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The results of the research concerning the formation of seed quality depending on the cultivation conditions and varietal peculiarities were presented in the paper. Analyzing seed quality in the years under study, it was found out that germination energy and seed emergence depended both on ripeness groups of switch-grass and the sum of effective temperatures in the vegetation period. The highest quality indicators were typical for an early cultivar (Dacotah), an early-ripening cultivar (Forestburg) and average-ripening cultivars (Nebraska, Sunburst); a reliable difference depending on varietal peculiarities was not recorded. Varietal samples of average-late ripening cultivars (Alamo, Cave-in-rock) had reliably lower quality indicators, and a very-late ripening cultivar Kanlow had the lowest ones. In the conditions of the Forest-steppe of Ukraine average-late, late and very late varietal samples do not ripen biologically which affects seed quality – its emergence is very low and amounts to 6–26%. By the years under study, the highest reliable germination energy and emergence of all varietal samples, particularly in a late ripeness group, were recorded in the vegetation year of 2018, and they amounted to 33–66% and 17–25%, respectively, which was predetermined by the sum of effective temperatures – over 3539 °С. Much lower indicators of seed quality were received in 2021, this year was the least favorable for the formation of high-quality seed, and the sum of effective temperatures was only 3080 °С. The conclusion can be made that in the period of vegetation the formation of quality seeds of switch-grass depended on the sum of effective temperatures which was lower than 3300 °С. It has been established that the later a ripeness group is, the larger sum of effective temperatures a varietal sample requires, and accordingly, a longer term for the occurrence of phonological phases of crop growth and development; this has an effect on the peculiarities of the seed formation and ripening and in turn on its quality. It was found out that the factor "the conditions of the year" had the highest effect on seed quality – 48%, and the factor "varietal sample – ripeness group" had the lowest one, namely 29% and 30%, respectively.
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Rocznik
Tom
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15--20
Opis fizyczny
Bibliogr. 19 poz., rys., tab.
Twórcy
autor
- Institute of Bioenergy Crops and Sugar Beets of NAAS of Ukraine, Klinichna 25, 03110 Kyiv, Ukraine
autor
- Institute of Bioenergy Crops and Sugar Beets of NAAS of Ukraine, Klinichna 25, 03110 Kyiv, Ukraine
autor
- Institute of Bioenergy Crops and Sugar Beets of NAAS of Ukraine, Klinichna 25, 03110 Kyiv, Ukraine
autor
- Institute of Bioenergy Crops and Sugar Beets of NAAS of Ukraine, Klinichna 25, 03110 Kyiv, Ukraine
autor
- Institute of Bioenergy Crops and Sugar Beets of NAAS of Ukraine, Klinichna 25, 03110 Kyiv, Ukraine
autor
- Institute of Bioenergy Crops and Sugar Beets of NAAS of Ukraine, Klinichna 25, 03110 Kyiv, Ukraine
autor
- Bila Tserkva National Agrarian University, Soborna Square 8/1, Bila Tserkva, Kyiv region Ukraine, 09110
autor
- Pavlo Tychyna Uman State Pedagogical University, Sadova str. 2, Uman, 20300 Ukraine
Bibliografia
- 1. Adkins S.W., Bellairs S.M., Loch D.S. 2002. Seed dormancy mechanisms in warm season grass species. Euphytica. V. 126(1), 13–20.
- 2. Agro-forecast: active and effective temperatures for agricultural crops. URL: https://kurkul.com/blog/690-agropogoda-rozrahovuyemo-aktivni-taefektivni-temperaturi-dlya-silgospkultur.
- 3. Beaty E.R., Engel J.l., Powell J.D. 1978. Tiller development and growth in switchgrass. J. Range Manage., 31, 361−365.
- 4. Bransby D.I., Bransby D.I., Walker R.H., Miller M.S. 1997. Development of optimal establishment and cultural practices for switchgrass as an energy crop. Five year summary report. Oak Ridge National Laboratory, Oak Ridge, Tennessee 1997.
- 5. Calabrò P.S., Catalán E., Folino A., Sánchez A., Komilis D. 2018. Effect of three pretreatment techniques on the chemical composition and on the methane yields of Opuntia ficus-indica (prickly pear) biomass. Waste Manag. Res., 36, 17–29.
- 6. Doronin V.А., KravchenkoY.А., Busol М.V., Doronin V.V., Mandrovska S.М., Honcharuk H.S. 2015. Determination of seed emergence of switch-grass Panicum virgatum L. (Methodological recommendations) - К., IBECASB of NAAS, 10.
- 7. Doronin V.А., Kravchenko Y.А., Dryha V.V., Doronin V.V., Karpuk L.М. 2019. Peculiar aspects of the determination of laboratory emergence of switchgrassseeds (Panicum virgatum l.). Bulletin of Uman national university of horticulture, 2, 12–16.
- 8. Elbersen H.W., Christian D.G., El Bassen N., Bacher W., Sauerbeck G., Aleopoulou E., Sharma N., Piscioneri I., De Visser P., Van Den Berg D. 2001. Switchgrass variety choice in Europe. - Aspects of Applied Biology, 65, 21−28.
- 9. Fisher R.A. 2006. Statistical methods for research workers. New Delhi: Cosmo Publications, 354.
- 10. FuchyloY.D., SbytnaM.V., FuchyloO.Y., Litvin V.M. 2009. Experience and perspectives of growing poplar trees (Populus sp.l.) in the southern steppe of Ukraine. Scientific works of Forest academy of sciences of Ukraine: proceedings, Ukraine 2009, 7, 66–69.
- 11. Li M. 2010. Different seed dormancy levels imposed by tissues covering the Capyopsis in zoysiagrass (Zoysia japonica Steud). Seed Science and Technology, 38(2), 320–331.
- 12. Moser L.E., Vogel K.P. 1995. Switchgrass, Big Blustem, and Indiangrass. In: An introduction to grassland agriculture. R. F. Barnes, D.A. Miller and C.J. Nelson (esd). Forages, 5th ed. Vol. 1, Ames, IA: Iowa University Press, 409−420.
- 13. Mozharivska І.А. 2013. Cultivation technology of rare energy crops for the production of various kinds of fuel. Scientific works of the Institute of bioenergy crops and sugar beets: proceedings. Kyiv, Ukraine 2013, 19, 85.
- 14. Patent 85560 Ukraine, MKI А01Н 4/00 Technique of accelerated reproduction of switch-grass/ Voitovska V.І., Mandrovska S.М. (Ukraine). u 201306037, Appl. 16.05.2013; Published. 25.11.2013; Bull. 22.
- 15.Roik M.V., Yaholnyk О.H. 2015. Agro-industrial energy plantations – the future of Ukraine. Bioenergetics, 2, 4−7.
- 16. Shcherbakova Т.О., Rakhmetov D.B. 2017. Peculiarities of shoot structure of switch-grass (Panicumv virgatum L.) in the conditions of the introduction in the Right-bank Forest steppe and Polissia of Ukraine. Plant Varieties Studying and protection, 13(1), 85−88.
- 17. Site of the company StatSoft, developer of the software Statistica 6.0: http://www.statsoft.ru/.
- 18. Vogel K.P., Brejda J.J., Walters D.T., Buxton D.R. 2002. Switchgrass biomass production in the Midwest USA: Harvest and nitrogen management. Agron. J., 413–420.
- 19. Wolf D.D., Fiske D.A. Planting and managing switchgrass for forage, wildlife, and conservation/ Viginia Cooperative Extension, publication, 418-013. URL: http://pubs.ext.vt.edu/418/418-013/418-013_pdf.pdf
Typ dokumentu
Bibliografia
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