RU2654640C1 - Method of fruitery growing - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular, to fruit-growing. Method includes excavating pits, filling them with a substrate, planting seedlings and filling with a fertile layer of soil. Preliminarily, the substrate is placed on the bottom of the pits in an amount not exceeding 20 g and the seedlings are planted. As a substrate, a biogel consisting of an absorbent, microelements, macronutrients and a growth promoter based on indolylacetic acid, in the following proportions, wt%: growth promoter based on indolylacetic acid – 0.9–1.0; microelements – 0.4–0.6; macronutrients – 2.0–3.0; absorbent – the rest.

EFFECT: method allows to increase the survival rate of seedlings, activate growth processes and increase the productivity of fruit plants due to a balanced supply of plants with nutrients and full-fledged water accumulation in the root system of the plant.

1 cl, 4 tbl, 1 ex

Description

The invention relates to the field of agriculture, in particular to fruit growing.

There is a method of near-tree cultivation of soil in trees and bushes, including loosening the soil with simultaneous application of fertilizers and hydrogel into the treated layer (RF patent No. 2322780, class A01B 39/16, 2008).

Using the known method of near-trunk soil cultivation leads to the development and growth of trees and shrubs in orchards and reclamation plantations, but not enough, since water accumulation in the root system of the plant and insufficient nutrients are not provided.

A technical solution is also known, including digging holes, backfilling them with a substrate, planting seedlings of fruit and berry and orchard perennial plants and backfilling with a fertile layer of soil (RF patent No. 2040876, class A01G 17/00, 1995 - prototype).

A disadvantage of the known invention is the complexity of growing technology, poor water accumulation in the root system of the plant and low nutrient content, which affects the yield of fruits.

The technical result is an increase in the survival rate of seedlings, activation of growth processes and an increase in the productivity of fruit plants due to a balanced supply of plants with nutrients and proper water storage in the root system of the plant.

The technical result is achieved by the fact that in the method of growing an orchard, including digging holes, backfilling them with a substrate, planting seedlings and backfilling with a fertile soil layer, according to the invention, the substrate is first laid on the bottom of the holes in an amount of not more than 20 g and seedlings are planted, while The substrate uses a biogel consisting of absorbent, trace elements, macrocells and a growth stimulator based on indolylacetic acid, in the following ratio of components, mass,%:

growth stimulator based indolylacetic acid 0.9-1.0% trace elements 0.4-0.6 macrocells  2.0-3.0 absorbent rest

The novelty of the claimed technical solution is due to the fact that in order to increase the survival rate of seedlings, activate growth processes and increase the productivity of fruit plants when planting, they use a substrate in the form of biogel with nutrients, ensuring the survival rate of seedlings at the level of 95-98%.

According to scientific, technical and patent information, the claimed combination of features has not been identified, which allows us to draw a preliminary conclusion about the compliance of the features with the criterion of "inventive step".

The industrial applicability of the method lies in the fact that it can be used for growing fruit trees in order to increase the survival rate of seedlings, activate growth processes and increase plant productivity.

A method of growing an orchard is as follows.

Pre-excavation of the pits is carried out, then they are covered with their substrate in an amount of not more than 20 g, which is optimal for a positive effect on the development of the root system of the plant. With a smaller amount of substrate there will be insufficient nutrients for the development of the roots of the plant, and with a larger one, inhibition of the root system can be observed. Next, they plant seedlings and fall asleep with a fertile layer of soil. As a substrate, a biogel is used, consisting of an absorbent, microelements, macrocells and a growth stimulator based on indolylacetic acid, in the following ratio of components, mass. %: growth stimulator based on indolylacetic acid - 0.9-1.0; trace elements - 0.4-0.6; macronutrients - 2.0-3.0; absorbent - the rest. The optimal amount for each of the components is the following: absorbent - 96%; trace elements - 0.5%; macronutrients - 2.5%; growth stimulator - 1.0%. With this percentage of components, 100% survival of seedlings is provided. Indolylacetic acid-based growth stimulant is a natural plant growth stimulant and is widely used in the industrial method of vegetative propagation of shrubs and tree stands. The optimal amount of growth promoter in the substrate - biogel - is 1.0%. With a smaller amount, there will be insufficient nutrients for the development of the roots of the plant, and with a larger one, inhibition of the root system can be observed. Together with microelements, macroelements and absorbent, it exhibits synergistic properties, which very positively affects the yield and presentation of the fruit.

The inventive combination of micronutrient ratios, consisting of macroelements and microelements in the substrate, is selected for fruit plantations and for soils corresponding to the Northern and Prikubansk fruit zones. Such a low concentration of micro and macro elements allows reducing the amount of fertilizers applied to the soil by several orders of magnitude in the usual way, while the absorption of micro elements by all types of fruit crops increases and, as a result, their productivity increases.

Thus, the use of substrate components in the stated ratio allows not only to regulate the growing conditions, creating a favorable water-air regime and the agrochemical properties of the substrate when growing on it fruit stands of various species assortment, but also ensures high survival rate of seedlings.

Since the composition of the substrate, trace elements and growth stimulant are introduced with a low concentration, the description contains data proving the effectiveness of the claimed substrate.

An example of a specific implementation of the method of growing an orchard

To prove the effectiveness of the proposed method, scientific studies were conducted that were carried out in the field (North and Prikubansk fruit zones) and laboratory experiments in 2013-2016, in accordance with the program and method of varietal study of fruit, berry and nut crops (Program and methodology of varietal study of fruit, berry and nut-bearing crops / edited by E. N. Sedov, T. P. Ogoltsova. - Eagle: Publishing House of the All-Russian Research Institute for Selection of Fruit Crops, 1999, 608 pp.).

The repetition in the field experiments was fourfold (30 plants in each variant), and in the laboratory triple. In the field, studies were carried out to assess the survival rate of apple seedlings after planting at a constant place, the biological productivity of the plantings was determined according to the results of agrobiological surveys, the growth of the stem and leaf area, the yield of the plantations and the quality of the fruit.

Field experience diagram:

1. Technology (prototype).

2. Technology using a hydrogel (analog), 20 g.

3. The proposed technology using a substrate - biogel, 20 g.

We studied apple varieties Gala Shniga (autumn variety), Idared (winter variety) grafted on the M-9 stock and planted in the fall of 2012 according to the 3.5 × 0.8 m pattern.

The distribution of precipitation throughout the Krasnodar Territory is extremely uneven. So, in the Northern fruit zone (Kushchevsky district), the amount of precipitation during the research period was 503.5-540.6 mm per year, in the Central subzone of the Prikuban fruit zone - 573.6-751.0 mm, in the Piedmont fruit zone - 476, 5-779.3 mm per year. In this case, the balance and moisture of the soil is negative, and the moisture deficit is - 200-260 mm per year. Exceptions are 2012 in the Piedmont Fruit Zone, when 779.3 mm fell during the year, and 371.7 mm during the growing season. However, here too, the deficit of soil moisture in 2012 is 250 mm per year, and in other years - 150-300 mm or more.

As can be seen from the data in table 1, the effect of the use of absorbents was expressed in an increase in the survival rate of seedlings and increased growth processes in dynamics (tables 2, 3).

In option 2, where a hydrogel was used, regardless of the biological characteristics of the variety and growing conditions, survival rate increased at the end of the growing season by 2-4% compared with the prototype.

The use of biogel, ceteris paribus, provided 100% survival of apple seedlings of all studied varieties. The difference with the hydrogel was 4-8%.

The results shown in tables 2, 3 show that the diameter of the apple tree trunk in the first year after planting does not change significantly according to the experimental options, and in subsequent years, in the Northern fruit zone, Gala Shniga apple trees in the varieties where the substrate was used biogel, the diameter of the stem increases by 10.2-23.0% (compared with the prototype). This regularity is also preserved in trees of the weak-growing Idared variety, both in the Northern and Prikubansk fruit zones.

Studies have shown that the diameter of the stem, growths and leaf area determine the timing of entry of young trees into fruit bearing. The influence of water supply methods on the formation of leaf area is given in table 3.

The data in table 3 show that the use of hydrogel and substrate - biogel significantly increase compared to the prototype the total leaf area on young trees for an average of three years in the Northern fruit zone for the variety Gala Shniga by 18.3-31.7%, for the variety Idared by 30.6-38.6%.

 In the Prikuban fruit zone, by 22.9 - 37.7% for the Gala Schniga variety and by 24.5-40.5% for the Idared variety. The presence of a good conductive system to provide moisture and nutrients to the aerial part (root-leaves) and a large number of photosynthetic apparatus contributed to an increase in the number of formed fruits (Table 4).

In the conducted experiments, one-year branched seedlings having 3 to 7 flower buds were used during planting. Therefore, during the autumn (2012) planting, such seedlings of the Gala Shniga variety in 2013 yielded from 3.8 to 6, 8 pcs. fruits, and the trees of the apple tree Idared - from 4.6 pcs. up to 11.4 pcs.

In 2015, the average number of fruits in the Gala Schniga variety ranged from 16.6 pcs. up to 38.4 pcs., according to the grade Idared - from 22.6 pcs. up to 44.1 pcs Regardless of the variety and fruit zone, it was noted that the use of hydroabsorbents, especially biogel for 3 years, contributed to an increase in the percentage of useful ovary and for 3 years, according to the Gala Shnig variety, from 3.0 to 6.5 kg of high-quality fruits from one tree or from 10.7 to 23.2 t / ha. For the variety Idared, from 4.1 to 7.2 kg per tree or 14.6-25.7 t / ha, respectively, which is 2.0-2.2 times more compared to the prototype.

Thus, it is proved that the use of biogel optimizes water supply and increases the survival rate of seedlings, activates growth processes and increases plant productivity.

Claims (2)

A method of growing an orchard, including digging holes, backfilling them with a substrate, planting seedlings and backfilling with a fertile soil layer, characterized in that the substrate is laid on the bottom of the holes in an amount of not more than 20 g and seedlings are planted, using biogel consisting of a substrate from an absorbent, trace elements, macrocells and a growth promoter based on indolylacetic acid, in the following ratio of components, mass. %: growth stimulator based indolylacetic acid 0.9-1.0 trace elements 0.4-0.6 macrocells 2.0-3.0 absorbent rest