Purpose of this study was to develop the main components of a model of an adaptive information system for predicting crop productivity. Methods. To conduct research on the establishment of the basic structural elements of an adaptive information model for predicting the productivity of basic crops used the method of constructing dynamic models. Results. A detailed analysis of conceptual approaches to the construction of mathematical agricultural models is carried out and the main advantages and disadvantages of modern analogues are established. It is determined that the adaptive information model is based solely on the needs of the plant and actually on the need to provide these needs with available resources in order to obtain consistently high yields with high quality indicators. The hardware and software complex must have a feedback relationship between its basic structural elements, because it significantly improves the accuracy of predicting plant productivity. Data based on the operation of certain mechanisms or indicators of weather conditions and their forecasts are used for decision making, however, if they are substantially changed, decisions about individual technology elements are reviewed. The software should be related to the economic part and should take into account market conditions and forecast data when making recommendations. In the case of low purchase prices for products, we recommend that certain agrotechnical operations (say vegetation feeding) be applied or not, in the case of significant change in growing conditions - when the application of these agro-measures will be ineffective due to the negative effects of drought, etc. Conclusions. Adaptive information system for forecasting productivity in the technological process of growing crops is formed on the basis of a model consisting of three modules of characteristics – the resultant and two components. At each subsequent stage of implementation of the model, the resulting feature becomes component, with the maximum contribution to the resulting feature of the next module.

Purpose. To determine the drought resistance of five millet varieties (ʻOmriyaneʼ, ʻKharkivske 57ʼ, ʻKonstantinovskeʼ, ʻIR 5ʼ, ʻSlobozhanskeʼ) using PEG 6000 as osmotic stress. Methods. To obtain the effect of drought, five concentrations of PEG 6000 solutions were used: 0.0% (control), 11.5%, 15.3%, 19.6%, 23.5% and 28.9%, which corresponds to 0.0, 115, 153, 196, 235 and 289 g of solute in 1000 ml of distilled water or 0.0, -1.9, - 3.1, - 4.8, - 6.6 and - 9.7 bar. Results. Osmotic stress strongly suppressed the germination of millet seeds at -3.1 bars (46.8%) and at -4.8 bars (28.66%) on the third day, but on the sixth day the number of germinated seeds increased to 92.8% and 84.0% respectively. The millet genotypes of differed significantly in the percentage of germination at various concentrations of the PEG 6000 osmotic solution. The minimum germination capacity was observed in variety Omriyane at -3.1, - 4.8, - 6.6 bars. ʻIR 5ʼ, ʻKonstantinovskeʼ and ʻKharkivske 57ʼ showed higher germination potential at the different concentrations of water stress. A decrease in root elongation in all genotypes compared to control was observed in -1.9 bars osmotic stress and then at -3.1 and -4.8 bars of osmotic stress the root length had the same value from 6.6 mm to 13.5 mm on the 3d day and from 25.3 mm to 34.7 mm on the 6th day. Variety ʻSlobozhanskeʼ showed higher mean root length at -3.1 and -4.8 bars of water stress induced by PEG on the 3d day (8,7 mm-12,5 mm) and on the 6th day (35.7 mm-32.3 mm). It is not observed shoot of millet at -9.7 bars on the 3d and on the 6th days. ʻKharkivske 57ʼ, ʻIR 5ʼ, ʻSlobozhanskeʼ showed higher individual shoot length of 23.1 mm, 25.5 mm, 25.6 mm, respectively at -4.8 bars of PEG 6000 on the 6th day. At -6.6 bars of osmotic stress ʻKonstantinоvskeʼ and ʻSlobozhanskeʼ had lowest root length/shoot length ratio 2.58 and 2.61, respectively. Variety ʻOmriyaneʼ (3.54) and ʻIR 5ʼ (3.31) had the maximum deviation from unity (3.54 and 3.31, respectively). Conclusions. Genotypes' ʻKonstantinоvskeʼ and ʻSlobozhanskeʼ, which showed a high level of drought resistance, were selected as a result of this study in breeding for drought resistance. Variety ʻIR 5ʼ, ʻKonstantinovskeʼ and ʻKharkivske 57ʼ were characterized highest seed germination percentage at the different water stress.

Purpose. To determine the efficiency of growing soybean varieties ‘Ustia’, ‘Cordoba’, ‘Estafeta’ depending on the influence of microfertilizers and growth regulators. Methods. Field, laboratory. Results. The article presents the results of studying the efficiency of growing different varieties of soybeans. It was found that in the cultivar ‘Ustia’ the best values of assimilation of photosynthetically active radiation were obtained for the applications of Yara Vita Mono Molitrak in the budding phase (0.25 l/ha) with growth regulator Radostym, and Yara Vita Mono Molitrak in the budding phase (0.25 l/ha) + in the flowering phase (0.25 l/ha) with two studied growth regulators. Similar patterns of the utilization rate of photosynthetic radiation were obtained for the ‘Cordoba’ and ‘Estafeta’ varieties. According to the indicators of the energy balance, the complex use of micronutrient fertilizers and growth regulators in any case pays off with an increase in the yield, which means it is energetically expedient. The maximum coefficients of energy efficiency in the ‘Ustia’, ‘Cordoba’ and ‘Estafeta’ varieties were obtained with the introduction of micronutrient fertilizers Yara Vita Mono Molitrak in the budding phase (0.25 l/ha) + in the flowering phase (0.25 l/ha) and growth regulators Biosyl and Radostym. However, the use of growth regulators separately does not always provide an economic return on investment. In particular, in the variant without Yara Vita Mono Molitrak microfertilizer, the ‘Cordoba’ variety received 28 873 UAH/ha of net profit, while the introduction of growth regulators did not pay off, since there was no significant increase in the yield, and with the use of growth regulators Biosyl and Radostym net profit was within 28824–29179 UAH/ha. In general, the use of micronutrient fertilizer Yara Vita Mono Molitrak with growth regulators Radostim and Biosyl ensu­red guaranteed yield increase. Conclusions. When gro­wing ‘Ustia’, ‘Cordoba’ and ‘Estafeta’ varieties from an energy point of view, it is better to use Yara Vita Mono Molitrak microfertilizer in the budding phase (0.25 l/ha) with the growth regulator Radostym. Under these conditions, the obtained energy efficiency ratio was 3.24; 3.41 and 3.45, and the profit was 31503, 34072 and 34649 UAH/ha, respectively

Purpose. To reveal the peculiarities of leaf area formation and a structure of lentils variety ‘Antonina’ yield depending on the elements of cultivation technology: ino culation with nitrogen-fixing and phosphate-solubilizing microorganisms and the use of foliar growth stimulants. Methods. Field, laboratory. The experimental scheme included inoculation of seeds with nitrogen-fixing microorganisms (Ryzogumin), application of phosphate-solubili zing microorganisms (Polimixobacteryn and Biophosphoryn) into the row zone, and foliar feeding with a growth stimulator (Alga 600). Results. The results of studies of the leaf area formation peculiarities and the structure of lentils yield depending on the influence of cultivation technology elements are given in the article. It was found that the maximum indicators of the leaf area were formed by lentils in the flowering phase, which on average in the experiment was at the level of 37.5 thousand m2/ha, and in the control variant – only 32.0 thousand m2/ha. By inoculating the seeds with Rhyzogumin, applying phosphate-solubilizing biopreparation and foliar feeding, we obtained the maximum parameters of the leaf surface of lentil plants in the experiment. Thus, in the variant of inoculation with Rhyzogumin, application of Biophosphoryn and treatment with Alga 600 lentil plants formed a leaf area of 40.3 thousand m2/ha. However, due to the use of the phosphate-solubilizing biopreparation Polimixobacteryn and Alga 600 on the background of seeds inoculation with Rhyzogumin, the leaf area was formed at the level of 39.9 thousand m2/ha. Conclusions. When the seeds were treated with nitrogen-fixing microorganisms (Rhyzogumin) and phosphate-solubilizing bacteria (Polimixobacteryn and Biophosphoryn), the yield of lentils increased significantly. Thus, in the experimental plots in the variants with Ryzogumin + Polimixobacteryn the yield was – 1.64 t/ha, and in the combination Ryzogumin + Polimixobacteryn + growth stimulator Alga 600 the yield of lentils was – 1.90 t/ha. Seed inoculation had a positive effect on plant height. The best results were obtained when the seeds were treated with Ryzogumin in combination with Biophosphorin and Polimixobacteryn – 44.5 and 44.1 cm, respectively.

Purpose. Develop a simplified method for estimating the color of flour and pasta using Adobe Photo Shop® software. Methods. The research material was grain of varieties and selection lines of wheat species Triticum durum, T. dicoccum, T. timopheevii bred in the Рlant Production Institute nd. a. V. Ya. Yuryev and samples of the National Center for Genetic Resources of Plants of Ukraine, 2018–2020 harvest. Batch of flour and pieces of dough were scanned using EPSON Scanner 010 F. Color was evaluated using Adobe PhotoShop®. The level of carotenoids was determined by spectrophotometric method. Results. Visual assessments of flour and pasta color, presented by different researchers, differ significantly (up to 2–3 points on a 9-point scale). At the same time, the use of the developed method of express color evaluation of flour and pasta samples in Adobe PhotoShop® with the color evaluation system L*a*b*, used in modern reflectometers, allows to obtain data in numerical value and provides high accuracy. In the case of the developed me­thod, correlations were established between the content of carotenoids and the index b* of flour (r = 0.41 / ≤ 0.05) and pasta (r = 0.60 / p ≤ 0.001) and allowed to select the best in flour color selection lines 10-56, 10-65, 14-153, sample T. durum var. falcatomelanopus, in pasta color – lines 10-56, 10-65, 11-29, 12-3. Conclusions. The developed method provides high accuracy and can be used to evaluate the color of pasta and wheat flour, simplifies the evaluation of test samples, standardizes the parameters of agricultural products and avoids subjective judgment. The established weak correlation between the carotenoid content and the b* value of flour indicates the effect on the color of flour not only orange but also yellow and red pigments, and the ave­rage correlation between the carotenoid content and the b* value of pasta indicates the influence of the products of polyphenols oxidation reactions of wheat grain. The best in color flour and pasta lines were selected for breeding work to increase the content of carotenoid pigments in grain.

Purpose. The adaptation of regenerant plants to environmental conditions is the final stage of micropropagation. According to a number of authors, when in vitro plants are transferred to in vivo non-sterile conditions, a significant percentage of mortality is recorded. In a previous publication, the regenerative capacity of strawberry (Fragaria vesca L.) in vitro tissues on MS culture medium (Murashige & Skoog, 1962) and a regenerants was obtained (Chornobrov O. Yu., 2019).The objective of the study is to develop an optimal protocol of acclimation of in vitro F. vesca plants to in vivo conditions.Methods. Biotechnological and statistical methods of research were applied. For the research ‘Ruiana’ and ‘Zhovte Dyvo’ cultivars were used with in vitro cultivation cycle of 30–35 days. Prepared plants were planted in 0.33 L plastic contai ners, one piece in a mixture of coconut substrate and perlite (3:1). Plants were kept under high relative humidity (85–90%) conditions for 3–5 days, 6–8 days and 10–14 days. The studies were carried out in the Plant Biotechnology Laboratory of SS of NULES of Ukraine “BFRS” during 2019–2020. Results. The duration of Fragaria vesca regenerant plants exposure in conditions of high relative humidity significantly affected adaptation efficiency. The proportion of ‘Ruiana’ and ‘Zhovte Dyvo’ plants adapted to the greenhouse conditions were 47.6 ± 2.5% and 60.0 ± 1.7%, respectively, when the plants were kept for 10–14 days. A significant efficiency of plant adaptation (more than 70%) was obtained under condition of preliminarily exposure the roots of the plants in an auxin solution for 25–30 minutes with daily application of 30% solution of glycerine as foliar spray. The plants adapted to the greenhouse conditions had pigmentation characteristic of the variety, without signs of chlorosis and vitrification.Conclusions. An optimal protocol for in vitro adaptation of F. vesca cultivars to in vivo conditions was developed and viable plants were obtained. Further research will be aimed at studying the growth and development of F. vesca regenerant plants in open ground. | Мета. Адаптація рослин-регенерантів до умов довкілля – заключний етап мікроклонального розмноження.За даними низки авторів, при перенесені рослин in vitro в нестерильні умови закритого ґрунту фіксують знач­ний відсоток відпаду. У попередній публікації досліджено регенераційну здатність тканин рослин суниці (Fragaria vesca L.) in vitro на живильному середовищі MS та одержано регенеранти (Чорнобров О. Ю., 2019). Мета дослід­ження – розроблення оптимального протоколу адапта­ції рослин-регенерантів сортів F. vesca до умов in vivo.Методи. Для досліджень використовували рослини суниці сортів ‘Руяна’ і ‘Жовте диво’ із циклом культивування in vitro 30–35 діб. Рослини висаджували в пластикові контейнери (об’єм – 0,33 л) по 1 шт. у суміш кокосового субстрату та перліту (3:1). Рослини витримували в умовах високої відносної вологості повітря (85–90%) упродовж 3–5 діб, 6–8 діб і 10–14 діб. Дослідження проводили в науково-дослідній лабораторії біотехнології рослин ВП НУБіП України «Боярська ЛДС» упродовж 2019–2020 рр.Результати. Тривалість витримування рослин-регенерантів F. vesca в умовах високої ВВП достовірно впливала на ефективність адаптації. За витримування упродовж 10–14 діб частка адаптованих до умов закритого ґрунту рослин становила для сорту ‘Руяна’ 47,6 ± 2,5% і 60,0 ± 1,7% для сорту ‘Жовте диво’. Значну приживлюваність рослин (понад 70%) одержано за умов попереднього витримування кореневої системи в розчині ауксинів упродовж 25–30 хв із щоденним обприскуванням листків 30%-м гліцерином. Адаптовані до умов закритого ґрунту регенеранти мали характерну для сорту пігментацію, без ознак хлорозу та вітрифікації.Висновки. Розроблено оптимальний протокол адаптації сортів F. vesca in vitro до умов in vivo та одержано життєздатні рослини. Подальші дослідження будуть спрямовані на вивчення росту й розвитку рослин-регенерантів F. vesca в умовах відкритого ґрунту

Purpose. The adaptation of regenerant plants to environmental conditions is the final stage of micropropagation. According to a number of authors, when in vitro plants are transferred to in vivo non-sterile conditions, a significant percentage of mortality is recorded. In a previous publication, the regenerative capacity of strawberry (Fragaria vesca L.) in vitro tissues on MS culture medium (Murashige & Skoog, 1962) and a regenerants was obtained (Chornobrov O. Yu., 2019). The objective of the study is to develop an optimal protocol of acclimation of in vitro F. vesca plants to in vivo conditions. Methods. Biotechnological and statistical methods of research were applied. For the research ‘Ruiana’ and ‘Zhovte Dyvo’ cultivars were used with in vitro cultivation cycle of 30–35 days. Prepared plants were planted in 0.33 L plastic contai ners, one piece in a mixture of coconut substrate and perlite (3:1). Plants were kept under high relative humidity (85–90%) conditions for 3–5 days, 6–8 days and 10–14 days. The studies were carried out in the Plant Biotechnology Laboratory of SS of NULES of Ukraine “BFRS” during 2019–2020. Results. The duration of Fragaria vesca regenerant plants exposure in conditions of high relative humidity significantly affected adaptation efficiency. The proportion of ‘Ruiana’ and ‘Zhovte Dyvo’ plants adapted to the greenhouse conditions were 47.6 ± 2.5% and 60.0 ± 1.7%, respectively, when the plants were kept for 10–14 days. A significant efficiency of plant adaptation (more than 70%) was obtained under condition of preliminarily exposure the roots of the plants in an auxin solution for 25–30 minutes with daily application of 30% solution of glycerine as foliar spray. The plants adapted to the greenhouse conditions had pigmentation characteristic of the variety, without signs of chlorosis and vitrification. Conclusions. An optimal protocol for in vitro adaptation of F. vesca cultivars to in vivo conditions was developed and viable plants were obtained. Further research will be aimed at studying the growth and development of F. vesca regenerant plants in open ground.

Purpose. To reveal features of formation of productivity of modern sugar beet hybrids of domestic selection. Methods. Field, laboratory. Results. Studies show that the lowest yields of sugar beets were obtained in 2016, 2017 and 2019. Moreover, the conditions of the unstable humidification zone of the Right-Bank part of the Forest-Steppe of Ukraine were mainly characterized by unstable precipitation, a decrease in their amount, as well as increased average daily air temperatures. Therefore, the selection of high-yielding hybrids of sugar beets to obtain a high level of productivity is relevant. As evidenced by the data comparing the yield of sugar beet root crops on the test site, they significantly exceeded the average indicators for Kiev region by 10.7–20.0 t/ha, and only in arid 2016 the difference was minimal – 4.6 t/ha. The high stability of the trait “sugar content in root crops” is inherent not only in hybrids with low parameters of its manifestation, but is largely determined by the genetic characteristics of the hybrid. Three clusters were identified based on the reaction of hybrids to growing conditions. The first cluster included triploid hybrids: ‘Zluka’, ‘Oleksandriia, ‘Olzhych’, ‘Kvarta’ and ‘Konstanta’, the second one – the triploid hybrid ‘BTs ChS 57’ and diploid ‘Vesto’, the third cluster - the triploid hybrid ‘Sofiia’ and diploid ‘Ukrainskyi ChS 72’. Conclusions. Proper selection of high-yielding hybrids resistant to adverse growing conditions in the zone of unstable moisture of the Forest-Steppe of Ukraine is extremely important, because the biological characteristics of hybrids affect 45% of the amount of sugar harvest, but the growing season by 33% and the interaction of factors was 17%. It was found that despite the difficult weather conditions, the highest yields were formed by hybrids: ‘Anichka’ – 70.1 t/ha, ‘Ramzes’ – 70.5 t/ha, ‘Romul’ – 73.0 t/ha and ‘BTs ChS 57’ – 73.4 t/ha. But the maximum sugar content in root crops was in hybrids: ‘Ukrainskyi ChS 72’ – 17.3%, ‘Zluka’ – 17.3% and ‘Sofiia’ – 17.7%. Accordingly, the maximum sugar harvest was provided by hybrids: ‘BTs ChS 57’ – 12.1 t/ha and ‘Romul’ – 12.2 t/ha.

Purpose. Determine the effect of plant densities and the use of Organic-balance biological preparation on growth, development of photosynthetic potential and seed yield of maize lines, parental components of perspective hybrids (‘Arabat’, ‘Skadovskyi’, ‘Kakhovskyi’, ‘Azov’, ‘Chonhar’, ‘Hileia’ etc.) under conditions of drip irrigation. Methods. Field, morphometric, statistical. Results. In the flowering phase, the maximum differences in the area of the assimilation surface were observed between the maize lines and between variants using different plant densities and Organic-balance biological preparation. The largest indicator of the area of the assimilation surface was at the mid-late line DK445 for a standing density of 70 thousand plants/ha and the use of organic preparation Organic balance – 0.489 m2/plant. Organic-balance biological preparation had a positive effect on the dynamics of the area of the assimilation surface of the lines, had provide an increase of 0.04 m2/plant or 9.5% over individual phases of development compared to untreated control. The maximum value of the net productivity of photosynthesis – 6.78 g/m2 per day, was obtained from the FAO 420 line at a density of 70 thousand plant/ha, in the FAO 350 line was less by 4.3% with a maximum at a density of 80 thousand. plants/ha. For the FAO 290 line, the optimal plant density was 90,000 plants/ha. It was found that the genotype of the line with a share of influence of 81.2 and 85.2%, respectively, is predominantly influenced by the plant leaf area and the net productivity of photosynthesis. The influence of the organic preparation Organic-balance on these indicators was less and amounted to 13.3 and 12.3% respectively. The least influence on photosynthetic parameters was carried out by the density of phytocoenoses (the proportion of influence of 5.5 and 2.5%). Genotype with 82.2% share had the greatest influence on the seed yield of the lineage-parental components of maize hybrids. Part of the impact of the organic preparation Organic balance was 4.0%, plant density – 5.3%. The maximum seed yield of the FAO 290 line was obtained at a density of 90 thousand. growth./ha and organic drug treatment Organic-balance and amounted to 5.15 t/ha. The FAO 350 line showed the highest yield at a stand density of 80,000. growth/ha and treatment with organic drug Organic-balance – 5.46 t/ha. FAO 420, the highest seed yield, formed at a stand density of 80,000 plants/ha – 6.58 t/ha and treatment with organic drug Organic balance – 7.08 t/ha. Organic Balance treatment increased the seed yield by an average of 8.1%. Conclusions. Photosynthetic indicators of maize lines mainly depend on the genotype. Phytocenosis density and treatment with biopreparation have a much smaller effect. Under irrigation, the maximum seed yield was formed by the FAO 420 parent line of 7.08 t/ha. The results obtained indicate that in order to plan the production of seed material of maize lines, which are the parent components of hybrids, their genotypic features, the response to the density of phytocenoses and biological preparation with growth-stimulating action must be taken into account.

Purpose. Determine the effect of plant densities and the use of Organic-balance biological preparation on growth, development of photosynthetic potential and seed yield of maize lines, parental components of perspective hybrids (‘Arabat’, ‘Skadovskyi’, ‘Kakhovskyi’, ‘Azov’, ‘Chonhar’, ‘Hileia’ etc.) under conditions of drip irrigation. Methods. Field, morphometric, statistical. Results. In the flowering phase, the maximum differences in the area of the assimilation surface were observed between the maize lines and between variants using different plant densities and Organic-balance biological preparation. The largest indicator of the area of the assimilation surface was at the mid-late line DK445 for a standing density of 70 thousand plants/ha and the use of organic preparation Organic balance – 0.489 m2/plant. Organic-balance biological preparation had a positive effect on the dynamics of the area of the assimilation surface of the lines, had provide an increase of 0.04 m2/plant or 9.5% over individual phases of development compared to untreated control. The maximum value of the net productivity of photosynthesis – 6.78 g/m2 per day, was obtained from the FAO 420 line at a density of 70 thousand plant/ha, in the FAO 350 line was less by 4.3% with a maximum at a density of 80 thousand. plants/ha. For the FAO 290 line, the optimal plant density was 90,000 plants/ha. It was found that the genotype of the line with a share of influence of 81.2 and 85.2%, respectively, is predominantly influenced by the plant leaf area and the net productivity of photosynthesis. The influence of the organic preparation Organic-balance on these indicators was less and amounted to 13.3 and 12.3% respectively. The least influence on photosynthetic parameters was carried out by the density of phytocoenoses (the proportion of influence of 5.5 and 2.5%). Genotype with 82.2% share had the greatest influence on the seed yield of the lineage-parental components of maize hybrids. Part of the impact of the organic preparation Organic balance was 4.0%, plant density – 5.3%. The maximum seed yield of the FAO 290 line was obtained at a density of 90 thousand. growth./ha and organic drug treatment Organic-balance and amounted to 5.15 t/ha. The FAO 350 line showed the highest yield at a stand density of 80,000. growth/ha and treatment with organic drug Organic-balance – 5.46 t/ha. FAO 420, the highest seed yield, formed at a stand density of 80,000 plants/ha – 6.58 t/ha and treatment with organic drug Organic balance – 7.08 t/ha. Organic Balance treatment increased the seed yield by an average of 8.1%. Conclusions. Photosynthetic indicators of maize lines mainly depend on the genotype. Phytocenosis density and treatment with biopreparation have a much smaller effect. Under irrigation, the maximum seed yield was formed by the FAO 420 parent line of 7.08 t/ha. The results obtained indicate that in order to plan the production of seed material of maize lines, which are the parent components of hybrids, their genotypic features, the response to the density of phytocenoses and biological preparation with growth-stimulating action must be taken into account.