RU2454848C1 - Method for planting plants - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention refers to agriculture, in particular, to a technology of planting seedlings, for example of a willow into marshy soil. The method to plant seedlings includes preparation of seedlings, preparation of soil for planting and plating a seedling into a marshy soil via a through hole arranged in ice during autumn-winter period. Then the willow seedling is fixed on a water reservoir bottom with the help of a peg inserted into the bottom. A rigid demountable element of tubular shape made in the form of a hollow cylinder or a hollow truncated cone with its top upwards is installed onto the seedling shaft to prevent its damage. Between the seedling shaft and the demountable element there is a space filled for better establishment of a seedling with fill material: soil or sand, or sawdust, or soil from the water reservoir bottom to the height exceeding the maximum level of water rise in this area by 5.0-20.0 cm.

EFFECT: invention provides for planting willow seedlings into marshy soil, their proper establishment and possibility to use marshy soil to plant plants.

3 cl, 1 dwg

Description

The invention relates to the field of agriculture for planting seedlings, in particular to the technology of planting seedlings, for example, willow in marshy soil.

A known method of rooting cuttings of plants in open ground is the end of August, the beginning of September. For rooting, greenhouses with shelter and film greenhouses are used with the help of special installations with sprayers to maintain the regime of moistening the soil (see "Currant" by E.I. Glebova, V.I. Mandrykina. Moscow, Rosselkhozizdat, 1984. P. 44) .

The disadvantages of this method include the rather high cost of greenhouses, film greenhouses and installations with sprayers, as well as the difficulty of maintaining the regime of moistening the soil. In addition, it is impossible to use the known method when planting seedlings in a swampy area.

A known method is the rooting of plant cuttings in open ground in spring and autumn, placing them directly in a hole made in the soil for each seedling without additional moisture (see "Currant" by E.I. Glebov, V.I. Mandrykin, Rosselkhozizdat, 1984. Page 47) - prototype.

The disadvantages of this method include the impossibility of its use when planting seedlings on swampy moist soil.

The objective of the proposed method is to eliminate the disadvantages of the prototype, in particular, ensuring the planting of seedlings in marshy soil and ensuring their survival.

The object of the invention is achieved by the fact that after planting a willow seedling in marshy soil through a through hole made in ice in the autumn-winter period, and securing it to the bottom with a peg embedded in the bottom, a hard, tubular shape preventing injury is placed on the seedling stem , a collapsible element with the formation between the stem and the collapsible element of a space that is filled for better survival of the seedling with bulk material to a height exceeding the maximum level of water rise in 5.0-20.0 cm of terrain, while the peg is also supported by a collapsible tubular element.

The space between the stem and the tubular shape is filled with, for example, soil, sand, sawdust or mixtures thereof, or soil from the bottom of the reservoir.

The tubular shape of the collapsible element is made either in the form of a hollow cylinder, or in the form of a hollow truncated cone with the top up.

The novelty of the proposed method for planting willow is the installation of a seedling on the stem preventing its trauma of a rigid, tubular shape, collapsible element with the formation of space between the stem and the collapsible element, which is filled for better survival of the seedling with bulk material to a height exceeding the maximum level of water rise in the area by 5 , 0-20.0 cm.

So, when planting willow in marshy soil in the winter, installing a collapsible protective tubular form on the stem not only saves the seedling stem from injuries on its surface, but also allows for high survival of seedlings in marshy terrain. The presence of a protective element when the water level rises and, accordingly, ice on marshy terrain prevents the ice from touching the stem, while the ice is prevented from touching the stem when moving ice in horizontal and vertical planes.

Signs associated with the installation of the protective element with the space between the stem and the tubular shaped element, and filling this space with soil, sand, sawdust or mixtures thereof, or soil from the bottom of the reservoir, as well as the implementation of a protective, tubular, collapsible element made in the form truncated cone with the top up - are signs that additionally reveal the specific implementation of the main features, and contribute to the achievement of the objectives of the invention.

According to the patent information search, the features of the proposed method are new, non-obvious and aimed at achieving the objectives of the invention.

Figure 1 schematically shows seedlings with protective elements planted through holes in ice and submerged to the necessary depth in marshy soil.

The seedling 1 of the plant with the root system 2 is immersed in the marshy soil 3 through the hole-hole 4 in the ice 5 and is held on the surface of the marshy soil 3 with the help of a wood peg 6 made from a freshly cut willow branch and soil, sprinkled into the space between the protective collapsible element 7 and seedling 1. A peg 6 attached to the seedling 1 by means of a fastening element 8, made of, for example, fabric, also performs the function of holding up the protective collapsible element 7. In the embodiment, soot Nets can not be attached to the peg with a fastening element - the soil that is poured into the space between the seedling 1 and the protective element 7 will reliably hold the seedling. At the same time, the peg also holds the protective element from falling. The collapsible protective element 7 is made, for example, of a pipe cut along an axial line into two parts (into two troughs), mounted vertically with the trunk of a seedling 1 and touching the bottom of marshy soil 3. The protective element can also be made in the form of a hollow truncated cone and set top up. In the space between the stem of the seedling and the protective element the soil is taken up, taken from the bottom of the marshland, which contributes to better rooting of the seedling 1 and provides favorable traumatic conditions during the movement of the ice cover. In addition, soil taken from the bottom freezes well, forming a fairly strong pillar that melts slowly in the spring with melting ice.

The proposed method is as follows.

In winter, when ice 5 has formed in the marshland, sufficient with a guarantee to keep the seedling specialist 1 on its surface, they begin work. To plant a seedling in a chosen place in ice 5, a hole is made - a hole 4, sufficient for a seedling 1 to pass through it with a root system 2, fixed to a seedling 1 peg 6 and installed with a cover of the seedling stem with a protective collapsible element 7. Then measure the depth of the reservoir to the bottom swampy soil and pick up the seedling 1 and the protective element necessary for height 7. Next, foreign objects, plant stems, sunken wood fragments, etc. are removed from the bottom of the swampy soil 3 at the planting site of the seedling 1, and the seedling 1 is attached to the cola a flap 6 made of a freshly cut willow branch using a non-rigid fastening element 8, for example, fabric, and the seedling is installed by the root system 2 on the bottom of the soil cleared of foreign objects. In this case, the peg 6 is buried in the soil 3, ensuring reliable retention of the seedling in contact with the soil 3. Next, a collapsible, tubular, protective element is assembled by installing at least two spring rings on its outer surface, the compression force of which ensures reliable retention of the seedlings into the cavity of the protective element 7 of the soil. A specialist planting a seedling with a scoop removes soil from the bottom and places it in the space between the seedling with a peg and the protective element 7. The peg 6 and the soil placed in the space between the seedling and the protective element securely hold the seedling 1 on the surface of the swampy soil 3 until the formation of additional roots and their rooting. The presence of soil in the cavity of the protective element contributes to both the rooting of the seedling 1 and the rooting of the peg 6. During the spring rise of the water level, the protective element 7 prevents ice from touching the stem of the seedling, and its injury does not occur. Thus, at the bottom of the swampy soil, both seedling 2 and peg 3 take root, increasing the likelihood of a positive result when using the proposed method. The protective tubular element 7 is installed so that it protrudes above the ice surface by an amount exceeding the maximum water level in the area by 5-20.0 cm. After rooting of the seedlings and their stable development, the collapsible tubular shape is removed from the seedling. The soil located in the protective element settles in the form of a tubercle to the bottom at the rooting site of the seedling, and there is no danger for its further development. The main number of roots on the stem of the seedling is formed in the bottom part, and shoots tend to develop from the sleeping buds of the bark in the upper part of the seedling. The roots formed on the stem of the seedling or on the trunk of the peg continue to grow, eventually reach the bottom of the soil and penetrate into it.

The penetration of the tree peg 6 into the soil 3 does not prevent the formation of the roots of the seedling.

A specific example of the proposed method.

In winter, in December 2009, when ice 20.0 cm thick formed on the swampy area of the southern outskirts of the village of Bystry Istok in the Bystroystoksky District of Altai Krai, they began planting seedlings prepared in autumn 2009. Pegs 6 were prepared before planting in a dense willow bush. To plant seedling 1 in a chosen place in ice 5, a hole was made - hole 4 with a diameter of 25 cm, sufficient for passage of seedling 1 with root system 2 through it, a fixed seedling 1 of peg 6 and a tubular element with a diameter of 24 cm made of a plastic pipe. Then we measured the depth of the reservoir to the bottom of the swampy soil 3, which turned out to be 110-115 cm. The bottom of the swampy soil 3 was cleaned of foreign objects, picked up seedling 1, peg 6 and a protective element 170 cm high, secured the seedling to the peg using a fastening element 8 from fabric and lowered together with the protective element to the bottom of marshy soil. When the seedling without additional shoots-branches, the protective element 7 was installed after fixing the seedling at the bottom of the swampy soil. At the same time, peg 6 was buried into the soil by 40 cm, ensuring reliable retention of the seedling in contact with soil 3. On the surface of peg 6, shoots formed in the spring of 2010, and a root system formed in the part buried in soil 3. On the seedling and the peg in the space between them and the protective element 7, processes from sleeping buds of the cortex also began to develop. In the spring of 2010, the survival rate of 10 seedlings and 10 pegs was checked. The survival rate was 100%. Thus, at the bottom of the swampy soil, both seedling 1 and peg 6 took root, increasing the likelihood of a positive result when using the proposed method. The protective element 7, in the embodiment, made in the form of a truncated cone of galvanized sheet and mounted with its top upward covering the seedling, better resisted the movement of ice and did not move to the sides, as was the case with several cylindrical protective elements. At the end of autumn 2010, the protective elements were removed from the seedlings. Subsequent planting of seedlings was carried out in exactly the same way as a hole — holes 4 for passage of a seedling 1, peg 6 and a protective element 7, with measuring the distance to the bottom of the marshland, selecting seedlings 1 and pegs 6 of the required length, etc. at a distance of 0.8-1 , 2 meters apart.

Currently, the proposed method as an invention has undergone pilot testing and testing and has shown good survival rates of seedlings and pegs in marshy areas.

After the substantive examination, a decision was made to publish information on the proposed method in the journal "Regional Ecological Problems" and propose a method for a number of farms with significant areas of wetland.

Claims (3)

1. A method of planting plants, including harvesting seedlings, preparing the soil for planting and directly planting a seedling, characterized in that after planting a willow seedling in marshy soil through a through hole made in ice in the autumn-winter period and fixing it on the bottom with embedded in the bottom of the peg on the seedling stem set a hard, tubular shape preventing it from injury, a collapsible element with the formation of space between the stem and the collapsible element, which is filled for better survival soot bulk material to a height exceeding the maximum level of water rise in a given area by 5.0–20.0 cm, while a collapsible tubular element also holds the peg. 2. The method according to claim 1, characterized in that the space between the stem and the tubular-shaped element is filled, for example, with soil, sand, sawdust or mixtures thereof, or soil from the bottom of the reservoir. 3. The method according to claim 1, characterized in that the collapsible element of a tubular shape is made either in the form of a hollow cylinder, or in the form of a hollow truncated cone with the top up.

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