Effects of different water management strategies on critical nitrogen concentration dilution curves, nitrogen accumulation, and grain yield in winter wheat

The Nitrogen Nutrition Index (NNI), based on the Critical Nitrogen Concentration (Nc), is widely utilized to evaluate crop nitrogen nutrition. However, the impact of water deficit on crop Nc remains unclear. To address this, a 3-year joint water-nitrogen regulation experiment on winter wheat was con...

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Published inAgriculture Communications Vol. 2; no. 3; p. 100052
Main Authors Lu, Junsheng, Hu, Tiantian, Li, Yue, Cui, Xiaolu, Cheng, Minghui, Yan, Shicheng, Xiang, Youzhen, Fan, Junliang, Zhang, Fucang, Xiong, Youcai
Format Journal Article
LanguageEnglish
Published Elsevier 01.09.2024
Subjects
Critical nitrogen concentration
Nitrogen nutrition index
Precision nitrogen management
Water deficit
Winter wheat
Online AccessGet full text
ISSN2949-7981
2949-7981
DOI10.1016/j.agrcom.2024.100052

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Abstract The Nitrogen Nutrition Index (NNI), based on the Critical Nitrogen Concentration (Nc), is widely utilized to evaluate crop nitrogen nutrition. However, the impact of water deficit on crop Nc remains unclear. To address this, a 3-year joint water-nitrogen regulation experiment on winter wheat was conducted to investigate the responses of Nc dilution curve parameters (A1 and A2 in Nc ​= ​A1DM−A2, where DM represents aboveground dry biomass), nitrogen accumulation (NA), and grain yield (GY) to different water management strategies. The study employed Bayesian statistical methods to establish the Nc dilution curve, which revealed a slightly lower curve compared to that derived using classical methods. The posterior distribution indicated substantial overlap in parameters A1 (89.8%) and A2 (89.4%) between deficit irrigation (DI) and full irrigation (FI). The overlap of parameter A1 was 67.2% between rainfed and irrigated (DI and FI) treatments, whereas for parameter A2, it was only 29.9%. Analysis of variance showed a significant difference (p ​< ​0.05) in parameter A2 between rainfed and irrigated treatments, but no significant differences were found (p ​> ​0.05) between DI and FI treatments. Additionally, NA and GY of winter wheat displayed insignificant differences between irrigation treatments; however, they were, on overage, significantly higher by 31.2% and 23.2%, respectively, under irrigated conditions compared to rainfed conditions. This study is the first to demonstrate that severe water deficit (rainfed conditions) significantly affects parameter A2 of the Nc dilution curve, underscoring the importance of considering actual water conditions in applying the NNI for nitrogen fertilizer management.
AbstractList The Nitrogen Nutrition Index (NNI), based on the Critical Nitrogen Concentration (Nc), is widely utilized to evaluate crop nitrogen nutrition. However, the impact of water deficit on crop Nc remains unclear. To address this, a 3-year joint water-nitrogen regulation experiment on winter wheat was conducted to investigate the responses of Nc dilution curve parameters (A1 and A2 in Nc ​= ​A1DM−A2, where DM represents aboveground dry biomass), nitrogen accumulation (NA), and grain yield (GY) to different water management strategies. The study employed Bayesian statistical methods to establish the Nc dilution curve, which revealed a slightly lower curve compared to that derived using classical methods. The posterior distribution indicated substantial overlap in parameters A1 (89.8%) and A2 (89.4%) between deficit irrigation (DI) and full irrigation (FI). The overlap of parameter A1 was 67.2% between rainfed and irrigated (DI and FI) treatments, whereas for parameter A2, it was only 29.9%. Analysis of variance showed a significant difference (p ​< ​0.05) in parameter A2 between rainfed and irrigated treatments, but no significant differences were found (p ​> ​0.05) between DI and FI treatments. Additionally, NA and GY of winter wheat displayed insignificant differences between irrigation treatments; however, they were, on overage, significantly higher by 31.2% and 23.2%, respectively, under irrigated conditions compared to rainfed conditions. This study is the first to demonstrate that severe water deficit (rainfed conditions) significantly affects parameter A2 of the Nc dilution curve, underscoring the importance of considering actual water conditions in applying the NNI for nitrogen fertilizer management.
ArticleNumber 100052
Author Hu, Tiantian
Xiong, Youcai
Yan, Shicheng
Lu, Junsheng
Li, Yue
Cui, Xiaolu
Cheng, Minghui
Xiang, Youzhen
Fan, Junliang
Zhang, Fucang
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Snippet The Nitrogen Nutrition Index (NNI), based on the Critical Nitrogen Concentration (Nc), is widely utilized to evaluate crop nitrogen nutrition. However, the...
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SubjectTerms Critical nitrogen concentration
Nitrogen nutrition index
Precision nitrogen management
Water deficit
Winter wheat
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Title Effects of different water management strategies on critical nitrogen concentration dilution curves, nitrogen accumulation, and grain yield in winter wheat
URI https://doi.org/10.1016/j.agrcom.2024.100052
https://doaj.org/article/c24065055a8447d7b4022c7ac60a35ef
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