期刊
FOOD RESEARCH INTERNATIONAL
卷 160, 期 -, 页码 -出版社
ELSEVIER
DOI: 10.1016/j.foodres.2022.111691
关键词
Citrullus lanatus; Snack cracker; Fusilli pasta; Extruded snack; Degradation kinetics
资金
- Brazilian Agricultural Research Corporation [SEG 03.14.13.006.00.00]
- Conselho Nacional de Desenvolvimento Cientf Tecnologico (CNPq) [310659/2018-3]
- FAPERJ (Brazil) [E- 26/202.710/2019, E_26/204.328/2021]
A study incorporated lycopene-rich watermelon concentrate into snack crackers, fusilli pasta, and extruded snacks for coloring purposes. The degradation of lycopene content was highest in snack crackers and extruded snacks during processing, while fusilli pasta showed minimal degradation except during cooking. Thermal treatments reduced the reddish color in the products. Lycopene and color degradation during storage followed first-order kinetics, with the snack crackers being the most stable.
A lycopene-rich watermelon (Citrullus lanatus) concentrate was incorporated into snack cracker, fusilli pasta, and extruded snacks for coloring purposes. Changes in the L* and a* color coordinates and in the lycopene content were evaluated before and after thermal processes and monitored through 90 days of storage at ambient tem-perature. The products with the maximum lycopene degradation during processing were snack cracker and extruded snack (between 30 and 45%) whereas no degradation was observed in the fusilli pasta, except during cooking into boiling water (reduction up to 41%). The change in color during processing varied substantially depending on the product, but, in general, thermal treatments applied reduced the a* values (less reddish). The degradation kinetics of the lycopene and the color during storage followed first-order kinetics, with a half-life time of 25 to 315 days for lycopene content and 65 to 210 days for a* coordinate. Snack cracker was the most stable and had more than a 4-month period before losing half of the pigment content.
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