Greg Miller scite author profile

American whiskeys are economically and culturally significant beverages with complex sensory profiles; however, how aromas and flavours are linked to mashbill (fermentedwash recipe) and/or aging time in new, charred oak barrels have not been thoroughly investigated. To accomplish this goal, sensory Descriptive Analysis and Chemometric analyses, including Headspace Solid-Phase Microextraction-Gas Chromatography-Mass Spectrometry and Liquid Chromatography-Quadrupole-Time-of-Flight-Mass Spectrometry, were conducted to evaluate American whiskeys distilled from controlled mashbills (two bourbons, two ryes) and aged in new, charred oak barrels from the same cooperage and stave lot. Data were analysed using M/ANOVA, Canonical Variate Analysis and Multiple Factor Analysis. The trained Descriptive Analysis panel evaluated all samples and developed a consensus attribute list. Panellists rated samples on 15-pt scales, in triplicate using a Williams Latin Square Design spread over 12 sessions to reduce presentation order effects. Descriptive Analysis results revealed that whiskey samples varied significantly in multivariate profiles and for 18 of 35 attributes by mashbill and aging time at bottling, but not by their interaction. Potentially positive whiskey attributes (e.g., vanilla and apples) are linked to increased aging times and higher corn content whereas other attributes (e.g., vegetal and hay/grassy) are correlated to shorter aging times. All analyses showed similar overall projections in the Multiple Factor Analysis for individual samples. Results from this study can help researchers, consumers, and distillers map sensory profiles of American whiskeys due to mashbill and aging time bottling. © 2020 The Institute of Brewing & Distilling Additional supporting information may be found online in the Supporting Information section at the end of the article.Additional supporting information may be found online in the Supporting Information section at the end of the article.Mashbill and barrel aging effects on the sensory and chemometric profiles of American whiskeys J. Inst. Brew. 2020; 126: 194-205

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Importance of Sensory Evaluation in the Stability Testing of a Medical Food

Thomas¹,

Caporaso²,

Miller³

et al. 1981

Journal of Food Science

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A medical food was formulated as a dry powder product containing free essential ammo acids, fat and carbohydrates. Samples were stored at 4"C, 25"C, and 40°C and evaluated periodically during storage. Proximate analysis, pH, amino acid analysis, osmolarity, emulsion stability, Hunter color difference, and sensory evaluation tests were performed. Changes could not be detected by the chemical tests employed, but were manifested in sensory analysis. This study indicated that sensory testing of medical foods is a critical tool in the assessment of product stability and must be considered an integral part of any medical food stability program. Chemical analysis alone will not provide sufficient data to allow prediction of either patient acceptance or product integrity.

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Quantum Calculations of Collinear Reactive Triatomic Systems. III. H+Cl2→HCl+Cl

Miller

Light

1971

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Greg Miller

Does chemical modification of tastants merely enhance their intrinsic taste qualities?

Quantum Calculations of Collinear Reactive Triatomic Systems. II. Theory

Mashbill and barrel aging effects on the sensory and chemometric profiles of American whiskeys

Importance of Sensory Evaluation in the Stability Testing of a Medical Food

Quantum Calculations of Collinear Reactive Triatomic Systems. III. H+Cl2→HCl+Cl

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