This study investigated the effects of blanching conditions on the quality characteristics of burdock, lotus root, and garlic scape. The selected plants were blanched at varying temperatures (70-100oC) for 1-5 min, and moisture content, shear force, color, and total microbial count were analyzed. Burdock exhibited browning discoloration when it was blanched at a relatively low temperature (70-80oC). In addition, thermal tenderization of burdock was not evident in the blanching conditions adopted in this study. Blanching affected the tenderness and moisture content of lotus root without deteriorative discoloration. In particular, low temperature blanching (80oC) was favorable to blanching lotus root. Alternately, thermal tenderization of garlic scape was possible by blanching at 80- 100oC for 3-5 min, while discoloration of the blanched garlic scape dominated at high-temperature blanching (100oC). Consequently, the result indicated that low temperature for a long time (80oC and 3-5 min) provided a better blanching condition for lotus root and garlic scape than high temperature applied at a short time (100oC and 1-3 min).
A protein-lipid film formed on the surface of soymilk by heating can be applied in various areas such as edible package film, cosmetic sheet, and meat analog. In this study, a colloid formulation of isolated soy protein (ISP) and soybean oil (4:1) was used to make protein-lipid films and it compared with the product using soymilk (Glycine max L. Merrill) for making a meat analog of fibrous shape. The colloid with 2.3 cm depth in a pan at 85︒C produced 8 sheets of protein-lipid films. The films were collected from the pan as a bundle to make a fibrous shape. Color parameters and texture profile analysis (TPA) were measured depending on the order of the film formation. Color parameters (Hunter-values) of the films using ISP and oil notably decreased the lightness and increased the redness as the order of the films. And changes of color differences in the films using ISP and oil were larger than those in the films using soymilk. TPA Parameters of the film such as hardness, resilience, springiness, cohesiveness, and gumminess were increased as increasing the order of the films formation. In the films using ISP and oil, lipid concentration was the highest in the first formed film rather than other films. However, in the films using soymilk, lipid concentration was similar among the order of the films. Consequently, the films using ISP and oil were produced non-uniformity of color, texture, and lipid composition in the order of the film formation compared with the films using soymilk. Combination of the soy protein-lipid films as a bundle could be used as a meat analog which had non-uniformity and fibrous shape.