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Late‐season photosynthetic rate and senescence were associated with grain yield in winter wheat of diverse origins

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Bibliographische Detailangaben
Zeitschriftentitel: Journal of Agronomy and Crop Science
Personen und Körperschaften: Liang, X., Liu, Y., Chen, J., Adams, C.
In: Journal of Agronomy and Crop Science, 204, 2018, 1, S. 1-12
Format: E-Article
Sprache: Englisch
veröffentlicht:
Wiley
Schlagwörter:
Plant Science
Agronomy and Crop Science
author_facet Liang, X.
Liu, Y.
Chen, J.
Adams, C.
Liang, X.
Liu, Y.
Chen, J.
Adams, C.
author Liang, X.
Liu, Y.
Chen, J.
Adams, C.
spellingShingle Liang, X.
Liu, Y.
Chen, J.
Adams, C.
Journal of Agronomy and Crop Science
Late‐season photosynthetic rate and senescence were associated with grain yield in winter wheat of diverse origins
Plant Science
Agronomy and Crop Science
author_sort liang, x.
spelling Liang, X. Liu, Y. Chen, J. Adams, C. 0931-2250 1439-037X Wiley Plant Science Agronomy and Crop Science http://dx.doi.org/10.1111/jac.12231 <jats:title>Abstract</jats:title><jats:p>There is a lack of studies that have investigated grain yield, its components and photosynthesis in late stages of wheat growth, giving us insufficient understanding of how these factors interact to contribute to yield during this period. As a result, three field experiments were carried out examining 20 winter wheat genotypes of diverse origins under irrigated, terminal drought and dryland conditions in the southern Idaho. Our objective was to evaluate the interaction between post‐anthesis physiological traits, especially leaf‐level photosynthetic capacity, senescence and yield components on grain yield in different moisture regimes. Genotype differences were found in leaf‐level photosynthesis and senescence, canopy temperature depression, grain yield and yield components in each water regime. Grain yield was closely associated with traits related to grain numbers. In all three moisture regimes, positive correlations were observed between grain yield and photosynthesis that were dependent on the timing or physiological growth stage of the photosynthetic measurement: highly significant correlations were found in the mid‐ and late grain filling stages, but no correlations at anthesis. Consistent with these findings, flag leaf senescence at the late grain filling stage was negatively correlated with grain yield and photosynthetic rate (under terminal drought and dryland conditions). These findings provided evidence that grain yield was sink‐limited until the final stages of growth, at which time sustained photosynthesis and delayed senescence were critical in filling grain. Because the trends were consistent in moisture sufficient and deficient conditions, the results suggest that late‐season photosynthesis and delayed leaf senescence are driven by the size of the reproductive carbon sink, which was largely governed by factors affecting grain numbers.</jats:p> Late‐season photosynthetic rate and senescence were associated with grain yield in winter wheat of diverse origins Journal of Agronomy and Crop Science
doi_str_mv 10.1111/jac.12231
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series Journal of Agronomy and Crop Science
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title Late‐season photosynthetic rate and senescence were associated with grain yield in winter wheat of diverse origins
title_unstemmed Late‐season photosynthetic rate and senescence were associated with grain yield in winter wheat of diverse origins
title_full Late‐season photosynthetic rate and senescence were associated with grain yield in winter wheat of diverse origins
title_fullStr Late‐season photosynthetic rate and senescence were associated with grain yield in winter wheat of diverse origins
title_full_unstemmed Late‐season photosynthetic rate and senescence were associated with grain yield in winter wheat of diverse origins
title_short Late‐season photosynthetic rate and senescence were associated with grain yield in winter wheat of diverse origins
title_sort late‐season photosynthetic rate and senescence were associated with grain yield in winter wheat of diverse origins
topic Plant Science
Agronomy and Crop Science
url http://dx.doi.org/10.1111/jac.12231
publishDate 2018
physical 1-12
description <jats:title>Abstract</jats:title><jats:p>There is a lack of studies that have investigated grain yield, its components and photosynthesis in late stages of wheat growth, giving us insufficient understanding of how these factors interact to contribute to yield during this period. As a result, three field experiments were carried out examining 20 winter wheat genotypes of diverse origins under irrigated, terminal drought and dryland conditions in the southern Idaho. Our objective was to evaluate the interaction between post‐anthesis physiological traits, especially leaf‐level photosynthetic capacity, senescence and yield components on grain yield in different moisture regimes. Genotype differences were found in leaf‐level photosynthesis and senescence, canopy temperature depression, grain yield and yield components in each water regime. Grain yield was closely associated with traits related to grain numbers. In all three moisture regimes, positive correlations were observed between grain yield and photosynthesis that were dependent on the timing or physiological growth stage of the photosynthetic measurement: highly significant correlations were found in the mid‐ and late grain filling stages, but no correlations at anthesis. Consistent with these findings, flag leaf senescence at the late grain filling stage was negatively correlated with grain yield and photosynthetic rate (under terminal drought and dryland conditions). These findings provided evidence that grain yield was sink‐limited until the final stages of growth, at which time sustained photosynthesis and delayed senescence were critical in filling grain. Because the trends were consistent in moisture sufficient and deficient conditions, the results suggest that late‐season photosynthesis and delayed leaf senescence are driven by the size of the reproductive carbon sink, which was largely governed by factors affecting grain numbers.</jats:p>
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author Liang, X., Liu, Y., Chen, J., Adams, C.
author_facet Liang, X., Liu, Y., Chen, J., Adams, C., Liang, X., Liu, Y., Chen, J., Adams, C.
author_sort liang, x.
container_issue 1
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container_title Journal of Agronomy and Crop Science
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description <jats:title>Abstract</jats:title><jats:p>There is a lack of studies that have investigated grain yield, its components and photosynthesis in late stages of wheat growth, giving us insufficient understanding of how these factors interact to contribute to yield during this period. As a result, three field experiments were carried out examining 20 winter wheat genotypes of diverse origins under irrigated, terminal drought and dryland conditions in the southern Idaho. Our objective was to evaluate the interaction between post‐anthesis physiological traits, especially leaf‐level photosynthetic capacity, senescence and yield components on grain yield in different moisture regimes. Genotype differences were found in leaf‐level photosynthesis and senescence, canopy temperature depression, grain yield and yield components in each water regime. Grain yield was closely associated with traits related to grain numbers. In all three moisture regimes, positive correlations were observed between grain yield and photosynthesis that were dependent on the timing or physiological growth stage of the photosynthetic measurement: highly significant correlations were found in the mid‐ and late grain filling stages, but no correlations at anthesis. Consistent with these findings, flag leaf senescence at the late grain filling stage was negatively correlated with grain yield and photosynthetic rate (under terminal drought and dryland conditions). These findings provided evidence that grain yield was sink‐limited until the final stages of growth, at which time sustained photosynthesis and delayed senescence were critical in filling grain. Because the trends were consistent in moisture sufficient and deficient conditions, the results suggest that late‐season photosynthesis and delayed leaf senescence are driven by the size of the reproductive carbon sink, which was largely governed by factors affecting grain numbers.</jats:p>
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spelling Liang, X. Liu, Y. Chen, J. Adams, C. 0931-2250 1439-037X Wiley Plant Science Agronomy and Crop Science http://dx.doi.org/10.1111/jac.12231 <jats:title>Abstract</jats:title><jats:p>There is a lack of studies that have investigated grain yield, its components and photosynthesis in late stages of wheat growth, giving us insufficient understanding of how these factors interact to contribute to yield during this period. As a result, three field experiments were carried out examining 20 winter wheat genotypes of diverse origins under irrigated, terminal drought and dryland conditions in the southern Idaho. Our objective was to evaluate the interaction between post‐anthesis physiological traits, especially leaf‐level photosynthetic capacity, senescence and yield components on grain yield in different moisture regimes. Genotype differences were found in leaf‐level photosynthesis and senescence, canopy temperature depression, grain yield and yield components in each water regime. Grain yield was closely associated with traits related to grain numbers. In all three moisture regimes, positive correlations were observed between grain yield and photosynthesis that were dependent on the timing or physiological growth stage of the photosynthetic measurement: highly significant correlations were found in the mid‐ and late grain filling stages, but no correlations at anthesis. Consistent with these findings, flag leaf senescence at the late grain filling stage was negatively correlated with grain yield and photosynthetic rate (under terminal drought and dryland conditions). These findings provided evidence that grain yield was sink‐limited until the final stages of growth, at which time sustained photosynthesis and delayed senescence were critical in filling grain. Because the trends were consistent in moisture sufficient and deficient conditions, the results suggest that late‐season photosynthesis and delayed leaf senescence are driven by the size of the reproductive carbon sink, which was largely governed by factors affecting grain numbers.</jats:p> Late‐season photosynthetic rate and senescence were associated with grain yield in winter wheat of diverse origins Journal of Agronomy and Crop Science
spellingShingle Liang, X., Liu, Y., Chen, J., Adams, C., Journal of Agronomy and Crop Science, Late‐season photosynthetic rate and senescence were associated with grain yield in winter wheat of diverse origins, Plant Science, Agronomy and Crop Science
title Late‐season photosynthetic rate and senescence were associated with grain yield in winter wheat of diverse origins
title_full Late‐season photosynthetic rate and senescence were associated with grain yield in winter wheat of diverse origins
title_fullStr Late‐season photosynthetic rate and senescence were associated with grain yield in winter wheat of diverse origins
title_full_unstemmed Late‐season photosynthetic rate and senescence were associated with grain yield in winter wheat of diverse origins
title_short Late‐season photosynthetic rate and senescence were associated with grain yield in winter wheat of diverse origins
title_sort late‐season photosynthetic rate and senescence were associated with grain yield in winter wheat of diverse origins
title_unstemmed Late‐season photosynthetic rate and senescence were associated with grain yield in winter wheat of diverse origins
topic Plant Science, Agronomy and Crop Science
url http://dx.doi.org/10.1111/jac.12231