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Effect of Breaking Dormancy Treatments on Germination of Ferula assa-foetida Seed
Ahmad Nowruzian, Majid Masoumian, Mohammad Ali Ebrahimi, Gholam Reza Bakhshi Khaniki,
Volume 3, Issue 2 (2-2017)
Abstract

Asafetida (Ferula assa- foetida L.) is an important medicinal plant belonging to Apiaceae family and has long dormancy. In this research, vernalization, washing time, GA3, medium strength, harvesting time and interaction of these treatments were studied to optimize condition of germination. The results showed that vernalization at 4-5°C for two weeks increased germination by 50%, as compared with the control. Maximum and minimum germinations were obtained for 6 and 2 hours’ washing, which was 42% and 20.47%, respectively. Germination of Ferula was increased (41.5%) by using 10 mg/l of GA3, as compared with the control. In addition, using half strength MS media led to a 25% increase in germination. Moreover, germination mean increased by applying these treatments to one-year-old seeds, in comparison with fresh ones (61% and 36%, respectively). By running factorial experiments in the CRD, the best combination of treatments which could significantly increase germination was a combination of vernalization (4-5°C for two weeks), half strength MS media, GA3 (10 mg/l) and washing time (6h). Given the results of the study, for the purpose of breaking the dormancy of Asafetida, it is suggested that use is made of one-year-old seeds, and half strength MS media, along with right combinations of vernalization, washing time and GA3.
 


Effect of Stratification and Its Combination with Gibberellic Acid on Seed Dormancy Breaking of Echinophora platyloba
Ali Abbasi Sourki, Zahra Hosseni, Sina Fallah,
Volume 5, Issue 2 (3-2019)
Abstract



Extended Abstract
Introduction: Seeds are a good option for propagation and protection of medicinal plants. Although Seed dormancy is an adaptive strategy for wild medicinal plants, but it is considered as an undesirable trait in domestication and cultivation of them, need to be solved. Echinophora platyloba seed has dormancy despite its remarkable medicinal properties.
Materials and Methods: In order to break seed dormancy, three separate experiment including stratification, hormonal treatment and combination of both were performed. For stratification 10 samples of were placed in a wet bed at 5 ° C for 2, 4, 6, 8, 10, 12, 14 and 16 Week and were compared using a completely randomized design with three replications. For hormonal treatment, the seeds were placed in GA concentrations of 0, 500 and 1000 ppm for 24 hours and then transferred to germination conditions. However, since the breaking of dormancy did not occur, this experiment was not discussed any more. For combined application of hormone and stratification, seeds were placed at mentioned concentrations of gibberellin for 24 hours at 20 ° C and then gibberellin solutions were removed and the seed transmitted to 5 ° C and compared for 2, 4, 6, 8 weeks with a CRD factorial experiment with three replications. The first factor was concentration of gibberellin in three levels and the second factor was the duration of stratification in 4 levels.
Results: Stratification had a positive effect on seed dormancy breaking and 16 week chilling lead to highest germination percentage and rate and vigor indices. The combined application of hormonal treatments accelerated dormancy release and improved seed germination characteristics, which peaked at 8 weeks. 8-week stratification treatment at 5 ° C with 1000 ppm gibberellic acid was the best treatment to overcoming of dormancy in Echinophora-platyloba seeds.
Conclusion: It seems that seed dormancy of Echinophora seeds is physiological, which broke down by moist chilling and simultaneous application of stratification and gibberellin successfully. Although Gibberellin had no effect on dormancy break, it reduced the need for stratification. Combined application of them showed synergistic effects on dormancy release.
 
 
Highlights:

  1. Echinophora seed’s dormancy was broken under stratification conditions, but GA had no effect on it lonely.
  2. The application of gibberellin reduced the chilling demands of Echinophora seeds and the combined application of them had a synergistic effect on dormancy break

Interactive impact of various scarification methods with different levels of cold stratification and GA on seed dormancy breaking and growth of Gundelia tournefortii Plants
Rayhaneh Amooaghaie, Abolfazl Khodadadi,
Volume 11, Issue 2 (3-2025)
Abstract
Extended abstract
Introduction: Gundelia tournefortii (L.) is a species of Irano-Turanian origin belonging to the Asteraceae family. The strongly lignified disseminule from the secondary capitulum on seeds causes certain challenges for the propagation of this plant. This study aimed to evaluate the best methods for breaking seed dormancy to enable large-scale production of Gundelia tournefortii (L.).
Materials and Methods: Initially, the interactive effects of various scarification methods (hot water, hydrochloric acid, scalpel, and sandpaper) with cold stratification (0, 1, 2, and 3 weeks) or GA3 (0, 250, 500, and 1000 ppm) on seed dormancy breaking were investigated in two separate factorial experiments. Subsequently, the combined effect of GA3 and cold stratification on seed dormancy breaking of seeds scarified with a scalpel was assessed in a third experiment.
Results: The results indicated that all scarification methods significantly increased the emergence percentage and growth parameters of plantlets. Cold stratification and GA3 treatments enhanced these attributes more effectively in plantlets grown from seeds scarified with a scalpel or sandpaper compared to seeds treated with acid or hot water. In the first experiment, the highest emergence percentage (77%) was achieved from seeds scarified with a scalpel combined with 3 weeks of cold stratification. In the second experiment, the maximum emergence percentage (77%), plantlet length (17 cm), and the minimum mean emergence time (11 days) were obtained from seeds scarified with a scalpel and treated with 500 ppm GA3. The results of the third experiment showed that the application of GA3 reduced the required duration of cold stratification by approximately 1 week to achieve the maximum emergence percentage, dry weight of plantlets, and the minimum mean emergence time.
Conclusions: The findings demonstrate that Gundelia tournefortii (L.) seeds exhibit a combination of physical and non-deep physiological dormancy. The highest emergence percentage (81.5%) and the lowest mean emergence time (8 days) can be achieved through scarification with a scalpel followed by cold stratification or GA3 treatment.

Highlights:
  1. The most significant effect on dormancy breaking was achieved through scarification, particularly with a scalpel, which resulted in 60% emergence.
  2. There was a significant interaction between various scarification methods and levels of cold stratification or GA3 concentrations.
  3. Applying cold stratification levels or GA3 concentrations to non-scarified seeds had little to no effect on emergence percentage and plant growth.


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