Ecological Structure of the Harmful Entomocomplex of Apple Orchards of the Central Forest-Steppe of Ukraine

Mostoviak, Svitlana; Berezovskyi, Andrii; Krykunov, Ihor

doi:10.12912/27197050/168096

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Ecological Structure of the Harmful Entomocomplex of Apple Orchards of the Central Forest-Steppe of Ukraine

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Mostoviak Svitlana , Berezovskyi Andrii , Krykunov Ihor

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DOI

10.12912/27197050/168096

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Abstrakty

The most widespread culture in the structure of fruit plantations in Ukraine is the apple tree. An important factor in the highly efficient production of apples is ensuring proper phytosanitary state of plantations and observing agrotechnological methods of growing, which is possible only with constant and long-term monitoring of the species composition, population dynamics, biological and ecological features of the entomoplex. The aim of the study conducted in 2005–2020 was to determine the ecological structure of the harmful entomocomplex of apple orchards under the conditions of the Central Forest-Steppe of Ukraine. Field, laboratory and chamber research methods generally accepted in ecology and entomology were used to fulfill the tasks. In the study, 52 species of phytophagous insects from 25 families and 7 orders were identified; 5 species of phytophagous mites from 3 families of Tetranychidae (Panonychus ulmi Koch., Tetranychus urticae Koch., Scizotetranychus pruni Oudms.), Bryobiidae (Bryobia redikorzevi Reck., syn: Bryobia praetiosa Koch.), Eriophyoidae (Eriophyes mali Nal.) were also found. The taxonomic structure of phytophagous insects was dominated by representatives of the orders of Lepidoptera (24 species), Coleoptera (14 species) and Homoptera (9 species), the portion of which collectively amounted to 90%. A range of Lepidoptera represented by 13 families was characterized by wide species diversity: Tortricidae, Gracillariіdae, Yponomeutidae, Lyonetiidae, Cossidae, Sesiidae, Coleophoridae, Lasiocampidae, Geometridae, Pieridae, Arctiidae, Noctuidae, Orgyidae, which accounted for 46% of the harmful entomocomplex. The most numerous (dominant) species for the period 2005-2020 were three species of aphids (Aphis pomi De G, Dysaphis devecta Walk, Dysaphis mali Ferr.), apple moth (Carpocapsa pomonella L.) and leaf rollers (Archips rosana L.). In terms of trophic specialization, polyphages dominated 75% (39 species) of apple tree agrocenoses, 10% (5 species) of oligophagous insects, 15% (8 species) – monophages. The life forms were dominated by phytophiles – dendrobiotes, the percentage of which in the total structure of insect pests was about 90%. The species composition of harmful entomofauna and ecologically constant species of phytophagous insects in apple plantations in the Central Forest-Steppe of Ukraine were specified. A promising study is to clarify the features of the biology of the most harmful phytophagous insects under the conditions of climate change and to develop environmentally safe means of protecting apple plantations from pests.

Słowa kluczowe

apple orchard pest species diversity dominant species ecologically constant species

Wydawca

Lubelski Oddział Polskiego Towarzystwo Inżynierii Ekologicznej
Lublin University of Technology
WNGB Wydawnictwo Naukowe

Czasopismo

Ecological Engineering & Environmental Technology

Rocznik

2023

Tom

Vol. 24, iss. 6

Strony

155--162

Opis fizyczny

Bibliogr. 26 poz., rys., tab.

Twórcy

autor

Mostoviak Svitlana

s.mostoviak@gmail.com

Department of Plant Protection and Quarantine, Uman National University of Horticulture, Institutska 1, Uman, 20300, Ukraine

https://orcid.org/0000-0001-8322-8710

autor

Berezovskyi Andrii

Department of Applied Engineering аnd Labor Protection, Uman National University of Horticulture, Institutska 1, Uman, 20300, Ukraine

https://orcid.org/0000-0002-9526-3721

autor

Krykunov Ihor

Department of Plant Protection and Quarantine, Uman National University of Horticulture, Institutska 1, Uman, 20300, Ukraine

https://orcid.org/0000-0002-8795-2535

Bibliografia

1. Altaf S., Ahad I., Pathania S.S. et al. 2019 Insect pest complex of apple nurseries in North Kashmir. Journal of Entomology and Zoology Studies, 7(3), 697–700. https://www.entomoljournal.com/archives/2019/vol7issue3/PartL/7-2-344-705.pdf
2. Arya M.K., Farooq F. 2019. Impact of insect pests and pesticides on fruit productivity in Kumaun Himalaya, Uttarakhand, India. In Contaminants in Agriculture and Environment: Health Risks and Remediation. https://doi.org/10.26832/aesa-2019-cae-0170-011
3. Balykina E.B. 2016. Theoretical and ecological aspects of the formation of the entomocarocomplex of the apple orchard. Collection of research papers of State Nikitskii Botanical Garden., 142. 12–43.
4. Balyikina E.B., Yagodinskaya L.P. 2019. Dynamics of the ratio of phytophages and changes in the taxonomic structure of the entomocarocomplex of apple-tree agrocenoses of the Crimea. Collection of research papers of State Nikitskii Botanical Garden., 148, 143–154. https://doi.org/10.25684/NBG.scbook.148.2019.15
5. Concept and sectoral Program for the development of horticulture of Ukraine for the period until 2025. Ministry of Agrarian Policy of Ukraine. Ukrainian Academy of Agrarian Sciences (order No. 444/74З of 21.07.2008). URL: http://www.uaz-akon.com/documents/date_cu/pg_gbwlsl/ index.htm.
6. Du Rienz G.E. 1931. Life – forms of Terrestrial Flovering Plants. Uppsala, 268.
7. Galinato S.P., Gallardo R.K., Granatstein D.M., Willett M. 2018. Economic impact of a potential expansion of pest infestation: Apple maggot in washington state. HortTechnology, 28(5). https://doi.org/10.21273/HORTTECH04141-18
8. Garcia A.G., Malaquias J.B., Ferreira C.P., Tomé M.P., Weber I.D., Godoy W.A.C. 2021. Ecological Modelling of Insect Movement in Cropping Systems. Neotropical Entomology, 50(3). https://doi.org/10.1007/s13744-021-00869-z
9. Kravets I.S., Adamenko D.M. 2014. Harmful entomoacary complex of industrial apple plantations in the Forest Steppe. Collection of research papers of UNUH, 85, 29–34.
10. Kravets I.S., Sukhanov S.V., Adamenko D.M. et al. 2016. The species composition of entomophages and acariphages of industrial apple plantations in the conditions of the Right Bank Forest-Steppe of Ukraine. International Scientific Journal, 11.
11. Krykunov I.V., Adamenko D.M., Sukhomud O.H. et al. 2018. Biological features of the development and harmfulness of the green apple aphid (Aphis pomi Deg) in the conditions of industrial apple plantations of educational and production department of Uman NUH. Agrobiology, 1, 136–143.
12. Lisovyi M.M., Chaika V.M. 2017. Conceptual approaches to studies of entomological diversity of agrocenoses of Ukraine. Ahroekolohichnyi journal, 2, 188–194.
13. Mazzi D., Dorn S. 2012. Movement of insect pests in agricultural landscapes. In Annals of Applied Biology, 160, 2. https://doi.org/10.1111/j.1744-7348.2012.00533.x
14. Morales-Hojas, R., Sun, J., Alvira Iraizoz, F., Tan, X., Chen, J. 202). Contrasting population structure and demographic history of cereal aphids in different environmental and agricultural landscapes. Ecology and Evolution, 10(18). https://doi.org/10.1002/ece3.6565
15. Moinina A., Lahlali R., Boulif M. 2019 mportant pests, diseases and weather conditions affecting apple production: Current state and perspectives. Rev. Mar. Sci. Agron. Vét, 7(1), 71–87.
16. Pélissié B., Crossley M.S., Cohen Z.P., Schoville S.D. 2018. Rapid evolution in insect pests: the importance of space and time in population genomics studies. Current opinion in insect science, 26, 8–16. https://doi.org/10.1016/j.cois.2017.12.008
17. Practicum on agricultural entomology: Guide / Eds B.M. Litvinov. Kyiv: Ahrarna osvita, 2009, 301.
18. Qu Z., Zhou G. 2016. Possible impact of climate change on the quality of apples from the major producing areas of China. Atmosphere, 7(9). https://doi.org/10.3390/atmos7090113
19. Rathee M., Dalal P. 2018. Emerging insect pests in Indian agriculture. Indian Journal of Entomology, 80(2). https://doi.org/10.5958/0974-8172.2018.00043.3
20.Registration of pests and diseases of agricultural crops / V.P. Omeliuta, I. V. Hryhorovych, V.S. Chaban et al. Kyiv: Urozhai, 1986, 292.
21. Salo, I. 2020. Current situation and forecast of the apple market conjuncture in Ukraine. Ekonomika APK, 309(7). https://doi.org/10.32317/2221-1055.202007032
22. Sofi M.A. 2017 Major insect pests of apple grown under temperate conditions of Kashmir and their integrated pest management. URL: https://www.researchgate.net.
23. State Statistics Service of Ukraine. URL: http://www.ukrstat.gov.ua
24. Vasilev V.P., Livshits I.Z. 1984. Pests of fruit crops. Moskva: Kolos, 398.
25. Yanovskyi Y.P. 2021. Reference book. Program for the protection of fruit crops. Kyiv: Pheniks, 145.
26. Yanovskyi Y., Suchanov S., Krykunov I., Fomenko А. 2020. Effectiveness of modern insecticides in protection of apple planting from red-headed aphides.Interdepartmental Thematic Scientific Collection of Phytosanitary Safety, 66, 222–230. https://doi.org/10.36495/1606-9773.2020.66.222-230

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Bibliografia

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