Litcius/Paper detail

Potassium Increases Nitrogen and Potassium Utilization Efficiency and Yield in Foxtail Millet

Meiqiang Yin, Yanfen Li, Qilin Hu, Xiangjun Yu, Mingjing Huang, Juan Zhao, Shuqi Dong, Xiangyang Yuan, Yinyuan Wen

2023Agronomy16 citationsDOIOpen Access PDF

Abstract

Field experiments were conducted to investigate the effects of K application on the nitrogen and potassium utilization efficiency and yield of foxtail millet (Setaria italica L.). The experiment was performed with a completely randomized design with two millet cultivars (Jingu 21 and Zhangza 10) and five K2O rates (0, 60, 120, 180, and 240 kg/hm2) in 2020 and 2021. We found that K promoted K and N absorption; significantly increased dry matter (DM), N, and K accumulation in millet organs; caused dry matter accumulation to peak earlier; and increased the DM accumulation rate. In addition, K accumulation preceded that of DM or N. Relative to the crop cycle, most K (61.07%) accumulated at booting, whereas N accumulated mostly (33.86%) during grain filling. N absorption efficiency increased by 31.87%, and the apparent and agronomic utilization rate of K fertilizer remained high, increasing millet yield, which peaked at a K rate of 180 kg/hm2 for both cultivars, by 29.91% and 31.51% in Jingu 21 and Zhangza 10, respectively, relative to untreated controls. Stepwise regression and path analysis showed that the leaf and spike K accumulation, stem N accumulation, and stem DM were the main factors affecting yield, with DM having the greatest direct effect, followed by leaf K accumulation. The K concentration (0.77–3.04%) in Zhangza 10 was higher than that in Jingu 21 (0.69–2.91%) in untreated plants. Under the same K application rate, N and K accumulation and the harvest index were higher for Zhangza 10 than those for Jingu 21, and the nutrient utilization ability was greater for Zhangza 10. The results demonstrated that rational K fertilizer application can increase K concentration and accumulation in leaves, promote N metabolism and accumulation, increase N and K utilization efficiency, and improve DM accumulation and millet yield.

Topics & Concepts

SetariaDry matterPotassiumFoxtailNitrogenCultivarAgronomyChemistryYield (engineering)Animal scienceField experimentBiologyHorticultureMaterials scienceMetallurgyOrganic chemistryCrop Yield and Soil FertilityRice Cultivation and Yield ImprovementPlant nutrient uptake and metabolism