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Position: Home > Articles > Local nitrogen application increases maize post-silking nitrogen uptake of responsive genotypes via enhanced deep root growth Journal of Integrative Agriculture 2023,22 (1)

Local nitrogen application increases maize post-silking nitrogen uptake of responsive genotypes via enhanced deep root growth

作者：

Chen, Zhe;Ren, Wei;Yi, Xia;Li, Qiang;Cai, Hong-guang;Farhan, Ali;Yuan, Li-xing;Mi, Guo-hua;Pan, Qing-chun;Chen, Fan-jun

单位：

China Agr Univ, Natl Acad Agr Green Dev, Coll Resources & Environm Sci, Key Lab Plant Soil Interact,Minist Educ, Beijing 100193, Peoples R China;Cereal Crops Res Inst, Pirsabak Nowshera 24110, Pakistan;China Agr Univ, Sanya Inst, Sanya 572025, Peoples R China;Jilin Acad Agr Sci, Inst Agr Resource & Environm, Changchun 130033, Peoples R China

关键词：

genotypic difference;local nitrogen;maize;nitrogen efficient;root

摘要：

Nitrogen (N) is unevenly distributed throughout the soil and plant roots proliferate in N-rich soil patches. However, the relationship between the root response to localized N supply and maize N uptake efficiency among different genotypes is unclear. In this study, four maize varieties were evaluated to explore genotypic differences in the root response to local N application in relation to N uptake. A split-root system was established for hydroponically-grown plants and two methods of local N application (local banding and local dotting) were examined in the field. Genotypic differences in the root length response to N were highly correlated between the hydroponic and field conditions (r>0.99). Genotypes showing high response to N, ZD958, XY335 and XF32D22, showed 50-63% longer lateral root length and 36-53% greater root biomass in N-rich regions under hydroponic conditions, while the LY13 genotype did not respond to N. Under field conditions, the root length of the high-response genotypes was found to increase by 66-75% at 40-60 cm soil depth, while LY13 showed smaller changes in root length. In addition, local N application increased N uptake at the post-silking stage by 16-88% in the high-response genotypes and increased the grain yield of ZD958 by 10-12%. Moreover, yield was positively correlated with root length at 40-60 cm soil depth (r=0.39). We conclude that local fertilization should be used for high-response genotypes, which can be rapidly identified at the seedling stage, and selection for "local-N responsive roots" can be a promising trait in maize breeding for high nitrogen uptake efficiency.

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Local nitrogen application increases maize post-silking nitrogen uptake of responsive genotypes via enhanced deep root growth

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