RU2765239C1 - Method for determining the permissible compaction of trees in a row when creating early plantings of apple trees - Google Patents

Abstract

FIELD: fruit growing.

SUBSTANCE: invention relates to the field of fruit growing. In the method, before laying the garden, model annual plants of the studied variety-rootstock combination of apple trees are placed according to the following planting schemes, consisting of a control planting scheme - 4 m × 1.5-2.0 m with a density of 1666 tr/ha and experimental plants - 4 m × 1.0 m with a density of 2500 tr/ha and 4 m × 0.5 m with a density of 5000 tr/ha, with subsequent substantiation of the optimal distances between trees in a row in apple plantations on dwarf and semi-dwarf rootstocks according to the diagnostic criterion, for which use the shoots of the continuation of the central conductor and lateral branches of the first order of branching of young plants. As a diagnostic criterion, the crown compactness coefficient is used, which is determined by the ratio of the average lengths of the shoots of the continuation of the central conductor and the lateral branches of the first order of branching, measured at the end of the growing season of plants, and determines the maximum permissible compaction of trees of a particular variety-rootstock combination in a row by distance, at fulfillment of the following conditions: the average length of the extensions of the central conductor and the ratio of the average lengths of the shoots of the extension of the central conductor and the lateral branches of the first order of branching reach maximum values ​​in the experimental planting schemes, and the ratio of the average lengths of the shoots of the continuation of the central conductor and the lateral branches of the first order of branching is equal to or greater than 1.2.

EFFECT: method accelerates the determination of the maximum permissible compaction of trees of a specific variety-rootstock combination of an apple tree in a row, which is carried out even before the planting of the orchard and provides the maximum effect of early maturity, while simplifying the measurement of diagnostic indicators presented in digital terms.

1 cl, 4 tbl, 1 ex

Description

The invention relates to agriculture, and in particular to methods for selecting the optimal layout of fruit trees for specific soil-climatic and agrotechnical growing conditions.

The basic model of the intensive garden "Compacted trellis-dwarf garden" is known, with a density of plants from 2500 to 5700 pcs. / ha. Constituent elements: dwarf (M-9 and its clones, R 16, R 60, V.9, APM-18, MB) and superdwarf rootstocks (M-27, V.491, V.195, V.146, R 59 R 22, PB-4, V 7-35), the formation system is “compact spindle” and “super spindle” (http://asprus.ru/blog/met/promyshlennyj-sad/).

The closest in technical essence is the method for determining the optimal degree of compaction of the created plantations of the corresponding variety-rootstock combination of apple trees, including, before laying the orchard, the placement of model annual plants of the studied variety-rootstock combination of apple trees according to the following planting schemes, consisting of a control planting scheme - 4 m × 1, 5-2.0 m with a density of 1666 trees/ha and experimental - 4 m × 1.0 m with a density of 2500 trees/ha and 4 m × 0.5 m with a density of 5000 trees/ha, with subsequent substantiation of optimal distances between trees in a row in apple plantations on dwarf and semi-dwarf rootstocks according to a diagnostic criterion, for which shoots of the continuation of the central conductor and lateral branches of the first order of branching of young plants are used, / T. N. Doroshenko, L. G. Ryazanova, I. V. Gorbunov and others // Proceedings of the Kuban State Agrarian University. - 2019. - No. 4 (79 ). - S. 97-103, electronic access:

http://proceedings.kubsau.ru/issue/2019/79/97-103). The article provides for testing various tree placement schemes and identifying the best option in terms of accelerating the onset of fruiting and sustainable fruit yield growth, taking into account the characteristics of the species, soil fertility, moisture availability, growth vigor of the varieties used, rootstocks in local conditions, as well as the type of garden.

The disadvantages of the known method are:

- the complexity of the mass assessment of a specific biochemical indicator of plants to determine the permissible degree of their compaction in a row;

- the duration of the experiment (assessment) is unacceptably long, which delays the timing of obtaining the necessary information.

The technical result is to speed up the determination of the maximum allowable compaction of trees of a particular variety-rootstock combination of apple trees in a row, carried out even before the laying of a planting garden and providing the maximum effect of precocity while simplifying the measurement of diagnostic indicators presented in digital terms.

The technical result is achieved by the fact that in the method for determining the permissible compaction of trees in a row when creating early-fruiting apple plantations, including, before laying the garden, the placement of model annual plants of the studied variety-rootstock combination of apple trees according to the following planting schemes, consisting of a control planting scheme - 4 m × 1, 5-2.0 m with a density of 1666 trees/ha and experimental - 4 m × 1.0 m with a density of 2500 trees/ha and 4 m × 0.5 m with a density of 5000 trees/ha, with subsequent substantiation of optimal distances between trees in a row in apple plantations on dwarf and semi-dwarf rootstocks according to the diagnostic criterion, for which shoots of the continuation of the central conductor and lateral branches of the first order of branching of young plants are used, according to the invention, as a diagnostic criterion, the coefficient of crown compactness is used, which is determined by the ratio of average lengths of shoots of continuation of the central conductor and side branches of the first order of branching, meas. at the end of the growing season of plants and determine the maximum allowable compaction of trees of a particular variety-rootstock combination in a row by distance, under the following conditions: the average length of the shoots of the continuation of the central conductor and the ratio of the average lengths of the shoots of the continuation of the central conductor and the lateral branches of the first order of branching reach maximum values in experimental planting schemes, and the ratio of the average lengths of the shoots of the continuation of the central conductor and the lateral branches of the first order of branching is equal to or greater than 1.2.

The novelty of the proposed method is due to the fact that, in comparison with the known technical solutions, a set of reliable and easy-to-evaluate criteria for the accelerated determination of the maximum allowable compaction of trees of a particular variety-rootstock combination in a row is presented when creating early-fruiting apple plantations.

According to the scientific, technical and patent literature, a set of features similar to the claimed one has not been found, which makes it possible to obtain a technical result that has not previously been achieved by known means, which makes it possible to judge the inventive step of the proposed proposal.

The method for determining the permissible compaction of trees in a row when creating early-growing apple plantations is carried out as follows

In the claimed method, various plant placement schemes are tested and the best option is selected in terms of accelerating the onset of fruiting and sustainable fruit yield growth, taking into account the characteristics of the breed, soil fertility, moisture availability, growth vigor of the varieties used, rootstocks in local conditions, as well as the type of garden.

Before laying the garden (in the third field of the nursery or in other parts of the territory of the future laying), model annual plants of the studied variety-rootstock combination are planted, according to the following planting schemes, consisting of a control planting scheme - 4 m × 1.5-2.0 m with a density 1666 trees / ha and experimental - 4 m × 1.0 m with a density of 2500 trees / ha and 4 m × 0.5 m with a density of 5000 trees / ha, changing the distance between them in the range from 1.5-2 .0 m (control planting scheme) up to 0.5 m with an interval of 0.5 (0.25) m, (in experimental plantings) at the end of the growing season of plants, the average length of the shoots of the continuation of the central conductor (CP), side branches of the first order is measured branching (BV) and calculate the coefficient of crown compactness (CP/BV) associated, in essence, with its habit determined by the genotypic features of the pomological variety used and the influence of the corresponding rootstock on this characteristic. Next, the maximum allowable compaction of trees of a particular variety-rootstock combination in a row by distance is determined, under the following conditions (CP) and the ratio (CP/BV) reach maximum values in experimental planting schemes, and the ratio (CP/BV) (CP/BV) , i.e. the crown compactness coefficient is equal to or greater than 1.2. If there is no option in the experiment in which all these conditions would be met, the concept of increasing the precocity of plantations created by compacting trees in a row should be considered unacceptable.

When using the proposed technical solution, the maximum possible precocity of the created apple plantations is ensured.

An example of a specific implementation of the proposed method for determining the permissible compaction of trees in a row when creating early-growing apple plantations

Experiments on the accelerated determination of the maximum allowable compaction of apple trees in a row were carried out on farms in the Kuban horticulture zone (the soil was leached chernozem). Some indicators of the habitus of the crown of biennial plants of various variety-rootstock combinations of apple trees, depending on the distance between them in a row, are given in Tables 1 and 2.

According to the results of the evaluation, despite the similarity of the growth force, the tested varieties react completely differently to the compaction of trees in a row (they differ in terms of photophilousness). But the combination of diagnostic criteria, apple trees of the Kuban purple variety (rootstock MM106) can be compacted up to 1.5 m.

Under the same natural conditions, Golden Delicious apple plants on rootstock MM106 have a wider ecological amplitude in relation to light. The distance between them in a row can be increased up to 1.0 m. On the contrary, when trees of Florina apple trees are compacted on a similar rootstock, they lose their crown compactness. For this option, the control values should be recognized as optimal: the distance between plants is 2.0 m.

According to our data, the choice of the acceptable degree of compaction of trees in a row, associated with the precocity of plantations, is significantly influenced by the rootstock (see Table 2).

Thus, when using the rootstock M9, the maximum values of the coefficient of compactness of the crown of an apple tree of the Kubanskoye bagryanoe variety are achieved in the variant with a distance between plants of 1.0 m. In the case of using the rootstock SK-2U, the distance between the trees can be reduced to 0.5 m.

The validity of the formulated conclusions is confirmed by the results of determining the value of the fruit yield in two-three-year-old apple plantations (Table 3).

Based on the data obtained, the maximum manifestation of precocity and increase in productivity of plantings of apple trees of the Kuban purple variety on the rootstock M9 was recorded when trees were placed in a row every 1.0 m; and in the case of using the rootstock SK-2U - even after 0.5 m. With the same parameters of plant placement, the normal course of development of generative buds is ensured, which determines the successful realization of the potential productivity of the apple tree in the next season and, consequently, the regularity of fruiting (Table 4).

Thus, the proposed method provides optimization of the determination of the maximum allowable compaction of trees in a row in connection with the creation of early-fruiting apple plantations, which guarantees an acceleration of the start of its fruiting and a sustainable increase in fruit yields.

Claims (1)

A method for determining the permissible compaction of trees in a row when creating early-growing apple plantations, including, before laying the orchard, the placement of model annual plants of the studied variety-rootstock combination of apple trees according to the following planting schemes, consisting of a control planting scheme - 4 m × 1.5-2.0 m s with a density of 1666 trees/ha and experimental ones - 4 m × 1.0 m with a density of 2500 trees/ha and 4 m × 0.5 m with a density of 5000 trees/ha, with subsequent justification of the optimal distances between trees in a row in plantations apple trees on dwarf and semi-dwarf rootstocks according to a diagnostic criterion, for which shoots of the continuation of the central conductor and lateral branches of the first order of branching of young plants are used, characterized in that the coefficient of crown compactness is used as a diagnostic criterion, which is determined by the ratio of the average lengths of the shoots of the continuation of the central conductor and lateral branches of the first order of branching, measured at the end of the growing season of plants, and determine the maximum allowable compaction of trees of a particular variety-rootstock combination in a row by distance, under the following conditions: the average length of the shoots of the continuation of the central conductor and the ratio of the average lengths of the shoots of the continuation of the central conductor and the lateral branches of the first order of branching reach maximum values in experimental planting schemes, and the ratio the average length of the shoots of the continuation of the central conductor and side branches of the first order of branching is equal to or greater than the value of 1.2.