Explanation: Genetic studies consistently identify the Asian elephant (*Elephas maximus*) as the woolly mammoth's closest living relative, not the African elephant.

Explanation: Paleogenetic and fossil evidence indicates that the lineage leading to the woolly mammoth (*Mammuthus primigenius*) diverged from the steppe mammoth (*Mammuthus trogontherii*) around 800,000 years ago, with Siberia being a key region for this evolutionary event.

Explanation: The scientific classification for the woolly mammoth is *Mammuthus primigenius*. *Elephas maximus* refers to the Asian elephant, *Mammuthus columbi* to the Columbian mammoth, and *Palaeoloxodon antiquus* to the straight-tusked elephant.

Explanation: Genetic research consistently identifies the Asian elephant (*Elephas maximus*) as the closest extant relative to the woolly mammoth (*Mammuthus primigenius*).

Explanation: The evolutionary divergence of the woolly mammoth lineage from the steppe mammoth (*Mammuthus trogontherii*) is estimated to have occurred approximately 800,000 years ago.

Explanation: Woolly mammoths (*Mammuthus primigenius*) were comparable in size to modern African elephants, with adult males reaching shoulder heights of up to 3.5 meters and weighing several tons.

Explanation: The woolly mammoth exhibited significant adaptations for cold climates, including a dense fur coat, reduced ear and tail size to minimize heat loss, and a substantial layer of insulating subcutaneous fat.

Explanation: During mammoth evolution, skulls generally became taller and shorter from front to back to accommodate larger, more complex molars, rather than longer and narrower.

Explanation: Genetic studies reveal that woolly mammoth adaptations were primarily suited for survival in cold, Arctic environments, including traits related to thermoregulation and fat metabolism.

Explanation: Woolly mammoth molars were more complex than those of their earlier southern relatives, featuring a higher number of enamel plates and greater height, adapted for grinding tough vegetation.

Explanation: While tusks may have offered some defensive capabilities, their primary functions are believed to have included intraspecific combat, display, clearing snow for food, and breaking ice for water.

Explanation: The tip of a woolly mammoth's trunk possessed two finger-like projections, similar to modern elephants, though potentially adapted differently for grasping vegetation.

Explanation: Lipoplexes in woolly mammoths were deposits of fat, primarily serving as energy reserves for survival during periods of food scarcity, not for respiration.

Explanation: The presence of temporal glands in male woolly mammoths, analogous to those in modern bull elephants, strongly suggests they experienced 'musth,' a period of heightened aggression and hormonal activity.

Explanation: The age of a woolly mammoth is primarily estimated by counting the growth rings in a cross-section of its tusks, not by analyzing molar enamel ridges.

Explanation: Woolly mammoth hemoglobin possessed specific mutations that enhanced oxygen delivery and prevented freezing in cold conditions, aiding survival in glacial environments.

Explanation: The complex, ridged structure of woolly mammoth molars was adapted for grinding tough, fibrous vegetation such as grasses and sedges, characteristic of the mammoth steppe.

Explanation: Given their size similarity to modern elephants, which have lifespans of up to 60 years, woolly mammoths are estimated to have had a comparable lifespan, potentially reaching 60-80 years.

Explanation: Woolly mammoths were comparable in size to modern African elephants, with males reaching shoulder heights of up to 3.5 meters and weighing several tons.

Explanation: Short ears and tail, along with a thick fur coat and subcutaneous fat, were key adaptations that helped woolly mammoths conserve body heat in frigid glacial environments.

Explanation: Evolutionary changes in mammoth dentition included the development of molars with more enamel ridges and increased height, enhancing their capacity to grind tough, fibrous vegetation.

Explanation: Genetic research indicates that woolly mammoth adaptations were primarily suited for survival in cold, Arctic tundra environments.

Explanation: The woolly mammoth's trunk tip featured two finger-like projections; the upper one was notably longer and more pointed than the lower one, potentially aiding in grasping specific vegetation.

Explanation: Lipoplexes, deposits of fat found in woolly mammoths, served as crucial energy reserves to sustain them through periods of food scarcity.

Explanation: The presence of temporal glands in male woolly mammoths indicates they likely experienced 'musth,' a periodic state of heightened aggression and sexual activity observed in modern bull elephants.

Explanation: The age of a woolly mammoth can be estimated by examining a cross-section of its tusks and counting the annual growth rings, similar to tree rings.

Explanation: Mutations in woolly mammoth hemoglobin enhanced its efficiency in oxygen transport and conferred cryoprotective properties, crucial adaptations for survival in extreme cold.

Explanation: The woolly mammoth was a herbivore, with its primary diet consisting of grasses, sedges, and other herbaceous plants found in the mammoth steppe ecosystem.

Explanation: Isotope analysis of mammoth teeth from Poland indicates seasonal migrations, suggesting they moved between regions rather than being sedentary year-round.

Explanation: The 'mammoth steppe' was a vast, treeless grassland ecosystem, characterized by diverse herbaceous plants, grasses, and sedges, not dense forests or swamps.

Explanation: Climate change at the end of the Last Glacial Period led to the contraction of the mammoth steppe habitat, replaced by wetter tundra and forests, which was detrimental to woolly mammoths.

Explanation: The contraction and transformation of the mammoth steppe habitat due to climate change is considered a major contributing factor to the woolly mammoth's extinction.

Explanation: The primary diet of the woolly mammoth consisted of grasses and sedges, supplemented by other herbaceous plants available in the mammoth steppe.

Explanation: Isotope analysis of mammoth teeth indicates seasonal migrations, suggesting they moved considerable distances throughout the year to find resources.

Explanation: The 'mammoth steppe' was a biome characterized by vast, treeless grasslands rich in herbaceous plants, supporting large herbivores during the Pleistocene epoch.

Explanation: Towards the end of the Last Glacial Period, climate warming led to the replacement of the mammoth steppe with wetter tundra and forests, diminishing the habitat suitable for woolly mammoths.

Explanation: Paleolithic humans actively hunted woolly mammoths, utilizing their meat for sustenance, and their bones, tusks, and hides for crafting tools, creating art, and constructing shelters.

Explanation: The etymology of 'mammoth' is uncertain, but it is commonly believed to derive from an old Vogul (Mansi) word, *mēmoŋt*, meaning 'earth-horn'.

Explanation: Thomas Jefferson is recognized for popularizing the term 'mammoth' as an adjective to denote something of immense size, stemming from early discoveries of mammoth fossils in North America.

Explanation: While frequently depicted, the woolly mammoth ranks third in frequency in Ice Age art, behind horses and bison.

Explanation: Early humans utilized woolly mammoth bones extensively for practical purposes, including constructing dwellings, crafting tools, and creating furniture, in addition to decorative and artistic uses.

Explanation: Woolly mammoth ivory was a significant material in prehistoric and modern trade networks, valued for its use in art, tools, and as a substitute for elephant ivory.

Explanation: Evidence from fossil sites and Paleolithic cave art suggests that woolly mammoths lived in social groups, similar to modern elephants.

Explanation: Indigenous Siberian interpretations of mammoth remains varied widely, encompassing beliefs about underworld guardians, water spirits, and mythical creatures, but not universally sea monsters.

Explanation: Woolly mammoth ivory is typically distinguished from elephant ivory by its coarser Schreger lines (cross-hatching patterns) and a browner hue, not finer lines.

Explanation: Early humans utilized woolly mammoth remains extensively for sustenance (meat), crafting tools and weapons, creating art, and constructing shelters.

Explanation: The word 'mammoth' is thought to derive from an old Vogul (Mansi) word, *mēmoŋt*, meaning 'earth-horn'.

Explanation: Thomas Jefferson is credited with helping to popularize the use of 'mammoth' as an adjective signifying great size, based on early fossil discoveries.

Explanation: The woolly mammoth is the third most frequently depicted animal in Ice Age art, following horses and bison.

Explanation: Early humans utilized mammoth bones not only for tools and art but also as primary structural components for constructing dwellings, particularly in regions like the East European Plain.

Explanation: Woolly mammoth ivory is generally distinguishable from elephant ivory by its coarser Schreger lines (cross-hatching patterns) and a tendency towards a browner hue.

Explanation: Cave paintings and fossil assemblages depicting multiple individuals suggest that woolly mammoths exhibited social behavior, living in groups.

Explanation: The French naturalist Georges Cuvier was instrumental in establishing the woolly mammoth (*Mammuthus primigenius*) as a distinct extinct species in 1796, a significant contribution to paleontology.

Explanation: While frozen carcasses are crucial, detailed understanding of woolly mammoths also derives from fossilized skeletons, teeth, stomach contents, dung, and artistic depictions from the Paleolithic era.

Explanation: Fossil evidence reveals that woolly mammoths suffered from various pathologies, including osteoarthritis, bone fractures, and dental issues, indicating they were not immune to disease and injury.

Explanation: The 'Adams mammoth' discovery in 1799 was significant as the first fully documented specimen from which a skeleton was recovered and mounted, providing crucial anatomical information.

Explanation: The 'Berezovka mammoth' specimen, estimated to be 35-40 years old, likely died suddenly, possibly from falling into a crevasse, rather than natural causes after a long life.

Explanation: The 'Yuka' mammoth, a juvenile specimen, provided significant evidence of early human interaction, including cut marks on its remains, suggesting scavenging or butchery.

Explanation: The 'Lyuba' mammoth is highly significant due to its exceptional preservation, including intact organs and fur, providing unparalleled insights into mammoth anatomy and biology.

Explanation: Georges Cuvier, a French naturalist, was the first to scientifically identify the woolly mammoth as a distinct extinct species in 1796.

Explanation: While fossilized footprints can provide information about locomotion, the provided context emphasizes frozen carcasses, cave paintings, skeletons, and teeth as key sources for detailed understanding of woolly mammoths.

Explanation: Fossil evidence from woolly mammoths includes pathologies such as osteoarthritis, spondylitis, osteomyelitis, and healed bone fractures.

Explanation: The 'Lyuba' mammoth is highly significant due to its exceptional preservation, offering detailed insights into mammoth anatomy, soft tissues, and the process of fossilization.

Explanation: The woolly mammoth (*Mammuthus primigenius*) existed from the Middle Pleistocene epoch until the Holocene epoch, becoming extinct approximately 4,000 years ago. It did not survive until the modern era.

Explanation: The extinction of the woolly mammoth is widely attributed to a combination of factors, including human hunting and significant climate change leading to habitat loss, rather than solely overhunting.

Explanation: The last known populations of woolly mammoths persisted in isolated refugia, with notable survival on Wrangel Island until approximately 4,000 years ago.

Explanation: Genetic studies of the Wrangel Island mammoth population revealed signs of inbreeding and accumulation of genetic defects, suggesting a decline in genetic robustness prior to their extinction.

Explanation: While legends exist, the scientific consensus is that woolly mammoths became extinct thousands of years before the historical period, with late-surviving populations disappearing around 4,000 years ago.

Explanation: The primary theories regarding the woolly mammoth's extinction center on the combined pressures of human hunting and significant climate change that altered their habitat.

Explanation: Isolated populations of woolly mammoths survived in refugia, with the last known populations documented on St. Paul Island, Alaska (until ~5,600 years ago) and Wrangel Island (until ~4,000 years ago).

Explanation: The isolated Wrangel Island mammoth population exhibited a significant accumulation of genetic defects and non-functional genes, indicative of inbreeding and potential genomic meltdown.

Explanation: The scientific community generally views legends of surviving woolly mammoths as likely stemming from encounters with well-preserved carcasses found in the Arctic, rather than evidence of extant populations.

Explanation: Genetic analyses of North American mammoth specimens indicate that woolly mammoths (*Mammuthus primigenius*) and Columbian mammoths (*Mammuthus columbi*) did interbreed, potentially producing hybrid populations.

Explanation: Besides cloning, other proposed methods for woolly mammoth revival include artificial insemination with hybrid offspring and genetic engineering techniques to modify elephant genomes.

Explanation: Ethical considerations surrounding mammoth de-extinction encompass potential ecological impacts, resource allocation for conservation, and the welfare of resurrected animals, including potential competition with extant species.

Explanation: Global warming has generally made accessing Siberian mammoth tusks easier due to the thawing of permafrost, which exposes more remains.

Explanation: DNA analysis of certain North American mammoth specimens provides evidence suggesting that woolly mammoths (*Mammuthus primigenius*) and Columbian mammoths (*Mammuthus columbi*) interbred.

Explanation: Artificial insemination using preserved mammoth sperm, potentially resulting in hybrid offspring, is another proposed method for contributing to the revival of mammoth-like animals.

Explanation: The thawing of permafrost due to global warming has increased the accessibility of Siberian mammoth tusks, making more ivory available for research and trade.