Snake Survives Being Frozen Solid: A Herpetologist's Insight

Imagine being woken by a blizzard, only to realize you’ve been fully encased inside a solid block of ice. For the vast majority of mammals, this would be a certain death sentence. Yet, somehow, for a handful of snakes, this is a winter hazard they can sometimes survive — but only just. The idea of a “freeze-proof” snake sounds impossible, given their reputation as cold-blooded, heat-loving creatures, but they’re just as real as you and me. Here’s a breakdown of the elegant physiological tricks and hard limits that make it possible. How Garter Snakes Evolved Short-Term Freeze Tolerance Most snakes avoid freezing at any and all costs. To do so, they’ll typically migrate short distances to rock crevices, rodent burrows or deep root channels, where temperatures stay above the freezing point. This is a common overwintering practice known as brumation. However, if winter comes earlier than anticipated, if snow is scant or if a snake somehow gets trapped in a poorly insulated den, then some individuals may actually freeze. Rather than ignore this plausible possibility, researchers have had to ask: What will happen then? The answer is a short, brutal pause of life, made possible by metabolic suppression and a few key biochemical defenses. The red-sided garter snake (Thamnophis sirtalis parietalis) has become a model for this limited freeze tolerance. MORE FOR YOU According to a classic experimental study published in the Canadian Journal of Zoology, garter snakes can survive brief exposures to −2.5 °C (27.5 °F), with approximately 40% of their body water frozen. However, an important caveat is that they can only survive in this state for a few hours. In the study’s controlled trials, the researchers were amazed to discover that the snakes were able to fully recover after three hours of freezing at that temperature. However, their survival dropped to about 50% after ten hours, and essentially no snakes recovered after 24 to 48 hours, once their bodies had developed very high ice content. So, although prolonged ice is usually fatal, snakes can still somehow survive brief freezes — despite being ectotherms, which rely heavily on external sources of heat. According to the researchers, this freeze tolerance relies on two coordinated responses: Metabolic depression. When ice starts to form in the extracellular spaces of a snake’s body, it responds by halting all circulation and oxygen delivery. This allows cells to survive by dramatically slowing their energy use. Cryoprotectants. Small molecules that limit ice damage and osmotic stress accumulate in some of the snake’s tissues. But unlike the massive glucose spikes that are seen in freeze-tolerant frogs, snakes tend to show smaller, tissue-specific increases in compounds such as taurine and modest glucose mobilization. These Snakes’ Limits Are Real And Biologically Informative It’s important to note that this tolerance doesn’t provide garter snakes with an all-purpose survival kit. Several published reviews and experimental work emphasize just how narrow the window of tolerance is: reptiles that can survive freezing can do so only at relatively mild subzero temperatures, and only for short durations. As one study from the American Journal of Physiology notes, although amphibians like the wood frog can endure extensive freezing for long periods by flooding cells with glucose, snakes appear to be on the leaner end of the spectrum. This means that they have limited cryoprotectant reserves and less robust tissue hydration strategies; therefore, they have shorter survival times as a result. This difference is likely a reflection of evolutionary history, habitat and the constraints of reptilian physiology, as ecology often intersects with a species’ physiology. Populations that tend to aggregate in deep, well-insulated dens (like the famous mass overwintering dens of red-sided garter snakes in Manitoba, for instance) reduce exposure to freezing events. On the other hand, snakes that sit at the edge of their ranges, or in habitats with highly variable winter conditions, will face a much higher risk of accidental freezing. A 2023 status assessment of northern garter snake populations highlighted that local overwintering microhabitats, snow cover and hydrology are all factors that shape the species’ winter mortality risk. Similarly, it also explains that atypical winters (e.g. thin snowpack, flooding before freeze-up) can also give rise to massive winterkill events. Climate change is a double-edged sword in this sense. Although warmer winters could reduce incidences of accidental freezing, they can also produce: More freeze–thaw cycles Erratic precipitation, leading to flooding before freeze-up Mismatches between snake activity and sheltering cues Those dynamics may increase winter mortality in some populations even as average temperatures rise. For conservationists, this makes protecting and identifying resilient hibernacula just as important as understanding these snakes’ physiology. What Scientists Still Need To Learn About These Snakes There are several mysteries that remain regarding garter snakes’ extraordinary tolerance for freezing temperatures. Specifically, some questions that herpetologists are still trying to uncover answers to are: How universal are the modest cryoprotectant responses across snake species? Which genes and regulatory networks control the rapid metabolic shutdown and the antioxidant surge? Can landscape-scale management reliably identify “refugia” that buffer snakes from extreme events? Answering these questions isn’t nearly as straightforward as most would assume; they require field ecology tied to modern molecular tools. These include transcriptomics to see what genes switch on during freezing, metabolomics to catalog cryoprotectants and long-term monitoring of dens across climatic gradients. Garter snakes serve as a perfect example of evolutionary opportunism: a slim suite of biochemical tricks that buys a species precious time when either their behavior and habitat fail. That narrow margin of survival nevertheless offers unprecedented biological insights — into the limits of life, the fragility of cold-adapted populations, and the ways a changing climate can flip a survival advantage into a liability. Do snakes trigger fear or fascination for you? Take this science-backed test to see how your response compares to others: Fear of Animals Scale