The trophic communication of the cotton bollworm in the modern growing technology of sunflower and corn in the Forest-Steppe of Ukraine
DOI:
https://doi.org/10.31548/dopovidi2018.05.018Abstract
The features of reproduction of cotton shoots of sunflower seeds and corn under modern agricultural systems in the forest-steppe of Ukraine are highlighted. The analysis of efficiency of application of modern monitoring of a complex of pests at new systems of protection of sunflower and corn is carried out. On the crops of sunflower and corn in the Poltava region, Mirgorod district, the dynamics of the number of cotton bollworm, in the period 2014-2018, which reflects a sharp fluctuation in the number of pests in the crops, is reflected. The basic ecological and biological peculiarities of formation of the structure of cotton bollworm in the crops of the studied cultures are determined. The feature of monitoring and control of cutworms in the forest-steppe of Ukraine is highlighted. A complex of the most effective biological insecticides is described, for controlling the amount of the pest. The analysis of efficiency of modeling of the number of harmful and useful insect species for resource-saving systems of protection of sunflower and corn is carried out. The peculiarities of biology and ecology, as well as the phenology of the development of cotton bollworm in the research area have been specified. The peculiarities of forming the number of pests in agrocenosis vary according to certain parameters, optimum temperatures during winter hibernation, warm and moderate-humid weather in the spring-summer period of vegetation and the presence of honey plants during the period of the imago. For effective crop management, it is relevant to determine the total demand of pests in feeding on the actual population of individuals at different stages of ontogenesis of cereals and industrial crops. Also, a comprehensive set of preventive measures for the distribution of cotton shoots in sunflower and corn crops, for modern agricultural systems.
Application in the production of methods for forecasting the dynamics of phytophagous crops on cereals and industrial crops due to the influence of biotic and abiotic factors in different periods of development of plants and phytophagous, allows to determine quantitative changes of cotton bollworms in time and space.
Keywords: trophic relations, cotton bollworm, sunflower, maize, monitoringReferences
Borisko A.E. (1961). The main features of the biology of the cotton bollworm in the south of the Ukrainian SSR and the rationale for measures to get rid it. Odessa. 16.
Naseri B., Fathipour Y., Moharramipour S., Hosseininaveh V. (2010). Nutritional indices of the cotton bollworm, Helicoverpa armigera, on 13 soybean varieties. Journal of Insect Science, 10, 1-14. https://doi.org/10.1673/031.010.1411
Kuleshov A.V. Bilyk M.O., Dovgan S.V. (2011). Phytosanitary monitoring and forecast. Espada, 608 p.
Likar Y.O. (2014). Lepidoptera pests of vegetable. Quarantine and plant protection, 12. 20-21.
Omeluty V.P. (1986). Accounting for pests and diseases of agricultural crops. Kiev: Harvest, 19. 293 p.
Naseri B., Fathipour Y., Moharramipour S., Hosseininaveh V. (2010). Effect of Different Host Plants on Nutritional Indices of the Pod Borer, Helicoverpa armigera Journal of Insect Science. 11. 6-13.
Dovgan S.V. Cotton bollworm - a dangerous pest. Retrieved from http://golovderzhzahist.com.ua.
Yaroshenko L.M., Filatova N.K., Abashin E.G. (2013). Cotton bollworm Helicoverpa armigera (Hübner, 1808) on polystyrene. Quarantine and plant protection, 6. 24-25.
Bannikova K. (2014). Multidimensional Pests: Wintering - Developing Further. Propozitciya, 5. 68-70.
Drozd V., Kochergha M. (2013). Cutworms on Vegetables. Vegetable Farming, 11. 68-72.
Klyuchko Z. F. (2006). Cutworms of Ukraine. Kyiv: ed. Raevsky, 248 p
Trybel S.O., Fedorenko V.P., Lapa A.M. (2004). Cutworms. The most widespread species in Ukraine. Kyiv: Koloboig.
Baydik G.V. (2016). Cotton bollworm-multi-pest crop. Retrieved from https://www.syngenta.ua/news/sonyashnik/bavovnikova-sovka-bagatoyidniy-shkidnik-silskogospodarskih-kultur
Fokin A.V. (2010) Assessment of the risk of acclimatization of Egyptian cotton bollworm on the territory of Ukraine. Protection and Plant Quarantine, 43-44.
Fokin A.V. (2015) Forecasting the acclimatization of Egyptian cotton and leafy corn scoops in Ukraine in conditions of climate change: materials of the international scientific and practical conference. scientists, graduate students and students (Kyiv 19-20 November 2015). Kyiv
Pospelov S.M (1989). Cutworms - pests of agricultural crops. Moscow: Agropromizdat.
Cotton bollworm - Pest of agricultural crops. Retrieved from https://agromage.com/stat_id.php?id=404
June-July is the time to apply Coragen. Retrieved from http://www.dupont.ua/content/dam/dupont/products-and-services/crop protection/documents/en/en_graphics_en_graphy_4_2016. pdf
Cotton bollworm threatens sunflower seeds, soybeans and corn. Retrieved from https://superagronom.com/news/1704-bavovnyana-sovka-zagrojuye-posivam-sonyashnika-soyi-ta-kukurudzi
Cotton bollworm – multi pest crop. Retrieved from http://www.syngenta.ua/news/sonyshn-Ik/bavovnikova-sovka-bagatoyidniy-shkidnik-silskogospodarskih-kultur
Forecast of phytosanitary condition of agro-cenozosis of Zhytomyr region and recommendations on plant protection in 2018. Retrieved from https://zt-dpss.gov.ua/wp-content/uploads/fitoprognoz_2018.pdf
Pests and measures to get rid them. Retrieved from http://dpssmk.gov.ua/wp content / uploads / 2018/02 /% D0% 9F% D1% 80% D0% BE % D0% B3% D0% BD% D0% BE% D0% B7-2018-ilovepdf-compressed-1-ilovepdf-compressed11.pdf
The forecast of the phytosanitary state and recommendations for the protection of grains and technical crops at the farms of the Khmelnitsky region in 2018 (2018). Retrieved from http://www.consumerhm.gov.ua/655-prognoz-fitosanitarnogo-stanu- ta-rekomendatsiji -shchodo-zakhist-zernovikh-ta-tekhnichnikh-kultur-gospodarstvakh-Khmelnitsky-oblast-v-2018-rotsi
Shapoval I. (2013). We are going to biological agriculture, but biologics for the ecological protection of plants, trees and shrubs are ignored prominently. Grain and bread, 4. 86-87.
Fokin A.V. (2005). Technologies of low-tartal production of microbial preparations for the protection of plants against pests and diseases. Kyiv. Circulation
Microbiological pests. Retrieved from http://biotechnica.org.ua/ua/p/produkciya/mikrobio-logichni preparati/becimid-bt
Bilyk M.O. (2016). Reference book on biological protection of plant. Kharkov.
Brovody V.M., Guly V.V., Fedorenko V.P. (2003). Biological Plant Protection. Kyiv. Svit.
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