RU2673720C1 - Method of protecting grapes from leaf form of phylloxeras - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to the field of agriculture, in particular to the protection of plants from harmful organisms. Way to protect grapes from leafy form of phylloxeras includes protecting leaves from laying eggs into assimilative tissue – mesophyll – on their surface in the period preceding laying eggs. Aqueous solution of glue is applied by spraying at a concentration of 1 kg/100 l, which forms a protective film upon drying, which cannot be punctured by phylloxeras and does not interfere with leaf photosynthesis.

EFFECT: prevention of reproduction and destruction of the pest on the vegetative organs of the plant is provided.

1 cl, 2 tbl

Description

The invention relates to the field of agriculture, in particular the protection of plants from pests.

The expanded restoration of the viticulture industry in the Russian Federation is based on the selection of an assortment that is resistant to abiotic and biotic environmental factors: frost, drought, fungal and bacterial diseases, pests, especially phylloxera. In this regard, it is of considerable economic interest to create plantings from varieties suitable for non-covering crops obtained by crossbreeding with Save Vilar hybrids [1]. Widespread in the practice of viticulture of such varieties, led to the active development and distribution of the leaf form of phylloxera. The leaf form promotes enhanced reproduction of the root phylloxera, including the winged one [2]. The given situation causes a large-scale spread of this quarantine pest, the existing methods of combating it do not give sufficient effect, and also seem to be a factor of environmental stress in the system of consumption of grapes and its processed products.

Among the tested means and methods of controlling the leaf form, phylloxera are known such as spraying the aerial parts with insecticides of various chemical groups: pyrethroids, nicotinoids, organophosphorus and other drugs [3, 4]. The mentioned sources do not give signs and their parameters, which determined the effectiveness of the used tools and methods of controlling the leaf form of phylloxera, which does not allow us to judge the reality of the industrial implementation of the proposed recommendations. The recommended means of protection against leaf form phylloxera does not remove the danger of infection of the crop with preparations that pollute the grape crop.

The technical result of the invention is a method of controlling the leaf form of phylloxera, using effective environmentally friendly substances to prevent the reproduction and destruction of the pest on vegetative organs.

The technical result is achieved by preparing an aqueous solution of glue (for example, PVA, CMC) at a concentration of 1 kg / 100 l, which is applied to all leaves of the bush with any serial sprayer with maximum spraying, in the period preceding the laying of eggs with phylloxera. Prevention of the development of phylloxera on the leaves and young shoots of grapes is carried out by the formation of a transparent film upon drying, which does not allow damage to the epidermis and mesophyll (assimilation tissue).

The invention is illustrated by the following example.

Experimental tests were carried out in the field, according to the following options: 1. early minting (in dry sunny weather!) Shoots with affected leaves; 2. spraying with preparations forming a film coating of the leaves: 2a - with varnish for hair of the Prelest type, 2b with 5% solution of wallpaper glue CMC and 2c with 10% solution of PVA glue. 3 - spraying of leaves affected by phylloxera 0.2% solution of perisoid Decis. The listed options were implemented in the last decade of July, when the defeat of the leaves with phylloxera reached a mass character. The studied variants were compared with the control - without external influence on the leaves of grapes.

In all cases, before applying adhesive preparations and before chasing the shoots, the average number of galls on one sheet, the number and order of arrangement of leaves affected by the leaf form on the shoots were determined. The results of the tested variants were evaluated by the presence in galls of living individuals of separate forms of their development (eggs, larvae, nymphs, etc.).

To determine the state of individual forms inside the galls, we performed their longitudinal section from the apex to the base, according to which they examined the state of the phylloxera individuals. Dead individuals stand out in dark brown. Such an operation was performed twice: ten and twenty days after laying the experiment.

In order to achieve a high level of reliability of the results obtained, each option covered a sample size of thirty shoots on ten bushes of the same variety. The experience was implemented on four varieties: Gift of Magarach, Firstborn of Magarach, Bianka and Levokumsky. The bushes and shoots allocated for observations were labeled with the designation of their place of growth (row number and bush in the row, and then the serial number of the shoot on the bush).

The carried out counts revealed that as a result of the directed action on the leaves, the death of living forms of phylloxera living in galls takes place.

Experimentally confirmed efficacy is given in table 1.

It was found that with an increase in leaf damage from 3 to 5 points, the yield of bushes decreased by 25%.

Accordingly, the changes in the average mass of the bunch of the Gift Magarach variety were 24 g (19.48%). An increase in the degree of damage to the bushes of the Gift of Magarach by 2 points caused a decrease in the sugar content by 16 g / dm ³ .

It can also be seen from the data that the chasing of the shoots of the current year, with the alienation of the leaves affected by phylloxera, leads to the complete death of eggs and larvae on their alienated part. This situation is noted in both terms of the surveys.

Spraying the affected leaves with adhesive solutions, which form a thin film coating after drying, ensures the complete death of eggs and larvae on the twentieth day and reduces the number of galls with living organisms to 2.1-8.4%, compared to the initial state, by the tenth. Compared with the control, the decrease in the number of galls with eggs on the 10th day amounted to a 16–4-fold value. At the same time, on the twentieth day, live larvae were not detected on spraying variants.

The feasibility of using the tested methods of reducing the phylloxera population is evidenced by data on changes in shoot growth, yield of bushes and quality of grapes depending on the degree of damage to leaves on accounting bushes (table 2).

Using the example of Podarok Magarach as an example, it was found that the most significant changes depending on the abundance of affected leaves and the degree of development of galls on them are indicators of shoot thickness at the level of the third internode, yield of bushes, average weight of clusters and sugar content of the berries.

An analysis of the data in table 2 shows that when the damage to the leaves increased from 3 to 5 points, the yield of bushes decreased by 25%. Accordingly, the changes in the average mass of the bunch amounted to 24 g (19.48%), and the decrease in sugar content in the juice reached 16 g / dm ³ .

Information sources:

1. Fisun M.N., Egorova E.M., Yakushenko O.S. Agrobiological and economic properties of grape varieties - Lambert Academic Publishing. - 2017 .-- 125 s.

2. Kazas I., Gorkavenko A., Kiryukhin G., Poichenko V. Grape phylloxera / System of measures to combat phylloxera in the country's zones. - Simferopol: Crimea. - 1966. - 155 p.

3. Askerov E.S., Misrieva B.U. Agrobiological substantiation of the use of insecticides against the leaf form of phylloxera in the programs for the protection of various grape varieties-ecotypes of grapes in the root crop // Winemaking and Viticulture, 2012, No. 4. - from. 51-53.

4. Perstnev ND, Novosadyuk Yu.N. Viticulture. - Chisinau: Continental Grup. - 2011 .-- 412 p.

Claims (1)

A method of protecting grapes from the leaf form of phylloxera, characterized in that, to protect the leaves from laying eggs in an assimilation tissue - mesophyll - on their surface in the period preceding egg laying, spray an aqueous glue solution at a concentration of 1 kg / 100 l, which forms upon drying a protective film that does not lend itself to pricking by phylloxera and does not interfere with photosynthesis of leaves.