extinct some 11,500 years ago. 

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Mammoth tusk found at bottom of Pacific Ocean off California coast; Monterey Bay Aquarium Research Institute studying rare find

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MOSS LANDING, Calif. — Scientists have found evidence of ancient land dwellers at the bottom of the Pacific Ocean.

Researchers with Monterey Bay Aquarium Research Institute say they discovered a Columbian mammoth tusk in the deep waters off California’s coast.

Scientists estimate the tusk is more than 100,000-years-old, CNN reported.

RELATED: Prehistoric fossil mystery solved thanks to help from Field Museum researchers

It is over 3-feet-long and was found 185 miles offshore and 10,000 feet underwater.

The researchers note mammoth remains from continental North America are particularly rare.

They plan to use the tusk’s DNA to refine what we know about mammoths in that part of the world.



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Researchers announce discovery of ancient mammoth tusk found 10,000 feet deep in the ocean – USA TODAY

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  1. Researchers announce discovery of ancient mammoth tusk found 10,000 feet deep in the ocean USA TODAY
  2. An ancient mammoth tusk buried deep in Pacific Ocean & ‘newcomer’ dwarf galaxies in Milky Way ThePrint
  3. A 100,000-Year-Old Mammoth Tusk Has Been Discovered Off The Coast of California ScienceAlert
  4. Mammoth tusk found at bottom of Pacific Ocean off California coast; Monterey Bay Aquarium Research Institute studying rare find KABC-TV
  5. ‘Remarkable’ 100,000-year-old mammoth tusk found by accident during deep-sea mission Daily Express
  6. View Full Coverage on Google News

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A 100,000-Year-Old Mammoth Tusk Has Been Discovered Off The Coast of California

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To the untrained eye, it may have looked like a giant wood log. In reality, scientists had spotted something unusual off the California coast two years ago: a 3-foot (1-meter) long mammoth tusk.

 

A research team at the Monterey Bay Aquarium Research Institute discovered the tusk in 2019 while exploring an underwater mountain roughly 10,000 feet (3,000 meters) below the ocean’s surface.

Though other mammoth fossils had been plucked from the ocean before, it’s rare for such objects to nestle along the deep seafloor, Daniel Fisher, a paleontologist at the University of Michigan, said in a press release. 

Scientists ultimately determined that the tusk belonged to a young female Columbian mammoth, possibly one that lived during the Lower Paleolithic era, which spanned 2.7 million to 200,000 years ago. Researchers are still working to determine the creature’s precise age, along with more details about its life – including its diet and how often it reproduced.

“This is an ‘Indiana Jones’ mixed with ‘Jurassic Park’ moment,” Katie Moon, a postdoctoral researcher at the University of California, Santa Cruz, told The New York Times.

The discovery could ultimately signal the presence of other ancient animal fossils hidden in the deep sea.

Scientists prepare to clean the large tusk piece in the ship’s laboratory. (Darrin Schultz © 2021 MBARI)

Scientists broke a piece of the mammoth tusk two years ago

Monterey Bay scientists hadn’t intended to encounter a mammoth tusk in 2019. At the time, the research team was roving the ocean with remotely operated vehicles in search of deep-sea species.

“You start to ‘expect the unexpected’ when exploring the deep sea, but I’m still stunned that we came upon the ancient tusk of a mammoth,” Steven Haddock, senior scientist at the Monterey Bay Aquarium Research Institute, said in the press release.

 

On a hunch, the scientists decided to retrieve the tusk from the ocean floor, but the tip broke off and they weren’t able to collect the full specimen. The team later revisited the site in July to grab the rest of the artifact. This time, they attached soft materials like sponges to the remotely operated vehicle then gingerly lifted the tusk using the vehicle’s robotic arms.

The full tusk gave scientists a much larger sample of mammoth DNA, which they used to determine its species.

Scientists believe the Columbian mammoth was one of the largest creatures of its kind – likely the result of crossbreeding between a woolly mammoth and another mammoth species. It probably used its tusks to protect itself and forage for food when it roamed North America up to 10,000 years ago.

Paleontologist slices a section from the core of the smaller tusk fragment. (Darrin Schultz © 2021 MBARI)

The deep sea’s cool, high-pressure environment is ideal for preserving fossils

Scientists are now analyzing the tusk’s radioisotopes, or naturally decaying atoms, to pinpoint how long ago the mammoth lived. Since scientists know the rate at which isotopes like uranium and thorium decay, they can determine the tusk’s age based on how much of these isotopes are still present in the artifact.

So far, this technique suggests the mammoth tusk is much more than 100,000 years old.

 

Scientists believe the ocean is responsible for keeping the artifact in such pristine condition.

Deep-sea temperatures are just above freezing – around 4 degrees Celsius (39 degrees Fahrenheit), on average. This frigid climate slows down the rate of fossil decay, just like putting food in the freezer prevents it from spoiling too soon. 

Fossils also have a better chance of surviving in the deep sea’s high-pressure environment – the underwater pressure in the ocean’s deepest trenches is 1,100 times greater than it is at the water’s surface.

“If the tusk had been found on land, deciphering its history would not be as straightforward,” Terrence Blackburn, associate professor at the University of California, Santa Cruz, said in the press release.

This article was originally published by Business Insider.

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Scientists find ‘remarkable’ 100,000-year-old mammoth tusk in deep-sea mission | Science | News

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The researchers were around 300km off the shore of California when they ran into the giant tusk that was first spotted in 2019. Marine biologist Steven Haddock and Randy Prickett, the pilot of a remotely controlled deep-sea vehicle, first caught sight of the spectacular species during a mission aboard the R/V Western Flyer. But the pair had to return to the site in July as they could only collect a small sample at the time.

The researchers from the Monterey Bay Aquarium Research Institute (MBARI) have now retrieved the mammoth tusk.

Dr Haddock said in a statement: “You start to expect the unexpected when exploring the deep sea, but I’m still stunned that we came upon the ancient tusk of a mammoth.”

Experts proved to be very excited about this stunning find.

Palaeontologist Daniel Fisher from the University of Michigan, who specialises in the study of mammoths and mastodons, said: “This specimen’s deep-sea preservational environment is different from almost anything we have seen elsewhere.”

Now that the tusk has been fully retrieved, an interdisciplinary team of scientists, including those from the University of California, Santa Cruz (UCSC) and the University of Michigan, are performing an examination of the tusk.

While the full analysis is not yet complete, their preliminary analysis has led them to believe that the tusk could be over 100,000 years old.

The scientist said this might even be the oldest well-preserved tusk ever recovered from this region in North America.

They also noted that deciphering the tusk’s history would have been far more difficult if it had been found on land instead of in the deep sea.

Terrence Blackburn, associate professor of Earth and planetary sciences at UCSC, said: “Our age estimate on the tusk is largely based on the natural radioactive decay of certain uranium and thorium isotopes imparted to the tusk from the ocean.”

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“Mammoth remains from continental North America are particularly rare, and so we expect that DNA from this tusk will go far to refine what we know about mammoths in this part of the world.”

Dr Haddock said: “We are grateful to have a multidisciplinary team analysing this remarkable specimen, including a geochronologist, oceanographers, and palaeogenomicists from UCSC; and palaeontologists at the University of Michigan.

“Our work examining this exciting discovery is just beginning and we look forward to sharing more information in the future.”



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Mammoth tusk recovered from an unlikely place: the bottom of the ocean

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Pilot Randy Prickett and scientist Steven Haddock, researchers with Monterey Bay Aquarium Research Institute (MBARI), discovered a Columbian mammoth tusk 185 miles offshore and 10,000 feet deep in the ocean in 2019, the institution said in a news release.

At the time they were only able to collect a small piece of the tusk, so they returned in July 2021 to get the complete sample.

“You start to ‘expect the unexpected’ when exploring the deep sea, but I’m still stunned that we came upon the ancient tusk of a mammoth,” said Haddock. “Our work examining this exciting discovery is just beginning and we look forward to sharing more information in the future.”

University of Michigan paleontologist Daniel Fisher, who specializes in the study of mammoths and mastodons, said it is unlike anything he has ever seen.

“Other mammoths have been retrieved from the ocean, but generally not from depths of more than a few tens of meters,” Fisher said.

A variety of research facilities are examining the tusk to determine a variety of information about it including the age of the animal at its death, the release said. The researchers said the cold, high pressure environment helped to preserve the tusk, so it can be studied in greater detail.

The scientists believe it could be the oldest well-preserved mammoth tusk recovered from this region of North America, and the UCSC Geochronology Lab estimates it is more than 100,000 years old after analyzing the radioisotopes.

Researchers hope the data collected can not only tell them more about the mammoth they found, but the species in general.

“Specimens like this present a rare opportunity to paint a picture both of an animal that used to be alive and of the environment in which it lived,” said Beth Shapiro, lead researcher at the UCSC Paleogenomics Lab.

“Mammoth remains from continental North America are particularly rare, and so we expect that DNA from this tusk will go far to refine what we know about mammoths in this part of the world.”

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Why Was This Ancient Tusk 150 Miles From Land, 10,000 Feet Deep?

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Mammoth tusks that are over 100,000 years old are “extremely rare,” Mr. Mol added, and studying one could give scientists new insights about the Lower Paleolithic, a poorly understood era of Earth’s history.

Scientists know that around 200,000 years ago Earth was experiencing a glacial period and our ancestors were migrating out of Africa. But they don’t know exactly how the planet’s changing climate affected mammoths and other large animals during this time. What is also unclear is how arrival to North America altered the genetic diversity of mammoths.

“We don’t really know much of anything about what was happening during that time period,” Dr. Fisher said. “We don’t have access to a lot of specimens from this time period and that’s due in large part to the fact that getting access to sediments of this age is difficult.”

Mammoths, the furry, small-eared relatives of modern elephants, first appeared around five million years ago and became extinct around 4,000 years ago. The first mammoths came out of Africa and spread north, evolving into distinct species along the way, until they had colonized much of the Northern Hemisphere.

The earliest mammoths to venture into North America were known as Krestovka or steppe mammoths. These mammoths came from Eurasia 1.5 million years ago and did so by marching across the Bering Strait, which wasn’t covered by water like it is today. Hundreds of thousands of years later, another species of mammoth, the woolly mammoth, also crossed the Bering Strait and joined their cousins in North America. The two hybridized to produce the Columbian mammoth, but no one knows exactly when. A recent study estimated that the hybridization event occurred at least 420,000 years ago, but more research is needed to confirm this.

If the tusk is as old as scientists suspect, it “could really help clarify the timing of this hybridization event,” said Pete Heintzman, an associate professor at the Arctic University Museum of Norway who studies the DNA of mammoths and other ice age creatures.

Although exposure to saltwater can be destructive to biological tissue, the deep sea can be ideal for DNA preservation.

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Scientists map 17,000-year-old woolly mammoth’s path using its tusk

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An illustration of an adult male woolly mammoth in Alaska.


James Havens/University of Alaska Museum of the North

We might think of woolly mammoths as giant, lumbering beasts from a disappeared era, but a new study suggests their massive size didn’t stop them from tallying major miles in the frigid north thousands of years ago.

“It’s not clear cut if it was a seasonal migrator, but it covered some serious ground,” explains University of Alaska Fairbanks researcher Matthew Wooller, in a statement. “It visited many parts of Alaska at some point during its lifetime, which is pretty amazing when you think about how big that area is.”

Wooller led a team using chemical isotope data to map the life journey of a single mammoth that lived over 17,000 years ago. A paper on the findings is the cover story in this week’s issue of the journal Science.

The group of international researchers analyzed isotopic signatures in the male mammoth’s tusk from the elements strontium and oxygen, then cross-referenced that data with maps of isotope variation across Alaska created from analyzing the teeth of small rodents from around the state.

“From the moment they’re born until the day they die, they’ve got a diary and it’s written in their tusks,” said Pat Druckenmiller, a paleontologist and director of the University of Alaska Museum of the North. “Mother Nature doesn’t usually offer up such convenient and life-long records of an individual’s life.”

The ancient dental records show the big old boy lived to be 28 years old and in that time it covered enough of the Alaskan tundra, taiga and mountains to nearly circle the world twice.

This woolly one didn’t exactly have an easy journey, though. The analysis showed an abrupt shift around age 15 that likely means the mammoth was ostracized from its herd, which often happens with contemporary elephants. Later, a spike in nitrogen isotopes during the last winter of the animal’s life suggest it may have starved to death where its remains were eventually recovered above the Brooks Range.

That fate was a sad harbinger for the entire species. The individual mammoth was related to the last group that roamed mainland Alaska, likely outlasted by only a few small groups on northern islands.

The research also has a darkly relevant feel today for extant species in the north like polar bear that are seeing their traditional range dwindle as the Arctic takes on the brunt of global warming.

“The Arctic is seeing a lot of changes now, and we can use the past to see how the future may play out for species today and in the future,” Wooller said. “Trying to solve this detective story is an example of how our planet and ecosystems react in the face of environmental change.”

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