RU2380892C1 - Method for growth of planting stock of aerochorous arboreous species - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: method may be used to grow planting stock of aerochorous arboreous species in dry conditions of southern treeless steppe and semidesert areas. Growth of planting stock is carried out between artificially created seed plantation strips. Seed plantation strips are oriented across dominant direction of winds. Ordered sowing of area is obtained through natural sowing of seeds from fruit-bearing trees of strips under action of wind into previously prepared open sowing furrows. In dry years watering is done through overhead irrigation.

EFFECT: production of planting stock with high hereditary character, which is most adapted for local forest conditions; affordability and ease of works performance; considerable reduction of planting stock growth prime cost; combination of seed growing and planting stock growth in a single technological processes; mass reproduction of promising stable forms of seed plants.

5 cl, 1 dwg

Description

Application area

The invention relates to methods for growing planting material of anemochoric tree species of plants and can be used in agriculture and forestry to obtain planting material of local origin with improved hereditary properties. More specifically, the invention is applicable mainly in protective afforestation for open treeless territories with a stable regime of intense winds of the dominant direction.

State of the art

Anemochoria is widespread in natural forests as a means of seed regeneration of the forest. The processes of natural forest regeneration in recent decades have been particularly intensive on abandoned arable land in temperate forests (Utkin A.I. Relations between coniferous and soft-leaved forest-forming species in the agrarian conditions of the Russian plain // Vestnik OGU.№4. 2006. P.103-104 )

In modern forestry production, tree species seedlings grown in the open ground of large basic nurseries from seeds collected in seed plantations, including those whose volatile seeds are easily carried by the wind over considerable distances, i.e. anemochoric (such as maples, ash trees, ilmovyh and others). The existing technology for growing seedlings in the open ground of nurseries includes harvesting seeds from growing trees, cleaning them from impurities, storing, pre-sowing preparation, sowing seeds in sowing furrows on plowed and leveled soil, weeding weeds and loosening the soil, fertilizing and irrigation, sprinkling root system of seedlings by trimming rod roots with plane cutters, mechanized excavation. It is indispensable and justified for woody species, the seeds of which cannot be spread by the wind due to the lack of adaptations for them, but for anemochoric woody species, they do not use the important and economically valuable biological property of their winged seeds to be naturally seeded under the influence of area wind adjacent to forest fronds.

Centralized procurement of large batches of seeds of anemochorous tree species in small seed bases of consumer farms (forestries) scattered and remote over considerable distances (up to 500 km or more), mostly located in different soil and climatic conditions, and with a lack of seeds from random trees from asphalt in settlements, leads to the fact that subsequently households-consumers receive ready planting material from nurseries with very diverse hereditary properties, often little stvuyuschimi local site conditions. This ultimately reduces the sustainability and durability of the forest crops created from it. In addition, the grown planting material in basic nurseries is transported by consumer farms over long distances, which affects its quality, increases cargo transportation and stretches the agricultural time of planting. In addition, the technology of growing seedlings in nurseries does not completely exclude manual labor and contains a number of time-consuming and expensive operations for harvesting seeds from growing trees, cleaning them from impurities, storing them in warehouses, pre-sowing preparation and sowing seeds into the soil (Agroforestry Manual // ed. The forest industry. M. 1971. S. 135-154).

These shortcomings were eliminated in the well-known non-nursery method of growing willow and poplar planting material from seeds at the place of the created dams, using natural seeding and consisting in uniform distribution over the area of the dam intended for growing seed planting material of these rocks, branches with ripening fruits (see P. I. Moroz. Willows and poplars from seeds // Journal of Floriculture, No. 6. 1977. S.14-15). By the time seeds are emitted from them, water from the lower dam is released and ripened light volatile seeds are evenly scattered around the branches by streams of air and adhere to the wet surface of the bottom of the dam, provided with the necessary conditions for friendly germination and emergence of mass shoots. In the future, as the self-seeding and the desiccation of the soil grows, the necessary humidity is maintained by feeding it when water is poured from the upper dam into the water-regulating ditch with jumpers. With this method, cheap planting material of fast-growing willows and poplars of standard sizes is obtained in the form of a continuous array of self-seeding.

However, it can be used only for hygrophilous tree species (different types of willow, poplar, alder) with small seeds ripening in the spring-summer period and requiring seedlings from seeds of constant high humidity in the upper horizons of the soil and subsequently cultivated in humid habitats . A prerequisite for its implementation is the mandatory presence of lowered relief elements, whose thalwegs are not always located in the desired direction, which does not allow for the natural seeding by wind of the area directly from seed adult trees. In addition, when harvesting branches with fruits, the crown of fruit-bearing trees is severely damaged, which negatively affects their condition. The use of prolonged flooding of the area before sowing seeds, random distribution of seeds during natural seeding, and feeding with water during the cultivation of seedlings completely excludes the use of mechanization of nursing work up to digging the finished planting material. All this limits the application of this method to a very narrow range of hygrophilous fast-growing anemochora woody plants with small flying seeds ripening in the late spring and summer vegetation periods. It is known that in the arid zone on complexes of light chestnut soils with different proportions of solonetzes, abundant self-sowing of ash maple, green ash (Pencilvan), squat elm appears in wet years under the canopy of protective strip plantations and near them. This self-seeding is recommended to be used as planting material (A.E. Bespalova. Renewal of tree and shrub species in protective plantations of the semi-desert // Zh. Lesnoe Khoz-in. 1978. No. 9. P.51-54).

Effect: it is possible to obtain planting material with high hereditary properties, maximally adapted to local forest conditions; accessibility and ease of work; a significant reduction in the cost of growing planting material; combination of seed production and growing planting material in one technological process; mass reproduction of promising resistant forms; capital and current expenses for arranging large nurseries and their functioning are completely excluded.

The implementation of the invention

The claimed technical result is achieved by the fact that the method of growing planting material of anemochora tree species is characterized by growing planting material in rainfed conditions of southern treeless steppe and semi-desert territories between artificially created strips of seed plantations oriented across the prevailing wind direction, and ordered seeding of the area is obtained by natural sowing of seeds from fruiting trees under the influence of wind in pre-prepared open osevnye furrows in dry years, is carried out irrigation sprinkler. Purebred bands of seed stands in monoecious species are created by single-row planting of young plants or formed by reconstruction of existing adult multi-row plantings by cutting and uprooting of the inner rows to create wide inter-strip spaces, and in dioecious species to provide optimal pollination conditions, from three rows with the distance between plants in the row 1.5-2 m. In order to exclude pollination with undesirable in the selection relation forms of the strip of seed stands (seed sections) create a planting Coy young seed plants or vegetative progeny of plus trees by placing them away at a distance of more than 3 km away from the other plants of the species or related species. The width of the inter-strip spaces is selected empirically differentially for each tree species within 20-100 m, taking into account the biological characteristics of winged seeds, the wind regime of the area and the design of seed sections. To ensure the necessary crop rotation when growing planting material create a system of seed strips, alternating with inter-strip spaces of a certain width.

The process of growing planting material is carried out directly in the inter-strip spaces of forest seed plots, small-row (no more than 3 rows) strips of which are formed by a blown structure and placed across the prevailing wind direction to ensure uniform spread of pre-prepared (on plowed soil near the strips) sowing furrows. At the same time, strips of seed stands are created from one species by planting young plants or reconstructing existing adult multi-row stands by cutting and uprooting the inner rows to create wide inter-lane spaces. In steppe and semi-desert regions, fruiting in woody plants occurs already at the age of 5-7 years.

In the inter-lane spaces before flying around from seed trees of ripened seeds, the soil is plowed with a planting plow with a dump to a depth of 35-40 cm with simultaneous disking and harrowing. Cutting sowing furrows is carried out by a cultivator according to the scheme adopted in nurseries for growing seedlings of this type or another convenient scheme. For example, after cultivation, the distance between the centers of the furrows is 35-40 cm, which allows further mechanization of maintenance work in the inter-furrow space and excavation of the finished planting material. When scattered, the seeds fall on the soil, are blown away from the ridges by the wind and accumulate in the recesses of the furrows (see drawing). Seeds of tree species (for example, maples, ash, etc.), ripening and mostly flying around in the fall, are covered with snow in the indentations of sowing furrows in winter and naturally pass through stratification. They are not susceptible to decay, and in the spring after snow melting and the rise in effective temperatures they quickly germinate and give mass shoots that maximize the spring moisture of the soil surface and do not need watering during the growing season. Seeds of woody species (for example, elm /), ripening in late spring after seeding the area, for germination and emergence of seedlings in dry years need irrigation irrigation.

Ordering of natural seeding into open sowing furrows creates the conditions for subsequent mechanized care between rows of seedlings, and in the rows manual weeding is carried out during the growing season until the seedlings are closed, that is, the technology for growing planting material according to the proposed method after emergence is similar to that generally accepted in nurseries. In addition, the presence of forest stripping strips with this technology of growing planting material improves the microclimatic situation of the growing process - evenly distributing snow in the inter-strip spaces in winter, and reducing the wind speed in summer and reducing physical evaporation from the soil surface. At the same time, planting material is obtained in standard sizes in the first year in an amount that exceeds 1.5-2 times the planned yield when growing it in nurseries.

For use as seed plots of fruiting adult multi-row plantations in them, inter-lane spaces are formed by cutting and uprooting the inner rows with leaving rows of seedling trees on the edges. In addition, to exclude pollination with forms that are undesirable in the selection relation and to multiply promising stable forms, seed strip strips are created by planting young seed plants or vegetative offspring of plus trees, placing them away from other plantings of this species or related species (for squat elm - far from its pollinator birch bark, hybrid forms with which are highly susceptible to Dutch disease).

The strips of seed planting in bisexual plants (e.g., elm) are formed from 1-2 rows, and in dioecious (e.g., ash, maples) - from 3 rows to provide optimal conditions for wind permeability of the bands and pollination of plants in them. The ratio of male and female specimens in the forest strips of ash-leaved maple and pencilvan ash varies approximately equally (50% to 50%). To organize the necessary crop rotation for growing planting material, a system of strips of seed stands alternating with inter-strip spaces is created. The width of the inter-strip spaces is selected differentially for each tree species, taking into account the wind regime of a given locality, the design of seed planting strips, their flow, volatility and range of spread of winged seeds.

The drawing shows a schematic cross-section through 3-row strips of seed plantations of ash maple at the age of 17 years and an inter-strip space (2) 20 m wide, obtained by reconstructing the 1st tape of the wide multi-row Goslesopolosy Volgograd-Elista-Cherkessk on its 5-kilometer stretch located in the Sarpinsky district of the Republic of Kalmykia. To do this, the inner rows of trees were cut down and uprooted, leaving the marginal three-row seed strips. Sick and foot trees were removed in them, and on the trunks of healthy trees left to lower the blowing ability of the strips, the lower branches were removed to a height of 1.5 m. When forming strips of seed stands, they sought to evenly alternate among the males and females. The stock of seeds on fruit-bearing (1000 pieces) trees of one kilometer of a three-row strip was about 9-10 million pcs. With a periodic change in the direction of the prevailing wind to the opposite, which is typical for dry-steppe treeless territories of Kalmykia, both edge bands of seed stands participated in the seeding of the inter-strip space, so the area was seeded evenly. The bulk of the seeds (3) of ash-tree maple larvae flew in the fall for two months after their maturation at a wind speed of 10-15 m / s (gusts of wind reach a speed of 24 m / s). The spreading range of seeds with an average planting height of 8-9 m and a wind speed of 10 m / s or more was 60-100 m.

To evenly distribute the seeds over the area of the inter-backyard space and to order their sowing according to the soil plowed to a depth of 40 cm and leveled by harrowing, wide sowing furrows with a depth of 15 cm were prepared by the KPN-2.8 cultivator in combination with an MTZ3-50 tractor.

The drawing shows a schematic cross section of sowing furrows. The distance between the centers of the furrows (4) was 35-40 cm. The ridges (1) between the furrows are gentle, which ensured that the seeds were blown away by the wind into the sowing furrows. With this arrangement of furrows per 1 linear meter of sowing furrow after seeding the area on average 60-80 pcs. seeds or 150-200 pcs. per 1 m ² , and in terms of 1 ha - 1.5-2 million units. seeds, while in nurseries for sowing per 1 ha, more than 200 kg of seeds or about 5 million pcs. are consumed. with the planned output of standard planting material of 400 thousand seedlings.

Seeds (3) in the furrows during the winter were left without seeding, which increased their soil germination to 80-85%, since they practically did not rot compared to seeding their soil, where the soil germination did not exceed 65% due to the decay of some seeds in the soil. In the early spring, immediately after the snow melts and the soil surface warms up to 8-10 ° С, the ash-leaved maple seeds, which underwent stratification in natural conditions, sprouted together and gave mass seedlings in the amount of 140-180 pcs per 1 m ² . During the growing season, 4 manual cares were carried out in the inter-strip space with seedlings, consisting in the removal of weeds and loosening of the soil. By the fall, the yield of standard planting material of ash-tree maple grown by the described method amounted to 800 thousand pcs./ha at a cost of one thousand pieces of seedlings 315 rubles or 2.5 times cheaper than planting material grown in the usual way in nurseries (calculation in 2008 prices )

Using the proposed method for growing planting material of anemochorous tree species in open ground by natural seeding from growing trees provides the following advantages compared to nurseries:

- the possibility of obtaining planting material with high hereditary properties, maximally adapted to local forest conditions;

- accessibility and ease of work (it is practically possible to do this in every forestry in the region’s forestry enterprises, with the exception of the southernmost desert forestry enterprises);

- a significant reduction in the cost of growing planting material by eliminating a number of traditional technological methods used in nurseries (harvesting seeds from growing trees, cleaning them from impurities, storage in warehouses, pre-sowing preparation and sowing seeds into the ground);

- combination of seed production and cultivation of planting material in one technological process (creation of seed strips from the offspring of plus trees as substitutes for forest seed plots);

- mass reproduction of promising stable forms;

- the complete exclusion of capital and current costs for the arrangement of large nurseries and their functioning.

All this significantly improves the quality of the planting material grown and the forest crops created from it and will reduce their cost at times.

Claims (5)

1. A method of growing planting material of anemochora tree species, characterized by growing planting material in rainfed conditions of southern treeless steppe and semi-desert territories between artificially created strips of seed stands, oriented across the prevailing direction of the winds, and ordered seeding of the area is obtained by natural sowing of seeds from fruiting trees under the action winds in pre-prepared open sowing furrows and in dry years carry out poly irrigation. 2. The method of growing planting material of anemochore tree species according to claim 1, characterized in that the purebred bands of seed stands in monoecious species are created by single-row planting of young plants or formed by the reconstruction of existing adult multi-row plantings by cutting and uprooting of the inner rows to create wide inter-lane spaces, and in dioecious species, to ensure optimal pollination conditions - from three rows with a distance between plants in the row of 1.5-2 m. 3. The method of growing planting material of anemochore tree species according to claim 1, characterized in that the strip of seed stands (seed plots) are created by planting young seed plants or vegetative offspring of plus trees, placing them far more than 3 km from other stands of this species or related species. 4. The method of growing planting material of anemochore tree species according to claim 1, characterized in that the width of the inter-lane spaces is selected empirically by differentiation for each tree species within 20-100 m, taking into account the biological characteristics of winged seeds, the wind regime of the area and the design of seed sections . 5. The method of growing planting material of anemochore tree species according to claim 1, characterized in that when growing planting material create a system of seed strips, alternating with inter-strip spaces of a certain width.

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