Polymer-coated urea effects on yield and gaseous loss of nitrogen for planting Chinese cabbage.
Lian Xie, Yifei Du, Li Tang, Xujiao He, Wei Ming, Xiangmin Rong, Yong Xie
Abstract
Open AccessThe overuse of nitrogen fertilizer in Chinese vegetable fields, while boosting yield, is a major source of environmental pollution, particularly through N2O and NH3 emissions. Optimizing nitrogen management is therefore crucial for reconciling productivity with environmental sustainability. Here, we assessed whether polymer-coated urea (PCU) with reduced application rates could sustain yield while minimizing environmental costs in Chinese cabbage production. Compared to conventional urea (260 kg N ha ⁻ ¹), PCU applications reduced by 0-20% increased nitrogen use efficiency by 47.7-49.9% and did not affect yield, whereas a 30% reduction caused significant yield loss. These PCU treatments also significantly reduced cumulative N2O and NH3 emissions by 43.5-52.7% and 20.7-40.9%, respectively. We therefore recommend a 20% reduction in PCU-N application as the optimal management strategy for sustainable Chinese cabbage production, ensuring high yield with minimal environmental impact.