Water deficit effects on sweet corn. I. Water use, radiation use efficiency, growth, and yield

The responses of sweet corn biomass and yield to timing and severity of water deficit were determined in an experiment using a mobile rainshelter. Six irrigation treatments were applied such that plots experienced: (1) no water deficit; (2) full water deficit; (3) moderate pre-silking deficit; (4) s...

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Veröffentlicht in:Australian journal of agricultural research 2001, Vol.52 (1), p.103-113
Hauptverfasser: STONE, P. J, WILSON, D. R, REID, J. B, GILLESPIE, R. N
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Sprache:eng
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Zusammenfassung:The responses of sweet corn biomass and yield to timing and severity of water deficit were determined in an experiment using a mobile rainshelter. Six irrigation treatments were applied such that plots experienced: (1) no water deficit; (2) full water deficit; (3) moderate pre-silking deficit; (4) severe pre-silking deficit; (5) moderate post-silking deficit; or (6) severe post-silking deficit. Drought was quantified using the concept of potential soil moisture deficit, which was calculated from climatic data. Potential soil moisture deficit can be related simply to a wide range of plant performance variables, making it possible to compare the relative importance of variables in determining the overall response of the crop to drought. For all treatments, yield was related strongly to biomass, especially that accumulated after silking. Biomass, in turn, was reduced by water deficit, mainly because of reduced radiation use efficiency, but also because of reduced total radiation interception, particularly in early deficit treatments. Both water use efficiency and transpiration efficiency increased with water deficit, even though soil evaporation as a proportion of total water use also increased with deficit. There was no stage of crop development at which yield was particularly sensitive to water deficit, although yield components changed with timing of deficit. Importantly, measures of potential soil moisture deficit integrated the effects of timing and severity of drought, making it possible to simply and mechanistically account for the effects of water deficit on biomass and particularly yield. Keywords: Zea mays L., irrigation, potential soil moisture deficit, drought, yield components. Australian Journal of Agricultural Research 52(1) 103 - 113 Full text doi:10.1071/AR99146 © CSIRO 2001
ISSN:0004-9409
1836-5795
DOI:10.1071/AR99146