Donpon Wannasin, Lutz Grossmann, David Julian McClements
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Optimizing the Appearance of Plant-based Foods Using Natural Pigments and Color Matching Theory
The appearance of a food significantly affects consumer’s liking and buying decisions. For next-generation plant-based foods, consumers expect them to have the same appearance (color and opacity) as the animal-based products they replace. Therefore, matching the color of plant-based foods to their conventional animal-based counterparts could increase their liking and acceptance by consumers. In this study, three plant-derived food colorants, red beet (red), turmeric (yellow), and butterfly pea flower (blue), were blended to match the color of raw meat, cooked meat, cooked whole egg, and cheddar cheese. Initially, the pigments were incorporated into three separate emulsions representing the three primary colors (red, yellow, and blue). The Kubelka-Munk and color matching theories were then used to determine the amount of each emulsion required to match the spectral reflectance of the animal-based products. Our results show that color matching theory could be used to formulate plant-based emulsions with similar optical properties to animal-based products, including chroma and lightness. However, some discrepancies were observed, which may have been due to differences in the scattering of light by the complex food matrices in animal-based products. The color matching approach developed in this study could be useful for the development of plant-based food products with improved appearances, thereby expanding their consumer appeal.
期刊介绍:
Biophysical studies of foods and agricultural products involve research at the interface of chemistry, biology, and engineering, as well as the new interdisciplinary areas of materials science and nanotechnology. Such studies include but are certainly not limited to research in the following areas: the structure of food molecules, biopolymers, and biomaterials on the molecular, microscopic, and mesoscopic scales; the molecular basis of structure generation and maintenance in specific foods, feeds, food processing operations, and agricultural products; the mechanisms of microbial growth, death and antimicrobial action; structure/function relationships in food and agricultural biopolymers; novel biophysical techniques (spectroscopic, microscopic, thermal, rheological, etc.) for structural and dynamical characterization of food and agricultural materials and products; the properties of amorphous biomaterials and their influence on chemical reaction rate, microbial growth, or sensory properties; and molecular mechanisms of taste and smell.
A hallmark of such research is a dependence on various methods of instrumental analysis that provide information on the molecular level, on various physical and chemical theories used to understand the interrelations among biological molecules, and an attempt to relate macroscopic chemical and physical properties and biological functions to the molecular structure and microscopic organization of the biological material.
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