Hydroxy Minerals are a distinct class of trace minerals made up of chloride, oxygen, and hydrogen covalently bound to an element
Hydroxychloride minerals have consistently been proven to be more bioavailable and biologically effective compared to sulfates and oxides.
In addition, Hydroxy Minerals have consistently been proven to be as bio-equivalent or better than Organic Trace Minerals (OTMs), at a fraction of the cost.
Hydroxy Minerals are significantly higher in active ingredient content, requiring less space in a diet than OTMs and sulfates.
Hydroxy Minerals are less reactive than ionically bound sulfates and carbonates, which helps with the stability of other dietary ingredients.
Hydroxy Minerals can completely replace lower quality sources like sulfate and oxides in diet formulations, where OTMs are unable due to dietary space and cost limitations.
Practical Research supporting Nutrilock® TBCC, Nutrilock® TBZC, Nutrilock® TBMC
Expert Technical & Customer Support in Trace Mineral Nutrition.
The Market Leader in Hydroxy Minerals.
58% Copper
Non-hygroscopic
Dust free, free flowing
Chloride contribution in feed is minimal, less than 40 ppm
Does not antagonize phytase as many other copper sources do
Does not degrade expensive vitamins like other copper sources
Take up less space in a diet or premix, which saves the customer money and real estate for more energy
58% Zinc
Non-hygroscopic
Dust free, free flowing
Chloride contribution in feed is minimal, less than 40 ppm
Hydroxy Minerals in animal performance trials consistently perform equivalent to or better than Sulfates at significantly lower supplemental levels
Hydroxy Minerals in animal performance trials consistently perform equivalent to or better than OTMs at a lower cost
46% Manganese
Non-hygroscopic
Dust free, free flowing
Chloride contribution in feed is minimal, less than 40 ppm
Hydroxy Minerals in animal performance trials perform equivalent to or better than Sulfates at significantly lower supplemental levels
Hydroxy Minerals in animal performance trials perform equivalent to or better than OTMs at a lower cost
