The main factor, and cost-effective rapid increase in yield of all crops and raising its quality is an innovative process for the creation and introduction of new varieties. Overall condition of use in the production of new varieties is very unsatisfactory. For this year the country loses more than 1.5 mln. tonnes of grains of winter cereals. Currently, the requirements for soft winter wheat, as a factor of sustainable productivity, increase. Despite the obvious advances in breeding wheat varieties as genetic yield potential of more than 10 t/ha, the actual implementation of it is around 50 %. Therefore remains an urgent problem of developing varieties with high potential and implementation of evidence-based their growth. Thus, the genetic yield potential genotype implemented with a balanced exposure of a number of factors. The purpose of research – create a soft winter wheat variety with well-defined ecological and adaptive properties and high quantitative and qualitative indicators of grain yield, varieties show ability to withstand adverse abiotic, biotic and anthropogenic factors of the environment for future breeding. Stated agroecological characteristics of variety soft winter wheat Yuvivata 60 by economically valuable indicators. Performed a detailed description of the new variety wheat based on morphological and biological characteristics. Showing environmental features Yuvivata 60 (in terms of genotypic effect and degree of plasticity) under different conditions ecotops of Ukraine. For agricultural producers proposed of adaptive variety soft winter wheat Yuvivata 60, that will provide guaranteed high quality and grain yield.

The main factor, and cost-effective rapid increase in yield of all crops and raising its quality is an innovative process for the creation and introduction of new varieties. Overall condition of use in the production of new varieties is very unsatisfactory. For this year the country loses more than 1.5 mln. tonnes of grains of winter cereals. Currently, the requirements for soft winter wheat, as a factor of sustainable productivity, increase. Despite the obvious advances in breeding wheat varieties as genetic yield potential of more than 10 t/ha, the actual implementation of it is around 50 %. Therefore remains an urgent problem of developing varieties with high potential and implementation of evidence-based their growth. Thus, the genetic yield potential genotype implemented with a balanced exposure of a number of factors. The purpose of research – create a soft winter wheat variety with well-defined ecological and adaptive properties and high quantitative and qualitative indicators of grain yield, varieties show ability to withstand adverse abiotic, biotic and anthropogenic factors of the environment for future breeding. Stated agroecological characteristics of variety soft winter wheat Yuvivata 60 by economically valuable indicators. Performed a detailed description of the new variety wheat based on morphological and biological characteristics. Showing environmental features Yuvivata 60 (in terms of genotypic effect and degree of plasticity) under different conditions ecotops of Ukraine. For agricultural producers proposed of adaptive variety soft winter wheat Yuvivata 60, that will provide guaranteed high quality and grain yield.

The article presents the results of the laboratory investigation of the influence of high temperatures on water regime of red currant in Institute of Fruit Selection. It shows the dependence of water loss by leaves on the phenophase of plant development. High water loss by leaves occurs during the phase of ripening berries (July). Low water loss is noted during the active growth of shoots (June). Red currant genotypes: «Valentinovka», «Bayna» have a high percent of water loss in June and July. Genotypes «Shedraya», «Gollandskay krasnay», «Orlovchanka», «Dar Orla», «Selyanochka», «Osipovskay», «Belka» and «Jonker van Tets» have a low percent of loss water. The loss of water at the temperature shock is the important protective mechanism from over heat and death of plants. The results of the investigation of a degree of water restoration by red currant leaves in the periods of berry ripening and active growth of shoots are given. The most part of genotypes of red currant leaves have a high percent (>50%) of water restoration. Genotypes «Selyanochka» ,«Orlovchanka», «Dana», «Shedraya», «Belka» have a more 100% of water restoration. On the ground of the obtained results the following genotypes: «Belka», «Selyanochka», «Gollandskay krasnay», «Shedraya», «Orlovchanka», «Dar Orla», «Osipovskay» and «Jonker van Tets» are mostly heat resistant.

The article presents the results of the laboratory investigation of the influence of high temperatures on water regime of red currant in Institute of Fruit Selection. It shows the dependence of water loss by leaves on the phenophase of plant development. High water loss by leaves occurs during the phase of ripening berries (July). Low water loss is noted during the active growth of shoots (June). Red currant genotypes: «Valentinovka», «Bayna» have a high percent of water loss in June and July. Genotypes «Shedraya», «Gollandskay krasnay», «Orlovchanka», «Dar Orla», «Selyanochka», «Osipovskay», «Belka» and «Jonker van Tets» have a low percent of loss water. The loss of water at the temperature shock is the important protective mechanism from over heat and death of plants. The results of the investigation of a degree of water restoration by red currant leaves in the periods of berry ripening and active growth of shoots are given. The most part of genotypes of red currant leaves have a high percent (>50%) of water restoration. Genotypes «Selyanochka» ,«Orlovchanka», «Dana», «Shedraya», «Belka» have a more 100% of water restoration. On the ground of the obtained results the following genotypes: «Belka», «Selyanochka», «Gollandskay krasnay», «Shedraya», «Orlovchanka», «Dar Orla», «Osipovskay» and «Jonker van Tets» are mostly heat resistant.

It is determined that crop cultivation systems (continuous culture and its interruption by crop rotation links with different fertilizer backgrounds) influence the productivity and economic efficiency of tomato and cucumber cultivation under rainfed conditions in Right-Bank of Forest-Steppe zone in Ukraine. Reported calculations show the increased level of profitability of the continuous crop growing in case of interruption by annual crop rotation link against the background of mineral nutrition, but additional organic fertilizers allow to get more profit per unit area.

It is determined that crop cultivation systems (continuous culture and its interruption by crop rotation links with different fertilizer backgrounds) influence the productivity and economic efficiency    of tomato and cucumber cultivation under rainfed   conditions in Right-Bank of Forest-Steppe zone in  Ukraine. Reported calculations show the increased level of profitability of the continuous crop growing in case  of interruption by annual crop rotation link against the background of mineral nutrition, but additional organic fertilizers allow to get more profit per unit area.

Methodological rationale is given (procedure - morphological description) for ‘plant’ as a quantitative characteristic - ‘plant: ratio of upper ear attachment height to plant height’ for maize hybrids (Zea mays L.), as well as parameters of grading for states of expression are set to facilitate the assessment at performing morphological description of maize hybrids

Methodological rationale is given (procedure - morphological description) for ‘plant’ as a quantitative characteristic - ‘plant: ratio of upper ear attachment height to plant height’ for maize hybrids (Zea mays L.), as well as parameters of grading for states of expression are set to facilitate the assessment at performing morphological description of maize hybrids

For the resistance to a soil drought in the early stages of seed germination the key role plays the primary root system: an activity of seed germination, the number of seminal roots and their length, dry weight of roots and coleoptile length and also the degree of cold resistance at the seedling stage. The stages and methods of the creation of six-row medium-grown barley varieties Vakula and Helios and semi-dwarf varieties Ros and Halychanyn are described.

For the resistance to a soil drought in the early stages of seed germination the key role plays the primary root system: an activity of seed germination, the number of seminal roots and their length, dry weight of roots and coleoptile length and also the degree of cold resistance at the seedling stage. The stages and methods of the creation of six-row medium-grown barley varieties Vakula and Helios and semi-dwarf varieties Ros and Halychanyn are described.

The results obtained during observations of the growing season of pea collection varieties in different years in terms of interphase periods are presented. The dependence of the growing season length for varieties of various maturity groups on the duration of certain phases of plant growth (seedling, flowering, ripening), ambient environment (temperature, humidity, daylight hours), processing (seed preparation, line production maintenance) and genetic factors (sequential node of the first inflorescence formation) are shown. According to the study results the varieties-sources of «growing season length» characteristic were specified that have been used as components for breeding in the selection process when creating new domestic varieties.

The results obtained during observations of the growing season of pea collection varieties in different years in terms of interphase periods are presented. The dependence of the growing season length for varieties of various maturity groups on the duration of certain phases of plant growth (seedling, flowering, ripening),  ambient environment (temperature, humidity, daylight hours), processing (seed preparation, line production maintenance) and genetic factors (sequential node of the first inflorescence formation) are shown. According to the study   results the varieties-sources of «growing season length» characteristic were specified that have been used as components for breeding in the selection process when creating new domestic varieties.

100 rape varieties and hybrids of domestic and foreign selection that have been grown in the different soil-climatic zones of the country were evaluated. The paper presents the results of study by their biochemical characteristics: content of protein, oil and its fatty acid composition. High-oil varieties of rape are identifi ed with high content of erucic acid in oil – for the technical purposes and those without or with its low content – for food industry.

Colltction of haricot bean has been analyzed for origin and varieties have been classified for their vegetative period duration, saccharide content and yielding capacity.

Мета. Визначити біохімічні показники якості вирощуваного у різних умовах насіння сортів ріпаку озимого.Методи. У процесі досліджень використовували лабораторний, розрахунковий і статистичний методи, для підготовки висновків – аналізу та синтезу.Результати. За результатами лабораторних досліджень визначили біохімічні показники якості вирощуваного в різних умовах насіння сортів ріпаку озимого типу розвитку, а саме: вміст олії, «сирого протеїну» та глюкозинолатів. Значний вплив на показники якості насіння мають метеорологічні умови впродовж вегетаційного періоду рослин відповідної ґрунтово-кліматичної зони. Встановлено, що у 2022 р. біохімічні показники насіння ріпаку озимого були вищими ніж у 2020 р. Зростання урожайності на 1,6 т/га у зоні Степу, 1,1 т/га – Лісостепу, 1,4 т/га – Полісся забезпечило підвищення вмісту олії на 2,4, 6,6 та 6,7% відповідно. Збори олії з гектара збільшилися на 0,74 т/га у зонах Степу та Полісся, 0,62 т/га – Лісостепу.  У 2022 р., порівнюючи з 2020, спостерігали зниження показника «сирого протеїну»: на 3,1% у зоні Степу, 5,8% – Лісостепу та 5,0% – Полісся. На вміст глюкозинолатів впливали умови років досліджень у відповідних ґрунтово-кліматичних зонах. Степ і Лісостеп мали ідентичні показники – 0,7%, Полісся – 0,8%, тоді як у 2021 р. для зони Степу та Полісся вміст глюкозинолатів у насінні ріпаку був на 0,8 та 0,9% більшим, порівнюючи з показниками, отриманими в інші роки досліджень.Висновки. Встановлено, що в середньому за 2020–2022 рр. загальний вміст олії в насінні ріпаку становив 46,2% (Степ), 47,5% (Лісостеп) і 47,8% (Полісся); вміст «сирого протеїну» – 19,6% (Степ), 18,4% (Лісостеп) і 17,9% (Полісся); вміст глюкозинолатів – 0,7% (Степ та Лісостеп) і 0,8% (Полісся). Збір олії в зоні Степу мав показник 1,31 т/га, Лісостепу – 1,16 т/га, Полісся – 1,33 т/га. Збір білка з гектара становив 0,54 т/га для Степу, 0,44 т/га – Лісостепу та 0,48 т/га – Полісся. Умови вирощування за роки досліджень у відповідній зоні впливають на формування біохімічних показників насіння ріпаку озимого. | Purpose. To determine the biochemical indicators of seed quality of winter rape varieties grown under different conditions.Methods. During the research, the following methods were used: laboratory, calculation and statistical, to prepare conclusions – analysis and synthesis.Results. According to the results of laboratory studies, biochemical indicators of the quality of seeds of winter rape varieties, grown in different conditions, were established, namely: the content of oil, “crude protein” and glucosinolates. Meteorological conditions during the vegetation period of plants of the corresponding soil and climate zone have a significant influence on the quality indicators of seeds. Based on the results of the research, it was established that in 2022, compared to 2020, the biochemical indicators of winter rapeseed were higher. The increase in yield by 1.6 t/ha in the Steppe zone, 1.1 t/ha – Forest-Steppe, 1.4 t/ha – Polissia ensured an increase in oil content by 2.4% – Steppe, 6.6% – Forest-Steppe, 6.7% – Polissia and oil collection per hectare by 0.74 t/ha – Steppe and Polissia, 0.62 t/ha – Forest-Steppe. For the content of “crude protein”, a decrease in the index was observed, namely: by 3.1% in the Steppe zone, 5.8% in the Forest-Steppe and 5.0% in the Polissia in 2022 compared to 2020. Meteorological conditions of the research years in the corresponding soil and climatic zones had an influence on the content of glucosinolates. For the Steppe and Forest-Steppe zones, the indicators were identical and amounted to 0.7%, 0.8% (Polissia), while in 2021, for the Steppe and Polissia zones, the content of glucosinolates in rapeseed was 0.8% and 0.9% more, compared to the indicators obtained in other years of research.Conclusions. It was established that, on average, for 2020–2022, the total oil content in seeds of rape was 46.2% – Steppe, 47.5% – Forest-Steppe, 47.8% – Polissia; “crude protein” content – 19.6% – Steppe, 18.4% – Forest-Steppe, 17.9% – Polissia; the content of glucosinolates was 0.7% in the Steppe and Forest-steppe zones, 0.8% in the Polissia; oil collection in the Steppe zone 1.31 t/ha, Forest-Steppe – 1.16 t/ha, Polissia – 1.33 t/ha; protein collection per hectare is 0.54 t/ha in Steppe, 0.44 t/ha in Forest-Steppe and 0.48% in Polissia. Growing conditions over the years of research in the corresponding zone affect the formation of biochemical indicators of winter rapeseed.

Gaining a greater understanding of the plant microbiota and its interactions with its host plant heralds a new era of scientific discovery in agriculture. Different agricultural management practices influence soil microbial populations by changing a soil’s physical, chemical and biological properties. However, the impact of these practices on the microbiota associated with economically important crops such as oilseed rape, are still understudied. In this work we investigated the impact of two contrasting crop establishment practices, conventional (plow based) and conservation (strip–tillage) systems, on the microbiota inhabiting different plant microhabitats, namely rhizosphere, root and shoot, of winter oilseed rape under Irish agronomic conditions. Illumina 16S rRNA gene sequence profiling showed that the plant associated microhabitats (root and shoot), are dominated by members of the bacterial phyla Proteobacteria, Actinobacteria and Bacteroidetes. The root and shoot associated bacterial communities displayed markedly distinct profiles as a result of tillage practices. We observed a very limited ‘rhizosphere effect’ in the root zone of WOSR, i.e., there was little or no increase in bacterial community richness and abundance in the WOSR rhizosphere compared to the bulk soil. The two tillage systems investigated did not appear to lead to any major long term differences on the bulk soil or rhizosphere bacterial communities. Our data suggests that the WOSR root and shoot microbiota can be impacted by management practices and is an important mechanism that could allow us to understand how plants respond to different management practices and environments.