Water Uptake under Water Stress at Panicle Initiation Stage in Upland Rice as Affected by Previous Soil Water Regimes
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概要
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Under water stress conditions, water uptake from the deep soil layers is a key trait for drought avoidance in upland rice (Oryza sativa L.). In this study, upland rice subjected to different soil water regimes during the vegetative growth (low: - 0.20 to - 0.03 MPa and high: - 0.09 to - 0.03 MPa soil matric potential φ_s) was investigated to evaluate the daily plant water uptake of the root systems under short-term soil water stress at the panicle initiation stage, by characterizing the distribution of the root length and changes in the water extraction per unit root length q (cm^2 d^-1) in different soil layers in a column experiment. Irrigation was applied to set the φ_s at - 0.04 to - 0.03 MPa at a 0-20 cm depth and - 0.03 to - 0.02 MPa in the layers below a depth of 20 cm in both soil water regimes just before the imposition of the water stress treatment. In both soil water regimes, daily plant water uptake decreased continuously during the stress period, while the leaf water potential decreased substantially. During the 0-2 d period after the last irrigation (DALI), the water uptake rate in the 0-20 cm layer was the largest among the soil layers and coincided with the largest root length in this layer. Subsequently, the water uptake rate in the layers below a depth of 20 cm increased temporarily and then decreased rapidly as φ_s decreased, while the water uptake rate at a 0-20 cm depth decreased monotonically. The q value responded to a decrease in φ_s differently depending on the layers in both soil water regimes. In the 0-20 cm layer, the q value decreased continuously with the decrease in φ_s. On the other hand, the q value in the layers below a depth of 20 cm increased with the decrease in φ_s from the range of - 0.03 to - 0.02 to the range of - 0.05 to - 0.04 MPa. However, as the φ_s decreased to below - 0.05 MPa, the q value in the layers below a depth of 20 cm decreased to a larger extent than in the 0-20 cm layer, reflecting the limited root water extraction ability in those layers as water stress developed, irrespective of the soil water regimes. The root length in the 20-40 cm layer increased in the low soil water regime due to the stimulation of the branching of fine and medium roots (42-220 μm). Consequently, the water uptake rate in the 20-40 cm layer was larger in the low soil water regime, which contributed to a larger daily plant water uptake at the beginning of the stress period. During the latter stress period, daily plant water uptake decreased rapidly in both soil water regimes.
- 社団法人日本土壌肥料学会の論文
著者
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Kakuda Ken-ichi
Faculty of Agriculture, Yamagata University
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Ando Ho
Faculty of Agriculture, Yamagata University
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Ando H
Faculty Of Agriculture Yamagata University
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Ando Ho
Faculty Of Agriculture Kagawa University
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Kondo M
International Rice Research Institute:(present Address)national Agricultural Research Organization N
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Kondo Motohiko
National Institute Of Crop Science
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Kondo Motohiko
International Rice Research Institute:(present Address)department Of Soil And Fertilizer National Ag
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Kakuda K
Faculty Of Agriculture Yamagata University
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Kakuda Ken-ichi
Faculty Of Agriculture Yamagata University
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Okada Kanako
International Rice Research Institute
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Okada K
International Rice Research Institute:(present Address)department Of Agronomy Yamagata University
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Kondo Motohiko
International Rice Research Institute Los Banos
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