RU2448460C1 - Method to control pests in vineyards - Google Patents

Abstract

FIELD: agriculture.

SUBSTANCE: invention relates to agriculture, in particular to biological methods of plant protection. The method to control insect pests, mainly with thrips, in vineyards with snouted mites lies in use of complexes consisting of several native and introduced species of mites (phytoseyide, ameroseyide and aceoseyide) of different trophic orientation. The complexes are produced consistently in several stages. The complex with dominated specialised snouted mites is produced in the period before flowering, and a complex of non-specialised snouted mites species - during the growth of berries.

EFFECT: invention improves the efficiency of control of insect pests of grapes, and increase the production of high quality environmentally friendly products due to expanding the spectrum of action of snouted mites and increasing the number of trophic links in ampelocoenosis.

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Description

The invention relates to agriculture, in particular to biological methods of controlling insect pests of vineyards.

There is a known method of combating insect pests - using chemical insectoacaricides (Handbook of Plant Protection / V.A. Zakharenko, A.F. Chenkin, V.A. Cherkasov and others; edited by Acad. Yu.N. Fadeev, - Moscow, Agropromizdat, 1985, p. 140-149). During the formation of 3-4 shoot leaves, treatment with malathion 50% with a consumption rate of 1.5 l / ha is recommended; 40% phosphamide with a consumption rate of 1.5 l / ha. During the period of berry growth, treatment with a 30% fosalon with a consumption rate of 2 l / ha is recommended; 40% phosphamide with a consumption rate of 2 l / ha.

The disadvantages of this method is that insects and ticks become resistant to chemicals, as a result, there is a need to increase the concentration of working solutions and increase the number of treatments, however, these measures do not provide for effective regulation of the number of pests, often uncontrolled focal outbreaks that lead to lower yields .

A known method of biological control of tick pests in orchards and vineyards (open agrocenoses) using an introduced predatory tick (species Metaseiulus occidentalis, Nesbitt) in orchards and other cultures in the fight against spider mites. - Moscow, Central Scientific and Technical Institute. - 1992. - 32 p.). However, the known method has a limited spectrum of action, because regulates the number of herbivorous ticks only and creates a limited number of trophic (food) bonds, because uses one type of predatory mite-acarifagus for control.

A known method of biological control of thrips in greenhouses using an introduced predatory mite (species Ambliseius maccenzi, Sch. Et Pr.) (Methodological guidelines for the biological method of combating tobacco thrips in protected ground. VNIIF. - Moscow, Ministry of Agriculture, VNPO Soyuzselkhozkhimiya, 1985 .-- 40 p.). The disadvantage of this method is the limited use of trypsophage, since it is used only in closed greenhouse agrocenoses. In addition, the view is used with a limited spectrum of action, because regulates the number of tobacco thrips only and creates a limited number of trophic bonds.

The essence of the invention lies in the fact that in the vineyards, as a biological method of combating insect pests, several species (complexes) of predatory mites (phytoseyid, ameroseyid and aceoseid) are successively used, among which predatory mites having a food orientation, herbivorous thrips living in open agrocenoses, and predatory mites of native fauna.

Complexes of native and introduced species of predatory mites, which include phytoseid mites (family Phytoseiidae) - Neoseiulus barceri Hughes, Neoseiulus cucumeris Oud., Neoseiulus califomicus Oud., Amblyseius finlandicus Oud .; Ameroseiid tick (family Ameroseiidae) - Ameroseius euformus Breg .; and Aceoseiidae ticks (family Aceoseiidae) - Paragarmania spp., are issued to vineyards sequentially 2-3 times, depending on the number of phytophages, in the period before flowering and in the period of growth of berries. Release is made using the layout of live ticks together with the substrate on which they massively multiplied.

The technical result of the invention is to increase the efficiency of combating grape insect pests by expanding the spectrum of action of predatory mites in open agrocenoses and stably regulating the number of insect pests, mainly herbivorous thrips, partially bunny leafworm, moths (eggs, first age of caterpillars) and herbivorous mites based on the use of specialized predators, the use of native species, better adapted to environmental conditions and generally increased the number of trophic bonds in ampelocenoses.

The task is achieved by using several native and introduced species of different trophic orientation-entomophages and acaro-entomophages (phytoseyid, ameroseyid and aceoseyid), which are sequentially laid out on vineyards in the stands.

Example 1. The use of a complex of predatory mites with medium and weak population of vineyards with herbivorous thrips.

A phytosanitary examination of the vine plantation is carried out in advance to determine the degree of population of herbivorous thrips. The average number of herbivorous ticks of less than 5 mobile individuals per shoot is defined as a low degree of population, the average number of thrips from 5 to 10 mobile individuals per shoot is defined as the average population. Two-thirds glass jars with coarse calico lids are filled with introduced species of phytoseid mites - Neoseiulus cucumeris Oud., Neoseiulus barceri Hughes, whose predominant food orientation is herbivorous thrips, and Aceoseidaid mites of the genus Paragarmania. In this form, they are delivered to the vineyards, where in the period before flowering they are released onto plants at the rate of 5-10 g of substrate with live ticks per bush. The biomaterial is laid out according to a certain scheme so that the predator-prey ratio is 1: 20-1: 30. Indigenous species of predatory ticks, Ameroseius euformus Breg., Amblyseius finlandicus Oud. and an introduced species of Neoseiulus californicus Oud. - Packed in multilayer paper bags and released during the period of growth of berries, in the ratio of predator: prey 1: 50-1: 70, which is achieved by the layout according to a certain pattern of several soybean leaves with predators on one grape bush.

Example 2. The use of a complex of predatory mites with a strong population of vineyards with herbivorous thrips.

A phytosanitary examination of the vine plantation is carried out in advance to determine the degree of population of herbivorous thrips. The average number of herbivorous ticks of more than 10 mobile individuals per shoot is defined as a strong degree of population. The first release of specialized predatory species: Neoseiulus cucumeris Oud., Neoseiulus barceri Hughes and an unspecified species of the genus Paragarmania - is produced in the period before flowering by laying 10-15 g of a predator with a substrate on grape plants according to a certain pattern so that the predator: prey ratio is 1: 20-1: 30. The second release of predators of the same species is produced 15-20 days after the first, during the period of the beginning of the growth of berries in the same amount, according to the same scheme. The third release of the species of non-specialized predators Ameroseius euformus Breg., Amblyseius finlandicus Oud., Neoseiulus californicus Oud. produced 20-30 days after the second, in the period of growth-onset of ripening of berries in the ratio of predator: prey 1: 50-1: 70, which is achieved by the layout according to a certain pattern of several soybean leaves with predators on one grape bush.

The use of complexes of native and introduced species of phytoseid, ameroseyid ticks provides an effective reduction in the number of herbivorous thrips and herbivorous ticks in vineyards. The release of specialized predators before flowering is due to the fact that the first generation of thrips is most harmful in comparison with other generations, because damage to inflorescences leads to direct crop losses. The use of aceoseid mites partially reduces the number of bunching leaves (eggs, the 1st age of the caterpillar), thrips, spider mites, and other pests, for example, moths. The use of the proposed predatory mite complexes increases the number of trophic bonds, which leads to the stable stabilization of entomoacarosystems of ampelocenoses. (Explained by the drawing, where the graphs are presented, in Fig. 1 a graph characterizing the changes in the dynamics of the number of pests (grape thrips) in the chemical control method; in Fig. 2, the same in the biological control method.)

Claims (1)

A method of combating insect pests in vineyards using predatory mites, characterized in that they use complexes of native and introduced species of phytoseid, ameroseyid and aceoseid mites, which are released sequentially in several stages and in various combinations: a complex with a predominance of specialized predatory species of mites is released in the period before flowering, a complex of non-specialized predatory species - during the period of growth of berries.

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