Nitrogen use efficiency of flue−cured tobacco genotypes: physiological basis and relative contributions of nitrogen uptake and utilization
Weiguo Ye, Jia Lei, Xianyun Zhong, Changyue Qi, Najam-Ud- Din, Yuanyuan Wang, Huaiyuan Li, Jianjun Chen, Shiyuan Deng

TL;DR
This study identifies physiological traits linked to efficient nitrogen use in flue-cured tobacco, offering insights for breeding more nitrogen-efficient varieties.
Contribution
The study reveals specific root and metabolic traits correlated with nitrogen uptake and utilization efficiency in tobacco genotypes.
Findings
High-NUpE genotypes showed greater root biomass and nitrate flow rates compared to low-NUpE genotypes.
High-NUtE genotypes exhibited a lower respiratory rate despite lower net photosynthesis, suggesting a balance favoring NUtE.
Improving both NUpE and NUtE together could enhance yield and nitrogen use efficiency in flue-cured tobacco.
Abstract
Understanding the physiological processes that regulate nitrogen uptake efficiency (NUpE), nitrogen utilization efficiency (NUtE), and nitrogen use efficiency (NUE) in crops is essential for developing nitrogen-efficient varieties. We conducted a two−year field study (2021–2022, Shixing, southern China) comparing three flue−cured tobacco genotypes (Yunyan 87, Yueyan 97, K326) under two nitrogen application rates: traditional (150 kg ha-1) and reduced (105 kg ha-1, −30%). Across both rates, the high−NUpE genotypes (Yueyan 97, K326) showed substantially greater root biomass, length, surface area, volume, vigor, bleeding sap and nitrate flow rates, and higher activities of key N−metabolism enzymes than low−NUpE Yunyan 87. These root and physiological traits were positively correlated with nitrogen uptake efficiency, indicating that they are major correlates of NUpE and may contribute to…
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Taxonomy
TopicsPlant nutrient uptake and metabolism · Legume Nitrogen Fixing Symbiosis · Soil Carbon and Nitrogen Dynamics
