Investigation of biomorphological and decorative characteristics of ornamental species of the genus Lupinus L.
Abstract
I.M. Didur, V.M. Prokopchuk, H.V. Pantsyreva
In the Podillya area, the most promising for greening different objects is the Lupine perennis L. and Lupine Polyphyllus Lindl. For creation of modern garden compositions of the park zone of Vinnytsia National Agrarian University the most appropriate are the varieties: Lulu-Russell, Minaret, Albus, Fireworks, which were well adapted to the growing conditions, were practically not affected by pests and diseases, were sufficiently resistant to environmental conditions. According to the flowering phase study, it was found that the highest flowering duration was observed in perennial lupine plants. In determining the suitability of the plants studied by us for their use in landscaping, their assessment of the complex of economic and biological indicators in accordance with the State Methodology of Variety Testing was carried out. Their high score on a set of criteria testifies to the prospect and suitability for cultivation in Podillia conditions, as well as the value for different uses: flower beds, ridges, mixboards, landscape type compositions and their smaller variants imitating natural groups.
Key words: Lupinus L; Variety; Hybrid; Flowering time; Biomorphological features; Decorative characteristics; Growing area
References
Atkins, C. A. (2002). Phenotypic diversity among annual lupins used for crops or having cropping potential. Internat. Conf. on Legumes Genomic and Genetics, Abstracts, 4, 123-140.
Bahmat M. I., Mazur V. A., Didur I. M., Pantsyreva H. V., & Telekalo N. V. (2018). Bioenergy efficiency of the usage of biopreparations for the growth of white lupine in the conditions of the Right-Bank Forest-Steppe of Ukraine. Ukrainian Journal of Ecology, 8(3): 203-208 (in Ukraine).
Brelles, M, G., & Boiardi, J. L. (1996). Nitrogen limitation of chemostat-grown Rhizobium etli elicits higher infection-thread formation in Phaseolus vulgaris. Microbiology, 142(5), 1067-1070. Davis Tim, D., & Narenda, S. (1986). Soybean photosynthesis and growth as influenced by flurprimidol. Compar Physiology and Ecology, 11(4), 166-169. Djekoun, A., & Planchon, C. (1991). Water status effect on dinitrogen fixation and photosynthesis in soybean. Agronomy Journal, 83(2), 316-322.
Dorcinvil, R., Sotomayor-Ramírez, D., & Beaver, J. (2010). Agronomic performance of common bean (Phaseolus vulgaris L.) lines in an Oxisol. Field Crops Research, 118(3), 264-272. 12. Duke, S. H., & Collins, M. (1985). Role of potassium in legume dinitrogen fixation. Potassium in agriculture, (potassiuminagri), 443-465. Elkins, D. M., Hamilton, G., Chan, C. K. Y., Briskovich, M. A., & Vandeventer, J. W. (1996). Effect of Cropping History on Soybean Growth and Nodulation and Soil Rhizobia 1. Agronomy Journal, 68(3), 513-517. Mazur, V. A., Mazur, K. V., Pantsyreva, H. V., Alekseev, O. O. (2018). Ecological and economic evaluation of varietal resources Lupinus albus L. in Ukraine. Ukrainian Journal of Ecology, 8(4), 148-153 (in Ukraine). Mazur, V. A. (2018). Primary introduction assessment of decorative species of the lupinus generation in Podillya. Scientific Bulletin of UNFU, 28(7), 40–43. https://doi.org/10.15421/40280708 (in Ukraine).
Mazur, V. A., Prokopchuk, V. M., & Pantsyreva, G. V. (2018). Primary introduction assessment of decorative species of the lupinus generation in Podillya. Scientific Bulletin of UNFU, 28(7), 40–43. https://doi.org/10.15421/40280708
Mazur, V. A. & Pantsyreva, H. V. (2017). Vplyv tekhnolohichnykh pryiomiv vyroshchuvannia na urozhainist i yakist zerna liupynu biloho v umovakh Pravoberezhnoho Lisostepu. Silske hospodarstvo i lisivnytstvo. Vinnytsia, VNAU, Vyp. № 7. T 1, 27-36 (in Ukrainian).
Mazur, V. A., Pantsyreva, H. V., Mazur, K. V., & Monarkh, V. V. (2019). Ecological and biological evaluation of varietal resources Paeonia L. in Ukraine. Acta Biologica Sibirica, 5 (1), 141-146. https://doi.org/10.14258/abs.v5.i1.5350
Novák, K., Šlajs, M., Biedermannová, E., & Vondrys, J. (2005). Development of an Asymbiotic Reference Line for Pea cv. Bohatýr Pantsyreva, H. V. (2017). Formuvannia zernovoi produktyvnosti liupynu biloho zalezhno vid tekhnolohichnykh pryiomiv v umovakh pravoberezhnoho Lisostepu. Dys. na zd. nauk. st. k. s.-h. n. Kam’ianets-Podilskyi, 100-101(in Ukrainian). Pantsyreva, H. V. (2018). Research of sortal resources of grape species of Paeonia L. in Ukraine. Scientific Bulletin of UNFU, 28 (8), 74–78. https://doi.org/10.15421/40280815 (in Ukrainian). Pantsyreva, H. V. (2016). Vplyv elementiv tekhnolohii vyroshchuvannia na indyvidualnu produktyvnist roslyn liupynu biloho. Visnyk DDAEU, Silskohospodarska ekolohiia. Ahronomichni nauky. – Dnipro. Vyp. 2.16 s (in Ukrainian).
Pancyreva, H. V. (2016). Doslidzhennya sortovyx resursiv lyupynu bilogo (Lupinus albus L.) v Ukrayini, 4, 88–93). Vinnycya (in Ukraine). Sweetingham M. (2008). Lupins reflections and future possibilities. Lupins for Health and Wealth: Proceedings of the 12 th ILCF Western Australia 14-18 September, 514-522.
Vdovenko S. A., Prokopchuk V. M., Palamarchuk I. I., Pantsyreva H. V. (2018). Effectiveness of the application of soil milling in the growing of the squash (Cucurbita pepo var. giraumontia) in the right-benk forest stepp of Ukraine. Ukrainian Journal of Ecology, 8(4), 1-8 (in Ukraine).
Vdovenko, S. A., Pantsyreva, G. V., Palamarchuk, I. I., Lytvyniuk, H. V. (2018). Symbiotic potential of snap beans (Phaseolus vulgaris L.) depending on biological products in agrocoenosis of the right-bank forest-steppe of Ukraine. Ukrainian Journal of Ecology, 8(3), 270-215.
Furseth, B. J., Conley, S. P., & Ané, J. M. (2011). Soybean response to rhizobia on previously flooded sites in southern Wisconsin. Agronomy journal, 103(3), 573-576. Furseth, B. J., Conley, S. P., & Ané, J. M. (2012). Soybean response to soil rhizobia and seed-applied rhizobia inoculants in Wisconsin. Crop science, 52(1), 339-344.