Root-zone fertilization improves crop yields and minimizes nitrogen loss in summer maize in China

It is urgently to minimize nitrogen (N) loss while simultaneously ensuring high yield for maize in China. A two-year field experiment was conducted to determine the effects of root-zone fertilization (RZF) and split-surface broadcasting (SSB) on grain yield, N use efficiency (NUE), and urea- 15 N fa...

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Published inScientific reports Vol. 8; no. 1; pp. 15139 - 9
Main Authors Jiang, Chaoqiang, Lu, Dianjun, Zu, Chaolong, Zhou, Jianmin, Wang, Huoyan
Format Journal Article
LanguageEnglish
Published London Nature Publishing Group UK 11.10.2018
Nature Publishing Group
Subjects
704/172
704/172/169
Cereal crops
Corn
Crop yield
Cropping systems
Fertilization
Grain
Humanities and Social Sciences
multidisciplinary
Nitrogen
Science
Science (multidisciplinary)
Slow release fertilizers
Turfgrasses
Urea
China
Surface Broadcast
Apparent Recovery Efficiency
Minimize Nitrogen Losses
Urea Deep Placement
Summer Maize
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Abstract It is urgently to minimize nitrogen (N) loss while simultaneously ensuring high yield for maize in China. A two-year field experiment was conducted to determine the effects of root-zone fertilization (RZF) and split-surface broadcasting (SSB) on grain yield, N use efficiency (NUE), and urea- 15 N fate under different N rates (135, 180 and 225 kg ha −1 ). Results showed that RZF increased grain yield by 11.5%, and the N derived from fertilizer (Ndff%) by 13.1–19.6%, compared with SSB. The percentage of residual 15 N in the 0–80 cm soil was 37.2–47.4% after harvest; most 15 N (64.4–67.4%) was retained in the top 20 cm. RZF significantly increased the N apparent recovery efficiency (NARE) and 15 N recovery in maize by 14.3–37.8% and 21.9–30.0%, respectively; while decreased N losses by 11.2–24.2%, compared with SSB. The RZF of urea can be considered a slow-release fertilizer, which better matches maize N demand and effectively reduces N losses. Overall, RZF achieved yields as high as the SSB, but with a 20–25% reduction in N application. These results help improve our understanding of N fate in the maize cropping system, and may help guide recommendations for N management in southeastern China.
AbstractList It is urgently to minimize nitrogen (N) loss while simultaneously ensuring high yield for maize in China. A two-year field experiment was conducted to determine the effects of root-zone fertilization (RZF) and split-surface broadcasting (SSB) on grain yield, N use efficiency (NUE), and urea- 15 N fate under different N rates (135, 180 and 225 kg ha −1 ). Results showed that RZF increased grain yield by 11.5%, and the N derived from fertilizer (Ndff%) by 13.1–19.6%, compared with SSB. The percentage of residual 15 N in the 0–80 cm soil was 37.2–47.4% after harvest; most 15 N (64.4–67.4%) was retained in the top 20 cm. RZF significantly increased the N apparent recovery efficiency (NARE) and 15 N recovery in maize by 14.3–37.8% and 21.9–30.0%, respectively; while decreased N losses by 11.2–24.2%, compared with SSB. The RZF of urea can be considered a slow-release fertilizer, which better matches maize N demand and effectively reduces N losses. Overall, RZF achieved yields as high as the SSB, but with a 20–25% reduction in N application. These results help improve our understanding of N fate in the maize cropping system, and may help guide recommendations for N management in southeastern China.
It is urgently to minimize nitrogen (N) loss while simultaneously ensuring high yield for maize in China. A two-year field experiment was conducted to determine the effects of root-zone fertilization (RZF) and split-surface broadcasting (SSB) on grain yield, N use efficiency (NUE), and urea-15N fate under different N rates (135, 180 and 225 kg ha−1). Results showed that RZF increased grain yield by 11.5%, and the N derived from fertilizer (Ndff%) by 13.1–19.6%, compared with SSB. The percentage of residual 15N in the 0–80 cm soil was 37.2–47.4% after harvest; most 15N (64.4–67.4%) was retained in the top 20 cm. RZF significantly increased the N apparent recovery efficiency (NARE) and 15N recovery in maize by 14.3–37.8% and 21.9–30.0%, respectively; while decreased N losses by 11.2–24.2%, compared with SSB. The RZF of urea can be considered a slow-release fertilizer, which better matches maize N demand and effectively reduces N losses. Overall, RZF achieved yields as high as the SSB, but with a 20–25% reduction in N application. These results help improve our understanding of N fate in the maize cropping system, and may help guide recommendations for N management in southeastern China.
It is urgently to minimize nitrogen (N) loss while simultaneously ensuring high yield for maize in China. A two-year field experiment was conducted to determine the effects of root-zone fertilization (RZF) and split-surface broadcasting (SSB) on grain yield, N use efficiency (NUE), and urea-15N fate under different N rates (135, 180 and 225 kg ha-1). Results showed that RZF increased grain yield by 11.5%, and the N derived from fertilizer (Ndff%) by 13.1-19.6%, compared with SSB. The percentage of residual 15N in the 0-80 cm soil was 37.2-47.4% after harvest; most 15N (64.4-67.4%) was retained in the top 20 cm. RZF significantly increased the N apparent recovery efficiency (NARE) and 15N recovery in maize by 14.3-37.8% and 21.9-30.0%, respectively; while decreased N losses by 11.2-24.2%, compared with SSB. The RZF of urea can be considered a slow-release fertilizer, which better matches maize N demand and effectively reduces N losses. Overall, RZF achieved yields as high as the SSB, but with a 20-25% reduction in N application. These results help improve our understanding of N fate in the maize cropping system, and may help guide recommendations for N management in southeastern China.It is urgently to minimize nitrogen (N) loss while simultaneously ensuring high yield for maize in China. A two-year field experiment was conducted to determine the effects of root-zone fertilization (RZF) and split-surface broadcasting (SSB) on grain yield, N use efficiency (NUE), and urea-15N fate under different N rates (135, 180 and 225 kg ha-1). Results showed that RZF increased grain yield by 11.5%, and the N derived from fertilizer (Ndff%) by 13.1-19.6%, compared with SSB. The percentage of residual 15N in the 0-80 cm soil was 37.2-47.4% after harvest; most 15N (64.4-67.4%) was retained in the top 20 cm. RZF significantly increased the N apparent recovery efficiency (NARE) and 15N recovery in maize by 14.3-37.8% and 21.9-30.0%, respectively; while decreased N losses by 11.2-24.2%, compared with SSB. The RZF of urea can be considered a slow-release fertilizer, which better matches maize N demand and effectively reduces N losses. Overall, RZF achieved yields as high as the SSB, but with a 20-25% reduction in N application. These results help improve our understanding of N fate in the maize cropping system, and may help guide recommendations for N management in southeastern China.
It is urgently to minimize nitrogen (N) loss while simultaneously ensuring high yield for maize in China. A two-year field experiment was conducted to determine the effects of root-zone fertilization (RZF) and split-surface broadcasting (SSB) on grain yield, N use efficiency (NUE), and urea- N fate under different N rates (135, 180 and 225 kg ha ). Results showed that RZF increased grain yield by 11.5%, and the N derived from fertilizer (Ndff%) by 13.1-19.6%, compared with SSB. The percentage of residual N in the 0-80 cm soil was 37.2-47.4% after harvest; most N (64.4-67.4%) was retained in the top 20 cm. RZF significantly increased the N apparent recovery efficiency (NARE) and N recovery in maize by 14.3-37.8% and 21.9-30.0%, respectively; while decreased N losses by 11.2-24.2%, compared with SSB. The RZF of urea can be considered a slow-release fertilizer, which better matches maize N demand and effectively reduces N losses. Overall, RZF achieved yields as high as the SSB, but with a 20-25% reduction in N application. These results help improve our understanding of N fate in the maize cropping system, and may help guide recommendations for N management in southeastern China.
ArticleNumber 15139
Author Wang, Huoyan
Jiang, Chaoqiang
Lu, Dianjun
Zhou, Jianmin
Zu, Chaolong
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  givenname: Chaoqiang
  surname: Jiang
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  organization: State Key Laboratory of Soil and Sustainable Agriculture, Institute of Soil Science, Chinese Academy of Sciences, Tobacco Research Institute/Maize Research Institute, Anhui Academy of Agricultural Sciences
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  givenname: Dianjun
  surname: Lu
  fullname: Lu, Dianjun
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  surname: Zu
  fullname: Zu, Chaolong
  organization: Tobacco Research Institute/Maize Research Institute, Anhui Academy of Agricultural Sciences
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  givenname: Jianmin
  surname: Zhou
  fullname: Zhou, Jianmin
  organization: State Key Laboratory of Soil and Sustainable Agriculture, Institute of Soil Science, Chinese Academy of Sciences
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  givenname: Huoyan
  surname: Wang
  fullname: Wang, Huoyan
  email: hywang@issas.ac.cn
  organization: State Key Laboratory of Soil and Sustainable Agriculture, Institute of Soil Science, Chinese Academy of Sciences
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Issue 1
Keywords Surface Broadcast
Apparent Recovery Efficiency
Minimize Nitrogen Losses
Urea Deep Placement
Summer Maize
Language English
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Snippet It is urgently to minimize nitrogen (N) loss while simultaneously ensuring high yield for maize in China. A two-year field experiment was conducted to...
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proquest
pubmed
crossref
springer
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StartPage 15139
SubjectTerms 704/172
704/172/169
Cereal crops
Corn
Crop yield
Cropping systems
Fertilization
Grain
Humanities and Social Sciences
multidisciplinary
Nitrogen
Science
Science (multidisciplinary)
Slow release fertilizers
Turfgrasses
Urea
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Title Root-zone fertilization improves crop yields and minimizes nitrogen loss in summer maize in China
URI https://link.springer.com/article/10.1038/s41598-018-33591-9
https://www.ncbi.nlm.nih.gov/pubmed/30310155
https://www.proquest.com/docview/2118366025
https://www.proquest.com/docview/2119919761
https://pubmed.ncbi.nlm.nih.gov/PMC6181941
Volume 8
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