Optimization of plant density and nitrogen regimes to mitigate lodging risk in wheat

Influences of planting density and nitrogen rate have been investigated frequently in targeted wheat ( Triticum aestivum L.) research. Few studies have investigated interactions between these inputs. The objective was to determine the combine effect of N and seeding rates on culm morph‐physiological traits for lodging tolerance and grain yield. The experiment used a split‐split randomized block design using two wheat varieties ‘AnNong0711’ and ‘YanNong19’, split by four seeding (180, 240, 300, and 375 × 10 4  ha −1 ) and four N rates (0, 180, 240, and 300 kg ha −1 ). Lodging traits of plant height, culm height center of gravity, and internode length, increased ( p  < .05) however, stem diameter, wall thickness, and stem breaking strength decreased with increasing N and seeding rate. Stem breaking strength was negatively correlated with culm height center of gravity ( r  = −.869, p = .01), internode length ( r  = −.872, p  < .01), and lignin ( r  = −.746, p  < .01) but positively correlated with internode diameter ( r  = .715, p  < .05) and wall thickness ( r  = .696, p  < .05). Culm lodging index and cellulose showed positive correlation ( r = .807 and .913 respectively) with lignin. Compared to YanNong19, AnNong0711 showed higher grain yield and culm lodging index of 9 and 20.49%, respectively. For improved grain yield, 180 plants m −2 was optimal in surface combinations with 210 kg N ha −1 for AnNong0711 and 200 kg N ha −1 for YanNong19. These combinations of seeding and N rates could successfully mitigate lodging and improve grain yield.