Formation of vegetative mass by white sweerclover (Melilotus albus Med.) annual plants

Raisa Vozhehova; Anatoly Vlashchuk; Olesia Drobit; Oksana Vlashchuk; Tetiana Marchenko; Vira Borovyk; Nataliia Valentiuk; Oleksandr Shablia; Hennadii Ivanov

Help

English

Български

Formation of vegetative mass by white sweerclover (Melilotus albus Med.) annual plants

Raisa Vozhehova

, Anatoly Vlashchuk

, Olesia Drobit

, Oksana Vlashchuk

, Tetiana Marchenko

, Vira Borovyk

, Nataliia Valentiuk

, Oleksandr Shablia

, Hennadii Ivanov

Abstract: The results of research on the growth of the above-ground mass of plants, as well as the formation of the yield of conditioned seeds of the annual white sweetclover depending on the variety composition, the width of the rows and nitrogen nutrition, are presented. It was determined that the smallest amount of raw above-ground mass of white sweetclover was formed when sowing with a row width of 60 cm. The most favorable conditions for the formation of above-ground dry mass of white sweetclover are created in the Pivdennyy variety when applying a dose of N60 and a row width of 45 cm. The highest yield of conditioned seeds of annual white sweetclover (495 kg/ha) and the maximum yield of conditioned seeds from a unit of area (89.0%) was provided by the cultivation of the Pivdennyy variety with a row width of 45 cm and nitrogen fertilization with a dose of N60. The modification variability (Vm, %) depending on the application of doses of nitrogen fertilizer and amounted to 2.65-9.26% for the Pivdennyy variety and 2.71-9.38% for the Donetsʹkyy annual variety.

Keywords: dose of nitrogen fertilizer; row width; variety; wet and dry above-ground mass of plants; yield

Citation: Vozhehova, R., Vlashchuk, A., Drobit. O., Vlashchuk, O., Marchenko, T., Borovyk, V., Valentiuk, N., Shablia, O. & Ivanov, H. (2025). Formation of vegetative mass by white sweerclover (Melilotus albus Med.) annual plants. Bulg. J. Agric. Sci., 31(3), 488–496.

References: (click to open/close)

Antonova, E. V., Shoeva, O. Yu. & Khlestkina, E. K. (2019). Biochemical and genetic polymorphism of Bromopsis inermis populations under chronic radiation exposure. Planta, 249(6), 1977-1982.
Armin, M. J., Asgharipour, M. R. & Yazdi, S. K. (2011). Effects of different plant growth regulators and potting mixes on micro-propagation and mini-tuberization of potato plantlets. Advances in Environmental Biology, 4, 631-638.
Babich, A. O. & Poberezhna, A. A. (2000). Population and food at the turn of the second and third millennia. Kyiv: Agrarian Science (Ua).
Bezuhlyy, M. D. & Prysyazhnyuk, M. V. (2012). The current state of reforming the agrarian and industrial complex of Ukraine. Kyiv: Agrarian Science (Ua).
Calvino, P. A., Andradeb, F. A. & Sadrasb, V. O. (2003). Maize Yield as Affected by Water Availability, Soil Depth, and Crop Management. Agronomy Journal, 95, 275-281.
Clayton, G. W., Rice, W. A., Lupwayi, N. Z. & Johnston, A. M. (2004). Inoculant formulation and fertilizer nitrogen effects of field pea: crop yield and seed quality. Canadian Journal of Plant Science, 84, 89-96.
Cornara, L. (2016). Therapeutic potential of temperate forage legumes: a review. Critical Reviews in Food Science and Nutrition, 56(12), 149-161.
Demydas', G. I. & Zakhlebaev, M. V. (2017). Density formation of white sweet clover in a singlecrop and compatible sowings with annual cereal crops. Bulletin of the Uman National University of Horticulture, 1, 53-56.
Denisow, B. & Malinowski, D. P. (2016). Climate change and the future of our world – implications for plant phenology, physiology, plant communities, and crop management. Acta Agrobotanica, 69(2), 1-4.
Gibson, J. P. & Gibson, T. R. (2006). Plant Ecology. Infobase Publishing.
Halwankar, G. B., Raut, V. M. & Patil, V. P. (1989). Effects os sowing dates on growth and yield of soybean. Maharashtra Agr. Univ., 14(1), 120-125.
Harker, K. N., O'Donovan, J. T., Blackshaw, R. E., Johnson, E. N., Lafond, G. P. & May, W. E. (2012). Seeding depth and seeding speed effects on no-till canola emergence, maturity, yield and seed quality. Canadian Journal of Plant Science, 92, 795-802.
Martin, J. N. (1934). The relative growth rates and interdependence of tops and roots of the biennial white sweet clover, Melilotus alba Desr. American Journal of Botany, 21(3), 140-159.
Meyer, J. (1984). Nitrogen fertilization truе flood, furrow, sprinkler and drip irrigation systems. Ann. California Fertilizer Conf., 28, 25-26.
Nyfeler, D. (2009). Strong mixture effects among four species in fertilized agricultural grassland led to persistent and consistent transgressive overyielding. Journal of Applied Ecology. Oxford, 46(3), 683-691.
Özköse, A. & Tamkoç, A. (2016). Determination of Agricultural Characteristics of Smooth Bromegrass (Bromus inermis Leyss) Lines under Konya Regional Conditions. International Journal of Biological, Biomolecular, Agricultural, Food and Biotechnological Engineering, 11, 681-684.
Parrish, Z. D. (2005). Bioremediation and biodegradation: effect of root death and decay on dissipation of polycyclic aromatic hydrocarbons in the rhizosphere of yellow sweet clover and tall fescue. Journal of Environmental Quality, 34(1), 207-216.
Rajput, M. T., Tahir, S. S., Ahmed, B. A. S. I. R. & Arain, M. A. (2008). Check list of the weeds found in cotton crops, cultivated in Taluka Ubauro, district Sukkur, Pakistan. Pakistan Journal of Botany, 40(1), 65.
Rigal, M. & Rigal, L. (2016). Sweet clovers, a source of fibers adapted for growth on wet and saline soils. Journal of Natural Fibers, (13)4. 410-422.
Rochon, J. J. & Doyle, C. J. (2004). Grazing legumes in Europa: a reviw of their status, management, benefits, research needs and future prospecrs. Grass and Forage Science, 59(3), 197-214.
Tristram, G. L. (2013). Functional group dominance and identity effects influence the magnitude of grassland invasion. Journal of Ecology, 101, 1114-1124.
Tsandur, M. O. (2006). Scientific foundations of agriculture in the Southern Steppe of Ukraine. Odesa: Papyrus, (Ua).
Ushkarenko, V. O., Vozhehova, R. A., Goloborodko, S. P. & Kokovikhin, S. V. (2014). Methods of Field Experience (Irrigated Agriculture). Kherson: Grin D.S.
Vlashchuk, A. M., Pryshchepo, M. M., Konashchuk, O. P. & Kolpakova, O. S. (2015). Annual white is a promising fodder crop. Agronomist, 3(49), 216-218.
Vozhehova, R. A., Lavrynenko, Yu. O. & Malyarchuk, M. P . (2014). Methods of field and laboratory studies on irrigated lands. Kherson: Grin D.S.
Vozhehova, R. A., Vlashchuk, A. M., Drobit, O. S. & Vlashchuk, O. A. (2020). Productivity in detail. The Ukrainian Farmer, 6(126), 92–93 (Ua).
Wolf, J. J. (2004). Soil characteristics of rocky mountain national park grasslands invaded by Melilotus officinalis and M. alba. Journal of Biogeography, 31(3), 415-424.
Zinchenko, O. I., Salatenko, V. N. & Bilonozhko, M. A. (2003). Plant growing. Kyiv, Agrarian Education (Ua).

Date published: 2025-06-24

Download full text