SU1676475A1 - A method of cultivating soil under potato plants - Google Patents

Abstract

The invention relates to agriculture, in particular to the cultivation of commodity potatoes using intensive technology on loamy soils. The purpose of the invention is to increase crop yields when growing potatoes on loamy soils by providing favorable conditions for the development of plants by maintaining the soil around the tuberous nest in a loose state. In the spring, soil is loosened by cultivating or using a solid rozani cutter to a depth of 14.0-16.0 cm, and then for 2-3 days before planting, ridges are cut with simultaneous formation By placing a marker wake in the center of the ridge in the form of a trough-shaped depression 180-220 gm wide, for which the sub-ridge zonal loosening is carried out 5.0-, 0 cm below the depth of the arable horizon. Inter-row treatments are carried out by cultivation or strip milling using a cultivator equipped with L-shaped right and left paws, copying the marker track 1 Cp f-ly, 4 Il. 3 tabl

Description

The invention relates to agriculture, namely the cultivation of marketable potatoes by intensive technology on loamy soils.

The purpose of the invention is to increase the yield when growing potatoes on loamy soils by providing favorable conditions for the development of plants by keeping the soil around the tuberous nest in a loose state.

In Figures 1 and 2, schemes of crafts of crests are presented with simultaneous execution of a marker wake in the center of the ridge; figs 3 and 4 show the arrangement of the working bodies during the inter-row processing of potato plantations.

Example 1. In the spring, after reaching the turf-podzolic loamy soil, maturity is harrowed, cultivated at 14.0–16.0 cm, and then, 2-3 days before planting, the ridge was cut by the cultivator-ridge former, on the frame of which The working organs of the okuchnik-crest-forming body 1 (figure 1) are set in the center between the rows. In front of the excavators, rigidly three-humped excavators 2 are installed in the side holders of the reinforced type in the center of the future ridge, the stand of which withstands the increased load associated with work at a depth of 25.0-27.0 cm.

In the process of moving the cultivator, when a three-stage okuchnik is operating in the zone of the future, a ridge occurs

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crumbling of the soil by dividing the seam into three Rus. The bottom of the river, at a depth of 25.0-27.0 cm, located at 5.0-7, U cm below the coarse horizon, after a certain rise to the height of the lancet paw (3.0-5.0 cm) returns to its place. In the process of moving this layer, its crumbling and filling of the trapezoidal recess with a thickness of 5.0–7.0 cm and a width of 18.0 –20.0 cm. The paw of the middle tusa produces crumbling of the soil at a depth of 17-18-18.0 see. During operation, the paws of the second rusa layer of soil 6.0–7.0 cm thick, after some lifting by the value of the paw height, returns to the loose base. Mineral fertilizers are fed to the upper part of the middle Rus, temporarily open by the upper body of the hilar, in a wide strip of 12.0-15.0 cm. When the upper layer is thrown to the side, before the impact with the working surface, the soil layer receives an additional load and, as a result of the change in the direction of movement, loosens, going to the side, forming a loose ridge above the trapezoidal depression. Landing is carried out in a grrbni with driving a landing unit along furrows, which increases the straightness of the position of the rows above the marker track.

After planting, before and after the emergence of shoots, inter-row treatments are carried out. For the treatments, a cultivator is used, in which the L-shaped right and left paws 3 are installed on the frame in the side holders, which copy the trapezoidal zonal marker footprint (FIG. 3).

Due to the fact that the zone marker trail was cut simultaneously with the formation of the ridge, and also due to the exclusion of mixing of the working parts of the cultisator-ridge former, the protective zone is maintained on the first treatments 9.0-10.0 cm (minimal).

Orientation of the cultivator along the zonal marker track allows more complete destruction of weeds, increase the productivity of the cultivator, and reduce the degree of damage to plants.

Table 1 presents the results of potato yield in tillage in various ways.

EXAMPLE 2. In the spring, after reaching the sod-podzolic soils, ripeness is carried out to a depth of 14.0-1 P, 0 cm. Such a depth of processing is determined by the optimum ratio with the location of loose soil in the ridge. Increasing the recess below 16.0 cm leads

to significant energy consumption without any improvement in the quality of work of combine units Reducing the depth of milling of less than 14.0 cm leads to the formation of large lumps and increases the contamination of the pile in the combine bunker

When the soil is warming up for 2 -3 days before planting, cutting is performed (a re-bore cultivator-ridge former in

0 with a tracked tractor (figure 2). On the cultivator, in the center between the rows, the working organs of the hiller 4 are mounted.

There are 5 bifacial, spharic paws 3, the stand of which can withstand the increased load associated with a slaughter in the depth of 25.0– 27.0 cm.

8 process of moving the cultivator

0 during the operation of a two-branch hillock in the zone of the future crest, loosening of the lower subsoil horizon occurs with the formation of a trough-shaped recess - a marker trail across the width of the foot

5 18 0-22.0 cm at a depth of 25.0 27.0 cm, the total depth in the subsurface horizon is 5.0–7.0 cm. The increase in the depth of the subsurface horizon below 7.0 cm does not outperform the quality of processing to observe the protection zone during movement along the marker track, at the same time, energy costs increase. Reducing the depth of the working bodies to sizes less than 5.0 cm leads to a violation of the stability of the agatta regatta in observing the protection zone, cases of displacement of uterine tubers are observed.

Experimental data show that the width of the working body for a zonal looser or in the order of a trough-shaped deepening of a marker wake is essential. With an increase in the paw width of more than 22.0 cm, the drag resistance increases significantly. A decrease in the width of the trough-shaped recess less than 18.0 cm leads to difficulty in installing marker paws, soil joining, and disruption of the technological process.

When planting, the kg-beds are placed on the depth of 8.0-10.0 cm in the center of the ridge above the trough-shaped depression. Then, 7-10 days after planting, inter-row treatments are carried out with a tilled milling cutter 5, in which they place over each frame on the frame

5 with a trough-shaped marker deepening - with a marker trace - right and left-hand various legs 6 to a depth of 25.0-27.0 cm. When working, these legs are self-adjusting. copy in the direction of movement the linearity of the course of work of tilled row fgch-s that

allows you to comply with the protective zone in the range of 9.0-10.0 cm. The second treatment is carried out 7 to 10 days after the first. After two treatments before germination, milling cultivators carry out surface continuous treatment with systemic herbicides and no more soil treatments.

During the treatment, the shape of the ridges and the cross-sectional area has a great influence on the formation of the tuberous nest at a distance of x 70 cm. The shape of the ridge affects the volume of soil entering the combine elevator and the contamination of the pile. Creating ridges with a height of 1 LOIS, About cm with a cross section of 500-600 cm2 provided a low yield. A significant increase in yield begins with the height of the ridges of 14.0 cm. The highest yield was obtained at the height of the ridges of 18.0 cm and a cross section of 800 cm2. Further, its increase in the height of the ridges to 20.0 cm and the cross-sectional area of 900 cm led to a decrease in yield (see Table 2)

The proposed method of potato cultivation was compared with the known method, the closest in technology, including the operations listed in Table 3. The soil of the sod-podzol, according to the mechanical composition, is medium loamy, the potato variety is Lorch.

The highest marketability of tubers and potato yield is ensured by the proposed method with spring continuous

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milling of the upper layer to a depth of 14.0 16.0 cm and intertour treatments by strip milling.

Formulation of the invention 1. A method of tilling the soil for planting potatoes, including spring soil loosening, cutting of ridges with simultaneous formation of a marker trail, planting tubers in the ridges and subsequent inter-row treatments using a marker trace as a guiding element, distinctive and so that, in order to increase yields when growing potatoes in loamy soils by providing favorable conditions for the development of plants by maintaining the soil around the tuberous nest in a loose state The marker trail is formed in the center of the ridge in the pid of the trough-shaped recess 18.0–22.0 cm wide by sub-crown zonal loosening 5.0–7.0 cm below the depth of the arable horizon, and for inter-treatments using a cultivator equipped with G shaped right and left paws, copying the mark

2 a method according to claim 1, characterized in that the spring loosening of the soil is carried out by continuous milling of the upper layer to a depth of 14.0-16.0 cm, and inter-row treatments by strip milling.

Table 1

The yield of potatoes, depending on the methods of tillage (average

data for two years)

table 2

Yield of potatoes, depending on the cross-sectional area of the ridge

Table 3

Weed infestation, marketability of tubers and potato yield, depending on the methods of tillage

Continuation of table 3

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Claims (2)

5 The claims 1. The method of tillage under planting of potatoes, including spring loosening of the soil, cutting ridges with the simultaneous formation of marker 10 traces, planting tubers in ridges and subsequent row-spacings using a marker trace as a guiding element, characterized in that, in order to increase 15 yields when growing potatoes on loamy soils by providing favorable conditions for plant development by maintaining soil around the tuber nest in a loose state, a 20 marker trail is formed in the center of the ridge in the form of a trough-shaped recess 18.0-22.0 cm wide by subcostal zonal loosening 5.0-7.0 cm below the plowing depth th horizon and use the cultivator equipped with L-shaped right and left paws are copied marker track for mezhdu25-line treatments.