Woolly mammoth with preserved poop, wool and ligaments dredged from Siberian lake

Here are some of the “Tadibe” woolly mammoth’s recovered bones. Notice the ribs, both halves of the pelvis and one of the hind limbs.

A man following a reindeer herd in northwestern Siberia made the discovery of a lifetime when he passed by a lake on July 20; poking out of the water was the enormous skull of a woolly mammoth dating back at least 10,000 years.

When scientists came to investigate the mammoth skull, they made an even larger discovery — recovery efforts unearthed most of the woolly mammoth’s (Mammuthus primigenius) remaining skeleton, some of its soft tissues and wool, and even a piece of fossilized poop (called a coprolite) that the mammoth may have passed before its death at the end of the last ice age.

The accidental finding was made possible by low water levels in Lake Pechenelava-To, in the Yamal peninsula of the Yamalo-Nenets region, said Pavel Kosintsev, a senior researcher at the Institute of Plant and Animal Ecology in Russia at the Urals Branch of the Russian Academy of Sciences, who supervised the mammoth’s excavation.

“If the water level hadn’t fallen, the mammoth wouldn’t have been found,” Kosintsev told Live Science in an email.

During the excavation, the researchers built a wooden fort around the mammoth’s remains, and then they used a sump pump to remove water from the enclosure. After wading through the muck, the researchers were able to unearth about 90% of the mammoth’s bones, two large pieces of skin, parts of the mammoth’s woolly coat and one coprolite, Kosintsev said.

To honor Konstantin “Kostya” Tadibe, the man who found the mammoth, the researchers named it the Tadibe mammoth. The skeletal remains indicate that the Tadibe mammoth was male, stood about 6.5 to 8.2 feet (2 to 2.5 meters) tall and was about 15 years old when it died, Kosintsev said. The coprolite, however, was small, just 2 inches (5 centimeters) in diameter.

It’s uncommon to find soft tissue on mammoth remains, but “coprolites are even rarer,” Kosintsev said. “Scientists know no more than 10 [mammoth] coprolites.” Studying coprolites can reveal information about mammoth diets and intestinal parasites, he added.

Image 1 of 12

The excavation team dug out the area holding the mammoth’s remains by the lake’s shore. Then, they used a sump pump to remove the water. Image 2 of 12

The sump pump allowed the excavation team to clear out the water. Image 3 of 12

The team built a wooden fort around the excavation area. Image 4 of 12

The team excavates the woolly mammoth’s (Mammuthus primigenius) remains. Image 5 of 12

The team suctions water out of the fort surrounding the excavation area. Notice the piece of mammoth bone poking up on the left. Image 6 of 12

A piece of the woolly mammoth’s still-articulated (connected) vertebral column. Image 7 of 12

A close-up of the Tadibe mammoth’s vertebrae from its lower back, which sat close to the hips. These bones are at least 10,000 years old. Image 8 of 12

The excavation team Image 9 of 12

The excavation took place on the the Yamal peninsula of the Yamalo-Nenets region of Siberia. Image 10 of 12

Here are some of the woolly mammoth’s recovered bones. Image 11 of 12

Two men carry a piece of the excavated woolly mammoth remains from Lake Pechenelava-To. Image 12 of 12

After the excavation, the team laid out the mammoth’s bones.

Meanwhile, the study of soft tissues “allows scientists to learn how mammoths adapted to the cold climate of the ice age,” Kosintsev said. According to the Associated Press, the preserved soft tissues included the Tadibe mammoth’s ligaments, the band of tough tissue that connects bones or cartilage together at a joint.

The ligaments, which are largely made of collagen — the same material that’s found in skin, cartilage and bone — likely survived in Siberia’s normally cold temperatures where they would be slow to decay, said Daniel Fisher, a curator at the Museum of Paleontology at the University of Michigan, who wasn’t involved with the Tadibe mammoth discovery. “Ligaments are one of the last soft tissues to break down under bacterial activity,” Fisher told Live Science.

After looking at a photo of the Tadibe mammoth’s skeletal remains, Fisher noted that one of the pachyderm’s ribs looks like it had been broken or fractured, but had later healed.

“It sometimes happens that animals get in a fight or there’s an injury and they break a rib, but then it heals with a bit of an offset,” he said. “And it looks to me like that could be a bit of a broken healed fracture on that rib.”

However, Fisher said he or another paleontologist would have to take a closer look at the rib to be sure.

Even with this injury, it remains a mystery as to why the mammoth died, although Kosintsev noted that “there is no indication that this mammoth was killed by a human.” That wasn’t the case for a 25,000-year-old mammoth found in Poland that had a javelin embedded in its rib, Live Science previously reported. However, other research offers a clue about this mammoth’s demise: Woolly mammoth bachelors were more likely than females to die in natural traps, such as falling through thin ice, tumbling into holes or getting stuck in mudflows, according to a 2017 study published in the journal Current Biology. These deaths likely came to pass because inexperienced male mammoths tended to travel alone, the researchers of that study said.

Disappearing mammoths

Mammoths went extinct in mainland Russia about 10,000 years ago (although dwarf woolly mammoths survived until about 4,000 years ago on Wrangel’s Island, north of Russia), and now their remains are disappearing fast.

In fact, there may be more mammoth findings as Siberia’s temperatures rise and its permafrost melts.