RU2693094C1 - Method of protecting fruit plantations against spider mites - Google Patents

Abstract

FIELD: agriculture.SUBSTANCE: invention relates to the field of agriculture, namely to biological methods for control of spider mites in fruit plantations. Method includes settlement of predatory mites Amblyseius andersoni on fruit plantations in amount of 30,000 individuals per 1 ha in stage of "blooming" phenophase. In the stage of phenophase "growth of fruits", the predation mites Amblyseius californicus are settled in amount of 46,875 individuals per 1 hectare without taking into account weather-climatic conditions. Predator-prey ratio can be: 1:10, 1:15, 1:20.EFFECT: method makes it possible to reduce population density of red and haws mites and to preserve dynamic equilibrium of biocenosis.1 cl, 6 tbl

Description

Spider mites annually cause significant damage to crops, including fruit trees. In the last decade, three types of phytophagous mites - Metatetranychus ulmi Koch, Amphytetranychus viennensis Zacher and Tetranychus urtica Koch - have been among the dominant pests on fruit plantations. Acaricides used to protect plantations from the red fruit mite in the last five years have shown low efficiency. The number of treatments against phytophage mites in these years ranged from six to eleven per season. Despite this, the number of mobile stages and eggs at the end of the growing season exceeded the economic threshold of damage by 3 or more times. The yield losses of many crops from spider mites can range from 20-50% to 65-75%. The appearance of spider mites resistant to pesticides has been noted. Their numbers rapidly increase and exceed the economic threshold of harmfulness, while protective measures turn out to be ineffective. From highly toxic drugs used in the fight against not only ticks, but also with codling moths and the Californian shield, entomoakarifagi die, the dynamic equilibrium characteristic of natural biocenoses and uncultivated fruit orchards is disturbed.

Thus, it became necessary to reduce the number of red fruit mites by improving the existing protection system by using predatory mites from the phytoseiid family: Amblyseius andersoni Chant and Amblyseius californicus McGregor.

The invention relates to agriculture, namely to biological methods of combating spider mites in fruit plantations.

There is a method of dealing with spider mites, including the settlement of the predatory mite Phytoseiulus persimilbs in the normal 50-100 individuals per plant, taking into account the number of pests, the density of the victim and weather and climatic conditions (patent 2312502, RU, application No. 2005135446, the date of publication of the application 27.05.2007 Bull. # 15). The known method has several significant drawbacks. Phytoseiulus persimilis (Athias-Henriot) is very voracious, quickly reduces the number of phytophagous mites, but it does not tolerate low humidity and does not go into diapause (diapause is the passive period of the life cycle of insects and mites, which ensures the transfer of an unfavorable period to them). In the garden agrocenosis, this species can be used in the spring, at high humidity, to reduce the number of spider mites released from diapause. As well as this type can be used in greenhouse conditions.

In addition, the growing season of berry bushes, such as currants, is much shorter than the growing season of fruit crops, for example, the same apple. Therefore, the use of Phytoseiulus persimilis (Athias-Henriot) in fruit plantations is effective only at the beginning of the growing season; then with increasing temperature, there are flashes of reproduction of various types of ticks. That is, there are conditions under which (Phytoseiulus persimilis (Athias-Henriot) itself dies. To reduce the density of the populations of red and hawthorn mites to an economically imperceptible level and to completely abandon acaricide treatments and maintain the dynamic equilibrium of biocenoses, a method to combat spider mites is proposed, which means in the “flood” of fruit plantations with mites by phytoseids Amblyseius andersoni Chant and Amblyseius californicus McGregor without taking into account weather and climatic conditions.

The proposed method is as follows (table 1) In the phenophase “flowering” (the first decade of May) fruit plantations (100 hectares), for example, apple trees, “flooded” with Amblyseius andersoni in three variants. The number of individuals per 1 hectare (ha) was 30,000. The number of mobile stages of the red fruit mite at the current phenophase was 1-2 individuals per leaf.

Further, at the “fruit growth” stage, apple stands were “flooded” with the mite Amblyseius californicus in the amount of:

option 1 - 15,625 individuals / ha, option 2 - 31,250 individuals / ha and in option 3

the number of individuals per 1 ha was 48,875. The site where the fight against ticks was conducted by acaricides was used as a control, without “flooding” with phytoseiids. “Flooding” of fruit plantations of Amblyseius californicus in the “Blooming” phenophase is impractical, since This type of predator is quite voracious and in this stage it is not provided with a sufficient number of prey as food. On the control plots during the same time, the same phenophases were carried out with 7–9 treatments with acaricides (Table 2).

The effectiveness of predatory mites, depending on the number of victims, is given in Table 3.

The maximum efficiency of the use of predatory mites was observed at a predator-prey ratio of 1:10, with an increase in the number of prey, the efficiency decreased.

The resettlement of these two species of predators in 2015-2017 reduced the population density of the red fruit mite to an economically imperceptible level.

According to the data presented in Table 4, in the winter period of 2015–17, acarifag destroyed 50% of the diapause red fruit mite eggs. Akarifagi fed, not only in the fall, but on winter days with positive average daily temperatures, during the frosty period, the predator individuals were under the bark of trees in a state of diapause. Phytoseiid death under the cortex during diapause was 30–45%. The ratio of predator: prey after hatching the larvae of the red fruit mite from eggs was at the level of 1: 5 and 1: 3 (option 1 and 2) and 1:10 (option 3).

As can be seen from the data presented in Table 5, at the end of the growing season of 2016, in the experimental variants No. 1, no red fruit mite diapausing eggs were detected, in variants No. 2 and No. 3 58-80% of eggs were destroyed. after applying 9 sprays against a red fruit mite, the number of live eggs on the bark of trees ranged from 15.0 to 70.0 pcs / cm ² .

Thus, it is recommended to use phytoseiid predatory mites A. andersoni, A. californicus for effective control of spider mites. Releases should be carried out in the summer, with the mass reproduction of the pest and the achievement of its threshold number.

Money savings per hectare of fruit plantations, where predatory mites were settled amounted to 11,755.60 rubles. In addition, the pesticide load from the use of acaricides amounted to 82.25, and against the background of the use of insecticides associated with the protection of plantations from tree plots, aphids, leaf beetles and other pests, the pesticide load is much higher.

Thus, the way to combat ticks, which consists in “flooding” of fruit plantations with mites with phytoseides Amblyseius andersoni Chant and Amblyseius californicus McGregor, reduces the population densities of red and hawthorn mites to an economically imperceptible level and completely abandoning acaricide treatments and preserving the dynamic equilibrium of the bio – bio – bio – bio –––––––––––––––––––––––––––––––––––––––––––––––––––––––– program code version and preserving the dynamic equilibrium of the bio – bio – bio – bio – biotops. conditions

Claims (1)

The method of protection of fruit plantations from spider mites, including the distribution of predatory mites Amblyseius andersoni on fruit plantations in the amount of 30,000 individuals per 1 hectare in the flowering stage of the phenomine, flow of the predatory mites of Amblyseius californicus in the amount of 46,875 individuals per 1 hectare in the phase of phenophase growth without taking into account climatic conditions, the ratio of predator-prey can be: 1:10, 1:15, 1:20.