Table 1: Initial soil physico-chemical properties of the experimental field (0-20 cm soil)
Table 2: Effect of crop establishment methods, hybrids and integrated nitrogen management on growth parameters of rice (Pooled data of 2 years)
Table 3: Effect of crop establishment methods, hybrids and nitrogen management on yield characters and yield of rice (Pooled data of 2 years)
Figure 1: Relationship between filled grain panicle-1, unfilled grain panicle-1 and grain yield of rice. Positive correlations are represented by closed symbol and negative correlations are represented by open symbols (Mean data of two years)
Figure 2: Relationship between number of panicles m-2, sterility (%) and grain yield of rice. Positive correlations are represented by closed symbol and negative correlations are represented by open symbols (Mean data of two years)
Table 4: Effect of crop establishment methods, hybrids and nitrogen management on nutrient content in rice (Pooled data of 2 years)
Table 5: Effect of crop establishment methods, hybrids and integrated nitrogen management on nutrient uptake and nutrient harvest index of rice (Pooled data of 2 years)
Figure 3 (a,b,c): Relationship between NPK uptake and grain yield of rice grown under normal transplanting (NT) versus SRI (Poly: polynomial regression line)
Table 1: Initial soil physico-chemical properties of the experimental field (0-20 cm soil)
Table 2: Effect of crop establishment methods, hybrids and integrated nitrogen management on growth parameters of rice (Pooled data of 2 years)
Table 3: Effect of crop establishment methods, hybrids and nitrogen management on yield characters and yield of rice (Pooled data of 2 years)
Figure 1: Relationship between filled grain panicle-1, unfilled grain panicle-1 and grain yield of rice. Positive correlations are represented by closed symbol and negative correlations are represented by open symbols (Mean data of two years)
Figure 2: Relationship between number of panicles m-2, sterility (%) and grain yield of rice. Positive correlations are represented by closed symbol and negative correlations are represented by open symbols (Mean data of two years)
Table 4: Effect of crop establishment methods, hybrids and nitrogen management on nutrient content in rice (Pooled data of 2 years)
Table 5: Effect of crop establishment methods, hybrids and integrated nitrogen management on nutrient uptake and nutrient harvest index of rice (Pooled data of 2 years)
Figure 3 (a,b,c): Relationship between NPK uptake and grain yield of rice grown under normal transplanting (NT) versus SRI (Poly: polynomial regression line)
Table 1: Initial soil physico-chemical properties of the experimental field (0-20 cm soil)
Table 2: Effect of crop establishment methods, hybrids and integrated nitrogen management on growth parameters of rice (Pooled data of 2 years)
Table 3: Effect of crop establishment methods, hybrids and nitrogen management on yield characters and yield of rice (Pooled data of 2 years)
Figure 1: Relationship between filled grain panicle-1, unfilled grain panicle-1 and grain yield of rice. Positive correlations are represented by closed symbol and negative correlations are represented by open symbols (Mean data of two years)
Figure 2: Relationship between number of panicles m-2, sterility (%) and grain yield of rice. Positive correlations are represented by closed symbol and negative correlations are represented by open symbols (Mean data of two years)
Table 4: Effect of crop establishment methods, hybrids and nitrogen management on nutrient content in rice (Pooled data of 2 years)
Table 5: Effect of crop establishment methods, hybrids and integrated nitrogen management on nutrient uptake and nutrient harvest index of rice (Pooled data of 2 years)
Figure 3 (a,b,c): Relationship between NPK uptake and grain yield of rice grown under normal transplanting (NT) versus SRI (Poly: polynomial regression line)
Table 1: Initial soil physico-chemical properties of the experimental field (0-20 cm soil)
Table 2: Effect of crop establishment methods, hybrids and integrated nitrogen management on growth parameters of rice (Pooled data of 2 years)
Table 3: Effect of crop establishment methods, hybrids and nitrogen management on yield characters and yield of rice (Pooled data of 2 years)
Figure 1: Relationship between filled grain panicle-1, unfilled grain panicle-1 and grain yield of rice. Positive correlations are represented by closed symbol and negative correlations are represented by open symbols (Mean data of two years)
Figure 2: Relationship between number of panicles m-2, sterility (%) and grain yield of rice. Positive correlations are represented by closed symbol and negative correlations are represented by open symbols (Mean data of two years)
Table 4: Effect of crop establishment methods, hybrids and nitrogen management on nutrient content in rice (Pooled data of 2 years)
Table 5: Effect of crop establishment methods, hybrids and integrated nitrogen management on nutrient uptake and nutrient harvest index of rice (Pooled data of 2 years)
Figure 3 (a,b,c): Relationship between NPK uptake and grain yield of rice grown under normal transplanting (NT) versus SRI (Poly: polynomial regression line)
Table 1: Initial soil physico-chemical properties of the experimental field (0-20 cm soil)
Table 2: Effect of crop establishment methods, hybrids and integrated nitrogen management on growth parameters of rice (Pooled data of 2 years)
Table 3: Effect of crop establishment methods, hybrids and nitrogen management on yield characters and yield of rice (Pooled data of 2 years)
Figure 1: Relationship between filled grain panicle-1, unfilled grain panicle-1 and grain yield of rice. Positive correlations are represented by closed symbol and negative correlations are represented by open symbols (Mean data of two years)
Figure 2: Relationship between number of panicles m-2, sterility (%) and grain yield of rice. Positive correlations are represented by closed symbol and negative correlations are represented by open symbols (Mean data of two years)
Table 4: Effect of crop establishment methods, hybrids and nitrogen management on nutrient content in rice (Pooled data of 2 years)
Table 5: Effect of crop establishment methods, hybrids and integrated nitrogen management on nutrient uptake and nutrient harvest index of rice (Pooled data of 2 years)
Figure 3 (a,b,c): Relationship between NPK uptake and grain yield of rice grown under normal transplanting (NT) versus SRI (Poly: polynomial regression line)
Table 1: Initial soil physico-chemical properties of the experimental field (0-20 cm soil)
Table 2: Effect of crop establishment methods, hybrids and integrated nitrogen management on growth parameters of rice (Pooled data of 2 years)
Table 3: Effect of crop establishment methods, hybrids and nitrogen management on yield characters and yield of rice (Pooled data of 2 years)
Figure 1: Relationship between filled grain panicle-1, unfilled grain panicle-1 and grain yield of rice. Positive correlations are represented by closed symbol and negative correlations are represented by open symbols (Mean data of two years)
Figure 2: Relationship between number of panicles m-2, sterility (%) and grain yield of rice. Positive correlations are represented by closed symbol and negative correlations are represented by open symbols (Mean data of two years)
Table 4: Effect of crop establishment methods, hybrids and nitrogen management on nutrient content in rice (Pooled data of 2 years)
Table 5: Effect of crop establishment methods, hybrids and integrated nitrogen management on nutrient uptake and nutrient harvest index of rice (Pooled data of 2 years)
Figure 3 (a,b,c): Relationship between NPK uptake and grain yield of rice grown under normal transplanting (NT) versus SRI (Poly: polynomial regression line)
Table 1: Initial soil physico-chemical properties of the experimental field (0-20 cm soil)
Table 2: Effect of crop establishment methods, hybrids and integrated nitrogen management on growth parameters of rice (Pooled data of 2 years)
Table 3: Effect of crop establishment methods, hybrids and nitrogen management on yield characters and yield of rice (Pooled data of 2 years)
Figure 1: Relationship between filled grain panicle-1, unfilled grain panicle-1 and grain yield of rice. Positive correlations are represented by closed symbol and negative correlations are represented by open symbols (Mean data of two years)
Figure 2: Relationship between number of panicles m-2, sterility (%) and grain yield of rice. Positive correlations are represented by closed symbol and negative correlations are represented by open symbols (Mean data of two years)
Table 4: Effect of crop establishment methods, hybrids and nitrogen management on nutrient content in rice (Pooled data of 2 years)
Table 5: Effect of crop establishment methods, hybrids and integrated nitrogen management on nutrient uptake and nutrient harvest index of rice (Pooled data of 2 years)
Figure 3 (a,b,c): Relationship between NPK uptake and grain yield of rice grown under normal transplanting (NT) versus SRI (Poly: polynomial regression line)
Table 1: Initial soil physico-chemical properties of the experimental field (0-20 cm soil)
Table 2: Effect of crop establishment methods, hybrids and integrated nitrogen management on growth parameters of rice (Pooled data of 2 years)
Table 3: Effect of crop establishment methods, hybrids and nitrogen management on yield characters and yield of rice (Pooled data of 2 years)
Figure 1: Relationship between filled grain panicle-1, unfilled grain panicle-1 and grain yield of rice. Positive correlations are represented by closed symbol and negative correlations are represented by open symbols (Mean data of two years)
Figure 2: Relationship between number of panicles m-2, sterility (%) and grain yield of rice. Positive correlations are represented by closed symbol and negative correlations are represented by open symbols (Mean data of two years)
Table 4: Effect of crop establishment methods, hybrids and nitrogen management on nutrient content in rice (Pooled data of 2 years)
Table 5: Effect of crop establishment methods, hybrids and integrated nitrogen management on nutrient uptake and nutrient harvest index of rice (Pooled data of 2 years)
Figure 3 (a,b,c): Relationship between NPK uptake and grain yield of rice grown under normal transplanting (NT) versus SRI (Poly: polynomial regression line)
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