Technological usage of ripe banana pulp for the development of a salad dressing

Abstract

Oxidized banana (OB) is one of the important food wastes which contains a high potential to use in different products such as salad dressing. OB is a good ingredient in salad dressing due to its presence of antioxidants, vitamins, dietary fibers, and starch. the current study aimed to replace OB with non-oxidized banana (T1: 0 % T2: 25 %, T3: 50 %, T4: 75 %, and T5: 100 % OB) in salad dressing formulation and focused on the effects of OB on color, sensory, physical, chemical, rheological properties, microbial growth, and consumer studies. E-nose and volatile compounds analysis by GC-MS was also performed. According to the results, L*, a*, and b* values decreased significantly (P < 0.5) leading to a darker color of the product and effected other color evaluations (Hue, chroma, and ∆E). Viscosity was decreased significantly by the addition of the OB in the dressing formulation while pH did not change between T5 and T1 treatments. All sensory attributes score (9-point hedonic scale) decreased and consumers were given of fact of OB salad dressing has environmental benefits. Steady shear flow measurements, frequency sweep analysis, and the thixotropic loop of the oxidized banana indicated that adding OB to salad dressing negatively affected textural properties. The most effective attributes are, texture, and color discriminating the underlying differences among all 5 treatments according to MANOVA Wilks’ P-values. McNemar’s test was applied to analyze before and after consumers had been given the information about OB environmental benefits indicating that emotional attributes were changed after knowing the fact state as well as the odds ratio predicted purchase intent which increased with an increase in overall liking, pleased, flavor, and satisfied attributes. The acceptability threshold for OB in salad dressing formulation is 50 % OB. Among the identified volatile organic compounds are acetic acid, hexanoic acid, 3-methyl-1-butanol, 2-methylpropyl acetate, ethyl hexanoate, and phenylethyl acetate. The volatile organic compounds identified are 3-methyl-butanoic acid, 2-methyl-butanoic acid, and (E)-2-Decenal. The electronic device could discriminate these aromas, and the results obtained agree with those of the tasting panel and the volatile compounds.