Phase Separation Behavior of Caseins in Milk Containing Flaxseed Gum and κ-Carrageenan: A Light-Scattering and Ultrasonic Spectroscopy Study

The physico-chemical properties of skim milk containing kappa-carrageenan (in the concentration range 0-0.06% w/v), flaxseed gum (in the concentration range 0-0.40% w/v), or a mixture of both polysaccharides were studied using dynamic light scattering, under diluted conditions, as well as in situ, undiluted, using diffusing wave spectroscopy (DWS) and ultrasonic spectroscopy. Flaxseed gum causes phase separation in milk mixtures, because of thermodynamic incompatibility between the casein micelles and the polysaccharide chains. Confocal microscopy and ultrasonic spectroscopy showed that while the addition of 0.01% kappa-carrageenan was not sufficient to hinder phase separation, when 0.03% was added, the helix-helix interactions between kappa-carrageenan molecules were sufficient to form a network and stabilize the system. DWS clearly demonstrated that clusters of casein micelles still form even at very low concentrations of polysaccharides (below the visible phase separation threshold) and that kappa-carrageenan hinders visible phase separation by decreasing the mobility of the casein micelles.