RU2017402C1 - Method for growing woody plants - Google Patents

Abstract

FIELD: forestry. SUBSTANCE: method includes selection of nursery plants with different types of root systems, e.g., surface and stem ones but with compatible tissues in grafting. They are planted adjacent to each other and stalks of two-three nursery plants are grafted to each other on the 2nd or 3d year. After plants fusion, their branches are cut in the next vegetation season to have only one valuable stalk remained. EFFECT: higher efficiency. 1 ex

Description

 The invention relates to forestry, in particular to the cultivation of woody plants, and can be used in agroforestry, in the cultivation of parkland and landscaping.

 Known corridor method of growing tree species in an ordinary planting (Pavlovsky E.S. Cultivation of protective stands in the Stone Steppe. M: Forest Industry, 1956, S. 98-120).

 The method consists in planting long-lived species, for example oak, in rows and planting on both sides of these rows - rows of related fast-growing species. Such planting increases the growth rate of long-lived species in comparison with its growth in plantations, where it is used in its pure form, since in this case, when growing oak, the principle is observed: “The oak tree loves to grow in a fur coat, but without a hat”.

 The disadvantage of this method is that the long-lived breed in this case has an insufficient growth rate, despite the adjustment by concomitant (fast-growing) rocks. The stability of a long-lasting breed with this method of growing is not high enough, since the plants have a rod (deep) or fibrous (surface) root systems, and they get nutrients and moisture from those soil horizons in which the bulk of the active roots are located.

 All this is due to the adaptability of plants to certain soil and climatic conditions of the external environment, that is, individuals passed a centuries-old selection for survival and in the process of evolution are best adapted to the external environment of a certain range. In field-afforestation afforestation, woody plants are transferred, as a rule, to other climatic and soil conditions, and in this case their resistance to adverse environmental conditions decreases (for example, dry periods, poor soils, etc.).

 There is also known a method of growing woody plants in a group planting (Kalashnikov AF Agroforestry Directory. - M .: Forestry, 1971, p.22-24), which consists in preparing the soil for planting, planting groups (biogroups) having various shapes from rectangular to beam and in the care of the planting. This method of growing woody plants has the same disadvantages as the previous analogue, because involves the planting of single-breed biogroups in which the nutrition of trees is carried out by ordinary root systems.

 Closest to the proposed method is the use of vaccinations between plants of not only different species, but also of genera, which is done to improve the productivity of their growth and development, for example, Siberian cedar pine is grafted on ordinary pine, and some varieties of plum are grafted on felt root cherry [ 1].

 Using the known method has the same disadvantages as the previous analogues (poor resistance to adverse environmental conditions and relatively weak growth and development). The reason for the existing shortcomings is one type of root system in woody plants (in particular, in economically valuable species that are grown in forest protection afforestation). With the surface type of the root system, plants lack during dry periods of moisture, since during these periods moisture is in deeper layers of the soil. With the pivotal (deep) type of root systems, poor soils, as a rule, interfere with the development and resistance of plants, because the upper soil horizon is the most fertile.

 The aim of the invention is to accelerate growth and increase the resistance of economically valuable plants.

 The method is as follows: The soil for forest planting is prepared according to generally accepted technology, according to the black steam system (plant plowing, 2-3-time cultivation and pre-planting harrowing). Landing is carried out mechanized way with the help of a forest planting machine SLN-2 in the third decade of April (under the conditions of the central emergency). Seedlings in biogroups are planted in bunches of 4-5 plants in one seat. The distance between biogroups in a row of 8–9 between rows of 1.5–2 m; on one hectare, an average of 750–800 seats is obtained. Planting material consists of two species (economic and related), differing in the type of root systems (for one seat two seedlings having a core, and two - superficial root systems). Moreover, breeds having tissue compatibility (capable of splicing during vaccination) are selected (Table 1).

 Care for biogroups consists of cultivations used to care for the diagonal-group type of plantings and hand weeding before closing crowns in the aisles. For 2-3 years, plants are grafted in bio groups. The grafting of plants for 2-3 years is explained by the fact that after planting the trees need to take root (1-2 years), and also develop their root system. At the age of four, the mass of the root system, for example, in the pedunculate oak (Table 2) of each tree in the biogroup averaged 0.04 kg, the weight of the aerial part was 0.02 kg, respectively. The diameter of the booms during this period is on average 5-6.5 mm. At this time, in the spring, at the end of April-May (in the central emergency room), the plants are vaccinated as follows. At a height of 5-10 cm from the ground, grafting knife removes sections of the bark to cambium in the areas of plant stumps - in bunches. Stambik sections directed inside the beam are exempted from the bark so that it is possible to connect all the 2-3 plants in places exempted from the bark. After this, the plants are pressed against each other and wrapped with synthetic tape, after which the wound place is carefully lubricated with garden varnish or plasticine in order to avoid drying of the cambial layers.

 The data in the table show that the application of the proposed method over the years of observation in wood species provides an increase in the aboveground mass by 24.4% and the root mass by 3.3 times, in the future this development slightly decreases in volume of the root mass, but increases compared to the ordinary method by aerial parts of the plant.

 After the plants took root in the next growing season after grafting, the trunks were trimmed above the grafting site, leaving one stem of an economically valuable breed, that is, the breed that is planned to be grown in this area with an increased growth rate and stability. The increase in the growth rate and resistance of woody plants is due to a sharp increase in their root mass (2 times or more) after vaccination. At first, the aboveground mass of such trees does not correspond to the strength of their root systems and there is a sharp increase in plants of aboveground vegetative organs (Table 3). At the same time, rod (deep) and surface root systems combined on the same tree increase the stability of the tree, that is, for example, in dry years such trees receive moisture due to the deep root system, while trees with surface roots will suffer from her lack. Trees with surface and deep systems provide nutrients mainly for the surface system, since the upper horizons of the soil in which it is located are richer in nutrients than the lower. That is, plants that have both superficial and deep root systems have increased resistance under the existing environmental conditions.

 The use of the invention in agroforestry will increase the growth rate of woody plants by 1.3-1.5 times by increasing their root mass and increase their resistance due to the fusion of deep and surface root systems on one plant.

Claims (1)

 METHOD FOR GROWING WOOD PLANTS, including planting planting material of at least two different species with tissues compatible with grafting and rooting and subsequent grafting among themselves, characterized in that, in order to accelerate the growth and increase the resistance of economically valuable plants, after trimming, all trunks, in addition to one economically valuable stem, which is left for cultivation in the same stem with the root systems of the accompanying rocks, while breeds with different etaniem root systems, such as surface and core.

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