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Journal articles on the topic 'Steppe plant communities'

Author: Grafiati
Published: 2 June 2025
Last updated: 31 July 2025

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1

Ibatulina, Yu.V., and V.M. Ostapko. "The edificator role of species from the genus Stipa L. (Poaceae) in phytocenoses of petrophytic and shrub steppe in the Donetsk upland and Northern Azov region." Indusrtial Botany 24, no. 3 (2024): 5–17. https://doi.org/10.5281/zenodo.14111931.

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A study of the syntaxonomic diversity and distribution in the Donetsk upland and Northern Azov region of phytocenoses of meadow and shrub steppes allowed us to determine the composition of plant communities with dominance and subdomination of feather grass: 50 associations from 14 formations of the meadow steppe (Steppa pratensis), 42 associations from 14 formations of the shrub steppe (Steppa fruticosa). Of these, 35 and 26 plant communities, respectively, can be recommended for special protection. Respectively, 15 and 16 plant communities are regionally rare. As many as 29 rarity communities
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2

Korolyuk, A. Yu. "Plant communities of the Class Festuco-Brometea in the West Siberian Plane." Vegetation of Russia, no. 25 (2014): 45–70. http://dx.doi.org/10.31111/vegrus/2014.25.45.

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The West-Siberian Plain extends more than 1200 km from west to east. Its southern part is occupied by steppe and forest-steppe zones with pre-dominance of herbaceous plant communities. Steppes and xeric meadows are widespread on this territory and characterized by a high diversity and complex spatial structure. This study presents the analysis of 874 relevés describing xeric meadows and steppes of the class Festuco-Brometea from the West Siberian Plain. Numerical analysis with using of plant indicator values showed that some ecological factors, such as soil moisture, salinity and sand content
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3

Anenkhonov, O. A., and B. B. Naidanov. "Syntaxonomy of steppe plant communities on the permafrost soils on the Vitimskoye Plateau (Transbaikalia region)." Vegetation of Russia, no. 48 (2024): 117–27. http://dx.doi.org/10.31111/vegrus/2024.48.117.

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There is a lot of studies concerning steppe vegetation in the Transbaikalia region, though detailed floristic classification has been developed recently (Korolyuk, 2017, 2019). However, some of the specific types of steppe communities are still out of that classification so far. In particular, meadow steppe communities on permafrost soils at the northern part of the forest-steppe subzone on the Vitimskoye Plateau (Transbaikalia) still are not classified. The paper aims to design the syntaxonomic position and brief characteristics of this particular vegetation. Rather similar communities are kn
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4

V.V., Gritsenko. "Vegetation cover of the botanical-geographic plot "Steppes of Ukraine" of M.M. Grishko National Botanical Gardens of the NAS of Ukraine." Plant Introduction 23 (September 1, 2004): 49–58. https://doi.org/10.5281/zenodo.3252568.

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Information about history of creation, floristic composition, peculiarity and methods of support, and also rare species of the artificial meadow-steppe plant communities of the botanical-geographic plot "Steppes of Ukraine" of M.M. Grishko National Botanical Gardens of the NAS of Ukraine are presented. The state and structure a number of introductive populations are characterized. The perspectives of artificial meadow-steppe plant communities in gardening are substantiated.
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5

Shevchuk, N. Y. "Structural comparative analysis of forest and steppe plant communities in the south of Kryvyi Rih region." Biosystems Diversity 26, no. 4 (2018): 316–26. http://dx.doi.org/10.15421/011847.

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We made a comparative analysis of the floristic structure of 11 various-aged (30–50-year-old) forest and four steppe communities in the south of Kryvyi Rih region. We ascertained that the forest communities have low specific richness (2–90 species), whereas steppe ones contain from 167 to 251 species. The ten families leading in the species number are: Asteraceae, Poaceae, Rosaceae, Fabaceae, Lamiaceae, Caryophyllaceae, Boraginaceae, Apiaceae, Brassicaceae and Polygonaceae. Specific representation of the steppe communities depends on the geomorphologic formation, grazing pressure, soil cover c
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6

Zvereva, G. K. "Dynamics of aboveground phytomass in the communities of the Ob River forest-steppe and Northern Kulunda during protective regime." Проблемы ботаники Южной Сибири и Монголии 21, no. 1 (2022): 81–85. http://dx.doi.org/10.14258/pbssm.2022017.

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The formation of the herbage of plant communities depends on the natural and climatic features of the area and the modes of their economic use. In 2013-2021, the comparison of dynamics of aboveground phytomass in steppe and meadow communities of Western Siberia at an absolute protective regime was carried out. The state of vegetation was studied on the territory of the Novosibirsk region on the example of two communities of the steppe meadow (the right-bank part of the Ob River forest-steppe) and two communities of the solonetzic steppe (the northern part of the Kulunda steppe). The vegetation
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7

Podpriatov, O. O. "Temporal dynamics of steppe plant communities." IOP Conference Series: Earth and Environmental Science 1254, no. 1 (2023): 012022. http://dx.doi.org/10.1088/1755-1315/1254/1/012022.

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Abstract Global climate change affects the conditions of ecosystems. However, the nature of changes induced by climatic factors remains unknown due to the complex nature of climatic transformations. The global trend of temperature increase is associated with an increase in precipitation and changes in its rhythm. The dynamics of plant communities under the influence of climate occurs against the background of natural successional phenomena. The aim of the study is to develop methodological approaches in order to identify aspects of vegetation variability that are caused by global climate chang
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8

Dubуna, D. V., L. P. Vakarenko, P. M. Ustymenko, et al. "Rare steppe plant communities in Ukraine: Status, threats and their minimization." Biosystems Diversity 31, no. 2 (2023): 209–16. http://dx.doi.org/10.15421/012322.

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Nowadays, the impact of anthropogenic activities on natural vegetation is constantly increasing, the level of threats is raised, and newer risk factors are emerging. Recent trends in the anthropogenic impact on plant communities are extremely pronounced, especially on those listed in the Green Book of Ukraine (GBU). Identifying such trends is required for the further development of strategic and tactical planning for the preservation and restoration of rare grass, shrub, and subshrub steppe, petrophyte and psammophyte plant communities of the steppe and forest-steppe zones of Ukraine. In addit
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9

Korolyuk, A. Yu. "Steppes of the Northern Kazakhstan — the syntaxonomical revision." Vegetation of Russia, no. 30 (2017): 61–77. http://dx.doi.org/10.31111/vegrus/2017.30.61.

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Landscapes of the Northern Kazakhstan and southern part of the West Siberian Plain are deeply transformed and fragmented as a result of long-term agricultural exploitation. So, steppes became the most endangered ecosystems due to total ploughing of zonal soils. Presently, there are no large massifs of natural steppes. This determines the importance of data representing zonal steppe communities. One of the most important studies in this field is the publication by T. I. Isachenko and E. I. Rachkovskaya (1961), containing detailed characteristic of steppe vegetation from the Northern Kazakhstan
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10

Shchukina, K. V., T. M. Lysenko, D. S. Shilnikov, et al. "Analysis of the floristic composition of steppe communities of the Caucasian Mineral Waters Region." Botanicheskii Zhurnal 109, no. 8 (2024): 747–67. https://doi.org/10.31857/s0006813624080021.

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A comprehensive analysis of the species composition of the steppe communities of the laccolith mountains of the Caucasus Mineral Waters region (CMW), as well as of Jinal and Borgustan ridges in the vicinity of Kislovodsk was carried out. The research area is located in the Fore-Caucasus, in the south of the Stavropol Territory, and is characterized by a high diversity of steppe-type vegetation communities. The list of the flora of the CMW steppes is based on 294 relevés of steppe vegetation, and comprises 633 vascular plant species belonging to 278 genera and 66 families, which is 28.7% of the
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11

Song, Xiaoxiao, Lei Ji, Guangming Liu, et al. "Patterns and Drivers of Aboveground Insect Diversity along Ecological Transect in Temperate Grazed Steppes of Eastern Eurasian." Insects 14, no. 2 (2023): 191. http://dx.doi.org/10.3390/insects14020191.

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Insects are important components of biodiversity and play significant roles in the steppe ecosystem. They are abundant, easy to sample, and sensitive to changing conditions, making them useful indicators of environmental changes. This study aims to describe patterns (α and β) of insect diversity across two steppe types (a typical steppe and a desert steppe) along the Eastern Eurasian Steppe Transect (EEST), as well as evaluate the effects of environmental variables in determining these patterns and the influence of plant diversity alterations on these effects. To this end, we collected 5244 in
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12

Zeng, Guoyan, Mao Ye, Miaomiao Li, et al. "The Relationships between Plant Community Stability and Diversity across Different Grassland Types and Their Association with Environmental Factors in the Habahe Forest Area, Xinjiang." Diversity 16, no. 8 (2024): 499. http://dx.doi.org/10.3390/d16080499.

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Plant community stability and diversity play crucial roles in maintaining the stable performance of grassland ecosystem functions. In this study, we selected 55 representative grassland community sample plots in the Habahe Forest region of the Altai Mountains, Xinjiang. We examined the number of species, the number of individuals, and the cover of each species in the sample plots. Additionally, we determined the aboveground biomass of grassland communities, the stability of M. Godron communities, and plant diversity (using the Margalef index, Simpson index, Shannon–Wiener index, and Alatalo ev
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13

Chupina, I. S. "Rare plant communities in forest-steppe zone of the Priobskoe plateau." Проблемы ботаники Южной Сибири и Монголии 22, no. 1 (2023): 421–26. http://dx.doi.org/10.14258/pbssm.2023081.

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Natural vegetation of the Western Siberia forest-steppe zone has changed dramatically under the anthropogenic pressure. The inventory for well-preserved vegetation massifs is essential for conservation of ecosystem diversity. The main goal of the study was to reveal rare and endangered plant species and communities in the forest-steppe zone of the Priobskoe Plateau. We selected 811 releves from database of Central Siberian Botanical Garden SB RAS in program IBIS 7.2 according criteria used in “Green Book of Siberia”. Rare plant communities were selected from the dataset. Their distribution is
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14

Belous, V. N. "Steppe complex of the middle part of the Egorlyk valley (Stavropol Upland)." Проблемы ботаники южной сибири и монголии 19, no. 2 (2020): 264–68. http://dx.doi.org/10.14258/pbssm.2020116.

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The article highlights the current state of plant communities in the steppe complex of Middle Yegorlyk.The patterns of distribution of grass communities depending on the area’s landscape-environmental features are shown.The main formations of dry (real), hemigalophytic and grass-cereal phytocenoses and their edaphic variants are indicated.The species of floristic nucleus of representative communities are given. The originality and regional features of thestudied steppes are associated with their border position in the contact zone of the eastern Black Sea plains steppes andthe Stavropol Upland
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15

Korolyuk, A. Yu. "Syntaxonomy of steppe vegetation of the Republic of Buryatia." Vegetation of Russia, no. 31 (2017): 3–32. http://dx.doi.org/10.31111/vegrus/2017.31.3.

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Transbaikalia is the vast region in Southern Siberia withnumerous mountain ridges within the upper basins of the three big rivers, the Amur (Pacific Ocean basin), the Yenisei and the Lena (Arctic Ocean basin). The most part of Transbaikalia territory is covered by woodlands, however, the steppes are an inherent component in the southern part of the region. Steppe communities occur throughout the broad range of habitats varying in humidity, edaphic conditions, and anthropogenic disturbance. The main aims of presented study are: (1) to develop a phytosociological classification of transbaikalian
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16

Samdan, Andrey Mikhailovich. "The vegetation cover of the «Aryskannyg» cluster of the «Ubsunurskaya Kotlovina» Reserve (Ubsunur hollow) (the southern slopes of the East Tannu-Ola Mountain Range, Republic of Tyva)." Samara Journal of Science 10, no. 2 (2021): 78–85. http://dx.doi.org/10.17816/snv2021102111.

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This paper studies the vegetation cover organization of the Aryskannyg cluster of the state natural biosphere reserve Ubsunurskaya Kotlovina. In the course of the work 2 ecological and phytocoenotic profiles were laid and 2 large-scale mapping was carried out. The steppe type of vegetation is mainly represented by different variants of real turf-and-slag steppes: shrubby, petrophytic and dry. The original steppe communities are the resurrection ( Selaginella sanguinolenta ) and eastern feather grass coenoses ( Stipa orientalis ). An independent high-altitude belt forms mountain expositional fo
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17

Bragina, Tatyana М. "Soil macrofauna (invertebrates) of Kazakhstanian Stipa lessingiana dry steppe." Hacquetia 15, no. 2 (2016): 105–12. http://dx.doi.org/10.1515/hacq-2016-0017.

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Abstract Stipa lessingiana steppes used to be prevalent on the dry Trans-Ural denudation plains, particularly, on the Sub-Ural and the Turgay Plateau. But, most of them have been lost because they were plowed up during the Virgin Land campaign in the second part of 20th century. This paper presents a detailed study of the faunistic composition and the structure of soil-dwelling invertebrate communities (macrofauna) of a temperate-dry bunch feather grass steppe in the Turgai Plateau (Northern-Turgai physical-geographical province of steppe Kazakhstan, Kostanay Oblast). The study site is located
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18

Rachkovskaya, E. I., and N. V. Nelina. "The vegetation of the Nature Reserve «Altyn-Dala»." Geobotanical mapping, no. 2018 (2018): 91–106. http://dx.doi.org/10.31111/geobotmap/2018.91.

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The generalized large-scale maps as well as characteristic of the vegetation of three cluster sites of the new nature reserve “Altyn-Dala” (Kazakhstan) were compiled. The studied territory is located in two natural zones – steppe (sub-zone of desert steppes on light chestnut soils) and desert (subzone of northern deserts on brown soils). 7 types of vegetation – steppe, desert, forest, shrub, meadow, paludal and aquatic (aquatic macrophytes) occur on the territory of the nature reserve. Interesting and rare plant communities were recorded.
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19

Makunina, N. I., T. V. Maltseva, and L. P. Parshutina. "The mountain forest-steppe of Tuva." Vegetation of Russia, no. 10 (2007): 61–88. http://dx.doi.org/10.31111/vegrus/2007.10.61.

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The paper deals with the two main types of forest-steppe landscape of Tuva (the South-Central Siberia), i. e. the moderately warm forest-steppe of Eastern Tuva (the hemiboreal-forest-steppe altitudinal belt) and the moderately cold medium-height mountain forest-step­pe of Western Tuva. The first type of the forest-steppe forms a disconti­nued belt at an altitude of 800 to 1200 m above sea level. Its vegetation cover is typical of South-Siberian mountain forest-steppe. Plain areas are covered with meadow steppes of the ass. Pulsatillo patentis—Carice­tum pediformis nov. subass. stipetosum which
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20

Miehe, Georg, Kerstin Bach, Sabine Miehe, et al. "Alpine steppe plant communities of the Tibetan highlands." Applied Vegetation Science 14, no. 4 (2011): 547–60. http://dx.doi.org/10.1111/j.1654-109x.2011.01147.x.

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21

Demina, Olga, and Tatiana Bragina. "Fundamental Basis for the Conservation of Biodiversity of the Black Sea-Kazak H Steppes." Hacquetia 13, no. 1 (2014): 215–28. http://dx.doi.org/10.2478/hacq-2014-0014.

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Abstract The paper presents new approaches for assessing the conservation value of plant communities based on the use of quantitative criteria contained in databases and eco-floristic classification of steppe vegetation in the Don basin (Rostov region). The Black Sea and Kazakhstan steppes have significant potential for environmental protection. Analysis of biodiversity levels has been facilitated by descriptions of plant communities and quantitative indicators of major faunal groups of soil invertebrates (macrofauna) in the Tobol-Turgai basin (Kostanay region, Kazakhstan). As the structure of
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22

Demina, O. N. "East Black Sea forb-bunchgrass steppes of the Don River basin (within Rostov region)." Vegetation of Russia, no. 20 (2012): 27–47. http://dx.doi.org/10.31111/vegrus/2012.20.27.

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The studied steppe communities to the east of the Black Sea were attributed to the alliance Festucion valesiacae and two suballiances: Festuco rupicolae—Stipenion pennatae and Phlomenion pungentis. A comparison of the floristic composition of the described associations: Trifolio alpestris—Stipetum tirsae, Artemisio marschallianae—Stipetum dasyphyllae and Bellevalio sarmaticae—Stipetum pennatae, belonging to the suballiance Festuco rupicolae—Stipenion pennatae, and communities of the east European meadow steppe, shows their significant difference. The described associations are neighboring ones
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23

Talovskaya, Evgeniya, and Irina Barsukova. "The state of coenopopulations of the vegetatively-semimobile species of Thymus in Southern Siberia." BIO Web of Conferences 16 (2019): 00036. http://dx.doi.org/10.1051/bioconf/20191600036.

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The state of coenopopulations of vegetatively-semimobile dwarf shrubs Thymus iljinii, T. minussinensis, T. mongoliens, T. petraeus, widely distributed in steppe communities in Southern Siberia was studied. Adults of the species are a clump consisting of a primary and several partial bushes. For individuals characterized by the preservation of the main root, weak vegetative growth and reproduction, slow seizure of territory. The complex of data on organizational and population characteristics is analyzed. It is established that the real optimum state of coenopopulations of the studied species i
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24

Makunina, N. I. "Mountain forest-steppe of South-East Altai and South-West Tuva." Vegetation of Russia, no. 24 (2014): 86–100. http://dx.doi.org/10.31111/vegrus/2014.24.86.

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Some geobotanists, who studied arid mountain steppe landscapes in South-East Altai and South-West Tuva, mentioned the existing of small isolated larch forest areas at the height 2100–2400 m above sea level (Kuminova, 1960; Il’inskaya, 1980). We have made a special investigation of the vegetation of this rather peculiar forest-steppe. It can be called “high-mountain forest-steppe” by the altitudinal position and “cold forest-steppe” by the level of the heat. Such forest-steppe areas are found only in certain orographic conditions: they are confined to the slopes of rivers’ valleys. The foots of
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25

Н.И., МАКУНИНА. "БИОКЛИМАТИЧЕСКИЕ И ГЕОГРАФИЧЕСКИЕ АСПЕКТЫ СТЕПНОЙ РАСТИТЕЛЬНОСТИ ТЫВЫ". Растительный мир Азиатской России 17, № 3 (2024): 216–30. http://dx.doi.org/10.15372/rmar20240304.

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Биоклиматические районы Тывы по мере увеличения аридности климата образуют следующий ряд: семигумидный район - семиаридный район “дождевой тени” - собственно семиаридный район - аридный район; в этом ряду верхняя граница степного пояса изменяется от 900 до 2300 м над ур. м. В работе использовано 800 геоботанических описаний степей с точной географической привязкой. Описания отнесены к 15 ассоциациям флористической классификации, эти 15 ассоциаций соотнесены с единицами эколого-фитоценотической классификации разного ранга. Описания одной ассоциации из одного биоклиматического района объединены
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Blackburn, A.A., and V.M. Ostapko. "Comparative analysis of the plant cover of artificial steppe areas and long-term abandoned land in the territory of Donetsk Botanical Garden." Industrial bitany 23, no. 4 (2024): 4–19. https://doi.org/10.5281/zenodo.10565966.

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We investigated the structure of plant communities of two areas of artificial steppe, exposed to the pyrogenic factor at different times, and an area of long-term abandoned land in the territory of the Donetsk Botanical Garden. Based on a comparative analysis of their species composition, relative abundance of species and species similarity, we have observed significant differences in these characteristics only between the areas of artificial steppe and long-term abandoned land, while there were no statistically significant differences between two areas of artificial steppe. It is shown t
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27

Makunina, N. I. "The vegetation of steppe and forest-steppe belts of the Central Altai." Vegetation of Russia, no. 23 (2013): 9–35. http://dx.doi.org/10.31111/vegrus/2013.23.9.

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Steppe and forest-steppe belts in Central Altai occupy the bottoms of inter-mountain basins, expanded river valleys and surrounding mountains. The studied 4 steppe sites give sublatitudinal discontinuous range. The Kanskaya basin is rounded, the Ursulskaya one and the Chuya river (lower reaches) valleys are elongated from the east to the west while the steppe site of the Katun river valley — from the south to the north. The Kanskaya basin has a rounded shape while the Ursulskaya basin and the Chuya river valley (lower reaches) are elongated in the latitudinal direction, the steppe site of the
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Davies, Kirk W. "Medusahead Dispersal and Establishment in Sagebrush Steppe Plant Communities." Rangeland Ecology & Management 61, no. 1 (2008): 110–15. http://dx.doi.org/10.2111/07-041r2.1.

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29

Zolotareva, N. V., A. Yu Korolyuk, and N. I. Makunina. "Class Festuco-Brometea Br.-Bl. et Tx. ex Soó 1947 in the Southern Trans-Urals (the steppe zone of Chelyabinsk Region)." Vegetation of Russia, no. 46 (2023): 23–62. http://dx.doi.org/10.31111/vegrus/2023.46.23.

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The steppe zone covers the southern part of Chelya­binsk Region (38 % of territory). Arable land occupies the main part of the steppe zone, virgin steppes form small scattered patches under grazing and regular fires. Until now there was no enough information on the diversity of steppe vegetation in this region, whereas the steppe syntaxonomy of adjacent regions is rather well developed (Zhirnova, Saitov, 1993; Dubravnaya ..., 1994; Flora..., 2010; Korolyuk, 2014, 2017; Unikalnye..., 2014; Yusupova, Yamalov, 2016; Yusupova et al., 2018; Golovanov et al., 2021). The purpose of present study is t
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Lapenko, N. G., O. V. Khonina, and M. A. Starostina. "Issues of conservation of steppe phytocoenosis of the arid territory of Stavropol." Agrarian science, no. 5 (May 16, 2025): 119–26. https://doi.org/10.32634/0869-8155-2025-394-05-119-126.

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Relevance. Conservation of steppe vegetation and its biological diversity is one of the unresolved problems in southern Russia.The purpose of this work is to study and evaluate the current state of vegetation of steppe phytocoenosis of eastern Stavropol, including preserved zonal grass stands for further active reproduction of their bioresource potential.Methods. The object of the study is the steppe plant communities of the eastern Stavropol region. The year of the study is 2024. The study of steppe herbages was carried out at 55 accounting sites (each measuring 10 x 10 m) according to the O.
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31

N.E., Ellanskaya. "The influence of steppe plant communities on structure formation of microscopical fungi." Plant Introduction 5 (March 1, 2000): 57–59. https://doi.org/10.5281/zenodo.3336541.

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An analysis of species composition of microscopical fungi of the steppe plant communities in the sections of Ukrainian Natural Steppe reserve has been carried out. Micobiota of Mykhailivska Tsilyna included 75 species of micromycetes belonging to 19 genera, Khomutovskyi Step (69 species, 17 genera), Kamyani Mohyly (59 species, 17 genera). The widely spread genera were <em>Penicillium, Mortirella, Trichoderma, Fusarium, Gliocladium, Aspergillus</em>. The authors have revealed the distinct confinement of certain species of micromycetes to the corresponding plant communities.
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32

Ataeva, G. "Seasonal dynamics of biological productivity the main associations of the steppes of West Kazakhstan." BULLETIN of the L.N. Gumilyov Eurasian National University. Chemistry. Geography. Ecology Series 142, no. 1 (2023): 95–105. http://dx.doi.org/10.32523/2616-6771-2023-142-1-95-105.

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The work presents the results of the author's own research on the study of seasonal dynamics of biological productivity of the main associations of the complex steppes of Western Kazakhstan. In various ecological and microclimatic conditions, the accumulation of above-ground and underground phytomass during the season is considered, as well as the production and destruction processes in plant communities are analyzed. Based on the results of the research, recommendations were developed for the preservation of steppe ecosystems and the rational use of pasture lands during the growing season, in
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Ataeva, G. "Seasonal dynamics of biological productivity the main associations of the steppes of West Kazakhstan." BULLETIN of L.N. Gumilyov Eurasian National University. CHEMISTRY. GEOGRAPHY. ECOLOGY Series 142, no. 1 (2023): 96–106. http://dx.doi.org/10.32523/2616-6771-2023-142-1-96-106.

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The work presents the results of the author's own research on the study of seasonal dynamics of biological productivity of the main associations of the complex steppes of Western Kazakhstan. In various ecological and microclimatic conditions, the accumulation of above-ground and underground phytomass during the season is considered, as well as the production and destruction processes in plant communities are analyzed. Based on the results of the research, recommendations were developed for the preservation of steppe ecosystems and the rational use of pasture lands during the growing season, in
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34

Jaunatre, Renaud, Elise Buisson, and Thierry Dutoit. "First-year results of a multi-treatment steppe restoration experiment in La Crau (Provence, France)." Plant Ecology and Evolution 145, no. (1) (2012): 13–23. https://doi.org/10.5091/plecevo.2012.690.

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<b>Background and aims</b> – Intense agriculture phases on old plant communities, such as Mediterranean steppes, can lead to low resilience. Two main obstacles to the spontaneous recolonization of these plant communities are often the low dispersal of target species and the high dispersal and establishment potential of unwanted species. The aim of the study is to find the most efficient restoration treatments to restore these plant communities. <b>Methods</b> – After the rehabilitation of an herbaceous sheep-grazed community on a formerly intensively cultivated orchard in the last French Medit
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35

V.I., Melnik, Shevchenko D.Yu., and Gritsenko V.V. "Ecological and coenotical conditions of habitats of Adonis wolgensis Steven (Ranunculaceae Juss.) in Ukraine." Plant Introduction 68 (November 1, 2015): 37–44. https://doi.org/10.5281/zenodo.2527189.

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Ecological and coenotical conditions of habitats of rare species of Ukrainian flora including in Red Data Book of Ukraine &ndash; <em>Adonis wolgensis</em> Steven (<em>Ranunculaceae </em>Juss.) are reported. Phytocoenotical analysis of plant communities with <em>Adonis wolgensis</em> in Ukraine are permit to choose three types of habitats &ndash; steppe communities <em>Amygdaleta nanae, Cariceta humilis, Stipeta capillatae, Stipeta lessingianae, Stipeta pulcherrima, Poeta angustifoliae</em>, shrubs communities<em> Caraganeta frutexis, Cottinieta coggygriae, Lonicereta tataricae, Pruneta spinos
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36

Kenar, Nihal, Fatoş Şekerciler, and Süleyman Çoban. "The phytosociology, ecology, and plant diversity of new plant communities in Central Anatolia (Turkey)." Hacquetia 19, no. 1 (2020): 1–22. http://dx.doi.org/10.2478/hacq-2019-0014.

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AbstractThe Central Anatolian vegetation has diverse site conditions and small-scale plant diversity. For this reason, identification of plant communities is important for understanding their ecology and nature conservation. This study aims to contribute the syntaxonomical classification of the Central Anatolian vegetation. The study area is situated among Güzelyurt, Narköy, and Bozköy (Niğde) in the east of Aksaray province of Central Anatolia in Turkey. The vegetation data were collected using the phytosociological method of Braun-Blanquet and classified using TWINSPAN. The ecological charac
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37

Solomonova, M. Yu, M. S. Blinnikov, N. Yu Speranskaja, N. V. Elesova, and M. M. Silantyeva. "Phytolith assemblages in modern top soils under plant communities of Northern and Western Altay, Russia." Ukrainian Journal of Ecology 9, no. 3 (2019): 429–35. http://dx.doi.org/10.15421/2019_122.

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We investigated 120 assemblages of phytoliths from modern top soils of 40 different plant communities of Northern and Western Altay region of Russia. The samples were collected from elevations between 360 m and 2360 m above sea level. Using statistical analyses, it was discovered that many communities produce sufficiently distinct assemblages based on standard morphotypes. Specifically we studied 6 kinds of forests (larch, spruce, fir, pine, cedar pine and birch-dominated), 3 kinds of steppes (true, meadow and petrophytic), 5 kinds of meadows (steppe-like, upland dry, wet floodplain, subalpine
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38

Samus, A. V., E. A. Konstantinov, and K. G. Filippova. "Late Glacial vegetation changes in the Kostroma Volga region based on pollen study of Lake Chukhlomskoye bottom sediments." Limnology and Freshwater Biology, no. 4 (2024): 642–47. http://dx.doi.org/10.31951/2658-3518-2024-a-4-642.

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The article presents the results of a palynological study of Lake Chukhlomskoye bottom sediments. Pollen analysis in combination with the results from 14C and 137Cs dating made it possible to reconstruct the main stages of changes in plant communities in the Kostroma Volga region at the end of the Pleniglacial and during the Late Glacial: 19.5–16.9 cal. ka BP – periglacial steppe, 16.9–14.7 cal. ka BP – birch periglacial forest-steppe, 14.7–12.7 cal. ka BP – spruce and birch-spruce forests and open woods with periglacial-steppe and meadow communities, 12.7–11.7 cal. ka BP – birch periglacial f
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39

Larionov, A. V. "Spatial structure of plant communities of the mountainous forest-steppe of Khakassia: A Case Study of the "Pistag Ridge" Model Polygon." EKOSISTEMY, no. 36_2023 (June 5, 2024): 102–13. https://doi.org/10.5281/zenodo.10376306.

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The article is devoted to the peculiarities of the spatial organization of vegetation on the border of the eastern spurs&nbsp;of &nbsp;the &nbsp;Kuznetsk &nbsp;Alatau &nbsp;and &nbsp;the &nbsp;South &nbsp;Minusinsk &nbsp;basin. &nbsp;Eleven &nbsp;plant &nbsp;community &nbsp;associations &nbsp;were &nbsp;identified &nbsp;during&nbsp;classification. With the help of DCA-ordination, the key ecological factors were identified: precipitation, stony substrate,&nbsp;elevation above sea level. Based on the classification and gradient analysis, the ecological series of plant communities,&nbsp;changing
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40

Dimeyeva, L. A., K. Ussen, B. Sh Kaliev, et al. "Rare plant communities of the northern range of Zhetysu Alatau Mountains." Проблемы ботаники Южной Сибири и Монголии 19, no. 1 (2020): 108–13. http://dx.doi.org/10.14258/pbssm.2020022.

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Data on rare plant communities in the Zhetysu Alatau northern slope are presented. They include 14syntaxa of rare plants and communities of altitudinal belts. The most part of rare plant phytocoenoses are protected in thelimits of Zhongar Alatau national park. Natural steppe communities are least provided with protection, which requires theconservation status of these territories.
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Bystrova, Ekaterina Dmitrievna, and Evgeny Sergeevich Korchikov. "The dynamics of pyrogenic succession of pine plantations in Togliatti and Volzhsky District of the Samara Region." Samara Journal of Science 11, no. 4 (2022): 10–17. http://dx.doi.org/10.55355/snv2022114101.

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In this paper, for the first time, taxonomic, biomorphological, ecomorphic analyses have been carried out at different stages of secondary pyrogenic successions of pine plantations on the territory of Togliatti and Volzhsky District of the Samara Region. The study sites belong to the conditions of the forest-steppe zone. Indicator plant species have been identified for the initial and for the transition to the shrubby stage of secondary pyrogenic succession in the forest-steppe zone. The study examines the damage to territories by fire of varying intensity (a steady grass-roots fire of moderat
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42

Ilyina, Valentina, Anna Mitroshenkova, Stepan Senator, Vera Solovyeva, and Stanislav Rogov. "Impact of natural fires on the vegetation cover of steppe and forest-steppe zones (European part of Russia, Middle Volga region)." E3S Web of Conferences 265 (2021): 01019. http://dx.doi.org/10.1051/e3sconf/202126501019.

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The effect of natural fires on the vegetation cover of steppe and forest-steppe zones in the south-east of European Russia (the middle course of the Volga River) has been evaluated. The research used methods of studying biosystems at organism, species, population and cenotic levels. The study revealed the possibility of regrowth of aboveground plant parts after fires, changes in the population structure of species, and resistance of populations and zonal plant communities to the effects of natural fires. The most vulnerable among zonal vegetation types are pine forests, feather-grass and petro
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43

Pikalova, N. A., S. V. Krylenko, and T. A. Volkova. "Steppe communities within the coast of the Taman Peninsula." IOP Conference Series: Earth and Environmental Science 946, no. 1 (2021): 012043. http://dx.doi.org/10.1088/1755-1315/946/1/012043.

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Abstract The article presents the results of field research in 2019–2020 of plant communities of the abrasive coast of the Taman Peninsula. The biomorphological structure of populations is dominated by annual species, which indicates a high dynamism associated with exogenous processes. Ecologically, the dominant species are xerophytes and xeromesophytes, as well as species with a wide eco-amplitude. The process of unification of the studied flora is low and amounted to 17 %. The generalized floristic list includes 231 plant species from 48 families. In the study area, 7 species of Red Book pla
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44

Teptina, A. Yu, M. V. Lebedeva, and S. M. Yamalov. "Some petrophytic steppe communities of the Middle Ural." Vegetation of Russia, no. 33 (2018): 92–106. http://dx.doi.org/10.31111/vegrus/2018.33.92.

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Steppe herbaceous communities on rocky substrates are widely distributed in the Uralwithin the steppe and forest-steppe zones. In the Southern Ural, in the region of high anthropogenic press and ubiquitous development of ploughlands (Yamalov, Mirkin, 2010), habitats of stony slopes are local refugia for the steppe flora and vegetation. Within the Ural taiga-forest belt the microclimate and soil properties of slope habitats provide specific conditions for the existence of the unique communities, that are significantly different from zonal ones, with a complex of species character for meadow- an
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45

Baisheva, E. Z., N. I. Fedorov, S. N. Zhigunova, et al. "Productivity of vegetation and carbon stock in meadow steppe on fallow areas in the Bashkir Cis‐Urals (Southern Urals region), Russia." South of Russia: ecology, development 18, no. 4 (2024): 64–73. http://dx.doi.org/10.18470/1992-1098-2023-4-64-73.

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Aim. Data collection and analysis of the composition and productivity of vegetation and assessment of carbon sequestration by vegetation and soil in meadow steppe at a fallow site in the Bashkir Cis‐Urals, Russia. Material and Methods. The work is based on a survey of vegetation and soils of meadow steppe located in fallow areas, where post‐agrogenic restoration succession has been going on for more than 20 years. Results. The plant cover of the area studied is close to natural rich‐forb meadow steppes but differs in lower indicators of species richness and saturation, as well as the presence
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46

Sukhbat, Altangerel, Indree Tuvshintogtokh, and Tsogtsaikhan Tumenjargal. "Species richness and diversity of grassland plant communities and effects of nitrogen addition on some plant species." Mongolian Journal of Botany 5, no. 31 (2023): 93–106. http://dx.doi.org/10.5564/mjb.v5i31.3267.

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From 2009-2022, we have in the vegetation communities of the long-term vegetation monitoring of the plant ecology and plant economy laboratory of the Institute of Botany in 3 settlements of the meadow steppe in the area of Mungunmorit sum of Tuv province, the dry steppe in the area of Tumentsogt sum of Sukhbaatar province, and the desert steppe plant community in the area of Dalanjargalan sum of Dornogovi province. A total of 108 plots of 1m2 were tested in three versions. In doing so, it was calculated to increase nitrogen in two different amounts: 28.57 g (N1) and 57.14 g (N2). The plots wer
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47

Chen, Juan, Xing Wang, Naiping Song, Qixue Wang, and Xudong Wu. "Water utilization of typical plant communities in desert steppe, China." Journal of Arid Land 14, no. 9 (2022): 1038–54. http://dx.doi.org/10.1007/s40333-022-0031-y.

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48

HAN, Wen-jun, Xiang-yang HOU, Chun-liang OLOKHNUUD, and Michael P. Schellenberg. "The Characteristics of Plant Communities Along East Eurasian Steppe Transect." Journal of Integrative Agriculture 13, no. 6 (2014): 1157–64. http://dx.doi.org/10.1016/s2095-3119(13)60659-0.

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49

Davaanyam, Otgontsetseg, Itgelt Navaandorj, Bayasgalan Dagvadorj, Ganchudur Tsetsegmaa, and Khaulenbek Akhmadi. "Plant community changes in the steppe zone in Mongolia." Mongolian Journal of Geography and Geoecology 61, no. 45 (2024): 232–40. https://doi.org/10.5564/mjgg.v61i45.3387.

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The steppe zone is an ecosystem under intense human pressure and prone to land degradation, and its plant community structure has considerably changed in recent years. Long-term studies on vegetation communities in arid areas are vital for understanding their dynamics and for describing potential changes in plant communities caused by climate change in the future. The objective of this study was to describe the changes in plant communities in the dry steppe zone over an extended period. In these steppe communities, we selected a reduction in species richness, diversity and plant cover as an in
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50

Lepeshkina, L. A. "ECOLOGICAL AND GEOGRAPHICAL FEATURES OF VEGETABLE INVASIONS IN THE CONDITIONS OF THE ENTRAL RUSSIAN FOREST-STEPPE." Ekosistemy -, no. 21 (2020): 59–67. http://dx.doi.org/10.37279/2414-4738-2020-21-59-67.

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This study discusses the ecological and geographical features of plant invasions in the Central Russian forest-steppe. The studies have been conducted since 2002. The obtained data are summarized in the context of the ecological-geographical (biogeographic) approach. The main trends of phytoinvasions in the region are identified. The invasive component of the flora is characterized by high diversity of North American elements (31 species, 40.8 %), moreover, many species formed secondary European-North American (13 species, 17.1 %), Holarctic (11 species, 14.5 %) and cosmopolitan (8 species, 10
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