RU2797005C1 - Method for reducing the incidence of downy mildew in spring rapeseed plants on oil-contaminated gray forest soils - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention can be used in the cultivation of spring rapeseed. A method for reducing the incidence of downy mildew in spring rapeseed plants on oil-contaminated grey forest soils involves elimination of excess acidity of oil-contaminated soil by liming. A calculated dose of lime is introduced according to the hydrolytic acidity and the oil-contaminated layer is intensively loosened for two years at different depths every two weeks. The scheme of loosening the soil during the growing season from May to September: 1st treatment = 5 cm, 2nd treatment = 10 cm, 3rd treatment = 15 cm, 4th treatment = 20 cm, 5th treatment = 25 cm, 6th treatment = 20 cm, 7th treatment = 15 cm, 8th treatment = 10 cm, 9th treatment = 5 cm.

EFFECT: decrease in distribution by 6.6% and the development of more than 2 times downy mildew, as well as an increase in the yield of spring rapeseed oilseeds by 23% compared to the increase in yield on contaminated soil.

1 cl, 3 tbl, 1 dwg

Description

The invention relates to the field of agriculture and can be used in the cultivation of spring rapeseed.

Increasing production volumes and the widespread use of refined products make oil and oil products a very common source of soil pollution. In Russia, the total area of oil-contaminated land exceeds 70 thousand hectares. Therefore, scientific research on the influence of oil pollution on the incidence of agricultural crops, diseases of which are an important factor in the formation and preservation of crop yields, is becoming relevant. Downy mildew is a harmful disease that affects seedlings and adult plants of spring rapeseed. The defeat in the early stages of growth and development leads to rapid decay of tissues and death of plants. In the case of a later infection, the symptoms appear as local irregular yellowish spots. Several techniques are known to reduce the susceptibility of rapeseed to downy mildew.

A whole range of agrotechnical methods, including the observance of crop rotation and the return of rapeseed to its original place after 4-6 years, various basic tillage from disk stubble plowing to soil loosening. In this case, plant residues are embedded, on which the pathogens of downy mildew overwinter [1].

The disadvantage of this method is the lack of specific results on the impact of each agricultural technique on the development and prevalence of peronosporosis. There are only general words and assumptions about the possible positive effect of each agrotechnical method, without specifying specific numerical data and statistical reliability of the proposed agrotechnical methods.

There is a method to reduce the susceptibility of spring rape to downy mildew by sowing resistant varieties to this disease [2].

The disadvantages of this method is that even in resistant varieties in adverse weather conditions (HTC for May - August 1.2 and more) there was an intensive spread of oospores of the fungus Peronospora parasitica (Pers.) Er and the development of the disease reached 20-36%.

There is such a method that reduces the damage of rapeseed by downy mildew, as the use of fungicides in the treatment of seeds before sowing or spraying during vegetation [3].

The disadvantage of this method is that the use of chemical means of protection has a negative impact on the ecological situation in agrocenoses and significantly increases the overall cost of protective measures.

None of the above studies addresses the problematic and topical issue of downy mildew in spring rapeseed on oil-contaminated soils.

The essence of the claimed object lies in the fact that for two years the soil is contained in a pure fallow system for intensive aeration of the oil-contaminated soil layer and excess acidity of the oil-contaminated soil is eliminated by liming. Every two weeks during the growing season from May to September, loosening and mechanical tillage to different depths are carried out. This allows you to alternately loosen first the upper and then the lower layers of contaminated soil. The depth of processing changes according to the following scheme:

1st treatment - 5 cm,

2nd treatment - 10 cm,

3rd treatment - 15 cm,

4th treatment - 20 cm,

5th treatment - 25 cm,

6th treatment - 20 cm,

7th treatment - 15 cm,

8th treatment - 10 cm,

9th treatment - 5 cm.

The dose of limestone fertilizer is calculated by the value of hydrolytic acidity. Under the experimental conditions, the calculated dose of lime was 6 t/ha.

The soil of the experimental plot is gray forest medium loamy, prevailing in the Predkama zone of the Republic of Tatarstan. The uncontaminated soil was characterized by a low content of humus and a weakly acidic reaction of the medium, an increased supply of mobile forms of phosphorus and an intermediate form of potassium. The soil was deliberately contaminated with marketable oil by pouring from the surface at a rate of 20 l/m ² , which corresponded to the average level of soil contamination in production conditions. The depth of penetration of oil substances into the soil was 20-25 cm. Without liming and intensive tillage for two years, the tested agricultural crops (vetch-oat mixture, spring wheat) did not produce a crop on contaminated soil. The yield of barley grain in the third year of pollution without liming and intensive loosening was, in relation to the level of uncontaminated soil (control), 30%. The effect of oil pollution and proven agrotechnical practices on the susceptibility of spring rapeseed cultivated after barley to downy mildew was studied on the Yumart variety.

The declared measures for the treatment of oil-contaminated soil (liming and loosening) make it possible to reduce the prevalence and development of downy mildew on spring rapeseed, increasing the yield of oilseeds. The results of the verification experiments, which confirm the claimed technical result, are shown in tables 1-3 and in the figure.

From the data in Table 1 it follows that soil pollution with oil increases the prevalence of the disease by 1.69 times: if the control spread of the disease was 18.6%, then on oil-contaminated soil this figure increased to 31.5%. Intensive loosening of oil-contaminated soil reduced the spread of downy mildew by 4.4%. In the case of a combination of loosening with liming, the prevalence of downy mildew decreased by 6.6%.

Even more noticeable was the effect of oil pollution of gray forest soil and tested methods on the development of downy mildew (Table 2). On the control, the development of the disease was 0.97%, and on oil-contaminated soil it was 3.89 times more - 3.77%. Carrying out the tested techniques reduced the development of downy mildew on spring rapeseed plants by 2.39-2.56 times. From intensive loosening of oil-contaminated soil, the development of the disease decreased to 1.58%, and from liming in combination with loosening - up to 1.47%.

A strong decrease in the yield of oilseeds from the defeat of spring rape with peronosporosis was found, which is shown in the graph of the dependence of the yield of oilseeds of spring rape on oil-contaminated gray forest soil on the development and prevalence of peronosporosis. As can be seen, the coefficients of yield determination from the development and prevalence of peronosporosis on spring rapeseed plants were 0.7248 and 0.9937, respectively.

The tested methods of influencing oil-contaminated soil, aimed at reducing the development and prevalence of downy mildew on spring rapeseed plants, led to an increase in the yield of oil seeds (Table 3). The maximum increase in oilseed yield was obtained in the case of the complex application of intensive loosening of oil-contaminated soil and liming - 0.19 t/ha, or about 23% of the yield on contaminated soil.

Thus, a single contamination of gray forest soil with oil increases the prevalence and development of the disease peronosporosis on spring rapeseed plants by 1.69 and 3.89 times, respectively. Intensive loosening of oil-contaminated soil in combination with liming reduced the spread of downy mildew by 6.6%. Even more noticeable was the effect of the tested methods on the development of downy mildew, which reduced the development of the disease by 2.56 times. The tested methods of impact on oil-contaminated soil (liming + loosening), aimed at reducing the development and prevalence of downy mildew on spring rapeseed plants, led to an increase in oilseed yield by 23% compared to the yield on contaminated soil.

The proposed method for reducing the incidence of downy mildew (downy mildew) on oil-contaminated soils in spring rape plants has no analogue at the moment and its implementation is possible on gray forest soils prone to oil pollution.

List of used literature:

1. Semerenko, S.A. Modern methods in the protection of oilseeds from diseases and pests (review) / S.A. Semerenko // Modern methods in breeding and cultivation technology of oilseeds: Materials of the school of young scientists, Krasnodar, April 04-05, 2018. - Krasnodar: All-Russian Research Institute of Oilseeds. B.C. Pustovoita, 2018. - S. 61-88.

2. Ashmarina, L.F. Infection of various varieties of rapeseed with the most common diseases in Western Siberia / L.F. Ashmarin, N.M. Konyaeva, A.S. Korobeinikov // Vestnik NGAU (Novosibirsk State Agrarian University). - 2015. - No. 1 (34). - S. 28-34.

3. Zakharenko, V.A. Economics of assessing the manifestation of mycoses and anticipating epiphytoties of strategic crops / V.A. Zakharenko // Achievements of science and technology of the agro-industrial complex. - 2020. - V. 34. - No. 12. - S. 95-98.

Claims (10)

A method for reducing the incidence of downy mildew in spring rapeseed plants on oil-contaminated gray forest soils, involving the elimination of excess acidity of oil-contaminated soil by liming, the introduction of a calculated dose of lime according to the hydrolytic acidity value and intensive loosening of the oil-contaminated layer for two years to different depths every two weeks during the growing season according to the scheme: 1st treatment - 5 cm, 2nd treatment - 10 cm, 3rd treatment - 15 cm, 4th treatment - 20 cm, 5th treatment - 25 cm, 6th treatment - 20 cm, 7th treatment - 15 cm, 8th treatment - 10 cm, 9th treatment - 5 cm.

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