Evaluation of Initial Flavor Fade in Fresh Roasted Peanuts using Gas Chromatography-Flame Ionization Detection, Gas Chromatography-Olfactometry, Sensory Analysis, and Chemosensory Techniques

Powell, Jodi

17 November 2004

Preventing flavor fade requires an understanding of the relationship between carbonyl amine and lipid oxidation reactions. The polyunsaturated fatty acid content of lipids in peanuts makes them more susceptible to lipid oxidation. The major by-products of the oxidation reaction are nonanal, hexanal, octanal, and decanal. These chemicals are associated with cardboardy, painty, and oxidized flavors associated with flavor fade. The carbonyl-amine reaction yields a variety of pyrazines with positive flavor attributes. Initial flavor notes were explored through sensory work, Gas Chromatography-Olfactometry, and chemical analysis. The fresh roasted volatiles produced from roasted peanuts and the aldehydes resulting from oxidation were also evaluated using GC-FID to quantify and identify the pyrazines and hexanal over a 21 day storage period. Electronic Nose was used to determine differences between storage periods. Gas chromatography-Olfactometry identified potent pyrazines contributing to fresh roasted peanutty aroma in fresh peanuts. Using GC-FID a significant decrease (p<.05) in 2-ethylpyrazine and 2,3-diethylpyrazine concentration was found over a 21-day period. No significant difference (p>0.05) was noted in the other pyrazines evaluated. A significant increase (p<0.05) was noted in the hexanal concentration over a 21-day period. The peroxide values and sensory analysis correlated directly with the GC-FID results with a significant increase (p<0.05) in peroxide value at Day 14 and Day 21, and a significant decrease (p<0.05) in fresh roasted peanuty flavor from days 0-21 and a significant increase (p<.05) in painty, cardboardy and bitter from days 7-21. The electronic nose successfully separated Day 0 and Day 21 samples from Day 7 and 14, which were also separated, but with minimal overlap. / Ph. D.

solid phase microextraction

gas chromatography-olfactometry

roasted peanuts

Pyrazines

Formation of Key Aroma Compounds Generated in Condensed Wood Smoke for the Flavoring of Foods

Vazquez, Timothy D.

11 August 2022

No description available.

Food Science

Aplicación de la cromatografía de gases-olfatometría en la caracterización del aroma del vinagre de vino, de los pistachos y del aceite de oliva.

Aceña Muñoz, Laura

04 March 2011

En esta Tesis Doctoral se aplica la cromatografía de gases con detector olfatométrico (la nariz humana) en el análisis de los compuestos volátiles aromáticos de distintos alimentos: el vinagre de vino con Denominación de Origen Protegida “Vinagre de Jerez”, los pistachos tostados y el aceite de oliva. Los distintos métodos de preparación de muestra (la microextracción en fase sólida sobre el espacio de cabeza, o HS-SPME, y la extracción directa con disolvente, o DSE) han proporcionado extractos representativos del aroma de estos productos, y gracias a la técnica olfatométrica empleada (Aroma Extract Dilution Analysis o AEDA) se han identificado los odorantes más potentes. Así se ha logrado caracterizar el aroma de dichos alimentos, recogiéndose los resultados de las investigaciones realizadas en distintos artículos publicados en varias revistas internacionales. / In this Doctoral Thesis, the gas chromatography with olfactometry detector (the human nose) has been applied to analyse the volatile aromatic compounds from different foodstuffs: the wine vinegar produced under Protective Denomination of Origen “Vinagre de Jerez”, the roasted pistachios and the olive oil. The different sample pre-treatment methods employed (the headspace solid-phase microextraction, or HS-SPME, and the direct solvent extraction, or DSE) have provided representative aroma extracts from these products. Furthermore, and thanks to the olfactometric technique used (the Aroma Extract Dilution Analysis or AEDA), the most potent odorants have been identified. Thus, the aroma of all these foodstuffs has been characterized. All the results obtained from the research developed have been published in different international journals.

Análisis cromatográfico

Chromatographic analysis

Gas chromatography-olfactometry (GCO)

Aroma

fragrancy

compuestos volátiles

volatile compounds

Caracterización

Characterization

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