Effects of Long-Term Fertilization Regimes on Crop Yield Stability and Grain Quality in Maize and Winter Wheat Rotation of Northern China
Wenjuan Cheng, Wei Gao, Mingyue Li, Hui Xiao, Juan Li, Qiang ZhangThe long-term effects of organic and inorganic fertilizer application on crop yield stability and grain quality were investigated in a maize–winter wheat rotation system in Tianjin, northern China, based on a continuous field experiment initiated in 1979. Forty-five years of data (1979–2023) were analyzed across six fertilizer treatments: an unfertilized control (CK); nitrogen only (N); nitrogen + phosphorus (NP); nitrogen + phosphorus + potassium (NPK); farmyard manure only (M); and nitrogen combined with high-rate manure (NM). The results indicated that the NM treatment yielded the highest crop productivity for both maize and winter wheat, with grain yields increasing by 81.6% and 162.6%, respectively, relative to the N treatment. Manure application significantly improved yield stability: the coefficient of variation (CV) of the winter wheat grain yield was the lowest under the M treatment, whereas maize grain yield exhibited the highest stability under the NM treatment. Grain quality analyses revealed that the N treatment significantly increased the wet gluten and protein content in winter wheat grain by 40.43% and 13.6%, respectively, relative to CK; the sedimentation value followed a similar trend. However, starch content remained statistically unchanged across all treatments. Collectively, the long-term combined application of nitrogen fertilizer and manure can steadily increase crop yield, mitigate inter-annual yield variability, and have no adverse effects on grain quality. These findings indicate that integrated N + manure fertilization is a more robust and sustainable alternative to sole chemical or sole organic fertilization for achieving high, stable yields and maintaining grain quality in intensive cereal production systems.