[AOAC (2005). Official Methods of Analysis of AOAC International. 18th ed. Association of Official Analytical Chemists, Gaithersburg, USA.]Search in Google Scholar
[Boczar P. (2016). The economic importance of soybean and possibility of expanding its production in Poland. Probl. World Agric., 16: 35–48.]Search in Google Scholar
[Caine W.R., Sauer W.C., Verstegen M.W., Tamminga S., Li S., Schulze H. (1998). Guanidinated protein test meals with higher concentration of soybean trypsin inhibitors increase ileal recoveries of endogenous amino acids in pigs. J. Nutr., 128: 598–605.]Search in Google Scholar
[Castell A.G., Cliplef R.L. (1988). Performance and carcass responses to dietary inclusion of raw soybeans (CV. Maple Amber) by boars fed ad libitum from 30 to 95 kilograms live weight. Can. J. Anim. Sci., 68: 275–282.]Search in Google Scholar
[Choct M., Dersjant-Li Y., Mc Leish J., Peisker M. (2010). Soy oligosaccharides and soluble non-starch polysaccharides: a review of digestion, nutritive and anti-nutritive effects in pigs and poultry. Asian-Australas. J. Anim. Sci., 23: 1386–1398.]Search in Google Scholar
[CIE, Colorimetry (1986). Publication CIE 15.2. Central Bureau of the Commission Internationale de L’Eclairage, Vienna.]Search in Google Scholar
[Fiedorowicz E., Sobotka W., Stanek M., Drażbo A. (2016). The effect of dietary protein restriction in finishing pigs on the fat content, fatty acid profile, and atherogenic and thrombogenic indices of pork. J. Elem., 21: 693–702.]Search in Google Scholar
[GfE, Gesellschaft für Ernährungsphysiologie (2006). Empfehlungenzur Energie- und Nährstoffversorgung beim Schwein. Frankfurt am Main, DLG-Verlag.]Search in Google Scholar
[Grajewska S., Bocian M. (2005). Plasticity of a raw pork meat as the quality index of meat in pigs with different RYR1 gene status (in Polish). Food. Sci. Tech. Qual., 3: 38–47.]Search in Google Scholar
[Grau R., Hamm R. (1952). Eine einfache Methode zur Bestimmung der Wasserbindung in Fleisch. Fleischwirtschaft, 4: 295–297.]Search in Google Scholar
[Grela E.R., Skomiał J. (2015). Editors. Nutritional recommendations and nutritional value of feed for pigs (in Polish). Polish Academy of Science, Institute of Physiology and Animal Nutrition, Jablonna, Poland.]Search in Google Scholar
[Haug W., Lantzsch H.J. (1983). Sensitive method for the rapid determination of phytate cereals and cereal products. J. Sci. Food Agric., 34: 1423–1426.]Search in Google Scholar
[Honikel K.O. (1987). Water binding-capacity of meat. Fleischwirtschaft, 67: 418.]Search in Google Scholar
[Jarecki W., Bobrecka-Jamro D. (2015). Wpływ nawożenia dolistnego na plon i skład chemiczny nasion soi (Glycine max (L.) Merrill). Fragm. Agron., 32: 22–31.]Search in Google Scholar
[Karpiesiuk K., Kozera W., Bugnacka D., Falkowski J. (2013). Effect of pigs’ rearing conditions on meat quality and fatty acid profile in the longest dorsal muscle (in Polish). Food Sci. Tech. Qual., 3: 39–50.]Search in Google Scholar
[Kołata T. (2017). A comparative study of the chemical composition and nutritional value of the domestic soybeans seeds (in Polish). Poznan University of Life Sciences. Master’s thesis, p. 52.]Search in Google Scholar
[Kuhn G., Hennig U., Kalbe C., Rehfeldt C., Ren M.Q., Moors S., Degen G. (2004). Growth performance, carcass characteristics, and bioavailability of isoflavones in pigs fed soybean based diets. Arch. Anim. Nutr., 58: 265–276.]Search in Google Scholar
[Kukier E., Kwiatek K. (2011). Microbiological quality of feed materials used in Poland. Bull. Vet. Inst. Pulawy, 55: 709–715.]Search in Google Scholar
[Leszczyński D.E., Pikul J., Easter R.A., Mc Keith F.K., Mc Laren D.G., Novakof-ski J., Bechtel J., Jewell D.E. (1992). Effect of feeding finishing pigs extruded full-fat soybeans on performance and pork quality. J. Anim. Sci., 70: 2167–2174.]Search in Google Scholar
[Liu KS. (2012). Soybeans: chemistry, technology, and utilization. Springer, New York: Aspen Publishers, Inc. Book.]Search in Google Scholar
[Michałek S., Borowski E. (2006). Plonowanie oraz zawartość tłuszczu, kwasów tłuszczowych i białka w nasionach krajowych odmian soi w warunkach suszy. Acta Agroph., 8: 459–471.]Search in Google Scholar
[Pande M., Goli M.B., Bellaloui N. (2014). Effect of foliar and soil application of potassium fertilizer on soybean seed protein, oil, fatty acids, and minerals. Am. J. Plant. Sci., 5: 541–548.]Search in Google Scholar
[PN ISO 3496.2000 (2000). Mięso i przetwory mięsne. Oznaczanie zawartości hydroksyproliny.]Search in Google Scholar
[PN EN ISO 14902.2005 (2005). Animal Feeding Stuffs – Determination of trypsin inhibitor activity of soybean products.]Search in Google Scholar
[PN A 82109.2010 (2010). Meat and meat products – determination of fat, protein and water content. The Near InfraRed Transmission Spectrometry (NIT) method using calibration on artificial neural networks (ANN) (in Polish).]Search in Google Scholar
[Pogorzelska-Nowicka E., Atanasov A.G., Horbańczuk J., Wierzbicka A. (2018). Bioactive compounds in functional meat products. Molecules, 23: 307.]Search in Google Scholar
[Pontif J.E., Southern L.L., Combs D.F., McMillin K.W., Bidner T.D., Watkins K.L. (1987). Gain, feed efficiency and carcass quality of finishing swine fed raw soybeans. J. Anim. Sci., 64: 177–181.]Search in Google Scholar
[Rada V., Lichovnikova M., Safarik I. (2017). The effect of soybean meal replacement with raw full-fat soybean in diets for broiler chickens. J. Appl. Anim. Res., 45: 112–117.]Search in Google Scholar
[Radcliffe J.S., Brito L.F., Reddivari L., Schmidt M., Herman E.M., Schinckel A.P. (2019). A swine model of soy protein–induced food allergenicity: implications in human and swine nutrition. Anim. Front., 9: 52–59.]Search in Google Scholar
[Rodrigues I., Naehrer K. (2012). A three-year survey on the worldwide occurrence of mycotoxins in feedstuffs and feed. Toxins, 4: 663–673.]Search in Google Scholar
[Różycki M. (1996). Principles for evaluating pigs in Pig Testing Stations (SKURTCh). In: The present day situation in pig breeding and results of pig evaluation. Published by the National Research Institute of Animal Production, 14: 69–82.]Search in Google Scholar
[Tagliapietra F., Bondesan V., Dal Maso M., Schiavon E., Merenda M., Stefa-ni A., Schiavon S. (2007). Effects of raw soybean seeds low in antinutritional factors on growth performance, carcass quality and nitrogen excretion of heavy pigs in an organic farm. Poljoprivreda, 13: 61–65.]Search in Google Scholar
[Thuzar M., Puteh A.B., Abdullah N.A.P., Mohd Lassim M.B., Jusoff K. (2010). The effects of temperature stress on the quality and yield of soya bean [(Glycine max L.) Merrill.]. J. Agric. Sci., 2: 172–179.]Search in Google Scholar
[Van Roekel R.J., Purcell L.C., Salmeron M. (2015). Physiological and management factors contributing to soybean potential yield. Field Crops Res., 182: 86–97.]Search in Google Scholar
[Walczak Z. (1959). Laboratory method for determining the content of jelly in meat preserves (in Polish). Ann. Agri. Sci., 7: 619–621.]Search in Google Scholar
[Warnants N., Van Oeckel M.J., Boucque C.V. (1999). Incorporation of dietary polyunsatu-rated fatty acids into pork fatty tissues. J. Anim. Sci., 77: 2478–2490.]Search in Google Scholar
[Wiseman J., Agunbiade J.A. (1998). The influence of changes in dietary fat and oils on fatty acid profiles of carcass fat in finishing pigs. Livest. Prod. Sci., 54: 217–227.]Search in Google Scholar
[Young L.G. (1967). Raw soybeans in swine growing-finishing rations. Can. J. Anim. Sci., 47: 227–234.]Search in Google Scholar
[Zalewski K., Lahuta L.B., Horbowicz M. (2001). The effect of soil drought on the composition of carbohydrates in yellow lupin seeds and triticale kernels. Acta Physiol. Plant., 23: 73–78.]Search in Google Scholar