Biological effectiveness of biorational insecticides in combination with the entomophagous Habrobracon hebetor (Say, 1836) against the Asian corn borer Ostrinia furnacalis (Guenee, 1854)

The paper presents the results of a field study on the effectiveness of the entomophagous insect Habrobracon hebetor (Say, 1836) and bio-rational insecticides BioKill, EC (10 g/l) and Proclaim, WSG (50 g/kg). The experiments were conducted in the Primorsky Territory in 2022-2023. The Asian corn borer was the research object. The design of the experiment included seven variants: the control (without any treatment and the use of the entomophagous insect) and treatments with insecticides and single and double release of the parasitoids. The experiment was carried out with three repetitions. The area of the experimental field plot was 28 m². The effectiveness was determined depending on the degree of the damage caused to plants (point score) according to the methodology of I.D. Shapiro. The research goal was to study the biological efficacy of Habrobracon hebetor (Say, 1836) in combination with the insecticides against the Asian corn borer. During the research, a high percentage of damage to the cob and cob stalk, as well as breakage of the stem and tassel by the corn borer, was identified in the control variant – 10 and 15%, 36.7 and 16.8%, respectively. The lowest degree of damage was cha racteristic of the variants with the use of Proclaim, WSG + the double release of the entomophagous insect – 0.2 points and with the use of Biokill, EC + the single release of the parasitoid – 0.3 points. The use of bio-insecticide Proclaim, WSG, in combination with the double release of Habrobracon hebetor (Say, 1836) showed high biological efficacy. The highest gain in grain yield per ear (21 g) in comparison to the control was found in the variant with the use of Proclaim, WSG (0.2 kg/ha), and the double release of the entomophagous insect.

1. Kishev A.Yu., Mamsirov N.I., Tiev R.A., Ego rova E.M. Corn in postcut crops. Novye tekhnologii = New technologies, 2023, vol. 19, no. 1, pp. 103–110. (In Russian). DOI: 10.47370/2072-0920-2023-19-1-103-110.

2. Golokhvastova S. Today, maize grows also in Siberia. Zhivotnovodstvo Rossii = Animal Husbandry of Russia, 2019, no. 1, p. 58. (In Russian).

3. Piskareva L.A., Cheverdin A.Yu. Influence of mineral fertilizers and growth regulators for maize yield. Journal of Agriculture and Environment, 2020, no. 3 (15), pp. 24–28. DOI: 10.23649/jae.2020.3.15.5.

4. Timoshkin O.A., Eryutina E.P. The green mass productivity of maize and soybean as monocultures and grass mixtures. Kormoproizvodstvo = Kormoproizvodstvo, 2023, no. 7, pp. 27–31. (In Russian). DOI: 10.25685/KRM.2023.7.2023.005.

5. Shipsheva Z.L. Pests on corn crops under the conditions of the steppe zone of Kabardino-Balkaria. Izvestiya Kabardino-Balkarskogo nauchnogo tsentra RAN = News of the Kabardino-Balkarian Scientific Center of the Russian Academy of Sciences, 2020, no. 3 (95), pp. 45–50. (In Russian). DOI: 10.35330/1991-6639-2020-3-95-45-50.

6. Ageenko A.V., Sagitov R.K., Abaev S.S., Omarova A.Sh., Abishev E.E. Main diseases of corn and ecological test of domestic and foreign selection hybrids in the conditions of the sou theast of Kazakhstan. Pochvovedenie i agrok himiya = Soil Science and Agrochemistry, 2020, no. 3, pp. 54–63. (In Russian).

7. Telichko O.N., Belova T.A., Syrmolot O.V., Lastushkina E.N. Results of the phytosanitary monitoring of corn fungal diseases. Journal of Agriculture and Environment, 2023, no. 10 (38). DOI: 10.23649/JAE.2023.38.13.

8. Boiko S.V., Nemkevich M.G., Chichina A.S. On pests of grain crops in the conditions of Belarus. Nashe sel'skoe khozyaistvo = Our agriculture, 2023, no. 1. (297), pp. 22–34. (In Russian).

9. Trisyono Y.A., Aryuwandari V.E.F., Andika I.P., Sinulingga N.G.H. Assessment on the Economic Importance of Corn Borers in Indonesia, Universitas Gadjah Mada: Yogyakarta, Indonesia. 2020, 41 p.

10. Kim I.H., Seo B.Y., Kim Y., Park C.-G., Jung J.K. Diapause and voltinism in Ostrinia furnacalis (Lepidoptera: Crambidae) in Suwon, and larval instar sensitivity to diapause induction. Korean Journal of Applied Entomology, 2020, no. 5, pp. 185–202.

11. Bykovskaya A.V., Boiko S.V., Luzhins kaya N.A. The European corn borer is a dangerous pest of corn, sorghum, and millet. Nashe sel'skoe khozyaistvo = Our agriculture, 2021, no. 23 (271), pp. 19–29. (In Russian).

12. Guo J., He K., Meng Yu., Hellmich R.L., Chen Sh., Lopez M.D., Lauter N., Wang Zh. Asian corn borer damage is affected by rind pene tration strength of corn stalks in a spatiotemporally dependent manner. Plant Direct, 2022, vol. 6, no. 2. DOI: 10.1002/pld3.381.

13. Lastushkina E.N., Syrmolot O.V., Teli chko O.N., Kraskovskaya N.A. Corn specimens resistant to Asian corn borer in the Primorsky territory. Sibirskii vestnik sel'skokhozyaistvennoi nauki = Siberian Herald of Agricultural Science, 2023, no. 53 (10), pp. 61–67. (In Russian). DOI: 10.26898/0370-8799-2023-10-7.

14. Ismailov V.Ya., Agasieva I.S., Nastasiy A.S. Habrobracon hebetor Say as an efficient parasite to control codling moth. Sadovodstvo i vinogradarstvo = Horticulture and viticulture, 2020, no. 2. рр. 52–57. (In Russian). DOI: 10.31676/0235-2591-2020-2-52-57.

15. Bogatyrev O.D., Agasyeva I.S. Mass incubation of the Habrobracon hebetor Say entomophage: technical solutions, allowing to reduce the cost of final products. Plodovodstvo i yagodovodstvo Rossii = Pomiculture and small fruits culture in Russia, 2019, no. 59, рр. 207–211. (In Russian). DOI: 10.31676/2073-4948-2019-59-207-211.