Showing 42 results for Germination Rate
Hamid Zolghadri, Salim Farzaneh, Mohammad Ahmadi, Raouf Sayed Sharifi,
Volume 12, Issue 1 (9-2025)
Abstract
Objective: This study aimed to investigate the effects of hydroprime and seed coating with humic acid, and biological compounds on the germination and emergence of the sweet corn cultivar 'Amyla'.
Method: The experiment was conducted using a randomized complete block design with three replications under laboratory and greenhouse conditions, and four replications under field conditions in 2018. The study was carried out at Mohaghegh Ardabili University and the experimental fields of the National Agro-Industrial Company of Moghan. The fourteen treatments consisted of seed coating with different amounts of amino acid fertilizer (2, 4, and 6 g kg-1 of seed), seaweed extract (3, 6, and 9 g kg-1 of seed), humic acid (3, 6, and 9 g kg-1 of seed), hydroprime + humic acid, hydroprime + seaweed extract, hydroprime + amino acid, hydroprime alone, and an uncoated control. A 3% carboxymethylcellulose solution was used as an adhesive for the seed coating.
Results: Seed coating with humic acid and hydroprime significantly improved the germination and emergence percentages of the 'Amyla' sweet corn seeds under laboratory, greenhouse, and field conditions. The best results were obtained with the hydroprime and humic acid (6 g kg-1) treatments, which showed the highest germination percentage (98.66%) and emergence percentage (93.33%). The germination and emergence rates also increased significantly in these treatments. Contrary to expectations, seaweed extract negatively affected the germination and emergence of the sweet corn seeds. These results indicate that using seaweed extract as a seed coating may not be suitable for all corn cultivars. The 3% carboxymethylcellulose adhesive used for coating had no adverse effect on seed germination and emergence; in some cases, it even slightly improved the results.
Conclusions: This research clearly demonstrates that coating 'Amyla' sweet corn seeds with humic acid (6 g kg-1) and hydroprime is not only a practical solution for improving germination and seedling establishment but also, as a sustainable technology, can help address challenges in modern agriculture.
Highlights
- The effects of hydropriming and seed coating with humic acid, amino acid fertilizer, and seaweed extract on germination and emergence of 'Amyla' sweet corn cultivar were evaluated.
- The combination of hydropriming and humic acid coating (6 g kg⁻¹) was an optimal strategy for enhancing germination and seedling establishment of 'Amyla' sweet corn cultivar.
Nasrin Teimoori, Mohsen Saeidi, Mahmood Khoramivafa, Shahab Khoshkhoi,
Volume 12, Issue 1 (9-2025)
Abstract
Objective: This study aimed to assess the efficiency of Zinc Oxide (ZnO) nanoparticles in mitigating salinity stress effects in comparison with bulk ZnO, and to examine the influence of different priming durations on chickpea seed germination under salinity conditions.
Method: The study was conducted as a factorial experiment in a completely randomized design with three replications on chickpea (Kasra cultivar). The first factor was the priming agent (1-100 nm ZnO nanoparticles, 40-60 nm ZnO nanoparticles, bulk ZnO, and hydro-priming). The second factor was the priming duration (6, 12, and 24 h), and the third factor was the level of salinity stress (0, 20, 40, and 80 mM NaCl). Key indicators related to germination quality and seedling growth were subsequently assessed.
Results: Salinity stress significantly affected the germination percentage, germination rate, mean germination time, mean daily germination, and seedling vigor weight index. The respective values at 0 and 80 mM NaCl were 98.7% vs. 68.4%, 15.6 vs. 10.4 germinated seeds per day, 2.11 vs. 2.39 days, 12.3 vs. 8.56 seeds per day, and 5466 vs. 1853. Salinity stress also significantly increased the root-to-shoot length ratio. Seed priming with 1-100 nm ZnO nanoparticles significantly increased seedling dry weight, shoot dry weight, root dry weight, and consequently, the seedling vigor index compared to other zinc forms and hydro-priming. Furthermore, this treatment reduced the percentage of abnormal seedlings to 20.7% under 80 mM NaCl. Priming durations of 12 and 24 h were superior to 6 h, resulting in a significant increase in seedling and shoot length, seedling and shoot weight, and the seedling vigor length index.
Conclusions: Salinity stress had significant adverse effects on germination and seedling growth characteristics and increased the proportion of abnormal seedlings. However, seed priming exerted a more pronounced positive effect on improving seedling growth and reducing the number of abnormal seedlings. Among the priming treatments, ZnO nanoparticles (1-100 nm) with a priming duration of 12 h were the most effective in enhancing seedling growth and the seedling vigor index, providing clear guidance for future research and applications.
Highlights
- Seed priming at a salinity level of 20 mM significantly alleviated the adverse effects of salinity on seedling growth parameters.
- Seed priming of chickpea with zinc nanoparticles (1 to 100 nm) was more effective than other seed priming methods in promoting seedling growth.
- A priming duration of 12 h was identified as the optimal treatment for maximizing seedling growth and vigor index.
