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Fertilizer nitrogen use efficiency and its fate in the spring wheat-soil system under varying N-fertilizer rates: A two-year field study using 15N tracer

Aixia Xu, Khuram Shehzad Khan, Xuexue Wei, Yafei Chen, Yixun Zhou, Chengmin Sun, Zechariah Effah, Lingling Li

2025Soil and Tillage Research17 citationsDOIOpen Access PDF

Abstract

Wheat ( Triticum aestivum L.) is a globally significant staple crop and a primary source of food. Excessive nitrogen (N) fertilization in wheat farming systems has resulted in lower N use efficiency (NUE) in arid regions of China. We hypothesize that prolonged N fertilization alters the fate of fertilizer-derived N, thus affecting NUE. To test this hypothesis, we conducted two on-farm 15 N tracer experiments during the 2021–2022 growing seasons, within a long-term N fertilization trial on a monoculture spring wheat field. The trial included five N-fertilizer rate treatments: N1 (0 kg N ha −1 ), N2 (52.5 kg N ha −1 ), N3 (105 kg N ha −1 ), N4 (157.5 kg N ha −1 ), and N5 (210 kg N ha −1 ). The results showed that the majority of N absorbed by spring wheat was sourced from soil N, accounting for 65.90–81.45 % at maturity, while fertilizer-derived N contributed 18.55–34.10 %. The fertilizer N recovery rate (N fr ) ranged from 21.47 % to 43.98 %, the residual N in 0–100 cm soil varied between 14.32 % and 46.59 %, and the loss rate ranged from 9.43 % to 62.41 %. As N fertilizer rates increased, N fr declined, while residual and loss rates significantly increased. The optimal N fertilization rate was approximately 105 kg N ha −1 , at which we observed a high N fertilizer contribution rate (30.59 %), N fertilizer physiological efficiency of 10.28 kg kg −1 , and a soil N dependency rate of 53.97 %. These findings suggest that the balance between external N accumulation and soil N utilization is a key determinant for maintaining sustainable soil N fertility. Future research should prioritize the investigation of long-term dynamics of fertilizer NUE, with a particular emphasis on the role of nitrogen fertilizers in soil nitrogen depletion and accrual. • Soil N was the primary N source, and the proportion of N uptake from fertilizers was only 18.55–34.10 %. • Higher N-fertilizer rates enhance crop fertilizer N uptake, but inhibit soil N uptake. • 105 kg N ha −1 was the best rate for improving the N fertilizer contribution rate.

Topics & Concepts

FertilizerTRACERAgronomySpring (device)NitrogenField (mathematics)Environmental scienceNitrogen fertilizerField experimentMathematicsChemistryBiologyEngineeringPhysicsNuclear physicsPure mathematicsOrganic chemistryMechanical engineeringPlant nutrient uptake and metabolismSoil Carbon and Nitrogen DynamicsPhosphorus and nutrient management
Fertilizer nitrogen use efficiency and its fate in the spring wheat-soil system under varying N-fertilizer rates: A two-year field study using 15N tracer | Litcius