UA124470U - METHOD OF INDUCATION OF STRUCTURAL-FUNCTIONAL ACTIVITY OF BIOOTA AGROCENOSIS - Google Patents

Abstract

A method of inducing structural and functional activity of berry agrocenosis biota involves the use of working solutions of drugs with subsequent treatment of plants. Artificially forming ecological-mosaic territory of plant diversity in the composition of agrocenosis and artificial landscape, with plantations of consort plants - representatives of autochthonous woody species, shrubs, perennial herbaceous species, with not less than 1.5-2.0% from the total area of agrocenosis is withdrawn under artificial reservoir, in addition, in the spring, at the beginning of swelling of the black currant buds and before flowering, two methods of root and foliar bushes feeding with aqueous solution of organic fertilizer Paros are carried out. at the rate of 1.5 kg per bush, while during the onset of the mass appearance of caterpillars of older ages of scaly phytophagus, spend two receptions, with an interval of 8-10 days, settling on the bushes of laboratory culture of ectoparasites of caterpillars of gabbrocon (Habrobracon hebetor Say.) , at the rate of 650-700 imago per 1 ha, in addition, at the beginning of the mass oviposition of females of scaly phytophagus - end of spring, beginning of summer, as well as at the end of September, three methods of settling on the bushes of industrial culture of the parasite of the insect-phytophagus eggs - trichograms, species Trichogramma evanescens Westw., P calculation 60; 70 and 50 thousand individuals per 1 ha, while during the migration of part of the phytophages for diapause on the soil surface, one application of the introduction of a 3.0% aqueous solution of the biological preparation Boverin p. P. (dry powder) inside the bushes, with a diameter of 25-35 cm, in addition, during the appearance of the first signs of fungal diseases on the leaves - powdery mildew, anthracnose and septoria, spend two receptions, with an interval of 6-7 days, spraying the bushes with an aqueous solution of biological fungicide Alirin-C, at the rate of 3 l / ha, in addition, in the autumn cut physiologically defective branches and shoots with their subsequent burning.

Description

The useful model belongs to agriculture, to fruit growing and berry growing, in particular to the field of plant protection from harmful arthropods, and can be used in integrated garden protection technologies.

It is known that the protection of plants, in particular gardens and berry orchards, is carried out mainly by the use of a wide range of chemical pesticides. They are especially intensively used in gardens (Boldyrev M.Y., Alekseeva S.Y., Tytov D.A. System of protection of fruit crops from pests and diseases. - M.: VO Agropromizdat, 1989. - 93 p.). These methods and technologies allow in most cases to protect gardens and berry orchards from the harmful effects of numerous types of harmful insects, mites, weeds and pathogens. Intensive, industrial gardens are repeatedly treated with insecticides, fungicides and acaricides during the growing season. The obvious positive result of these methods is accompanied by negative consequences. The harvest is contaminated, entomophages and pollinating insects die en masse, phytophagous populations resistant to the effects of drugs are formed.

It is obvious that it is necessary to radically transform the strategy of protection of plants and agrocenoses in particular. Actual methods and methods, which offer elements of biological protection (Drozda V.F. Biocenotic justification of integrated protection of an orchard from pests in the forest-steppe of Ukraine. Author's thesis of the Doctor of Agricultural Sciences - K., 2001. - 45 p. ).

There is a known method of protecting garden plantings, which includes protecting them from harmful arthropods by targeted treatment of tree crowns during the growing season with a composition that includes glue. Various types of arthropods - insects and ticks - stick to this composition. The composition includes aviation oil, paraffin and polyisobutylene. Its consumption rate is 15-20 kg/ha. The implementation of this method ensures the necessary economic efficiency (The method of combating pests. Author's certificate SSSR Mo 1681804. MKY AO1TM 1/00, Publ. 07.10.1991. Byul. Mo 37, Kolesova D.A., Chmyir PP.). An obvious disadvantage of this method is that a significant number of parasites and predators stick to the adhesive solution and die.

A known method of protecting fruit crops from harmful organisms - phytophages and diseases, with partial induction of biota activation, which is the closest technical solution to the proposed method and selected as the closest analogue (Author's certificate

USSR, MO 1745166, IPK AO1K 67/00. Publ. 07.07.1999, Bull. Mo 25. The way to protect! fruits planted by pests. Smolyakova V.M., Storchevaya E.M.).

The method described in the closest analogue is that the protection of apple trees from harmful organisms is carried out by forming a part of the territory in the center of the garden massif, at least 1 95 of the total area of the garden, with minimal interference in natural regulatory processes. Along the perimeter of the garden - a zone of biological protection of plantations is formed, with an area of 2 95 from the massif of the garden. Chemical and biological preparations, as part of the method, are used on the periphery of agrocenosis. As a result, the accumulation and distribution of natural entomophages in the garden is ensured. The known method contributes to the partial stabilization of the agrocenosis of the apple orchard.

However, the closest analogue method has the following disadvantages: the functional activity of the biota of the apple agrocenosis is only partially established, the implementation of the method involves the formation of a complex structure of apple tree plantations with different varieties with alternating treatments with chemical preparations, the undetermined consort role of plant biodiversity in the composition of the berry agrocenosis.

The basis of a useful model is the task of experimentally substantiating the method of induction of the structural and functional activity of the biota of the berry agrocenosis. The task was to form a specific construction of the agrocenosis based on the maximum species diversity in the composition of autochthonous and allochthonous plants, other components that induce the activity of the biota of the berry agrocenosis with a long-term process of its self-regulation.

The set task is solved by the fact that the essential elements of the proposed method are implemented consistently in space and time. In particular, an ecological mosaic territory of plant diversity is artificially formed as part of the agrocenosis and the surrounding landscape. In their composition - consort plants are representatives of autochthonous woody species: linden (Tiyia sogdaia MiiYi.), sharp-leaved maple (Aseg riaiapoide5 I.), field maple (A. satrevzige I.), Mediterranean maple (A. top5rez5tsapit 1I. ). Shrubs: forest raspberry (NKybriv idaey5

I), sumac (Soiipiye sodduapa 5Zsor.), golden currant (Vire5 aigate R.), European berseklet (Emoputiv etspgorea I/.), common quince (Sudopia miyiYidagivie Regv.). Perennial herbaceous species: sand safflower (Opobgusniz agepapya 5.), red clover (Tit rgeiepze I.), alfalfa seed (Meadisado zayima I), white burdock (Meiyoiiv airiv Oezg.), rough yarrow (Zutrpusht azregit 7er.).

The fact that plantations of allochthonous woody plants were formed is essential in the method. 60 These are such species as birch (bogri5 Yuptipai5 St.), Amur velvet tree (RPePodepagot atigepbze Virg.), common juniper (Chipiregit sottipi5 /.), common cherry (Rodyv5 gasetosa SiyYiR.). At least 1.5-2.0% of the total agrocenosis area is allocated to an artificial reservoir. In the spring, at the beginning of the swelling of black currant buds and before flowering, two root and foliar fertilization of berry bushes with an aqueous solution of organic fertilizer Sprout, at the rate of 1.5 kg per bush, is carried out.

It is also significant that in the period of the beginning of the mass appearance of caterpillars of older ages of lepidopteran phytophages, two receptions, with an interval of 8-10 days, are carried out on the bushes of the laboratory culture of the ectoparasite of the caterpillars of the gabbrobracon (Nabgobgasop Nebeyug Zau.) at the rate of 650-700 adults per 1 Ha. At the beginning of the mass egg-laying of lepidopteran phytophagous females - late spring, early summer, and also at the end of September, three methods of settling on the bushes of the industrial culture of the parasite of phytophagous insect eggs - trichograma, of the species Tispodgatta emapezsep5 M/evym., at the rate of 60; 70 and 50 thousand individuals per hectare. During the period of migration of some phytophages for diapausing to the surface of the soil, a single application of 3.0 95% aqueous solution of the biological preparation Boverin sp. (dry powder) inside the bushes, with a diameter of 25-35 cm.

It is essential in the method that during the period of the appearance of the first signs of fungal diseases on the leaves - powdery mildew, anthracnose and septoriosis, two treatments are carried out, with an interval of 6-7 days, spraying the bushes with an aqueous solution of the biological fungicide Alirin-C, at the rate of 3 l /Ha.

In autumn, physiologically inferior branches and shoots are cut and then burned.

The essence of the proposed method is that its implementation ensures, as a result, a long process of self-regulation of consumers of the second and subsequent levels in agrocenoses of berry plants.

We are talking about populations of phytophages, entomophages, hyperparasites and saprophytes. The method optimizes the structural and functional activity of the entire biota of the agrocenosis as part of the surrounding landscape.

Plant biodiversity is a kind of buffer zone where populations of consumers of the first level - phytophages - accumulate. After an insignificant period of time - 7-10 days, settlement and formation of cells of entomophages - consumers of the second level takes place. It is during this period that they mate, settle, with intensive migration of adults into agrocenoses.

Phytophages of agrocenoses are infected with entomophages. All other techniques are included

In this way, the processes of self-regulation are strengthened and induced. The consort role of nectar-bearing plants provides adult entomophages with both hydrocarbon (nectar) and protein (pollen) food. Populations of phytophages in the buffer zone and agrocenoses, mostly only trophic resource for entomophages. Organic fertilizer induces the mechanisms and processes of plant resistance to various stress factors. The use of the fungicide Alirin-C restrains the spread and development of fungal phytopathogens.

An example of the implementation of the method

Experimental studies with justification of the method were carried out in laboratory and field experiments. In laboratory conditions, a culture was bred - Trichogramma, a parasite of lepidopteran phytophagous eggs according to known methods, and an ectoparasite of caterpillars of mainly lepidopteran phytophagous species - Gabrobracon. Their level of viability was determined, as well as their qualitative characteristics. The toxicological indicators of biological preparations were also evaluated - Boverin et

Aliryna-S. Based on the results of these test evaluations, the norms of the use of drugs as components of the proposed method were determined. The characteristics and quality of the Sprout organic fertilizer were also evaluated.

Field research. Typical farms of Kyiv and Khmelnytskyi regions.

Agrocenoses of black currant, varieties: Govtva, Daughter of Vorskla, Holosiivsky Giant. Currant - varieties: Buzhanska and Malva. Raspberries - Princess variety. The conditions for growing berries were typical for the region. All agrotechnical measures were carried out. Research was conducted during 2001-2017.

In order to substantiate the effectiveness and efficiency of the proposed method, experimental variants were formed, of which there were three and a control. In the first version, essential elements of the proposed method were implemented. In the second - elements of the method - the closest analogue. In the third, a similar problem was solved by using standard methods and techniques with regional specificity. In particular, pesticides registered in the State Register of Ukraine were used to stabilize the phytosanitary situation of agrocenoses. This is a chemical insecticide Drug 30 V, k.e. (emulsion concentrate) one treatment, industrial oil - 2 applications, 40 kg/ha; insecticide Aktellik 50О0ЕС, k.s., 1.5 l/ha, 2 methods of use. Chemical fungicides - Topaz 100ES. k.e., 0.4 l/ha and Topsin M, z.p. (wettable powder), 1.0 l/ha, 2 times of spraying. The control option, at least 10 berry bushes, where no procedures related to the use of drugs, fertilizers and entomophages were performed. The most informative and objective test characteristics were used for the final effectiveness of the proposed method, determination of the presence and magnitude of a positive result. The obtained digital material was processed statistically. The results of the research are given in the tables.

It is established that the task set by the useful model has been solved. An essential component of a positive result is the biocenotic effect due to the implementation of the proposed method.

The materials in Table 1 illustrate the mechanism of achieving a positive result. Preservation, accumulation and artificial distribution of industrial cultures of entomophages ensured, in practice, an optimal ratio in the "entomophagous-phytophagous" system, within the limits of 1:5:26. This made it possible to control the spread of phytophages at the subthreshold level. Therefore, the agrocenosis functioned in the mode of self-regulation. The situation was different in the version - the closest analogue. Outbreaks of sucking phytophages - aphids, scale insects and mites - were observed.

An important biocenotic consequence of the implementation of the proposed method is the indicators illustrating the species composition and structure of the soil mesofauna. In particular, the level of abundance and species composition of predatory arthropods - turuns and staphylinids. In the variant of the proposed method, 23 species of turuns and 7 species of staphylinids were found. Analogous indicators in the nearest analogue were significantly lower. It is the activity of turuns and staphylinids, as the final process of a long, low number of phytophagous species, the ontogenesis of which is connected with the soil. We are talking about such phytophages as the currant bud moth, the gooseberry firefly, sawflies and beetles.

The results characterizing the grouping of entomopathogens are also indicative. Four types of entomopathogens were detected using the variant of the proposed method: fungi, bacteria, viruses and protozoonosis. Part of phytophagous populations was affected by a mixed infection.

Entomopathogens also play a significant regulatory role in agrocenoses. These results are demonstrated by the materials in Table 2. According to all indicators, the results achieved in the proposed version exceed the indicators of the closest analogue. Thus, the effectiveness of the method of induction of the structural and functional activity of the biota of the berry agrocenosis has been experimentally proven.

Table 1

Biocenotic indicators of the effectiveness of the method of induction of blackcurrant agrocenosis biota

Initial Ratio Level of Manifestation of Activity - entomophages/phytophages w soil-dwelling entomophages

Ways that| level of self-regulation: . and Entomopathogens, compared) phytophages, arthropods in | Turuny and bu: on 20.05 | on 20.07. and I am from the entire ex./5 bushes of the agrocenosis of staphylinids of the fund

Identified: 23 species of turuns. Their and URU and mushrooms - 53.8;

Stable without | structure: more; bacteria - 21.5; fluctuations mesophylls - y y

The way that Phytophages and 59.7 96 viruses - 5.8; ' 32.4 117:26 15:11 and on protozoonosis - phytopathogens are proposed for | hygrophils - vv: threshold 4.59 and support U 34.5, mixed levels xerophils - infection - 12.3 5.8 9.7 ' species of staphylinids 14 species of nevus:

Fossils of Uurun outbreaks of mesophyll - and 48.4 oo, fungi - 50.7;

The method - the number of hygrophils - bacteria - 32.6: the nearest 28.7 1:24:37 1:16:23 | suckers about what. . 36.7 o, protozoonoses are an analogue of phytophages. . xerophylls - 116.7

Threat of 14.9 95, 4 spread of staphylinid species

Table 1

Biocenotic indicators of the effectiveness of the method of induction of blackcurrant agrocenosis biota

Initial Ratio Level of Manifestation of Activity - entomophages/phytophages w soil-dwelling entomophages

Ways that| level of self-regulation Entomopathogens are compared) phytophages, arthropods in | Turuny and and ' on 20.05 | on 20.07. and to from the entire ex./5 bushes of the agrocenosis of staphylinids of the fund of 9 species

Ecological URrUNIV. destabilization of mesophyll -

Basic write 652.0 ob, option Permanent risk of hygrophils - fungi - 58.4; and 31.6 112:22 1:12:20 |flashes. As pam (regional 26.8 95, bacteria - 41.6 . result . technology) - xerophils - deaths. 21,29, 2 entomophages, species of staphylinids, species of uruns: mesophylls -

Partially exists. 2.8 95, 8-. 48. Uncontrolled hygrophils - fungi - 62.4;

Control 26.2 1:27:42 1:13:18 spread 33.5 95, bacteria - 37.6 sucking phytophages xerophils - 23.7 U, 5 types of staphylinids

Table 2

Indicators of the economic efficiency of the method of induction of biota activity of the blackcurrant agrocenosis

The initial number of Ri Tkaninna

Ways that | of the dominant levels of infestation of Lepidoptera reparation Harvest, Efficiency : : and phytophages, 90 branches, and are compared!| phytophages, - | kg/bush methods, 90

And synoptic ex./ 5 bushes about anomaly, 90

The method that 32.7-40.3 ro 786 12A 57 52 | flaws

Method - 28.1-36.2 nearest 15-55 642 4.3 92 4.5 723 analogue of MO

Basic 34.1-42.6 variant (regional 2.5-3.0 10.9 2 4.9 50 Zo technology) 27.8-36.7

Nigvb | - 1 48 | sh 092 2ЮюЮЩщ | 79 | tl2e | 53

Claims (1)

USEFUL MODEL FORMULA A method of inducing the structural and functional activity of the biota of the agrocenosis of berry plants, which includes the use of working solutions of drugs with subsequent treatment of plants, which is distinguished by the fact that they artificially form an ecological mosaic territory of plant diversity as part of an agrocenosis and an artificial landscape, with plantations of consort plants - representatives of autochthonous woody species: heart-leaved linden (Tiya sogdaia MIII.), sharp-leaved maple (Aseg riaiapoide5 13), field maple (A. satrebne 1), Mediterranean maple (A. top5rez5tsiapyt I/.), shrubs: forest raspberry (Vyry5 idayeiv5 I), sumac (Soyipye soddudgia 5sor.), golden currant (Vire5 ayget R.), European berseklet (Emoputiv eigorea I.), common quince (Sudopia mcydagi5 Regv.), perennial herbaceous species: sand saffron (Opobgusnpiv agepapa 5 .), red clover (TiyoiiSht rheiyepze I.), alfalfa sowing (Meadisado zayiima I..), white burgun (Meiyoiiiv aIryv Oezg.), rough yarrow (Zutrpuisht azregit 2er.), in addition, they form plantations of allochthonous woody plants, in particular: birch (B5ogryv Yuptipaiiv St.), Amur velvet tree (RpeiPodepagot atigepze Nyrg.), common juniper (Shypiregit sottypiv I.), common cherry (Rodyb5 gasetosa IY.) and not less than 1.5-2.095 of the total area of the agrocenosis is diverted under an artificial reservoir, in addition to in autumn, at the beginning of the swelling of blackcurrant buds and before flowering, carry out two root and foliar fertilization of berry bushes with an aqueous solution of organic fertilizer Sprouts at the rate of 1.5 kg per bush, at the same time during the period of the beginning of the mass appearance of caterpillars of older ages of lepidopteran phytophages, carry out two receptions, with an interval of 8-10 days, of spreading the ectoparasite of gabbrobracon caterpillars (Nabgobgasop Nebeyog Zau.) on the bushes of the laboratory culture, at the rate of 650-700 adults per 1 ha, in addition, at the beginning of mass egg-laying of lepidopteran phytophagous females - late spring, early summer, as well as at the end of September, carry out three methods of settlement on the bushes of the industrial culture of the parasite of phytophagous insect eggs - trichograma, of the species Tispodgatta emapezsepv UUevzim., at the rate of 60; 70 and 50 thousand individuals per 1 ha, while during the period of migration of some phytophages for diapausing on the soil surface, a single application of 3.0 UO aqueous solution of the biological preparation Boveryn p. (dry powder) inside the bushes, with a diameter of 25-35 cm, in addition, during the period of the appearance of the first signs of fungal diseases on the leaves - powdery mildew, anthracnose and septoriosis, spray the bushes with an aqueous solution of biological fungicide Alirin-S, at the rate of 3 l/ha, in addition, physiologically inferior branches and shoots are cut out in the autumn, followed by their burning.