Abstract
In 2015–2017, in the proving grounds of the Institute of Agroecology and Plant Production of Wrocław University of Environmental and Life Sciences, field studies were carried out on the different row spacing and the application of the Asahi SL biostimulant on soybean development and yield. The field study employed a split-plot method, with four replications, and two variable factors: First factor – varying row spacing (15 cm and 30 cm); second factor – the application of the Asahi SL biostimulant (control – no application, foliage stage – BBCH 14–15, budding stage – BBCH 51, foliage and budding stage – BBCH 14–15 and BBCH 51). The variable row spacing factor (15 cm, 30 cm) significantly influenced soybean post-harvest residue yield, while not affecting the harvested seed yield or nutrient efficiency. Wider row spacing (30 cm) favored increased post-harvest residue yield, increased Ca content in seeds and Mg content in stems. The use of the Asahi SL biostimulant had a positive effect on increased seed and post-harvest residue yield, as well as crude fat and total protein yield per hectare, compared to the untreated control.
References
- Abdelghany A.M., Zhang S., Azam M. i in., 2020. Profiling of seed fatty acid composition in 1025 Chinese soybean accessions from diverse ecoregions. Crop J. 8(4), 635–644. https://doi.org/10.1016/j.cj.2019.11.002
- Babic A.A., 1975. Wlijanie gustoty stojania rastenij i krupnosti siemjon soi na urożaj. Sel. Semen. 6, 70–71.
- Bartkowiak A., 1978. Analiza wariancji dla układów ortogonalnych. Program AWA. W: Opis merytoryczny programów statystycznych
- opracowanych w Instytucie Informatyki Uniwersytetu Wrocławskiego. Wydawnictwo Uniwersytetu Wrocławskiego, 43–60.
- Bielików J.P., 1954. O nie kotorych biołogiczeskich osobiennostiach soi w swiazi s gustotoj jejo posiewa. Dokł. Akad. Nauk SSSR 96(4), 829–831.
- Biel W., Gawęda D., Łysoń E. i in., 2017. Wpływ czynników genetycznych i agrotechnicznych na wartość odżywczą nasion soi. Acta Agroph. 24(3), 395–404.
- Bielików J.P., 1959. Woprosy o biołogiczeskom obosnowanji kwadratno-gniezdowowo sposoba posiewa soi. Dokł. Akad. Nauk SSSR 2, 93–95.
- Clemente T.E., Cahoon E.B., 2009. Soybean oil: genetic approaches for modification of functionality and total content. Plant Physiol. 151(3), 1030–1040. https://doi.org/10.1104/pp.109.146282
- Crookston K.R., 1976. Intercropping a new version of an old idea. Crops and Soils. American Society Agronomy. Wisconsin, 7–9.
- Cox W.J., Jolliff G.D., 1986. Growth and yield of Sunflower and Soybean under soil water deficits. Agron. J. 78(2), 226–230. https://doi.org/10.2134/agronj1986.00021962007800020002x
- Czeczko R., Mikos-Bielak M., 2004. Efekty stosowania bistymulatora Asahi w uprawie różnych gatunków warzyw. Annales UMCS sec. E, Agricultura, 59(3), 1073–1079.
- Elandt R., 1964. Statystyka matematyczna w zastosowaniu do doświadczalnictwa rolniczego. Warszawa, PWN, Warszawa.
- Hou G., Gary R., Ablett K. i in., 2006. Environmental effects on fatty acid levels in soybean seed oil. J. Am. Oil Chem. Soc. 83(9), 759–763. https://doi.org/10.1007/s11746-006-5011-4
- Kozak M., Malarz W., Kotecki A. i in., 2008. Wpływ zróżnicowanej ilości wysiewu i biostymulatora Asahi SL na skład chemiczny nasion i resztek pozbiorowych soi uprawnej. Rośl. Oleiste 29, 217–230.
- Lal R., 2005. World crop residues production and implications of its use as a biofuel. Environ. Int. 31(4), 575–584. https://doi.org/10.1016/j.envint.2004.09.005
- Lee H., Cho B-K., Kim M.S. in., 2013. Prediction of crude protein and oil content of soybeans using Raman spectroscopy. Sens. Actuators B: Chem. 185, 694-700. https://doi.org/10.1016/j.snb.2013.04.103.
- Łukasiewicz S., 2006. Propozycja modyfikacji metody wykreślania okresu wilgotnego, humidowego, w diagramie klimatycznym Gaussena-Waltera. W: Badania fizjograficzne nad Polską Zachodnią, Seria A – Geografia Fizyczna. Poznań, 95–99.
- Medic J., Atkinson C., Hurburgh, C.R., 2014. Current knowledge in soybean composition. JAOCS 91(3), 363–384. https://doi.org/10.1007/s11746-013-2407-9
- Murphy D.J., 2025. Agronomy and environmental sustainability of the four major global vegetable oil crops. Oil palm, soybean, rapeseed, and sunflower. Agronomy 15(6), 1465. https://doi.org/10.3390/agronomy15061465
- Natarajan S., 2014. Analysis of soybean seed proteins using proteomics. J. Data Min. Genom. Proteom. 05(01), 10–12. https://doi.org/10.4172/2153-0602.1000e113
- Popovic V., Malesevic M., Miladinovic J. i in., 2012. Effect of agroecological factors on variations in yield, protein and oil contents in soybean grain. Rom. Agric. Res. 30, 241–247.
- Pyzik J., 1982. Wpływ warunków przyrodniczych i czynników agrotechnicznych na plon i skład chemiczny nasion oraz niektóre cechy morfologiczne nowych form soi. Zesz. Nauk. Akad. Rol. Krak. Rozprawa habilitacyjna 87, 1–33.
- Redondo-Cuenca A., Villanueva-Suárez M. J., Mateos-Aparicio I., 2008. Soybean seeds and its by-product okara as sources of dietary fibre. Measurement by AOAC and Englyst methods, Food Chem. 108(3), 1099–1105. https://doi.org/10.1016/j.foodchem.2007.11.061
- Serafin-Andrzejewska M., Kozak M., 2018. Reakcja gorczycy białej uprawianej na nasiona na włączenie biostymulatora Asahi SL do technologii uprawy Cz. I Cechy morfologiczne roślin przed zbiorem i plon nasion, Fragm. Agron. 35(3), 89–98.
- Strażyński P., Kardasz P., Mrówczyński M., 2023. Metodyka integrowanej produkcji soi. Instytut Ochrony Roślin – PIB, Warszawa, ss. 73.
- Sultan S.M., Dikshit N., Vaidya U.J., 2015. Oil content and fatty acid composition of soybean (Glycine max L.) genotypes evaluated under rainfed conditions of Kashmir Himalayas in India. J. Appl. Nat. Sci. 7(2), 910–915. https://doi.org/10.31018/jans.v7i2.706
- Szwejkowska B., 2005. Wpływ intensywności uprawy grochu siewnego na zawartość i plon białka. Acta Sci. Pol., Agricultura 4(1), 153–161.
- Taheripour F., Hertel T.W., Ramankutty N., 2019. Market-mediated responses confound policies to limit deforestation from oil palm expansion in Malaysia and Indonesia. Proc. Nat. Acad. Sci. Nat. Acad. Sci. 116(38), 19193–19199. https://doi.org/10.1073/PNAS.1903476116
- Young V., Pellett P., 1994. Plant proteins in relation to human protein and amino acid nutrition. Ame. J. Clin. Nutr. 59(5), 1203–1212.
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