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Relevance. It was to study the variability of the degree of defeat of promising varieties of table carrots by diseases of various etiologies during storage for several years, to determine the level of their polymorphism based on resistance to various types of pathogens and the effectiveness of selection based on an individual immunological assessment of uterine root crops.Materials and methods. The experimental part of the work was performed in 2017-2020 at the FSBSI "Federal Scientific Vegetable Center" with carrot varietal populations of Margosha and Minor. The identification of the species composition of pathogens, the degree of damage, and the level of resistance of variety specimens were carried out in accordance with appropriate methods and determinants. For the immunological assessment of the resistance of carrot cultivars in vitro, the most virulent isolates of different types of fungi were used from the collection of the Laboratory of Immunity and Plant Protection of the Federal Center for Scientific Research.Results. It was established that in the populations of Margosha and Minor under natural storage conditions, the ratio and degree of spread of economically significant diseases differ significantly in different years. Based on an in vitro immunological assessment, a high polymorphism of the individual resistance of genotypes within both populations to the majority of micromycetes was revealed and the most resistant forms to the most dangerous types of pathogens were identified. Immunological analysis of the resulting offspring confirmed the high efficiency of group selection based on a comprehensive assessment of the stability of individual uterine root crops in vivo and in vitro.
Relevance. It was to study the variability of the degree of defeat of promising varieties of table carrots by diseases of various etiologies during storage for several years, to determine the level of their polymorphism based on resistance to various types of pathogens and the effectiveness of selection based on an individual immunological assessment of uterine root crops.Materials and methods. The experimental part of the work was performed in 2017-2020 at the FSBSI "Federal Scientific Vegetable Center" with carrot varietal populations of Margosha and Minor. The identification of the species composition of pathogens, the degree of damage, and the level of resistance of variety specimens were carried out in accordance with appropriate methods and determinants. For the immunological assessment of the resistance of carrot cultivars in vitro, the most virulent isolates of different types of fungi were used from the collection of the Laboratory of Immunity and Plant Protection of the Federal Center for Scientific Research.Results. It was established that in the populations of Margosha and Minor under natural storage conditions, the ratio and degree of spread of economically significant diseases differ significantly in different years. Based on an in vitro immunological assessment, a high polymorphism of the individual resistance of genotypes within both populations to the majority of micromycetes was revealed and the most resistant forms to the most dangerous types of pathogens were identified. Immunological analysis of the resulting offspring confirmed the high efficiency of group selection based on a comprehensive assessment of the stability of individual uterine root crops in vivo and in vitro.
Relevance. The success of breeding work is largely determined by the source material, the search and creation of which for target breeding begins with the collection and study of collectible samples for the alignment of morphological features; for the precocity and amity of maturation; for the keeping quality and transportability of bulbs; for the quality of vegetable products (high content of biologically active substances and antioxidants); for resistance to biotic and abiotic stressors of a specific growing zone.Materials and methods. On the basis of the North Caucasus branch FSBSI FSVC, 90 samples of spring onions from 26 countries of the world were evaluated in the number nursery for the period from 2017 to 2019, 71 of them were varieties and 19 were F1 hybrids. In a hybrid nursery, 25 hybrid combinations obtained from FSBSI FSVC (VNIISSOK) were evaluated. The laying and placement of experiments, agricultural techniques of cultivation, accounting and evaluation of economically valuable traits, biochemical analyses were carried out according to generally accepted methods. The standards are the new Primo and Ampex varieties of the selection of the FSBSI FSVC and the Italian F1 hybrid Ranko, which were placed every 10 collection samples.Results.According to the results of the assessment, among the studied F1 varieties and hybrids, sources of economically valuable traits such as yield (20-27 t/ha), precocity (80-90 days), preservation (more than 85%) when laid for long-term storage up to 7 months, purple, white and pink color of bulbs, as well as sources of long-shaped bulbs were identified. The greatest interest for breeding for yield is represented by 9 promising varieties and 9 F1 hybrids of onions of various origins, as well as 4 hybrid combinations that were distinguished by high yields, the yield of marketable products and the mass of marketable bulbs. These samples are recommended for use in the breeding process as sources for the creation of new varieties and hybrids with high yields for the agro-climatic conditions of the foothill zone of the North Caucasus.r breeding
This review presents an analysis of the literature, which indicates the popularity of breeding methods in the fight against oomycete and fungal diseases of tomato: late blight (pathogen − Phytophthora infestans (Mont.) de Bary), fusarium wilt (pathogen − Fusarium oxysporum f. sp. lycopersici (Sacc.) Snyder and Hansen), early blight or alternariosis (pathogens − representatives of the genus Alternaria), cladosporiosis (pathogen−Cladosporium fulvum Cook.). Theoretical and practical achievements, the latest developments in genetics, molecular biology, plant physiology, microbiology are considered. Special attention is paid to modern information about the diversity of tomato pathogens, their morphological, genetic, physiological features, including racial composition; the presence of pathogen resistance genes in the gene pool of the culture under study, their mapping and the possibility of introduction into the genome from other sources; about the developed markers of target genes and loci of quantitative traits; the degree of associations between a molecular marker and a target gene; about the features of inheritance of the studied trait, as well as the possibility of pyramiding R-genes and QTL in one genotype. To accelerate and improve the efficiency of tomato breeding for resistance to pathogens, these issues are of great importance. Their study will strengthen the integration of modern biotechnology with the traditional breeding process, which is carried out by classical methods.
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