Izvestiya of Saratov University.

Chemistry. Biology. Ecology

ISSN 1816-9775 (Print)
ISSN 2541-8971 (Online)


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Shilova I. V., Kashin A. S., Parhomenko A. S., Bogoslov A. V., Kritskaya T. A., Kasatkin M. Y. The ecological and coenotic features of plant communities containing Colchicum bulbocodium subsp. versicolor (Colchicaceae) in the Lower Volga region. Izvestiya of Saratov University. Chemistry. Biology. Ecology, 2023, vol. 23, iss. 1, pp. 110-123. DOI: 10.18500/1816-9775-2023-23-1-110-123, EDN: FGRCHJ

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Article
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582.572.3+58.002+58.009
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FGRCHJ

The ecological and coenotic features of plant communities containing Colchicum bulbocodium subsp. versicolor (Colchicaceae) in the Lower Volga region

Autors: 
Shilova Irina V., Saratov State University
Kashin Alexandr Stepanovich, Saratov State University
Parhomenko Alena Sergeevna, Saratov State University
Bogoslov Artem Valerievich, Saratov State University
Kritskaya Tatiana Alexeevna, Saratov State University
Kasatkin Michail Yurievich, Saratov State University
Abstract: 

The article presents a phytocoenotic description of 23 plant communities with Colchicum bulbocodium subsp. versicolor studied during the period of mass fl owering in 2014–2018. It was found that, across the Lower Volga region, the studied communities with C. bulbocodium subsp. versicolor are mostly confi ned to the slopes of south- and east-facing arroyos and more seldom to the southern and northern hill slopes, plains, arroyo and liman bases, and fl oodmeadows. During the period of mass fl owering, 207 vascular plants were detected in the studied communities. Every community description included 9 to 36 species. Biological diversity was assessed with the Shannon index and polydominance index; the degree of dominance was measured with the Simpson index. The species similarity of the communities was evaluated through pairwise comparison with the Jaccard coeffi cient. It was revealed that C. bulbocodium subsp. versicolor occurs in communities varying in diversity and species composition. The subspecies is not confi ned to specifi c phytocoenoses. It usually grows on rich and, more seldom, fairly rich and slightly saline soils. Their alluviality is more often weak rather than moderate. Watering usually corresponds to the dry steppe or semi-desert climate type, rarely to the middle steppe type, being moderately variable and in some cases highly variable. The impact of grazing is usually weak, but it is either moderate or strong in some communities. The communities with C. bulbocodium subsp. versicolor are dominated by hemicryptophytes: mostly tap-root, short-rhizome and long-rhizome herbaceous perennials. In phytocoenotic terms, most species belong to the zonal type of vegetation, namely steppe vegetation. The participation of meadow species is prominent. The share of weed species is rather high, which indicates a signifi cant anthropogenic load on the studied communities.

Reference: 
  1. Tsvelev N. N. Bulbocodium versicolor (Ker-Gawl.) Spreng. In: Krasnaya kniga Rossiyskoy Federatsii (rasteniya i griby) [Red Book of the Russian Federation (plants and fungi)]. Moscow, KMK Scientifi c Press Ltd., 2008. 339 p. (in Russian)
  2. Sokolov A. S., Sokolova L. A. Bulbocodium versicolor (Ker-Gawl.) Spreng. In: Krasnaya kniga Tambovskoy oblasti: mkhi, sosudistyye rasteniya, griby, lishayniki [The Red Book of the Tambov region: Mosses, vascular plants, fungi, lichens]. Tambov, ITs "Tambovpoligrafi zdat" Publ., 2002, pp. 79 (in Russian).
  3. Bulbocodium versicolor (Ker-Gawl.) Spreng. In: Krasnaya kniga Pridnestrovskoy Moldavskoy Respubliki [Red Book of the Pridnestrovian Moldavian Republic]. Tiraspol, MPRiEK Publ., 2009, pp. 95 (in Russian).
  4. Agafonov V. A., Kuznetsov B. I. Bulbocodium versicolor (Ker-Gawl.) Spreng. In: Krasnaya kniga Voronezhskoy oblasti. T. 1: Rasteniya, lishayniki, griby [Red Data Book of the Voronezh Region. Vol. 1: Plants, lichens, mushrooms]. Voronezh, MODEK Publ., 2011, pp. 260 (in Russian).
  5. Khlyzova N. Yu., Grigorievskaya A. Ya. Krasnaya kniga Lipetskoy oblasti. T. 1. Rasteniya, griby, lishayniki [Red Data Book of the Lipetsk Region, vol. 1. Plants, mushrooms, lichens]. Lipetsk, OOO "Veda sotsium" Publ., 2014, pp. 174 (in Russian).
  6. Zemlyanskaya I. V., Kuvaldina A. I. Bulbocodium versicolor (Ker-Gawl.) Spreng. In: Krasnaya kniga Volgogradskoy oblasti. Chast’ 2. Rasteniya i drugiye organizmy [Red Book of the Volgograd region. Part 2. Plants and other organisms]. Volgograd, OOO "IzdatPrint", 2017, pp. 157 (in Russian).
  7. Zolotukhin N. I., Poluyanov A. V., Filatova T. D. Bulbocodium versicolor (Ker-Gawl.) Spreng. In: Krasnaya kniga Kurskoy oblasti: redkiye i ischezayushchiye vidy zhivotnykh, rasteniy i gribov [Red Book of the Kursk region: rare and endangered species of animals, plants and fungi]. Kaliningrad, Kursk, ID ROST-DOAFK Publ., 2017, pp. 164 (in Russian).
  8. Khudyakova L. P. Bulbocodium versicolor (Ker-Gawl.) Spreng. In: Krasnaya kniga Saratovskoy oblasti: Griby. Lishayniki. Rasteniya. Zhivotnyye [Red Book of the Saratov region: Mushrooms, Lichens, Plants, Animals]. Saratov, Papirus Publ., 2021, pp. 167–168 (in Russian).
  9. Sagalayev V. A., Shantser I. A. Seven. 36. Kolchikaseae DK. Colchicaceae. In: Flora of the Lower Volga region. T. 1 [Flora of the Lower Volga region. Vol. 1]. Moscow, KMK Scientific Press Ltd., 2006, pp. 331–333 (in Russian).
  10. Kuznetsov B. I., Moiseyeva Ye. V., Glazneva O. S. Seed productivity of early spring steppe ephemeroids by the example of Bulbocodium versicolor (Ker-Gavel.) Spreng. and Bellevalia sarmatica (Pall. Ex Georgi) in natural conditions and in culture. Proceedings of Voronezh State University. Series: Geography. Geoecology. 2011, no. 2, pp. 104–106 (in Russian).
  11. Kashin A. S., Kulikova L. V., Petrova N. A., Shilova I. V., Parkhomenko A. S., Lavrentyev M. V. Ontogenetic structure of Bulbocodium versicolor (Melanthiaceae) cenopopulations in the lower Volga Region. Botanicheskii zhurnal, 2020, vol. 105, no. 5, pp. 63–80 (in Russian). https://doi.org/10.31857/S000681362005004X
  12. Petrova N. A., Shilova I. V., Kashin A. S., Berezutskiy M. A., Serova L. A., Reshetnikova T. B. The location of Bulbocodium versicolor in Saratov Region about. Bulletin of Botanic Garden of Saratov State University, 2015, iss. 13, pp. 25–31 (in Russian).
  13. Ramenskiy L. G., Tsatsenkin I. A., Chizhikov O. N., Antipin N. A. Ekologicheskaya otsenka kormovykh ugodiy po rastitel’nomu pokrovu [Ecological Assessment of Forage Lands by Vegetation Cover]. Moscow, Gos. izd-vo sel’khoz. lit-ry, 1956. 472 p. (in Russian).
  14. Gorbunov V. S., Gorin V. I., Maevsky V. V., Bayakov D. A. Ekologicheskaya otsenka yestestvennykh kormovykh ugodiy po shkalam L. G. Ramenskogo [Ecological assessment of natural forage lands using the scales of L. G. Ramenskiy]. Saratov, FGNU RosNIISK "Rossorgo" Publ., 2010. 82 p. (in Russian).
  15. Gorin V. I., Boldyrev V. A. Rasshireniye shkaly Ramenskogo. Dopolneniye shkal dannymi po ekologii fl ory Saratovskoy oblasti [Expansion of the Ramensky scales. Supplementing the scales with data on the ecology of the flora of the Saratov region]. Saarbrücken, Deutschland, LAPLAMBERT Academic Publishing, 2013. 66 p.
  16. Grokhlina T. I., Khanina L. G. Automation of processing of geobotanical descriptions on ecological scales. In: Prin tsipy i sposoby sokhraneniya bioraznoobraziya: materialy II Vserossiyskoy nauchnoy konferentsii [Principles and methods of biodiversity conservation: Proceedings of the II All-Russian Scientifi c Conference]. Yoshkar-Ola, Maar.gos. un-t Publ., 2006, pp. 87−89 (in Russian).
  17. Zubkova Ye. V., Khanina L. G., Grokhlina T. I., Dorogova Yu. A. Komp’iuternaia obrabotka geobotanicheskikh opisanii po ekologicheskim shkalam s pomoshch’iu programmy EcoScaleWin [Computer processing of geobotanical descriptions on ecological scales using the EcoScaleWin program]. Yoshkar-Ola, MarGU Publ., 2008. 96 p. (in Russian).
  18. Matveyev N. M. Bioekologicheskiy analiz flory i rastitel’nosti (na primere lesostepnoy i stepnoy zon) [Bioecological analysis of fl ora and vegetation (on the example of the forest-steppe and steppe zones)]. Samara, Izd-vo Samarskogo un-ta, 2006. 311 p. (in Russian).
  19. POWO (2023). Plants of the World Online. Facilitated by the Royal Botanic Gardens, Kew. Published on the Internet. Available at: http://www.plantsoftheworldonline.org/ (accessed 07 February 2023).
  20. Magurran A. E. Measuring Biological Diversity. Oxford, Blackwell Science Ltd., 2004. 256 p.
  21. Ganamé M., Bayen P., Ouédraogo I., Dimobe K., Thiom biano A. Woody species composition, diversity and vegetation structure of two protected areas along a climatic gradient in Burkina Faso (West Africa). Folia Geobotanica, 2019, no. 54, pp. 163–175. https://doi.org/10.1007/s12224-019-09340-9 
  22. Filimonova E., Lukina N., Glazyrina M., Borisova G., Tripti K. A., Maleva M. A comparative study of Epipactis atrorubens in two different forest communities of the Middle Urals, Russia. Journal of Forestry Research, 2020, vol. 31, iss. 6, pp. 2111–2120. https://doi.org/10.1007/s11676-019-01010-y
  23. Fournier T., Fe`vre J., Carcaillet F., Carcaillet C. For a few years more: reductions in plant diversity 70 years after the last fi re in Mediterranean forests. Plant Eco logy, 2020, vol. 221, pp. 559–576. https://doi.org/10.1007/ s11258-020-01034-z
  24. Hongrui Z., Qingfan M., Yan L, Shengdong L., Shiming L., Yan C. Community diversity of ground-dwelling beetles in secondary oak Forest and its adjacent restored poplar Forest. Phytoparasitica, 2020, vol. 48, pp. 727–742. https://doi.org/10.1007/s12600-020-00838-z
  25. Novakovskiy A. B. A review of the modern programs for the geobotanical analysis. Vegetation of Russia, 2006, no. 9, pp. 86–95 (in Russian).
  26. Shitikov V. K., Rozenberg G. S., Zinchenko T. D. Kolichestvennaya gidroekologiya: metody sistemnoy identifi katsii [Quantitative hydroecology: Methods of systemic identifi cation]. Togliatti, IEVB Publ., 2003. 463 p. (in Russian).
  27. Korňan M. Potential negative efects of construction of a high-mountain ski resort in the High Tatras, Slovakia, on breeding bird assemblages. Community Ecology, 2020, vol. 21, pp. 213–226. https://doi.org/10.1007/s42974-020-00018-3
  28. Novakovskiy A. B. Interaction between Excel and statistical package R for ecological data analysis. Vestnik Instituta biologii Komi NC UrO RAN, 2016, no. 3 (197), pp. 26–33 (in Russian). https://doi. org/10.31140/j.vestnikib.2016.3(197).4
  29. Koch L. F. Index of biotal dispersity. Samarskaya Luka: Problems of Regional and Global Ecology, 2013, vol. 22, no. 2, pp. 181−188 (in Russian).
  30. Semkin B. I., Gorshkov M. V. On the role of A. P. Shennikov in the development of quantitative evaluation of differentiating diversity of plant communities. Contemporary Problems of Ecology, 2014, no. 7, pp. 501–504. https://doi.org/10.1134/S1995425514050126
Received: 
20.01.2023
Accepted: 
27.01.2023
Published: 
31.03.2023
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