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Mahnaz Kandi, Asa Ebrahimi, Marjan Diyanat, Hamid Saeidian,
Volume 10, Issue 1 ((Spring and Summer) 2023)
Volume 10, Issue 1 ((Spring and Summer) 2023)
Abstract
Extended Abstract
Introduction: Weeds are one of the most important problems in agriculture and cause a lot of damage to crops. Overconsumption of herbicides in recent decades has led to harmful impacts on the environment and living organisms, including humans. In order to deal with these problems today, efforts are being made to reduce reliance on artificial herbicides and change direction towards sustainable agriculture as a part of integrated weed management. Among natural compounds, essential oils, which are components of aromatic and medicinal plants, were investigated to discover new herbicides.
Material and Methods: In order to investigate the effects of yarrow essential oil (Achillea wilhelmsii C. Koch) on the germination and growth of purslane (Portulaca oleracea L.) and rye (Secale cereale L.) seedlings, two factorial experiments were conducted in the form of a completely randomized design in three replicates at Islamic Azad University, Science and Research Branch. The first factor was the type of essential oil in two levels (normal and nanoemulsion) and the second factor was the concentration of essential oil in six levels (0, 100, 200, 400, 800, and 1000 µl L-1).
Results and Discussion: Scanning electron microscopy images showed the particles were relatively sperhical and their size varied from 1 to 100 nm. The zeta potential of the nanoparticles was -13.8 mV, indicating particle stability. Both type of essential oils reduced germination percentage, germination rate, plumule length, radicel length and seedling dry weight of both weeds and germination percentage decreased significantly with increasing concentration. At a concentration of 200 µl L-1, purslane treated with essential oil germinated 55.25%, but at the same concentration, the germination percentage of seeds treated with nanoemulsion of essential oil was 30.50%. Nanoemulsion of essential oil at concentration of 800 µl L-1 was able to completely prevent the germination and growth of purslane seedlings. Nanoemulsion of essential oil at a concentration of 1000 µl L-1 completely prevented rye seed germination. Germination rate decreased under treatment of yarrow essential oil and there was no difference between two types of essential oils at concentration of 200 µl L-1, but at a concentration of 800 µl, the germination rate of rye seeds treated with nanoemulsion of essential oil and ordinary essential oil reached to 1.40 and 0.32, respectively which was a significant difference.
Conclusions: The inhibition percentage of the studied traits in both weed species showed that the essential oil nanoemulsion was more effective than the normal essential oil. Yarrow essential oil was more effective on purslane weed compared to rye. Essential oils do not have similar effects on weeds and their inhibitory effects will be different depending on the concentration and species of weeds, and the selectivity of these compounds should be investigated. The production of nano essential oil of yarrow as a natural herbicide is a solution. It offers to control weeds in organic farming systems.
Highlights:
1- Nanoemulsion particles were produced from Yarrow essential oil
2- Nanoemulsion particles had more inhibitory effects on the investigated weeds than the normal essential oil.
Introduction: Weeds are one of the most important problems in agriculture and cause a lot of damage to crops. Overconsumption of herbicides in recent decades has led to harmful impacts on the environment and living organisms, including humans. In order to deal with these problems today, efforts are being made to reduce reliance on artificial herbicides and change direction towards sustainable agriculture as a part of integrated weed management. Among natural compounds, essential oils, which are components of aromatic and medicinal plants, were investigated to discover new herbicides.
Material and Methods: In order to investigate the effects of yarrow essential oil (Achillea wilhelmsii C. Koch) on the germination and growth of purslane (Portulaca oleracea L.) and rye (Secale cereale L.) seedlings, two factorial experiments were conducted in the form of a completely randomized design in three replicates at Islamic Azad University, Science and Research Branch. The first factor was the type of essential oil in two levels (normal and nanoemulsion) and the second factor was the concentration of essential oil in six levels (0, 100, 200, 400, 800, and 1000 µl L-1).
Results and Discussion: Scanning electron microscopy images showed the particles were relatively sperhical and their size varied from 1 to 100 nm. The zeta potential of the nanoparticles was -13.8 mV, indicating particle stability. Both type of essential oils reduced germination percentage, germination rate, plumule length, radicel length and seedling dry weight of both weeds and germination percentage decreased significantly with increasing concentration. At a concentration of 200 µl L-1, purslane treated with essential oil germinated 55.25%, but at the same concentration, the germination percentage of seeds treated with nanoemulsion of essential oil was 30.50%. Nanoemulsion of essential oil at concentration of 800 µl L-1 was able to completely prevent the germination and growth of purslane seedlings. Nanoemulsion of essential oil at a concentration of 1000 µl L-1 completely prevented rye seed germination. Germination rate decreased under treatment of yarrow essential oil and there was no difference between two types of essential oils at concentration of 200 µl L-1, but at a concentration of 800 µl, the germination rate of rye seeds treated with nanoemulsion of essential oil and ordinary essential oil reached to 1.40 and 0.32, respectively which was a significant difference.
Conclusions: The inhibition percentage of the studied traits in both weed species showed that the essential oil nanoemulsion was more effective than the normal essential oil. Yarrow essential oil was more effective on purslane weed compared to rye. Essential oils do not have similar effects on weeds and their inhibitory effects will be different depending on the concentration and species of weeds, and the selectivity of these compounds should be investigated. The production of nano essential oil of yarrow as a natural herbicide is a solution. It offers to control weeds in organic farming systems.
Highlights:
1- Nanoemulsion particles were produced from Yarrow essential oil
2- Nanoemulsion particles had more inhibitory effects on the investigated weeds than the normal essential oil.
Nasrin Teimoori, Mohsen Saeidi, Mahmood Khoramivafa, Shahab Khoshkhoi,
Volume 12, Issue 1 ((Spring and Summer) 2025)
Volume 12, Issue 1 ((Spring and Summer) 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.
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
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.
Nasrin Teimoori, Mohsen Saeidi, Mahmood Khoramivafa, Shahab Khoshkhoy,
Volume 12, Issue 1 ((Spring and Summer) 2025)
Volume 12, Issue 1 ((Spring and Summer) 2025)
Abstract
Objective: This study aimed to assess the efficiency of zinc oxid (ZnO) nanoparticles in mitigating drought stress effects in comparison with bulk ZnO, and to examine the influence of different priming durations on chickpea seed germination under drought conditions.
Method: A three-factorial experiment based on a completely randomized design was conducted with three replications on germination and seedling growth characteristics of chickpea cultivar Kasra. The factors included: 1) seed priming at 4 levels (priming with zinc oxide in the form of nanoparticles 1-100 and 40-60 nm, priming with bulk zinc oxide, and hydropriming), 2) priming duration at 3 levels (6, 12 and 24 hours) and 3) drought stress levels at 4 levels (no stress, -2, -4 and -8 bar using polyethylene glycol 6000).
Results: The results showed that drought stress had a significant effect on all measured variables. Although priming with nanoparticles and bulk zinc oxide performed better than hydropriming; in comparison with bulk zinc oxide priming and nanopriming, nanopriming with a diameter of 1 to 100 nm showed better efficiency. Increasing the drought stress intensity led to a significant rise in the number of abnormal seedlings. Priming especially with zinc oxide (nano and bulk), modulated the drought stress effects in non-stressed conditions and mild to moderate stresses (-2 to -4 bar). However, under severe stress (-8 bar), drought stress damage was not compensated by priming. The results also showed that increasing the priming time had a significant effect on seedling length, germination rate and longitudinal index of seedling vigor. However, increasing the duration from 12 to 24 did not have a significant effect on this increasing trend.
Conclusions: Rapid and optimal germination plays a crucial role in the formation of a reliable crop with excellent yield. Zinc oxide nanoparticles significantly enhance germination, biochemical activities, and seedling growth of chickpea, however, determining the optimal dosage and application method is critical to maximize benefits while avoiding potential toxicity associated with excessive nanoparticle use.
Highlights
Method: A three-factorial experiment based on a completely randomized design was conducted with three replications on germination and seedling growth characteristics of chickpea cultivar Kasra. The factors included: 1) seed priming at 4 levels (priming with zinc oxide in the form of nanoparticles 1-100 and 40-60 nm, priming with bulk zinc oxide, and hydropriming), 2) priming duration at 3 levels (6, 12 and 24 hours) and 3) drought stress levels at 4 levels (no stress, -2, -4 and -8 bar using polyethylene glycol 6000).
Results: The results showed that drought stress had a significant effect on all measured variables. Although priming with nanoparticles and bulk zinc oxide performed better than hydropriming; in comparison with bulk zinc oxide priming and nanopriming, nanopriming with a diameter of 1 to 100 nm showed better efficiency. Increasing the drought stress intensity led to a significant rise in the number of abnormal seedlings. Priming especially with zinc oxide (nano and bulk), modulated the drought stress effects in non-stressed conditions and mild to moderate stresses (-2 to -4 bar). However, under severe stress (-8 bar), drought stress damage was not compensated by priming. The results also showed that increasing the priming time had a significant effect on seedling length, germination rate and longitudinal index of seedling vigor. However, increasing the duration from 12 to 24 did not have a significant effect on this increasing trend.
Conclusions: Rapid and optimal germination plays a crucial role in the formation of a reliable crop with excellent yield. Zinc oxide nanoparticles significantly enhance germination, biochemical activities, and seedling growth of chickpea, however, determining the optimal dosage and application method is critical to maximize benefits while avoiding potential toxicity associated with excessive nanoparticle use.
Highlights
- Seed priming with zinc oxide nanoparticles (1–100 nm in diameter) was more effective than using bulk zinc oxide or nanoparticles sized 40–60 nm.
- Under no-stress and mild to moderate drought stress conditions (-2 to -4 bar), priming — particularly with zinc oxide (both nano and bulk forms) — alleviated drought-induced damage.
- Drought stress up to -2 bar did not significantly affect the germination percentage of chickpea seeds compared to the non-primed control.
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