Purpose. To reveal breeding and genetic peculiarities of modern spring barley varieties for the “number of grains per main ear” trait and identify genetic sources of increased combining ability for involving in hybridization.Methods. Investigations were carried out at the V. M. Remeslo Myronivka Institute of Wheat of NAAS of Ukraine. Modern varieties of domestic (‘Virazh’, ‘Talisman Myronivskyi’, ‘Komandor’) and foreign (‘KWS Aliciana’, ‘KWS Bambina’, ‘Zhana’, ‘Explorer’) breeding were involved in crossing for a full (7´7) diallel scheme. Parents and F1 were studied in field conditions during 2014–2016.Results. The analysis of variance of combining ability has shown a significant advantage in varying of general combining ability (GCA) effects. The mean square of specific combining ability (SCA) was significantly less than the GCA, but reliable throughout the years. The reciprocal effect was reliable only in 2014. Stably high effects of GCA during all years of investigations were noted in the varieties ‘KWS Aliciana’ (1.18–1.62) and ‘Virazh’ (1.33–1.48). The variety ‘KWS Bambina’ was characterized by lower but reliable positive effects of GCA (0.43–0.99) as compared to mentioned above. Non-allelic gene interaction was not found, that allowed to calculate the basic parameters of genetic variation. During all years of investigations, dominant effects of genes (H1 and H2) prevailed over the additive (D) ones in phenotypic expression of grain number per main ear. Mean degree of dominance in the experiment (H1/D) has shown overdominance. The same pattern was also distinctive for the index of mean degree of dominance in the loci . The dominance was reliably directed. Dominant effects of genes increased grain content, and recessive ones reduced it. At least 3–4 genes (groups of genes) have been revealed which determined the effects of dominance. At the same time, recessive genes (F<0) or gene effects were prevailed quantitatively in the varieties investigated. A high coefficient of heritability in broad sense (H2 = 0.98) has shown a significant determination of phenotypic variability with genetic factors. The coefficient of heritability in narrow sense (h2 = 0.66–0.68) confirmed that despite the advantage of dominant effects over the additive ones, the contribution of the latter was also significant.Conclusions. The prevalence of dominant effects of genes in the phenotypic expression of the number of grains per main ear causes the need for sufficient sample size of hybrid material and points to the expediency of conducting a more “rigid” selection for phenotype in later generations. At the same time, the considerable contribution of additive effects and high values of heritability indices give reason to predict the efficiency of selections aimed at increasing the trait in created hybrid material. The varieties ‘Virazh’, ‘KWS Aliciana’, ‘KWS Bambina’ should be used as effective genetic sources to increase grain content in combination breeding.

Purpose. To reveal breeding and genetic peculiarities of modern spring barley varieties for the “number of grains per main ear” trait and identify genetic sources of increased combining ability for involving in hybridization. Methods. Investigations were carried out at the V. M. Remeslo Myronivka Institute of Wheat of NAAS of Ukraine. Modern varieties of domestic (‘Virazh’, ‘Talisman Myronivskyi’, ‘Komandor’) and foreign (‘KWS Aliciana’, ‘KWS Bambina’, ‘Zhana’, ‘Explorer’) breeding were involved in crossing for a full (7´7) diallel scheme. Parents and F1 were studied in field conditions during 2014–2016. Results. The analysis of variance of combining ability has shown a significant advantage in varying of general combining ability (GCA) effects. The mean square of specific combining ability (SCA) was significantly less than the GCA, but reliable throughout the years. The reciprocal effect was reliable only in 2014. Stably high effects of GCA during all years of investigations were noted in the varieties ‘KWS Aliciana’ (1.18–1.62) and ‘Virazh’ (1.33–1.48). The variety ‘KWS Bambina’ was characterized by lower but reliable positive effects of GCA (0.43–0.99) as compared to mentioned above. Non-allelic gene interaction was not found, that allowed to calculate the basic parameters of genetic variation. During all years of investigations, dominant effects of genes (H1 and H2) prevailed over the additive (D) ones in phenotypic expression of grain number per main ear. Mean degree of dominance in the experiment (H1/D) has shown overdominance. The same pattern was also distinctive for the index of mean degree of dominance in the loci . The dominance was reliably directed. Dominant effects of genes increased grain content, and recessive ones reduced it. At least 3–4 genes (groups of genes) have been revealed which determined the effects of dominance. At the same time, recessive genes (F<0) or gene effects were prevailed quantitatively in the varieties investigated. A high coefficient of heritability in broad sense (H2 = 0.98) has shown a significant determination of phenotypic variability with genetic factors. The coefficient of heritability in narrow sense (h2 = 0.66–0.68) confirmed that despite the advantage of dominant effects over the additive ones, the contribution of the latter was also significant. Conclusions. The prevalence of dominant effects of genes in the phenotypic expression of the number of grains per main ear causes the need for sufficient sample size of hybrid material and points to the expediency of conducting a more “rigid” selection for phenotype in later generations. At the same time, the considerable contribution of additive effects and high values of heritability indices give reason to predict the efficiency of selections aimed at increasing the trait in created hybrid material. The varieties ‘Virazh’, ‘KWS Aliciana’, ‘KWS Bambina’ should be used as effective genetic sources to increase grain content in combination breeding.

Purpose. Creation of experimental sugar beet hybrid combinations of high sugar yield values and defining gene­tic determination of their heterotic effect. Methods. Diallel crossing and topcrossing, genetic analysis of quantitative traits. Results. The authors have studied the frequency of occurrence of sugar beet heterotic hybrid combinations for «sugar yield» trait created on the basis of two pollinator lines to be genetically valuable for productivity elements, CMS lines and single-cross sterile hybrids with the use of diallel and topcrossing system of controlled hybridization. The share of parental components’ effect and their interaction in CMS hybrids variability for productivity was determined. Expediency of heterotic forecasting based on high combining ability lines was substabtiated. Promising high-yielding sugar beet combinations were selected that exceeded the group standard by 4.1–16.3%. Conclusions. The theory of genetic balance by M. V. Turbin was confirmed. Such hybrids as [CMS 5OT 4]MGP 1 (116.3%), [CMS 1OT 2]MGP 1 (112.5%) and [CMS 3OT 5]MGP 1 (113.2%) were recognized as the best for their productivity, MGP 1 and MGP 2 lines – as the best for their combining ability.

Purpose. Assessment and selection of self-pollinated S5 maize (Zea mays L.) families with high combining ability and wide adaptive capacity obtained on the basis of specially produced hybrids by crossing elite lines of various genetic plasms with the best main agronomic characters. Methods. Field studies, mathematico-statistical evaluation. Results. An amplitude of grain yield ranging from 5.96–10.96 t/ha (x = 8.44 t/ha) in 2013 to 2.67–7.59 t/ha (x = 5.08 t/ha) in 2014 was determined in the course of study of the testcrosses of self-pollinated S5 families. It was found that different response of genotypes of the studied testcrosses to the year conditions significantly affected the average yield level, which decreased in the stressful 2014 by 3.4 t/ha as compared to 2013. The results of the assessment based on the general and specific combining ability of new parent material of mixed germplasm were shown. A significant variability of the estimates of GCA (general combining ability) effects depending on the year conditions was observed in the course of study. A marked difference in the estimates of GCA effects based on the grain yield was revealed. They were persistently high in 19% of the best self-pollinated families in both years, 14% of the families had persistently low estimates of GCA effects, 67% changed their value depending on the genotype and year conditions. Conclusions. 17 best self-pollinated families with persistently high estimates of GCA, 6 families featuring high tolerance to drought and 4 families with persistently high variances of SCA were selected. The selected families will be used as a parent material in selection programs aimed to create new high performance hybrids.

Evaluation of the genetic component values considered to be the important part of the selection process on creating hybrids of sugar beet and The aim of the study is to determine tetraploid pollinators combining ability Bilotserkovskoy breeding on yield and sugar content and the genetic determination of the productivity elements and their phenotypic manifestations in first generation hybrids of sugar beet. The methods of test crossing on the type top cross of pollen sterile lines of Uuladivsky and Ivanovsky origin and stabilized ployidnistyu tetraploid pollinators of beet sugar Belotserkovskoy selection on yielding of sugar beet tetraploid pollinators of Bilotserkovskoy breeding have been applied. A key role belongs to non additive gene effects in gene structure of characteristics variability yielding has been determined.The part of additive gene action pollinators is predominant in genetic control of top cross hybrids sugar content. The 16 hybrid combinations are differentiated by their parental components combining ability. Pollinators of 1007 (the yield) and 1013 (for the sugar content) have been characterized by their valuable additive gene complexes. Perspective hybrid combinations for their further breeding study are revealed, genetic determination of productivity elements and sugar yield is defined Analysis of gene interactions in sugar beet hybrids confirms the theory of genetic balance MV Turbine

Purpose. To reveal the peculiarities of inheritance of kernel number per spike in crosses of spring barley cultivars of different origin, purpose of use and botanical varieties, as well as to distinguish effective genetic sources for impro­ving the trait.Methods. The study was carried out at the M. Remeslo Myronivka Institute of Wheat of National Academy of Agrarian Sciences of Ukraine in 2019 and 2020. In F1 of spring barley in two diallel crossing schemes the degree of phenotypic dominance, parameters of genetic variation, and combining ability for kernel number per spike were determined. Results. According to the indicator of the degree of phenotypic dominance, all possible types of inheritance of kernel number per spike were identified. In a number of crossing compositions, a change in the type of inheritance depending on the conditions of the year was revealed. Most combinations with overdominance in both years were noted in crossings of the covered awned cultivar ‘Avgur’, as well as the covered awnless cultivar ‘Kozyr’. According to the parameters of genetic variation in crosses of malting varieties (covered awned), correspondence of the additive-dominant model, overdominance and dominance in loci, as well as unidirectional dominance to increasing of the trait caused by dominant effects were revealed. When crossing cultivars of different varieties, a change in gene action in different years was found. In particular, additive-dominant system changed to complementary epistasis, incomplete dominance to overdominance, unidirectional dominance to increa­sing of the trait to multidirectional dominance. The genetic sources of increased general combining ability were identified, as follows: covered awned malting cultivars ‘Quench’ and ‘Avgur’, the naked awned cultivar ‘CDC Rattan’, as well as the covered awnless cultivar ‘Kozyr’. Based on the constants of specific combining ability, the most promising crossing combinations for further breeding efforts were determined.Conclusions. The identified peculiarities of the inheritance of kernel number per spike make it possible to optimally combine parental components of crossings and carry out directional selection to increase the trait when developing spring barley cultivars for different use and different botanical varieties. | Мета. Виявити особливості успадкування кількості зерен у колосі, схрещуючи різні за походженням, напрямами використання і різновидностями сорти ячменю ярого, та виокремити ефективні генетичні джерела для поліпшення цієї ознаки.Методи. Дослідження проводили в Миронівському інституті пшениці імені В. М. Ремесла НААН у 2019 і 2020 рр. В F1 ячменю ярого двох діалельних схем схрещування за кількістю зерен у колосі визначили ступінь фенотипового домінування, параметри генетичної варіації та комбінаційну здатність.Результати. За показником ступеня фенотипового домінування виявлено всі можливі типи успадкування кількості зерен у колосі. У низки комбінацій схрещування встановлено зміну типу успадкування залежно від умов року. Найбільшу кількість комбінацій із наддомінуванням в обох роках відмічено у комбінаціях з плівчастим остистим сортом ‘Авгур’ та безостим сортом ‘Козир’. За параметрами генетичної варіації у схрещуваннях пивоварних сортів (плівчастих остистих) виявлено відповідність адитивно-домінантній моделі, наддомінування і домінування у локусах, а також односпрямованість домінування на збільшення ознаки, зумовлене домінантними ефектами. У схрещуваннях сортів різних ботанічних різновидностей виявлено зміну дії генів у різні роки. А саме: адитивно-домінантної системи – комплементарним епістазом, неповного домінування – наддомінуванням, односпрямованості домінування на збільшення ознаки – різноспрямованістю. Виділено генетичні джерела підвищеної загальної комбінаційної здатності, зокрема плівчасті остисті сорти пивоварного напряму ‘Quench’ і ‘Авгур’, голозерний та безостий сорти ‘CDC Rattan’ і ‘Козир’ відповідно. На основі констант специфічної комбінаційної здатності визначено найбільш перспективні комбінації для подальшої селекційної роботи.Висновки. Виявлені особливості успадкування кількості зерен у колосі дають змогу оптимально комбінувати батьківські компоненти схрещувань і здійснювати цілеспрямований добір на збільшення ознаки у процесі створення ботанічних різновидностей сортів ячменю ярого різних напрямів використання.

Purpose. Assessment and selection of self-pollinated S5 maize (Zea mays L.) families with high combining ability and wide adaptive capacity obtained on the basis of specially produced hybrids by crossing elite lines of various genetic plasms with the best main agronomic characters. Methods. Field studies, mathematico-statistical evaluation. Results. An amplitude of grain yield ranging from 5.96–10.96 t/ha (x = 8.44 t/ha) in 2013 to 2.67–7.59 t/ha (x = 5.08 t/ha) in 2014 was determined in the course of study of the testcrosses of self-pollinated S5 families. It was found that different response of genotypes of the studied testcrosses to the year conditions significantly affected the average yield level, which decreased in the stressful 2014 by 3.4 t/ha as compared to 2013. The results of the assessment based on the general and specific combining ability of new parent material of mixed germplasm were shown. A significant variability of the estimates of GCA (general combining ability) effects depending on the year conditions was observed in the course of study. A marked difference in the estimates of GCA effects based on the grain yield was revealed. They were persistently high in 19% of the best self-pollinated families in both years, 14% of the families had persistently low estimates of GCA effects, 67% changed their value depending on the genotype and year conditions. Conclusions. 17 best self-pollinated families with persistently high estimates of GCA, 6 families featuring high tolerance to drought and 4 families with persistently high variances of SCA were selected. The selected families will be used as a parent material in selection programs aimed to create new high performance hybrids.

Purpose. Creation of experimental sugar beet hybrid combinations of high sugar yield values and defining gene­tic determination of their heterotic effect. Methods. Diallel crossing and topcrossing, genetic analysis of quantitative traits. Results. The authors have studied the frequency of occurrence of sugar beet heterotic hybrid combinations for «sugar yield» trait created on the basis of two pollinator lines to be genetically valuable for productivity elements, CMS lines and single-cross sterile hybrids with the use of diallel and topcrossing system of controlled hybridization. The share of parental components’ effect and their interaction in CMS hybrids variability for productivity was determined. Expediency of heterotic forecasting based on high combining ability lines was substabtiated. Promising high-yielding sugar beet combinations were selected that exceeded the group standard by 4.1–16.3%. Conclusions. The theory of genetic balance by M. V. Turbin was confirmed. Such hybrids as [CMS 5OT 4]MGP 1 (116.3%), [CMS 1OT 2]MGP 1 (112.5%) and [CMS 3OT 5]MGP 1 (113.2%) were recognized as the best for their productivity, MGP 1 and MGP 2 lines – as the best for their combining ability.

Evaluation of the genetic component values considered to be the important part of the selection process on creating hybrids of sugar beet and The aim of the study is to determine tetraploid pollinators combining ability Bilotserkovskoy breeding on yield and sugar content and the genetic determination of the productivity elements and their phenotypic manifestations in first generation hybrids of sugar beet. The methods of test crossing on the type top cross of pollen sterile lines of Uuladivsky and Ivanovsky origin and stabilized ployidnistyu tetraploid pollinators of beet sugar Belotserkovskoy selection on yielding of sugar beet tetraploid pollinators of Bilotserkovskoy breeding have been applied. A key role belongs to non additive gene effects in gene structure of characteristics variability yielding has been determined.The part of additive gene action pollinators is predominant in genetic control of top cross hybrids sugar content. The 16 hybrid combinations are differentiated by their parental components combining ability. Pollinators of 1007 ( the yield ) and 1013 ( for the sugar content) have been characterized by their valuable additive gene complexes. Perspective hybrid combinations for their further breeding study are revealed, genetic determination of productivity elements and sugar yield is defined Analysis of gene interactions in sugar beet hybrids confirms the theory of genetic balance MV Turbine