Author
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KIRKEGAARD, JOHN - CSIRO,CANBERRA,AUSTRALIA |
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CHRISTEN, OLAF - INST AGR&CRP SCI,GERMANY |
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Krupinsky, Joseph |
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LAYZELL, DAVID - QUEENS UNIV,KINGSTON,CAN |
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Submitted to: International Crop Science Congress Proceedings
Publication Type: Proceedings Publication Acceptance Date: 8/31/2004 Publication Date: 9/26/2004 Citation: Kirkegaard, J., Christen, O., Krupinsky, J.M., Layzell, D. 2004. Break crop benefits in temperate wheat production. 16 pp. In: Proceedings of the 4th International Crop Science Congress, Queensland, Australia. http://www.cropscience.org.au/icsc2004/symposia/2/1/191 kirkegaardja.htm Interpretive Summary: Changes in the sequence of crops grown on agricultural land are well known to enhance the yield of grain crops such as wheat. A survey of the literature gathered from around the world show yield benefits of up to 20% or more. Much is known about the key mechanisms responsible for these benefits, including effects on disease control, improved nitrogen nutrition and water supply, although researchers continue to be challenged by unexplained 'rotation effects.' This review summarizes our current understanding of the 'better-known' mechanisms of crop rotation, and discusses other mechanisms (e.g. changes in the microenvironment surrounding roots, preventing the growth of one organism by the same or other organisms with the excretion of toxic substances, or soil structure) that may help to account for the rotation benefits that have been observed by agricultural producers. Where possible we emphasize new methods employed to investigate these less well understood aspects of the 'rotation effect'. At the farm level, the inability to capitalize on the benefits of break crops may owe more to economics, the availability of suitable break crops and the complexity of the crop response. Computer-based decision support tools have been developed to assist growers to apply the information gathered from scientific studies, although efforts to integrate this information at whole farm scales are embryonic. Technical Abstract: Changes in the sequence of crops grown on agricultural land are well known to enhance the yield of grain crops such as wheat. A survey of the literature gathered from around the world show yield benefits of up to 20% or more. Much is known about the key mechanisms responsible for these benefits, including effects on disease control, improved nitrogen nutrition and water supply, although researchers continue to be challenged by inexplicable 'rotation effects' that have yet to be documented or fully understood. This review summarizes our current understanding of the 'better-known' mechanisms of crop rotation, and discusses other mechanisms (e.g. changes in rhizosphere biology, allelopathy or soil structure) that may help to account fully for the rotation benefits that have been observed by agricultural producers for more than 2000 years. Where possible we emphasize new techniques employed to investigate these less well understood aspects of the 'rotation effect'. At the farm level, the inability to capitalize on the benefits of break crops may owe more to economics, the availability of suitable break crops and the complexity of the crop response. Computer-based decision support tools have been developed to assist growers to apply the information gathered from scientific studies, although efforts to integrate this information at whole farm scales are embryonic. |
