UA128919U - THE METHOD OF GROWING OAK SQUARES OF THE OAK (QUERCUS REBUR L.) - Google Patents

Abstract

The method of growing seedlings of common oak (Quercus rebur L.) involves techniques for the detection, identification and disposal of phytopathogens. After collecting acorns, a procedure for their qualitative visual selection is performed, with an estimated linear size, color and mass. At the same time take away acorns without signs of damage by insects, phytophages, as well as pathogens, mechanical injuries. In the spring of 10-12 days before planting acorns in the soil, they are moistened in an aqueous solution of drugs such as Bactofit and Trichodermine in a ratio of 1: 1, while in the aqueous solution of this mixture add 0.01-0.03% aqueous solution of native deoxyribonucleic acid (DNA). In the working solution, wet and maintain the selected acorns of common oak for 10-12 hours, followed by seeding the acorns in the open ground. In 8-10 days after emergence of sprouts spend three receptions of root feeding of plants, with an interval of 7-8 days, an aqueous solution of organic fertilizer sprout. In the case of the appearance on the oak leaves of the first signs of damage to their fungal and associated phytopathogens spend two methods of joint spraying of plants with a 3.0% aqueous solution of biological fungicide Alirin-C with an interval of 7-8 days.

Description

A useful model belongs to forestry, in particular to the nursery industry, and can be used in modern technologies for growing high-quality planting material for renewal and expansion of forests.

It is known that among various factors of biogenic and anthropogenic action accompanying the processes of growth and development of deciduous species, in particular oak, and the formation of full-fledged seedlings, the most dangerous are various causative agents of diseases, mainly of fungal etiology. Native populations of mycosis and bacteriosis acquire a significant spread and development due to the action of various factors, mainly of a synoptic nature. The seed microbiota takes an active part in these processes, where a specific spectrum of epiphytic and endophytic microflora is formed. That is why it is very important to carry out regular monitoring of the phytosanitary state of forests, followed by the detection of phytopathogen centers. Among the epiphytic and endophytic microbiota of acorns, different functional groups were found. Bacterial pathogens characterized by potential and actual aggressiveness with mixed life strategies with a predominance of K-selection (Bacterial diseases of Scots pine (Ripiv5 zuimevigiz I.) and the microflora of its seeds represent a special threat. Hvozdyak R.I., Hoychuk A.F. and others Zhytomyr "Polyssia". - 2011. - 224 p.).

There is also a known method, which in its essence and functional meaning is the closest technical solution to the proposed method and was chosen as the closest analogue (Method of protection of apple tree plantations from pathogens // Patent of Ukraine Mo 10710, IPC AOS 7/00, publ. 11/15/2005 , Blvd. Mo 11, Drozda V.F., Lapa O.M.). The essence of the method - the closest analogue - is that for localization, followed by neutralization of phytopathogens, spring pruning of the apical shoots of the crown of trees, semi-skeletal branches, followed by burning of terminal branches outside the garden before the start of sap flow, is carried out. The method involves the destruction of root growth, weeds and shrub vegetation in the rows and around the perimeter of the garden. The implementation of the method-the closest analogue ensures acceptable economic efficiency, as a result of which resistance to the action of various stress factors is formed.

However, the method - the closest analogue has the following disadvantages: the effectiveness of the method relative to seeds and seedlings of common oak has not been established; wintering inoculum stocks in a known method are disposed of only by removing part of the vegetative shoots of plantations; there are no methods that suppress the manifestation of bacteria in the seed at the initial stages of its germination, as well as methods that suppress the development of common oak pathogens during its growing season.

The basis of a useful model is the task of experimentally substantiating the method of growing common oak seedlings (Otsegsyv teri Y.). The task was to obtain highly viable seedlings of common oak, using methods and preparations of only biological origin.

The set task is solved by consistently implementing essential elements in the composition of the proposed method. In particular, after collecting acorns, the procedure of their qualitative visual selection is carried out, according to estimates: linear size, color and weight. Acorns are selected without signs of damage by phytophagous insects, as well as pathogens, mechanical injuries. In the spring, 10-12 days before planting acorns in the ground, they are soaked in an aqueous solution of drugs such as Bactofit and Trichodermin in a ratio of 1:11. It is also essential in the method that a 0.01-0.0395% aqueous solution of native deoxyribonucleic acid (DNA) is added to the aqueous solution of this mixture.

The selected common oak acorns are soaked and kept in the working solution for 10-12 hours, followed by sowing the acorns in open ground. 8-10 days after the emergence of seedlings, three root feedings of plants are carried out, with an interval of 7-8 days, with an aqueous solution of the organic fertilizer Sprouts. It is essential in the method that upon the appearance of the first signs of damage by fungi and related phytopathogens on oak leaves, two simultaneous sprayings of plants with a 3.0 95% aqueous solution of the biological fungicide Alirin-C are carried out with an interval of 7-8 days.

The essence of the proposed method is that the treatment of acorns with a biological preparation, with a sufficiently long exposure to their wetting, is accompanied by the protection of acorns from native pathogenic microflora. A peculiar process of seed recovery is observed. The peculiarity of the action of this method is that only the pathogenic microflora is inactivated, with the preservation of hyperparasites of phytopathogens. Metabolic processes are intensified and, as a result, we get highly viable planting material. The following techniques as part of the proposed method contribute to the establishment of plants and the intensive development of the root system.

An example of the implementation of the method.

A series of laboratory studies. Common oak acorns collected in autumn were carefully selected, sorted and discarded according to the proposed method. A total of 390 acorns were selected, followed by the formation of options. A total of two experimental options and a control were provided. In the first version, essential elements of the proposed method were implemented. In the second - elements of the method - the closest analogue. Control variant - experimental biomaterial - acorns and oak saplings are treated only with water.

Field research. After carrying out operations with acorns, they were planted in open ground, where after the emergence of seedlings, other methods were used as part of the proposed method.

Accordingly, we used all the procedures provided for in the version of the method - the closest analogue.

The final assessment of the effectiveness of the methods, with the determination of a positive result, was carried out on the basis of the most objective and informative test characteristics of an economic and biological nature. The obtained digital material was processed statistically. The results of the research are given in the table.

It is established that the task set by the useful model has been completed. According to all test characteristics, the proposed method exceeded the indicators of the nearest analog. The yield of standard seedling biomaterial in the variant of the proposed method was 92.4 95 against 73.1 95 in the closest analogue. A pronounced fungicidal effect of the proposed method was also observed. As a result, the growth rate of the above-ground part of the trees is pronounced - the linear dimensions of the branches, as well as the annual growth of the main root. Physiological indicators also testify in favor of using the proposed method.

Indicators of efficiency of the method of obtaining common oak seedlings

Ways that) Acorns in Of them | powdery mildew, 95 years old, cm standard - are compared | in the experiments it sprouted, Increase in Length, - . of the part of the root of the leaves of the rial shoots, 96 res.

Mediocre

No | 7 - | 47 | 41 | 14 | 08 | 77 | lm | - | 5 z

Claims (1)

USEFUL MODEL FORMULA The method of growing seedlings of common oak (Oyeegtsy5 teri Y.), which includes methods of detection, identification and utilization of phytopathogens, which is distinguished by the fact that after collecting acorns, a procedure for their qualitative visual selection is carried out, according to estimates - linear size, color and weight, while selecting acorns without signs of damage by insects- phytophages, as well as pathogens of diseases, mechanical injuries, in addition, in the spring, 10-12 days before planting acorns in the soil, they are soaked in an aqueous solution of such drugs as Bactophyt and Trichodermin in a ratio of 1:1, while adding to the aqueous solution of this mixture 0.01-0.03 An aqueous solution of native deoxyribonucleic acid (DNA), in addition, the selected common oak acorns are soaked in the working solution and kept for 10-12 hours, with subsequent sowing of the acorns in open ground, in addition, through 8-10 days after the emergence of seedlings, three treatments of root feeding of plants are carried out, with an interval of 7-8 days, with an aqueous solution of the organic fertilizer Sprout, while at the same time, when the first signs of damage by fungi and accompanying phytopathogens appear on oak leaves, two treatments of simultaneous spraying of plants are carried out 3, 0 with a 95% aqueous solution of the biological fungicide Alirin-C with an interval of 7-8 days. 00 Computer keyboard!. Myronenko 00000000 Ministry of Economic Development and Trade of Ukraine, str. M. Hrushevsky, 12/2, m. Kyiv, 01008, Ukraine SE "Ukrainian Institute of Intellectual Property", str. Glazunova, 1, m. Kyiv - 42, 01601