Table 1.
Physiochemical characteristics of experimental soil before initiating the experiment during both years of study.
Fig 1.
The impact of different nitrogen fertilizer application methods on leaf area index of transplanted fine rice during 2018 (A) and 2019 (B) the vertical bars represent standard errors of means (n = 4).
Fig 2.
The impact of different nitrogen fertilizer application methods on crop growth rate of transplanted fine rice during 2018 (A) and 2019 (B) the vertical bars represent standard errors of means (n = 4).
Fig 3.
The impact of different nitrogen fertilizer application methods on net assimilation rate of transplanted fine rice during 2018 (A) and 2019 (B) the vertical bars represent standard errors of means (n = 4).
Table 2.
The impact of different nitrogen fertilizer application methods on growth and yield-related traits of transplanted fine rice.
Table 3.
The impact of nitrogen fertilizer application methods on nitrogen uptake, chlorophyll contents, photosynthesis rate, agronomic N use efficiency (ANUE), and partial factors productivity of applied N (PFP) of transplanted fine rice.
Table 4.
The impact of nitrogen fertilizer application methods on yield and economic returns of transplanted fine rice.