RU2781489C1 - Method for stimulating the growth of barley - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture. The method for stimulating the growth of barley includes spraying plants with 0.02% aqueous solution of a growth stimulant consisting of 25% pine tar, 5% emulsifier and distilled water being the rest, in the tillering phase of plants in an amount of 60 ml/ha.

EFFECT: proposed method for stimulating the growth of barley provides an increase in the immunity of plants against fungal and bacterial diseases, increases the number of productive stems, increases the quantity and quality of grains in the stem.

1 cl, 8 tbl

Description

The invention relates to the field of agriculture, in particular, to a method of using a growth stimulator based on pine tar, which positively affects the vegetation of plants and increases the yield of crops.

Growth regulators, along with fertilizers and plant protection products, occupy one of the priority places in the system of chemical support for agricultural production [Kovalev V.M. On the improvement of technologies for the production of agricultural products at the present stage of development of the agro-industrial complex // S.-kh. biology. - 2005. - No. 5. - S. 10-14 (1); Prusakova L.D., Malevannaya N.N., Belopukhov S.L., Vakulenko V.V. Plant growth regulators with anti-stress and immunoprotective properties / Agrochemistry. - 2005. - No. 11. - S. 76-86 (2)].

The use of growth regulators in agricultural production is aimed at reducing the harmful effects of pathogenic organisms, preventing crop lodging, grain runoff, increasing yields and improving the quality of grown products, accelerating ripening, improving fruit set, and facilitating mechanized harvesting [Vakulenko V.V. Growth regulators // Protection and quarantine of plants. - 2007. - No. 12. - S. 24-26 (3)]. The adaptogenic effect of the preparations of this series consists in leveling stressful effects caused by a sharp change in growing conditions [Morozov V.I., Morozov A.I., Pushkina G.P. Growth regulators in the rooting of sea buckthorn // Protection and quarantine of plants. - 2005. - No. 1. - S. 30 (4)].

In the conditions of the south of the Non-Chernozem zone of the European part of Russia with an unstable climate (uneven precipitation, frequent droughts, return and early frosts), the result is often unpredictable and undesirable.

Diseases can be attributed to more predictable negative factors. On grain crops in the Middle Volga region, rust and powdery mildew fungi, septoria blotches cause great harm. The use of fungicides and biologically active preparations to protect cultivated plants is one of the promising areas of modern agriculture.

In many farms of the Middle Volga region, more than half of the arable land in the structure of sown areas is occupied by grain crops, in the crops of which favorable conditions are created for the development and spread of harmful organisms.

The range of growth regulators with a phytoncidal (immunoprotective) effect is expanding annually [Pozharsky Z.G., Bokanga I.N. Biodux - productivity for all 100 // Protection and quarantine of plants. - 2016. - No. 5. - S. 34-35 (5); Lazarev V.N., Kovalenko E.V., Kudryavtsev N.A. The effectiveness of the use of the drug energy M for the protection of flax // Protection and quarantine of plants. - 2016. - No. 9. - S. 36-38 (6); Sorokin A.M. Efficiency of the biopreparation "Energy M" in conditions of acute drought // Chief Agronomist. - 2017. - no. - S. 12-15. (7); Ryabchinskaya T.A., Zimina T.V. Means that regulate the growth and development of plants in the agrotechnologies of modern crop production // Agrochemistry. - 2017. - No. 12. - S. 62-92 (8)].

In connection with the increasing danger to humans and the environment, it is extremely important to search for non-toxic highly effective drugs of natural origin, primarily anti-stress action. Promising objects for the search for new generation growth regulators are natural biologically active substances [Shirokikh I.G., Abubakirova R.I., Karpova E.M., Kuchin A.V. Evaluation of Na-salts of the total triterpene acids of Abies sibirica L. as a growth regulator and stress protector of spring wheat / Agrochemistry. - 2007. - No. 1. - S. 52-56 (9)].

In recent years, triterpene compounds have been of particular interest to plant physiologists and agronomists, which in the evolutionary aspect are the most ancient regulators of plant growth and development [Kintya P.K., Fadeev Yu.M., Akimov Yu.A. Plant terpenoids / P.K. Kintya, - Chisinau: Shtiintsa, 1990. - 152 p. (ten)].

Interest in this group of compounds is due to a wide range of their effects on plants, the ability to regulate individual stages of growth and development in order to mobilize the potential of the plant organism, and, therefore, use them as stimulants to increase the yield of agricultural products.

The method for stimulating the growth of barley is characterized by the fact that the plants are sprayed with a 0.02% aqueous solution of a growth stimulant, consisting of 25% pine tar, 5% emulsifier and distilled water - the rest, into the tillering phase of plants in the amount of 60 ml/ha.

Research on the effect of growth regulators on the development of spring barley (Triticum aestivum L.) cultivar Nutans 553 bred by the Research Institute of Agriculture of the South-East were carried out in 2021 on the territory of land use by Ozerki LLC, Ruzaevsky district of the Republic of Mordovia.

Pine tar obtained LLC STC "Khiminvest" (N. Novgorod) from coniferous wood by pyrolysis followed by condensation of the target product [RF Patent No. 2578695, Publ. 03/27/2016, Bull. No. 9 (11)], used in veterinary, leather and pharmaceutical industries. Tar - a substance of complex chemical composition (main components: phenols, acids, neutral substances, resin acids, etc.) has been used since ancient times as an antiseptic, to protect wooden structures from decay and impart water-repellent properties.

The study drug was used as an aqueous solution at the rate of 60 and 30 ml/ha (0.02 and 0.01% solutions). Plants were treated in the tillering phase.

When assessing the prevalence of the disease, the number of diseased plants in relation to the total number of plants in the sample was taken into account. Accounting results were calculated by the formula: Р=n*100/N,

where P is the prevalence of the disease, %;

n is the number of diseased plants in the sample;

N is the total number of plants in the sample (sick and healthy).

The development of the disease was calculated by the formula: R=∑(a*b)/N,

where R is the development of the disease (points or percentages);

X(a*b) is the sum of the products of the number of diseased plants (a) and the corresponding score or percentage of damage (b);

N is the number of considered plants in the sample (sick and healthy).

Seeds collected from experimental plots were germinated in plastic containers filled with coarse-grained sterilized sand. Experience was laid in 3 series. On the seventh day, the composition of pathogens and the number of infected plants were determined.

Agrotechnics of experimental plots. The predecessor of spring barley was winter wheat. Soil cultivation of the experimental plot consisted of double autumn disking after harvesting the predecessor with a heavy disc harrow "BDT-3" and spring pre-sowing cultivation. Under the first disking, a full mineral fertilizer was applied at a dose of N ₁₀ P ₂₆ K ₂₆ a.i./ha. In the spring, the missing dose of nitrogen - N ₃₄ - was added for cultivation. The seeding rate of spring barley is 180 kg/ha (4 million germinating seeds/ha). Sowing method - ordinary. Row spacing - 15 cm. Barley sowing date - April 28. Seed treatment with disinfectants was carried out 5 days before sowing. To control dicotyledonous weeds in the background, the Bomba herbicide (tribenuron-methyl + florasulam) was used. Harvesting from the experiment was carried out on August 3 in the phase of full ripeness of the culture.

Meteorological conditions of the growing season are presented in Table 1.

The temperature regime in May was characterized by an air temperature that was significantly higher than the long-term average values and a high level of moisture, when compared with the average long-term data for the region. The prevailing weather regime was favorable for conducting research on the study of the fungicidal action of drugs. From the first ten days of June, the temperature regime approached the long-term averages, but still exceeded them, and the amount of precipitation decreased compared to the long-term averages. This pattern persisted throughout the growing season.

The conducted studies indicate a significant effect of the studied drugs on the spread of diseases (Table 1).

Accounting for the distribution of dark brown spotting of barley in the control showed a high degree of damage to plants in the heading phase. This is due to favorable conditions for the spread of the pathogen in the first half of the growing season. The study drug significantly reduced the development rate: at a rate of 30 ml/ha by 11%, at a rate of 60 ml/ha - by 18%.

The development of dark brown spotting in the control was significantly lower than long-term values, this is largely due to high temperatures in June, which led to an accelerated passage of phenophases by barley plants and a decrease in the activity of physiological processes, both plants and this pathogen (Table 2).

The values of the development of diseases during the treatment of plants with a volatile agent were significantly lower than the control variant. At a consumption rate of 30 ml/ha, this indicator decreased by 4.06%, at a rate of 60 ml/ha by 5.66%.

Precipitation in the second half of the growing season contributed to the increased development of ear infections. The distribution of the Fusarium-helminthosporus complex of pathogens in the control significantly exceeded the thresholds of economic harmfulness (Table 4).

The study drug is effective and reduces the spread of the complex of spike pathogens on barley by 14-18%.

Sheaf analysis of barley plants revealed that the preparations studied in the experiment did not affect the number of productive stems. This indicator varied from 287 to 297 pieces/m ² . Such a number of productive barley stalks is explained by the unfavorable conditions of the growing season during the laying of generative organs.

The preparations studied in the experiment had a significantly greater effect on the number of grains in the ear (Table 5).

This indicator was the lowest in the control group. The use of volatile preparations increased the number of grains in the ear by 7-8% compared with the control.

The final result of the sheaf analysis is the determination of the biological yield (Table 7).

It was established that the studied preparations significantly increase the yield of spring barley grain, the experimental preparation of the terpene series significantly increased the barley yield by 0.09-0.14 t/ha.

The seed material obtained during the experiment was selected to identify the complex of pathogens that formed in the process of its formation (Table 8).

The pathogenic complex of barley seed micromycetes was dominated by saprotrophic and conditionally pathogenic microorganisms. Mycelium and conidial sporulation of Alternaria spp and Bipolaris sorokiniana (Sacc.) were found on the seed coats, regardless of the experimental variant, continuing to develop on the shell when the seedling was released, while forming necrosis at the contact points of the mycelium and seedling tissues. At the same time, the use of a phytoncidal preparation significantly reduced the percentage of affected seeds, especially of the Alternaria class.

The conducted studies made it possible to establish that the use of the studied preparation at a rate of 60 ml/ha significantly reduced the spread and development of leaf and spike pathogens of spring barley compared to the control variant.

The reduction in plant damage by pathogens during treatment with the studied preparation made it possible to obtain a significant increase in yield by 0.14 t/ha.

Phytosanitary examination indicates a decrease in the number of barley pathogens on seed material when using the studied phytoncide preparation.

The drug is easy to use, non-toxic and environmentally safe, because. its use does not lead to the accumulation of toxic chemical compounds in the soil and crop products.

Sources of information

1. Kovalev V.M. On the improvement of technologies for the production of agricultural products at the present stage of development of the agro-industrial complex // S.-kh. biology. - 2005. - No. 5. - S. 10-14.

2. Prusakova L.D., Malevannaya N.N., Belopukhov S.L., Vakulenko V.V. Plant growth regulators with anti-stress and immunoprotective properties / Agrochemistry. - 2005. - No. 11. - S. 76-86.

3. Vakulenko V.V. Growth regulators // Protection and quarantine of plants. - 2007. - No. 12. - S. 24-26.

4. Morozov V.I., Morozov A.I., Pushkina G.P. Growth regulators in the rooting of sea buckthorn // Protection and quarantine of plants. - 2005. - No. 1. - S. 30.

5. Pozharsky Z.G., Bokanga I.N. Biodux - productivity for all 100 // Protection and quarantine of plants. - 2016. - No. 5. - S. 34-35.

6. Lazarev V.N., Kovalenko E.V., Kudryavtsev N.A. The effectiveness of the use of the drug energy M for the protection of flax // Protection and quarantine of plants. - 2016. - No. 9. - S. 36-38.

7. Sorokin A.M. Efficiency of the biopreparation "Energy M" in conditions of acute drought // Chief Agronomist. - 2017. - no. - S. 12-15.

8. Ryabchinskaya T.A., Zimina T.V. Means that regulate the growth and development of plants in the agrotechnologies of modern crop production // Agrochemistry. - 2017. - No. 12. - S. 62-92.

9. Shirokikh I.G., Abubakirova R.I., Karpova E.M., Kuchin A.V. Evaluation of Na-salts of the total triterpene acids of Abies sibirica L. as a growth regulator and stress protector of spring wheat / Agrochemistry. - 2007. - No. 1. - S. 52-56.

10. Kintya P.K., Fadeev Yu.M., Akimov Yu.A. Plant terpenoids / Chisinau: Shtiintsa, 1990. - 152 p.

11. RF patent No. 2578695, Publ. 03/27/2016, Bull. No. 9.

Claims (1)

A method for stimulating the growth of barley, characterized in that the plants are sprayed with a 0.02% aqueous solution of a growth stimulant, consisting of 25% pine tar, 5% emulsifier and distilled water - the rest, in the tillering phase of plants in an amount of 60 ml/ha.