Efficiency of using of wheat-rye translocations (WRT) 1AL/1RS and 1BL/1RS in soft winter wheat breeding

Authors

DOI:

https://doi.org/10.21498/2518-1017.18.2.2022.265177

Keywords:

soft winter wheat, recombinant lines, baking quality, yield, performance elements, adaptive properties

Abstract

Purpose. To determine the genetic effects of WRT 1AL.1RS and 1BL.1RS on the yield, plant productivity elements and quality indices of recombinant lines, to determine the effectiveness of using each of the WRT for creating more perfect varieties of soft winter wheat in these traits under soil-air drought in the steppe zone of Ukraine and development of breeding techniques to reduce the negative effects of translocation to produce genotypes with high quality indices of valuable and strong wheat grain.

Methods. Field experiments, intraspecific hybridization, evaluation of breeding material in the field, methods of laboratory determination of baking quality indices of grain, electrophoresis of spare proteins, statistical.

Results. Under arid conditions of the South of Ukraine on the large experimental material of breeding process, a positive effect of 1AL.1RS on the yield of recombinant lines and the main elements of plant productivity were determined, which was manifested against the background of simultaneous positive effect of this transposition on the drought and heat tolerance. The use of 1BL.1RS in wheat breeding in this region is less promising technique. It has been determined that introduction of 1AL.1RS, 1BL.1RS translocations into local gene pool of soft winter wheat by hybridization changes the grain quality indices. In particular, the protein content tends to increase more significantly under the influence of 1BL.1RS translocation. It has been shown that the frequency of obtaining recombinant lines which combine high yield and sufficient level of baking properties (not lower than valuable and strong wheat) is quite low (1,7–6,1%), but introgressive lines with 1AL.1RS have the advantages in this parameter. Using such genetic factors as hybridization combining WRT with alleles with high positive effect on baking properties, and also creating heterogeneity in the composition of genotypes with and without WRT, one can purposefully reduce the negative impact of WRT on the quality of soft winter wheat grain and create varieties with quality parameters of valuable and strong wheat.

Conclusions. In general, the results achieved give reason to assert that the use of WRT 1AL.1RS is a promising direction for further breeding increase of genetic capacity of soft winter wheat varieties in the arid conditions of the South of Ukraine. As a result of full cycle of breeding process on the material with 1AL.1RS WRT a series of varieties of soft winter wheat ‘Zhytnytsia odeska’, ‘Oktava odeska’, ‘Liha odeska’, ‘Duma odeska’, ‘Versiia odeska’, providing 10 – 15% increase in yield to standards was created and included in the State Register of Ukraine and Moldova.

Downloads

Download data is not yet available.

References

Koliuchyi, V. T., Vlasenko, V. A., & Borsuk, H. Yu. (2007). Bree­ding, seed production and growing technologies of grainearcropsinthe forest-steppe of Ukraine. In V. S. Kochmarskyi, & V. T. Koliuchyi (Eds.), Pshenytsia miaka ozyma. Narodnohos­podarske znachennia ta stan kultury v Ukraini [Softwinterwheat. National economic importance and state of culturein Ukraine] (pp. 5–6). Kyiv: Ahrarnanauka. [In Ukrainian]

Ulich, L. I. (2006). Improvement of the research of winter wheat varieties. Plant Varieties Studying and Protection, 3, 83–90. doi: 10.21498/2518-1017.3.2006.67682 [In Ukrainian]

Rybalka, O. I. (2011). Yakist pshenytsi ta ii polipshennia [Wheat quality and its improvement]. Kyiv: Lohos. [In Ukrainian]

Koliuchyi, V. T. (2011). Selection of winter wheat for grain qua­lity in the Forest-Steppe of Ukraine. Plant Breeding and Seed Production, 100, 160–131. doi: 10.30835/2413-7510.2011.66545 [In Ukrainian]

Bazalii, V. V., Boichuk, I. V., & Larchenko, O. V. (2012). Ecological and genetic basis of adaptive selection of grain crops (review of literary sources). Tavria Scientific Bulletin, 79, 3–13. [In Ukrainian]

Vasylkivskyi, S. P., & Kochmarskyi, V. S. (2016). Selektsiia i na­sinnytstvo polovykh kultur [Selection and seed production of field crops]. Bila Tserkva: Myronivska drukarnia. [In Ukrainian]

Ulich, L. I., & Lysikova, V. M. (2006). Varieties of winter wheat for intensive technologies. Plant Varieties Studying and Protection, 3, 103–108. doi: 10.21498/2518-1017.3.2006.67724. [In Ukrainian]

Lytvynenko, M. A. (2016). 100 years of development of soft winter wheat breeding programs. Plant Varieties Studying and Protection, 2, 75–82. doi: 10.21498/2518-1017.2(31).2016.70324 [In Ukrainian]

Motsnyi, I. I., Molodchenkova, O. O., Lytvynenko, M. A., & Ho­lub, Ye. A. (2019). Use of introgression winter bread wheat lines to increase the protein content in grain. Plant Breeding and Seed Production, 115, 75–92. doi: 10.30835/2413-7510.2019.172784 [In Ukrainian]

Моtsnyi, І. І., Nargan, T. P., Nakonechnyi, M. Y., & Lyfenko, S. P. (2020). Results of the use of introgressive genotypes in the creation of donors of resistance to powdery mildew, types of rust and other traits in common wheat. Plant Bree­ding and Seed Production, 117, 119–138. doi: 10.30835/2413-7510.2020.207004 [In Ukrainian]

Kozub, N. O., Sozinov, I. O., Karelov, A. V., Bidnyk, H. Ya., Demianova, N. O., Blium, Ya. B., & Sozinov, O. O. (2015). Occurrence of wheat-rye 1BL/1RS and 1АL/1RS translocations in winter common wheat varieties of Ukrainian breeding. Plant Protection and Quarantine, 61, 148–153. [In Ukrainian]

Morhun, B. V. (2016). State and perspectives of wheat-rye translocations use in winter wheat breeding. Plant Physiology and Genetics, 48(4), 324–343. doi: 10.15407/frg2016.04.324 [In Ukrainian]

Lisova, H. M., & Sobko, T. O. (2017). Peculiarities of resis­tance of carriers translocation 1AL/1RS to leaf rust of wheat in conditions of Forest-steppe zone of Right-bank of Ukraine. Factors in Experimental Evolution of Organisms, 21, 160–163. doi: 10.7124/FEEO.v21.827 [In Ukrainian]

Vlasenko, V. A., Koliuchyi, V. T., Kozub, N. O., & Sobko, T. O. (2006). Breeding value of wheat-rye translocation 1AL/1RS in the creation of varieties of winter soft wheat. Scientific and Technical Bulletin of the V. M. Remeslo Myronivka Institute of Wheat of UAAS, 5, 84–94. [In Ukrainian]

Sozinov, I. O., Kozub, N. O., Bidnyk, H. Ya., Demianova, N. O., Blium, Ya. B., & Sozinov, O. O. (2016). Seed set and other productivity traits in common wheat F1 plants with the 1BL/1RS and 1AL/1RS translocations. Factors in Experimental Evolution of Organisms, 18, 154–158. [In Ukrainian]

Kozub, N. A., Sozinov, I. A., Bidnyk, A. Ya., Demianova, N. A., Blume, Ya. B., & Sozinov, A. A. (2016). Development of common wheat lines with the recombinant arm 1RS as a source of new combinations of disease and pest resistance genes. Plant Protection and Quarantine, 62, 143–150. doi: 10.36495/1606-9773.2016.62.143-150 [In Ukrainian]

Topal, M. M. (2014). Adaptive properties and productivity of varieties and lines with wheat-rye translocations in the conditions of Southern Ukraine. Collected Scientific Articles of PBGI – NCSCI, 23, 88–99. [In Ukrainian]

Kozub, N. O., Sozinov, I. O., Koluchiy, V. T., Vlasenko, V. A., Sobko, T. O., & Sozinov, O. O. (2005). Identificationof 1AL/1RS translocation in winter common wheat varieties of Ukrainian breeding. Cytology and Genetics, 39(4), 20–24. [In Ukrainian]

Volkodav, V. V. (Ed.). (2001). Metodyka derzhavnoho sortovyp­robuvannia silskohospodarskykh kultur. Vyp. 2. Zernovi, krupiani ta zernobobovi kultury [The method of state variety testing of agricultural crops. Vol. 2. Grain, cereals and leguminous plants]. Kyiv: Alefa. [In Ukrainian]

Rybalka, O. I., Chervonis, M. V., Toporash, I. H., Surzhenko, I. O., Bodelan, O. P., & Shcherbyna, Z. V. (2006). Scientific rationale for the development of new methods for assessing the baking quality of wheat flour. Grain Storage and Processing, 1, 43–48. [In Ukrainian]

Sudarchuk, L. V., Chebotar, S. V., & Rybalka, O. I. (2010). Detection centric translocation 1rS.1BL by using molecular markers in breeding material of soft wheat. Odessa National University Herald. Biology, 15(6), 39–48. [In Ukrainian]

Wheat. Specifications: State standard of Ukraine (DSTU) 3768:2010. (2010). Kyiv: Derzhspozhyvstandart of Ukraine. [In Ukrainian]

Dospekhov, B. A. (1985). Metodika polevogo opyta (s osnovami statisticheskoy obrabotki rezul’tatov issledovaniy) [Methods of field experiment (with the basics of statistical processing of research results)] (5th ed., rev. and enl.). Moscow: Agropromizdat. [In Russian]

Rokitskiy, P. F. (1973). Biologicheskaya statistika [Biological statistics]. 3rd ed., rev. Minsk: Vysheyshaya shkola. [In Russian]

Rybalka, O. I., & Lytvynenko, M. A. (2007). Use of 1RS/1BL translocations in wheat breeding. Bulletin of Agricultural Science, 12, 36–40. [In Ukrainian]

Lytvynenko, M. A., & Topal, M. M. (2014). Genetic factors of positive influence on grain quality in soft winter wheat lines with rye translocation 1AL/1RS. Bulletin of Agricultural Science, 5, 36–42. [In Ukrainian]

Vasylkivskyi, S. P., Gudzenko, V. M., Kochmarskyi, V. S., & Kyrylenko, V. V. (1970). Realization of cereals varieties potential as a way of solving the food problem. Factors in Experimental Evolution of Organisms, 21, 47–51. doi: 10.7124/FEEO.v21.805 [In Ukrainian]

Lytvynenko, M. A., & Holub, Ye. A. (2017). Effectiveness of the SDS-30 sedimentation method in the selection of soft winter wheat (Triticum aestivum L.) for baking properties. Collected Scientific Articles of PBGI – NCSCI, 29, 6–18. [In Ukrainian]

Lytvynenko, M. A., &Holub, Ye. A. (2011). Criteria for identification of extra strong genotypes. Collected Scientific Articles of PBGI – NCSCI, 17, 82–95. [In Ukrainian]

Kataloh sortiv ta hibrydiv Selektsiino-henetychnoho instytutu – Natsionalnoho tsentru nasinnieznavstva ta sortovyvchennia [Catalog of varieties and hybrids of the Plant Breeding and Genetics Institute – National Center of Seed and Cultivars Investigation]. (2021). Odesa: N. p. [In Ukrainian]

Downloads

Published

2022-08-01

How to Cite

Lytvynenko, M. A., Holub, E. A., & Khomenko, T. M. (2022). Efficiency of using of wheat-rye translocations (WRT) 1AL/1RS and 1BL/1RS in soft winter wheat breeding. Plant Varieties Studying and Protection, 18(2), 98–109. https://doi.org/10.21498/2518-1017.18.2.2022.265177

Issue

Vol. 18 No. 2 (2022)

Section

BREEDING AND SEED PRODUCTION

License

Creative Commons License

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Our journal abides by the CREATIVE COMMONS copyright rights and permissions for open access journals.

Authors, who are published in this journal, agree to the following conditions:

1. The authors reserve the right to authorship of the work and pass the first publication right of this work to the journal under the terms of a Creative Commons Attribution License, which allows others to freely distribute the published research with the obligatory reference to the authors of the original work and the first publication of the work in this journal.

 2. The authors have the right to conclude separate supplement agreements that relate to non-exclusive work distribution in the form in which it has been published by the journal (for example, to upload the work to the online storage of the journal or publish it as part of a monograph), provided that the reference to the first publication of the work in this journal is included.