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Effects of Nitrogen Fertilizer Reduction Combined with Foliar Fertilizer Application on the Physiological Characteristics and Yield of High-Quality Japonica Rice
High-quality japonica rice, distinguished by its unique flavor and enriched nutritional value, has attracted significant attention across Asia. The over-application of nitrogen (N) fertilizers, however, is a growing concern, threatening both the rice quality and the environmental sustainability of i...
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Published in: | International journal of plant production 2024-06, Vol.18 (2), p.239-254 |
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Main Authors: | , , , , , , , , , , , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites |
Online Access: | Get full text |
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Summary: | High-quality japonica rice, distinguished by its unique flavor and enriched nutritional value, has attracted significant attention across Asia. The over-application of nitrogen (N) fertilizers, however, is a growing concern, threatening both the rice quality and the environmental sustainability of its production. This situation calls for a reevaluation and modification of traditional agricultural practices. Our study investigates the effects of reduced N fertilizer use, complemented by foliar fertilizer application, on the physiological attributes and yield of high-quality japonica rice. The aim is to achieve efficient N use and enhanced crop productivity. The experiment employed ‘Sujing 1180’, a high-quality japonica rice cultivar, utilizing urea as the N source and a comprehensive macronutrient-rich water-soluble fertilizer for foliar application. Five treatments were established: conventional N application (270 kg ha
− 1
, N
100
), 10% N reduction (N
90
), 10% N reduction with foliar application (N
90
+ FF), 20% N reduction (N
80
), and 20% N reduction with foliar application (N
80
+ FF). These treatments were meticulously examined throughout various growth stages. Photosynthetic parameter analysis indicated that N
90
+ FF significantly boosted the net photosynthetic rate during the heading stage. N
80
+ FF maintained higher stomatal conductance at the maturity stage, suggesting that foliar fertilizer is effective in enhancing photosynthetic efficiency and stomatal conductance. In terms of N metabolism, N
90
+ FF notably increased the accumulation of nitrate N during the jointing stage, surpassing other treatments. While N
90
and N
80
showed reductions in both nitrate and ammonium N levels compared to N
100
, N
90
+ FF was particularly effective in elevating nitrate and ammonium N as well as free amino acid concentrations. Regarding N fertilizer efficiency, N
90
+ FF surpassed N
100
across several critical parameters, specifically total N absorption, N recovery efficiency, N agronomic efficiency, and N physiological efficiency. Significantly, N
90
+ FF showed marked improvements in both N agronomic efficiency and N partial factor productivity. In examining yield and its components, the N
90
+ FF treatment achieved a higher yield of 9872.48 kg ha
− 1
, surpassing the 9383.75 kg ha
− 1
of N
100
. N
90
+ FF had better results in seed-setting rate and average grain number per panicle, with its 1000-grain weight similar to that of N
100
. The N
90 |
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ISSN: | 1735-6814 1735-8043 |
DOI: | 10.1007/s42106-024-00287-2 |