Surfing on urban water bodies in winter: physiology of extreme adaptation and urban anthropology Introduction: Ice urban extreme as a scientific phenomenon Winter surfing on urban water bodies, whether it be unfrozen sections of rivers, city beaches, or specially equipped zones, is a complex phenomenon at the intersection of sports physiology, psychology of extreme behavior, and urban sociology. It is not just a type of water sport, but a practice that challenges fundamental adaptive mechanisms of the human body and transforms the perception of urban space. Participants in this movement (surfers-"cold-water swimmers", or ice surfers) voluntarily subject themselves to the effects of water with a temperature close to 0°C, which triggers a cascade of neuroendocrine and cardiovascular reactions, the study of which is of significant interest to science. Physiology of cold shock and adaptation: what happens to the body? Immersion in icy water is a powerful stress factor that causes a series of reactions: Immediate cold shock (first 1-3 minutes): Unintentional hyperventilation: A sharp intake of breath followed by uncontrollable rapid breathing. This is a reaction to the stimulation of cold receptors in the skin, sending signals to the respiratory center in the medulla oblongata. Tachycardia and vasoconstriction: The heart rate can instantly increase by 50-100%. There is a sudden constriction of peripheral vessels (hands, feet, skin) to reduce heat loss and maintain blood supply to vital organs. Blood pressure sharply increases. Release of catecholamines: Adrenaline and noradrenaline are released into the blood in enormous quantities, preparing the body for the "fight or flight" response. Phase of short-term adaptation (after 3-5 minutes): Activation of brown fat: In trained individuals, brown adipose tissue (especially in young people) is activated, which has a unique ability for non-shivering thermogenesis — the production of heat through the oxidation of fatty acids. Release of cortisol and endorphins: Prolonged stress leads to the secretion of cortisol, and also triggers the production of endorphins — endogenous opioids that cause a state of "swimmer's euphoria" (cold water euphoria), which many surfers describe as a feeling of clarity and a powerful boost. Long-term adaptation (with regular practice): Hubbard phenomenon: A decrease in the peak response to cold shock — breathing becomes more controlled, tachycardia less pronounced. Increased tone of the parasympathetic nervous system: The body learns to calm down faster after stress, which can positively affect overall stress resistance. Improved endothelial function and insulin sensitivity: Some studies (such as the work of Dr. Marika Tipton from the University of Portsmouth) suggest potential positive effects of controlled cold stress on the cardiovascular system and metabolism, although the risks for unprepared individuals remain extremely high. Psychological aspects and neurobiology of extreme Voluntary immersion in icy water is a powerful challenge to the fear system located in the amygdala. Overcoming this barrier involves the activation of the prefrontal cortex, which performs cognitive control. Successful completion of a session leads to a powerful dopaminergic response, creating positive reinforcement. This forms a special type of behavioral addiction — the search for a "flow state" in extreme conditions, when consciousness is fully focused on the present moment and physical sensations. Urban environment as a variable "spot" Urban water bodies in winter are a specific and unstable environment: Hydrology: The temperature of the water in unfrozen sections of rivers (often below thermal power plant or sewage treatment plant discharges) is consistently low, but may fluctuate. Current, the presence of icebergs, submerged objects create additional risks. Water quality: Industrial and domestic effluents, reagents, washed off the streets, make the water chemically aggressive, increasing risks for the skin, mucous membranes, and accidental ingestion. Micrometeorology: The urban "heat island" can soften the sensations on the shore, but not in the water. Wind (wind chill) multiplies heat loss and the risk of hypothermia after exiting the water. Example: In Moscow, a popular place among like-minded people is the area below the discharge of the Kurianovsky sewage treatment plant on the Moskva River, where the water even in severe cold has a temperature of about +2-4°C. However, ecologists regularly record exceedances of PDC by a number of chemical indicators here. Risks and medical contraindications Winter surfing is an activity with a very high level of risk. The main threats: Sudden cardiac death from cold shock. A sudden spasm of coronary arteries in the presence of a surge of catecholamines can cause a heart attack even in an apparently healthy person with hidden pathology. Loss of control over breathing and drowning. Uncontrollable hyperventilation in the first minutes makes it almost impossible to submerge the face in water, and drowning in icy water leads to laryngospasm. Rapid hypothermia. A person without protective clothing loses consciousness from hypothermia in water at 0°C in an average of 15-30 minutes, death can occur in less than an hour. Allergic and anaphylactic reactions to cold (cold urticaria). Absolute contraindications: any cardiovascular diseases, arterial hypertension, asthma, epilepsy, thyrotoxicosis, chronic kidney diseases. Equipment and safety Minimum set for relatively safe practice: Cold water wetsuit (5-6 mm) or dry suit. The key element, providing buoyancy and thermal insulation. Helmet, gloves, and boots made of neoprene. Life jacket or leech (a leash connecting the surfer to the board). Presence of a helper on the shore with a thermos, warm clothing, and communication means. Gradual acclimatization: Beginners practice first winter swimming, standing chest-deep in the water, and only gradually transition to surfing. Cultural and social context This community forms its own subculture within the metropolis, challenging traditional seasonal use of urban spaces. Their practice transforms the perception of waterfronts and water bodies from frozen winter landscapes into active, dynamic sports venues. Conclusion Winter surfing on urban water bodies is an extreme form of interaction between humans and a harsh environment in the heart of an urbanized landscape. From a scientific point of view, it is a living laboratory for studying the limits of human adaptation to extreme stress factors. From the perspective of urban anthropology, it is a practice of revitalization and appropriation of urban water spaces in the most "inappropriate" season. However, the key conclusion should remain the understanding that this activity is on the knife-edge balance between a powerful adaptogenic effect for a prepared body and the deadly danger for an unprepared one. It requires not only special equipment and skills, but also a deep understanding of one's own physiology, as well as strict adherence to safety protocols, turning blind bravado into an aware and controlled practice.
© biblio.kz

Постоянный адрес данной публикации:

https://biblio.kz/m/articles/view/Surfen-im-Winter