VolRC RAS scientific journal (online edition)
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Journal section "Fodder production, feeding of farm animals, and fodder technology"

Studying Various Breeds of Spring Rape Grown for Green Mass and Grain in the Conditions of the Vologda Oblast

Chernysheva O., Vakhrusheva V.V., Pryadilshchikova E.N.

Volume 6, Issue 1, 2023

Chernysheva O.O., Vakhrusheva V.V., Pryadil’shchikova E.N. Studying Various Breeds of Spring Rape Grown for Green Mass and Grain in the Conditions of the Vologda Oblast. Agricultural and Livestock Technology, 6(1). DOI: 10.15838/alt.2023.6.1.3 URL: http://azt-journal.ru/article/29536?_lang=en

DOI: 10.15838/alt.2023.6.1.3

Abstract   |   Authors   |   References
  1. Brikman V.I. (1983). Cultivation experience of spring rape for seed and fodder purposes on farms in Eastern Siberia. Maslichnye kul’tury=Oil Crops, 6, 8 (in Russian).
  2. Chernysheva O.O. (2022). The influence of agrobiological factors on the yield of spring rapeseed varieties in the Vologda region. In: Molodye issledovateli agropromyshlennogo i lesnogo kompleksov – regionam [Young Researchers of Agro-Industrial and Forestry Complexes – by Regions]. Vologda – Molochnoe: Vologodskaya GMKhA im. N.V. Vereshchagina (in Russian).
  3. Dospekhov B.A. (1985). Metodika polevogo opyta. 5-e izd., pererab. i dop [Methodology of Field Experience. 5th Edition, Reprinted and Added]. Moscow: Agropromizdat.
  4. Givens D., Kliem K., Humphries D., Shingfield K., Morgan R. (2009). Effect of replacing calcium salts of palm oil distillate with rapeseed oil, milled or whole rapeseeds on milk fatty-acid composition in cows fed maize silage-based diets. Animal, 3(7), 1067–1074. DOI: 10.1017/S175173110900442X
  5. Goltzman S.V., Gorbacheva T.V., Rendov N.A., Strokach N.I., Cherkasova E.A. (2015). The intensification of cultivation technology spring rape oilseed. Vestnik Omskogo gos. agrarnogo un-ta, 1(17), 12–14 (in Russian).
  6. Gushchina V.A., Lykova A.S. (2016). Photosynthesis productivity of spring rape in the conditions of forest-steppe in the middle Volga area. Niva Povolzh’ya=The Volga Region Farmland, 2(39), 15–21 (in Russian).
  7. Ivanov V.M., Churzin E.S., Tolstikov S.V. (2010). Spring rape on chernozem soils of the Volgograd region. Mezhdunarodnyi zhurnal prikladnykh i fundamental’nykh issledovanii, 8, 101–103 (in Russian).
  8. Kashevarov N.I., Osipova G.M., Danilov V.P. (2008). Rape as a source of environmentally friendly fuel. Sibirskii vestnik sel’skokhozyaistvennoi nauki=Siberian Herald of Agricultural Science, 3(183), 89–97 (in Russian).
  9. Kubanov S., Ismailov I., Nimatulaev N. (2009). Rapeseed as the most valuable agricultural crop. Stiinta Agricola, 2, 27– 31 (in Russian).
  10. Lisitsyn A.N., Grigor’eva V.N., Lishaeva L.N. (2013). Rapeseed is a highly valuable multi‒purpose oilseed crop. Vestnik Vserossiiskogo nauchno-issledovatel’skogo in-ta zhirov, 1, 5–12 (in Russian).
  11. Mishurov V.P., Ruban G.A. (2004). Annual species of the cabbage family: Introduction and prospects of use for feed. Vestnik in-ta biologii Komi nauchnogo tsentra Ural’skogo otdeleniya RAN, 2(76), 31–33 (in Russian).
  12. Novoselov Yu.K. et al. (1987). Metodicheskie ukazaniya po provedeniyu polevykh opytov s kormovymi kul’turami [Guidelines for Field Experiments with Forage Crops]. Moscow: VIK.
  13. Novoselov Yu.K., Volovik V.T., Rudoman V.V. (2009). Resource-serving techniques methods of cultivation summer rapeseed and their economic efficiency. Kormoproizvodstvo=Fodder Production, 6, 17–21 (in Russian).
  14. Posypanov G.S., Dolgodvorov V.E., Zherukov B.Kh. et al. (2007). Rastenievodstvo [Crop Production]. Moscow: KolosS.
  15. Pryadilshchikova E.N., Vakhrusheva V.V., Chernysheva O.O. (2022). Perennial grass of pastoral use for adaptive fodder production of the Vologda Oblast. AgroZooTekhnika=Agricultural and Lifestock Technology, 5(4). DOI: 10.15838/alt.2022.5.4.1 (in Russian).
  16. Radchikov V.F., Sapsaleva T.L., Tsai V.P., Glinkova A.M. (2014). Rapeseed is an important source of protein for young cattle. Izvestiya Gorskogo gos. agrarnogo un-ta=Proceedings of Gorsky State Agrarian University, 51(4), 71–75 (in Russian).
  17. Seregina N.V. (2014). Evaluation of the productivity of spring rapeseed hybrids in the conditions of the Tula region. Zernovoe khozyaistvo Rossii=Grain Economy of Russia, 3, 48–51 (in Russian).
  18. Shevtsova S.V., Kal’bin R.F. (2017). Problems of biofuel production from rapeseed seeds in the agro-industrial complex of Krasnoyarsk Krai. Simvol nauki, 2(2), 134–136 (in Russian).
  19. Shpaar D. (2007). Raps i surepitsa. 2-e izd., pererab. i rasshir. [Rapeseed and Surepitsa 2nd Edition, Reprinted and Expanded]. Moscow.
  20. Shpakov A.S. et al. (2004). Ispol’zovanie rapsa v kormlenii sel’skokhozyaistvennykh zhivotnykh: prakt. Rekomendatsii [The Use of Rapeseed in Feeding Farm Animals: Practical Recommendations]. Moscow.
  21. Starr C., Suttle J., Morgan A., Smith D. (1985). A comparison of sample preparation and calibration techniques for the estimation of nitrogen, oil and glucosinolate content of rapeseed by near infrared spectroscopy. The Journal of Agricultural Science, 104(2), 317–323. DOI: 10.1017/S0021859600043987

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