DYNAMICS OF THERMOPSIS MONGOLICA (FABACEAE) COENOPOPULATIONS IN THE STEPPES OF THE ALTAI REPUBLIC

Cover Page

Cite item

Full Text

Open Access Open Access
Restricted Access Access granted
Restricted Access Subscription Access

Abstract

Studies of Thermopsis mongolica, a poisonous perennial herbaceous plant with a long rhizome, which spreads rapidly in grazing meadow and steppe phytocenoses of the Altai Republic, were conducted. In permanently grazed pastures, the thermopsis is not eaten by cattle and, with reduced competition from other species, quickly spreads and invades the territory due to a large number of growing rhizomes. Due to vegetative propagation, the main maximum in T. mongolica cenopopulations is represented by virginal ramets, the second one y middle-aged or old generative ramets. With increasing anthropogenic pressure, the share of virginal ramets and the cenopopulation density increase. In the communities disturbed by cattle grazing with the stage III of pasture digression, thermopsis co-dominates and makes an aspect in the herbaceous layer. In such cenopopulations, the thermopsis density increases from 24.8 to 131.2 ramets per m2. Generative shoots in this case reach the maximum morphometric parameters, power and productivity. Continuous grazing until complete failure (stage IV) leads to rapid aging of T. mongolica plants and accumulation of old ramets. In the ontogenetic spectra, the second maximum is shifted to the ramets of the postgenerative period. Due to constant trampling and soil compaction, the density of T. mongolica decreases to 6.5–4.6 ramets per m2. Thus, the anthropogenic load, if not destructive, leads to weakening of interspecific competition, which enables T. mongolica to increase rapidly the organismal and population indices and to realize its reactive properties.

About the authors

N. A. Karnaukhova

Central Siberian Botanical Garden SB RAS

Author for correspondence.
Email: karnaukhova-nina@rambler.ru
Russia, 630090, Novosibirsk, Zolotodolinskaya Str., 101

G. K. Zvereva

Novosibirsk State Pedagogical University

Author for correspondence.
Email: labsp@ngs.ru
Russia, 630126, Novosibirsk, Vilyuiskaya Str., 28

S. Ya. Syeva

Federal Altai Scientific Center for Agrobiotechnology

Author for correspondence.
Email: serafima-altai@mail.ru
Russia, 656910, Barnaul, Nauchny Gorodok, 35

References

  1. Basargin Ye.A. 2007. Ontogenez termopsisa lantsetovidnogo (Thermopsis lanceolata R. Br.) [Ontogeny of lanceolate thermopsis (Thermopsis lanceolata R. Br.)]. – In: Ontogeneticheskiy atlas rasteniy. Vol. 5. Yoshkar-Ola. P. 236–239 (In Russ.).
  2. Basargin Ye.A. 2010. Biomorfologiya nekotorykh dlinnokornevishchnykh vidov rasteniy i struktura ikh tsenopopulyatsiy na yuge Sibiri [Biomorphology of some long-rhizome plant species and the structure of their cenopopulations in southern Siberia]: Abstr. … Diss. Kand. Sci. Novosibirsk. 16 p. (In Russ.).
  3. Bazilevich N.I. 1993. Biologicheskaya produktivnost' ekosistem Severnoy Yevrazii [Biological productivity of the ecosystems of Northern Eurasia]. Moscow. 293 p. (In Russ.).
  4. Bazilevich N.I., Titlyanova A.A. 1978. Metody izucheniya biologicheskogo krugovorota v razlichnykh prirodnykh zonakh [Methods for studying the biological cycle in various natural zones]. Moscow. 183 p. (In Russ.).
  5. Dzhapova R.R. 2007. Dinamika rastitel’nogo pokrova Yergeninskoy vozvyshennosti i Prikaspiyskoy nizmennosti v predelakh Respubliki Kalmykiya [Dynamics of the vegetation cover of Ergeninsky Upland and the Caspian Lowland within the Republic of Kalmykia]: Abstr. Diss. … Doct. Sci. Moscow. 47 p. (In Russ.).
  6. Flora Sibiri. 1987–2003 [Flora of Siberia]. Vol. 1–14. Novosibirsk. 3500 р. (In Russ.).
  7. Glotov N.V. 1998. Ob otsenke parametrov vozrastnoy struktury populyatsiy rasteniy. [Estimation of the parameters of the age structure of plant populations]. – In: Zhizn’ populyatsiy v geterogennoy srede. Vol. 1. Yoshkar-Ola. Р. 146–149 (In Russ.).
  8. Gorchakovskiy P.L., Ryabinina Z.N. 1981. Stepnaya rastitel’nost' Uralo-Ilekskogo mezhdurech’ya, eye antropogennaya degradatsiya i problem okhrany [Steppe vegetation of the Ural-Ilek interfluve, its anthropogenic degradation and protection problems]. – Ekologiya. 3: 9–23 (In Russ.).
  9. Gorshkova A.A. 1983. Osnovnyye cherty pastbishchnoy digressii v stepnykh soobshchestvakh Sibiri [The main features of pasture digression in the steppe communities of Siberia]. – Sibirskiy vestnik s.-kh. nauki. 4: 51–54 (In Russ.).
  10. Gunin P.D., Enkh-Amgalan S., Ganbold E., Danzhalova E.V., Bayasgalan D., Tserenkhand G., Golovanov D.L., Petukhov I.A., Drobyshev Yu.I., Kontsov S.V., Bazha S.N., Andreev A.V., Khadbaatar S., Ariunbold E., Purevzhav G. 2009. Osobennosti degradatsii opustynivaniya pastbishchnykh ekosistem Mongolii (na primere Srednegobiyskogo aymaka) [Features of degradation and desertification of pasture ecosystems in Mongolia (on the example of the Middle Gobi Aimag)]. – Botanikiyn khureelengiyn erdem shinzhilgeeniy buteel, Ulaanbaator (Trudy Instituta botaniki AN Mongolii, Ulan-Bator). 21: 104–128 (In Russ.).
  11. Izucheniye struktury i vzaimootnosheniy tsenopopulyatsiy. 1986. [Study of the structure and relationships of cenopopulations]. Moscow. 74 p. (In Russ.).
  12. Krasnaya kniga Tyumenskoy oblasti: Zhivotnyye, rasteniya, griby. 2004. [Red Book of the Tyumen region: Animals, plants, mushrooms]. Yekaterinburg. 496 p. (In Russ.).
  13. Krasnaya kniga Omskoy oblasti. 2005. [Red Book of the Omsk Region]. Omsk. 460 p. (In Russ.).
  14. Krasnaya kniga Kuzbassa. Vol. I. Redkiye i nakhodyashchiyesya pod ugrozoy ischeznoveniya vidy rasteniy i gribov. 2021. [Red Book of Kuzbass.Vol. I. Rare and endangered species of plants and fungi]. Kemerovo. 240 p. (In Russ.).
  15. Kurbatskiy V.I. 1994. Thermopsis R. Br. – Теrmоpsis. – In: Flora of Siberia. Vol. 9. Novosibirsk. P. 205–208 (In Russ.).
  16. Metody opredeleniya vskhozhesti. 1984. GOST 12038-84. Mezhgosudarstvennyy standart. Semena sel’skokhozyaystvennykh kul’tur [Germination methods. GOST 12038-84. Interstate standard. Seeds of agricultural crops]. 36 p. (In Russ.).
  17. Odum Yu. 1986. Ecology. Moscow. Vol. 2. 376 p. (In Russ.). Opredelitel’ rasteniy Respubliki Altay [Key to plants of the Republic of Altai]. 2012. Novosibirsk. 701 p. (In Russ.).
  18. Rabotnov T.A. 1950. Voprosy izucheniya sostava populyatsiy dlya tseley fitotsenologii [Issues of studying the composition of populations for the purposes of phytocenology]. – In: Problemy botaniki. Vol. 1. Moscow. P. 465–483 (In Russ.).
  19. Sambuu A.D. 2019. Lekarstvennyye rasteniya Respubliki Tyva i ikh znacheniye [Medicinal plants of the Republic of Tyva and their significance]. – Nauchnoye obozreniye. Biologicheskiye nauki. 3: 52–56 (In Russ.).
  20. Sambuu A.D., Ayunova O.D. 2016. Stadii pastbishchnoy digressii v sukhikh stepyakh Tuvy [Stage of pasture digression in the dry steppes of Tuva]. – Mezhdunarodnyy zhurnal prikladnykh i fundamental’nykh issledovaniy. 5 (2): 293–295 (In Russ.).
  21. Sorokin O.D. 2004. Prikladnaya statistika na komp’yutere [Applied statistics on the computer]. Novosibirsk. 162 p. (In Russ.).
  22. Tsenopopulyatsii rasteniy (osnovnyye ponyatiya i struktura) [Plant cenopopulations (basic concepts and structure)]. 1976. Moscow. 215 p. (In Russ.).
  23. Tsenopopulyatsii rasteniy (ocherki populyatsionnoy biologii) [Cenopopulations of Plants (Essays on Population Biology)]. 1988. Moscow. 184 p. (In Russ.).
  24. Uranov A.A. 1975. Vozrastnoy spektr fitotsenopopulyatsii kak funktsiya vremeni i energeticheskikh volnovykh protsessov [Age spectrum of phytocoenopopulation as a function of time and energy wave processes]. – Biol. nauki. 2: 7–34 (In Russ.).
  25. Vaynagiy I.V. 1973. Metodika statisticheskoy obrabotki materiala po semennoy produktivnosti rasteniy na primere Potentilla aurea L. [Technique of statistical processing of material on seed productivity of plants on the example of Potentilla aurea L.]. – Rastitel’nyye resursy. 9 (2): 287–296 (In Russ.).
  26. WFO: World Flora Online. 2023. http://www.worldfloraonline.org (Accessed 29.03.2023).
  27. Yakovlev G.P. Plantae Asiae Centralis. Fasc. 8а. Leguminosae. Ч. 1. Leningrad. 1988. 125 р.
  28. Yegorova P.S. 2016. Osobennosti ontogeneza Thermopsis lanceolata subsp. jacutica v Tsentral’noy Yakutii v usloviyakh introduktsii [Features of the ontogeny of Thermopsis lanceolata subsp. jacutica in Central Yakutia under the conditions of introduction]. – Vestnik Kras.GAU. 1 (112): 118–123 (In Russ.).
  29. Yershova E.A. 1995. Antropogennaya dinamika rastitel’nosti yuga Sredney Sibiri [Anthropogenic dynamics of vegetation in the south of Central Siberia]: Preprint. Novosibirsk. 53 p. (In Russ.).
  30. Zaugol’nova L.B. 1977. Analysis of cenopopulations as a method for studying anthropogenic impacts on phytocenosis. – Bot. Zhurn. 62 (12): 1767–1779 (In Russ.).
  31. Zaugol’nova L.B. 1994. Struktura populyatsiy semennykh rasteniy i problem ikh monitoringa [The structure of seed plant populations and problems of their monitoring]: Diss. … Doct. Sci. St. Petersburg. 70 p. (In Russ.).
  32. Zhivotovskiy L.A. 2001. Ontogeneticheskiye sostoyaniya, effektivnaya plotnost' i klassifikatsiya populyatsiy rasteniy [Ontogenetic states, effective density and classification of plant populations]. – Ekologiya. 1: 3–7 (In Russ.).
  33. Zhmylev P.Yu., Alekseev Yu.Ye., Karpukhina Ye.A., Balandin S.A. 2002. Biomorfologiya rasteniy. Illyustrirovannyy slovar’ [Biomorphology of plants. Illustrated Dictionary]. Moscow. 240 p. (In Russ.).
  34. Zhukova L.A. 1987. Dinamika tsenopopulyatsiy lugovykh rasteniy [Dynamics of cenopopulations of meadow plants]: Abstr. Diss. … Doct. Sci. Novosibirsk. 32 p. (In Russ.).
  35. Zvereva G.K., Syyeva S.Ya., Karnaukhova N.A. 2019. Estimation of Vegetation on the Forage Lands of Gornyy Altai. – Bulletin of NSAU. 1 (50): 116–125 (In Russ.). https://doi.org/10.31677/2072-6724-2019-50-1-116-125

Supplementary files

Supplementary Files
Action
1. JATS XML
Download
2.

Download (75KB)
Indexing metadata

Copyright (c) 2023 Н.А. Карнаухова, Г.К. Зверева, С.Я. Сыева

This website uses cookies

You consent to our cookies if you continue to use our website.

About Cookies