RU2318367C2 - Seedling growing method - Google Patents

Abstract

FIELD: agriculture, in particular, seedling planting method.

SUBSTANCE: method involves sowing seeds; undercutting roots; forming protective soil-and-root structure and selecting seedlings; providing direct action upon seedling root system by performing successive staged undercutting of roots at different levels; undercutting roots in horizontal and vertical planes for forming of protective soil-and-root structure and providing homogeneity thereof by intensifying seedling root system development and providing directed spatial orienting of said system in soil layer near roots; performing root undercutting procedure in horizontal plane at least two times at different depths depending upon seedling development phase; providing each root undercutting procedure in horizontal plane to depth exceeding previous depth over the entire width of ridge under cultivation procedure; additionally providing root undercutting procedure in vertical plane in spacing along rows; additionally providing root undercutting procedure in vertical plane transverse to spacing.

EFFECT: improved retention of root system during seedling selection and transplanting procedures, improved seedling establishment and increased yield.

5 cl

Description

The invention relates to agriculture, in particular to methods of growing seedlings, for example, for vegetable crops.

A known method of growing seedlings (Modestova N. A. Growing seedlings of vegetable crops under a film. - L .: Kolos, 1978, p. 10, 32. 52), including sowing seeds and sampling seedlings.

The disadvantage of this method is the high damage to the root system when sampling seedlings, which leads to the loss of the bulk (85-90%) of the roots.

This drawback is partially eliminated in the method of growing seedlings (I. Lebedinsky. Elements of industrial technology for growing seedlings of the main vegetable crops in the forest-steppe of the Ukrainian SSR. Author. Diss. Cand. Of Agricultural Sciences. - L. - Pushkin, 1988, 17 pp. .), in which the operation of root cutting is introduced, which contributes to the development of additional lateral roots and increases the conservation of roots and soil in the central part of the root system of seedlings.

However, in the process of sampling and transplanting such seedlings, most of the root system still breaks, which reduces the survival rate of young plants and yield.

There is also known a method of growing seedlings (Nestyak V. S. "Method of growing seedlings" Patent of the Russian Federation 2145473. 2000.), adopted by us for the prototype. The method includes sowing seeds, pruning roots, the formation of the soil-root structure by sequentially changing the geometric and physico-mechanical parameters of the root volume of soil and sampling seedlings. The introduction of the operation of forming a protective soil-root structure increases the safety of the root system during the selection and transplanting of seedlings, helps to increase its survival rate and increase the yield,

However, the widespread implementation of this method (at the moment) is limited by the capabilities of the material and technical base of agriculture (the single availability of agromost systems and equipment for the production of seedlings). In addition, the homogeneity of the resulting soil-root structure (the mass ratio of the root system and soil) depends on the seedlings used and decreases from the central part to the periphery of the root volume of the soil, which leads to the loss of the part of the root system located in the peripheral region and reduces the effectiveness of protection root system of seedlings in the process of transplanting.

The objective of the proposed technical solution is the creation of a homogeneous natural soil-root structure of seedlings throughout the volume of the root volume of soil directly on the spot and in the process of growing it with the limited capabilities of the producer and regardless of the type of seedlings. This will improve the quality of the finished seedlings according to the most common soil technology on various types of seedlings and the high preservation of the root system in a homogeneous natural soil-root structure. Moreover, the method can be implemented with a minimum change in the existing material and technical base of the rural commodity producer and using existing greenhouse soils and seedlings.

The problem is solved in that in a method including seed sowing, root cutting, formation of a protective soil-root structure and selection of seedlings, uniformity of the natural soil-root structure, they provide, by intensifying the development of the seedling root system and its directed spatial orientation in the root volume of soil, by direct impact on the root system of seedlings. At the same time, root development and their spatial orientation are intensified by the methods of successive phased cutting of roots at different levels in the horizontal and vertical planes of the root volume of soil.

The essence of the proposed method is as follows. Seedlings are grown according to traditional soil technology, including soil preparation, seed sowing, care work (irrigation, top dressing, row-spacing), root cutting, formation of a protective soil-root structure and sampling of seedlings. In the process of the formation of the soil-root structure, its homogeneity is ensured by intensifying the development of the root system and its directed spatial orientation in the root volume of the soil by directly affecting the root system of seedlings by sequentially cutting the roots at different levels in the horizontal and vertical planes of the root volume of the soil.

In this case, 3 variants of the technological process are possible, characterized by a different level of influence on the root system of seedlings and the intensity of its growth and the uniformity of the resulting natural soil-root structure:

1. Roots are trimmed only in the horizontal plane at least two times - the first in the stage of 2-4 true leaves at a depth of 4-5 cm, the second in the phase of 5-8 true leaves to a depth of 6-8 cm. Before trimming, inter-row processing ( loosening), which contributes to the improvement of the water-air regime and the formation of additional hills. Pre-sampling of roots is carried out immediately before sampling seedlings to a depth of 8-10 cm. In the process of such an impact, a developed root system of seedlings is formed in horizontal planes at different levels along the root length. In this case, the mass of the root system (in the experiment on tomatoes of the Buyan variety) increases by 1.3–1.4 times in comparison with the control. To ensure the spatial stability of the processed seedlings, pruning of roots in the horizontal plane is carried out simultaneously over the entire width of the processed ridge.

2. Trimming the roots in the horizontal plane is carried out according to claim 1. In addition, they additionally trim the roots in a vertical plane along the aisles (along the rows). The first trim in the vertical plane is most effective between the first and second trim in the horizontal plane. The second pruning in the vertical plane is carried out if possible after the second horizontal pruning of the roots and is limited by the development of the leaf apparatus of seedlings. Clippings in the vertical plane can be combined with inter-row machining (loosening) and the formation (densification) of hill ridges. Similar effects on the root system of seedlings contribute to the intensive development of roots in the horizontal - along the length of the root, and in the vertical - along the width of the row, plane. This contributes to an increase (in the experiment on tomatoes of the Buyan variety) of the mass of the root system compared with the control by more than 1.6 times, to increase the uniformity of its soil-root structure and the preservation of the root system in the process of transplantation.

3. Trimming the roots in the horizontal and vertical planes is carried out according to items 1, 2. In addition, they also trim the roots in the vertical plane across the row spacings (when using agromost systems and picking machines according to the block-modular principle). Vertical undercuts in the transverse direction are carried out simultaneously (or after) undercuts along the aisles and can also be combined with the lateral processing of the aisles. In this case, a developed volumetric-formed root system of seedlings with a natural soil-root structure is formed over the entire volume of the protective lump of soil, which limits the boundaries of its development, and the mass of the root system of seedlings (in the experiment on tomatoes of the Buyan variety) increases by 2 compared to the control 5 times. This provides a quick survival of plants after transplantation and increased yield in the open field.

Experimental verification of the method according to paragraph 1 on seedlings of tomato varieties "Siberian precocious" found that a single pruning of roots gives an effect comparable to the effect of picking, increases fruit yield by 3.4%, seed yield by 17.5%. Two- and three-fold pruning of roots at different levels increases the yield of fruits by 34.6-42.7%, respectively, and seed yield by 30.1-54.4%.

The method can be implemented by existing technical means, in particular, using single-sided plane-cutting and circular knives.

Claims (5)

1. A method of growing seedlings, including sowing seeds, pruning roots, the formation of a protective soil and root structure and sampling seedlings, characterized in that they directly influence the root system of seedlings by sequential stepwise pruning of roots at different levels in horizontal and vertical planes to form a protective soil -root structure and its homogeneity due to the intensification of the development of the root system of seedlings and its directed spatial orientation in the root volume Faces. 2. The method according to claim 1, characterized in that the pruning of the roots is carried out in a horizontal plane at least two times at different depths depending on the phase of seedling development, with each subsequent pruning being carried out to a depth exceeding the previous one. 3. The method according to claim 2, characterized in that the cutting of roots in the horizontal plane is carried out over the entire width of the processed ridge. 4. The method according to claim 2 or 3, characterized in that they additionally carry out pruning of the roots in a vertical plane along the row spacing along the rows. 5. The method according to claim 2 or 3, characterized in that they additionally carry out pruning of the roots in a vertical plane across the rows.