Libmonster ID: ID-2104

Features of Winter Hibernation in Animals: From Physiological Adaptation to Metabolic Miracle

Winter hibernation (hibernation) is not just a long sleep but a complex and radical survival strategy, representing one of the most extreme physiological states in the animal kingdom. It is a deeply regulated state of life function inhibition, allowing animals to survive periods of food scarcity and low temperatures with minimal energy expenditure. Its study is at the forefront of biomedicine, as it opens up prospects for cryobiology, space medicine, and the treatment of critical conditions in humans.

1. Key Physiological Parameters of Hibernation.

The main goal of hibernation is to reduce energy consumption by 85-99% compared to wakefulness. This is achieved through a cardinal restructuring of the entire body's work:

Metabolism: The rate of metabolism falls to 2-5% of the norm. The source of energy is not glucose but fatty acids stored in brown and white adipose tissues. Brown adipose tissue, rich in mitochondria, is particularly important for non-shivering thermogenesis upon awakening.

Body Temperature: In true hibernators (such as ground squirrels, marmots, hedgehogs, bats), body temperature (Tt) drops to values close to the ambient temperature (To), often +1…+5°C, and in some species even below 0°C (the Arctic ground squirrel can tolerate Tt down to -2.9°C). This state is called heterothermy.

Respiration and Heartbeat: The heart rate of the marmot drops from 100-200 to 3-5 beats per minute. Breathing becomes rare and irregular: apneas between breaths may last from several minutes to an hour or more.

Nervous System: Despite deep depression, the brain retains the ability to control the state and trigger periodic awakenings — short episodes of returning to euthermia (normal temperature) every 1-3 weeks. The reasons for these awakenings are not fully clear (presumably, the need to restore homeostasis, activation of the immune system), and they consume up to 80% of all winter energy.

2. Molecular and Hormonal Mechanisms of Regulation.

The transition to hibernation is triggered not by cold but by a complex of internal signals, the main one being the shortening of daylight. Melatonin production increases in the epiphysis, which acts on the centers of the hypothalamus. The key role is played by the "hibernation hormone" (Hibernation Induction Trigger — HIT), discovered in the blood of marmots and ground squirrels. This is a complex complex including opioid peptides.

At the cellular level, unique changes occur:

Repression of genes responsible for active metabolism.

Reconstruction of cell membranes to maintain fluidity at low temperatures ("cold acclimatization of membranes").

Changes in protein phosphorylation, particularly specific phosphorylation of the RBM3 protein, which protects synapses from degeneration in the cold and promotes their recovery upon awakening.

Interesting fact: The heart of a hibernating animal does not suffer from ischemia (oxygen deficiency) at ultra-low heart rates, and the liver and kidneys do not fail despite the accumulation of toxic nitrogenous metabolism products. The study of these tolerance mechanisms to hypoxia and intoxication is promising for transplantationology and resuscitation.

3. Diversity of Strategies: From True Hibernation to Winter Sleep.

Not all animals that become torpid in winter are true hibernators.

True hibernation (deep): Characteristic of small mammals (ground squirrels, marmots, hedgehogs, some bats). They are unable to maintain a high Tt at low To and therefore allow it to fall.

Winter sleep (non-deep hibernation): Characteristic of bears, badgers, otters. Tt decreases by only 3-7°C (to +31…+34°C). The bear sleeps, but it is easy to wake him up. He does not experience a radical drop in metabolism and is able to give birth and lactate in the den, using colossal fat reserves. Urea is recycled for protein synthesis, preventing poisoning and muscle atrophy — an insight inspiring researchers of muscle dystrophies.

Torpor (torpor): Short-term (for several hours or days) decrease in Tt and metabolism, characteristic of hummingbirds, sparrows, and some small mammals. This is a daily energy-saving strategy.

4. The Role of the Microbiome and Practical Significance.

Recent studies have shown that the gut microbiome of hibernating animals undergoes seasonal changes. The proportion of bacteria capable of breaking down urea (important for bears) and participating in fat metabolism increases. This indicates the symbiotic role of the microbiota in successful hibernation.

The study of hibernation has practical significance:

Space medicine: The possibility of putting astronauts into a state of anabiosis for long interplanetary flights.

Clinical practice: Development of methods of artificial hibernation for protecting the brain and heart of patients in critical conditions, strokes, complex heart surgery.

Biotechnology: Cryopreservation of organs for transplantation based on natural cold tolerance mechanisms.

Conclusion.

Winter hibernation is not a primitive "sleeping", but a highly evolved, active, and cyclic physiological program. It represents a model of controlled, reversible reduction of homeostasis to an extremely low level. From molecular switches in the cell to global changes in the operation of the entire organism, hibernation demonstrates the amazing ability of life to redefine its boundaries in extreme conditions. Understanding its mechanisms is the key not only to solving fundamental questions of biology but also to revolutionary breakthroughs in future medicine. This is a dialogue between evolutionary adaptation and modern science, where hibernating animals act as teachers, demonstrating the art of survival on the edge of the possible.
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Characteristics of "Winter Sleep" in Animals // Dodoma: Tanzania (LIBRARY.TZ). Updated: 11.01.2026. URL: https://library.tz/m/articles/view/Characteristics-of-Winter-Sleep-in-Animals (date of access: 02.07.2026).

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11.01.2026 (172 days ago)
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