Syntaxonomy of steppe plant communities on the permafrost soils on the Vitimskoye Plateau (Transbaikalia region)
- Index page
-
- Scientific activity
-
- Periodic publications
-
- Vegetation of Russia
-
- Issue 48, 2024
-
- Syntaxonomy of steppe plant communities on the permafrost soils on the Vitimskoye Plateau (Transbaikalia region)
O. A. Anenkhonov, B. B. Naidanov
DOI: https://doi.org/10.31111/vegrus/2024.48.117
Annotation
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 known as cryoxerophytic steppes from more northern regions (Yurtsev, 1978). Taking into account that studied area is slightly less cold we call Tranbaikalian meadow steppe communities on permafrost soils as hemicryomesoxerophytic steppe.
Our studies have been carried out within the Eravninskaya depression (Fig. 1) in the southwest of the Vitimskoye Plateau (Transbaikalia). The depression of hollow-concave shape with flat relief extends for about 80 km to the northeast, while the width is about 63.5 km, and elevation is about 950 m a. s. l. The climate is sharply continental, with frosty snowless winters and short and warm summers. The permafrost is common throughout the depression. The mean annual precipitation is 250–400 mm, with 60 % of the total amount falls in July–August. The main types of soils are represented by permafrost chernozem and turf soil (Badmayev et al., 2006). Meadow steppe in combination with the Gmelin larch and white birch coppices form the forest-steppe landscape.
Field studies have been conducted in 2009 and 2018, and 26 relevés (of 100 m2) of steppe communities were collected. The Braun-Blanquet approach for the classification of vegetation has been applied, and the nomenclature of syntaxa follows to ICPN (Theurillat et al., 2021).
Steppe vegetation of the south-west of Vitimskoye Plateau belongs to the class of Cleistogenetea squarrosae Mirkin et al. ex Korotkov et al. 1991, order Helictotrichetalia schelliani Hilbig 2000, and alliance Helictotrichion schelliani Hilbig 2000. Habitats of hemicryomesoxerophytic steppe communities differ from those of suballiances described within the Helictotrichion schelliani in relation to position across landforms and the soil profile pattern. Differences are noticeable contrast to habitats of the Thymenion baicalensis Korolyuk 2017 communities, and are less pronounced compare to those of the Stipenion baicalensis Korolyuk 2017. The special peculiarity of the floristic composition of hemicryomesoxerophytic steppes is imparted by the presence of Kobresia filifolia, K. myosuroides and Thalictrum alpinum, indicating the cryophilic habitats. Moreover, there is a set of montane-steppe species also evidencing the same environment situation. Based on the floristic composition (Table) and ecological specificity we describe a new suballiance of steppe vegetation, containing 2 new associations.
The suballiance Leontopodio conglobati–Caricenion pediformis Anenkhonov suball. nov. Nomenclatural type of the suballiance (holotypus) — ass. Kobresio filifoliae–Festucetum lenensis Anenkhonov et Naidanov. Diagnostic species (d. s.): Bistorta alopecuroides, Bupleurum sibiricum, Festuca lenensis, Gentiana decumbens, Leontopodium conglobatum, Lychnis sibirica, Rumex acetosa, Salix kochiana, Tephroseris integrifolia, Thalictrum alpinum.
The suballiance represents hemicryomesoxerophytic steppe communities confined to the permafrost soils in the cold and sharply continental climate in the northern part of the forest-steppe subzone of the Transbaikalia region. The suballiance communities occupy flatland habitats and produce the forest-steppe landscape in combination with larch (Larix gmelinii) or birch (Betula platyphylla) coppices. Less often these communities are confined to the southern slopes when forest dominates in the landscape.
The floristic composition of the hemicryomesoxerophytic steppes is significantly different from that of the cryophytic steppes described in other regions. Particularly, there are sufficient differences comparing to cryoxerophytic steppe of the Altai mountains, the subalpine montane steppe and kobrezian communities of Mongolia, and meadow-steppe communities in northern areas of Yakutia and West Chukotka. All of this support establishing the new syntaxon to integrate the hemicryomesoxerophytic steppe of Vitimskoye Plateau into the syntaxonomy of steppe vegetation. Defining the rank of the Transbaikalian hemicryomesoxerophytic steppes was based on the specificity of habitats, especially confinement to permafrost soils. Such criterion clearly separates these communities from steppes of the alliance Stipenion baicalensis, which are developed on seasonally frozen soils.
The suballiance includes 2 associations: (1) Kobresio filifoliae–Festucetum lenensis — relatively more cryophytic; (2) Orostachyo malacophyllae–Festucetum lenensis — relatively more thermophytic.
Ass. Kobresio filifoliae–Festucetum lenensis Anenkhonov et Naidanov ass. nov. (Table, rel. 1–15, Fig. 2).
Nomenclatural type (holotypus hoc loco): Table, rel. 4 (field number nb18-23), Republic of Buryatia, Eravninskiy district, 43 km NE Sosnovo-Ozerskoye village, 52.82825° N, 111.93925° E, Varioherbosae-Sedge-Kobresia meadow steppe, 10.07.2018. Authors — B. B. Naidanov, O. A. Anenkhonov.
D. s.: Artemisia rupestris, Equisetum arvense, Galatella dahurica, Heteropappus altaicus, Ixeridium gramineum, Kobresia filifolia, K. myosuroides, Potentilla anserina, P. arenosa.
The association represents hemicryomesoxerophytic steppe communities on meadow-chernozem permafrost soils. The habitats are relatively more cryophytic (comparing to the 2nd association). Communities usually occupy open flatlands or slightly concaved surfaces of various configurations, and also cover shady (the most often northerly and easterly) sites close to coppices.
Ass. Orostachyo malacophyllae–Festucetum lenensis Anenkhonov et Naidanov ass. nov. (Table, rel. 16–26; Fig. 3).
Nomenclatural type (holotypus): Table 1, rel. 20 (field number nb18-22), Republic of Buryatia, Eravninskiy district, 36 km NE Sosnovo-Ozerskoye village, 3.3 km SSE Khorga settlement, 52.78897° N, 111.84138° E, Varioherbosae-Fesque-Pasqueflower meadow steppe, 10.07.2018. Authors — B. B. Naidanov, O. A. Anenkhonov.
D. s.: Aconogonon angustifolium, Achillea asiatica, Campanula glomerata, Dianthus versicolor, Orostachys malacophylla, Schizonepeta multifida, Silene jeniseensis, Veronica incana.
This association, like a previous one, represents hemicryomesoxerophytic steppe communities, however, it is relatively more thermo- and xerophytic. Communities occur on slightly elevated flat surfaces, hillocks, sites on well–warmed forest edges – most often from the southern and western sides of coppices, and on southern and south-western slopes of hills.
To resume, hemicryomesoxerophytic steppe communities of Eravninskaya depression on the south-west of Vitimskoye Plateau represent a peculiar type of steppe vegetation, originated due to special habitats on the permafrost soils at the northern part of the main area of steppe vegetation in Transbaikalia region. These steppe communities belong to the new suballiance (with two new associations) of steppe vegetation.
Key words: meadow steppe, syntaxonomy, cryophytic forest-steppe, Eastern Siberia, Eravninskaya depression, Republic of Buryatia, Cleistogenetea squarrosae
Section: Articles
How to cite
Anenkhonov O. A., Naidanov B. B. 2024. Syntaxonomy of steppe plant communities on the permafrost soils on the Vitimskoye Plateau (Transbaikalia region) // Vegetation of Russia. 48: 117–127. https://doi.org/10.31111/vegrus/2024.48.117
Received August 3 2023. Signed for printing May 20 2024.
References
Badmayev N. B., Korsunov V. M., Kulikov A. I. 1996. Teplovlagoobespechennost sklonovykh zemel [Heat- and moisture supply of slope lands]. Ulan-Ude. 126 p. (In Russian).
Badmayev N. B., Kulikov A. I., Korsunov V. M. 2006. Raznoobraziye pochv kriolitozony Zabaykalya [Diversity of soils in cryolithozone of Transbaikalia]. Ulan-Ude. 166 p. (In Russian).
Batrayeva A. A. 1987. K sintaksonomii kobreznikov Prikhubsugulya [Contribution to the kobresian plant communities of the Lake Khubsugul area]. Moscow. 21 p. Deposited in VINITI 16.07.1987. N 5113-В 87. (In Russian).
Cherepanov S. К. 1995. Sosudistyye rasteniya Rossii i sopredelnykh gosudarstv (v predelakh byvshego SSSR) [Vascular plants of Russia and adjacent states (within the former USSR)]. St. Petersburg. 992 p. (In Russian).
Dambiyev E. Ts., Namzalov B. B., Kholboyeva S. A. 2006. Landshaftnaya ekologiya stepey Buryatii [The landscape ecology of steppes of Buryatia]. Ulan-Ude. 185 p. (In Russian).
Dokuchayeva V. B., Sinelnikova N. V. 2011. Relic steppes of the order Helictotrichetalia schelliani Hilbig 2000 of the Omolon valley (Western Chukotka). Rastitel’nost’ Rossii. 17–18: 17–32. (In Russian). https://doi.org/10.31111/vegrus/2011.17-18.17.
Gogoleva P. A., Kononov K. E., Mirkin B. M., Mironova S. I. 1987. Sintaksonomiya i simfitosotsiologiya rastitelnosti alasov Tsentralnoy Yakutii [Syntaxonomy and symphytosociology of the alas vegetation of Central Yakutia]. Irkutsk. 176 p. (In Russian).
Gorshkova A. A. 1954. Rastitelnost neoblesennoy chasti Yeravninskogo aymaka BMASSR [Vegetation of the non-forested area of the Eravninskiy district of BMASSR]. Materialy po izucheniyu proizvoditelnykh sil Buryat-Mongolskoy ASSR [Materials on the exploration of productive forces of Buryat-Mongolian ASSR]. Ulan-Ude. P. 371–388. (In Russian).
Hilbig W. 1995. The vegetation of Mongolia. Amsterdam. 259 p.
Hilbig W. 2000. Kommentierte Übersicht über die Pflanzengesellschaften und ihre höheren Syntaxa in der Mongolei. Feddes Repertorium. 111(1–2): 75–120. https://doi.org/10.1002/fedr.20001110108.
Kanayeva E. D. 2011. Geoekologicheskaya otsenka zemelnykh resursov kriolitozony na osnove geoinformatsionnykh tekhnologiy (na primere Yeravninskoy kotloviny): Avtoref. dis. … kand. nauk [Geo-ecological assessment of the land resources in cryolithozone based on geo-informational technologies (A case study in the Eravninskaya depression): Abstr. Cand. Sci. Dis.]. Ulan-Ude. 21 p. (In Russian).
Khokhryakov A. P. 1983. Stepnaya flora v basseyne Kolymy [Steppe flora in the Kolyma River basin]. Ekologo-tsenoticheskiye i geograficheskiye osobennosti rastitelnosti [Ecological-and-phytocoenotical peculiarities of vegetation]. Moscow. P. 218–231. (In Russian).
Korolyuk A. Yu. 2017. Syntaxonomy of steppe vegetation of the Republic of Buryatia. Rastitel’nost’ Rossii. 31: 3–32. (In Russian). https://doi.org/10.31111/vegrus/2017.31.3.
Korolyuk A. Yu. 2019. Steppes of the class Cleistogenetea squarrosae Mirkin et al. ex Korotkov et al. 1991 in Eastern Transbaikalia. Rastitel’nost’ Rossii. 35: 28–60. (In Russian). https://doi.org/10.31111/vegrus/2019.35.28.
Kulikov A. I., Panfilov V. P., Dugarov V. I. 1986. Fizicheskiye svoystva i rezhimy lugovo-chernozemnykh merzlotnykh pochv v Buryatii [Physical characteristics and regimens of meadow-chernozem soils in Buryatia]. Novosibirsk. 137 p. (In Russian).
Lavrenko E. M. 1970. The subdivision into provinces of the Central Asian subregion of the steppe region of Eurasia. Botanicheskiy zhurnal. 55(5): 609–625. (In Russian).
Lavrenko E. M., Karamysheva Z. V., Nikulina R. I. 1991. Stepi Yevrazii [The steppes of Eurasia]. Leningrad. 146 p. (In Russian).
Makunina N. I. 2012. Moderately cold forest-steppe of Altai mountains. Turczaninowia. 15(1): 108–124. (In Russian).
Melnichuk N. L. 1966. Podzemnyye vody Yeravninskogo i Verkhne-Udinskogo artezianskikh basseynov [Underground waters of Eravninskiy and Verkhne-Udinskiy artesian basins]. Metodika gidrogeologicheskikh issledovaniy i resursy podzemnykh vod Sibiri i Dalnego Vostoka [Methods of hydrogeological research and groundwater resources of Siberia and the Far East]. Moscow. P. 217–227. (In Russian).
Mirkin B. M., Manibazar M., Mukhametshina V. S., Alimbekova L. M., Onishchenko L. I. 1983. Vtoroye priblizheniye klassifikatsii rastitelnosti rechnykh poym MNR. II. Obshchaya kharakteristika i obzor klassa Kobresietea myosuroidis cl. nova. Soyuzy Kobresion myosuroidis all. nova i Caraganion jubatae all. nova. [The second approximation to classification of the riverine floodplain vegetation of Mongolian People’s Republic. II. General characteristics and overview of the class Kobresietea myosuroidis cl. nova. Alliances Kobresion myosuroidis all. nova, and Caraganion jubatae all. nova.] Moscow. 54 p. Deposited in VINITI 19.04.1983. N 2049-83 Dep. (In Russian).
Nagorya Pribaykalya i Zabaykalya [Highlands of Cis-Baikal and Trans-Baikal Region]. 1974. Moscow. 359 p. (In Russian).
Peshkova G. A. 1985. Rastitelnost Sibiri (Predbaykalye i Zabaykalye) [Vegetation of Siberia (Cis-Baikal and Trans-Baikal Region)]. Novosibirsk. 145 p. (In Russian).
Peshkova G. A. 2001. Florogeneticheskiy analiz stepnoy flory gor Yuzhnoy Sibiri [Florogenesis analysis of the steppe flora of mountains of Southern Siberia]. Novosibirsk. 192 с. (In Russian).
Polynov B. B., Krasheninnikov I. M. 1926. Fiziko-geograficheskiye i pochvenno-botanicheskiye issledovaniya v oblasti basseyna reki Uber-Dzhargalante i verkhovyev Ara-Dzhargalante [Physiographical and the soil-botanical studies in the region of the Uber-Dzhargalante River and upper reaches of Ara-Dzhargalante]. Severnaya Mongolia. I. Predvaritelnyye otchety geologicheskoy, geokhimicheskoy i pochvenno-geograficheskoy ekspeditsiy o rabotakh, proizvedennykh v 1925 godu (Komissiya po nauchnomu issledovaniyu Mongolskoy i Tannu-Tuvinskoy Respublik, sostoyashchaya pri Sovete Narodnykh Komissarov Soyuza Sovetskikh Sotsialisticheskikh Respublik) [The preliminarily reports of geological, geochemical, and soil-geographical expeditions on works conducted in 1925 (Commission for the scientific research of Mongolian and Tannu-Tuvinian Republics under patronage of the Council of People‘s Commissars of Union of Soviet Socialistic Republics]. Leningrad. P. 85–160. (In Russian).
Reshchikov M. A. 1958. Kratkiy ocherk rastitelnosti Buryat-Mongolskoy ASSR [Brief outline of vegetation of Buryat-Mongolian ASSR]. Ulan-Ude. 94 p. (In Russian).
Reshchikov M. A. 1961. Stepi Zapadnogo Zabaykalya [Steppes of Western Transbaikalia]. Akademiya nauk SSSR, Sibirskoye otdeleniye: Trudy Vostochno-Sibirskogo filiala. Vypusk 34. Seriya biologicheskaya [Academy of Sciences of USSR, Siberian Division: Bulletin of East-Siberian Branch. Iss. 34. Biological series]. Moscow. 174 p. (In Russian).
SASGIS. Veb-kartografiya i navigatsiya [Web-cartography and navigation]. http://www.sasgis.org/sasplaneta/ (date of access 20.06.2018).
Sergiyevskay L. P. 1951. Stepi Buryat-Mongolskoy ASSR [Steppes of Buryat-Mongolian ASSR]. Trudy Tomskogo Gosudarstvennogo Universiteta. Seriya Biologicheskaya [Bulletin of Tomsk State University. Biology Series]. 116: 217–279. (In Russian).
Sinelnikova N. V. 2009. Ekologo-floristicheskaya klassifikatsiya rastitelnykh soobshchestv verkhoviy Kolymy [Ecological-and-floristic classification of plant communities of the Kolyma River upper reaches]. Magadan. 214 p. (In Russian).
Theurillat J.-P., Willner W., Fernandez-Gonzalez F., Bültmann H., Čarni A., Gigante D., Mucina L., Weber H. E. 2021. International Code of Phytosociological Nomenclature. 4th edition // Applied Vegetation Science. 24(2): 1–62. https://doi.org/10.1111/avsc.12491.
Yunatov A. A. 1950. Osnovnyye cherty rastitelnogo pokrova Mongolskoy Narodnoy Respubliki [Main features of vegetation cover of Mongolian People’s Republic]. Moscow; Leningrad. 223 p. (In Russian).
Yurtsev B. A. 1978. Nekotoryye voprosy tipologii stepnykh soobshchestv Severo-Vostochnoy Azii [Some questions of typology of steppe phytocoenoses in the Northeastern Asia]. Botanicheskiy zhurnal. 63(11): 1566–1578. (In Russian).
Zverev A. A. 2007. Informatsionnyye tekhnologii v issledovaniyakh rastitelnogo pokrova [Information technologies in vegetation research]. Tomsk. 303 p. (In Russian).