Deep drainage estimates for irrigated crop rotations in subhumid, subtropical australia
Deep drainage rates were modelled for irrigated crop rotations in terms of typical cropping sequences that differ in crop characteristics and irrigation demand. A forageâgrainâpasture sequence (sorghum, wheat and lucerne) with supplementary irrigation had an average deep drainage of 11âmmâyr...
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Veröffentlicht in: | Irrigation and drainage 2014-12, Vol.63 (5), p.692-697 |
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Format: | Artikel |
Sprache: | eng |
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Zusammenfassung: | Deep drainage rates were modelled for irrigated crop rotations in terms of typical cropping sequences that differ in crop characteristics and irrigation demand. A forageâgrainâpasture sequence (sorghum, wheat and lucerne) with supplementary irrigation had an average deep drainage of 11âmmâyrâ»Â¹, transpiration of 703âmmâyrâ»Â¹and irrigation demand of 326âmmâyrâ»Â¹. In contrast, a vegetable sequence (broccoli, lettuce, bean and sweetcorn) with adequate irrigation had a deep drainage of 121âmmâyrâ»Â¹, transpiration of 602âmmâyrâ»Â¹and irrigation demand of 598âmmâyrâ»Â¹. Under similar growing conditions, deep drainage decreased as rooting depth and cropping duration increased, and as irrigation and rainfall decreased. Deepârooted, stressâ tolerant crops such as lucerne and sorghum maximised water use and minimised the deep drainage risks through the use of moisture from preceding wellâirrigated vegetable crops and extraction of moisture from deeper soil layers. The study suggests that deep drainage risks under vegetable rotations can be minimised through the selective incorporation of these crops and improved irrigation timing and application rates. These understandings will help to develop water use efficient and economic management strategies under crop rotations. |
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ISSN: | 1531-0353 1531-0361 |
DOI: | 10.1002/ird.1872 |