Feed Characteristics and State of Medicago Falcata L. Cenopopulations in Siberia
https://doi.org/10.26897/2949-4710-2023-2-6-18
Abstract
The article presents the results of a comprehensive study of Medicago falcat L. – a widespread fodder plant of the natural flora of Siberia. The aim of the research is to find out the fodder value of the species, its adaptability to different botanical and geographical zones of Siberia, as well as its stability and self-restoration ability under anthropogenic influence. To this end, the ontogenetic structure, morphometric parameters, and seed production of 15‑25 middle-aged generative individuals, as well as the chemical composition of fodder samples, were studied in 13 cenopopulations of M. falcata. The study of the fodder value of M. falcata in a wide ecological and geographical range showed that the protein content in air-dry matterdiffered from region to region: in Khakassia – on average 22.9%, in the Altai Republic – up to 15.9%, in the Novosibirsk region – up to 14.33%. One kilogram of alfalfahay contains from 0.47 to 0.67 feed units. It was found that the long life cycle of M. falcata in different botanical-geographical zones can take place in different variants, depending on the level of anthropogenic influence. Taproot plants are more common in undisturbed phytocenoses, whereas in phytocenoses exposed to anthropogenic impacts, rootstock taproot plants are predominant. Consequently, anthropogenic factors influence the number and biomass of species, the mode of seed regeneration and the ontogenetic structure of M. falcata conopopulations.
Keywords
Medicago falcatа L.,
fodder value,
life form,
seed production,
protein content,
fodder units,
influence of anthropic factors on cenopopulations,
Siberia
Supporting agencies: This work was carried out within the framework of the state assignments of the Central Siberian Botanical Gardens of the Siberian Branch of the Russian Academy of Sciences under the project AAAA-A21‑121011290025‑2 and the Federal Altai Scientific Center of Agrobiotechnology under the project № R&D121112600046‑2. The materials were collected with partial financial support from the RFBR and the Altai Republic Government of the project No. 20‑44‑040002 p_a.
About the Authors
N. A. Karnaukhova
Central Siberian Botanical Garden SB RAS
Russian Federation
Russian Federation
Nina А. Karnaukhova, CSc (Bio), Associate Professor, Senior Research Associate
10, Zolotodolinskaya Str., Novosibirsk, 630090
S. Ya. Syeva
Federal Altai Scientific Centre for Agrobiotechnology
Russian Federation
Russian Federation
Serafima Ya. Syeva, CSc (Bio), Associate Professor, Leading Research Associate; Head of the Gorno-Altaisk Research Institute of Farming – Branch of Federal Altai Scientific Centre for Agrobiotechnology
35, Nauchniy gorodok, Barnaul, the Altai Territory, 656910;
2, Katunskaya Str., village settlement Mayma, the Republic of Altai, 649100
References
1. Romanenko G.A., Tyutyunnikov A.I., Goncharov P.L. Fodder plants in Russia. M.: TsINAO, 1999: 370. (In Rus.)
2. Flora of Siberia. V.9. Novosibirsk: Nauka, 1994: 280. (In Rus.)
3. Kul’tiasov I.M., Grigor’eva N.M. Genus Lucerne – Medicago L.Ed.4. Biologicheskaya flora Moskovskoy oblasti. M.: Izd–vo Moskovskogo universiteta, 1978: 96-112. (In Rus.)
4. Grigor’eva N.M. Yellow alfalfa (Medicago falcata L.). Diagnozy i klyuchi vozrastnykh sostoyaniy lugovykh rasteniy. Ch. 2. Moscow, 1983: 55-61. (In Rus.)
5. Atlasova L.G. Nitrogen fixation, photosynthesis and alfalfa productivity under Middle Lena valley conditions. Vestnik Michurinskogo gosudarstvennogo agrarnogo universiteta. 2019; 2: 77-80. (In Rus.)
6. Budkevich T.A., Zabolotniy A.I., Pikun P.T., Pikun M.F., Korotkov M.M. Ecological and physiological characteristics of some promising rootstock morphotypes of wild leguminous plants for cultivation. Botanika (issledovaniya): Sbornik nauchnykh trudov. Minsk: Pravo i ekonomika. 2011: 356-372. (In Rus.)
7. Syeva S.Ya., Karnaukhova N.A., Zvereva G.K., Khramova E.P., Bugaeva M.V., Ledyaeva N.V., Sal’nikova E.A., Basargina O.M. Comparative assessment of legume component on natural and grassland in the Altai Republic. Innovatsii i prodovol’stvennaya bezopastnost’. 2021; 2 (32): 46-59. DOI: 10.31677/2072-6724-2021-32-2-46-59 (In Rus.)
8. Plennik R.Ya. Strategies of biomorphological microevolution of the polymorphic species Medicago falcata L. in Siberia. Novosibirsk: Nauka, 2002: 94. (In Rus.)
9. Osipova V.V., Lazarev N.N. Productivity of alfalfa crescent and alfalfa variegated under Yakutian conditions. Izvestiya TSKhA. 2010; 1: 50-57. (In Rus.)
10. Budkevich T.A., Anisova M.A., Tarshis L.G., Aleshchenkova Z.M., Fedorenchik A.A., Khripach V.A., Zavadskaya M.A., Korotkov M.M. Physiological and biochemical aspects of reproduction of the wild long-rooted morphotype Medicago falcata L. in culture. Trudy po prikladnoy botanike, genetike i selektsii. SPb.: VIR. 2015; 176: 3: 299-324. DOI:10.30901/2227-8834-2015-3-299-324 (In Rus.)
11. Kasatkina N.I., Nelyubina Zh.S., Fatykhov I.Sh. Duration of use of seed herbaceous perennial legume grasses. Izvestiya TSKhA. 2021; 4: 51-62. DOI: 10.26897/0021-342X-2021-4-51-62 (In Rus.)
12. Zhukova L.A. Multivariate ontogenesis of meadow plants. Zhiznennye formy v ekologii i sistematike rasteniy. Moscow, 1986: 104-112. (In Rus.)
13. Rybashlykova L.P. Effect of conservation and grazing on the structure of price populations in the Festuca valesiaca Gaudin community. Izvestiya TSKhA. 2022; 1: 52-60. DOI: 10.26897/0021-342X-2022-1-52-60 (In Rus.)
14. Rabotnov T.A. Issues in studying population composition for phytocoenological purposes. Problemy botaniki. M.; L.: Izd-vo AN SSSR, 1950; 1: 465-483. (In Rus.)
15. Uranov A.A. Age spectrum of a phytocenopopulation as a function of time and energy wave processes. Biol. nauki. 1975; 2: 7-34. (In Rus.)
16. Plant cenopopulations (basic concepts and structure). M.: Nauka, 1976: 215. (In Rus.)
17. Plant cenopopulations: Essays on population biology. M.: Nauka, 1988: 184. (In Rus.)
18. Snagovskaya M.S. Comparative characterisation of Medicago falcata L. populations in different ecological conditions. Byulleten’ MOIP. Otdel biologicheskiy. 1966: 51-59. (In Rus.)
19. Vaynagiy I.V. On the methodology for studying the seed productivity of plants. Botanicheskiy zhurnal. 1974; 59; 6: 826-831. (In Rus.)
20. Razumov V.A. Handbook for chemical laboratory technicians on feed analysis. M.: Nauka, 1987: 326. (In Rus.)
21. Forage in Siberia – Composition and Nutrition: Guidelines. VASKhNIL, Sibirskoe otdelenie, SibNIPTIZh. Novosibirsk, 1988: 680. (In Rus.)
22. Gorshkova A.A. Main features of pasture digression in Siberian steppe communities. Sibirskiy vestnik sel’skokhozyaystvennoy nauki. 1983; 4: 51-54. (In Rus.)
23. Ershova E.A. Anthropogenic vegetation dynamics in southern Central Siberia: Preprint. Novosibirsk, 1995: 53. (In Rus.)
24. Mamaev S.A. Forms of intraspecific variation in woody plants (examples from the Pinaceae family in the Urals). M.: Nauka, 1973: 284. (In Rus.)
25. Sobolevskaya K.A., Gontar’ E.M., Gorokhova G.I. et al. Useful plants of the Western section of the BAM zone. Novosibirsk: Nauka, 1985: 230. (In Rus.)
26. Plennik R.Ya., Polidorov Yu.N., D’yakonova A.A., Savos’kin I.P. Productivity and fodder value of Medicago falcata in relation to habitats. Ritmy razvitiya i produktivnost’ poleznykh rasteniy sibirskoy flory. Novosibirsk: Nauka, 1975: 56-66. (In Rus.)
27. Kornievskaya T.V., Silant’eva M.M. Use of legumes for ecological reclamation of degraded steppe pastures in Kulunda. Vestnik Ul’yanovskoy gosudarstvennoy sel’skokhozyaystvennoy akademii. 2020; 4 (52): 33-40. DOI: 10.18286/1816-4501-2020-4-33-40 (In Rus.)
28. Kashin V.K. Micronutrient content of alfalfa in western Transbaikalia. Agrokhimiya. 2018; 8: 46-51. (In Rus.)
29.
Supplementary files
Review
For citations:
Karnaukhova N.A., Syeva S.Ya. Feed Characteristics and State of Medicago Falcata L. Cenopopulations in Siberia. Timiryazev Biological Journal. 2023;(2):6-18. (In Russ.) https://doi.org/10.26897/2949-4710-2023-2-6-18
Views:
295
Email this article 