Root Development and Water-uptake under Water Deficit Stress in Drought-adaptive Wheat Genotypes

Drought adaptation of wheat is one of the most significant and complex subjects in the rain-fed agricultural regions of West Asia. Interaction between root water-uptake and the remaining soil moisture is a key factor for drought adaptation. Under controlled conditions, root development was compared...

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Published inCereal research communications Vol. 40; no. 1; pp. 44 - 52
Main Authors Mori, M., Inagaki, M.N.
Format Journal Article
LanguageEnglish
Published Cham AKADÉMIAI KIADÓ 01.03.2012
Springer International Publishing
Subjects
Agriculture
biomass production
Dehydration
Drought
genetic variation
genotype
Genotypes
grain yield
Grains
harvest index
heading
Life Sciences
Physiology
Plant Breeding/Biotechnology
Plant Genetics and Genomics
Plant Physiology
Plant roots
Plants
Soil water
Soil water deficit
Transpiration
water stress
water uptake
water use efficiency
West Asia
Wheat
West Asia
water-uptake
transpiration
drought
root
harvest index
adaptation
wheat
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Abstract Drought adaptation of wheat is one of the most significant and complex subjects in the rain-fed agricultural regions of West Asia. Interaction between root water-uptake and the remaining soil moisture is a key factor for drought adaptation. Under controlled conditions, root development was compared among four wheat genotypes under water deficit stress in relation to water-uptake. In addition, the effects of soil water deficit on the production of biomass and grain were examined using drought-adaptive varieties from different sources. Genotypic differences in root development were significant by the time of heading under well-irrigated conditions but were decreased under water-stressed conditions. After heading, water deficit stress also decreased grain yield through a reduction in grain number. Genotypic variations in transpiration efficiency and harvest index, two components of water-use efficiency, were significant and transpiration efficiency was negatively associated with root weight and water-uptake. The effect of harvest index was three-times greater than that of transpiration efficiency. Two wheat genotypes, SYN-10 and Drysdale derived from different sources, had high grain weights in contrast to reduced root development and low water-uptake under water deficit stress. Their differences in genetic mechanism remain uncertain. Transpiration efficiency and harvest index are critical factors for producing greater grain yield under water deficit stress. These components are closely related and highly dependent on wheat genotype. Harvest index was more determinant of grain yield than transpiration efficiency. The drought-adaptive wheat genotypes achieved water-savings through reduced root weight and reduced water-uptake and compensated for these through higher transpiration efficiency and higher harvest index.
AbstractList Drought adaptation of wheat is one of the most significant and complex subjects in the rain-fed agricultural regions of West Asia. Interaction between root water-uptake and the remaining soil moisture is a key factor for drought adaptation. Under controlled conditions, root development was compared among four wheat genotypes under water deficit stress in relation to water-uptake. In addition, the effects of soil water deficit on the production of biomass and grain were examined using drought-adaptive varieties from different sources. Genotypic differences in root development were significant by the time of heading under well-irrigated conditions but were decreased under water-stressed conditions. After heading, water deficit stress also decreased grain yield through a reduction in grain number. Genotypic variations in transpiration efficiency and harvest index, two components of water-use efficiency, were significant and transpiration efficiency was negatively associated with root weight and water-uptake. The effect of harvest index was three-times greater than that of transpiration efficiency. Two wheat genotypes, SYN-10 and Drysdale derived from different sources, had high grain weights in contrast to reduced root development and low water-uptake under water deficit stress. Their differences in genetic mechanism remain uncertain. Transpiration efficiency and harvest index are critical factors for producing greater grain yield under water deficit stress. These components are closely related and highly dependent on wheat genotype. Harvest index was more determinant of grain yield than transpiration efficiency. The drought-adaptive wheat genotypes achieved water-savings through reduced root weight and reduced water-uptake and compensated for these through higher transpiration efficiency and higher harvest index.
Drought adaptation of wheat is one of the most significant and complex subjects in the rain-fed agricultural regions of West Asia. Interaction between root water-uptake and the remaining soil moisture is a key factor for drought adaptation. Under controlled conditions, root development was compared among four wheat genotypes under water deficit stress in relation to water-uptake. In addition, the effects of soil water deficit on the production of biomass and grain were examined using drought-adaptive varieties from different sources. Genotypic differences in root development were significant by the time of heading under well-irrigated conditions but were decreased under water-stressed conditions. After heading, water deficit stress also decreased grain yield through a reduction in grain number. Genotypic variations in transpiration efficiency and harvest index, two components of water-use efficiency, were significant and transpiration efficiency was negatively associated with root weight and water-uptake. The effect of harvest index was three-times greater than that of transpiration efficiency. Two wheat genotypes, SYN-10 and Drysdale derived from different sources, had high grain weights in contrast to reduced root development and low water-uptake under water deficit stress. Their differences in genetic mechanism remain uncertain. Transpiration efficiency and harvest index are critical factors for producing greater grain yield under water deficit stress. These components are closely related and highly dependent on wheat genotype. Harvest index was more determinant of grain yield than transpiration efficiency. The drought-adaptive wheat genotypes achieved water-savings through reduced root weight and reduced water-uptake and compensated for these through higher transpiration efficiency and higher harvest index.
Author Mori, M.
Inagaki, M.N.
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Cites_doi 10.1093/aob/mcm180
10.1111/j.1744-7348.1966.tb03830.x
10.2135/cropsci2002.1220
10.1016/j.agwat.2007.10.008
10.1556/CRC.38.2010.4.6
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Keywords water-uptake
transpiration
drought
root
harvest index
adaptation
wheat
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Index Database
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StartPage 44
SubjectTerms Agriculture
biomass production
Dehydration
Drought
genetic variation
genotype
Genotypes
grain yield
Grains
harvest index
heading
Life Sciences
Physiology
Plant Breeding/Biotechnology
Plant Genetics and Genomics
Plant Physiology
Plant roots
Plants
Soil water
Soil water deficit
Transpiration
water stress
water uptake
water use efficiency
West Asia
Wheat
Title Root Development and Water-uptake under Water Deficit Stress in Drought-adaptive Wheat Genotypes
URI https://www.jstor.org/stable/23792389
https://link.springer.com/article/10.1556/CRC.40.2012.1.6
https://www.proquest.com/docview/1817831207
Volume 40
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