Given its freezing temperatures and desolate landscapes, the Arctic is one of the least hospitable regions on the planet. Extreme cold, long winter nights, strong winds, and constantly changing climate conditions are just a few of the challenges faced in this region.
Throughout human history, people have created a variety of architectural solutions to adapt to their environments. The Arctic region, with its challenging geography, is a place that tests human imagination. An endless expanse of white covered in ice, temperatures plummeting below zero, snow load, and constantly changing sunlight are just a few of the factors that make the Arctic one of the most challenging climates on Earth. Despite these harsh conditions, people have been living in the Arctic for centuries. Indigenous peoples have built unique structures adapted to this cold and harsh climate for thousands of years, both for shelter and as cultural and social centers.
Arctic architectural structures that have persisted and evolved over time include:
Tent Houses: The oldest form of dwelling used in the Arctic, these are conical or dome-shaped structures made of wood, similar to Plantis type. They were built as temporary fishing or hunting huts for use during the summer months. They are portable and can be easily disassembled and reassembled.
Tuvak: These are conical tents made of wooden poles covered in arctic fox fur, used by the Nenets people.
Whale Bone Houses: Constructed from whale bones, these houses were built as public architecture by whale-hunting communities belonging to the Thule culture. They served as special-purpose houses, used as elite residences for the best captains.
Igloos: Igloos, used by the Inuit people since ancient times, are round, dome-shaped structures built by stacking blocks of snow. They provide a warm environment that retains heat inside.
Quinee: These structures, created by compacting snow, are larger and less regular than igloos.
Semi-Subterranean Winter Houses: When the weather became harsh and dangerous during the coldest part of winter, these well-insulated houses were used.
Karmat or Transitional House: Constructed with leather and fur roofs, these houses were used during transitional seasons when it was too warm to live in semi-subterranean houses but too cold to move into leather tents.
The Challenges of Arctic Architecture
Constructing buildings in extreme climates presents numerous challenges that must be carefully considered throughout the design and construction process. Arctic architecture demands that architects and designers think outside the box, solving problems and ensuring the comfort and safety of building occupants. Structures must be able to withstand the harsh conditions of the Arctic region without compromising the safety of occupants, adapt to changing environmental conditions and damage, and be sustainable.
The challenges faced by Arctic Architecture can be listed as follows:
Weather
The harsh weather conditions of the Arctic present numerous challenges, including extremely cold temperatures, strong winds, drifting snow, freezing fog, heavy snow loads, long periods of darkness, and sea ice. These conditions make both construction and the use of built infrastructure difficult.
The extreme cold makes materials less durable and requires special insulation to prevent heat loss.
High wind speeds necessitate wind-resistant structures. Additionally, strong winds can lift snow from the ground, reducing visibility and impairing the usability of roads and airports.
Heavy snowfall causes ice and snow accumulation on roofs and structures. Roof systems must be designed to allow snow to slide off easily, preventing excessive loads on the building.
Freezing fog during the short autumn and spring seasons can hinder aviation.
Long dark periods during the very long winter months are a factor that complicates construction.
Permafrost (Frozen Ground)
Permafrost, or permanently frozen ground, is a mixture of ice and soil that can extend hundreds of meters below the surface, depending on the type of soil and the location of water bodies. The frozen soil layer requires special methods for building foundations. If the surface soil cover is disturbed and the layers begin to expose, the permafrost thaws and the construction site can turn into a swamp. Despite this challenge, permafrost allows for very fast road construction.
A permanent road on permafrost consists of a crushed gravel cushion about one meter thick. This cushion is an engineered compacted surface that protects the permafrost and keeps it frozen.
Logistics Problems
Projects in the far north can be several hundred kilometers away from any road, port, or population center. In these remote and difficult-to-access areas, transporting materials and providing labor is time-consuming and costly. These harsh conditions increase construction times and therefore costs.
Environmental Effects
The region’s extreme climate conditions mean that the local flora and fauna are often living at the limits of their habitat’s carrying capacity. Even a minor disturbance caused by construction activities can have a detrimental effect on the local ecosystem.
Building Materials
The variety of materials that can be used in the Arctic Region, which has a remote and difficult geography, is limited. Building materials can lose their flexibility and become prone to breakage and cracking. The materials to be used must be resistant to temperatures and be selected in a way that will not be affected by effects such as contraction and expansion.
Heat Insulation
The need for high energy consumption for heating both increases costs and leads to sustainability problems. A good insulation system is necessary to prevent heat loss in cold climates.
Health Problems
Construction workers are exposed to health risks, including frostbite and hypothermia.
Despite all these challenges, architects have managed to construct buildings that can withstand the impacts of nature. A significant approach to overcoming these difficulties is the use of passive building design strategies to minimize heat loss and reduce energy consumption by utilizing natural resources such as solar energy, which minimizes the need for active heating and cooling systems. Additionally, geothermal heating systems, a renewable energy source, utilize the heat from the earth, which maintains a constant temperature at deeper levels despite the frozen surface, providing a continuous and reliable heat source.
High-quality thermal insulation is another effective method for combating extreme cold. Advanced insulation materials and techniques, such as aerogel, can significantly reduce heat loss. Additionally, triple-glazed windows serve as a robust barrier against the cold, helping to retain heat indoors. Materials such as reinforced concrete and special steel are designed to withstand extreme cold conditions and maintain their structural integrity.
Furthermore, utilizing locally sourced materials minimizes logistical challenges and enhances sustainability. Finally, the use of modular construction technologies can be advantageous. By prefabricating components in a controlled setting and assembling them rapidly on-site, modular systems minimize worker exposure to harsh cold conditions.
Modern Arctic Buildings
Although local projects have been designed in the region for centuries, the Arctic’s significance has grown increasingly with climate change. Factors such as glacial retreat, rising sea levels, and the extraction of natural resources have significantly influenced life in the region and, as a result, its architecture. The Arctic has begun to receive intense, newfound interest, particularly in architecture, planning, and infrastructure.
Driven by evolving environmental conditions and emerging economic opportunities, Arctic architecture has found a new position in contemporary design discourse. Arctic nations are establishing research stations dedicated to climate change and environmental studies. These stations are equipped with advanced energy-efficient systems and renewable energy sources. At the same time, with the development of the tourism sector, hotels and resorts offering natural landscapes and large windows are being built in Arctic regions. For winter tourism, temporary ice hotels, which are reconstructed annually, are becoming increasingly popular.
Here are some examples of arctic architecture:
Svalbard Global Seed Vault
Location: Longyearbyen,Norway
Architect: Snøhetta
Year: 2008
The Svalbard Global Seed Vault, located in the Svalbard archipelago of Norway, is the world’s most secure seed bank. Designed to store seeds from 100 million different plant species, the facility was established to protect plant species against future risks such as famine, war, and natural disasters. Beyond its crucial role as a seed bank, the Global Seed Vault is a remarkable architectural structure. Its design, both functional and symbolic, has earned it a distinguished place in the world of architecture.
Embedded approximately 130 meters beneath the permafrost layer, the vault is shielded from external threats and benefits from natural refrigeration. Its remote and isolated location in the polar region makes access to the vault difficult, minimizing potential threats. Constructed with reinforced concrete walls and a minimalist, functional aesthetic, the vault harmonizes with its environment. The white exterior represents cleanliness and purity, while its location within the mountain refers to the continuity of life in the depths of the earth. With its steel doors and multi-layer security system, the seeds inside are highly protected against natural disasters and human-made threats.
The structure, which is a result of the combination of architecture and engineering with scientific needs, is an important example of sustainable architecture due to its protection of natural resources, high energy efficiency, and long life.
Arctic TreeHouse Hotel
Location: Rovaniemi, Finland
Architect: Studio Puisto
The Arctic TreeHouse Hotel, a collection of treehouse-inspired cabins, offers a unique and immersive nature experience. Inspired by Scandinavian nature and culture, the hotel’s small accommodation buildings appear to emerge from the snow, with pine-cone cows and black stakes.
The abundant use of wood cultivates a warm and inviting ambiance, while the hotel’s design ensures comfort even during the most frigid Arctic winters. Built with minimal environmental impact, the hotel prioritizes the use of local materials, energy efficiency, and sustainability. Harmonizing with the natural and cultural characteristics of the region, the Arctic TreeHouse Hotel is specifically located for the best viewing of the Northern Lights. Large windows and glass ceilings offer the opportunity to experience the Northern Lights up close. A beacon for sustainable tourism and architecture, the hotel exemplifies the harmonious coexistence of nature and modern design.
Ny-Ålesund, Svalbard High-Altitude Research Station
Location: Svalbard archipelago, Norway
Ny-Ålesund is the northernmost civilian settlement in the world. This town is also home to one of the northernmost research centers in the world. Known as the High-Altitude Research Station, this center is a platform for research on climate change, sea ice, and atmospheric processes.
The station offers a safe and comfortable working environment for researchers, withstanding extreme weather conditions. Demonstrating the importance of architecture in ensuring human continuity and supporting scientific studies in a challenging environment, the interior and exterior surfaces of the research station are highly insulated and triple-glazed to protect against extreme cold. This reduces energy consumption while maintaining a constant indoor temperature. The building’s structure is designed to withstand strong winds and heavy snow loads.
The Ice Hotel
Location: Jukkasjärvi, Swedish
An ice hotel is a seasonal structure constructed entirely from ice and snow, which is rebuilt annually. The main material of the hotel is natural ice and snow, which lightens the structure but also makes it sensitive to melting. Embracing sustainable architecture, ice hotel offer innovative design features that ensure guest comfort and safety. Walls and ceilings are insulated with snow to provide thermal insulation. Pushing the boundaries of architecture, these hotels combine art and architecture with ice sculptures and ice furniture, transforming the hotel into a work of art.
Arctic architecture is one of the most striking examples of humanity’s struggle against nature. It has both scientific and cultural significance. Furthermore, it offers important insights into sustainable architecture and strategies for mitigating climate change. It will continue to inspire innovative solutions for future buildings and communities.
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