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      KCI등재 SCIE SCOPUS

      Oxidative stability of rice flour during storage under thermal oxidation and light irradiation

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      https://www.riss.kr/link?id=A109609689

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      The oxidative stabilities of brown and white rice flours from two varieties, Baromi2 and Samkwang, were assessed under conditions of thermal oxidation at 60 °C and fluorescent light irradiation at 25 °C. Baromi2, designed for rice flour production, and Samkwang, intended for grain consumption, exhibited differing oxidative stabilities. Utilizing solid-phase microextraction-GC/MS and electronic nose techniques, the volatile profiles and the presence of singlet oxygen were investigated. Baromi2 displayed significantly lower oxidative stability than Samkwang under both thermal and light stress (p < 0.05), largely attributed to its higher lipid and riboflavin content. The presence of 1-octen-3-ol, a primary volatile associated with singlet oxygen, was notably detected in Baromi2 brown rice flour, whereas an increased number of aldehyde volatiles were identified in its white rice flour variant. A PCA executed through the electronic nose technique substantiated the distinction in volatile profiles between Baromi2 and Samkwang, as influenced by thermal and light irradiation treatments.


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      The oxidative stabilities of brown and white rice flours from two varieties, Baromi2 and Samkwang, were assessed under conditions of thermal oxidation at 60 °C and fluorescent light irradiation at 25 °C. Baromi2, designed for rice flour production, ...

      The oxidative stabilities of brown and white rice flours from two varieties, Baromi2 and Samkwang, were assessed under conditions of thermal oxidation at 60 °C and fluorescent light irradiation at 25 °C. Baromi2, designed for rice flour production, and Samkwang, intended for grain consumption, exhibited differing oxidative stabilities. Utilizing solid-phase microextraction-GC/MS and electronic nose techniques, the volatile profiles and the presence of singlet oxygen were investigated. Baromi2 displayed significantly lower oxidative stability than Samkwang under both thermal and light stress (p < 0.05), largely attributed to its higher lipid and riboflavin content. The presence of 1-octen-3-ol, a primary volatile associated with singlet oxygen, was notably detected in Baromi2 brown rice flour, whereas an increased number of aldehyde volatiles were identified in its white rice flour variant. A PCA executed through the electronic nose technique substantiated the distinction in volatile profiles between Baromi2 and Samkwang, as influenced by thermal and light irradiation treatments.


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