Structuring ampelographic collections by phenotypic characteristics and comparing the reaction of grape varieties to climate change

Modern climate changes task breeders to adapt viticulture to the new natural resource potential of the regions. A necessary condition is the assessment and analysis of current trends in changing the characteristics of contrasting groups of varieties. The aim of the study is to identify homogeneous groups  of varieties of an ampelographic collection and to compare the rates of reaction  of their agrobiological parameters to climate changes. Material for the study consists of observations of 21 agrobiological characteristics of 109 grape varieties from the Don ampelographic collection named after Ya.I. Potapenko (Novocherkassk) with an observation period from 10 to 36 years in 1981–2017. The sample included  Vitis vinifera L. varieties and the V. vinifera L. × V. labrusca L. and V. vinifera L. × V. amurensis Rupr. interspecific hybrids, and hybrids from crosses between V. vinifera L. and several American species. Homogeneous groups  of characteristics and varieties are identified by principal component analysis (PCA) and analysis of variance (ANOVA) methods. Trends in changing the agrobiological characteristics of the varieties and groups  of varieties are calculated.  PCA revealed  that the main differentiating factor of the studied fragment of the ampelographic collection is the size of the bunch; the second, the yield; the third, the time of ripening. The values of the factors are contrasting in varieties of different  directions  of use and taxonomic origin, which was confirmed  by ANOVA. The groups  of the V. vinifera × V. labrusca and V. vinifera × V. amurensis hybrids do not differ significantly from each  other  in most  indicators,  exceeding V. vinifera varieties in the  number of elements of productivity, winter hardiness and yield. Complex hybrids with American species have an intermediate position  between these  groups exceeding all groups  in bunch  weight.  All groups  of cultivars show trends  towards  a reduction in productive period,  an increase  in the mass of bunch  and yield, sugar content and a decrease in acidity. The V. vinifera × V. labrusca hybrids are distinguished by the highest growth  rate of the bunch  mass caused  by a reduction in the duration of active growth  and a decrease in the percentage of fruit-bearing shoots.  A higher  reduction rate of the production period  and a decrease in acidity were observed in later varieties. Regression analysis showed that the acceleration of the ripening of grapes is largely due to rising temperatures

Biological features of the vegetative and flowering phenophase onsets among diploid plum species in Northwestern Russia

Background. Monitoring of phenological rhythms in plants is one of the stages in the study of new genotypes. The adaptive potential of a genotype at the northern border of the area of plum distribution is the main criterion characterizing a cultivar. The main role in the formation of the assortment of diploid plum species in Russia is played by cherry plum, Chinese plum, and Russian plum.   The goal of this study was to identify the factors affecting the dates of the growing season and flowering onsets for diploid plums under the conditions of Northwestern Russia.   Materials and methods. The dates of the onsets of the vegetative and flowering phases in 50 accessions of cherry, Russian and Chinese plums in 1986–2020 served as the material for the study under the conditions of collection plantations at Pushkin and Pavlovsk Laboratories of VIR.   Results and conclusion. All the species demonstrated a tendency towards a shift of phenodates to earlier dates with an average rate of 1-2 days/10 years caused by warming. The conditions of the year had the greatest effect on phenodates, as they determined 67.0–68.3 % of the variability in the phenophase onset dates; the impact of the species factor was manifold less: 0.5–1.1 %. Russian plum occupied an intermediate position between cherry plum and Chinese plum in the onsets of both the vegetative and flowering phases. No differences were observed between the species in the duration of the period between the onsets of the vegetative phase and flowering. According to the long-term observations, the most adaptive cultivars were cv. ‘Podarok Sankt-Peterburgu’ (k-41445) of Russian plum, with medium dates of both the vegetative and flowering phase onsets, and with a 20-day difference in years in the onsets of these phases, cv. ‘14-1-14’ (k-7375А) of Russian plum, and cherry plum cvs. ‘Pchelnikovskaya’ (k-41446) and ‘Krasnaya 25-29’ (k-15792А)

ПСИХОЛОГО-ПЕДАГОГІЧНІ ОСОБЛИВОСТІ РОЗРОБКИ ДИСТАНЦІЙНОГО НАВЧАЛЬНОГО КУРСУ З ДИСЦИПЛІНИ «ПСИХОЛОГІЧНЕ КОНСУЛЬТУВАННЯ»

Розглянуто проблему психолого-педагогічного забезпечення організації матеріалів дистанційних навчальних курсів на прикладі розробленого авторського модуля до курсу «Психологічне консультування»

Forecast for the zone of viticulture in European Russia under climate change

Climate warming has turned out to be a significant factor in viticulture and winemaking in all grape-growing areas of the world. Many countries consider the advance of viticulture to the north and to mountainous areas as a possible way to adapt to warming. The factors limiting the zone of viticulture in Russia have been identified by Soviet scientist F.F. Davitaya in 1948, and they are still relevant. They are the sum of active temperatures above 10 °C (ΣT10 > 2500 °C), mean of absolute minimum temperatures (Tmin > –35 °C), length of the frost-free period (Lff < 150 days), and hydrothermal coefficient (0.5 < HTC < 2.5). The values of these limiting factors in the present-day zone of commercial viticulture (ZCV) correspond to the ranges defined by F.F. Davitaya, with the exception of Tmin, which in the modern ZCV in European Russia is above –26 °C everywhere. The objective of this work was to assess the possibility of moving the boundaries of the ZCV to the north under the existing and predicted climate conditions in European Russia. The 1980–2019 daily data from 150 weather stations of the Federal Service for Hydrometeorology and Environmental Monitoring were used to calculate mean long-term values, trends and forecasts for 2050 for the ZCV limiting factors and locate the points lying in the range acceptable for viticulture. The QGIS program was applied to plot the points on the European Russia map and mark the terminal latitude. Versions with Tmin > –26 °C and Tmin > –35 °C were considered. On average for European Russia, in 1980–2019, there was an increase in ΣT10, Tmin, and Lff and a decrease in HTC. However, in the same period, Tmin showed a tendency toward decreasing at a number of points at latitudes lower than 55° N. The increase in heat supply during the growing season in European Russia implies a possibility of expanding the ZCV northward, beyond the present-day terminal latitude of 46.6° N, to 51.8° N under the existing conditions, and up to 60.7° N by 2050. In addition, even under the current conditions viticulture is possible in the area of Kaliningrad (54° N, 20° E). Using extra protective measures in winters not colder than –35 °C would make it possible to grow grapes at up to 53.3° N under the current conditions and at up to 60.7° N under the prognosticated ones. At the same time, a possible decrease in the minimum winter temperature at the south of European Russia will require additional protective measures in winter, while an increase in the aridity of the climate on the northwest coast of the Caspian Sea will reduce the area under non-irrigated vineyards

Ranking of spring bread wheat genotypes according to the heading date and growing season duration in different ecogeographic environments

Background. Adaptation of spring bread wheat cultivars to climate change requires a study of the factors affecting the length of their growing season in various environments. An attempt is made to analyze regularities in the effect of ecogeographic conditions on the correlations shown by the duration of the growing season and interphase periods in spring bread wheat genotypes.Materials and methods. Correlation coefficients were studied for the impact of the environment and temperature on the duration of the interphase periods from sprouting to heading (SH) and from heading to yellow ripeness (HR) versus the period from sprouting to yellow ripeness (SR) in VIR’s wheat collection across 18 sites located in Russia and Uzbekistan from 41 to 60°N and from 30 to 135°E. The effect of the genotype and year on SH and HR was studied, and agrometeorological regression models of SH and HR were constructed, based on the data obtained during the studies of the collection in St. Petersburg in 1945–2021.Results. For the sites below 52–54°N, the SR/SH correlation coefficient was generally higher than SR/HR, and in the upper latitudes it was vice versa. The change in the ratio of coefficients occurred due to an increase in the interannual variability of HR at lower temperatures. The effect of HR on SR became greater than that of SH at temperatures below 18°С during HR. The data of a long-term study in St. Petersburg demonstrated that the effect of the genotype on SH was 18.9%, with 68.9% of the year, and the effect of the factors on HR was 4.1 and 71.3%, respectively. Regression models showed that HR was determined by temperature for at least 81%, while SH had a lower coefficient of determination by weather (56%).Conclusion. Ranking of wheat genotypes according to their heading time reflected their differentiation in earliness. A significant contribution of HR was conspicuous under temperatures below 18°C after heading at latitudes above 52–54°N

Morphological features of the inflorescence in jerusalem artichoke (Helianthus tuberosus L.) accessions from the VIR collection

Background. Jerusalem artichoke (Heliánthus tuberósus L.) is a valuable crop grown for feed, food, industrial and medicinal purposes. Studying biological, geographic, environmental, taxonomic and other features of this species is a vital task, whose solution will help, first of all, to disclose the variability of its traits, develop its intraspecific system, and work out methods for researching into the morphology of Jerusalem artichoke. Analyzing morphological features of its inflorescence and flower is one of the basic components of such a study. Materials and methods. The material for the research was the collection of Jerusalem artichoke maintained in a live condition at Maikop Experiment Station. The inflorescences of 58 accessions were analyzed to investigate eleven traits. Statistical analysis was carried out using StatSoft’s Statistica 13.0 software package. Results and conclusion. The greatest differences among the groups, formed according to geographic origin, were observed in the number of inflorescences per plant and the number of false ligulate florets in the inflorescence. The length of tubular florets was constant within the species, being 1.4 cm; as the most stable trait, this descriptor probably may be used as a diagnostic tool for this species. The accession ‘Sakhalinsky Krasny 4’ (Sakhalin population of Japanese origin) was the most distinctive, as regards the set of its characteristics

Productivity and growing-season stability in common bean (<i>Phaseolus vulgaris</i> L.) under contrasting ecogeographic conditions

Background. Studying the effect size of the environment versus breeding-oriented plant traits is relevant under climate change. Identification of stable accessions while evaluating the source material in contrasting environments can increase the efficiency of breeding practice.Materials and methods. Thirty common bean accessions from the VIR collection were sown for 3 years in the contrasting environments of Maikop and Astrakhan. Eight useful agronomic traits were studied according to VIR’s guidelines. Statistical processing was carried out using ANOVA, correlation and regression analyses. Environmental stability of productivity was assessed according S. A. Eberhart and W. A. Russell (1966).Results and discussion. The study of the variability of traits showed the stability of the sowing-to-ripening period duration (average coefficient of variation: 10.9%) and 1000 seed weight (17.3%). The effect of the genotype was the determining factor only for 1000 seed weight (67.6% of the variance). The growing season duration, number of pods per plant, number of seeds per pod, and productivity depended more on the environments. Productivity formation patterns were basically the same at both sites: productivity of an accession depended on the number of pods, and 1000 seed weight was negatively related to the number of seeds per pod. The growing season in Maikop depended on the flowering-to-ripening period (r = 0.73); in Astrakhan, on the sprouting-to-flowering period (r = 0.85). The duration of the sowing-to-sprouting and sprouting-to-flowering periods significantly correlated with mean temperatures (r = –0.87 and 0.87, respectively), while the flowering-to-ripening period did not depend on the mean temperature.Conclusion. Accessions relatively stable in their productivity and duration of the growing season were identified. They demonstrated both determinant and indeterminate growth, attesting to the prospects of breeding work with different common bean groups

The use of drought resistance indices in the study of the spring bread wheat collection under the conditions of Aktobe Region

Background. Due to the global climate warming trend, the breeding of new drought-resistant cultivars of spring bread wheat remains a priority task for Western Kazakhstan breeders. However, an increase in resistance is often accompanied by a decrease in genotype productivity, and searching for an optimal combination of these characteristics is a trend in contemporary plant breeding.Materials and methods. In 2017–2019, 175 spring bread wheat accessions from the collection of the N.I. Vavilov All-Russian Institute of Plant Genetic Resources (VIR) and locally developed contemporary cultivars were studied under the conditions of Aktobe Agricultural Station. The field study was carried out according to VIR’s guidelines. To assess the drought tolerance of the accessions, the following indices were used: mean productivity (MP), stress tolerance (TOL), yield stability index (YSI), drought resistance index (DI), and stress tolerance index (STI).Results and discussion. Drought tolerance indices were calculated for all accessions using yield data in the driest (2019) and more favorable (2017) year. The total score of ranks for all indices was calculated for each accession. The total score correlated most strongly with the yield in an unfavorable year. As a result, 20 cultivars with the best total scores were identified, including 11 accessions bred in Aktobe Region, the reference cultivar, and promising accessions from other countries.Conclusion. The cultivars identified according to a set of indices are promising in terms of their use in breeding for drought resistance under the conditions of Aktobe Region. The proposed index system makes it possible to combine assessments of different drought tolerance aspects

Peculiarities of anharmonic lattice dynamics and thermodynamics of alkaline-earth metals

The calculations are performed for a broad range of the properties of Ca and Sr in the fcc and bcc phases. A detailed information on the magnitude and character of temperature dependence of anharmonic effects in the lattice dynamics over the entire Brillouin zone (frequency shifts and phonon damping, Gruneisen parameters) is given. A detailed comparison of the computational results for the heat capacity and thermal expansion with the experimental data is carried out; the theoretical results are in good agreement with the experiment.Comment: 16 pages, 19 Postscript figures, Revte

Aluminum tolerance and micronutrient content in the grain of oat cultivars with different levels of breeding improvement from the VIR collection

Background. Soil toxicity of Al is associated with severe changes in plant root morphology that limit the uptake of water and mineral nutrients. Long-term exposure to Al results in deficiencies in some important nutrients, such as phosphorus, calcium, magnesium, potassium, and iron. Thus, the joint study of plant resistance to the effects of Al and the accumulation of micronutrients in the oat grain is relevant.Materials and methods. Thirty oat accessions of Russian and French origin from the VIR collection served as the research material. They were represented by cultivars with different levels of breeding improvement: landraces (early 1920s), cultivars developed by primitive breeding (1920–1930s), and modern improved cultivars.Results. Oat cultivars with different breeding improvement levels demonstrated significant differences in the content of micronutrients and aluminum tolerance. Among the studied accessions, landraces and modern improved cultivars showed a tendency towards medium or high Al tolerance, the group of primitive cultivars from Russia had the lowest Al tolerance, while primitive cultivars from France demonstrated the highest average resistance (0.5–1.9).Conclusion. The content of Fe and Zn was influenced by the geographic origin of genotypes. The concentrations of different micronutrients positively correlated with each other. Strong correlations were recorded between the contents of Zn and Fe (r = 0.81), and between Zn and Mg (r = 0.75). There was a positive correlation between the content of micronutrients and the resistance to crown rust (0.38 to 0.50). High content of the studied set of micronutrients was registered in such improved cultivars from France as the naked ‘Avoine Nue Renne’, ‘Chantilly’, ‘Negrita’ and ‘Noire de Michamps’, plus the Russian improved naked cultivar ‘Gavrosh’. Among them, ‘Chantilly’ was distinguished for its yield, and the naked ‘Gavrosh ‘for its high tolerance to aluminum