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Effects of Zn, macronutrients, and their interactions through foliar applications on winter wheat grain nutritional quality

Although application of Zn combined with macronutrients (K, P, and N) can be used to fortify wheat grain with Zn, little is known about their interactions when foliar application is employed or the influences of common soil fertility management practices (e.g. N and straw management) on their effici...

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Autores principales: Wang, Shaoxia, Li, Meng, Liu, Ke, Tian, Xiaohong, Li, Shuo, Chen, Yanlong, Jia, Zhou
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2017
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5529011/
https://www.ncbi.nlm.nih.gov/pubmed/28746402
http://dx.doi.org/10.1371/journal.pone.0181276
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author Wang, Shaoxia
Li, Meng
Liu, Ke
Tian, Xiaohong
Li, Shuo
Chen, Yanlong
Jia, Zhou
author_facet Wang, Shaoxia
Li, Meng
Liu, Ke
Tian, Xiaohong
Li, Shuo
Chen, Yanlong
Jia, Zhou
author_sort Wang, Shaoxia
collection PubMed
description Although application of Zn combined with macronutrients (K, P, and N) can be used to fortify wheat grain with Zn, little is known about their interactions when foliar application is employed or the influences of common soil fertility management practices (e.g. N and straw management) on their efficiency. Therefore, the effects of foliar-applied Zn and N, P, or K on grain nutritional quality (especially Zn) were investigated in wheat grown under different soil N rates at two sites with (Sanyuan) or without (Yangling) employing straw return. A 4-year-long field experiment was also conducted to evaluate the environmental stability of the foliar formulations. Across 6 site-years, foliar Zn application alone or combined with N, P, or K fertilizers resulted in 95.7%, 101%, 67.9% and 121% increases in grain Zn concentration, respectively. In terms of increasing grain Zn concentration, foliar-applied Zn positively interacted with N (at Sanyuan) and K (at Yangling), but negatively interacted with P at any condition tested, suggesting depressive effects of foliarly-applied P on physiological availability of Zn. Although these interaction effects were the major factor that governing the efficiency of foliar-applied Zn combined with N, P, or K on grain Zn concentration, the magnitude of the increase/decrease in grain Zn (–3.96~5.71 mg kg(-1)) due to these interactions was much less than the average increases following Zn+K (31.3), Zn+P (18.7), and Zn+N (26.5 mg kg(-1)) treatments relative to that observed in foliar Zn-only treatment. The combined foliar application of Zn with N, P, or K did not cause any adverse impact on grain yield and other nutritional quality and in some cases slightly increased grain yield and macronutrient concentrations. Grain phytic acid:Zn molar ratios were respectively 52.0%, 53.1%, 43.4% and 63.5% lower in the foliar Zn, Zn+N, Zn+P and Zn+K treatments than in the control treatment. These effects were consistent over four years and across three soil N rates. Overall, combined foliar application of Zn with N, P, or K can successfully fortify wheat grain with Zn (above 40 mg kg(-1)), and including Zn in foliar N or K application are preferred for practically increasing dietary Zn intake.
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spelling pubmed-55290112017-08-07 Effects of Zn, macronutrients, and their interactions through foliar applications on winter wheat grain nutritional quality Wang, Shaoxia Li, Meng Liu, Ke Tian, Xiaohong Li, Shuo Chen, Yanlong Jia, Zhou PLoS One Research Article Although application of Zn combined with macronutrients (K, P, and N) can be used to fortify wheat grain with Zn, little is known about their interactions when foliar application is employed or the influences of common soil fertility management practices (e.g. N and straw management) on their efficiency. Therefore, the effects of foliar-applied Zn and N, P, or K on grain nutritional quality (especially Zn) were investigated in wheat grown under different soil N rates at two sites with (Sanyuan) or without (Yangling) employing straw return. A 4-year-long field experiment was also conducted to evaluate the environmental stability of the foliar formulations. Across 6 site-years, foliar Zn application alone or combined with N, P, or K fertilizers resulted in 95.7%, 101%, 67.9% and 121% increases in grain Zn concentration, respectively. In terms of increasing grain Zn concentration, foliar-applied Zn positively interacted with N (at Sanyuan) and K (at Yangling), but negatively interacted with P at any condition tested, suggesting depressive effects of foliarly-applied P on physiological availability of Zn. Although these interaction effects were the major factor that governing the efficiency of foliar-applied Zn combined with N, P, or K on grain Zn concentration, the magnitude of the increase/decrease in grain Zn (–3.96~5.71 mg kg(-1)) due to these interactions was much less than the average increases following Zn+K (31.3), Zn+P (18.7), and Zn+N (26.5 mg kg(-1)) treatments relative to that observed in foliar Zn-only treatment. The combined foliar application of Zn with N, P, or K did not cause any adverse impact on grain yield and other nutritional quality and in some cases slightly increased grain yield and macronutrient concentrations. Grain phytic acid:Zn molar ratios were respectively 52.0%, 53.1%, 43.4% and 63.5% lower in the foliar Zn, Zn+N, Zn+P and Zn+K treatments than in the control treatment. These effects were consistent over four years and across three soil N rates. Overall, combined foliar application of Zn with N, P, or K can successfully fortify wheat grain with Zn (above 40 mg kg(-1)), and including Zn in foliar N or K application are preferred for practically increasing dietary Zn intake. Public Library of Science 2017-07-26 /pmc/articles/PMC5529011/ /pubmed/28746402 http://dx.doi.org/10.1371/journal.pone.0181276 Text en © 2017 Wang et al http://creativecommons.org/licenses/by/4.0/ This is an open access article distributed under the terms of the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) , which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.
spellingShingle Research Article
Wang, Shaoxia
Li, Meng
Liu, Ke
Tian, Xiaohong
Li, Shuo
Chen, Yanlong
Jia, Zhou
Effects of Zn, macronutrients, and their interactions through foliar applications on winter wheat grain nutritional quality
title Effects of Zn, macronutrients, and their interactions through foliar applications on winter wheat grain nutritional quality
title_full Effects of Zn, macronutrients, and their interactions through foliar applications on winter wheat grain nutritional quality
title_fullStr Effects of Zn, macronutrients, and their interactions through foliar applications on winter wheat grain nutritional quality
title_full_unstemmed Effects of Zn, macronutrients, and their interactions through foliar applications on winter wheat grain nutritional quality
title_short Effects of Zn, macronutrients, and their interactions through foliar applications on winter wheat grain nutritional quality
title_sort effects of zn, macronutrients, and their interactions through foliar applications on winter wheat grain nutritional quality
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5529011/
https://www.ncbi.nlm.nih.gov/pubmed/28746402
http://dx.doi.org/10.1371/journal.pone.0181276
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