Underground living explained

Underground living refers to living below the ground's surface, whether in natural or manmade caves or structures (earth shelters). Underground dwellings are an alternative to above-ground dwellings for some home seekers, including those who are looking to minimize impact on the environment. Factories and office buildings can benefit from underground facilities for many of the same reasons as underground dwellings such as noise abatement, energy use, and security.

Some advantages of underground houses include resistance to severe weather, quiet living space, an unobtrusive presence in the surrounding landscape, and a nearly constant interior temperature due to the natural insulating properties of the surrounding earth. One appeal is the energy efficiency and environmental friendliness of underground dwellings. However, underground living does have certain disadvantages, such as the potential for flooding, which in some cases may require special pumping systems to be installed.

It is the preferred mode of housing to communities in such extreme environments as Italy's Sassi di Matera, Australia's Coober Pedy, Berber caves as those in Matmâta, Tunisia, and even Amundsen–Scott South Pole Station.

Often, underground living structures are not entirely underground; typically, they can be exposed on one side when built into a hill. This exposure can significantly improve interior lighting, although at the expense of greater exposure to the elements.

History

There is only written documentation of Scythian and German subterranean dwellings. Remnants have been found in Switzerland, Mecklenburg and southern Bavaria, "They had a round shape with a kettle-like widening at the bottom, from eleven to fifteen metres in diameter, and from two to four metres in depth".[1]

In the final stage of World War II, the Nazis relocated entire armaments factories underground, as the Allies' air supremacy made surface structures vulnerable to daylight strategic bombing raids.[2]

Construction methods

In parts of rural Australia, subterranean houses are built in a manner similar to prairie dog holes. There is a "chimney" placed higher than ground-level and a lower, ground-level, entrance. This orientation causes a continuous breeze throughout the house, reducing or eliminating the need for air conditioning.

Sustainable Development of Urban Underground Space (UUS)

As a step towards achieving the United Nations' SDGs (in particular Goal 11: Make cities and human settlements inclusive, safe, resilient and sustainable[3]), urban cities in developed economies of the world are increasingly looking "downwards" rather than expanding limited land resources at the surface.[4] Helsinki, Singapore, Hong Kong, Minneapolis, Tokyo, Shanghai, Montreal etc. are some of the benchmark cities in this regard.[5] [6] Underground space as a valuable land resource can be integrated into a general urban resources management scheme and development policy, by rationalizing resource supply according to economic demand, and by coordinating stakeholders from the public administration, private administration, private developers and users. The consideration of the other dimension (underground) in city planning holds a promising future for sustainable underground living, where it can contribute to making cities more liveable, resilient and inclusive.[7] Historically planning of subsurface facilities has been subject to an ad-hoc development approach by separate sectors and disciplines.[8] Successful integration of Urban Underground Space into city planning however requires a synergy of several disciplines and stakeholders to achieve rational use of space resources.[9]

Structures

There are various ways to develop structures for underground living.

In fiction

Underground living has been a feature of fiction, such as the hobbit holes of the Shire as described in the stories of J. R. R. Tolkien and The Underground City by Jules Verne. Some films are almost entirely set underground, such as THX 1138. The Fallout series also has underground shelters called Vaults.

The majority of the early short science-fiction story "The Machine Stops" by British author E.M. Forster is set in an imagined underground city.

See also

Parent categories:

underground structures

Types of underground living spaces and people, and related topics:

References

Notes and References

  1. Jochelson 1906, p. 116.
  2. News: Österreichs unterirdisches Nazi-Erbe: Codename "Bergkristall" . Der Spiegel . de . Austria's Subtterranean Nazi Legacy: Code Name: "Mountain Crystal" . Solveig . Grothe . 20 October 2015 . 11 July 2022 .
  3. Web site: TRANSFORMING OUR WORLD: THE 2030 AGENDA FOR SUSTAINABLE DEVELOPMENT . 7 April 2022 . United Nations: Sustainable Development Goals.
  4. Li . Amy Huanqing . 2021-03-01 . Re-promoting Sustainable Underground Urbanization for Developed and Developing Countries in Our Modern History . IOP Conference Series: Earth and Environmental Science . 703 . 1 . 012019 . 10.1088/1755-1315/703/1/012019 . 235292268 . 1755-1307. free . 2021E&ES..703a2019H .
  5. Vähäaho. Ilkka. 2014-10-01. Underground space planning in Helsinki. Journal of Rock Mechanics and Geotechnical Engineering. en. 6. 5. 387–398. 10.1016/j.jrmge.2014.05.005. 1674-7755. free. 2014JRMGE...6..387V .
  6. Li. Huanqing. Li. Xiaozhao. Soh. Chee Kiong. 2016-05-01. An integrated strategy for sustainable development of the urban underground: From strategic, economic and societal aspects. Tunnelling and Underground Space Technology. Urban Underground Space: A Growing Imperative Perspectives and Current Research in Planning and Design for Underground Space Use. en. 55. 67–82. 10.1016/j.tust.2015.12.011. 2016TUSTI..55...67L . 0886-7798.
  7. Admiraal . Han . Cornaro . Antonia . 2016-05-01 . Why underground space should be included in urban planning policy – And how this will enhance an urban underground future . Tunnelling and Underground Space Technology . Urban Underground Space: A Growing Imperative Perspectives and Current Research in Planning and Design for Underground Space Use . en . 55 . 214–220 . 10.1016/j.tust.2015.11.013 . 2016TUSTI..55..214A . 0886-7798.
  8. Besner . Jacques . 2016-05-01 . Underground space needs an interdisciplinary approach . Tunnelling and Underground Space Technology . Urban Underground Space: A Growing Imperative Perspectives and Current Research in Planning and Design for Underground Space Use . en . 55 . 224–228 . 10.1016/j.tust.2015.10.025 . 2016TUSTI..55..224B . 0886-7798.
  9. Bobylev . Nikolai . 2016 . Transitions to a High Density Urban Underground Space . Procedia Engineering . en . 165 . 184–192 . 10.1016/j.proeng.2016.11.750. free .