Objectives Maize production heavily relies on fertilization in infertile farmland. We explored the effects of organic fertilization methods on reducing N₂O emissions and maintaining crop yield, with a view to provide a theoretical basis for optimizing nitrogen management in infertile farmland.

Methods The study was carried on the field of a 15-year-long localization experiment, which included a total of four treatments: no fertilization control (CK); conventional chemical fertilization (NPK); organic fertilizer plus NPK (MNPK), and 50% chemical fertilizer+ 50% organic fertilizer (RMN). The cumulative soil N₂O emission fluxes were monitored from May to October 2023 using static chamber-gas chromatography, and the maize yields were recorded at harvest.

Results The organic fertilizer treatments MNPK and RMN increased maize yield by 95% to 103%, compared to CK (P<0.05). Throughout the monitoring cycle, the soil N₂O emissions in all the three fertilizer treatments turned in an overall “pulsed” patterns. The maximum emission peaks in treatment MNPK, NPK, and RMN were 4.71±0.68, 3.29±0.62, and 1.71±0.15 µg/(m²·min), respectively. The soil maximum emission peak and cumulative N₂O emission in MNPK treatment were 43.00% and 64.65% higher than in NPK treatment, while those in RMN treatment were 48% and 26.22% lower (P<0.05). Soil N₂O emission fluxes showed extremely significant and positive correlations with soil NH₄⁺-N, total N, and volumetric water content (P<0.01), and significant and positive correlation with soil organic carbon and soil temperature (P<0.05). The average net greenhouse effect (GHG) emissions under the NPK treatment were CO₂-eq 361 kg/(hm²·a), showing a net GHG “source”. Compared to NPK treatment, MNPK and RMN treatment decreased the greenhouse gas emission intensity (GHGI) by 572% and 655%, and reduced the net GHG emissions by 668% and 737%, showing a net GHG “sink”. And MNPK and RMN treatments were calculated similar GHGI and net GHG.

Conclusions The use of organic fertilizer can effectively reduce soil N₂O emissions in infertile farmland, lower the net GHG, and increase maize yield significantly. Under the experimental condition, replacing 50% chemical fertilizer with organic fertilizer is recommended as the more satisfactory reduction effect of N₂O emission and increase maize yield.