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Changes in the volatile components of squid (illex argentinus) for different cooking methods via headspace–gas chromatography–ion mobility spectrometry
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Changes in the volatile components of squid (illex argentinus) for different cooking methods via headspace–gas chromatography–ion mobility spectrometry
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Changes in the volatile components of squid (illex argentinus) for different cooking methods via headspace–gas chromatography–ion mobility spectrometry
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Journal Article
Changes in the volatile components of squid (illex argentinus) for different cooking methods via headspace–gas chromatography–ion mobility spectrometry
2020
Overview
Squid products are becoming more and more popular with consumers because of their high yields and nutrition, including novel textures with desirable sensory properties. However, it has not been determined whether the cooking method has effects on the flavor of the squid. In this study, the aroma and volatile substances of squid samples from different cooking methods (boiled, steamed, sous vide) were determined and analyzed by headspace–gas chromatography–ion mobility spectrometry and differentiated by using, as well, an electronic nose and sensory evaluation. A total of 43 characteristic flavor compounds were identified. Based on the signal intensity of the identified violate compounds, we established a fingerprint of heat‐treated squid from different cooking methods. Due to the long‐term low‐temperature heating conditions under vacuum, the flavor of sous vide squid is different from steamed and boiled squid, and it has unique special flavor compounds. Different cooking methods can affect the aroma of squid, providing support for the industrial production of squid. Due to the long‐term low‐temperature heating conditions under vacuum, the flavor of sous vide squid is different from steamed and boiled squid, and it has unique special flavor compounds. Different cooking methods can affect the aroma of squid, providing support for the industrial production of squid.
