期刊
AGRONOMY-BASEL
卷 13, 期 1, 页码 -出版社
MDPI
DOI: 10.3390/agronomy13010263
关键词
brown coal; N-15 isotope; N fates; N recovery efficiency; N loss rate
The use of brown coal (BC) can increase crop yield and nitrogen (N) fertilizer recovery efficiency. However, the impact of BC application on the utilization and distribution of exogenous N in the soil-plant system under different fertilization strategies is still unclear.
The problems of high nitrogen (N) fertilizer application rate and low N utilization efficiency are common worldwide in vegetable plantations. Application of brown coal (BC, also known as lignite) can increase crop yield and fertilizer N recovery efficiency (NRE). However, the effect of BC application on the utilization and distribution of exogenous N in the soil-plant system under different fertilization strategies is unclear. The pot experiment was set up in three factors of randomized design, including N-15-labeled urea fertilizer, BC, and organic manure, and pakchoi was used as the test crop. There were five rates of N-15-labeled urea, including 0, 100, 200, 300, and 400 kg N ha(-1), two rates of BC with 5 and 0 t ha(-1), and the organic manure with 0 t ha(-1) which constitutes ten treatments. The other four treatments were the combination of one N-15-labeled urea rate of 100 kg N ha(-1), two rates of BC with 5 and 0 t ha(-1), and two rates of organic manure with 100 and 0 kg N ha(-1). In conclusion, the interaction of all N fertilizer rates combined with BC improved soil N-15 retention efficiency by 10.14% compared without BC amendment. Between 200 and 300 kg N ha(-1), the average potential loss rate of N-15 decreased by 10.41%. The application of BC could reduce N loss by enhancing plant N uptake and increasing soil retention. The combined use of 200 kg N ha(-1) fertilizer and 5 t ha(-1) of BC would maintain a high fertilizer NRE and ensure pakchoi yield.
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