Table 1: Effect of soil application of silicon under alkalinity levels on shoot and root length and chlorophyll
Figure 1: Percent change in shoot and root growth and chlorophyll content of maize due to alkalinity levels and silicon fertilization
Table 2: Effect of soil application of silicon under alkalinity levels on maize photosynthetic rate, stomatal conductance and transpiration rate
Figure 2: Percent change due to alkalinity levels and silicon fertilization on photosynthetic rate (PR), stomatal conductance (SC) and transpiration rate (TR) of maize
Figure 3: Effect of levels of alkali stress and interlinear relationship on a) Photosynthetic rate; b) Stomatal conductance and c) Transpiration rate
Table 3: Effect of soil application of silicon under alkalinity levels on maize photosynthetic rate, stomatal conductance and transpiration rate
Table 4: Effect of soil application of silicon under alkalinity levels on K Na-1 ratio in maize shoot and root
Figure 4: Percent Change in sodium and potassium content in shoot and root of maize due to alkalinity levels and silicon fertilization on
Table 1: Effect of soil application of silicon under alkalinity levels on shoot and root length and chlorophyll
Figure 1: Percent change in shoot and root growth and chlorophyll content of maize due to alkalinity levels and silicon fertilization
Table 2: Effect of soil application of silicon under alkalinity levels on maize photosynthetic rate, stomatal conductance and transpiration rate
Figure 2: Percent change due to alkalinity levels and silicon fertilization on photosynthetic rate (PR), stomatal conductance (SC) and transpiration rate (TR) of maize
Figure 3: Effect of levels of alkali stress and interlinear relationship on a) Photosynthetic rate; b) Stomatal conductance and c) Transpiration rate
Table 3: Effect of soil application of silicon under alkalinity levels on maize photosynthetic rate, stomatal conductance and transpiration rate
Table 4: Effect of soil application of silicon under alkalinity levels on K Na-1 ratio in maize shoot and root
Figure 4: Percent Change in sodium and potassium content in shoot and root of maize due to alkalinity levels and silicon fertilization on
Table 1: Effect of soil application of silicon under alkalinity levels on shoot and root length and chlorophyll
Figure 1: Percent change in shoot and root growth and chlorophyll content of maize due to alkalinity levels and silicon fertilization
Table 2: Effect of soil application of silicon under alkalinity levels on maize photosynthetic rate, stomatal conductance and transpiration rate
Figure 2: Percent change due to alkalinity levels and silicon fertilization on photosynthetic rate (PR), stomatal conductance (SC) and transpiration rate (TR) of maize
Figure 3: Effect of levels of alkali stress and interlinear relationship on a) Photosynthetic rate; b) Stomatal conductance and c) Transpiration rate
Table 3: Effect of soil application of silicon under alkalinity levels on maize photosynthetic rate, stomatal conductance and transpiration rate
Table 4: Effect of soil application of silicon under alkalinity levels on K Na-1 ratio in maize shoot and root
Figure 4: Percent Change in sodium and potassium content in shoot and root of maize due to alkalinity levels and silicon fertilization on
Table 1: Effect of soil application of silicon under alkalinity levels on shoot and root length and chlorophyll
Figure 1: Percent change in shoot and root growth and chlorophyll content of maize due to alkalinity levels and silicon fertilization
Table 2: Effect of soil application of silicon under alkalinity levels on maize photosynthetic rate, stomatal conductance and transpiration rate
Figure 2: Percent change due to alkalinity levels and silicon fertilization on photosynthetic rate (PR), stomatal conductance (SC) and transpiration rate (TR) of maize
Figure 3: Effect of levels of alkali stress and interlinear relationship on a) Photosynthetic rate; b) Stomatal conductance and c) Transpiration rate
Table 3: Effect of soil application of silicon under alkalinity levels on maize photosynthetic rate, stomatal conductance and transpiration rate
Table 4: Effect of soil application of silicon under alkalinity levels on K Na-1 ratio in maize shoot and root
Figure 4: Percent Change in sodium and potassium content in shoot and root of maize due to alkalinity levels and silicon fertilization on
Table 1: Effect of soil application of silicon under alkalinity levels on shoot and root length and chlorophyll
Figure 1: Percent change in shoot and root growth and chlorophyll content of maize due to alkalinity levels and silicon fertilization
Table 2: Effect of soil application of silicon under alkalinity levels on maize photosynthetic rate, stomatal conductance and transpiration rate
Figure 2: Percent change due to alkalinity levels and silicon fertilization on photosynthetic rate (PR), stomatal conductance (SC) and transpiration rate (TR) of maize
Figure 3: Effect of levels of alkali stress and interlinear relationship on a) Photosynthetic rate; b) Stomatal conductance and c) Transpiration rate
Table 3: Effect of soil application of silicon under alkalinity levels on maize photosynthetic rate, stomatal conductance and transpiration rate
Table 4: Effect of soil application of silicon under alkalinity levels on K Na-1 ratio in maize shoot and root
Figure 4: Percent Change in sodium and potassium content in shoot and root of maize due to alkalinity levels and silicon fertilization on
Table 1: Effect of soil application of silicon under alkalinity levels on shoot and root length and chlorophyll
Figure 1: Percent change in shoot and root growth and chlorophyll content of maize due to alkalinity levels and silicon fertilization
Table 2: Effect of soil application of silicon under alkalinity levels on maize photosynthetic rate, stomatal conductance and transpiration rate
Figure 2: Percent change due to alkalinity levels and silicon fertilization on photosynthetic rate (PR), stomatal conductance (SC) and transpiration rate (TR) of maize
Figure 3: Effect of levels of alkali stress and interlinear relationship on a) Photosynthetic rate; b) Stomatal conductance and c) Transpiration rate
Table 3: Effect of soil application of silicon under alkalinity levels on maize photosynthetic rate, stomatal conductance and transpiration rate
Table 4: Effect of soil application of silicon under alkalinity levels on K Na-1 ratio in maize shoot and root
Figure 4: Percent Change in sodium and potassium content in shoot and root of maize due to alkalinity levels and silicon fertilization on
Table 1: Effect of soil application of silicon under alkalinity levels on shoot and root length and chlorophyll
Figure 1: Percent change in shoot and root growth and chlorophyll content of maize due to alkalinity levels and silicon fertilization
Table 2: Effect of soil application of silicon under alkalinity levels on maize photosynthetic rate, stomatal conductance and transpiration rate
Figure 2: Percent change due to alkalinity levels and silicon fertilization on photosynthetic rate (PR), stomatal conductance (SC) and transpiration rate (TR) of maize
Figure 3: Effect of levels of alkali stress and interlinear relationship on a) Photosynthetic rate; b) Stomatal conductance and c) Transpiration rate
Table 3: Effect of soil application of silicon under alkalinity levels on maize photosynthetic rate, stomatal conductance and transpiration rate
Table 4: Effect of soil application of silicon under alkalinity levels on K Na-1 ratio in maize shoot and root
Figure 4: Percent Change in sodium and potassium content in shoot and root of maize due to alkalinity levels and silicon fertilization on
Table 1: Effect of soil application of silicon under alkalinity levels on shoot and root length and chlorophyll
Figure 1: Percent change in shoot and root growth and chlorophyll content of maize due to alkalinity levels and silicon fertilization
Table 2: Effect of soil application of silicon under alkalinity levels on maize photosynthetic rate, stomatal conductance and transpiration rate
Figure 2: Percent change due to alkalinity levels and silicon fertilization on photosynthetic rate (PR), stomatal conductance (SC) and transpiration rate (TR) of maize
Figure 3: Effect of levels of alkali stress and interlinear relationship on a) Photosynthetic rate; b) Stomatal conductance and c) Transpiration rate
Table 3: Effect of soil application of silicon under alkalinity levels on maize photosynthetic rate, stomatal conductance and transpiration rate
Table 4: Effect of soil application of silicon under alkalinity levels on K Na-1 ratio in maize shoot and root
Figure 4: Percent Change in sodium and potassium content in shoot and root of maize due to alkalinity levels and silicon fertilization on
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