UA84562U - Method for preventing from appearance of resistant weed biotypes in maize crops - Google Patents

Abstract

A method for preventing from the appearance of resistant weed biotypes in maize crops provides for using the herbicide Mesotrion (0.048 kg/ha) from the photosynthesis inhibitor group. To increase the herbicidal activity, a herbicide from the EPSP synthase inhibitor group, namely isopropyl amine salt of glyphosate (1.457 kg/ha), is added and applied directionally into row spacings at the stage of 3-4 leaves of maize.

Description

The useful model belongs to agriculture, namely: to the area of chemical measures to protect crops from weeds. It can be used when growing corn.

As a result of the deterioration of the phytosanitary situation in modern agrocenoses of field crops, the level of weediness has increased significantly, which causes significant crop losses. Previous studies have established that corn plants have a low competitive ability against weeds. Even in the presence of 20 one-year weeds per square meter, the yield of corn decreased by 7.4-12.3 95. In the presence of 100 weeds/m7, the loss of corn grain yield was at the level of 22.2-25.7 95 (1).

Agrotechnical measures do not ensure proper control of weeds. Therefore, in the near future, the use of herbicides remains one of the important elements of the integrated plant protection system. The disadvantages of the chemical method include the possibility of emergence of herbicide-resistant weed biotypes. As of December 1, 2012, 394 resistant biotypes of weeds belonging to 210 species are known in the world, including 24 species resistant to glyphosate |5). In this regard, there is a need to find new herbicides that have a different mechanism of action and prevent the emergence of resistance. The closest to the technical solution was the application of a mixture of nicosulfuron (0.04 kg/ha) with mesotrione (0.12 kg/ha) on corn crops, where, under the conditions of a mixed type of weediness, the spectrum of action on annual weeds was ensured) She The disadvantage of this method is that nicosulfuron does not ensure the complete destruction of perennial dicotyledonous species. In addition, it was established that there is an intensive emergence of resistant weed biotypes against sulfourea herbicides. The appearance of each resistant biotype occurs after 5-6 years of their constant use. Therefore, in the general structure of resistant biotypes, weeds resistant to sulfourea make up 31 95 (2, 41.

The task of this useful model is to search for new chemical compounds or their mixtures, which under conditions of mixed type of weeding would have a wide spectrum of action, have high selectivity for corn plants and prevent the emergence of resistant weed biotypes.

The essence of the useful model is that mesotrione (0.048 kg/ha) is used to enhance herbicidal activity and prevent the emergence of resistant weed biotypes, which is

With a photosynthesis inhibitor. The isopropylamine salt of glyphosate (1.457 kg/ha), which is an inhibitor of ERBR synthase, is also added to the working solution. The herbicide composition is applied to the interrows after the emergence of corn seedlings in the phase of 3-4 leaves.

In addition, a significant expansion of the spectrum of action is provided by the complex use of acetochlor (inhibitor of cell division) before the emergence of the crop, and the isopropylamine salt of glyphosate is applied directly into the interrows after the emergence of the crop in the phase of 3-4 leaves.

To study the effectiveness of herbicides in the laboratory of agriculture and plant protection

In 2010-2012, the Institute of Fodder and Agriculture of the Podillia National Academy of Sciences conducted field research. The area of the site is 423.36 m, repetition three times. Placement of plots is randomized. Tank mixtures were prepared before spraying. Preparations were applied with a knapsack sprayer aimed at the interrows of corn. The consumption rate of the working fluid is 250 l/ha. Quantitative and species accounting of weeds was carried out before applying herbicides, 30 days after spraying and before harvesting. Harvest accounting was carried out manually.

Crops had a mixed type of weediness, where among the cereals the gray mouse and creeping wheatgrass prevailed, and the dicots were represented by common sedge, white quinoa, small-flowered sedge, field talaban, unscented chamomile, medium star, and field birch.

The research results shown in Table 1 show that acetochlor at the maximum consumption rate (2.25 kg/ha) has high herbicidal activity, causing the death of weeds by 100 95.

But as a result of intensive use of acetochlor in three states of the USA, China, Australia and

Resistant weeds such as chicken millet and multi-flowered fenugreek have been found in Thailand. At the same time, research conducted at the Institute of Fodder found that after systematic application of acetochlor in the same field for 10 years, a tendency towards resistance was recorded in the plants of white quinoa and chicken millet. Therefore, to prevent such a phenomenon, there is a need to study the effectiveness of acetochlor in combination with other drugs.

Thus, in the variant where acetochlor was introduced after sowing, and the isopropylamine salt of glyphosate was applied directed to the interrows after the emergence of corn seedlings in the phase of 3-4 leaves, an expansion of their spectrum of action was achieved. Despite the decrease in the rate of consumption of both drugs by 50-95%, their biological effectiveness was high. Weed groups were destroyed by 96 95, which indicates the need for consistent use of herbicides with different mechanisms of action.

The maximum effect in controlling weeds of all types at a reduced rate of consumption of 5095 was achieved by using mesotrione in a mixture with the isopropylamine salt of glyphosate.

The total level of weediness decreased by 97 95, and the raw mass of weeds, respectively, by 97 95 compared to the control (Table 1).

Consecutive application of glyphosate in the interrow of corn, first in the phase of 3-4 leaves, and then in the phase of 7-8 leaves of the culture provided a reduction in the total level of weediness by 100 95. But during 1996-2011 in the USA, South America and Western Europe, where glyphosate is intensively used, 24 weed biotypes resistant to this herbicide appeared.

Therefore, such a combination is not promising. The new factory herbicide composition Stellar (topramesone, 0.0625 kg/ha and dicamba, 0.2 kg/ha and surfactant metolate, 1.0 l/ha) is known, which ensured the death of all types of weeds by 92 95.

As a result of a significant reduction in the overall level of weediness, favorable conditions were created for the growth and development of cultivated plants, which contributed to an increase in the yield of corn grain by 2.44-3.70 t/ha compared to the weedy control (Table 2).

Table 1

The effect of herbicides on the general weediness of corn on the grain, 2010-2012. number of plants, b weeds. 97 Reduced-

Vasi Obli pc./me zahysel suryaniv, 25 nya mass arianta of the experiment KI VSO vo to

Ko) vy | linh | th "Control of non-herbicides GU 158515 in the rolls of seeding 2 |11| 1 | o |t700 100 | 99

Acetochlor, 1.17 kg/ha-after| 1 /| 0 0 1 0 1-1 - 1 - sowing » isopropylamine salt of glyphosate, 1.457 k/a-u | 3/12| 6 | 6 | - | - | - phase Z-4 leaves of corn / 4 | 1101 0 1961931 97

Mesotrione, 48 g/ha and 1 |l04| 8 | 23 | - 1 - | - humus of glyphosate, 1.457 kg/ha - in 2 4 2 2 97 94 phase 3-4 leaves of corn

Isopropylamine salt 1 (|l06| 85 | g | - | - | - glyphosate, 1.457 kg/ha - in the phase 3-4 leaves of corn | 31.71. 51.2 1 |: 1 | 100 isopropylamine salt shi Pn phase 8 leaves of corn

Table 2

The effect of herbicides on the density and yield of corn, 2010-2012.

Variants of plant experiments, thousands, t/ha yield pcs./ha (Control without herbicides. 77711111 11680 | 555 | 0 | 0

Acetochlor, 1.17 kg/ha - after sowing, the isopropylamine salt of glyphosate, the phase of 3-4 leaves of corn is longer than UM UV» | ve |z" m of corn "t isopropylamine salt of glyphosate, 1.457 kg/ha - in phase 8 9.25 3.70 67 leaves of corn

Sources of information: 1. Zadorozhnyi V.S., Movchan I.V. Weeds in corn crops for grain - harmfulness and integrated measures to reduce their number /V.S. Zadorozhnyi, I.V. Movchan // Quarantine and plant protection. - May 2. - 2012. - b. 9-11. 2. Zadorozhnii V.S. Control of weeds in the agrocenosis of corn in the post-emergence period / 8.Sb. Zadorozhnii, I.V. Movchan // Adaptive fodder production. - Moscow: Ugreshskaya tipografiya, 2010. - 274 p. 3. Utility model patent "Method of ragweed control in soybean crops", Mo 51860 АО1 Mo 25/002. Publ. 10.08.2010, Bull. Mo. 15. 4. List of pesticides and agrochemicals approved for use in Ukraine. Kyiv: Univest

Media. - 2010. - 543 p. 5. Kalipsli I. Sbottop gaduueeyd (Atbgozia apeteziya 1 .): a hemiem/ u/y 5resia! gedagav o She ge5yy5 ip Nypdagi; I. Nevziviapi rioiurev, sopigo!i tetpoa5 apa ashppogyu atapdetepiv /L. Ka?ipsley, I.

Vehev, V. Momak // Neptbopodia. - 208, My. 9 - R. 119-137. b. Near 1I., 2012. pyr/Lmeveadzsivepse.sot.

Claims (1)

USEFUL MODEL FORMULA The method of preventing the appearance of resistant biotypes of weeds in corn crops involves the use of the herbicide mesotrione (0.048 kg/ha) from the group of photosynthesis inhibitors, which differs in that to enhance the herbicidal activity, the herbicide from the group of ERBZR synthase inhibitors isopropylamine salt of glyphosate (1.457 kg/ha) is added ) and apply directed to the interrows in phase 3-4 corn leaves.