Abstract
Maximizing grain yields with effective fertilization technologies and minimizing nitrogen losses is essential in agroecosystems. In this research, we conducted a two-year field experiment to explore whether dripline spacing and fertilization rate would affect maize grain yield. Two dripline spacings (i.e., one drip line per row of maize with a row space of 60 cm and one drip line per two rows of maize) and two fertilization rates (i.e., high fertilization level: N, 180 kg ha−1; P2O5, 90 kg ha−1; and K2O, 90 kg ha−1 and low level: N, 139.5 kg ha−1; P2O5, 76.5 kg ha−1; and K2O, 76.5 kg ha−1) were employed in this research. The results showed that maize yield was significantly affected by both dripline spacing and fertilization rate. The maize yield was 10.2% higher in the treatment with one drip line per two rows than that in the treatment with one drip line per row. Maize yield increased by 10.9% at the high fertilization level compared to that at the low fertilization level. The quantity of cumulative ammonia volatilization was reduced by 15.1% with one drip line per two rows compared to that with one drip line per row, whereas it increased by 26.9% at the high fertilization level compared with that at the low fertilization level. These results indicated that one drip line per two rows with a high fertilization rate increased the yield and could reduce the environmental burden, which may be economically beneficial and environmentally sound for maize fertigation for green agricultural development.
Highlights
Maximizing grain yields with effective fertilization technologies and minimizing nitrogen losses is essential in agroecosystems
analysis of variance (ANOVA) showed that the impact of dripline spacing on grain yields (GYs) in 2017 was significant (P < 0.01), with GY being 12.5% greater in the treatment with one drip line per two rows than in the treatment with one drip line per row (Table 4)
The results of this study indicated that maize yield was significantly (P < 0.05) affected by both dripline spacing and fertilization rate
Summary
Maximizing grain yields with effective fertilization technologies and minimizing nitrogen losses is essential in agroecosystems. The quantity of cumulative ammonia volatilization was reduced by 15.1% with one drip line per two rows compared to that with one drip line per row, whereas it increased by 26.9% at the high fertilization level compared with that at the low fertilization level. To achieve high crop production and sustainable agricultural development, it is necessary to compare the effects of different dripline spacings and fertilization rates on maize yield. Few measurements of ammonia volatilization under drip fertigation from applied fertilizer in northern China have been reported, and ammonia loss under different dripline spacings and fertilization rates has not yet been evaluated in this region
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