RU2069940C1 - Method of presowing wheat seeds treatment - Google Patents

Abstract

FIELD: agriculture, plant protection. SUBSTANCE: before sowing wheat seeds were treated with an aqueous suspension involving "Baitan" and preparation 26-O-beta-D-glucopyranoside pentaoside-2-alpha, 3-beta,22-alpha-26-furostan-5-alpha-tetraol at the following ratio of components, g/l: "Baitan" 3.0-7.5; 26-O-beta-D-glucopyranoside pentaoside-2-alpha, 3-beta,22-alpha-26-furostan-5-alpha-tetraol 0.1. Method ensures to decrease wheat damage to 0.1-0.2 point, increase the total biomass by 67.3 and 42.2%, respectively, decrease pesticide loading. EFFECT: improved method of treatment.

Description

 The invention relates to agriculture, namely to the protection of plants, and can be used for the treatment of seeds of grain crops, in particular wheat.

 Adverse environmental factors and diseases lead to a decrease in the adaptive abilities of plants and their productivity.

 Known methods for increasing plant resistance to adverse environmental factors by treating seeds with TMTD, fentiram, and tigam (List of chemical and biological agents for controlling pests, plant diseases and weeds, plant growth regulators approved for use in agriculture for 1986-1990, M , 1987, p. 71, 73, 75).

 However, these drugs have a number of significant drawbacks. TMTD-tetramethylthiuramid disulfide organic disinfectant. Tigam consists of 50% TMTD and 20% gamma isomer HCH hexachloran, one of the analogues of DDT - a drug that is prohibited for use. Fentyurams include 40% TMTD and 10% THFM + 20% gamma-isomer HCD, i.e. these drugs are strong poisons, which limits their use in agriculture.

 As you know, in the field, seeds fall into the soil, usually populated by fungi and bacteria, including pathogens of seed diseases. Low temperatures and their differences in the early stages of otogenesis also have an adverse effect on plant growth and development. Due to this, the seedlings are very weak, later break through to the surface of the soil, easily damaged by pests, grow poorly and develop.

 Well-known drugs do not provide comprehensive protection of crops from the effects of adverse factors, which requires additional chemical treatments.

 At present, Baytan is used as a seed dressing agent for grain crops. However, Baytan has pronounced toxicity, in connection with which we were tasked with providing a comprehensive highly effective protection of seeds and seedlings in adverse biotic and abiotic conditions, while reducing the pesticidal load.

 The problem is solved in that the seeds of wheat before sowing are treated with an aqueous suspension, including Baytan and Moldstim, with the following ratio of components: Baytan 3.0-7.5 g / l, Moldstim 0.1 g / l (concentration of Moldstim used in production) .

 Moldstim is the official name of the drug 26-0-β-D-glucopyranoside-pentaoside-2a, 3b, 22a-26-furostan-5a-tetrasla. The method for producing the drug is to extract the seeds of Capsiueum Annum peppers. 70% methyl alcohol. Isolation and identification of a substance are described in Chem. Ber 1975, No. 108, No. 1, pp. 265-272.

The method is as follows. In the experiments, wheat seeds are used (variety Odessa 51). For infection, a pathogenic isolate of the fungus Fusarium gramenearum Sch. one of the most common root rot pathogens. For this purpose, the isolate propagates on sterile wheat grains and 25 g of infected grains are added to a vessel with 600 g of sand. The fungus is germinated for 3 days in wet sand at an optimum temperature of 22-24 ^o , after which it is well mixed for uniform distribution of infection in the substrate.

 The composition is prepared immediately before seed treatment by mixing 0.1 g / l Moldstim with the required amount of Baytan (concentrations of 30, 15, 7, 5, 3 g / l were tested). The most effective combination was: Baytan 7.5 g / l + Moldstim 0.1 g / l. The maximum concentration of Baytan of 30 g / l was taken at the rate of 15% technical Baytan content in 200 g of universal Baytan. (The rate of consumption of Baytan 200 g / 100 kg of wheat used in production was observed by spraying 12 g of seeds, weight of 200 pcs of seeds grown in 2 cups of 1 ml of Baytan suspension at a concentration of 30 g / l).

 Treated seeds are sown in an amount of 100 pcs, in each vessel. In each embodiment, there were 2 vessels.

Example. Odessa seeds of wheat 51 are sprayed with a suspension of the appropriate solutions, dried at room temperature and sown in prepared vessels with sand in 100 pieces. everyone. The vessels are placed in climatic chambers and grown for 10 days at the optimum temperature: 20-22 ^o day and 16-18 ^o night. Then from each option, one vessel is placed in a climatic chamber with a reduced temperature: 10-12 ^{o in the} afternoon and 6-8 ^o at night. After 7 days, the plants are returned to optimal conditions for repair and continue growing for 5 days. The standard is seeds treated only with Baytan, control seeds sprayed with water. Accounting for the energy of germination and germination of seeds is carried out on the 4th and 7th day, respectively, according to GOST (Seeds of agricultural crops, 1978).

 Plant damage was assessed by the area of necrosis on the basal part of the stem according to the generally accepted five-point scale: 0 healthy plants, 0.1 necrosis in the form of a point, 1 weak lesion, 2 severe lesion, 3 severe rot leading to plant death. The following indicators are taken into account: 1) germination energy and germination of seeds, 2) the length of the germinal root, 3) the susceptibility of plants and the accumulation of dry biomass (weight of stems and roots). The data are presented in tables 1-4.

 The results allow us to draw the following conclusions: 1) Baytan in the maximum used concentration (30 g / l) has a certain inhibitory effect compared with the control (uninfected) plants growth and development of this variety of wheat).

 2) Moldstim at a concentration of 0.1 g / l is effective for increasing seed germination energy (by 20%) and the accumulation of total dry biomass by wheat plants, by 41.3% and 42.0%, respectively, at optimal and low temperatures.

 3) Under the conditions of plant G infection, these preparations showed the following effectiveness: Baytan (30 g / l) increased germination energy by 13%, seed germination by 16.1%, 38.2% more than the length of the germinal root at the optimum temperature, by 11 , 0% and 20.0% more dry biomass of stems and roots at optimal temperature.

 Moldstim at a concentration of 0.1 g / l showed the following stimulatory effects, 47.2% and 16.1% more germination energy and seed germination compared to infected plants, 23.4% more than the length of the germinal root at the optimum temperature, 45.3% and 60.0% dry matter of the stems and roots at an optimum temperature, and 30.4% and 69.0% dry matter of the stems and roots at a low temperature. 4) When wheat plants are affected by G.

 In a strong degree of 2.0 and 2.5 points at both temperature conditions, the co-treatment with Baytan (7.5 g / l) turned out to be the most effective, in which the susceptibility decreased to 0.1-0.2 points, and the total biomass increased by 67 , 3% and 42.2%, respectively, under the indicated conditions, compared with infected plants.

 Therefore, the proposed method allows to provide comprehensive highly effective protection of seeds and seedlings of grains in adverse biotic and abiotic conditions: to reduce the susceptibility of wheat F.graminearum Sch 0.1-0.2 points (both at low and optimal temperatures) and increase the total biomass by 67.3 and 42.2%, respectively.

 In addition, the proposed method makes it possible to reduce the pesticidal load, since the concentration of Baytan decreases from 30 g / l to 7.5 g / l (optimal concentration).

Claims (1)

A method of pre-sowing treatment of wheat seeds, comprising spraying the seeds with triadimenol, characterized in that before spraying, tri-dimenol additionally introduce 26-O-β-D-glucopyranoside pentazide -2α, 3β, 22α, 26-furost-5α-tetraol in the following ratio of components g / l:
Triadimenol 3.0 7.5
26-O-β-D-glucopyranoside-pentaoside-2α, 3β, 22α, 26-furost-5α-tetraol 0.1

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