Abstract
Excessive nitrogen (N) fertilizer input has become a common phenomenon among most farmers in the winter wheat–summer maize rotation system of north-central China, and has resulted in low nutrient use efficiency and environmental pollution. Controlled-release urea (CRU) is proposed as a solution to excessive fertilization because CRU achieves high yields and reduces N losses. Therefore, CRU mixed with normal urea at rates based on the Nutrient Expert (NE) system was used as fertilizer in a 4-year field experiment to test the preference in crop yields, economic benefits, nitrogen use efficiencies, and N losses. The following fertilizer treatments were established: local farmers’ practices (FP); normal urea fertilizer at the rate recommended by the NE system (NE); mixed CRU and normal urea at ratios of 60:40 (CRU1) and 75:25 (CRU2) based on the NE system; and 80% of the recommended N rate of the NE, CRU1 and CRU2 treatments (80%NE, 80%CRU1 and 80%CRU2). The results showed that, compared with the NE treatment at the same application rate of N, mixed CRU and urea increased yields and net benefits while reducing N loss. The application of CRU at 60% for maize and 75% for wheat had the best overall effects. Compared with FP, the average grain yield, recovery efficiency of N fertilizer and net benefits increased by 8.5%, 10.9% and 11.3%, respectively, for maize with CRU1, and increased by 4.5%, 15.1% and 10.3%, respectively, for wheat with CRU2. Furthermore, mixed CRU and urea at the recommended N rate significantly reduced N loss from 38.5% to 40.3% but increased soil NO3−-N and NH4+-N contents at 0–30 cm, although opposite results (NO3−-N) were observed deeper in the soil (30–90 cm). In the treatments 80%CRU1 and 80%CRU2, the maize yield and overall economic benefits were equivalent to those in the FP treatment, but apparent N loss was significantly reduced. Thus, these results confirmed that the combination of the CRU and the NE system for winter wheat–summer maize in north-central China is efficient and valuable, and has the potential to improve yield, nitrogen use efficiency and net benefit with low N losses.
Highlights
The winter wheat–summer maize rotation is one of the most important cropping systems on the North China Plain, providing more than 52.4% of wheat and 32.1% of maize production on 25.1% of the cultivated land in China [1]
Compared with farmers’ practices (FP), the average maize yield increased by 3.3% with normal urea when adopting the Nutrient Expert (NE) system, with the increase ranging from 1.1% in 2016 to 4.6% in 2017, whereas the average yield increased by 8.7% in CRU1, with the increase ranging from 5.3% in 2016 to 11.7% in 2018, and by 5.4% in CRU2, with the increase ranging from 4.3% in 2016 to 6.4% in 2018
The maize yield increased by 5.3% in CRU1 and by 2.0% in CRU2 compared with that in NE at the same N rate
Summary
The winter wheat–summer maize rotation is one of the most important cropping systems on the North China Plain, providing more than 52.4% of wheat and 32.1% of maize production on 25.1% of the cultivated land in China [1]. Excessive fertilization is a prominent problem in the region. Driven by the desire for high yields to attain high economic return, most farmers are willing to invest in fertilizer, but tend to ignore the environmental pollution resulting from fertilizer loss, that caused by nitrogen (N). According to farmers’ practices, the average chemical N input in intensive wheat– maize systems can exceed 500 kg ha−1 y−1 [2,3,4], but for most farmers, the high N input results in N recovery efficiency that is usually less than 25% [3,5]. The N losses cause environmental problems such as pollution of surface and groundwater, and emissions of greenhouse gases [6,7]. Immediate measures are urgently needed to increase nutrient use efficiency, reduce waste of resources and protect the environment
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