Litcius/Paper detail

Cotton N rate could be reduced further under the planting model of late sowing and high-density in the Yangtze River valley

Xinghu Song, Ying Huang, Yuan Yuan, Atta Tung SHAHBAZ, Biangkham Souliyanonh, Guozheng Yang

2020Journal of Cotton Research13 citationsDOIOpen Access PDF

Abstract

Abstract Background An optimal N rate is one of the basic determinants for high cotton yield. The purpose of this study was to determine the optimal N rate on a new cotton cropping pattern with late-sowing, high density and one-time fertilization at the first flower period in Yangtze River Valley, China. A 2-year experiment was conducted in 2015 and 2016 with a randomized complete block design. The cotton growth process, yield, and biomass accumulation were examined. Results The results showed that N rates had no effect on cotton growing progress or periods. Cotton yield was increased with N rates increasing from 120 to 180 kg·hm −2 , while the yield was not increased when the N rate was beyond 180 kg·hm −2 , or even decreased (9∼29%). Cotton had the highest biomass at the N rate of 180 kg·hm −2 is due to its highest accumulation speed during the fast accumulation period. Conclusions The result suggests that the N rate for cotton could be reduced further to be 180 kg·hm − 2 under the new cropping pattern in the Yangtze River Valley, China.

Topics & Concepts

SowingYangtze riverRandomized block designHuman fertilizationYield (engineering)AgronomyBiomass (ecology)CroppingMathematicsAnimal scienceChinaEnvironmental scienceBiologyAgricultureGeographyEcologyMaterials scienceArchaeologyMetallurgyResearch in Cotton CultivationAeolian processes and effectsAgroforestry and silvopastoral systems