Efect of Iron, Zinc, and Manganese Nano‑Form Mixture on the Micronutrient Recovery Efciency and Seed Yield Response Index of Sesame Genotypes
Hani Saber Saudy; Goma Ahmed Abd El–Samad; Mohamed Esmail El–Temsah; El-Gabry, Yasser;
Abstract
Sesame genotypes have diferent potentiality to exploit the environmental growth factors, i.e., the available nutrients. So far,
sesame genotypes have not received enough studies regarding their response to a mixture of micronutrients in nanostructures.
Therefore, the current study aimed to investigate the response of some sesame genotypes under diferent rates of Fe, Zn, and
Mn mixture in nano-form. Field experiment was established in a strip-plot design with three replicates during two successive
seasons. The response of three sesame genotypes (Shandaweel3, Giza32, and Sohag1) was studied under two levels of iron
(Fe), zinc (Zn), and manganese (Mn) package, 1:1:1 (0.25 and 0.50 g L−1 as nanoparticles, FeZnMn-nano), in addition to
control treatment, 0.00 g L−1, (tap water). Sesame yield attributes, oil and protein content, micronutrient uptake, micronutrient recovery efciency, and seed yield response index were estimated. Sohag1 genotype was the most efcient for producing
the maximum capsule number plant−1, seed yield plant−1, and seed yield ha−1 as well as protein yield ha−1. The increase in
seed yield ha−1 was 15.5% owing to 0.50 g L−1 FeZnMn-nano, compared to the control treatment. The maximum values of
micronutrient uptake were recorded with Sohag1 genotype surpassing Shandaweel3 and Giza32 genotypes. Spraying of 0.50 g
L−1 FeZnMn-nano recorded 25.6 and 30.5% increases for Fe uptake and Zn uptake, respectively. Sohag1 genotype × 0.50 g
L−1 FeZnMn-nano was the efcient interaction treatment for enhancing Fe and Zn uptake. Sohag1 genotype showed the
maximum values of Fe and Zn recovery efciency. Each of Sohag1 genotype and Shandaweel3 genotype whether with 0.50 g
L−1 FeZnMn-nano or 0.25 g L−1 FeZnMn-nano treatments achieved the highest values of Fe and Zn recovery efciency. Both
Sohag1 and Shandaweel3 genotypes are belonging to efcient and responsive (ER) group, being exceeded the averages of
seed yield at zero micronutrients rate and seed yield response index. Genotypic variations associated with the application
of Fe, Zn, and Mn as nano-mixture introduced a promising solution for remediation of micronutrients defciency symptoms
in sesame. Under arid regions, i.e., Egyptian conditions, fertilizing Sohag1 genotype by 0.50 g L−1 FeZnMn-nano could
achieve cost-efective mean to overcome Fe, Zn, and Mn defciency with higher productivity
sesame genotypes have not received enough studies regarding their response to a mixture of micronutrients in nanostructures.
Therefore, the current study aimed to investigate the response of some sesame genotypes under diferent rates of Fe, Zn, and
Mn mixture in nano-form. Field experiment was established in a strip-plot design with three replicates during two successive
seasons. The response of three sesame genotypes (Shandaweel3, Giza32, and Sohag1) was studied under two levels of iron
(Fe), zinc (Zn), and manganese (Mn) package, 1:1:1 (0.25 and 0.50 g L−1 as nanoparticles, FeZnMn-nano), in addition to
control treatment, 0.00 g L−1, (tap water). Sesame yield attributes, oil and protein content, micronutrient uptake, micronutrient recovery efciency, and seed yield response index were estimated. Sohag1 genotype was the most efcient for producing
the maximum capsule number plant−1, seed yield plant−1, and seed yield ha−1 as well as protein yield ha−1. The increase in
seed yield ha−1 was 15.5% owing to 0.50 g L−1 FeZnMn-nano, compared to the control treatment. The maximum values of
micronutrient uptake were recorded with Sohag1 genotype surpassing Shandaweel3 and Giza32 genotypes. Spraying of 0.50 g
L−1 FeZnMn-nano recorded 25.6 and 30.5% increases for Fe uptake and Zn uptake, respectively. Sohag1 genotype × 0.50 g
L−1 FeZnMn-nano was the efcient interaction treatment for enhancing Fe and Zn uptake. Sohag1 genotype showed the
maximum values of Fe and Zn recovery efciency. Each of Sohag1 genotype and Shandaweel3 genotype whether with 0.50 g
L−1 FeZnMn-nano or 0.25 g L−1 FeZnMn-nano treatments achieved the highest values of Fe and Zn recovery efciency. Both
Sohag1 and Shandaweel3 genotypes are belonging to efcient and responsive (ER) group, being exceeded the averages of
seed yield at zero micronutrients rate and seed yield response index. Genotypic variations associated with the application
of Fe, Zn, and Mn as nano-mixture introduced a promising solution for remediation of micronutrients defciency symptoms
in sesame. Under arid regions, i.e., Egyptian conditions, fertilizing Sohag1 genotype by 0.50 g L−1 FeZnMn-nano could
achieve cost-efective mean to overcome Fe, Zn, and Mn defciency with higher productivity
Other data
| Title | Efect of Iron, Zinc, and Manganese Nano‑Form Mixture on the Micronutrient Recovery Efciency and Seed Yield Response Index of Sesame Genotypes | Authors | Hani Saber Saudy; Goma Ahmed Abd El–Samad; Mohamed Esmail El–Temsah; El-Gabry, Yasser | Keywords | Nanofertilizers;Nanotechnology benefts;Oilseed crops;Sesame nutrient uptake;Varietal diferences | Issue Date | 2-Nov-2021 | Publisher | springer | Journal | Journal of Soil Science and Plant Nutrition | Volume | 22 | Start page | 732 | End page | 742 | DOI | https://doi.org/10.1007/s42729-021-00681-z |
Attached Files
| File | Description | Size | Format | Existing users please Login |
|---|---|---|---|---|
| 6- Efect of Iron, Zinc, and Manganese Nano‑Form Mixture.pdf | 1.08 MB | Adobe PDF | Request a copy |
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