Abbas Dehshiri, Mojtaba Karimi, Mohammadhasan Asareh, Aidin Hamidi, Zahra Karbalaeiharoftah, Fazlolla Safikhani,
Volume 8, Issue 1 (9-2021)
Abstract
Extended abstract
Introduction: Small size of Satureja (Satureja hortensis L.) seed causes many problems in mechanized cultivation and its seed consumption is increased significantly. The approach discussed in the present study is the seed coating of Satureja by several matters and selecting the suitable method as well as investigation of adding hormonal and nutritional substances to the selected coating material for better emergence and the elimination of problem arise as a result of coating.
Materials and Methods: Purified Satureja seeds (97%) were prepared and poured into the coating machine at a specified amount. First, 1% solution of benomyl fungicide was sprayed on the seeds. Then some coating powder was sprayed on the spinning wet seeds inside the machine. Then some of the adhesive solution was sprayed on it and again the coating powder was added and this was repeated several times to create a suitable form for the coated seeds. This was repeated using different materials and among these coatings powder, vermiculite and perlite provided better coating on Satureja seed. Then, different materials including gibberellin, BAP, cytokinin, thiourea (CH4N2S) and potassium nitrate (KNO3), phosphorus from H2PO4 source and manganese sulfate (MnSO4) were used to the emergence of the enlarged seeds and also, the emergence of these seeds were evaluated in the greenhouse.
Results: Initial results showed that vermiculite and perlite provided better cover for Satureja compared with the other coating materials. Investigating the emergence of perlite-coated seeds in the greenhouse showed that gibberellin (all concentrations) and kinetin (500 mg/l) present in the seed coat improved the Satureja seed emergence under greenhouse condition. Also, it was found that Thiourea (700 and 7000 mg/l), potassium nitrate (7, 70, 700 mg/l), phosphorous (9 kg/100 kg seed) and manganese sulphate (2 and 4 mg/l) present in the coat significantly increased the Satureja seed emergence and led to improved seedling growth.
Conclusion: Perlite for the purpose of seed pelleting of Satureja showed good results and the use of gibberellin (at all concentrations) and quintine (500 mg/l) in the seed pelleting improved germination of pelleted Satureja seed.
Highlights:
1- Technical knowledge of Satureja seed pelleting was obtained.
2- The suitable material to improve the emergence of pelleted Satureja seed was introduced.
Gilla Nazari, Mohammad Sedghi, Raouf Seyed Sharifi,
Volume 11, Issue 1 (9-2024)
Abstract
Extended abstract
Introduction: Germination and seedling growth are one of the most important stages of plant growth, which determine the degree of success of agricultural systems in production. Seed deterioration due to storage conditions is a challenge that results in diminished germinability poor seedling establishment, the loss of seed vigor, and finally seed mortality. Thus, it is necessary to use methods to increase seed germinability and enhance seedling establishment. The use of plant hormones is one of the methods that can increase seed germinability and optimal plant growth under seed deterioration conditions. Seed priming with plant hormones is among simple and cheap methods to improve seed germination, accelerate seedling growth and establishment, germination uniformity, and production of vigorous seedlings. The purpose of this experiment is to determine the most effective pretreatments of growth hormones to improve the germination and seedling establishment characteristics of deteriorated triticale seeds.
Materials and Methods: To examine the effect of priming on germination indices and some biochemical traits of deteriorated triticale seeds, a factorial experiment was performed in a completely randomized design with three replications at the Laboratory of Seed Science and Technology, Faculty of Agriculture and Natural Resources, University of Mohaghegh Ardabili in 2023. Treatments included seed deterioration (5%, 15%, and 25%) and priming (no prime, distilled water, cytokinin, spermidine, salicylic acid, and auxin).
Results: The results showed that seed deterioration reduced the germination percentage. Priming reduced the effect of seed deterioration and improved the germination percentage by 36.9%. As seed deterioration increased, radicle length, seedling length, vigor index, protein content, and protease activity decreased, whereas priming mitigated the effect of seed deterioration on these traits. At the lowest level of seed deterioration (25%), priming with auxin increased radicle length, plumule length, protease activity, and seedling length vigor index by 72.07, 62.06, 73.27, and 77.06, respectively, compared with no priming.
Conclusions: In general, it seems that triticale seed priming with auxin can invigorate deteriorated seeds and increase germination and seedling production uniformity.
Highlights:
- Auxin pretreatment had the greatest effect on improving the quality and germination characteristics of deteriorated triticale seeds.
- Effects of using growth regulators pretreatment were investigated in deteriorated triticale seeds.
