FEED EFFECTS ON EMU OIL CHARACTERISTICSPaul Binford and
Marsha Huddleston
Feed Effects on Emu Oil Characteristicsfrom a Processor View Point
LB Processors, LLC• Paul Binford - President and Co -Founder of
LB Processors• Physical Refining AEA Certified Emu Oil since 1994
• #1 Supplier of Emu Oil in the World• Test All Batches with an Independent AOCS
Lab
Why We Are Concern About Feed
•Consistent emu oil thickness •Color•Fatty acid profile•Stability
Consistent Emu Oil Thickness
• Emu oil will be thin or thick if feed is not balanced.
• If to much Olean, then the emu oil will be thin. This can be because to much unsaturated feeds for example to much flax, fish oils or other high 18:3 oils.
• If to much Stearin , then the emu oil will be to thick, this can be from high saturated feeds.
Color
• We have seen that a High corn diet will turn the fat a high yellow color.
• This can be removed by using natural clays if the fat is fresh. If the fat is stored for over a length of time then the color seams to be set and natural clays will not remove the color so then we have a high yellow color.
Fatty acid Profile
• Fatty acid profile is the saturated and unsaturated of the oil.
• The feed will effect the saturation and unsaturation of the oil.
Problem with a High Saturated Oil
• May not pass AEA certification• Thicker• Chemist may question if it is emu oil.• Inconsistent product is not ideal for creating formulations
Problem with a High Unsaturated Oil
• Thin • May not Certified• Un Stable
Winterized Emu Oil
Clear Emu Oil
• C16:0 % 19.5 • C16:1 % 3.8 • C17:0 % 0.1 • C17:1 % 0.1 • C18:0 % 7.7 • C18:1 % 51 • C18:2 % 15.8 • C18:3 % 0.9
Solid Emu Oil
• C16:0 % 32.4 • C16:1 % 2.9 • C17:0 % 0.2 • C17:1 % 0 • C18:0 % 15.1 • C18:1 % 39 • C18:2 % 8.7 • C18:3 % 0.5
Stability
• Why is Stability Important• Cosmetic oils need a two year shelf life
• How do we determine stability?
Analytical test: of Peroxide and Oil Stability Index Shelf Life Study• How does Feed Effect Stability?
High unsaturation (ex. 18:3) will decrease stability• How can we Stabilize oils? With antioxidants
AEA Trade Rules -Fatty Acid Profile
•C14:0 0.5% -0%
•C16:0 25%-18.5%
•C16:1 5.5%-2.5%
•C18:3 2%-0%
Examples of Fatty Acids
Emu Oil
• C16:0 % 21.5
• C16:1 % 3.3 • C17:0 % 0.1 • C17:1 % 0.1 • C18:0 % 8.5 • C18:1 % 47.2 • C18:2 % 17.3 • C18:3 % 1.2
Ostrich
• C16:0 % 30.1 • C16:1 % 7.3 • C17:0 % 0.3 • C17:1 % 0.3 • C18:0 % 7 • C18:1 % 37.5 • C18:2 % 14.3 • C18:3 % 1.4
High 14:0
Typical Emu Oil
• C14:0 % 0.3• C16:0 % 21.5 • C16:1 % 3.3 • C17:0 % 0.1 • C17:1 % 0.1 • C18:0 % 8.5 • C18:1 % 47.2 • C18:2 % 17.3 • C18:3 % 1.2
Emu Fed Dog Food
• C14:0 % 0.7 • C16:0 % 20.1 • C16:1 % 3.7 • C17:0 % 0.1 • C17:1 % 0.1 • C18:0 % 8.1 • C18:1 % 46.9 • C18:2 % 16.9 • C18:3 % 1.2
Low C16:0
Typical Emu Oil
• C16:0 % 21.5 • C16:1 % 3.3 • C17:0 % 0.1 • C17:1 % 0.1 • C18:0 % 8.5 • C18:1 % 47.2 • C18:2 % 17.3 • C18:3 % 1.2
Emu Oil High Rice Hull
• C16:0 % 15.0 • C16:1 % 1.2 • C17:0 % 0.1 • C17:1 % 0.1 • C80:0 % 4.9 • C18:1 % 46.1• C18:2 % 30.3 • C18:3 % 1.0
How do we design a good Feed