RU2767069C1 - Method for application of herbicides during drip irrigation of gardens and device for implementation thereof - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture. Method of herbicide application during drip irrigation of gardens is characterized by the fact that in spring during soil thawing to depth of 12–15 cm, in the protective strip of a row of trees, on both sides of each tree at distance of 0.5–0.8 m from the stem, wells with diameter of 5–6 cm, with depth of 10–12 cm and containers made of porous water-permeable material are installed in them, in which 8–10 g of a water-soluble herbicide of soil selective action - sodium trichloroacetate is placed, a pipeline with droppers is laid along a row of trees, placing droppers above the containers, after installation is completed, water is supplied to the pipeline and soil is moistened within the radius of action of dropper to 90–95 % HB. Device for implementation of present method.

EFFECT: inventions enable to dissolve and move the herbicide solution into the surrounding container soil with the formation of an underground soil horizon with thickness of 5–10 cm, containing herbicide and damaging sprouts and weed roots at germination stage, at the same time intrasoil distribution of the herbicide provides the possibility of carrying out works in the garden immediately after its application.

2 cl, 2 dwg

Description

The present invention relates to the field of agriculture and can be used in the destruction of predominantly perennial grass weeds in orchards irrigated by drip.

A known method for the destruction of weeds in gardens irrigated by drip method, including the treatment of near-trunk strips 0.5 m wide with herbicides (Badtieva Z.S., Gazloeva L.Ch., Basiev S.S./ The main elements of intensive technology for the cultivation of apple plantations./ Vladikavkaz, 2015, C 23). The disadvantage of this method is the risk of damage to plants when weeds are treated with continuous herbicides. When applying selective soil herbicides, they must be embedded to a depth of at least 5 cm, which is associated with unnecessary labor costs. The application rate of the herbicide in the continuous treatment of the strip is 25-30 kg/ha, while the droppers moisten only half of its area. Thus, a significant part of herbicides after application is in dry soil, where their effectiveness is sharply reduced.

There is a known method of introducing herbicides during drip irrigation together with irrigation water by introducing a solution of the drug into the irrigation current using hydro-feeding equipment and applying the drug to the field through droppers. (Drip irrigation [Electronic resource] - URL: http://www.kaicc.ru/novoe-v-apk/peredovoj-opyt/kapelnoe-oroshenie accessed 02/01/2021).

The disadvantage of this method is the distribution over the soil surface of the herbicide introduced with water through droppers. Preparations of contact continuous action with such an application do not fall on the surface of the weeds and cannot destroy them. For the destruction of perennial grass weeds, selective soil herbicides are most effective. Soil selective herbicides to be applied through a drip irrigation system must be completely soluble in water, and after application they must be covered with a layer of soil of at least 5 cm. Otherwise, they will be destroyed by sunlight. This work requires significant manual labor and is associated with the risk of damage to the tubes with droppers. According to safety requirements, manual work in the garden after applying the herbicide to the soil surface can be carried out only after a few days, which leads to a decrease in the effectiveness of the herbicides.

These shortcomings can be eliminated by the method of applying herbicides during drip irrigation of gardens, characterized by the fact that in spring, when the soil thaws to a depth of 12-15 cm, in the protective strip of a row of trees, on both sides of each tree at a distance of 0.5-0.8 m from the stem wells are made with a diameter of 5-6 cm, a depth of 10-12 cm and containers made of porous permeable material are installed in them, in which 8-10 g of a water-soluble herbicide of soil selective action - sodium trichloroacetate is placed, a pipeline with droppers is laid along a row of trees, placing droppers above the containers, after the installation is completed, water is supplied to the pipeline and the soil is moistened within the range of the dropper up to 90-95% HB.

A device for implementing the proposed method, characterized in that it is made in the form of a container made of a permeable material - pressed peat, in the form of a cylindrical container with a diameter of 5-6 cm, extruded

honeycomb 10-12 cm, equipped with a concave plastic lid with a hole 0.8-1.0 cm in diameter in the middle, with side walls 5-6 cm high and an inner diameter corresponding to the outer diameter of the container, in addition, two pairs are made on the surface of the lid detachable pipe position fixators on the cover.

A new technical result from the application of this method is that when water is supplied from a dropper into a container made of a porous permeable material and containing a herbicide, the herbicide solution is dissolved and moved into the soil surrounding the container with the formation of an underground soil horizon with a thickness of 5-10 cm, containing a herbicide and damaging the seedlings and roots of weeds at the germination stage in the wetting zone of the droppers. At the same time, the intrasoil distribution of the herbicide makes it possible to work in the garden immediately after its application.

The essence of the proposal is illustrated by the drawing, where in Fig. 1 shows a row of trees and a pipeline with droppers in a vertical section, in Fig. 2 - container in a vertical section.

A row of fruit trees 1 grows on the irrigated area, a pipeline 2 with droppers 3 is laid along it, containers 4 with covers 5 of a concave shape with holes 6 and side walls 7 are installed in the soil under the droppers. Detachable clamps 8 of the pipeline 2 are installed on the top of the covers 5. A water-soluble selective soil herbicide 9 is placed inside the containers 4. When the herbicide 9 dissolves and the solution enters through the walls of the containers 4, a horizon 10 is formed from the soil treated with the herbicide. When carrying out irrigation within the range of the dropper, a humidification zone 11 is formed. In this zone, deeper than horizon 10,

there are roots 12 of tree 1. In the upper part of the soil layer within the range of the dropper 3, due to the covering of the top of the container 4 with walls 7, a non-irrigated surface layer of soil 13 is formed.

The implementation of the proposed method of applying herbicides with drip irrigation of the garden will be considered using the example of an industrial garden planted according to the 2 × 4 m scheme. The distance between the trees is 2 m, and the row spacing is 4 m. In spring, after the soil thaws to a depth of 10-15 s at a distance of ,5-0.8 m from the boles of trees, boreholes are made with a diameter of 5-6 cm, a depth of 10-12 cm, and containers 4 are installed in them from a porous permeable material, made of pressed peat in the form of a cylindrical container with a diameter of 5-6 cm, a height of 10 -12 cm. Before installation in the well, a water-soluble soil herbicide 9 of selective action (for example, sodium trichloroacetate in the form of water-soluble capsules) is placed in containers. The use of capsules allows you to simplify the process of dosing the drug. The application rate of this herbicide by sprayer is 25-30 kg/ha, however, with drip irrigation, the moistened part is about 30-40% of the entire garden area. Accordingly, the rate is reduced to 10-12 kg/ha and 8-10 g of the drug is placed in each container. Top containers are closed with lids. These covers are made of plastic, have a concave shape with a hole 6 in the middle and side walls 7. The diameter of the hole 6 is 0.8-1.0 cm, and the height of the walls of the cover 7 is 5-6 cm, their inner diameter corresponds to the outer diameter of the container. In addition, two pairs of detachable clamps 8 of the pipeline 2 with droppers 3 are made on the surface of the cover 5. The pipeline 2 is laid on the covers 5, placing the droppers 3 above the holes 6. The concave shape of the cover allows you to compensate for the deviation of the position of the dropper above the hole, and the size of its diameter eliminates clogging with random rubbish. The position of the pipeline 2 on the container 4 is fixed with detachable clamps 8. After connecting the pipelines 2 to the water supply network, water is supplied through the droppers 3 to the container 4. The water dissolves the herbicide. The solution, percolating through the walls of the container, forms a soil horizon 10 containing herbicides. From below, it is limited by a frozen soil layer to a thawing depth of 10-15 cm, and at the top by a non-moistened soil layer 13 5-6 cm deep, which is created by overlapping the pores in the upper part of the container 4 with the walls 7 of the cover 5. Watering is carried out with a rate that ensures complete filling the pore space of the soil within the range of the dropper in the soil layer with a depth of 5-15 cm and bringing the soil moisture to 90-95% HB. Germination of weed seeds begins already when the topsoil warms up to +3-5°C. Weed roots, penetrating to a depth of 5 cm, absorb the herbicide, which leads to the death of the weed plant. Rhizome weeds, such as wheatgrass, are able to germinate from a depth of 20 cm even at a temperature of +2°C. Their seedlings, having reached a depth of 10 cm, also fall under the action of the herbicide and die. The next watering is scheduled in accordance with the given irrigation regime. In the period preceding this irrigation, the herbicide solution is pulled up by the upward capillary current with a decrease in the thickness of the herbicide application horizon 10, while its concentration in the soil increases. The movement of the herbicide stops at a depth of 5-6 cm from the surface with its accumulation at the border with the non-wetted soil layer 13. Here the herbicide can be stored for 60-90 days and provide suppression of weed seedlings. When carrying out the first vegetation irrigation with a decrease in soil moisture to 70-75% HB, water is supplied from the container through its bottom and the lower part of the walls at a depth of 10-12 cm with moistening of the soil layer 11 within 10-40 cm according to the method of intrasoil moistening, with in which the main part of the absorbing root system of the tree is formed in a layer of 10-20 cm. Increasing the wetting depth to 40 cm increases the resistance of trees to wind. After the completion of the irrigation season, pipelines 2, together with droppers 3 and covers 5, are put away for storage, and containers 4 are mixed with the soil during tillage by a cultivator and used as organic fertilizer.

Thus, the use of the proposed method of introducing herbicides during drip irrigation of gardens using the proposed device makes it possible to increase their efficiency and ensure the accuracy of the dosage of each dropper applied to the moistening zone, while the subsoil application of herbicides allows for work in the garden immediately after their application, and containers from peat eliminates the need to carry out work to extract them.

Claims (2)

1. The method of applying herbicides during drip irrigation of gardens, characterized by the fact that in the spring, when the soil thaws to a depth of 12-15 cm, in the protective strip of a row of trees, wells are made on both sides of each tree at a distance of 0.5-0.8 m from the trunk with a diameter of 5-6 cm, a depth of 10-12 cm, and containers made of a porous permeable material are installed in them, in which 8-10 g of a water-soluble herbicide of soil selective action - sodium trichloroacetate is placed, a pipeline with droppers is laid along a row of trees, placing droppers over the containers, after installation is completed, water is supplied to the pipeline and the soil is moistened within the range of the dropper up to 90-95% HB. 2. A device for implementing the method according to claim 1, characterized in that it is made in the form of a container made of a permeable material - pressed peat, in the form of a cylindrical container with a diameter of 5-6 cm, a height of 10-12 cm, equipped with a concave-shaped plastic lid with a hole with a diameter of 0.8-1.0 cm in the middle, with side walls 5-6 cm high and with an inner diameter corresponding to the outer diameter of the container, in addition, two pairs of detachable pipeline position fixators on the lid are made on the lid surface.

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