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Oxidative and Microbial Stability of a Traditional Appetizer: Aubergine Salad
An eggplant-based salad, called aubergine salad (AS), is a traditional appetizer and as such, is quite popular in the Mediterranean area. It is widely produced either on a home scale or on an industrial scale and widely consumed. However, there are cases where preservatives (such as sodium benzoate...
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| Published in: | Processes 2022-07, Vol.10 (7), p.1245 |
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| container_title | Processes |
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| creator | Bozinou, Eleni Chatzimitakos, Theodoros Alexandraki, Maria Salakidou, Chrysanthi Dourtoglou, Vassilis G. Lalas, Stavros I. Elhakem, Abeer Sami, Rokayya Ashour, Amal Adnan Shafie, Alaa Athanasiadis, Vassilis |
| description | An eggplant-based salad, called aubergine salad (AS), is a traditional appetizer and as such, is quite popular in the Mediterranean area. It is widely produced either on a home scale or on an industrial scale and widely consumed. However, there are cases where preservatives (such as sodium benzoate and potassium sorbate) are added in order to extend the shelf life of the product. In the present study, the stability of this delicatessen against oxidation and microbial spoilage was evaluated, with or without preservatives. The physicochemical properties of the salad were evaluated, along with the tocopherol content, resistance to oxidation, and microbial count. According to the results, it is evident that the induction period of AS is 16% (in the case that preservatives were used) and 26% (in the case without preservatives) increased, compared to a control sample (plain soybean oil). This can be attributed to the increased content in tocopherols, and more specifically to α-tocopherol. Furthermore, the addition of preservatives resulted in increased storage days and a reduction of microorganisms. However, in both cases, the AS-prepared salad exhibited a self-stabilization ability after 13 days, negating the need for preservatives. |
| doi_str_mv | 10.3390/pr10071245 |
| format | article |
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It is widely produced either on a home scale or on an industrial scale and widely consumed. However, there are cases where preservatives (such as sodium benzoate and potassium sorbate) are added in order to extend the shelf life of the product. In the present study, the stability of this delicatessen against oxidation and microbial spoilage was evaluated, with or without preservatives. The physicochemical properties of the salad were evaluated, along with the tocopherol content, resistance to oxidation, and microbial count. According to the results, it is evident that the induction period of AS is 16% (in the case that preservatives were used) and 26% (in the case without preservatives) increased, compared to a control sample (plain soybean oil). This can be attributed to the increased content in tocopherols, and more specifically to α-tocopherol. Furthermore, the addition of preservatives resulted in increased storage days and a reduction of microorganisms. However, in both cases, the AS-prepared salad exhibited a self-stabilization ability after 13 days, negating the need for preservatives.</description><identifier>ISSN: 2227-9717</identifier><identifier>EISSN: 2227-9717</identifier><identifier>DOI: 10.3390/pr10071245</identifier><language>eng</language><publisher>Basel: MDPI AG</publisher><subject>Adenosine triphosphate ; Benzoic acid ; Bioluminescence ; Consumers ; Food contamination & poisoning ; Food products ; Ingredients ; Lipids ; Methods ; Microorganisms ; Oxidation resistance ; Physicochemical properties ; Potassium ; Potassium sorbate ; Preservatives ; Salads ; Shelf life ; Sodium benzoate ; Spoilage ; Stability analysis ; Tocopherol ; Tocopherols ; Vegetable oils ; Vinegar</subject><ispartof>Processes, 2022-07, Vol.10 (7), p.1245</ispartof><rights>2022 by the authors. Licensee MDPI, Basel, Switzerland. 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It is widely produced either on a home scale or on an industrial scale and widely consumed. However, there are cases where preservatives (such as sodium benzoate and potassium sorbate) are added in order to extend the shelf life of the product. In the present study, the stability of this delicatessen against oxidation and microbial spoilage was evaluated, with or without preservatives. The physicochemical properties of the salad were evaluated, along with the tocopherol content, resistance to oxidation, and microbial count. According to the results, it is evident that the induction period of AS is 16% (in the case that preservatives were used) and 26% (in the case without preservatives) increased, compared to a control sample (plain soybean oil). This can be attributed to the increased content in tocopherols, and more specifically to α-tocopherol. Furthermore, the addition of preservatives resulted in increased storage days and a reduction of microorganisms. 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| subjects | Adenosine triphosphate Benzoic acid Bioluminescence Consumers Food contamination & poisoning Food products Ingredients Lipids Methods Microorganisms Oxidation resistance Physicochemical properties Potassium Potassium sorbate Preservatives Salads Shelf life Sodium benzoate Spoilage Stability analysis Tocopherol Tocopherols Vegetable oils Vinegar |
| title | Oxidative and Microbial Stability of a Traditional Appetizer: Aubergine Salad |
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