Details Relating to the Crevasse Theory

20.  Abundant Food.  Same as item 12.

21.  Warm Climate.  The contents of Berezovka’s stomach showed that he lived in a warm climate, not one containing ice crevasses. Furthermore, tree fragments and roots were found beneath him. Trees do not grow near icy crevasses. Glacial climates prevent tree growth. Many animals and plants buried in northern Siberia and Alaska live only in temperate climates today. Besides, mammoths were not Arctic animals.

22.  Yedomas and Loess,  Suffocation,  Vertical Compression,  Multi-Continental.  The crevasse theory does not explain why mammoths, yedomas, and loess are related, why yedomas contain so much carbon, why these peculiar events occurred over such wide areas on three continents, why some of these huge animals suffocated, or what compressed Dima and Berezovka vertically.

23.  Elevated Burial.  Falling into a crevasse or being transported downhill in a glacier would not herd mammoths up onto islands or up near the higher elevations of flat, low plateaus.  Crevasses form only on steep slopes.

24.  Rock Ice.  Mammoths are sometimes buried near Type 3 ice.  Crevasses have only Type 2 ice.

25.  Frozen Muck.  Frozen mammoths are found primarily in frozen muck, not ice. Where did all the muck come from, and why are so many large trees buried in it?

26.  Sudden Freezing.  Let us assume that after Berezovka had eaten beans at the base of a glacier, he climbed up to a crevasse, fell in, and died. His stomach acids and enzymes would have destroyed his food in a few hours. Because crevasses are not at the base of glaciers, Berezovka’s long trip up the glacier and subsequent freezing must have been unbelievably rapid to prevent this destruction. Besides, what could motivate a grazing beast to climb a long, steep, icy slope?

27.  Dirty Lungs,  Peppered Tusks.  Falling into a crevasse would not fire millimeter-size particles (rich in iron and nickel) into mammoth tusks, put gravel in Dima’s lungs or silt, clay, and gravel in Dima’s intestines.

28.  -150°F.  Snow is a surprisingly good insulator, as those who live in igloos know. Also, transferring heat from a solid object, such as a mammoth’s body, to stagnant air is a slow process. Both conditions would exist if a mammoth fell into a crevasse. Steep crevasse walls would shield the body from cold winds, and glacial ice and stagnant air would insulate the mammoth from sharp drops in the outside temperature. Eventually, the carcass would freeze, but the residual heat in its huge body would delay freezing and cause putrefaction.  Hoyle explains:

I have been informed that, today, when reindeer fall down crevasses in the Greenland ice, they are subsequently found to be in an unpleasantly putrefied condition. It seems that, no matter how cold the air is, the body heat of the dead animal is sufficient to promote bacterial decomposition.¹⁵⁸

Warmer internal organs, such as the stomach, experience even more decay. Furthermore, this theory cannot begin to explain a sudden temperature drop to -150°F.

29.  Large Animals.  The crevasse theory does not explain why primarily larger animals fell into icy crevasses and froze. Actually, the larger the animal, the greater its internal heat and the more the animal should decay.

30.  Animal Mixes.  If an occasional mammoth fell into an ice crevasse, why are bones of so many kinds of animals found together? While some might argue that an adult mammoth climbed up a glacier, why would a rhinoceros or a baby, such as Dima, do so? A heavy, low-slung rhinoceros could not walk in deep snow. Beavers, squirrels, and birds do not fall into crevasses, but all have been found near frozen mammoths.

31.  Upright.  Herz, who excavated and analyzed the Berezovka mammoth, felt it had fallen into a crevasse, because it had several broken bones, was frozen, and was found in an upright, although contorted, position. Normally, with a broken pelvis, a broken shoulder, a few broken ribs, and a crushed leg bone, he should have been lying on his side. However, a fall would rarely break bones in different parts of the body. To break so many bones requires many large forces acting from different directions. A blow received from a fall might explain a few fractures, but probably not all, especially the aligned, but crushed fractures of a leg.

32.  Other/Glaciers.  Only a few mountains in northeastern Siberia show evidence of former glaciers.