Digestibility of canola meals in barramundi (Asian seabass; Lates calcarifer)

The influence of two different oil processing methods and four different meal origins on the digestibility of canola meals when fed to barramundi (Lates calcarifer) was examined in this study. The apparent digestibility coefficients were determined using the diet-substitution method with faeces coll...

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Published in	Aquaculture Vol. 435; pp. 442 - 449
Main Authors	Ngo, Diu Thi, Pirozzi, Igor, Glencross, Brett
Format	Journal Article
Language	English
Published	Amsterdam Elsevier B.V 01.01.2015 Elsevier Sequoia S.A
Subjects	Aquaculture Barramundi Canola Canola meal Dicentrarchus labrax Digestibility digestible energy digestible protein energy content feces Fish Lates calcarifer lipid content Lipids Lupinus Marine oils Plant protein processing technology protein content Proteins Rapeseed meal solvents Plant protein Canola meal Rapeseed meal Barramundi Digestibility
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ISSN	0044-8486 1873-5622
DOI	10.1016/j.aquaculture.2014.10.031

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Abstract	The influence of two different oil processing methods and four different meal origins on the digestibility of canola meals when fed to barramundi (Lates calcarifer) was examined in this study. The apparent digestibility coefficients were determined using the diet-substitution method with faeces collected from fish using stripping techniques. The protein content of the solvent extracted (SE) canola meals (370–423g/kg DM) was higher than that of the expeller extracted (EX) canola meal (348g/kg DM), but the lipid content was lower than that of the expeller extracted canola meal. Among the SE canola meals, the protein digestibility of the canola meals from Numurkah and Newcastle was similar (84.1% and 86.6% respectively), but significantly higher than that of the canola meal from Footscray (74.5%). The protein digestibility was lowest (63.1%) for the EX canola meal. The energy digestibility of the canola meals (43.1–52.5%) was similar to that of the lupin (54.8%) except for the lower of SE canola from Footscray (32.4%). The SE canola meals provide 276–366g/kg DM of protein while that of the EX is only 220g/kg DM. The digestible energy content of the SE canola meal Footscray (6.5MJ/kg) was lower than the other canola meals (8.7–10.6MJ/kg DM). This study shows that there can be significant variability in the digestibility of canola meals subject to potential processing and sourcing variables. •Solvent (SE) extracted canola meals (CM) had higher protein but lower lipid content than expeller (EX) extracted CM.•CM protein was generally well digested by barramundi however this varied depending on origin and extraction method with the lowest for EX CM.•Dry matter and energy digestibility of CMs were generally low which was most likely due to the high fibre content of these CMs.
AbstractList	The influence of two different oil processing methods and four different meal origins on the digestibility of canola meals when fed to barramundi (Lates calcarifer) was examined in this study. The apparent digestibility coefficients were determined using the diet-substitution method with faeces collected from fish using stripping techniques. The protein content of the solvent extracted (SE) canola meals (370-423g/kg DM) was higher than that of the expeller extracted (EX) canola meal (348g/kg DM), but the lipid content was lower than that of the expeller extracted canola meal. Among the SE canola meals, the protein digestibility of the canola meals from Numurkah and Newcastle was similar (84.1% and 86.6% respectively), but significantly higher than that of the canola meal from Footscray (74.5%). The protein digestibility was lowest (63.1%) for the EX canola meal. The energy digestibility of the canola meals (43.1-52.5%) was similar to that of the lupin (54.8%) except for the lower of SE canola from Footscray (32.4%). The SE canola meals provide 276-366g/kg DM of protein while that of the EX is only 220g/kg DM. The digestible energy content of the SE canola meal Footscray (6.5MJ/kg) was lower than the other canola meals (8.7-10.6MJ/kg DM). This study shows that there can be significant variability in the digestibility of canola meals subject to potential processing and sourcing variables. The influence of two different oil processing methods and four different meal origins on the digestibility of canola meals when fed to barramundi (Lates calcarifer) was examined in this study. The apparent digestibility coefficients were determined using the diet-substitution method with faeces collected from fish using stripping techniques. The protein content of the solvent extracted (SE) canola meals (370-423 g/kg DM) was higher than that of the expeller extracted (EX) canola meal (348 g/kg DM), but the lipid content was lower than that of the expeller extracted canola meal. Among the SE canola meals, the protein digestibility of the canola meals from Numurkah and Newcastle was similar (84.1% and 86.6% respectively), but significantly higher than that of the canola meal from Footscray (74.5%). The protein digestibility was lowest (63.1%) for the EX canola meal. The energy digestibility of the canola meals (43.1-52.5%) was similar to that of the lupin (54.8%) except for the lower of SE canola from Footscray (32.4%). The SE canola meals provide 276-366 g/kg DM of protein while that of the EX is only 220 g/kg DM. The digestible energy content of the SE canola meal Footscray (6.5 MJ/kg) was lower than the other canola meals (8.7-10.6 MJ/kg DM). This study shows that there can be significant variability in the digestibility of canola meals subject to potential processing and sourcing variables. The influence of two different oil processing methods and four different meal origins on the digestibility of canola meals when fed to barramundi (Lates calcarifer) was examined in this study. The apparent digestibility coefficients were determined using the diet-substitution method with faeces collected from fish using stripping techniques. The protein content of the solvent extracted (SE) canola meals (370–423g/kg DM) was higher than that of the expeller extracted (EX) canola meal (348g/kg DM), but the lipid content was lower than that of the expeller extracted canola meal. Among the SE canola meals, the protein digestibility of the canola meals from Numurkah and Newcastle was similar (84.1% and 86.6% respectively), but significantly higher than that of the canola meal from Footscray (74.5%). The protein digestibility was lowest (63.1%) for the EX canola meal. The energy digestibility of the canola meals (43.1–52.5%) was similar to that of the lupin (54.8%) except for the lower of SE canola from Footscray (32.4%). The SE canola meals provide 276–366g/kg DM of protein while that of the EX is only 220g/kg DM. The digestible energy content of the SE canola meal Footscray (6.5MJ/kg) was lower than the other canola meals (8.7–10.6MJ/kg DM). This study shows that there can be significant variability in the digestibility of canola meals subject to potential processing and sourcing variables. •Solvent (SE) extracted canola meals (CM) had higher protein but lower lipid content than expeller (EX) extracted CM.•CM protein was generally well digested by barramundi however this varied depending on origin and extraction method with the lowest for EX CM.•Dry matter and energy digestibility of CMs were generally low which was most likely due to the high fibre content of these CMs.
Author	Glencross, Brett Pirozzi, Igor Ngo, Diu Thi
Author_xml	– sequence: 1 givenname: Diu Thi surname: Ngo fullname: Ngo, Diu Thi email: ngodiuait7@gmail.com organization: CSIRO Aquaculture, 41 Boggo Rd, Dutton Park, QLD 4102, Australia – sequence: 2 givenname: Igor surname: Pirozzi fullname: Pirozzi, Igor organization: Centre for Sustainable Tropical Fisheries and Aquaculture & College of Marine and Environmental Science, James Cook University, Townsville, QLD 4811, Australia – sequence: 3 givenname: Brett surname: Glencross fullname: Glencross, Brett organization: CSIRO Aquaculture, 41 Boggo Rd, Dutton Park, QLD 4102, Australia
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Snippet	The influence of two different oil processing methods and four different meal origins on the digestibility of canola meals when fed to barramundi (Lates...
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SubjectTerms	Aquaculture Barramundi Canola Canola meal Dicentrarchus labrax Digestibility digestible energy digestible protein energy content feces Fish Lates calcarifer lipid content Lipids Lupinus Marine oils Plant protein processing technology protein content Proteins Rapeseed meal solvents
Title	Digestibility of canola meals in barramundi (Asian seabass; Lates calcarifer)
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