Winter garlic variety cluster analysis under conditions of Right-Bank Forest-Steppe of Ukraine

The issue of weather impact on vegetable crops plays an important role in the winter garlic productivity as it isn’t resistant to unfavorable to weather conditions, since it is cultivated in the felds located in the risky agriculture areas. The research aimed to study various winter garlic varieties and their yield formation pecularities, such as growing season, plant height, leaf area, leaf number per plant, bulb diameter and weight, number of cloves in one bulb. These test samples give the opportunity to form clusters that could give the highest garlic productivity under conditions of Right Bank Forest-Steppe of Ukraine. The research has been conducted in the experimental feld of Bila Tserkva National Agrarian University Training and Production Center (Right Bank Forest-Steppe of Ukraine). The winter garlic test samples were studied in accordance to the research methods of olericulture and melon growing [20]. The plant density is about 357 thousand plants per ha. The variety Prometei of Uman National University of Horticulture breeding was taken as a control sample. The research suggested that the samples of Liubasha yielded 13.2 t/ha and it was the best productive index, but the control samples of Prometei yielded only 10.8 t/ha. The varieties of Promin, Lidiia, Liubasha, Troika, Prometei (the control sample) turned out to be the most adapted to the conditions of Right Bank Forest-Steppe of Ukraine. Their stability index was 1.1. The biggest amount of marketable bulbs in the total yield belongs to the following winter garlic varieties: Dobrodii (98 %), Liubasha (98 %), Troika (98), Prometei (the control sample) (98 %), Saksky (97 %), Promin (97 %), Znakhar (97 %). The multidimensional analysis of winter garlic samples on 9 traits under Ukraine Right Bank Forest-Steppe conditions made it possible to classify them at the lowest level and to identify four clusters. The most common four representatives present all the diversity of studied varieties in 2018–2019. The varieties of Lidiia, Saksky, Promin, Prometei (the control sample) belong to this group.

Key words: varieties, cluster analysis, Euclidean distances, winter garlic, bulb weight, yield productivity.

Kubrak S.

https://orcid.org/0000-0002-2780-2869

Humeniuk Yu.

Us O.

Voloshyna O.

Reference:

1. Beato, V.M., Orgaz, F., Mansilla, F., Montaño, A. (2011). Changes in Phenolic Compounds in Garlic (Allium sativumL.) Owing to the Cultivar and Location of Growth. Plant. Foods Hum. Nutr. no. 66, pp. 218–223.

2. Beljaev, V., Vol'nov, V., Sokolova, L., Kuznecov, V., Matsyura, A. (2017). Effect of sowing techniques on the agroecological parameters of cereal crops. Ukrainian Journal of Ecology. no. 7(2), pp. 130–136. Available at: https://doi. org/10.15421/2017_30.

3. Belyaev, V., Meinel, Т., Grunevald, K., Sokolova, L., Kuznetsov, V., Matsyura, A. (2018). Inﬂuence of spring soft wheat, peas and rape cultivation technology on soil water regime and crop yield. Ukrainian Journal of Ecology. no. 8(1), pp. 873–879. Available at: https://doi. org/10.15421/2018_287.

4. Bhandari, S.R., Yoon, M.K., Kwak, J.-H. (2014). Contents of phytochemical constituents and antioxidant activityof 19 garlic (Allium sativum L.) parental lines and cultivars. Hortic. Environ. Biotechnol. no. 55, pp. 138–147.

5. Capasso, A. (2013). Antioxidant action and therapeutic efciency of Allium sativum L. Molecules. no. 18, pp. 690–700.

6. Faradonbeh, M.M., Mashhadi, A.A., Bakhshandeh, A., Jalalabadi, A.L. (2013). Evaluation of the effects of differentmaterial on quantity and quality yield of garlic populations (Allium sativum L.). Int. Agric. Crop. Sci. no. 5, pp. 2660–2665.

7. Fritsch, R.M., Friesen, N.W. (2002). Evolution, domestication, and taxonomy. In: Advances in Allium Science. H.D. Rabinowitch L. Currah (Eds.), CABI Publishing. Wallingford, U.K, pp. 8–10.

8. Garlic Production of Ukraine. (2020). Available at: https://www.tridge.com/intelligences/garlic/UA/production/.

9. Goncagul, G., Ayaz, E. (2010). Antimicrobial Effect of Garlic (Allium sativum) and Traditional Medicine. J. Anim. Veter. Adv. no. 9, pp. 1–4.

10. Likhatsky, V.I., Ulyanich, O.I., Shchetina, S.V., Slobodyanyk, G.Ya., Kovtunyuk, Z.I., Gulevska, A.V. (2017). Recommendations for production on the technology of growing winter and spring garlic in the forest-steppe of Ukraine. Kyiv, pp. 4–6.

11. Pramanik, K, Tripathy, P. (2017). Effect of micronutrients on growth and total yield of Onion (Allium cepa L.). The Bioscan. no. 12(1), pp. 322–326.

12. Santhosha, S., Jamuna, P., Prabhavathi, S. (2013). Bioactive components of garlic and their physiological role inhealth maintenance: A review. Food Biosci. no. 3, pp. 59–74.

13. Simon, P.W., Jenderek, M.M. (2003). Flowering, seed production, and the genesis of garlic breeding. Plant Breeding Reviews. no. 23, pp. 211–244. Available at: https:// doi.org/10.1002/9780470650226.ch5.

14. Tattelman, E. (2005). Health effects of garlic.Am. Fam. Physician. no. 72, pp. 103–106.

15. Zeng, Y., Li, Y., Yang, J., Pu, X., Du, J., Yang, X., Yang, T., Yang, S. (2017). Therapeutic Role of FunctionalComponents in Alliums for Preventive Chronic Disease in Human Being. Evid.-Based Complement. Altern. Med. pp. 1–13.

16. Mel'nik, S.І. (2019). Derzhavnij rejestr sortіv roslin, pridatnij dlja poshirennja v Ukrai'nі u 2019 rocі [State register of plant varieties, suitable for distribution in Ukraine in 2019]. 497 p. Available at: https://sops.gov.ua/ reestr-sortiv-roslin.

17. Mel'nik, S.І. (2020). Derzhavnij rejestr sortіv roslin, pridatnij dlja poshirennja v Ukrai'nі u 2019 rocі [State register of plant varieties, suitable for distribution in Ukraine in 2019]. 516 p. Available at: https://sops.gov.ua/ reestr-sortiv-roslin.

18. Dospehov, B.A. (1985). Metodika polevogo opyta [Field Experience Technique]. Moscow, Agropromizdat, 351 p.

19. DSTU ISO 6663-2002 Chasnik. Zberіgannja v holodі (ІSO 6663:1995, ІDT). Chinnij vіd 2003-10-01 [DSTU ISO 6663-2002 Garlic. Cold storage (ISO 6663: 1995, IDT)]. Kyiv, Derzhspozhivstandart of Ukraine, 2003, 7 p.

20. Bondarenko, H.L., Yakovenko, K.I. (2001). Methodology of experimental work in vegetable and melon. Kharkiv, Osnova, 369 p.

21. Sych, Z.D., Kubrak, S.M. (2020). Otsinyuvannya sortiv i mistsevykh form tsinnymy oznakamy v umovakh Pravoberezhnoho Lisostepu Ukrainy [Evaluation of varieties and local forms of winter garlic on economically valuable traits in the conditions of the Right-Bank ForestSteppe of Ukraine]. Agrobiologija [Agrobiology], no. 1, pp. 169–174. Available at: https://doi:10.33245/2310-9270- 2020-157-1-169-174.

22. Sych, Z.D. (1993). Metodicheskie rekomendacii postatisticheskoj ocenke selekcionnogo materiala ovoshhnyh i bahchevyh kul'tur [Guidelines for the statistical assessment of breeding material of vegetable and melons]. Kharkiv, IOB UAAN, 72 p.

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Winter garlic variety cluster analysis under conditions of Right-Bank Forest-Steppe of Ukraine