00-rapeseed expellers

Amino acid digestibility by weanling pigs of processed ingredients originating from soybeans, 00-rapeseeds, or a fermented mixture of plant ingredients

Navarro, D. M. D. L., Y. Liu, T. S. Bruun, and H. H. Stein. 2017. Amino acid digestibility by weanling pigs of processed ingredients originating from soybeans, 00-rapeseeds, or a fermented mixture of plant ingredients. J. Anim. Sci. 95:2658-2669. Link to abstract

Authors: 

Apparent and standardized total tract digestibility by growing pigs of phosphorus in canola meal from North America and 00-rapeseed meal and 00-rapeseed expellers from Europe without and with microbial phytase

Maison, T., Y. Liu, and H. H. Stein. 2015. Apparent and standardized total tract digestibility by growing pigs of phosphorus in canola meal from North America and 00-rapeseed meal and 00-rapeseed expellers from Europe without and with microbial phytase. J. Anim. Sci. 93:3494-3502. Link to full text (.pdf)

Authors: 

Digestibility of energy and concentrations of digestible and metabolizable energy in processed soybean and rapeseed products fed to growing pigs

Navarro, D. M. D. L., Y. Liu, T. S. Bruun, and H. H. Stein. 2015. Digestibility of energy and concentrations of digestible and metabolizable energy in processed soybean and rapeseed products fed to growing pigs. J. Anim. Sci. 93(Suppl. 2):60 (Abstr.) Link to abstract (.pdf)

Authors: 
Publication Type: 

Digestibility of energy and detergent fiber and digestible and metabolizable energy values in canola meal, 00-rapeseed meal, and 00-rapeseed expellers fed to growing pigs

Maison, T., Y. Liu, and H. H. Stein. 2015. Digestibility of energy and detergent fiber and digestible and metabolizable energy values in canola meal, 00-rapeseed meal, and 00-rapeseed expellers fed to growing pigs. J. Anim. Sci. 93:652-660. Link to full text (.pdf)

Authors: 

Digestibility of energy and concentrations of digestible and metabolizable energy in processed soybean and rapeseed products fed to growing pigs

Soybean meal is the most common source of protein in swine diets in the United States. However, conventional soybean meal contains antinutritional factors such as antigenic proteins, oligosaccharides, lectins, and trypsin inhibitors that limit its use in diets fed to weanling pigs. Methods of processing soybean meal to remove antinutritional factors have been developed. These include enzyme treatment, fermentation, and the removal of soluble carbohydrates.

Like soybean meal, rapeseed products are usually not fed to weanling pigs due to the presence of glucosinolates and relatively high concentrations of fiber in these products. Previous research has shown that fermentation of soybean meal can reduce antinutritional factors and fiber concentrations. An experiment was conducted to determine the apparent total tract digestibility (ATTD) of energy and concentrations of digestible (DE) and metabolizable (ME) energy in four sources of processed soybean products, conventional soybean meal, conventional 00-rapeseed expellers, and in a fermented mixture of co-products including 00-rapeseed expellers, wheat bran, potato peel, and soy molasses.

Authors: 
Publication Type: 

Amino acid digestibility in processed soybean products and rapeseed products fed to weanling pigs

Navarro, D. M. D. L., Y. Liu, T. S. Bruun, and H. H. Stein. 2014. Amino acid digestibility in processed soybean products and rapeseed products fed to weanling pigs. J. Anim. Sci 92(E-Suppl. 2):221 (Abstr.) Link to abstract (.pdf)

Authors: 
Publication Type: 

Digestibility by growing pigs of amino acids in canola meal from North America and 00-rapeseed meal and 00-rapeseed expellers from Europe

Maison, T. and H. H. Stein. 2014. Digestibility by growing pigs of amino acids in canola meal from North America and 00-rapeseed meal and 00-rapeseed expellers from Europe. J. Anim. Sci. 92:3502-3514. Link to full text (.pdf)

Authors: 

Digestible phosphorus in canola meal, 00-rapeseed meal, and 00-rapeseed expellers without and with microbial phytase fed to nursery pigs

Maison, T. and H. H. Stein. 2014. Digestible phosphorus in canola meal, 00-rapeseed meal, and 00-rapeseed expellers without and with microbial phytase fed to nursery pigs. J. Anim. Sci. 92(Suppl. 2):141 (Abstr.) Link to abstract (.pdf)

Authors: 
Publication Type: 

Digestible and metabolizable energy concentration in canola meal, 00-rapeseed meal, and 00-rapeseed expellers fed to growing pigs

Maison, T. and H. H. Stein. 2013. Digestible and metabolizable energy concentration in canola meal, 00-rapeseed meal, and 00-rapeseed expellers fed to growing pigs. J. Anim. Sci. 91(E-Suppl. 2):676 (Abstr.) Link to abstract

Authors: 
Publication Type: 

Amino acid digestibility in canola meal, 00-rapeseed meal, and 00-rapeseed expellers fed to growing pigs

Maison, T. and H. H. Stein. 2013. Amino acid digestibility in canola meal, 00-rapeseed meal, and 00-rapeseed expellers fed to growing pigs. J. Anim. Sci. 91(Suppl. 2):27 (Abstr.) Link to abstract (.pdf)

Authors: 
Publication Type: 

Amino acid digestibility in canola meal, 00-rapeseed meal, and 00-rapeseed expellers fed to growing pigs

Canola meal is produced from the rapeseed plant, a relative of broccoli and mustard. Rapeseed which has been hybridized to be low in both unpalatable glucosinolates and toxic erucic acid is called canola in Canada and the United States and 00-rapeseed in Europe. Oil can be removed from canola or 00-rapeseeds in two ways. Solvent extraction results in the production of canola meal or 00-rapeseed meal, while mechanical expelling results in the production of canola expellers or 00-rapeseed expellers. The meals and expellers have high concentrations of crude protein and amino acids, and can be used as protein sources in swine diets. An experiment was conductedto compare crude protein and amino digestibility between North American canola meal and European 00-rapeseed meal, and between 00-rapeseed meal and 00-rapeseed expellers.

Authors: 
Publication Type: 

Chemical composition of canola meal, 00-rapeseed meal, and 00-rapeseed expellers

Maison, T. and H. H. Stein. 2012. Chemical composition of canola meal, 00-rapeseed meal, and 00-rapeseed expellers. J. Anim. Sci. 90(E-Suppl. 3):309-310 (Abstr.) Link to abstract (.pdf)

Authors: 
Publication Type: