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Evaluation of nutritive value and in vitro rumen fermentation gas accumulation of de-oiled algal residues 被引量:1
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作者 Kun Jun Han Michael E McCormick 《Journal of Animal Science and Biotechnology》 SCIE CAS 2014年第4期448-453,共6页
Background:Algae are widely recognized for their high oil content and for exponentially accumulating biomass with particular potential to provide single cell protein for human consumption or animal feed.It is believe... Background:Algae are widely recognized for their high oil content and for exponentially accumulating biomass with particular potential to provide single cell protein for human consumption or animal feed.It is believed that along with biodiesel from algae,the high protein de-oiled algal residue may become an alternative feed supplement option in the future.This study was conducted to investigate de-oiled algal residue obtained from the common Chlorella species,Thalassiosira weissflogii,Selenarstrum capricornutum,Scenedesmus sp.,and Scenedesmus dimorphus for assessment as potential feed supplements for ruminants by comparing with soybean(Glycine max) meal and alfalfa(Medicago sativa) hay.Results:With the exception of T.weissflogii,algal residue had higher concentrations of Cu,Zn,and Mn and lower concentration of Ca,Mg,and K than soybean meal and alfalfa hay.The algal residue CP(crude protein)concentrations ranged from 140 to 445 g/kg DM and varied among the de-oiled residues.In vitro rumen fermentation gas accumulation curves indicated that algal biomass degradation potential was less than that of soybean meal or alfalfa hay by up to 41.7%.The gas production curve,interpreted with a dual pool logistic model,confirmed that the fraction sizes for fast fermenting and slow fermenting of de-oiled algal residues were smaller than those in soybean meal and alfalfa hay,and the fermenting rate of the fractions was also low.Conclusions:Inferior in vitro rumen gas accumulation from the five de-oiled algal residues suggests that these algal byproducts are less degradable in the rumen. 展开更多
关键词 Crude protein de-oiled algal residue Feed supplement in vitro rumen fermentation gas Macro mineral Micro mineral
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Effect of Partially De-Oiled Peanut Meal Flour (DPMF) on the Nutritional, Textural, Organoleptic and Physico Chemical Properties of Biscuits
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作者 Deep Narayan Yadav Neharika Thakur Kappat Valiyapeediyekkal Sunooj 《Food and Nutrition Sciences》 2012年第4期471-476,共6页
Partially de-oiled peanut meal flour (DPMF) was blended with wheat flour for making biscuits. DPMF at 5, 10, 15 and 20% was used to partially replace wheat flour in biscuits formulation and biscuits thus made were eva... Partially de-oiled peanut meal flour (DPMF) was blended with wheat flour for making biscuits. DPMF at 5, 10, 15 and 20% was used to partially replace wheat flour in biscuits formulation and biscuits thus made were evaluated for nutri- tional composition, physical characteristics and sensory quality. Chemical analysis of DPMF showed 30.26% crude protein, 10.1% crude fat and 43.65% carbohydrates. The protein content increased nearly 1.5 times in biscuits as a result of incorporated DPMF, coupled with increase in ash content. The force required for breaking biscuits decreased with DPMF addition. On a 9-point hedonic scale, the highest overall acceptability score of 8.6 was obtained with 5% fortifi- cation, which was similar to control (8.8). Results demonstrated that biscuits made up of 15% DPMF exhibited all the values within an acceptable range. 展开更多
关键词 de-oiled PEANUT MEAL FLOUR DPMF Fortified BISCUITS Texture Analysis Sensory Evaluation
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