Nano-sized formulations of micronutrient iron (Fe) were found to substantially alter the
growth and metabolism of maize plants. Plants fertilized with the optimal recommended
dose of Fe in the nano-form (54 μM) registered an enhancement in morphological features,
viz. plant height, biomass (shoot and root), and diminution in antioxidant enzyme activities
than the plants fertilized with the sub-optimal dose of Fe in the macroform (salts). However,
half of the recommended dosage of Fe (27 μM) in the nano-form positively influenced leaf …

Nano-sized formulations of micronutrient iron (Fe) were found to substantially alter the
growth and metabolism of maize plants. Plants fertilized with the optimal recommended
dose of Fe in the nano-form (54 µM) registered an enhancement in morphological features,
viz. plant height, biomass (shoot and root), and diminution in antioxidant enzyme activities
than the plants fertilized with the sub-optimal dose of Fe in the macroform (salts). However,
half of the recommended dosage of Fe (27 µM) in the nano-form positively influenced leaf …