Excessive nitrogen application decreases grain yield and increases nitrogen loss in a wheat–soil system |
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| Authors: | Dong Wang Zhenzhu Xu Junye Zhao Yuefu Wang |
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| Institution: | 1. Key Laboratory of Crop Physiology, Ecology and Production, Ministry of Agriculture , Shandong Agricultural University , Taian, Shandong, 271018, P.R. China;2. Key Laboratory of Crop Physiology, Ecology and Production, Ministry of Agriculture , Shandong Agricultural University , Taian, Shandong, 271018, P.R. China;3. State Key Laboratory of Vegetation and Environmental Change , Institute of Botany, Chinese Academy of Sciences , 20 Nanxincun, Xiangshan, Beijing, 100093, P.R. China;4. Institute of Agricultural Information , Chinese Academy of Agricultural Sciences , Beijing, 100081, P.R. China;5. College of Plant Science and Technology , Qingdao Agriculture University , Qingdao, Shandong, 266109, P.R. China |
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| Abstract: | Abstract Excessive use of nitrogen (N) fertilizers in wheat fields has led to elevated NO3-N concentrations in groundwater and reduced N use efficiency. Three-year field and 15N tracing experiments were conducted to investigate the effects of N application rates on N uptake from basal and topdressing 15N, N use efficiency, and grain yield in winter wheat plants; and determine the dynamics of N derived from both basal and topdressing 15N in soil in high-yielding fields. The results showed that 69.5–84.5% of N accumulated in wheat plants derived from soil, while 6.0–12.5%and 9.2–18.1% derived from basal 15N and top 15N fertilizer, respectively. The basal N fertilizer recovery averaged 33.9% in plants, residual averaged 59.2% in 0–200 cm depth soil; the topdressing N fertilizer recovery averaged 50.5% in plants, residual averaged 48.2% in 0–200 cm soil. More top 15N was accumulated in plants and more remained in 0–100 cm soil rather than in 100–200 cm soil at maturity, compared with the basal 15N. However, during the period from pre-sowing to pre-wintering, the soil nitrate moved down to deeper layers, and most accumulated in the layers below 140 cm. With an increase of N fertilizer rate, the proportion of the N derived from soil in plants decreased, but that derived from basal and topdressing fertilizer increased; the proportion of basal and top 15N recovery in plants decreased, and that of residual in soil increased. A moderate application rate of 96–168 kg N ha?1 led to increases in nitrate content in 0–60 cm soil layer, N uptake amount, grain yield and apparent recovery fraction of applied fertilizer N in wheat. Applying above 240 kg N ha?1 promoted the downward movement of basal and top 15N and soil nitrate, but had no significant effect on N uptake amount; the excessive N application also obviously decreased the grain yield, N uptake efficiency, apparent recovery fraction of applied fertilizer N, physiological efficiency and internal N use efficiency. It is suggested that the appropriate application rate of nitrogen on a high-yielding wheat field was 96–168 kg N ha?1. |
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| Keywords: | Basal and topdressing 15N highly yielding farmlands N use efficiency nitrogen uptake Soil N dynamics winter wheat |
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