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Evaluation of the effective methods of seed dormancy breaking in medicinal plant of Bilhar (Dorema aucheri)
Amin Salehi, Asad Masumiasl, Ali Moradi,
Volume 2, Issue 1 (9-2015)
Abstract

Bilhar or Mountain Kandall (Dorema aucheri) belongs to Apiacea family that contains flavonoid and coumarine compounds. Since propagation of this plant in natural habitats occurs through seed and due to deep dormancy, the identification of different seed dormancy breaking methods is necessary for the preservation of this species. In this respect, different methods, including chilling, washing and gibberellic acid was studied, on the seeds gathered from Kohgiloyeh and Boyerahmad province. For this reason, a factorial experiment with three factors was done based on a completely randomized design in three replications, in the faculty of agriculture, Yasouj University, in 2012. Experimental factors were included, chilling period (stratification periods of 3 and 4 weeks), gibberellic acid (zero and 1500 ppm) and washing (washing with distilled water and non-washable). Results showed that 4 weeks chilling treatment had maximum germination percentage and germination rate and seedling vigor. Also, maximum root and shoot dry weight were obtained from the seeds of this treatment. Whereas, double and triple interaction effects for germination percentage, epicotyl and hypocotyl length were not significant. Germination percentage was better in 4 weeks prechilled seed than 3 weeks. Obtained results from this research showed that Bilhar seeds have the physiological dormancy.


Study of Seed Dormancy in Seven Medicinal Species from Apiaceae
Hamid Sharifi, Mohammad Khajeh-Hosseini, Mohammad-Hassan Rashed-Mohassel,
Volume 2, Issue 1 (9-2015)
Abstract

Seeds of seven species of medicinal plants collected from the natural habitat in Lorestan province in summer 2011. Germination test carried out in a completely randomized design with four replications of 25 seeds in H2O. Species of Smyrnium cordifrolium, Kelussia odoratissima, Dorema aucheri and Ferulago angulata had no germination while Heracleum persicum, Bunium luristanicum and Falcaria vulgaris showed germination of 30, 96 and 97% respectively. Different treatments of breaking dormancy applied to the species with germination below 30% [moist-chilling for periods of 2, 4, 6, 8, 10 and 12 weeks, with two concentrations of 250 and 500 ppm of gibberellic acid, a combination treatment (gibberellic 250 ppm + 4 weeks moist-chilling and gibberellic acid 500 ppm + moist-chilling for 4 weeks) and potassium nitrate 2 g/l]. The results showed that moist-chilling was the most effective treatments to break seed dormancy of Heracleum persicum (6 weeks), Dorema aucheri (12 weeks), Kelussia odoratissima (12 weeks) and Ferulago angulata (12 weeks). Therefore, based on their reactions to the treatments, dormancy of Kelussia odoratissima and Ferulago angulata could be classified as deep physiological dormancy and species of Dorema aucheri and Heracleum persicum intermediate physiological dormancy type.


Comparing the Effect of Seed Pre-Treatment Methods on Improving Alkali Stress Tolerance of Sainfoin and its Recovery
Hossein Sadeghi, Mohammad Delaviz, Hadi Pirasteh-Anosheh, Gholamhassan Ranjbar,
Volume 3, Issue 1 (8-2016)
Abstract

Germination is the first and the most stages for sainfoin (Onobrychis viciifolia) growth; which it has especially sensitivity to environmental stresses such as alkalinity. The current study was conducted to evaluate the effectiveness of seed pre-treatment methods on improving sainfoin tolerance to alkali stress in germination, early growth and its recovery as a factorial experiment based on a completely randomized design in College of Agriculture, Shiraz University in 2013. The first factor was four seed pre-treatment methods (seed with the pod, seed without the pod, pre-chilling of seed without pod and hydro-priming of seed without pod) and the second factor was five alkali stress levels (pH= 6.7, 7.9, 8.9, 9.8 and 10.7). Alkali stress levels were prepared using two neutral salts (Na₂SO4 and NaCl) and two alkaline salts (NaHCO3 and Na2CO3). The results showed that germination percentage was decreased as alkalinity (pH) levels were enhanced; so that, there were no germinated seeds in 9.8 and 10.7 treatments. Alkali stress reduced initial germination percentage (51.9%), final germination percentage (51.8%), plumule length (55.7%) and radicle length (72.2%). Under all alkalinity conditions, the lowest seed germination and seedling growth were observed in with pod seed, followed by pre-chilling treatments; while their highest were achieved in without pod seeds and hydro-priming treatments. The highest recovery was observed in without the pod, followed by hydro-primed seeds. Recovery was observed in Pre-chilled and with pod speeds up to 7.9 and in hydro-primed and without pod speeds up to 8.9.


Evaluation of Different Methods in Seed Dormancy Breaking and germination of Redroot Pigweed (Amaranthus retroflexus)
Vaghef Enayati, Ezatollah Esfandiari, Alireza Pourmohammad, Kamal Haj Mohammadnia Ghalibaf,
Volume 5, Issue 2 (3-2019)
Abstract



Extended Abstract
Introduction: Weeds, as the most important biological stress, reduce the efficiency of water use, waste of food, shading and secretion of toxic substances, leads to a 10 to 100 percent reduction in crop yields. The first step of the weed control understands the biology and life cycle of the weed particularly seed Eco physiological characteristics. Dormancy in weed seeds, including Redroot Pigweed seeds, is common. So, due to the importance of dormancy breaking and germination studies of weed seeds, the present study was designed to identify the methods for dormancy breaking and the germination of Redroot Pigweed seeds.
Materials and Methods: This research started in autumn 2013 by collecting Redroot Pigweed seeds from fields of Alajujeh village, Khoda Afrin County, East Azerbaijan Province, and then it was carried out at the Laboratory of the Faculty of Agriculture of the University of Maragheh in 2014 and 2015. For data analysis, the GenStat 12.1 program was used and the Duncan test was used at 5% probability level to compare the averages. Excel 2013 was also employed for drawing the diagrams.
Results and discussion: Analysis of variance demonstrated that the effect of treatments on germination percentage and germination rate in Redroot Pigweed seeds at 1% probability level and the mean germination time at 5% probability level was significant. The results showed that among studied treatments, seeds holding for 18 months were most efficient seeds dormancy breaking at Redroot Pigweed. So that the highest germination percentage (92%), germination rate (29.18 seed/day) and lowest the mean germination (4.2 day) time were obtained in seeds holding treatment. Pre-chilling treatment also had significant effects in stimulating germination. As regards treatments of seed holding in low temperature and Pre-chilling accelerate the germination process and increase germination percentage, so, having precise information of these traits enables to study, a better management and control of this troublesome weed.
Conclusions: In general, the results of this study show that among the treatments, holding seeds for 18 months at 6 ° C is the best method for solving Redroot Pigweed seeds weeds.

 
Highlights:
1- Seed holding in low temperature and Pre-chilling accelerates the germination process.
2- Seed holding in low temperature increases germination percentage.


The Effect of Chilling and Gibberellic Acid on the elimination of Schrophularia striata Seed Dormancy in Different Habitats of Ilam Province
Kamran Alimardani, Amin Salehi, Mohsen Movahhedi Dehnavi, Ali Moradi,
Volume 8, Issue 2 (3-2022)
Abstract
Extended Abstract
Introduction: Schrophularia striata is one of the medicinal plants of the Scrophulariaceae family and contains phenolic compounds. Locals have traditionally used this herbal medicine to treat infections caused by wounds, gastrointestinal diseases, and eye diseases. Due to excessive consumption by indigenous people and climate change, especially increasing temperature, the cold required to eliminate seed dormancy is not presently available and its germination and growth has decreased. Therefore, this plant is at the risk of extinction. Since this plant is propagated in natural habitats through seed and due to deep seed dormancy, evaluation of different seed dormancy methods is necessary for conservation and domestication of this species. In this study, suitable methods to eliminate seed dormancy of this plant using chilling and gibberellic acid treatments were studied on the seeds collected from different habitats of Ilam province.
Materials and Methods: To investigate the effect of using chilling and gibberellic acid on Schrophularia striata dormancy, a split plot factorial experiment based on completely randomized design with four replications was conducted at the seed laboratory of Yasouj University in 2018. The first factor included the duration of moist chilling period (0, 4, 8, 12 and 16 weeks), the second factor included gibberellic acid (0, 300 and 600 mg/L) and the third factor included five habitats (Ilam, Ivan, Mehran, Abadan and Dehloran).
Results: The results showed that the 16-week Chilling and zero gibberellic acid treatments had the highest germination percentage in all habitats, as the percentage of germination in Mehran, Ivan, Ilam, Abadan and Dehloran habitats was 66, 50, 36, 30 and 25%, respectively. Also, the highest germination rate was observed in all habitats at 16 weeks chilling and zero mg/L gibberellic acid concentration. The highest germination uniformity was obtained at 16 and 12 weeks of chilling.
Conclusions: Chilling period duration was effective on germination percentage and rate and with increasing chilling period, germination percentage and rate increased. This indicates that the seeds studied had some degree of physiological dormancy, and the seed of higher altitude habitats required longer chilling periods than those of the lower ones for germination. Also, according to the results of this experiment, chilling periods above 16 weeks should be used to increase germination percentage.

Highlights:
1- Chilling period duration in the presence of gibberellic acid was the most important factor for the elimination of Schrophularia striata seed Dormancy and increased germination.
2- With increasing altitude and in the same chilling period duration, habitats with lower altitude had higher germination percentage and rate

Evaluation of different hormonal and temperature treatments on dormancy breaking of Lavender (Lavandula angustifolia) seed
Mohammadreza Labbafi, Hamideh Khalaj, Maryam Delfani, Nasrin Qavami,
Volume 9, Issue 1 (9-2022)
Abstract
Extended Abstract
Introduction: Lavandula angustifolia L. is one of the most important plants belonging to Lamiaceae which has abundant use in traditional and pharmacological medicine. Lavender seed dormancy is one of the problems in producing seedlings which increases seed consumption. In this regard, an experiment was carried out to investigate different treatments for seed dormancy elimination of Lavender and measuring germination and growth indices.
Materials and Methods: An experiment was conducted in a completely randomized design with three replications at the Ecophysiology Laboratory of Karaj Institute of Medicinal Plants in 2018. The experiment consisted of 14 treatments on seed dormancy elimination. The treatments included the control, hormonal treatments (Gibberellic acid with 250, 500, 750 and 1000 mg/l concentrations) and Prechilling treatments (7, 14 and 21 days of refrigeration). The integrated treatments were 7 days refrigeration + 500 mg/l gibberellic acid, 14 days refrigeration + 500 mg/l gibberellic acid, 7 days refrigeration + 1000 mg/l gibberellic acid, 14 days refrigeration + 1000 mg/l gibberellic acid, 30 minutes at 40 ° C water + 14 days refrigeration, and 30 minutes at water 40 degrees +14 days refrigeration + 500 mg/l gibberellic acid.
Results: The results showed that the highest germination percentage (70.67%), germination rate (24.26%) and germination index (246) were achieved in 750 mg/l Gibberellic acid, and the highest epicotyl length (5.09 cm), seedling length (6.23 cm) and seedling fresh weight (0.57 gr) were produced with 500 mg/l Gibberellic acid. Also, the lowest mean germination time (MGT) (4.12s day) was obtained in 1000 mg/l Gibberellic acid treatment. Also, 7 days of refrigeration + gibberellic acid at 500 mg/l treatment had no significant difference with the other concentrations of gibberellin treatments. Therefore, low gibberellin concentration with 7 days of prechilling had the same effect as higher gibberellic acid concentrations. In addition, 14 days of refrigeration + 1000 mg/l gibberellic acid treatment and treatment of 30 min in water at 40 ° C +14 days prechilling + 500 mg/l gibberellic acid produced the lowest shoot (0.78, 0.82 cm), seedling height (0.99, 1.04 cm) and fresh weight (0.013, 0.01 gr) that showed the negative effects of increased prechilling time and water at 40 ° C,
Conclusion: It was finally found that the lavender seed dormancy type is physiologically non-deep and moderate and Gibberellic acid is a suitable substitute for prechilling. The best treatment was gibberellic acid with a concentration of 750 mg/l to break the dormancy of lavender seeds.

Highlights:
  1. Gibberellic acid is a good substitute for prechilling in seed dormancy elimination of lavender.
  2. Breaking the dormancy of the lavender seeds is necessary for producing seedlings from the seeds of this plant.

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