Nitrogen-mediated improvement of ionic homeostasis and antioxidant capacity enhances rice yield and nitrogen use efficiency under soda saline-alkali stress
Hongyue Wang, Hange Liu, Qingyu Wang, Yang Song, Xudong Wang, Biao Sui, Feng Jin

TL;DR
Adding 275 kg of nitrogen fertilizer per hectare improves rice yield and nitrogen use efficiency in soda saline-alkali soils by balancing ions and boosting antioxidants.
Contribution
Identifies 275 kg ha−1 nitrogen as optimal for improving rice productivity and nitrogen use efficiency in soda saline-alkali soils.
Findings
Nitrogen at 275 kg ha−1 reduced leaf Na+/K+ ratio and oxidative stress markers.
Supplemental nitrogen increased K+ concentration and antioxidant enzyme activities.
Grain yields increased significantly with nitrogen application up to 275 kg ha−1.
Abstract
The unique physicochemical properties of soda saline-alkali soils significantly reduce soil nitrogen availability and crop nitrogen use efficiency. While high-yield and high-efficiency cultivation practice offer a key strategy for the synergistic improvement of both crop productivity and resource use efficiency. However, the optimal nitrogen input rate for these practices remains to be determined. Hence, a three-year field study was implemented with nitrogen fertilizer application rates ranging from 0 to 325 kg ha−1 (0, 125, 175, 225, 275, 325 kg ha−1) to assess their effects on ionic balance, stress physiology, nitrogen use efficiency, and grain yield in rice grown under soda saline-alkali soil conditions. The findings indicate that additional nitrogen fertilizer, particularly at 275 kg ha−1 within the high-yield and high-efficiency cultivation practice, significantly reduced the…
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Taxonomy
TopicsRice Cultivation and Yield Improvement · Soil Carbon and Nitrogen Dynamics · Plant nutrient uptake and metabolism
