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Impact of Hydropriming and Seed Coating with Humic Acid and Biostimulants on Germination and Establishment of Sweet Corn cv. 'Amyla'
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.

The Application of Functional Analysis of Variance in Assessing Germination in Seed Research
Farshid Ghaderi-Far, Majid Azimmohseni, Sima Sheikhveisi,
Volume 12, Issue 1 (9-2025)
Abstract

Objective: This study introduces functional analysis of variance as a method for comparing germination trends under different treatments over a given time interval. This approach not only enables the comparison of treatments over the entire time period but also allows for treatment comparisons at each specific moment in time. Moreover, it identifies critical time points at which the maximum significant difference between treatments occurs, which can serve as novel germination indices.
Method: In this study, real experimental data from four germination studies were analyzed: (1) the effect of temperature on Nigella sativa germination, (2) the effect of salinity stress on Zea mays seed germination, (3) the comparison of germination among different Triticum astivum cultivars, and (4) the effect of water stress on Brassica napus germination. Using spline functions, germination data from these experiments were modeled as a function of time. The results of functional analysis were then used to compare treatments in terms of both germination percentage and germination time across the four experiments.
Results: The results of the functional analysis demonstrated its high efficiency in detecting significant or non-significant differences between treatments throughout the germination period. Furthermore, this method enabled comparisons of germination percentages at any given time point, as well as comparisons of germination times at various germination percentiles, providing detailed insights into the nature of differences among treatments. This approach also facilitated the introduction of new germination indices applicable to different seed types.
Conclusions: Overall, the results of this study indicate that the stepwise functional analysis method introduced here is an effective and precise tool for comparing treatments in germination data. This approach not only enhances treatment comparisons but also provides detailed insights into the nature of differences between treatments. Moreover, it overcomes the limitations associated with using conventional germination indices for treatment comparisons.

Highlights

  • Functional analysis was applied to compare treatments in germination percentage data.
  • The method enabled treatment comparisons in terms of germination percentage at each moment in time, as well as comparisons of germination times at various percentiles.
  • Critical germination times and percentiles at which the maximum differences between treatments occur were introduced as novel germination indices.

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