27 research outputs found

    Dynamics of Branch and Stem Apical Growth in the Progenies of Plus Pine Trees (Pinus sylvestris L.)

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    The relationship between the characteristics of the linear growth of branches and stems was studied, as well as the possibility of distinguishing between various Scots pine (Pinus sylvestris L.) genotypes. The objects of research were experimental plantations of the half-sib progenies of pine plus trees aged 10–11 years. The annual increments of the stem and differently oriented branches were measured. Correlation, regression and data analysis methods developed by the authors were used. The time dynamics of the obtained values were studied by comparing the regression line slopes describing the interrelation of axial increments and by analysis of the frequency spectra of the Integral Parameter of Characters Sequence applied earlier. The analysisof the obtained results has shown the existence of a significant relationship between auxiblast linear growth within the two adjacent years and a weak interrelation of the characteristics of branch and stem morphogenesis. The possibility of distinguishing Scots pine half-sib families by comparing the dynamics of branches and stem apical growth is described. Keywords: Scots pine, apical growth of branches and stems, genotypic and phenotypic variability, impact of environmental factors on growth, morphogenesis of woody plants, growth modelin

    Edge Effect: Growth and Morphogenetic Features of Scots Pine Trees in Forest Parks and Natural Stands

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    The degree of development and depth of edge effect are studied in some fragments of forest-park stands under long-term urbanization impact (in the city of Yekaterinburg, Russia) and in natural forests using the method of transect investigation. The method of quantitative assessment of tree stem and crown growth features by a set of morphological characteristics was used. The objects of the research included the edges of Scots pine stands. The edge effect was determined by two of the five studied characteristics: foliation and branchiness, which characterize the level of the development of the tree assimilation apparatus. The general trends indicate an increase in the development of these characters in natural stands and decrease in the forest park at increased distance from the edge. The nonlinear development of morphological characteristics along the transects is due to different types of tree responses on the impact of determining morphogenesis factors. Four statistically significant different zones were identified in the natural stands at distances of 0-75, 100-125, 150-175, and 200-225 m from the forest edge and only two zones were differentiated in the forest park. The unified approach to data analysis suggests the edge effect in both habitats at a distance of 75-100 m from the forest edge according to branchiness and 100-125 m according to foliation. Several types of morphogenetic tree responses, distinguished by the degree of foliation and branchiness variation under edge effect impact, are revealed.This study was supported by the Integrated Program of the Ural Branch of the Russian Academy of Sciences for 2018-2020 (grant no. 18-4-4-10) and performed under the State Assignment of the Botanical Garden, Ural Branch, Russian Academy of Sciences

    Seasonal changes in chlorophyll and carotenoid content in needles of scots pines (pinus sylvestris l.) Exposed to the thermal field of a gas flare

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    Seasonal changes in chlorophyll (Chl) and carotenoid (Car) content were analyzed in needle samples from young Scots pines (Pinus sylvestris L.) growing in the thermal field zone at various distances from the petroleum gas flare. Experiments were performed in Khanty Mansi Autonomous Area (Yugra) of Russia throughout the autumn–winter–spring period. Two hypotheses were subject to verification: (1) the thermal field of petroleum gas combustion flame imitates the influence of climate warming on plants, thus affecting the pigment complex of the photosynthetic apparatus (PSA) in pine needles; (2) transformations of PSA pigment complex in pine needles throughout the autumn–winter–spring period are sensitive to a long-term rise in ambient temperature by 1–2°С. In the winter period, the seasonal dynamics of certain PSA parameters comprised maxima and minima that are supposedly due to the regulation of Chl and Car content upon changes in air temperature. In trees growing under divergent thermal conditions, seasonal changes of these parameters were not synchronous. Analysis of seasonal changes revealed that winter-related transformations of the PSA structural–functional condition in needles are subject to consistent variations at different distances from the gas flame. The PSA activity of needles throughout the studied period was higher near the flame and decreased with the distance from the gas flare. When Chl content in needles decreased in autumn–winter, the smallest reduction was observed in the location near the gas flare (site I) where temperature was 1–2°C higher than the background level. The intermediate decrease in pigment content was noted at a moderate distance from the flame (site III), while the most pronounced decrease occurred at the largest distance from the gas flare (site VII). At the same time, the Chl a/b content ratio in needles was consistently lower for trees located at site I than at site VII. Hence, the amount of light-harvesting complexes in chloroplasts from trees grown at site I was higher than the amount of photosystems in the same chloroplasts. The Chl (a + b)/Car ratio in needles of trees grown near the gas flare (site I) was higher than in locations III and VII. This ratio displayed two significant peaks in the winter dynamics, which was supposedly due to the sufficient preservation of green pigments. Divergent seasonal changes in Chl and Car content and their dissimilar correlations with air temperature indicate that the pools of these pigments are controlled by different mechanisms. The actual Chl content, determined by the balance of pigment degradation and synthesis, should depend on the environmentally modified Chl synthesis and on the protective function of Car. Photosynthesizing cells produce additional amounts of carotenoids during autumn–winter, thus preventing the photodegradation of Chl in the period from autumn to late spring. © 2021, Pleiades Publishing, Ltd.This work was supported by the Comprehensive Program of the Ural Branch of the Russian Academy of Sciences for 2018–2020 (project no. 18-4-4-10) and by a state assignment to the Institute Botanic Garden of the Ural Branch of the Russian Academy of Sciences

    Seasonal Dynamics of Content of Antioxidant System Component in Needles of Scots Pine (Pinus sylvestris L.) Trees Situated in the Local Warming Impact Zone

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    The seasonal changes in a period of low temperatures and characteristic correlations of some antioxidant system (AOS) components in pine needles influenced by a gas flare are investigated in this study. The parameters taken are total water content (TWC) in needles, peroxidase activity (AP) and selected elements of the antioxidant system of needles, such as content of carotenoids (Car), ascorbic acid (AA), catechins (Cat) and flavanols (Fl). The needles come from Scots pine trees (Pinus sylvestris L.), which grow in a gradient of environmental conditions formed in the zone of thermal field of the gas flare impact (at various distances). The gas flare is situated on the territory of the Khanty-Mansiysk Autonomous Okrug (UGRA) of Russia. Three hypotheses were subject to verification: 1) the thermal field of the gas flare during the low temperature period affects the water exchange and the AOS state of needles; 2) increase in temperature of the environment in the flare impact zone during the autumn-winter period causes the decrease in amount of moisture in needles, which is a trait of oxidative stress in cells; 3) in the functioning of a needle's AOS, there are correlations between its components, which values depend on distance from the gas flare and environment created by it. It was found that in the thermal field gradient of the flare, there is neither an additional reduction in TWC in needles compared to the background nor signs of change in the state of AOS corresponding to the oxidative stress in the cells. The greatest impact of the gas flare on characteristics of the physiological state of pine needles is observed in the section closest to the flare. It reveals in the higher values of AP, TWC, Car and decrease in concentration of Fl and AA. The seasonal dynamics of the studied traits values do not correlate with the temperature of the environment. It indicates the indirect effect on the regulation of needle's AOS activity. The factor and correlation analysis of the data indicate a difference in physiological state of pine needles at different distances from the flare. There is no domination of any processes in the functioning of AOS components. The observed correlations between the studied properties change according to distance to the flare. The most stable is a negative AP relationship with ofter parameters, which rise with the increased distance from the flare. The consistency degree of separate AOS components functioning is maximal in background conditions and decreases when approaching the flare. This fact is explained by the modifying effect of the flare on physiological and biochemical processes of the needle's adaptation to specific climatic conditions of the environment.Исследовали сезонные изменения в период низких температур и характер корреляционных связей для содержания общей воды в хвое, пероксидазной активности и содержания отдельных компонентов антиокислительной системы хвои: каротиноидов, аскорбиновой кислоты, катехинов и флавонолов – у деревьев сосны обыкновенной (Pinus sylvestris L.), произрастающих в градиенте условий среды, формируемых в зоне влияния теплового поля газового факела (на разном удалении от него) на территории Ханты-Мансийского автономного округа – Югры (Россия). Проверены 3 гипотезы: 1) тепловое поле газового факела в условиях низких температур влияет на водный обмен и состояние антиокислительной системы хвои; 2) повышение температуры среды в зоне влияния факела в осенне-зимний период приводит к уменьшению количества влаги в хвое, которое вызывает состояние окислительного стресса в клетках; 3) в работе антиокислительной системы хвои между ее отдельными компонентами существуют взаимосвязи, характеристики которых трансформируются в зависимости от условий среды, определяемых удалением от газового факела. В градиенте действия теплового поля факела не наблюдается дополнительного по сравнению с фоном снижения содержания общей воды в хвое и признаков изменения состояния антиокислительной системы, характерных для окислительного стресса. Влияние газового факела на показатели физиологического состояния хвои максимально на ближней к факелу секции. Оно проявляется в виде увеличения пероксидазной активности, количества общей воды, каротиноидов и в снижении содержания флавоноидов и аскорбиновой кислоты. Сезонная динамика изученных показателей не коррелирует с температурой среды, что говорит о ее непрямом действии на регуляцию активности антиокислительной системы хвои. Факторный и корреляционный анализ данных свидетельствуют об отличии физиологического состояния хвои на разном удалении от факела. В функционировании компо- нентов антиокислительной системы хвои не наблюдается доминирования отдельных процессов. Взаимосвязи между изученными показателями изменяются с удалением от факела. Наиболее устойчивой является отрицательная связь пероксидазной активно- сти с остальными показателями, усиливающаяся с увеличением расстояния до факела. Степень согласованности работы отдельных компонентов антиокислительной системы максимальна в условиях фона и уменьшается с приближением к факелу. Это объясняется модифицирующим влиянием факела на физиолого-биохимическиеThis work was financially supported by the Comprehensive Program of the Ural Branch of the Russian Academy of Sciences for 2018-2020 (Grant No. 18-4-4-10) and within the state assignment of the Federal State Budgetary Institution of Science ?Institute Botanic Garden of the Ural Branch of the Russian Academy of Sciences?

    Ecological zoning of forests in areas exposed to industrial air pollution

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    Morphometric characteristics of the growth of forest stands located at different distances from a large copper-smelting plant were estimated. The set of diagnostic parameters obtained was used for calculating summary parameters of the state (SPSs) of the forest stands and to grade their values for zoning the forests. The results of using semivariance analysis demonstrated the appropriateness of kriging, a method of spatial interpolation, for mapping the surfaces of the state of forests. The map-scheme of the zones differing in the state of forest stands (made on the basis of summary parameters) was compared with the topographic map of the area, which made it possible to estimate the effect of large forms of relief on the location and configuration of the zones.This study was supported by INTAS, project no. 93-1645

    Vector correlation analysis of seasonal dynamics of apical growth of shoots of lilac varieties

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    The purpose of the research is to determine the possibility of evaluating and discriminating different varieties of lilacs by means of vector-correlation analysis (VCA) of seasonal dynamics of apical growth of shoots, and using this approach to determine the growth characteristics of lilac shoots that differ in growth activity at the stage of slowing down and stopping growth. The growth of shoots of 12 lilac varieties growing in the collection of the Institute Botanic Garden of the Ural Branch of the Russian Academy of Sciences was studied. The measurements were carried out during the growing season with an interval of seven days. The implemented approach consisted in applying the VCA method to the data on the seasonal dynamics of shoot growth, subsequent clustering of its results, and ranking the identified clusters in accordance with the degree of manifestation in them of the generalized parameter calculated during the analysis. Based on the VCA, it was found that in the process of morphogenesis in lilac bushes, vegetative shoots of the second order of branching are divided into 3 types according to the type of seasonal dynamics of apical growth, including the timing and duration of individual phases at the stage of completion of growth. The quantitative ratio of individual types of shoots differs in different lilac varieties and is a promising indicator when studying the possibilities of introduction and breeding for winter hardiness and decorativeness. © 2023 Author(s)

    Methodical approach to the study of tree shoots morphogenesis on example of young Scotch pine tree stands, growing in the gas flame impact zone

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    The subject of the study is the relationship between growth of lateral shoots and pine needles. A methodical approach to the mathematical-statistical processing of biometric data is used, which supplements modern methods of analysis. The approach makes it possible to identify both linear and nonlinear relationships between directly measurable characteristics in the form of formula relations, the set of which facilitates the formation of ones own conceptual models or the verification of known ones and helps identify morphometric characteristics that are essential for modeling the studied processes. The presence of the following relationships is established: the inverse dependence of the length of the needles on its density (the number of needles pairs per unit surface area of the auxiblast); the dependence of the length of the auxiblast on the «development» of needles (the product of the number of needles pairs by the length of the needles); the dependence of the number of needles pairs on the shoot and the length of the current year’s shoot from the value of shoot increment of the previous year; the relationship of «development» of needles with the ratio of axial and radial dimensions of the shoot. A positive correlation between the remoteness from the flame and the magnitude of the coefficients in the formula specifying the latter relationship allows one to make supposition on the effect of temperature increase on the relative redistribution of the auxiblast biomass over radial or axial increments. An analysis of the formulas obtained indicates a significant relationship between radial and axial growth processes with «development» of needles, as well as their conjugation with the state in the previous year, and the effect of a gas flame on them
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