Mammoth Meat
Mammoth Meat
Radiocarbon-dated to 19,551 years old!
Roughly the mass of a modern African elephant, the woolly mammoth evolved some 400,000 years ago in Siberia from the steppe mammoth widespread on that continent, and ultimately spread westward into Europe and eastward into North America via the Beringian land bridge that once connected modern-day Russia and Alaska.
This specimen is a fragment of a woolly mammoth muscle tissue, radiocarbon dated to 19,551 years old. The specimen comes from a well-preserved wooly mammoth leg discovered near the Indigirka River in Siberia, Russia.
📸 The original leg as discovered in Siberia. This piece is now displayed in a museum in Japan.
📸 Close-up of a large chunk of Woolly Mammoth meat (Mini Museum)
As you might expect, each tissue fragment is unique. The pieces vary widely in size, shape, color, and texture. We do not recommend or endorse the consumption of this item. It is not food. It is a display piece.
The specimen comes in an acrylic jar, which housed inside a glass-topped Riker display box measuring 4x3x1 (inches). A small information card accompanies the specimen and serves as the certificate of authenticity.
Please Note: We have not stabilized this material with resin. It is very firm, like leather, but we recommend treating it as fragile as it can shed dusty bits. For this reason, we've placed each specimen in an acrylic specimen jar. We recommend keeping it in the jar at all times as it can be fragrant when exposed.
MORE ABOUT Woolly Mammoths
"Various legends exist about frozen mammoths. It has been said that the scientists who excavated the Beresovka mammoth, discovered in the year 1900, enjoyed a banquet on mammoth steak. What really appears to have happened is that one of them made a heroic attempt to take a bite out of this meat but was unable to keep it down, in spite of a generous use of spices." ~ Björn Kurtén in "How to Deep Freeze a Mammoth"
📸 Time for the dentist! A massive Mammoth molar in the hands of our neanderthal photographer
The History of Mammoths
Roughly the mass of a modern African elephant, the woolly mammoth evolved some 400,000 years ago in Siberia from the steppe mammoth widespread on that continent, and ultimately spread westward into Europe and eastward into North America via the Beringian land bridge that once connected modern-day Russia and Alaska.
This event may have been the second mammoth invasion of the New World, as the steppe mammoth forayed to North America about 1.5 million years ago and evolved there into the endemic (and enormous) Columbian mammoth.
Mammoths were an important food source to early humans and neanderthals. They even used their bones and hides to create huts and other structures.
📸 Brilliant coloring on Mammoth tooth fossils
In Pleistocene North America, woolly mammoths primarily roamed the cold, treeless tundra-grasslands immediately below the continental ice sheets—the American reach of the mammoth steppe—while Columbian mammoths occupied a more southerly, temperate range encompassing most of today's Lower 48 States and which extended deep into Mexico.
They shared this territory with fellow Pleistocene grazers, subsisting mainly on grasses and sedges along with willows, alders, and other stunted trees that grew sparsely in the high-latitude steppe lands, far more diverse biomass than the modern Arctic tundra.
After disappearing from continental ranges roughly 10,000 years ago, small, isolated populations of woolly mammoth survived on Alaska's St. Paul Island until about 5,600 years ago and on Russia's Wrangel Island until perhaps 4,000 years ago. All of these pockets eventually died out due to the lack of genetic diversity that comes from metropolitan interactions with larger populations.
📸 A 2.75" Polished Block of Alaskan Woolly Mammoth Tooth with rare, blue Vivianite running throughout.
Babe the Big Blue... Mammoth?
Some woolly mammoth teeth have been discovered with a uniquely blue coloring to them. This stunning shade is due to vivianite implantations, a mineral formed by the combination of animal phosphorous and iron in the soil.
Vivianite is usually pale or colorless when it forms, but when it is exposed to air the oxidation causes it to turn to a brilliant blue. In the right conditions, this process can produce incredible streaks of dark to light blue coloring in mammoth teeth, which is an incredible reminder as to the deep history of the fossil.
Interestingly, this can also occur on the skin of a well perserved animal as well. In fact, some ancient bisons have been found in the ice with blue coatings over their horns and bodies. It reminds us of the other famous blue megafauna we know: Babe the Big Blue Ox!
Front of the Specimen Card
Back of the Specimen Card
Further Reading
Kurtén, Björn. How to deep-freeze a mammoth. Columbia University Press, 1986.
Bocherens, Hervé, et al. "Isotopic evidence for diet and subsistence pattern of the Saint-Césaire I Neanderthal: review and use of a multi-source mixing model." Journal of human evolution 49.1 (2005): 71-87.
Sherkow, Jacob S., and Henry T. Greely. "What if extinction is not forever?." Science 340.6128 (2013): 32-33.
Cooper, Alan, et al. "Abrupt warming events drove Late Pleistocene Holarctic megafaunal turnover." Science (2015): aac4315.
Tikhonov, Alexei, Larry Agenbroad, and Sergey Vartanyan. "Comparative analysis of the mammoth populations on Wrangel Island and the Channel Islands." Advances in Mammoth Research 9 (2003): 415-420.
Barrow, Mark V. Nature's Ghosts: Confronting Extinction from the Age of Jefferson to the Age of Ecology. University of Chicago Press, 2009.
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