RU2842025C2 - Method of maintaining viability of seeds of woody plants with hard shell - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: disclosed is a method for obtaining seed material of white acacia, yellow acacia and Gleditsia, which includes treatment of seeds before laying for storage, storage of seeds and pre-sowing activation of their vital activity. Before laying for storage, seeds are placed in a drying cabinet for 2.5–4.5 hours at temperature of 45–65 °C, seeds are stored at temperature of 21–24 °C and relative air humidity 45–60%. At the same time moisture content of seeds when laying for storage in white and yellow acacia is 9–12%, and 10–11% in Gleditsia, and pre-sowing treatment is carried out with concentrated sulfuric acid 95.72%.

EFFECT: invention is aimed at obtaining sound and viable seeds, increasing the storage life of seeds without the risk of pest infestation, increased germinating capacity of seeds and growth energy of hypocotyl and improved development of organogenesis of seeds of woody plants with hard shell.

1 cl, 1 dwg, 2 tbl

Description

The invention relates to agriculture, in particular to seed science, and can be used in growing forest crops to preserve and increase the percentage of viability of seeds of woody plants with a hard shell during storage and find application in preparing these seeds for sowing and activating the vital activity of young plants in the phases of seed germination, sprout formation, leaf and stem stages.

When activating the vital activity of planting material, it is necessary to take into account the biological characteristics of the seeds - water permeability, hardness of the outer cover, underdevelopment of the embryo, the degree of damage by pests, etc.

In hard-shelled woody plant seeds, such as those of the Gleditsia and Robinia genera, physiological dormancy must be broken to ensure successful germination, since the seed coat of such plants consists of dense outer covering tissues that limit the flow of water and air to the embryo and delay the onset of germination. Before breaking physical dormancy, seeds must be protected from pests and diseases so that they retain their usefulness. Many pests enter the seed already at the flowering or fruit set stage, and diseases develop in a humid environment.

To reduce the occurrence of pests, it is recommended to carry out a number of measures, namely spraying with insecticides before flowering, this method is not economically advantageous. Freezing the seed material stops the development of pest larvae, but does not destroy them. The optimal storage temperature for seeds is + 6-8 ° C, which leads to an increase in the reliability of preserving their viability and to a decrease in operating costs during their storage. But at this temperature, pest larvae develop well, to an adult insect at a temperature above + 5 ° C the process takes about 4 days. Insects go beyond the seed when they do not have enough food, significantly damaging the endosperm, and the seeds after the pest become unviable.

The typical issues that arise in the field of broad spectrum pest control are based on the need to reduce the dosages of active ingredients in order to reduce or minimize adverse environmental or toxic effects while still allowing effective control of pests and pathogens.

During storage, the quality of seeds is affected by a complex of environmental factors: humidity, temperature, gas exchange, the composition of the atmosphere of the storage or packaging, the nature of the seed covers, the degree of maturity, and microflora. The factors that limit the storage duration of viable seeds primarily include temperature and humidity. Usually, the lower the temperature and the lower the moisture content in the storage, the longer the seeds remain viable.

A composition and method for increasing the viability of plants are known (RU 2430514 C2, 10.10.2011, A01N 51/00). The invention concerns a pesticide mixture of active ingredients for plant protection, including as active components a neonicotinoid and boscalid in synergistically effective amounts, and a method for increasing the viability of plants by treating the plant or its growing site with a mixture:

1. Pesticide mixtures containing a neonicotinoid and boscalid in synergistically effective amounts.

2. Pesticide mixtures according to item 1, including a neonicotinoid and boscalid in a weight ratio of 100:1 to 1:100.

3. Pesticide mixtures according to item 1, additionally including pyraclostrobin.

^A. Pesticide mixtures according to claim 3, including a neonicotinoid, pyraclostrobin and boscalid, in which any two ingredients in the mixture of three ingredients are contained in a ratio of from 100:1 to 1:100 to each other.

5. Pesticide mixtures according to paragraphs 1-4, additionally including metal axil.

6. Pesticide mixtures according to item 5, including metalaxyl, in which any two ingredients in a mixture of 2-4 ingredients are contained in a ratio of 100:1 to 1:100 to each other.

7. Pesticide mixtures according to any one of claims 1 to 6, wherein the neonicotinoid is thiamethoxam.

8. Pesticidal mixtures according to any one of claims 1 to 6, wherein the neonicotinoid is clothianidin.

9. Pesticide mixtures according to any one of claims 1 to 6, wherein the neonicotinoid is acetamipril.

10. Pesticide mixtures according to any one of claims 1 to 6, wherein the neonicotinoid is imidacloprid.

11. A method for increasing the viability of plants which comprises applying, in any desired sequence, simultaneously, namely together or separately, or sequentially, synergistically effective amounts of the individual components of a pesticide mixture according to any one of claims 1 to 10.

12. A method for controlling or preventing fungal infection of plants, plant parts, seeds or their growing places, which comprises applying in any desired sequence, simultaneously, namely together or separately, or sequentially, synergistically effective amounts of individual components of a pesticide mixture according to any of paragraphs 1-10.

13. The method according to claim 11 or 12, wherein the mixture defined in claims 1-10 is applied in an amount from 0.1 g/ha to 2000 g/ha.

14. A method for protecting seeds, comprising contacting the seeds before sowing and/or after preliminary germination with the mixture defined in paragraphs 1-10, in synergistically effective amounts.

15. Plant propagation material treated with the mixture specified in paragraphs 1-10.

16. The propagation material of the plant according to paragraph 15, in which the propagation material is seeds and it is used in an amount from 0.1 g to 5 kg per 100 kg of seeds.

Disadvantages include repeated and exclusive use of an individual pesticide compound, which often leads to rapid selection of pests or pathogens with developed natural or adapted resistance to this active compound. Only various seeds of agricultural crops, various types of fruits, vegetables, seeds of spices and ornamental plants are suitable for treatment; there is no experience with tree and shrub species, and there are no results on the effectiveness of these mixtures for combating the grain beetle Megabruchidius dorsalis (the main pest of the honey locust species Gleditsia L.). At the same time, chemical pesticides have potentially adverse effects on the environment.

A method for combined disinfection of grain and seeds using microwave energy (RU 2640288 C9, 27.12.2017, A01C 1/00), including moistening the grain and seeds with water and their subsequent processing, characterized in that dry grain and seeds, cleaned of impurities, are supplied for disinfection, the processing of which is carried out in five successive stages: at the first stage, the grain and seeds moving in the flow are moistened uniformly throughout the layer volume with water, the amount of which is determined by the complete saturation of their fruit coats with moisture; at the second stage, the grain and seeds are cooled until moisture penetrates the peripheral layers of the endosperm or cotyledons and, at the same time, periodically or continuously mixed; at the third stage, the grain and seeds, continuously fed in a dense layer, are blown with a heated coolant; at the fourth stage, the preheated grain and seeds continuously moving in a dense layer are treated in an ultra-high frequency electromagnetic field that ensures a heating level of the grain material and seeds that does not reduce their quality indicators; at the fifth stage, the grain and seeds moving in the flow are treated uniformly throughout the layer with a disinfecting aqueous solution, a disinfecting aqueous suspension or a disinfecting aqueous emulsion of a pesticide or several types of pesticides containing a reduced concentration(s) of chemical dressings, the value(s) of which is(are) a dose(s) that replaces the standard dose(s) of the pesticide(s) in the solution or mixture, but the dose(s) used cannot be less than 25-55% of the standard dose(s) of the pesticide(s) contained in the solution or mixture.

2. The method according to paragraph 1, characterized in that after the third stage of processing, the grain and seeds are partially cooled, ensuring a reduction in their temperature by no more than 3-8°C from the heating temperature at the third stage, and then the grain and seeds are sent to the fourth stage.

3. The method according to paragraphs 1 and 2, characterized in that after the fourth stage of processing, the grain and seeds are cooled and then sent to the fifth stage.

4. The method according to paragraphs 1 and 2, characterized in that at the fifth stage the grain and seeds are treated with a disinfecting aqueous solution, a disinfecting aqueous suspension or a disinfecting aqueous emulsion of several types of pesticides, in which at least one of the components of the solution or mixture has a reduced concentration of pickling chemicals.

5. The method according to paragraph 3, characterized in that at the fifth stage the grain and seeds are treated with a disinfecting aqueous solution, a disinfecting aqueous suspension or a disinfecting aqueous emulsion of several types of pesticides, in which at least one of the components of the solution or mixture has a reduced concentration of seed dressing chemicals.

6. The method according to paragraphs 1, 2 and 4, characterized in that after the fifth stage of processing, the grain and seeds are cooled.

7. The method according to paragraphs 1-5, characterized in that after the fifth stage of processing, the grain and seeds are dried to a moisture content that is safe for storage at a temperature of the grain material and seeds that does not reduce their quality indicators, and, if necessary, cooled.

The disadvantages of the method are the low level of reduction of the total contamination of seeds due to the inhibition of a narrow species composition of pathogens of grain, contained mainly on the surface of its particles; low productivity of the method for the processed material and a long duration of the disinfection process. The recommendations are suitable only for grain crops.

The closest analogue (prototype) to the proposed invention at the stage of seed storage is a method for preserving the viability of irradiated seeds (RU 2196408 C2, 20.01.2003, A01C 1/00, A01F 25/14) and a method for long-term storage of plant seeds using the natural cold of the permafrost layer (RU 2391810 C2, 20.06.2010, A01F 25/00).

A method for preserving the viability of irradiated seeds (RU 2196408 C2, 20.01.2003, A01C1/00, A01F 25/14) including gamma irradiation and storage of seeds under hypoxic conditions, characterized in that the seeds are isolated from the external environment with film-forming air- and water-impermeable substances 20-30 days before gamma irradiation and the film is preserved on the seeds until sowing and germination.

The disadvantage of this method is that its implementation is associated with the expenditure of energy and resources to achieve hypoxia, in addition, the presence of appropriate equipment and capacity is necessary.

A method for storing plant seeds using the natural cold of permafrost rocks (RU 2391810 C2, 20.06.2010, A01F 25/00), characterized in that the seeds are placed in hermetically sealed containers and stored in underground storage facilities created in the thickness of permafrost rocks in a layer with a constant temperature corresponding to the optimal temperature for storing seeds - minus 6-8°C, which leads to an increase in the reliability of preserving their viability and to a reduction in operating costs during their storage.

The disadvantages include the use of natural cold of the cryolithozone with a temperature of minus 6-8°C, constant throughout the annual cycle, without additional energy costs for creating artificial cold, which is unacceptable for southern regions. The method of storing plant seeds using the natural cold of permafrost rocks has been developed specifically for agricultural crops; in our invention, the emphasis is on seeds of woody plants with a hard shell.

A method for stimulating the germination of legume and hard-seeded plant seeds and a device for implementing it are known (RU 2601588, 10.11.2016, A01C 1/00). The method includes mechanical scarification, characterized in that the seed scarification process is carried out for 1.5-5.0 minutes on a linen cloth or metal grate.

1. A method for stimulating the germination of seeds of legumes and hard-seeded plants, including mechanical scarification, characterized in that the seed scarification process is carried out for 1.5-5.0 minutes on a linen cloth or metal grate.

2. A device for implementing the method according to paragraph 1, comprising a hand scarifier and a base frame, characterized in that the base frame contains: its upper (3) and lower (2) parts in the form of a frame, fastened together with fasteners (8); replaceable: a metal grid (5) or linen cloth (5'), and the hand scarifier consists of: a scarifier handle on a plastic body (1); a locking bar (9); a rubber gasket (4); a hard gasket (6); abrasive paper (7).

The disadvantages include the labor-intensive nature of the process, the scarification of seeds in this way slows down germination and emergence during dry periods with a lack of moisture in the soil, and the lack of recommendations for woody crops.

A method for stimulating the germination of hard seeds of leguminous grasses is known (RU 2151479 C1, 27.06.2000, A01C 1/00). The method for stimulating the germination of hard seeds of leguminous grasses includes mechanical scarification with the addition of materials that enhance the disruption of the outer shell, characterized in that scarification is carried out with the addition of zeolite-containing clays-irlites in a ratio of 1:2.

The disadvantages include the labor-intensive nature of the process when preparing small-seeded legume crops and the scarification of seeds, which slows down germination in dry periods when there is insufficient moisture in the soil, and the lack of recommendations for woody crops.

A method for pre-sowing treatment of larch seeds to accelerate and increase the germination percentage, including keeping wet seeds under snow and drying them to a loose state (RU 2683543 C1, 28.03.2019, A01C 1/06), characterized in that before laying the seeds for stratification, they are treated with tetramethylthiuram disulfide TMTD at a rate of 4.0 g per 1 kg of seeds, after drying they are packed in canvas bags, while the seed layer should be no more than 2 cm, kept before sowing for two months, immediately before sowing the seeds are soaked in 0.2% potassium permanganate for 10-15 minutes, for pickling from fungal diseases they are then soaked for 3 hours in a solution of Biopreparation Zircon, then the seeds are dried and sow.

The disadvantages of the method are that the method was developed for specific natural growing conditions and is not universal, since not all types of woody plants grow in the arid conditions of the steppe of southern Russia, including larch.

The applicant’s analysis of known decisions on patent and scientific sources of information allowed us to establish that the claimed invention meets the requirement of “novelty” under current legislation.

The goal is to obtain high-quality and viable seeds, increase the shelf life of seeds without the risk of pest infestation, increase seed germination and hypocotyl growth energy, and improve the development of organogenesis of hard-shelled woody plant seeds.

The present invention is based on the task of increasing the quality and viability of seeds of tree crops with a hard seed coat, increasing the shelf life of seeds without the risk of pest infestation.

The technical result is the production of high-quality seed material with maximum preservation of seed endosperm and viable potential of seedlings while simultaneously reducing time and energy costs during storage and pre-sowing treatment of seeds.

The technical result is achieved by a method for obtaining the viability of hard-shelled woody plant seeds, including heat treatment of the seed material in a drying cabinet, depending on the humidity and mass of the original material for 2.5-4.5 hours at a temperature of 45-65°C, followed by storage. In the method for preserving the viability of hard-shelled woody plant seeds, various drying cabinets are used, the main thing is to correctly regulate the temperature and processing time.

After the drying cabinet, the seeds consume less moisture, the development process of the larva is suspended, and the pest dies inside the seed. If the pest larvae die at the second stage of development, the seed retains its viability (Fig. 1).

The essential distinguishing feature of the declared technical solution, which influences the achievement of the declared technical result, are:

- destruction of pest larvae in a drying cabinet, depending on the humidity and weight of the source material, for 2.5-4.5 hours at a temperature of 45-65°C;

- carrying out the process of destroying the larvae before the second stage of pest development preserves the viability of the seeds;

- storing seeds at a temperature of +21-24°C and a relative air humidity of 45-60% while maintaining a certain seed moisture content when planting and during storage (as a percentage of absolute weight: white and yellow acacia 9-12%, honey locust 10-11%);

- pre-sowing treatment with concentrated sulfuric acid (95.72%) in order to disrupt physiological dormancy and activate vital activity to increase seed germination to 99% and hypocotyl germination energy to 96% and improve the development of organogenesis of seeds of woody plants with a hard shell (a full-fledged sprout is formed on the 14th day after sowing).

The invention makes it possible to increase the shelf life of seeds without the risk of pest infestation, promotes an increase in the percentage of seed germination and the growth energy of the hypocotyl, and improves the development of organogenesis of seeds of woody plants with a hard shell (Table 1, 2).

The data presented in tables 1 and 2 indicate high efficiency of the method of seed treatment in a drying cabinet for 3 hours at a temperature of 50°C before placing in storage, storage at a temperature of 21-24°C and a relative air humidity of 45-60%, while the seed moisture when placing in storage for white and yellow acacia should be 9-12%, for honey locust - 10-11%, at the final stage of this method - violation of physiological dormancy and activation of vital activity consists in pre-sowing treatment with concentrated sulfuric acid (95.72%), which leads to an increase in seed germination to 99% and hypocotyl germination energy to 96% and an improvement in the development of organogenesis of seeds of woody plants with a hard shell (a full-fledged sprout is formed on the 14th day after sowing).

Thus, the claimed method ensures the production of high-quality and viable seeds with an increased shelf life of seeds without the risk of pest infestation, contributes to an increase in the high percentage of seed germination and the growth energy of the hypocotyl and improves the development of organogenesis of seeds of woody plants with a hard shell.

The implementation of the invention will allow:

- to preserve the seed gene pool of promising tree and shrub species and improve their range for forest reclamation and landscaping of the arid zone of the steppe arid regions of southern Russia;

- improve the condition of protective plantings by organizing our own seed base based on the selection of the most resistant species, forms, hybrids of trees and shrubs;

- increase productivity, sustainability and quality structure of plantings and forest planting material, resistance to adverse environmental factors, pests and diseases.

Literature:

1. Balakina, A.A. Study of the structure and composition of the seed coat of honey locust and some changes in its structure during swelling / A.A. Balakina, E.E. Nefedyeva, Yu.S. Larikova // Agrarian Bulletin of the Urals. - 2021. - No. 3 (206). - P. 46-52. -. DOI: 10.32417/1997-4868-2021-206-03-46-52

2. Features of changes in the structure of the seed coat of Gleditsia triacanthos L. during germination / A.A. Balakina, E.E. Nefedyeva, K.G. Tutarashvili, Ya.I. Khramova // News of higher educational institutions. Volga region. Natural sciences. - 2021. - No. 4 (36). - P. 24-33. - DOI 10.21685/2307-9150-2021-4-3

3. Patent RU 2196408 C2, IPC AO 1C 1/00, A01F 25/14. "Method for preserving the viability of irradiated seeds": No. 2001102200/13: declared 24.01.2001, published 20.01.2003 / V.I. Levin; applicant Ryazan State Agricultural Academy named after prof. P.A. Kostychev. - EDN YNTEYB.

4. Patent RU 2430514 C2, IPC A01N 51/00, A01N 43/40, A01P 3/00. "Composition and method for increasing plant viability": No. 2007134973/04: declared 20.02.2006, published 10.10.2011 / D. Feste, M.P. Maskianika, H. Ipema, H.V.T. Kotter. - EDN HRKILW.

5. Patent RU 2391810 C2, IPC A01F 25/00. "Method for long-term storage of plant seeds using the natural cold of permafrost rocks": No. 2008103456/12: declared 30.01.2008, published 20.06.2010 / B.M. Kershengolts, A.N. Zhuravskaya, B.I. Ivanov [et al.]; applicant Institute of Biological Problems of the Cryolithozone, Siberian Branch of the Russian Academy of Sciences. - EDN SFYSWX.

6. Patent RU 2601588 C1, IPC A01C 1/00. "Method for stimulating germination of seeds of legumes and hard-seeded plants and device for its implementation": No. 2015118265/13: declared 15.05.2015, published 10.11.2016 / O.N. Zmeeva, L.D. Proskurina, L.V. Petrova; applicant Federal State Budgetary Scientific Institution Siberian Federal Scientific Center of Agrobiotechnology of the Russian Academy of Sciences (SFSC RAS). - EDN VZPMZZ.

7. Patent RU 2640288 C1, IPC A01C 1/00. "Method for combined disinfection of grain and seeds using microwave energy": No. 2017101178: declared 13.01.2017, published 27.12.2017 / V.I. Pakhomov, A.I. Pakhomov, K.N. Bukhantsov, V.A. Maksimenko; applicant: Federal State Budgetary Scientific Institution "Agrarian Scientific Center "Donskoy".

8. Patent RU 2683543 C1, IPC A01C 1/06. "Method for pre-sowing treatment of larch seeds to accelerate and increase the percentage of germination": No. 2018131512: declared 31.08.2018, published 28.03.2019 / E.G. Kazakova; applicant Limited Liability Company "Siledia". - EDN ZDUIWD.

9. Khuzhakhmetova, A.Sh. Features of pre-sowing treatment of common honey locust seeds for its nursery production / A.Sh. Khuzhakhmetova, K.A. Melnik, A.I. Peredrienko // Scientific and Agronomic Journal. - 2023. - No. 2 (121). - P. 41-45. - DOI 10.34736/FNC.2023.121.2.007.41-45. - EDN SGXTDL.

10. Shamsutdinov, N.Z. Mechanical, chemical and biological methods of stimulating germination of hard seeds. Agricultural biology, N3, 196, p. 20. SU 1802977 A1, 23.03.93. SU 1793836 A3, 07.02.93. SU 1407426 A1, 07.07.88.

11. Kalmykova, E.V. Growth and development of seedlings of Robinia pseudoacacia (L.) for the production of planting material in conditions of chestnut soils south of the Russian Federation / E.V. Kalmykova, P.A. Kuzmin, K.A. Melnik // Research on Crops. - 2023. - Vol. 24, No. 2. - P. 357-365. - DOI 10.31830/2348-7542.2023.ROC-943. - EDN NJRSMJ.

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Claims (1)

A method for obtaining seed material of white acacia, yellow acacia and honey locust, including seed treatment before placing in storage, seed storage and pre-sowing activation of their vital activity, characterized in that before placing in storage the seeds are placed in a drying cabinet for 2.5-4.5 hours at a temperature of 45-65°C, the seeds are stored at a temperature of 21-24°C and a relative air humidity of 45-60%, while the seed moisture when placing in storage for white and yellow acacia is 9-12%, and for honey locust - 10-11%, and pre-sowing treatment is carried out with concentrated sulfuric acid 95.72%.