Abstract
Windbreaks are a major component of successful agricultural systems throughout the world. The focus of this chapter is on temperate-zone, commercial, agricultural systems in North America, where windbreaks contribute to both producer profitability and environmental quality by increasing crop production while simultaneously reducing the level of off-farm inputs. They help control erosion and blowing snow, improve animal health and survival under winter conditions, reduce energy consumption of the farmstead unit, and enhance habitat diversity, providing refuges for predatory birds and insects. On a larger landscape scale windbreaks provide habitat for various types of wildlife and have the potential to contribute significant benefits to the carbon balance equation, easing the economic burdens associated with climate change. For a windbreak to function properly, it must be designed with the needs of the landowner in mind. The ability of a windbreak to meet a specific need is determined by its structure: both external structure, width, height, shape, and orientation as well as the internal structure; the amount and arrangement of the branches, leaves, and stems of the trees or shrubs in the windbreak. In response to windbreak structure, wind flow in the vicinity of a windbreak is altered and the microclimate in sheltered areas is changed; temperatures tend to be slightly higher and evaporation is reduced. These types of changes in microclimate can be utilized to enhance agricultural sustainability and profitability. While specific mechanisms of the shelter response remain unclear and are topics for further research, the two biggest challenges we face are: developing a better understanding of why producers are reluctant to adopt windbreak technology and defining the role of woody plants in the agricultural landscape.
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References
Aase J.K. and Siddoway F.H. 1976. Influence of tall wheatgrass wind barriers on soil drying. Agron J 68: 627–631.
Adams D.C., Nelsen T.C., Reynolds W.L. and Knapp B.W. 1986. Winter grazing activity and forage intake of range cows in the northern Great Plains. J Anim Sci 62: 1240–1246.
Anderson V.L. and Bird J. 1993. Effects of shelterbelt protection on performance of feedlot steers during a North Dakota winter. 1993 Beef Production Field Day, Carrington Res. Ext. Ctr., Livestock Unit. Vol 16: 19–21. North Dakota State Univ., Fargo.
Argete J.C. and Wilson J.D. 1989. The microclimate in the centre of small square sheltered plots. Agr For Meteorol 48: 185–199.
Armbrust D.V. 1982. Physiological responses to wind and sandblast damage by grain sorghum plants. Agron J 74: 133–135.
Atchison F.D. and Strine J.H. 1984. Windbreak protection for beef cattle. Kansas State University Cooperative Extension Service Publication No. L-708, Manhattan, KS.
Baldwin C.S. 1988. The influence of field windbreaks on vegetable and specialty crops. Agric Ecosyst Environ 22/23: 159–163.
Beecher N.A., Johnson R.J., Brandle J.R., Case R.M. and Young L.J. 2002. Agroecology of birds in organic and nonorganic farmland. Conserv Biol 16: 1620–1631.
Biddington N.L. 1986. The effects of mechanically-induced stress in plants - a review. Plant Growth Regulat 4: 103–123.
Bird P.R. 2000. Farm forestry in southern Australia - a focus on clearwood production of specialty timbers. Pastoral and Veterinary Institute, Dept. Natural Resources and Environment, Victoria, Australia, 264 pp.
Brandle J.R., Hintz D.L. and Sturrock J.W. 1988. Windbreak Technology. Elsevier Science Publishers, Amsterdam, 598 pp.
Brandle J.R., Hodges L. and Stuthman J. 1995. Windbreaks and specialty crops for greater profits. pp. 81–91. In: Rietveld W.J. (ed.), Agroforestry and Sustainable Systems: Symposium proceedings. USDA For. Serv. Gen. Tech. Rpt. RM-GTR-261.
Brandle J.R., Hodges L. and Wight B. 2000. Windbreak practices. pp. 79–118. In: Garrett H.E., Rietveld W.E. and Fisher R.F. (eds), North American agroforestry: An Integrated Science and Practice. Am. Soc. Agronomy, Madison, WI.
Brandle J.R., Johnson B.B. and Akeson T. 1992a. Field windbreaks: Are they economical? J Prod Agric 5: 393–398.
Brandle J.R., Johnson B.B. and Dearmont D.D. 1984. Windbreak economics: The case of winter wheat production in eastern Nebraska. J Soil Water Conserv 39: 339–343.
Brandle J.R., Wardle T.D. and Bratton G.F. 1992b. Opportunities to increase tree planting in shelterbelts and the potential impacts on carbon storage and conservation. pp. 157–176. In: Sampson N.R. and Hair F. (eds), Forests and Global Change, Vol. 1. Opportunities for Increasing Forest Cover. American Forests, Washington, DC.
Burel F. 1996. Hedgerows and their roles in agricultural landscapes. Critical Reviews in Plant Sciences 15(2): 169–190.
Burke S. 1998. Windbreaks. Inkata Press, Port Melbourne, Victoria, Australia.
Cable T.T. and Cook P.S. 1990. The use of windbreaks by hunters in Kansas. J Soil Water Conserv 45: 575–577.
Caborn J.M. 1957. Shelterbelts and Microclimate. Forestry Commission Bull. No. 29. Edinburgh University, Edinburgh, 135 pp.
Caborn J.M. 1971. The agronomic and biological significance of hedgerows. Outlook Agr 6: 279–284.
Cleugh H.A. 2002. Field measurements of windbreak effects on air-flow, turbulent exchange and microclimates. Aust J Exp Ag 42: 665–677.
Cleugh H.A. and Hughes D.E. 2002. Impact of shelter on crop microclimates: A synthesis of results from wind tunnel and field experiments. Aust J Exp Ag 42: 679–701.
Cleugh H.A., Prinsley R., Bird P.R., Brooks S.J., Carberry P.S., Crawford M.C., Jackson T.T., Meinke H., Mylius S.J., Nuberg I.K., Sudmeyer R.A. and Wright A.J. 2002. The Australian National windbreaks program: Overview and summary of results. Aust J Exp Ag 42: 649–664.
Corbett A. and Plant R.E. 1993. Role of movement in the response of natural enemies to agroecosystem diversification: A theoretical evaluation. Environ Entomol 22(3): 519–531.
Corbett A. and Rosenheim J.A. 1996. Impact of a natural enemy overwintering refuge and its interaction with the surrounding landscape. Ecol Entomol 21: 155–164.
Coutts M.P. and Grace J. 1995. Wind and Trees. University Press, Cambridge, 485 pp.
Davis J.E. and Norman J.M. 1988. Effects of shelter on plant water use. Agric Ecosyst Environ 22/23: 393–402.
DeWalle D.R. and Heisler G.M. 1988. Use of windbreaks for home energy conservation. Agric Ecosyst Environ 22/23: 243–260.
Dix M.E., Johnson R.J., Harrel M.O., Case R.M., Wright R.J., Hodges L, Brandle J.R., Schoenberger M.M., Sunderman N.J., Fitzmaurice R.L., Young L.J. and Hubbard K.G. 1995. Influence of trees on abundance of natural enemies of insect pests: A review. Agroforest Syst 29: 303–311.
Drew R.L.K. 1982. The effects of irrigation and of shelter from wind on emergence of carrot and cabbage seedlings. J Hort Sci 57: 215–219.
Dronen S.I. 1984. Windbreaks in the Great Plains. North J Appl For 1: 55–59.
Dronen S.I. 1988. Layout and design criteria for livestock windbreaks. Agric Ecosyst Environ 22/23: 231–240.
Droze W.H. 1977. Trees, Prairies, and People: A History of Tree Planting in the Plains States. USDA For. Serv. and Texas Woman's University Press, Denton, TX, 313 pp.
Easson D.L., White E.M. and Pickles S.J. 1993. The effects of weather, seed rate, and cultivar on lodging and yield in winter wheat. J Agric Sci 121: 145–156.
Easterling W.E., Hays C.J., Easterling M.M., and Brandle J.R. 1997. Modeling the effect of shelterbelts on maize productivity under climate change: An application of the EPIC model. Agric Ecosyst Environ 61: 163–176.
Forman R.T.T. 1995. Land Mosaics: The Ecology of Landscapes and Regions. Cambridge University Press, Cambridge, 632 pp.
Grace J. 1977. Plant Response to Wind. Academic Press, London.
Grace J. 1981. Some effects of wind on plants. pp. 31–56. In: Grace J., Ford E.D. and Jarvis P.G. (eds), Plants and their Atmospheric Environment, Blackwell Scientific Publishers, Oxford.
Grace J. 1988. Plant response to wind. Agr Ecosyst Environ 22/23: 71–88.
Greb B.W. 1980. Snowfall and its potential management in the semiarid central Great Plains. USDA. Res. Sci. Ed. Admin., Western Series No. 18. USDA, Agricultural Research, Oakland, CA.
Hall D.J.M., Sudmeyer R.A., McLernon C.K. and Short R.J. 2002. Characterization of a windbreak system on the south coast of Western Australia. 3. Soil water and hydrology. Aust J Exp Ag 42: 729–738.
Heisler G.M. and DeWalle D.R. 1988. Effects of windbreak structure on wind flow. Agric Ecosyst Environ22/23: 41–69.
Heisler G.M. and Dix M.E. 1988. Effects of windbreaks on local distribution of airborne insects. pp. 5–12. In: Dix M.E. and Harrell M. (eds), Insects of Windbreaks and Related Plantings: Distribution, Importance, and Management. Conference Proceedings, December 6, 1988, Louisville, KY. USDA Forest Service, Gen Tech Rpt RM-204.
Hodges L. and Brandle J.R. 1996. Windbreaks: An important component in a plasticulture system. HortTechnology 6(3): 177–181.
Holmes C.W. and Sykes A.R. 1984. Shelter and climatic effects on livestock. pp. 19–35. In: Sturrock J.W. (ed.). Shelter Research Needs in Relation to Primary Production: The report of the National Shelter Working Party, Wellington, New Zealand. Water Soil Misc Publ No. 59.
Hou Q., Brandle J., Hubbard K., Schoeneberger M., Nieto C. and Francis C. 2003. Alteration of soil water content consequent to root-pruning at a windbreak/crop interface in Nebraska, USA. Agroforest Syst 57: 137–147.
Huszar P.C. and Piper S.L. 1986. Estimating the off-site costs of wind erosion in New Mexico. J Soil Water Conserv 41(6): 414–416.
Jairell R.L. and Schmidt R.A. 1986. Scale model tests help optimize wind protection and water improvements for livestock. pp. 159–161. In: Hintz D.L. and Brandle J.R. (eds), Proceedings International Symposium on Windbreak Technology, June 23–27, 1986. Great Plains Agricultural Council-Forestry Committee. Publ. No. 117.
Jairell R.L. and Schmidt R.A. 1992. Harvesting snow when water levels are low. pp. 121–124. In: Shafer B. (ed.) Proceedings, 60th Western Snow Conference, April 14–16, 1992, Jackson, WY.
Johnson R.J. and Beck M.M. 1988. Influences of shelterbelts on wildlife management and biology. Agric Ecosyst Environ 22/23: 301–335.
Jordan D.J., Klopfenstein T., Brandle J. and Klemesrud M. 1997. Cornstalk grazing in protected and unprotected fields. pp. 24. In: 1997 Nebraska Beef Report, University of Nebraska, Lincoln. MP 67.
Jose S., Gellespie A.R. and Pallardy S.G. 2004. Interspecific interactions in temperate agroforestry (This volume).
Josiah S.J., St-Pierre R, Brott H. and Brandle J.R. 2004. Productive conservation: Diversifying farm enterprises by producing specialty woody products in agroforestry systems. J Sustain Agr 23: 93–108.
Konstantinov A.R. and Struzer L.R. 1965. Shelterbelts and crop yields. Translated from Russian by Israel Program for Scientific Translations. U.S. Department of Commerce, Clearinghouse for Federal Scientific Technical Information, Springfield, VA.
Kort J. 1988. Benefits of windbreaks to field and forage crops. Agric Ecosyst Environ 22/23: 165–190.
Kort J. and Turnock R. 1999. Carbon reservoir and biomass in Canadian prairie shelterbelts. Agroforest Syst44: 175–186.
Lowry W.P. 1967. Weather and Life: An Introduction to Biometeorology. Academic Press, New York.
Luis P.P. and Bloomberg M. 2002. Windbreaks in southern Patagonia, Argentina: A review of research on growth models, wind speed reduction, and effects on crops. Agroforest Syst 56: 129–144.
Lyles L., Tatarko J. and Dickerson J.D. 1984. Windbreak effects on soil water and wheat yield. Trans ASAE 20: 69–72.
McNaughton K.G. 1988. Effects of windbreaks on turbulent transport and microclimate. Agr Ecosyst Environ 22/23: 17–40.
Miller J.M., Bohm M. and Cleugh H.A. 1995. Direct mechanical effects of wind on selected crops: A review. Centre for Environmental Mechanics, Canberra, ACT. Tech. Rpt. No. 67.
Mitchell C.A. 1977. Influence of mechanical stress on auxin stimulated growth of excised pea stem sections. Physiol Plant 41: 129–134.
Monteith J.L. 1981. Coupling of plants to the atmosphere. pp. 1–29. In: Grace J., Ford E.D. and Jarvis P.G. (eds), Plants and their Atmospheric Environment. Blackwell Scientific Publishers, Oxford.
Monteith J.L. 1993. The exchange of water and carbon by crops in a Mediterranean climate. Irrig Sci 14: 85–91.
Morris C., Klopfenstein T., Brandle J., Stock R., Shain D. and Klemesrud M. 1996. Winter calf grazing and field windbreaks. 1996 Nebraska Beef Report. University of Nebraska, Lincoln, MP 66–A: 44.
Nair P.K.R. 1993. An Introduction to Agroforestry. Kluwer, Dordrecht, The Netherlands, 499 pp.
Norton R.L. 1988. Windbreaks: Benefits to orchard and vineyard crops. Agric Ecosyst Environ 22/23: 205–213.
Nuberg I.K. 1998. Effect of shelter on temperate crops: A review to define research for Australian conditions. Agroforest Syst 41: 3–34.
Nuberg I.K. and Mylius S.J. 2002. Effect of shelter on the yield and water use of wheat. Aust J Exp Ag 42: 773–780.
Nuberg I.K., Mylius S.J., Edwards J.M. and Davey C. 2002. Windbreak research in a South Australian cropping system. Aust J Exp Ag 42: 781–795.
Ogbuehi S.N. and Brandle J.R. 1982. Influence of windbreak-shelter on soybean growth, canopy structure, and light relations. Crop Sci 22: 269–273.
Pasek J.E. 1988. Influence of wind and windbreaks on local dispersal of insects. Agric Ecosyst Environ 22/23: 539–554.
Pitcairn C.E.R., Jeffree C.E. and Grace J. 1986. Influence of polishing and abrasion on the diffusive conductance of leaf surfaces of Festuca arundinacea Schreb. Plant Cell Environ 9: 191–196.
Pimental D., Harvey C., Resosudarmo P., Sinclair K., Kurz D., McNair M., Crist S., Shpritz L., Fitton L., Saffouri R. and Blair R. 1995. Environmental and economic costs of soil erosion and conservation benefits. Science 267: 1117–1123.
Primault B. 1979. Optimum climate for animals. pp. 182–189. In: Seemann J., Chirkov Y.I., Lomas J. and Primault B. (eds), Agrometeorology, Springer-Verlag, Berlin.
Quam V.C., Johnson L., Wight B. and Brandle J.R. 1994. Windbreaks for livestock production. University of Nebraska Cooperative Extension EC 94–1766–X, Lincoln, NE.
Rasmussen S.D. and Shapiro C.A. 1990. Effects of tree root-pruning adjacent to windbreaks on corn and soybeans. J Soil Water Conserv 45(5): 571–575.
Ribaudo M.O. 1986. Targeting soil conservation programs. Land Econ 62(4): 402–411.
Rosenberg N.J. 1966. Microclimate, air mixing, and physiological regulation of transpiration as influenced by wind shelter in an irrigated bean field. Agr Meteorol 3: 197–224.
Scholten H. 1988. Snow distribution on crop fields. Agric Ecosyst Environ 22/23: 363–380.
Schmidt R.A. Jr. 1972. Sublimination of wind-transported snow - a model. USDA For. Serv. Res. Pap. RM-90. Rocky Mtn. Forest and Range Exp. Stn.
Shaw D.L. 1988. The design and use of living snowfences in North America. Agr Ecosyst Environ 22/23: 351–362.
Skidmore E.L. 1966. Wind and sandblast injury to seedling green beans. Agron J 58: 311–315.
Sturrock J.W. 1984. The role of shelter in irrigation and water use. pp. 79–86. In: Sturrock J.W. (ed.), Shelter Research Needs in Relation to Primary Production: The Report of the National Shelter Working Party Ministry of Works and Development, Water and Soil Misc. Publ. No. 94, Wellington, New Zealand.
Sudmeyer R.A. and Scott P.R. 2002. Characterization of a windbreak system on the south coast of Western Australia 1. Microclimate and wind erosion. Aust J Exp Ag 42: 717–715.
Sudmeyer R.A., Hall D.J.M., Eastham J. and Adams M.A. 2002. The tree-crop interface: The effects of root pruning in southwestern Australia. Aust J Exp Ag 42: 763–772.
Tabler R.D. and Johnson K.L. 1971. Snow fences for watershed management. pp. 116–121. In: Snow and ice in relation to wildlife and recreation. Symposium Proceedings. Ames, IA, February 11–12, 1971.
Takle E.S., Wang H., Schmidt R.A., Brandle J.R. and Jairell R.L. 1997. Pressure perturbation around shelterbelts: Measurements and model results. In: 12th Symposium on Boundary Layers and Turbulence. pp. 563–564. American Meteorological Society, July, 1997, Vancouver, British Columbia.
van Eimern J., Karschon R., Razumava L.A. and Robertson G.W. 1964. Windbreaks and Shelterbelts. Technical Note No. 59 (WMO-No.147.TP.70), Geneva, Switzerland.
van Gardingen P. and Grace J. 1991. Plants and wind. Adv Bot Res 18: 189–253.
Wang H. and Takle E.S. 1995. Numerical simulations of shelterbelt effects on wind direction. J Appl Meteorol 34: 2206–2219.
Wang H. and Takle E.S. 1996a. On shelter efficiency of shelterbelts in oblique wind. Agr For Meteorol 81: 95–117.
Wang H. and Takle E.S. 1996b. On three-dimensionality of shelterbelt structure and its influences on shelter effects. Boundary-Layer Meteorol 79: 83–105.
Webster A.J.F. 1970. Direct effects of cold weather on the energetic efficiency of beef production in different regions of Canada. Can J Anim Sci 50: 563–573.
Wight B. 1988. Farmstead windbreaks. Agr Ecosyst Environ 22/23: 261–280.
Zhao Z., Xiao L., Zhao T. and Zhang H. 1995. Windbreaks for Agriculture. China Forestry Publishing House, Beijing (In Chinese).
Zhou X.H., Brandle J.R., Takle E.S. and Mize C.W. 2002. Estimation of the three-dimensional aerodynamic structure of a green ash shelterbelt. Agr Forest Meteorol 111: 93–108.
Zhou X.H., Brandle J.R., Mize C.W. and Takle E.S. 2004. The relationship of three-dimensional structure to shelterbelt function: A theoretical hypothesis. J Crop Production (In press).
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Brandle, J., Hodges, L. & Zhou, X. Windbreaks in North American agricultural systems. Agroforestry Systems 61, 65–78 (2004). https://doi.org/10.1023/B:AGFO.0000028990.31801.62
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DOI: https://doi.org/10.1023/B:AGFO.0000028990.31801.62