This study provides the quality aspects of Vietnamese (VN) dark chocolates produced by cocoa liquors exhibiting different degrees of acidity. Hereto, the impact of preconching the highly acidic cocoa liquors was investigated. Results show that three out of four VN chocolates attained comparable solid fat content at 35C, particle sizes and flow properties to a Ghanaian reference, ensuring a similar volatile release and taste perception. Principal component analysis of the aroma compounds obtained using headspace solid-phase microextraction gas chromatography mass-spectrometry clustered the chocolates into three groups: those from GH and VN liquor with intermediate acidity, those from preconched VN liquors and that from highly acidic VN liquor. A more detailed interpretation of the flavor profile revealed that VN chocolates exhibit more profound acidic, fruity and flowery aroma. Furthermore, liquor preconching positively affected chocolate flow and decreased volatile acids, however, partly removed both highly and less volatile, desired aroma compounds.
PRACTICAL APPLICATIONSAs the demand and deficit for chocolate are increasing worldwide, the hunt for additional high-quality cocoa resources will bring added value for both farmers and chocolate industry. Vietnamese (VN) cocoa, as a newcomer, is recently expanding its global market potential, however, how its quality can be positioned in the world supply is not assessed yet. The results of this study could reveal the applicability of VN cocoa liquors varying in acidity for the production of highquality dark chocolates with specific aroma notes. However, the typical high acidity in Southeast Asian cocoa is regarded as detrimental flavor attribute, thus inspiring this work to study whether cocoa liquor preconching could improve the overall aroma as well as mouthfeel perception.
Emulsifying properties of milk fat globule membrane (MFGM) materials isolated from reconstituted buttermilk (BM; i.e., BM-MFGM) and BM whey (i.e., whey-MFGM), individually or in mixtures with BM powder (BMP) were compared with those of a commercial dairy ingredient (Lacprodan PL-20; Arla Foods Ingredients Group P/S, Viby, Denmark), a material rich in milk polar lipids and proteins. The particle size distribution, viscosity, interfacial protein, and polar lipids load of oil-in-water emulsions prepared using soybean oil were examined. Pronounced droplet aggregation was observed with emulsions stabilized with whey-MFGM or with a mixture of whey-MFGM and BMP. No aggregation was observed for emulsions stabilized with BM-MFGM, Lacprodan PL-20, or a mixture of BM-MFGM and BMP. The surface protein load and polar lipids load were lowest in emulsions with BM-MFGM. The highest protein load and polar lipids load were observed for emulsions made with a mixture of whey-MFGM and BMP. The differences in composition of MFGM materials, such as in whey proteins, caseins, MFGM-specific proteins, polar lipids, minerals, and especially their possible interactions determine their emulsifying properties.
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