Understanding water losses from irrigated pastures on loess-derived hillslopes
Langer, S.; Cichota, R.; Thomas, Steve; Wallace, Dirk; Van Der Klei, G.; George, M.; Johns, T.; Almond, Peter C.; Maley, S.; Arnold, N.; Hu, Wei; Srinivasan, M.; Rajanayaka, Channa N; Dodson, M.; Hayman, R.; Ghimire, C.
Irrigation is likely to increase water losses from hillslopes, particularly on loess-derived soils with impeded drainage. This is important as irrigation of these soils in New Zealand is increasing. A field site was established to monitor runoff from a pasture hillslope irrigated by a centre-pivot in South Canterbury. Between November and March, 161 and 199 mm of irrigation was applied, 23% more at the bottom of the slope. Runoff varied with position in the hillslope, 3.5 times greater on the bottom plot (52 mm) compared to the top. Over the length of the slope (40 m) this represents a potential loss of 9% of precipitation, or 21% of the irrigation. Evidence for both saturation excess and infiltration excess runoff was observed, with antecedent soil moisture conditions being a key factor. Pasture production and water use efficiency (WUE) also varied with slope, the least (4.6 t DM/ha or 12 kg DM/ha/mm) observed at the middle and most at the top of the slope (10.1 t DM/ha or 23 kg DM/ha/mm). This was likely due to a combination of differences in radiation and soil conditions. There was indication that pasture growth was limited by water availability at the top and potentially excess at the bottom of the slope. Our results indicate potential for improving irrigation practices.... [Show full abstract]
Fields of Research0701 Agriculture, Land and Farm Management; 050302 Land Capability and Soil Degradation; 05 Environmental Sciences; 0703 Crop and Pasture Production; 079901 Agricultural Hydrology (Drainage, Flooding, Irrigation, Quality, etc.)
© The Authors and the New Zealand Grassland Association.Attribution-NonCommercial-NoDerivatives 4.0 International
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