Concurrent Improvement in Maize Yield and Nitrogen Use Efficiency with Integrated Agronomic Management Strategies

Abstract

Low nitrogen use efficiency (NUE) and productivity with excessive use of N fertilizer in maize (Zea mays L.) is a common issue for smallholder farm systems. A 2‐yr field study was conducted to assess the impacts of integrated agronomic management strategies (MT) on pre‐ and post‐silking N uptake, dry matter (DM) production dynamics, and their relationships to yield and NUE components. Three MTs were compared with the regional conventional farming practices (FP). We found that biomass yields differed significantly with similar harvest index (HI) among the MT treatments. While OPT‐1 produced 21% greater DM but only 4% greater grain yield, OPT‐2 had 27% higher yield, and 200% greater NUE, compared to FP. Our results showed the possibility of simultaneously achieving high yield and high NUE with optimized MT. In OPT‐2, 13% greater DM production and 12% more N uptake after anthesis contributed 5% more to grain yield and 18% more to grain N. In HY, excessive N input did not improve the stay‐green trait nor did it enhance grain yield. These results imply a better balance between improving total biomass and achieving more DM accumulation in the post‐silking period with gradually optimized agronomic management practices than other MT. The enhanced NUE observed in OPT‐2 primarily originated from the improved N recovery efficiency, which was associated with larger root biomass at silking and greater post‐silking N uptake. Further NUE improvement in maize could be anticipated through enhanced N internal efficiency by balancing DM and N accumulation between vegetative and reproductive periods.