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Peculiarities of the phenotypic dominance degree manifestation by stem length in F1bread winter wheat
The manifestation of the phenotypic dominance degree of the main stem length in F1 under hybridization of different varieties of bread winter wheat was studied during different for hydrothermal conditions 2018–2020. In the hybridization of Bilotserkivska napivkarlykova variety with medium-growing varieties of groups 1 and 2, the most common type of stem length inheritance was negative overdominance – 54.5 % and positive overdominance – 27.3 %. The degree of phenotypic dominance varied from -63.0 to +7.4. When used medium-sized varieties of group I in the crossing with the maternal form, the degree of phenotypic dominance had a signifcant differentiation from -257.0 to +35.0, and the determination of stem length in most combinations was negatively overdominated – 61.4 %. The combinations Shchedra nyva/Dobirna, Shchedra nyva/Vidrada, Myronivska early/Kolchuga, Antonivka/Vidrada were characterized by a stable manifestation of a negative degree of phenotypic dominance (h p > -1). When involved in the hybridization of medium-sized varieties of group 2 in the maternal form, the most common type of stem length inheritance had negative dominance as well. It was found that the degree of phenotypic dominance of stem length in F 1 depended on the selection of parental forms for hybridization and year conditions. Thus, in 2020, under more favorable conditions for the formation of stem length in most hybrids, a negative degree of phenotypic dominance was determined, and the inheritance was negatively dominated. High rates of negative hypothetical and true heterosis were found in the following hybrids: Shchedra nyva/Dobirna, Shchedra nyva/Vidrada, Kolchuga/Chornyava, Kolchuga/ Antonivka, Yednist/Dobirna, Kolchuga/Vidrada in 2018; Chornyava/Antonivka, Shchedra nyva/Dobirna, Shchedra nyva/Vidrada, Chorniava/Shchedra nyva in 2019; Myronivska early/Antonivka, Zolotokolosa/Antonivka, Myronivska early/Kolchuga, Myronivska early/Vdala, Zolotokolosa/ Yednist, Shchedra nyva/Stolychna, Shchedra nyva/Vidrada, Antonivka/Yednist, Antonivka/Vidrada, Kolchuga/Vidrada, Kolchuga/Stolychna in 2020.
Key words: bread winter wheat, crossbreeding combinations, hybrids, main stem length, degree of phenotypic dominance, hypothetical and true heterosis.
https://orcid.org/0000-0002-6078-3209Reference:
1. Hadzalo, Ya.M., Kyrychenko, V.V., Dziubetskyi, B.V. (2016). Stratehiia innovatsiinoho rozvytku selektsii i nasinnytstva zernovykh kultur v Ukraini [Strategy of innovative development of selection and seed production of grain crops in Ukraine]. Kyiv-Kharkiv-Dnipro, 32 р.
2. Silske hospodarstvo Ukrainy: statystychnyi zbirnyk. Roslynnytstvo [Agriculture of Ukraine: statistical collection. Plant growing]. 2019, 230 р.
3. Sobko, T.O., Sirant, L.V., Lisova, H.M. (2018). Henetychna riznomanitnist sortiv pshenytsi miakoi yaroi za lokusamy zapasnykh bilkiv [Genetic diversity of soft spring wheat by locus of spare proteins]. Faktory eksperymentalnoi evoliutsii orhanizmiv Genetic diversity of soft spring wheat by locus of spare proteins. Factors of experimental evolution of organisms [Factors of experimental evolution of organisms]. Kyiv, Lohos, Vol. 23, рр. 334–339.
4. Burdeniuk-Tarasevych, L.A., Lozinskyi, M.V. (2015). Pryntsypy pidboru par dlia hibrydyzatsii v selektsii ozymoi pshenytsi T. aestivum L. na adaptyvnist do umov dovkillia [Principles of selection of pairs for hybridization in selection of winter wheat T. aestivum L. for adaptability to environmental conditions]. Faktory eksperymentalnoi evoliutsii orhanizmiv [Factors of experimental evolution of organisms]. Vol. 16, pp. 92–96.
5. Nekrasova, O.A. (2014).Tipyi nasledovaniya vyisotyi rasteniy u gibridov F1 myagkoy ozimoy pshenitsyi [Types of plant height inheritance in F1 hybrids of soft winter wheat]. Agrarnyiy vestnik Urala [Agrarian Bulletin of the Urals]. 129, no. 11, pp. 12–15.
6. Dyomina, I.F., Kosenko, S.V. (2016). Izmenchivost i nasledovanie massyi zerna s kolosa u gibridov yarovoy myagkoy pshenitsyi v usloviyah lesostepi Srednego Povolzhya [Variation and inheritance of grain weight per spike in spring bread wheat hybrids in the forest-steppe conditions of the Middle Volga region]. Vestnik Altayskogo gosudarstvennogo agrarnogo universiteta [Bulletin of the Altai State Agrarian University], no. 3 (137), pp. 5–9.
7. Lozinskyi, M.V. (2018). Adaptyvna zdatnist selektsiinykh nomeriv pshenytsi miakoi ozymoi za dovzhynoiu stebla [Adaptive ability of soft winter wheat breeding numbers by stem length]. Myronivskyi visnyk: zbirnyk naukovykh prats [Myronivskyi Visnyk: a collection of scientifc works]. Myronivka, pp. 77–91.
8. Gordey, S.I., Urban, E.P., Satsyuk, I.V. (2018). Sorta i tehnologiya vozdelyivaniya ozimoy myagkoy pshenitsyi [Varieties and technology of cultivation of winter soft wheat]. Zemledelie i zaschita rasteniy [Agriculture and plant protection], no. 4, pp. 3–10. Available at: https://doi. org/10.29235/1817-7204-2019-57-4-444-453
9. Gordey, S.I., Satsyuk, I.V., Urban, E.P. (2019). Napravleniya i osnovnyie rezultatyi selektsii ozimoy pshenitsyi (Triticum aestivum L.) v Respublike Belarus [Directions and main results of winter wheat (Triticum aestivum L.) breeding in the Republic of Belarus]. Izvestiya Natsionalnoy akademii nauk Belarusi. Seriya agrarnyih nauk [Bulletin of the National Academy of Sciences of Belarus. Agrarian Science Series], no. 57(4), pp. 444–453. Available at: https://doi.org/10.29235/1817-7204-2019-57-4-444-453
10. Satsyuk, I.V., Gordey, S.I., Ardashnikova, A.E., Trushko, V.Yu., Shanbanovich, A.Yu. (2017). Rezultatyi izucheniya novyih sortoobraztsov ozimoy pshenitsyi (Triticum aestivum L.) pri raznyih urovnyah intensifkatsii vozdelyivaniya [Results of studying new cultivars of winter wheat (Triticum aestivum L.) at different levels of intensifcation of cultivation]. Zemledelie i selektsiya v Belarusi [Agriculture and breeding in Belarus], no. 53, pp. 127–131.
11. Gilliham, M., Able, J.A., Roy, S.J. (2017). Translating know ledge about abiotic stress tolerance to breeding programmers. Plant Journal. Vol. 90, Issue 5, pp. 898–917. Available at: https://doi.org/10.1111/tpj.13456.
12. Boichuk, I.V. (2020). Obgruntuvannia pidboru sortiv pshenytsi ozymoi dlia umov pivdennoho stepu Ukrainy [Foundation selection of varieties of winter wheat for the minds of the Ukrainian steppe]. “Topical issues of the development of modern science”: The 7th International scientifc and practical conference. Sofa, Bulgaria, Publishing House “ACCENT”, рр. 151–161. 13. Duktova, N.A., Kuznetsova, N.A. (2018). Proyavlenie geterozisnogo effekta i harakter nasledovaniya priznakov produktivnosti rasteniya u vnutrividovyih gibridov pshenitsyi tverdoy [Manifestation of the heterotic effect and the nature of inheritance of plant productivity traits in intraspecifc durum wheat hybrids]. Vestnik Belorusskoy gosudarstvennoy selskohozyaystvennoy akademii [Bulletin of the Belarusian State Agricultural Academy], no. 4, pp. 111–114.
14. Lozinskyi, M.V. (2016). Inheritance and grain weight transgressive variability per plant in hybrid winter wheat (T. aestivum L.), obtained from the hybridization of various ecotypes. Agrobiology, no. 1, pp. 22–28.
15. Tuktarova, N.G., Torbina, I.V. (2016). Proyavlenie geterozisa ozimoy pshenitsyi v gibridnom pitomnike pervogo goda [Manifestation of winter wheat heterosis in a hybrid nursery of the frst year]. Vladimirskiy zemledelets [Vladimirsky farmer], no. 3 (77), pp. 35–37.
16. Volodina, H.B., Demydov, O.A., Humeniuk, O.V., Zamlila, N.P., Derhachov, O.L. (2019). Hibrydyzatsiia yak dzherelo henetychnoi minlyvosti v selektsii pshenytsi ozymoi [Hybridization as a source of genetic variability in the selection of winter wheat]. Myronivskyi visnyk [Myronivskyi Herald], no. 9, pp. 11–20. Available at: https:// doi.org/10.31073/mvis201909-02.
17. Lytvynenko, M.A. (2016). 100 rokiv rozvytku selektsiinykh prohram pshenytsi miakoi ozymoi [100 years of development of selection programs of soft winter wheat]. Sortovyvchennia ta okhorona prav na sorty roslyn [Variety research and protection of plant variety rights], no. 2 (31), pp. 75–82. Available at: http://nbuv.gov.ua/UJRN/ stopnsr_2016_2_14.
18. Zhivlyuk, E.K., Borodich, E.A. (2015). Nasledovanie produktivnosti glavnogo kolosa u mezhsortovyih gibridov myagkoy ozimoy pshenitsyi [Inheritance of the productivity of the main spike in intervarietal hybrids of soft winter wheat]. Selskoe hozyaystvo – problemyi i perspektivyi: sbornik nauchnyih trudov Grodnovskiy gosudarstvennyiy agrarnyiy universitet [Agriculture – Problems and Prospects: Collection of Scientifc Papers Grodno State Agrarian University]. Grodno, GGAU, рр. 50–58.
19. Batalova, G.A., Shirokih, I.G., Tulyakova, M.V., Shevchenko, S.N., Rusakova, I.I., Abubakirova, R.I., Zhuykova, O.A. (2015). Nekotoryie rezultatyi i voprosyi metodologii ovsa na ustoychivost k edafcheskomu stressu [Some results and questions of the methodology of oats for resistance to edaphic stress]. Agrarnaya nauka Evro-SeveroVostoka [Agricultural science of the Euro-North-East], no. 4 (47), рр. 9–15.
20. Duktova, N.A., Duktov, V.P., Pavlovskiy, V.V. (2015). Tverdaya pshenitsa (Triticum durum Desf.) – novaya zernovaya kultura v Belarusi: problemyi i perspektivyi [Durum wheat (Triticum durum Desf.) – a new grain crop in Belarus: problems and prospects]. Izvestiya NAN Belarusi [Bulletin of the National Academy of Sciences of Belarus], no. 3, рр. 85–92.
21. Kondakova, I.A., Levin, V.I., Lgova, I.P., Lomova, Y.V., Vologzhanina, E.A., Antoshina, O.A. (2019). Mycotoxins of the grain mass are an important problem of agricultural enterprises. International Journal of Advanced Biotechnology and Research. no. 10(2), рр. 223–230.
22. Orliuk, A.P. (2012). Henetyka pshenytsi z osnovamy selektsii [Genetics of wheat with the basics of selection]. Kherson, Ailant, 436 р.
23. Bazalii, V.V., Domaratskyi, Ye.O., Boichuk, I.V., Teteruk, O.V., Kozlova, O.P., Bazalii, H.H. (2020). Henetychnyi kontrol i rekombinatsiia oznak stiikosti do vyliahannia u hibrydiv pshenytsi ozymoi za riznykh umov vyroshchuvannia [Genetic control and recombination of signs of resistance to lodging in winter wheat hybrids under different growing conditions]. Ahrarni innovatsii [Agricultural innovations], no. 4, рр. 87–93.
24. Lozinskyi, M.V., Ustynova, H.L. (2017). Osoblyvosti uspadkuvannia dovzhyny stebla i poriadkovykh mizhvuzliv pshenytsi ozymoi u F1 ta rozshcheplennia u F2 za hibrydyzatsii riznykh ekotypiv. Novitni tekhnolohii: teoriia i praktyka: materialy mizhnarodnoi naukovo-praktychnoi konferentsii prysviachenoi 95-richchiu Instytutu bioenerhetychnykh kultur i tsukrovykh buriakiv NAAN [Latest technologies: theory and practice: materials of the international scientifcpractical conference dedicated to the 95th anniversary of the Institute of Bioenergy Crops and Sugar Beets NAAN]. Kyiv, рр. 208–209.
25. Egamov, I.U., Siddikov, R.I., Rahimov, T.A., Yusupov, N.H. (2021). Sozdanie vyisokourozhaynyih sortov ozimoy myagkoy pshenitsyi s vyisokim kachestvom zerna, prigodnyih dlya vozdelyivaniya v oroshaemyih usloviyah [Creation of high-yielding varieties of winter soft wheat with high grain quality, suitable for cultivation in irrigated conditions]. Vliyanie nauki i tehnologiy na sotsialnoekonomicheskoe razvitie Rossii [The impact of science and technology on the socio-economic development of Russia]. рр. 5–12.
26. Würschum, T., Liu, W., Busemeyer, L., Tucker, M., Reif, J., Weissmann, E., Hahn, V., Ruckelshausen, A., Maurer, H. (2014). Mapping dynamic QTL for plant height in triticale. BMC Genetics. no. 15 (1), 59 p. Available at: https:// doi.org/10.1186/1471-2156-15-59.
27. Miedaner, T., Hübner, M., Korzun, V., Schmiedchen, B., Bauer, E., Haseneyer, G., Wilde, P., Reif, J.C. (2012). Genetic architecture of complex agronomic traits examined in two testcross populations of rye (Secale cereale L.). BMC Genomics. no. 13 (1), 706 p. Available at: https://doi. org/10.1186/1471-2164-13-706.
28. Zaharova, N.N., Zaharov, N.G., Garanin, M.N. (2020). Vyisota rasteniy ozimoy myagkoy pshenitsyi v svyazi s ee urozhaynostyu i ustoychivostyu k poleganiyu v lesostepi Srednego Povolzhya [Plant height of soft winter wheat due to its yield and resistance to lodging in the forest-steppe of the Middle Volga region]. Vestnik Ulyanovskoy gosudarstvennoy selskohozyaystvennoy akademii [Bulletin of the Ulyanovsk State Agricultural Academy], no. 1 (49), рр. 51–59. Available at: https://doi.org/10.18286/1816-4501-2020-1-51-59.
29. Yakymchuk, R.A. (2018). Kharakter uspadkuvannia dovzhyny stebla karlykovymy mutantamy pshenytsi miakoi ozymoi, otrymanymy v zoni Chornobylskoi AES [The nature of the inheritance of stem length by dwarf mutants of soft winter wheat obtained in the area of the Chernobyl NPP]. Fyzyolohyia rastenyi y henetyka [Plant physiology and genetics]. 50, no. 1, рр. 46–58.
30. McІntosh, R.A., Yamazaki, Y., Dubcovsky, J., Rogers, J., Morris, C., Appels, R., Xia, X.C. (2013). Catalogue of gene symbols for wheat. 52 р.
31. McІntosh, R.A., Dubcovsky, J., Rogers, W.J., Morris, C., Xia, X.C. (2017). Catalogue of gene symbols for wheat. 58 р. Available at: https://shigen.nig.ac.jp/wheat/komugi/ genes/macgene/supp-lement2017.pdf.
32. Dolzhenko, D.O. (2020). Nasledovanie i geneticheskiy kontrol vyisotyi rasteniy u yachmenya [Inheritance and genetic control of plant height in barley]. Niva Povolzhya [ Niva of the Volga region], no. 1 (54), рр. 54- 60. Available at: https://doi.org/10.36461/NP.2020.54.1.009
33. Motsnyi, I.I., Honcharova, A.I., Chebotar, H.O., Chebotar, S.V. (2017). Stupin fenotypovoho dominuvannia ta uspadkovuvanist za oznakoiu vysota roslyny u hibrydiv pshenytsi z riznymy aleliamy Rhtheniv [The degree of phenotypic dominance and heredity on the basis of plant height in wheat hybrids with different alleles of Rhtgens]. Tsytolohyia y henetyka [Cytology and genetics]. 51, no. 1, рр. 25–33.
34. Fylatenko, A.A, Shytova, Y.P. Korneichuk, V.A. (1989). Shyrokyi unyfytsyrovannyi klassyfykator SJEV roda Triticum L. [Wide unifed CMEA classifer of the genus Triticum L.]. Lenynhrad, 44 p.
35. Volkodav, V.V. (2003). Metodyka derzhavnoho vyprobuvannia sortiv roslyn na prydatnist do poshyrennia v Ukraini: Zahalna chastyna [Methods of state testing of plant varieties for suitability for distribution in Ukraine: general part]. Okhorona prav na sorty roslyn: Oftsiinyi biuleten [Protection of plant variety rights: ofcial Bulletin]. Issue 1, part 3, 106 p.
36. Dospekhov, B.A. (1985). Metodyka polevoho opyta [Field experiment technique]. Moscow, Ahropromizdat, 352 p.
37. Grifng, B. (1950). Analysis of quantitative geneaction by constant parent regression and related techniques. Genetics. Vol. 35, pp. 303–321.
38. Beil, G.M., Atkins, R.E. (1965). Inheritance of quantitative characters in grain sorghum. Iowa State Journal. no. 39, 3 p. 39. Matzinger, D.F., Mannand, T.J., Cockerham, C.C. (1962). Diallel cross in Nicotiana tabacum. Crop Science. 2:238 /286.
40. Fonseca, S., Patterson, F.L. (1968). Hybrid vigor in a seven parent diallel cross in common winter wheat (Triticum aestivum L.). Crop Science. Vol. 8, no. 1, pp. 85–88.
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