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Showing 46 results for Germination Percent

Khadijeh Momeni, Ali Moradi, Sohrab Mahmoudi, Hojatollah Latif Manesh,
Volume 10, Issue 1 (9-2023)
Abstract

Extended Abstract
Introduction: Due to the fineness of parsley seeds, several problems may arise, such as the impossibility of using planting machines and the displacement of seeds by water, reduced germination and growth due to increased planting depth or lack of seed establishment in the soil, and consequently, increased seeding rate. Therefore, it is necessary to use methods to increase germination ability and improve the establishment of parsley seeds and seedlings in the soil. This experiment aimed to determine the most effective biopriming and gibberellin treatments for better germination and establishment of parsley seeds.
Materials and Methods: In order to determine the best biopriming and gibberellin priming treatments on germination characteristics and establishment of parsley seed, three experiments with four replications were conducted in the seed science and technology laboratory of Yasouj University in 2015 and 2016. The first biopriming experiment was carried out using growth-stimulating bacteria in a completely randomized design with eight treatments including bacterial isolates Pseudomonas fluorescens strain 21, Bacillus biosobetyl strain, Enterobactercus cloac strain 5, also two and three compounds of these bacteria along with control treatment. The second experiment was carried out with five treatments of Trichoderma harziarum (T36, T39, T42, and T43) isolates with control treatment. Finally, the third experiment was performed as a factorial in a completely randomized design with concentrations of gibberellin hormone (0, 50, 100, and 200 ppm) and prime times (6 and 12 hours). The measured traits were seedling length, seedling dry weight, germination percentage, and seedling length vigor index.
Results: The results showed that the best treatments for the first experiment were biopriming with Enterobacter + pseudomonas, for the second experiment biopriming with T36 fungus strain, and for the third experiment 50 ppm of gibberellin prime for 6 and 12 hours. The results showed that the majority of biopriming and hormone prime treatments improved the quality of parsley seeds so that the germination percentage in control seeds was 70%. This value increased by 31% compared to control treatment following priming with growth-stimulating bacteria (Pseudomonas+ Enterobacter), which showed the highest rate among all treatments applied in this study. The use of 50 ppm of gibberellin priming for 6 and 12 hours increased germination by 19% and 14% compared to the control treatment, respectively.
Conclusion: The results of this study showed that biopriming with Pseudomonas + enterobacter had the greatest effect on improving the quality and germination characteristics of parsley seed. In general, biopriming except for T42 fungi, and also gibberellin priming showed improvement in the quality and germination properties of parsley seed.

Highlights:
1. The effects of using biopriming and hormone prime are common, while it is not clear for parsley.
2. Biopriming with Pseudomonas+ enterobacter had the greatest effect on improving the quality and germination characteristics of parsley seeds.
3. Priming with T42 fungus reduced the quality and germination characteristics of parsley seeds.

Emad Shahmansouri, Zahra Abbasi,
Volume 10, Issue 1 (9-2023)
Abstract

Extended Abstract
Introduction: The selection of optimum planting date for every climate and mother bulb size are important factors affecting the quantity and quality of seed production in different cultivars. This study was performed in Isfahan province, Frieden, during two growing years 2016-2017 to determine the effect of planting time and mother bulb size on the quantity and quality of short-day onion seed varieties Texas Early Grano 502
Materials and Methods: A split-plot experiment was performed in a randomized complete block design with four replications. The main factor was cultivation dates at four levels: the end of August, the first of September, the end of September and the first of October and mother bulb size at three levels with 3.55, 5.5-7, and 7.5-9cm diameters were assigned as sub-plots. The measured traits were number of umbel per unit area, the number of fertilized capsules in umbel, the number of seeds per capsule, 1000 seed weight, seed yield and germination rate.
Results: The results of combined analysis of variance showed that effect of year was only significant on the number of capsules per umbel at p<0.01. The interactions of year× mother bulb diameter and year× planting date× mother bulb diameter were not significant for any of the traits. The traits were not affected by the year. The results showed that the planting date had a significant effect on all traits except for 1000 seed weight, and the first planting date (the end of August) had the highest values in all traits. The highest germination percentage (89.83%) and the highest germination rate (12.8) were obtained on the first planting date, which showed a statistically significant difference with the subsequent planting dates. However, these two traits were not affected by mother bulb diameter treatment. The highest seed yield for onion diameter factor (505.65 kg h-1in the first year and 465.78 kg h-1 in the second year) was associated with mother bulb size of 7.5-9 cm.
Conclusions: The overall result showed that to obtain the highest and most desirable quality of onion seeds of Texas Early Grano 502 cultivar in Friedan of Isfahan, the planting date of the first of September and the size of the mother bulb between” 7 to 9 cm is recommended.

Highlights:
1- Early planting time (the first of September) increased germination rate.
2- Increasing the mother bulb size increased the onion yield.

Ladan Zinati, Asieh Siahmarguee, Farshid Ghaderi-Far, Masomeh Yones-Abadi, Bhagirath Singh Chauhan,
Volume 10, Issue 1 (9-2023)
Abstract

Extended Abstract
Introduction: The different species of Amaranthus species are among the most important damaging weeds in the world. Due to the importance of studying the effect of management factors on seed dynamics of different weed species, this experiment aimed to investigate the effect of burial depth and high temperatures on the seed dynamic of different species of Amaranthus in Golestan province including white pigweed (A. albus), prostrate pigweed (A. belitoides), hybrid Amaranthus (A. chlorostachys), redroot pigweed (A. retrofelexus) and green Amaranthus (A. viridis) were performed.
Materials and Methods: This research was conducted on five amaranthus species of white pigweed, prostrate pigweed, hybrid Amaranthus, redroot pigweed, and green Amaranthus at the seed laboratory and greenhouse of Gorgan University of Agricultural Sciences and Natural Resources. In the first experiment, seed emergence of different species of Amaranthus was studied in eight burial depths including 0, 1, 2, 3, 4, 5, 7, and 10 cm. In the second experiment, seeds were exposed to 50, 60, 70, 80, 90, 100, and 110 °C temperatures for 5, 10, and 15 minutes
Results: All seeds of A. blitoides and A. viridis germinated in the topsoil (zero depth); But, in A. albus, A. retroflexus, A. chlorostachys, 93%, 83%, and 3% of the seeds were emergence at the soil surface, respectively. By increasing the burial depth to one centimeter, the percentage of seeds emergence in different species of Amaranthus decreased significantly and was negligible at 2 cm depth. Germination test performed on retrieved seeds showed that zero to 16% of the seeds were able to germinate in petri dish, and most of the non-germinated seeds were viable. In all species except for A. chlorostachys high temperatures reduced the germination percentage.
Conclusion: Due to the reduction of seed germination percentage of different species of Amaranthus from a depth of more than one centimeter of soil, it seems that the use of conservation and conventional tillage methods has a good potential to reduce infestation of fields by these weeds. Also, although high temperatures reduce weed infestation in fields, they do not have a significant effect on depleting the seed bank of these species.

Highlights:
1- Seed dynamics of different species of Amaranthus were affected by burial depth and high temperature
2- Deep burial of seeds of different species of Amaranthus causes the stability of their seeds in the soil seed bank.

Bijan Shadkam, Mohammed Hussain Gharineh, Amin Lotfi Jalalabadi, Seyed Amir Mousavi,
Volume 10, Issue 1 (9-2023)
Abstract

Extended Abstract
Introduction: Salinity stress is one of the important damaging factors for seed germination which interrupts the uptake of some nutrients by lowering soil water potential and causing ion toxicity due to salt accumulation inside the seeds. Since hyssop seeds are sensitive to salinity stress in the early stages of seed germination, it is necessary to investigate seed enhancement methods to improve seed germination in this species under saline conditions. In this research, the effects of seed priming using iron were studied on hyssop seed germination characteristics under salinity stress conditions.
Material and Methods: This research was conducted as two separate factorial experiments in complete random design with three replications. The treatments included five levels of iron nano-chelate and micro-chelate (zero, 50, 100, 200, and 400 mg /l) and six levels of salinity (zero, 50, 100, 150, 200, and 250 mM) and two priming durations. It included 12 and 24-hours.
Results: The results showed that with the increase in salinity, the germination characteristics declined so at 200 mM of salinity, seedling growth declined significantly and ceased completely at 250 mM level. Application of iron micro-chelate under non-stress conditions did not have any positive effect on hyssop germination, and the use of distilled water for 12 hours worked better than iron nano-chelate. No significant difference was observed among the different concentrations in micro-iron treatment. Application of nano and micro chelate at 100 and 150 mM salinity stress had a stronger effect so that nano iron chelate concentrations of 200 mg/L for 12 hours and 100 and 200 mg per liter concentrations of iron micro chelate had the highest germination, seedling growth, and seed germination in 24 hours. The amount of soluble protein and peroxidase and catalase activity increased at 50 mg/L salinity but decreased at higher salinities. Also, pretreatment of seeds with an iron micro-chelate and nano iron chelate concentration of 200 mg/liter intensified this process.
Conclusion: Conclusion: The results of this study showed that seed germination of hyssop is highly declined due to salinity stress, so the seedlings were unable to grow at a salinity concentration of 200 mg/L. Moreover, germination does not occur at 250 mg/liter salinity. Also, seed pretreatment of this plant is not justifiable under non-stress and mild stress conditions, and pretreatment with iron chelate had negative effects and was ineffective at best. However, iron chelate application at high salinity levels- especially in the nanoscale with a concentration of 200 mg/liter for 12 hours- is effective in reducing the effect of salinity.

Highlights:
1- The role of the iron element was investigated by seed pretreatment method to alleviate the negative effects of salinity stress on hyssop seed germination characteristics.
2- The nanotechnology used in the production of iron fertilizer and its effect on improving the germination characteristics of hyssop under salinity stress were investigated.

Fatemeh Mousavi Nadar, Hamzeh Amiri,
Volume 11, Issue 1 (9-2024)
Abstract

Extended abstract
Introduction: Allelopathy is the same as chemical warfare among plants. Today, global human efforts in agriculture are allocated towards reducing chemical pesticides and introducing new biological methods to control weeds. One of the proposed solutions for weed management is isolating allelochemical compounds from plants and using them as natural herbicides.
Materials and Methods: The present study was conducted to investigate some germination and biochemical properties of the weeds Taraxacum officinale, Achillea millefolium, Rumex acetosa, Althaea officinalis, and Amaranthus retroflexus As affectedby aqueous extract concentrations from the leaves of Thuja orientalis. The experiment was carried out in a completely randomized design with three replications. Aqueous leaf extracts of Thuja orientalis were used at concentrations of 0, 5%, 10%, 20% and 30%.
Results: The results showed that the aqueous leaf extract of Thuja orientalis had a significant effect on all the studied traits, and the highest inhibitory effect was observed at a concentration of 30% of the extract. In Taraxacum officinale, Achillea millefolium, Rumex acetosa, Althaea officinalis, and Amaranthus retroflexus, the germination percentage (93.33%, 88.55%, 48.3.%, 27.36%, and 40.5%), germination rate (100%, 76.36%, 39.28%, 71.72%, and 57.47%), germination coefficient (100%, 77.5%, 39.56%, 70.9%, and 51.47 %), germination index (57.2%, 72.6%, 84.61%, 72.5%, and 85.6%), peak value (67.9%, 48.7%, 61.4%, 70.9%, and 57%), germination value (43.2%, 39%, 46.9%, 53%, and 59.8%), daily germination speed (100%, 77.5%, 39.56%, 70.9% and 56.02%), seed vigor index (69.9%, 92.7%, 97.5%, 93.2%, and 92.1%), and relative water content (53.1%, 38.35%, 35.37%, 37.65%, and 47.1%) decreased compared with the control, while the mean germination time (51.6%, 71.6%, 50.7%, 60.3%, and 60.5%) and ion leakage (24.23%, 15%, 18.33%, 17.3% and 20.23%) increased compared with the control. The results of this study showed that the seeds of Taraxacum officinale were more sensitive to the inhibitory effects of the aqueous leaf extract of Thuja orientalis compared with the seeds of other studied weeds.
Conclusions: Considering the presence of monoterpene compounds such as alpha-pinene, sabinene, beta-phellandrene, and delta-carene, as well as phenolic compounds in Thuja orientalis, it seems that the allelopathic effects of this plant are mainly due to the presence of these secondary metabolites. The significant allelopathic effects of the aqueous leaf extract of Thuja orientalis at high concentrations can make it a potentially effective and environmentally friendly tool in controlling the studied weed species (Taraxacum officinale, Achillea millefolium, Rumex acetosa, Althaea officinalis, Amaranthus retroflexus) in this research.

Highlights:
  1. Leaf extract of Thuja orientalis has significant allelopathic effects on seed germination of the studied plants.
  2. Among the studied seeds, the seeds of the Taraxacum officinale plant are more sensitive to the aqueous extract of Thuja orientalis compared with others.
  3. The aqueous extract of Thuja orientalis leaves led to undesirable effects on the growth and seed germination of the studied plants by damaging cellular membranes.
 

Kamran Gharehbeygi Tavabea, Hamidreza Balouchi, Mohsen Movahhedi Dehnavi, Ali Moradi, Fatemeh Ebrahimi,
Volume 11, Issue 2 (3-2025)
Abstract

Extended abstract
Introduction: Poor seedling vigor is one of the major challenges in agriculture, as it reduces seed germination capacity and seedling establishment, directly impacting plant establishment and yield. The use of seed priming methods with chemicals and growth regulators can serve as an effective strategy to enhance seedling vigor and improve biochemical traits and seed germination. In this study, the enhancement of sweet corn seedling vigor through priming with ellagic acid, gibberellin, and potassium nitrate was investigated under accelerated aging conditions.
Materials and Methods: A factorial experiment was conducted in the Seed Technology Laboratory of the Faculty of Agriculture at Yasouj University in 2024, based on a completely randomized design with two factors. The first factor was accelerated seed aging at two levels (aged and non-aged), and the second factor was seed priming at eight levels (no prime, hydropriming, ellagic acid at two concentrations (25 and 100 mg/l), gibberellin at two concentrations (50 and 150 mg/l), and potassium nitrate at two concentrations (15 and 60 mg/l)). Biochemical traits and seed germination characteristics were measured ultimately.
Results: The findings of this study revealed that seed deterioration significantly reduced germination characteristics, including germination percentage and rate, shoot length, root length, and seedling vigor index (length and weight). Additionally, biochemical indices such as soluble sugar content and α-amylase enzyme activity were negatively affected by aging. On the other hand, seed deterioration increased proline content, malondialdehyde levels, and peroxidase enzyme activity, indicating heightened oxidative stress under aging conditions. Priming of deterioration seeds with ellagic acid, gibberellin, and potassium nitrate positively influenced germination characteristics and biochemical indices. Specifically, concentrations of 100 mg/l ellagic acid, 150 mg/l gibberellin, and 15 mg/l potassium nitrate were the most effective pretreatments.
Conclusion: The results of this research demonstrated that pretreatment of deteriorated Basin sweet corn seeds with ellagic acid, gibberellin, and potassium nitrate significantly improved germination and biochemical indices. These treatments mitigated the negative effects of seed aging, enhancing seedling vigor and establishment. Therefore, these priming can be recommended as effective methods to improve the quality of Basin sweet corn seeds under various agricultural conditions.

Highlights:
  1. Seed deterioration leads to an increase in biochemical indicators such as seed proline content, peroxidase enzyme activity, and seed malondialdehyde content.
  2. The vigor of Basin sweet corn seeds is improved through pretreatment with gibberellin and ellagic acid.
  3. The effect of priming before and after artificial deterioration on germination and seed vigor of sweet corn cultivar Basin was compared and investigated.


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