Gum acacia, a natural hydrocolloid, is extensively used as an emulsifier/st
abilizer in beverage emulsions. Factors that may affect emulsion formation,
emulsion stability and viscosity of the emulsion concentrate were studied
to assess their significance, including proximal composition of the gum (pr
otein content and mineral content), gum processing prior to emulsion prepar
ation (pasteurization and demineralization), and pH of the dilute emulsion.
Protein content was not related to emulsion stability, whereas minerals de
creased stability presumably due to an electrostatic screening effect. Both
pasteurization and demineralization favored stability, most Likely by prom
oting protein unfolding and eliminating the screening effect, respectively.
Emulsions were less stable at pH = 2.5 than at higher pH levels (4.5 and 5
.5). There was a significant difference between the two gum species studied
(Senegal and Seyal) in their sensitivity to these treatments. The viscosit
y of the emulsion concentrate was decreased by pasteurization and increased
by demineralization. Protein load at the O/W interface and thickness of th
e adsorbed layer of emulsifier were not related to emulsion stability. The
most important colloidal interactions in dilute beverage emulsions are van
der Waals, electrostatic and polymeric steric. (C) 2001 Elsevier Science Lt
d. All rights reserved.