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Revision as of 20:26, 30 August 2024 by Schazjmd (talk | contribs) (sentence case (diffedit))(diff) ← Previous revision | Latest revision (diff) | Newer revision → (diff) Rows of trees or shrubs planted to provide shelter from the windFor crops left to dry in the wind with the appearance of hedgerows, see windrow.Not to be confused with breaking wind.
A windbreak (shelterbelt) is a planting usually made up of one or more rows of trees or shrubs planted in such a manner as to provide shelter from the wind and to protect soil from erosion. They are commonly planted in hedgerows around the edges of fields on farms. If designed properly, windbreaks around a home can reduce the cost of heating and cooling and save energy. Windbreaks are also planted to help keep snow from drifting onto roadways or yards. Farmers sometimes use windbreaks to keep snow drifts on farm land that will provide water when the snow melts in the spring. Other benefits include contributing to a microclimate around crops (with slightly less drying and chilling at night), providing habitat for wildlife, and, in some regions, providing wood if the trees are harvested.
Windbreaks and intercropping can be combined in a farming practice referred to as alleycropping, or being deployed along riparian buffer stripes. Fields are planted in rows of different crops surrounded by rows of trees. These trees provide fruit, wood, or protect the crops from the wind. Alley cropping has been particularly successful in India, Africa, and Brazil, where coffee growers have combined farming and forestry.
A further use for a shelterbelt is to screen a farm from a main road or motorway. This improves the farm landscape by reducing the visual incursion of the motorway, mitigating noise from the traffic and providing a safe barrier between farm animals and the road.
Fences called "windbreaks" are also used. Normally made from cotton, nylon, canvas, and recycled sails, windbreaks tend to have three or more panels held in place with poles that slide into pockets sewn into the panel. The poles are then hammered into the ground and a windbreak is formed. Windbreaks or "wind fences" are used to reduce wind speeds over erodible areas such as open fields, industrial stockpiles, and dusty industrial operations. As erosion is proportional to wind speed cubed, a reduction of wind speed of 1/2 (for example) will reduce erosion by 87.5%.
Sheltered, windless areas created by windbreaks are called wind shadows.
Windbreaks can mitigate the effects of pesticide drift.
- Aerial view of field windbreaks in North Dakota
- One of the original buildings at Svappavaara, designed by Ralph Erskine, which forms a long windbreak
- Windbreaks in Lesja, Norway, also used to collect snow in a dry area.
Windbreak aerodynamics
When wind encounters a porous obstacle, such as a windbreak or shelterbelt, air pressure increases on the windward side and decreases on the leeward side. As a result, the airstream approaching the barrier is interrupted, and a portion of it moves over the barrier, resulting in a jet of higher wind speed. The remainder of the airstream then moves through the barrier to its edge downstream, pushed along by the decrease in pressure across the shelterbelt's width; as it emerges again, that airstream is interrupted further as its air pressure adjusts to the surrounding area. This results in slower windspeed further downwind, reaching a minimum at a distance of about 3 to 5 times the windbreak's height. Beyond that point wind speed recovers, aided by the overlying, faster-moving stream. From the perspective of the Reynolds-averaged Navier–Stokes equations, these effects can be understood as resulting from the loss of momentum caused by the drag of leaves and branches and would be represented by the body force fi (a distributed momentum sink).
Windbreaks reduces the wind's average air speed and makes it less variable, resulting in the wind mixing less effectively than it does upwind. Additionally, all these changes to the wind's behavior result in changes to the region's environment. For instance, the surface energy budget of the ground may be impacted, as the slowed wind dissipates heat from the sun less effectively; this trend may reverse further downwind, and about 8 times the windbreak's height downstream, the windbreak may result in cooler surface temperatures.
Windbreak organizations
- The Great Plains Shelterbelt was an American initiative to create shelterbelts on the prairies in the USA during the dustbowl of the 1930s.
- The Prairie Farm Rehabilitation Administration in Indian Head, Saskatchewan, Canada subsidized seedlings to prairie farmers for almost 100 years to reduce soil erosion and increase quality of life on the prairies.
See also
- Agroforestry
- Buffer strip
- Dead hedge
- Desertification
- Energy-efficient landscaping
- Erosion control
- Great Plains Shelterbelt
- Hedgerow
- Macro-engineering
- Rain shadow
- Sahara Forest Project
- Sand fence
- Seawater Greenhouse
- Tugay
References
- "Windbreaks". National Agroforestry Center. Retrieved 29 April 2015.
- "Role of trees in agriculture". Retrieved 13 February 2018.
- Englund, Oskar; Börjesson, Pål; Mola-Yudego, Blas; Berndes, Göran; Dimitriou, Ioannis; Cederberg, Christel; Scarlat, Nicolae (2021). "Strategic deployment of riparian buffers and windbreaks in Europe can co-deliver biomass and environmental benefits". Communications Earth & Environment. 2 (1): 176. Bibcode:2021ComEE...2..176E. doi:10.1038/s43247-021-00247-y. S2CID 237310600.
- Withgott, Jay; Scott Brennan (2008). Environment: The Science Behind the Stories (3rd ed.). San Francisco: Pearson Benjamin Cummings. p. 249. ISBN 978-0131357051.
- Hetlzer, Robert (1972). Soil Survey of Walsh County, North Dakota. United States NRCS Soil Conservation Service. p. 75.
- Matthews, John A. (2014), "WIND SHADOW", Encyclopedia of Environmental Change, SAGE Publications, Ltd., p. 1175, doi:10.4135/9781446247501, ISBN 9781446247112, retrieved 30 March 2020
- Ucar, Tamer; Hall, Franklin R. (2001). "Windbreaks as a pesticide drift mitigation strategy: A review". Pest Management Science. 57 (8): 663–675. doi:10.1002/ps.341.
- Wilson, John D. (1985). "Numerical studies of flow through a windbreak". Journal of Wind Engineering and Industrial Aerodynamics. 21 (2): 119–154. doi:10.1016/0167-6105(85)90001-7.
- Argete, J.C; Wilson, J.D (1989). "The microclimate in the centre of small square sheltered plots". Agricultural and Forest Meteorology. 48 (1–2): 185–199. Bibcode:1989AgFM...48..185A. doi:10.1016/0168-1923(89)90016-6.