SU1784157A1 - Method for control of root-knot nematodes in decorative plants - Google Patents

Description

The invention relates to agriculture, and in particular to a method for combating rootworm nematode of ornamental crops using an anthelmintic - male dwarf insect.

The purpose of the invention is to improve the efficiency of the method.

To achieve this goal, we tested a method using a composition containing water decoctions of dry male dryopteris filix-mas (L.) Schott, and additionally ammonium nitrate. potassium sulfate, boric acid, OP-7 and water.

Decoctions in a ratio of 1:50 were prepared from dry fern wai collected in May and June. In a porcelain or glass vessel, a sample of crushed dry wai was poured with water heated to 30-80 ° C, infused for 20-30 minutes, boiled for 1-3 minutes and again infused for 24 hours. After that, the suspension was filtered through cheesecloth. The plant fraction was squeezed out into the filtrate, the latter was added with water to its original volume. The concentration of the obtained broth was taken as 100%.

In experiments in open ground and in the laboratory, the action on the northern rootworm nematode Meloidogyne hapla · Chitwood and the southern rootworm nematode - | begonias M. incognita (Kofoid et White) of a composition consisting of components of various concentrations (wt.%): broth 1:50:

-50-70, ammonium nitrate 0.3-0.5, sulfate; potassium 0.2-0.6, boric acid 0.01-0.03, OP7 0.04-0.06, water - the rest.

In laboratory experiments, the larvae of the southern melodyogine begonias were placed in working solutions of the compositions or individual components. The test solutions were well aerated, because their depth did not exceed 3 mm. At the end of the specified exposure, the suspensions of the larvae in the working solutions were diluted with fresh water by a factor of 10–3. The larvae were kept in dilute solutions from 2 hours to 2 days. The activity of nematodes was taken into account in dilute solutions. On the effectiveness of the composition or individual

SU <, „1784157 A1 components were judged by the number (in%) of immobile larvae, _v .

The contact effect of the composition and its individual ingredients on the larvae of southern melodyogina begonias at 14-23 ° C and exposure for 4-11 days was studied in spring (Tables 1 and 2) and in autumn (Tables 3 and 4). The composition in the spring was more effective (Table 1) than in the fall (Table 3).

The effect of the proposed method on vegetative plants was tested in the open field and in a greenhouse.

In the open field, clematis plants infected with northern rootworm nematode were watered under the root with the composition of the thyroid gland twice during the growing season: in July and in August. After the treatments, the plants grew and developed well. In autumn, the biological activity of the treatments was 78%.

In the greenhouse, 75 specimens of begonias in the river after treatment with the composition of the dwarf plant had no signs of oppression and looked better than the control, untreated ones.

Melodyotinous plants of open and closed ground were watered with warm (2123 ° C) working solutions of the composition of male fossil plant at a rate of 2-3 l / m ² or 50-200 ml per plant, depending on its size.

Compared with the action of the 0.2% heterophos emulsion concentrate with subsequent fertilizing with potassium nitrate or solution, the action of the male dwarf composition is less effective (Table 5). However, these differences are insignificant. In terms of environmental safety, it is preferable to use the composition of the shitnikov, because Heterophos emulsion concentrate is toxic to humans.

The individual components that make up the 10th composition of the male shieldworm are not effective. The composition shows the synergism of their action on root gall nematodes (Table 6).

Claims (1)

15 Claims A method of combating rootworm nematode of ornamental crops, including the use of dryopterls fillx mas (L) -Schott as an anthelmintic, characterized in that, in order to increase the efficiency of the method and environmental safety, male dryworm is used in the form of a decoction of dry wai in relation to water 1; 50 and 25 additionally introduce ammonium nitrate, potassium sulfate, boric acid into the broth. OG1-7 and water at the following ratio, wt%: decoction of dry wai of male dryopterls fllix mas (L) Schott 50-70; ammonium nitrate 0.3-0.5: potassium sulfate 0.2-0.6; boric acid 0.01-0.03; OP-7 0.04-0.06; water rest. Table! Effect on larvae of rootworm nematode composition of male fossil plant in the spring of composition, wt% broth vai (1:50) 50-70, ammonium nitrate 0.3-0.5, potassium sulfate 0.2-0.6; boric acid 0.01-0.03; OP-7 0.04-0.06, water the rest Component Concentration. % % of immobile larvae | Broth dry wai 1: 50 ... 50 88.29 60 ... 86.76 70 88.08 Ammonium nitrate 0.3 89.46 0,4 89.85 0.5 86.18 Potassium sulphate 0.2 89.68 0,4 87.03 0.6 90.23 Boric acid 0.01 89.75 0.02 92.46 0.03 88.65 OP-7 o.o4:. 87.86 0.05 90.00 I 0.06 87.50 1784157. table 2 Action on larvae of root knot nematode of individual components and compositions without drywall in spring Components Concentration,% % of immobile larvae Ammonium nitrate 0.3-0.5 34.48 Potassium sulphate 0.2-0.6 25.23 Boric acid 0.02 - 0.03 24.77 OP-7 0.04-0.06 2.1.57 Broth dry wai 1: 50 50 - 70 25.32 Water - • 24.01 Composition: Ammonium nitrate 0.3-0.5 Potassium sulphate 0.2-0.6 Boric acid 0.01-0.03 OP-7 0.04-0.06 38.46 Water Rest 40 Table 3 Effect on larvae of rootworm nematode composition of male fossil beetle in autumn, wt%: broth vai (1:50) 50-70, ammonium nitrate 0.3-0.5: potassium sulfate 0.2-0.6, boric acid O, 01-0 , 3: OP-07 0.04 -0.06; water rest. Variable component Concentration,% % of immobile larvae Broth dry wai 1:50 50 75.00 60 80.26 70 84.89 Ammonium nitrate ... 0.3 79.07 0,4 84.74. 0.5 85.83 Potassium sulphate 0.2 80.94 0,4 78.75 0.6 75.00 Boric acid 0.01 80.29 0.02 88.33 0.03 71.25 OP-7 ¹ 0.04 80.33 0.05 79.28 0.06 80,00 'Table 4 Effects of individual components and compositions on the larvae of root knot nematode in autumn Components Ammonium nitrate Potassium sulfate Boric acid OP-7 Dry wai decoction 1: 50 Water Composition: Ammonium nitrate Potassium sulfate Boric acid OP-7 'Water ___ Concentration,% 0.5 0.6 0.03 0.06 60-70 0.3 '0.2 0.01 Ό.04 The rest% of immobile larvae _____ 30.95 16.02 7.69 30.36 36.85 22.41 20.69 Table 5 The effectiveness of the action on the larvae of the melodogina of the composition of the male and heterophos / G.- Variants % immobile nematodes Compared options NDS d I Composition of male shieldwort: dry wei decoction (1:50) 50-70%. ammonium nitrate 0.3-0.5%. potassium sulfate 0.2-0.6%. boric acid 0.01 - 0.03%. OP-7 0.04-0.06%, water - the rest 87.60 ± 5.11 Ί.-ΙΙΙ 22.71 63.91 II Heterophos 0.2% (by preparation) followed by feeding with potassium nitrate or solution 18: 6: 18 95.27 ± 3.09, I - II 15.66 7.67 w Control - water I P = 0.1. 23.69 ± 10.18 '~ - T a b l and c a b Synergism of the action of the composition of the male dwarf beetle on the rootworm nematode s v NDS d Components, compositions and their concentrations, May.? "........ Selected Ingredients' Dry wai decoction (1 g50) 50 * 70 28,20114.46 '12.31 25,60 59.40 Ammonium nitrate 0.3-0.5 33.78Λ15.72 16.50 31.88 53.82 Potassium sulfate 0.2-0.6 23.39 118.48 19.40 36.69 64.21 Boric acid 0.01-0.0) 21.3519.71 10.19 21.97 66.25 0P-7 0.04-0.06 23.33+ 10.41 10.93 23.07 64.27 Water 23.69 110.18 10.69 22.71 63.91 34.91 112.29 52.69 26.10 12.90 Composition without decoction of wei shitnikov: 'Ammonium nitrate 0.3-0.5 Potassium sulfate 0.2-0.6 Boric acid 0.01-0.03 OP-7 0.04-0.06 Water is the rest Composition with a decoction of wai male shieldwort: Broth wai (1:50) 50-70 Ammonium nitrate 0.3-0.5 Potassium sulfate 0.2-0.6 87.60 15.11 6.97 Boric acid 0.01 * 0.03 „OP-7 0.04-0.06 Water * the rest p = ο, ι ·.