SU1161005A1 - Method of seed reproduction of blueberry (vaccinium uliginosum l.) in vivo - Google Patents

Abstract

1. METHOD OF SEED BREEDING BLUEBERRIES (VACCINIUM ULIGINOSUM L.) in vivo, comprising blended to seeds or dewatering processing by cold year razlozhivsheys timber, seeding the mixture into lined sphagnum moss grooves, their retention and sealing, characterized in that, in order increase the germination and survival of seedlings in the spring of next year before their occurrence, the furrows are first sprinkled with a layer of coal dust, and then with fine-grained light-colored sand, and the mass ratio of seeds and decomposed wood is 1 : 9-1: 11, squeezing and decomposed wood - 1: 4-1: 6, and the thickness of the sphagnum moss layer - 5.0-7.0 mm. 2. A method according to claim 1, characterized in that the thickness of the coal dust is 0.3-0.5 mm and that of the fine-grained light-colored sand is 2.0-3.0 mm.

Description

The invention relates to forestry and can be used in the reproduction of blueberries (Vaccinium uliginosum L.) in natural conditions.

There is a known method of propagating blueberries in natural conditions by vegetatively lignified, rhizomatous and green cuttings, as well as bushes. Seed propagation in natural conditions is extremely rare due to the low germination of seeds 1.

However, the vegetative method of breeding blueberries is laborious, requires the preparation of cuttings, planting, care. In addition, thickets of blueberry seed origin more stable, durable and more productive.

The known method of seed propagation of blueberry by growing seedlings from seeds in a greenhouse on a sphagnum moss substrate 2.

However, this method requires the transplantation of seedlings from the greenhouse under natural conditions, as a result of which there is a large loss of seedlings due to sharp changes in edaphic and econological conditions.

There is also a known method of seed reproduction of blueberry under natural conditions, in which fresh seeds or wounds from cold processing are mixed for a year with decomposed wood, sown in grooves lined with sphagnum moss, covered with soil and compacted 3.

The disadvantages of this method are the low germination and survival rate of blueberry seedlings.

The purpose of the invention is to increase the germination and survival rate of blueberry seedlings under natural conditions.

The goal is achieved in that according to the method, which includes blending seeds or squeezes from cold processing for a year with decomposed wood, sowing the mixture into grooves laid out with sphagnum moss, their delay and compaction, the furrows are first sprinkled with a layer of coal dust and then with fine-grained light-colored sand , the mass ratio of seed and decomposed wood is 1: 9-1: 11, squeezing of decomposed wood is 1: 4-1: 6, and the thickness of the sphagnum moss layer is 5.0-7.0 mm.

In addition, the thickness of the coal dust layer is 0.3-0.5 mm, and that of fine-grained light-colored sand is 2.0-3.0 mm.

Decomposed with wood, which is mixed with seeds and wring, promotes mycotraphic nourishment of seedlings.

To determine the optimal mixing, the seeds and the blueberry spin were mixed with decomposed wood in various ratios by weight (see Tables 1 and 2) and sown in grooves laid with a layer of sphagnum moss.

The survival rate of seedlings depending on the weight ratio of seeds and decomposed wood

Table 1

Growth of seedlings depending on the weight ratio of the pressed woods.

Table 2

It can be seen from the tables that the optimum weight ratio for seeds is 1: 9-1: 11, and for squeezing it is 1: 4-1: 6. The optimal layer of sphagnum moss in the grooves moisturizes, aerates and protects against rotting, i.e. it creates favorable conditions for the development of seedlings and their survival. The thick layer of moss makes it difficult to contact the seedlings with the mineral soil, contributes to excessive moisture and rotting of the seeds. When starting the experiments. The thickness of the moss layer was determined by eye with gradation: up to 0.4 cm, 0.5-0.7 cm, 0.8-1.0 cm. The largest number of seedlings (85 pieces / pogm) remained at the end of the year in the grooves, where the moss is 0.5-0.7 cm thick. This is the optimal layer of moss and is recommended for seed reproduction of blueberry under natural conditions. Coal dust provides shoots with carbon dioxide and contributes to their better survival. Coal dust - black color, that. promotes greater absorption of sunlight. To protect the shoots from burns, coal dust sprinkled with fine-grained light-colored sand. The seeds of yearlings of the cowberry family are very small (1000 pieces of blueberry seeds weighing 0.2 g) and require minimum embedment when sown. Coal dust and sand increase pressure, load, and are a kind of mechanical obstacle to germination. A layer of coal dust of 0.3-0.5 mm is the minimum thickness of the layer, which provides a continuous coating of the compacted surface of the grooves when powdered by hand and ensures maximum survival of the blueberry seedlings. The thickness of the layer of fine-grained light-colored sand — 2-3 mm — is optimal for reflecting the sun's rays, keeping the coal dust from being blown away by the wind immediately after dusting, prevents the appearance of antagonistic plants and ensures maximum survival of the blueberry seedlings. Increasing the thickness of a layer of coal dust more than 0.5 mm and sand more than 3 mm, as shown by experiments, reduces the germination and survival rate of blueberries. Example. In August, the long-moles (A4) and sedge-long-moles (B) on microweights attached to the canopy of the canopy, in August, the soil is loosened to a depth of 10 cm, mixing the refined horizon with mineral soil. After loosening, the soil is slightly compacted and the grooves are prepared with a depth of 2-3 cm. Fresh seeds from the ripe blueberries collected in August are mixed with the decayed pine tree stumps in a weight ratio of 1: 9-1: 11, and the squeezes 1: 4- 1: 6. The resulting mixture is sown in the grooves, the bottom of which lay out -sphagous moss thickness of 5-7 mm. The mixture with seeds is sown in the amount of 2.0-2.5 g (1000-1100 pieces of seeds), and the mixture with squeezes of 16-23 g (1000-1100 mg of seeds) per one meter. The following year, before the appearance of shoots in May 1982, 10 running meters. m of the grooves sprinkled with a thin layer of 0.3-0.5 mm of coal dust (5 linear meters of charcoal only and five linear meters of anthracite), and 2-3 mm of fine-grained light-colored sand on top. The shoots were friendly and developed well. Otpad by the end of the year was minimal. The effectiveness of the multiplication methods of Goubica is presented in Table. 3

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7 1161005g

As can be seen from the data table, the predlo-Thus, the use of

The method compared with the prototyped method of seed propagation goals

increases germination in reproduction of gobiki in natural conditions but e:

lubik seeds 8.4% and spin-raising germination, survival rate of germination

12%, and survival rate respectively naked blueberries. 58.5% and 59.0%, i.e., 2.5-3.5 times.

Claims (2)

1. THE METHOD OF SEED BREEDING OF THE BLUEBERRY (VACCINIUM ULIGINOSUM L.) IN NATURAL CONDITIONS, including mixing seeds or squeezes from cold processing of berries with decomposed wood, sowing the mixture into grooves laid out with sphagnum moss, their delay and compaction, characterized in that germination and survival of seedlings in the spring of next year before their appearance, the furrows are first sprinkled with a layer of coal dust, and then with fine-grained sand of light color, and the mass ratio of seeds and decayed wood is 1: 9-1: 11, wringes and decomposed wood - 1: 4-1: 6, and the thickness of the layer of sphagnum moss - 5.0-7.0 mm. 2. The method according to π. 1, characterized in that the thickness of the coal dust layer is 0.3-0.5 mm, and fine-grained sand of light color - 2.0-3.0 mm. ... 1161005