Table 1: Physico-chemical characteristics of the experimental field (0-15 cm)
Table 2: Effect of fertilizers and hybrids on zinc concentration in different plant parts of pearl millet (Pooled data)
Table 3: Effect of fertilizers and hybrids on iron concentration in different plant parts of pearl millet
Table 4: Effect of fertilizers and hybrids on nutrient concentration in pearl millet (Pooled data)
Figure 1: Effect of fertilizers and hybrids on zinc uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 2: Effect of fertilizers and hybrids on iron uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 3: Effect of fertilizers and hybrids on manganese uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 4: Effect of fertilizers and hybrids on copper uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Table 5: Effect of fertilizers and hybrids on zinc use indices of pearl millet (pooled data)
Table 6: Yield of pearl millet as influenced by fertilizers and hybrids (pooled data)
Table 1: Physico-chemical characteristics of the experimental field (0-15 cm)
Table 2: Effect of fertilizers and hybrids on zinc concentration in different plant parts of pearl millet (Pooled data)
Table 3: Effect of fertilizers and hybrids on iron concentration in different plant parts of pearl millet
Table 4: Effect of fertilizers and hybrids on nutrient concentration in pearl millet (Pooled data)
Figure 1: Effect of fertilizers and hybrids on zinc uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 2: Effect of fertilizers and hybrids on iron uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 3: Effect of fertilizers and hybrids on manganese uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 4: Effect of fertilizers and hybrids on copper uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Table 5: Effect of fertilizers and hybrids on zinc use indices of pearl millet (pooled data)
Table 6: Yield of pearl millet as influenced by fertilizers and hybrids (pooled data)
Table 1: Physico-chemical characteristics of the experimental field (0-15 cm)
Table 2: Effect of fertilizers and hybrids on zinc concentration in different plant parts of pearl millet (Pooled data)
Table 3: Effect of fertilizers and hybrids on iron concentration in different plant parts of pearl millet
Table 4: Effect of fertilizers and hybrids on nutrient concentration in pearl millet (Pooled data)
Figure 1: Effect of fertilizers and hybrids on zinc uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 2: Effect of fertilizers and hybrids on iron uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 3: Effect of fertilizers and hybrids on manganese uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 4: Effect of fertilizers and hybrids on copper uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Table 5: Effect of fertilizers and hybrids on zinc use indices of pearl millet (pooled data)
Table 6: Yield of pearl millet as influenced by fertilizers and hybrids (pooled data)
Table 1: Physico-chemical characteristics of the experimental field (0-15 cm)
Table 2: Effect of fertilizers and hybrids on zinc concentration in different plant parts of pearl millet (Pooled data)
Table 3: Effect of fertilizers and hybrids on iron concentration in different plant parts of pearl millet
Table 4: Effect of fertilizers and hybrids on nutrient concentration in pearl millet (Pooled data)
Figure 1: Effect of fertilizers and hybrids on zinc uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 2: Effect of fertilizers and hybrids on iron uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 3: Effect of fertilizers and hybrids on manganese uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 4: Effect of fertilizers and hybrids on copper uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Table 5: Effect of fertilizers and hybrids on zinc use indices of pearl millet (pooled data)
Table 6: Yield of pearl millet as influenced by fertilizers and hybrids (pooled data)
Table 1: Physico-chemical characteristics of the experimental field (0-15 cm)
Table 2: Effect of fertilizers and hybrids on zinc concentration in different plant parts of pearl millet (Pooled data)
Table 3: Effect of fertilizers and hybrids on iron concentration in different plant parts of pearl millet
Table 4: Effect of fertilizers and hybrids on nutrient concentration in pearl millet (Pooled data)
Figure 1: Effect of fertilizers and hybrids on zinc uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 2: Effect of fertilizers and hybrids on iron uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 3: Effect of fertilizers and hybrids on manganese uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 4: Effect of fertilizers and hybrids on copper uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Table 5: Effect of fertilizers and hybrids on zinc use indices of pearl millet (pooled data)
Table 6: Yield of pearl millet as influenced by fertilizers and hybrids (pooled data)
Table 1: Physico-chemical characteristics of the experimental field (0-15 cm)
Table 2: Effect of fertilizers and hybrids on zinc concentration in different plant parts of pearl millet (Pooled data)
Table 3: Effect of fertilizers and hybrids on iron concentration in different plant parts of pearl millet
Table 4: Effect of fertilizers and hybrids on nutrient concentration in pearl millet (Pooled data)
Figure 1: Effect of fertilizers and hybrids on zinc uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 2: Effect of fertilizers and hybrids on iron uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 3: Effect of fertilizers and hybrids on manganese uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 4: Effect of fertilizers and hybrids on copper uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Table 5: Effect of fertilizers and hybrids on zinc use indices of pearl millet (pooled data)
Table 6: Yield of pearl millet as influenced by fertilizers and hybrids (pooled data)
Table 1: Physico-chemical characteristics of the experimental field (0-15 cm)
Table 2: Effect of fertilizers and hybrids on zinc concentration in different plant parts of pearl millet (Pooled data)
Table 3: Effect of fertilizers and hybrids on iron concentration in different plant parts of pearl millet
Table 4: Effect of fertilizers and hybrids on nutrient concentration in pearl millet (Pooled data)
Figure 1: Effect of fertilizers and hybrids on zinc uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 2: Effect of fertilizers and hybrids on iron uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 3: Effect of fertilizers and hybrids on manganese uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 4: Effect of fertilizers and hybrids on copper uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Table 5: Effect of fertilizers and hybrids on zinc use indices of pearl millet (pooled data)
Table 6: Yield of pearl millet as influenced by fertilizers and hybrids (pooled data)
Table 1: Physico-chemical characteristics of the experimental field (0-15 cm)
Table 2: Effect of fertilizers and hybrids on zinc concentration in different plant parts of pearl millet (Pooled data)
Table 3: Effect of fertilizers and hybrids on iron concentration in different plant parts of pearl millet
Table 4: Effect of fertilizers and hybrids on nutrient concentration in pearl millet (Pooled data)
Figure 1: Effect of fertilizers and hybrids on zinc uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 2: Effect of fertilizers and hybrids on iron uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 3: Effect of fertilizers and hybrids on manganese uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 4: Effect of fertilizers and hybrids on copper uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Table 5: Effect of fertilizers and hybrids on zinc use indices of pearl millet (pooled data)
Table 6: Yield of pearl millet as influenced by fertilizers and hybrids (pooled data)
Table 1: Physico-chemical characteristics of the experimental field (0-15 cm)
Table 2: Effect of fertilizers and hybrids on zinc concentration in different plant parts of pearl millet (Pooled data)
Table 3: Effect of fertilizers and hybrids on iron concentration in different plant parts of pearl millet
Table 4: Effect of fertilizers and hybrids on nutrient concentration in pearl millet (Pooled data)
Figure 1: Effect of fertilizers and hybrids on zinc uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 2: Effect of fertilizers and hybrids on iron uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 3: Effect of fertilizers and hybrids on manganese uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 4: Effect of fertilizers and hybrids on copper uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Table 5: Effect of fertilizers and hybrids on zinc use indices of pearl millet (pooled data)
Table 6: Yield of pearl millet as influenced by fertilizers and hybrids (pooled data)
Table 1: Physico-chemical characteristics of the experimental field (0-15 cm)
Table 2: Effect of fertilizers and hybrids on zinc concentration in different plant parts of pearl millet (Pooled data)
Table 3: Effect of fertilizers and hybrids on iron concentration in different plant parts of pearl millet
Table 4: Effect of fertilizers and hybrids on nutrient concentration in pearl millet (Pooled data)
Figure 1: Effect of fertilizers and hybrids on zinc uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 2: Effect of fertilizers and hybrids on iron uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 3: Effect of fertilizers and hybrids on manganese uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Figure 4: Effect of fertilizers and hybrids on copper uptake (g ha-1) of pearl millet grain and straw. Bar show standard error of mean with LSD value at p=0.05 to determine the significance differences among the treatment mean
Table 5: Effect of fertilizers and hybrids on zinc use indices of pearl millet (pooled data)
Table 6: Yield of pearl millet as influenced by fertilizers and hybrids (pooled data)
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