Wine Chemistry and Biochemistry

(Steven Felgate) #1

398 V. Ferreira and J. Cacho



  1. Based on the assessment of intensity: OSME (McDaniel et al. 1990; Miranda-


Lopez et al. 1992), cross-modality matching (Eti ́evant et al. 1999), and posterior
intensity evaluation (Ferreira V et al. 2003b; van Ruth 2004)

8E.2.1.1 Techniques Based on Threshold


EDA is one of the most frequently used methods for the screening of flavor impact


compounds, probably because of its simplicity. The theoretical background of the


technique showing practicalhints to obtain a reproducible and traceable signal have


been clearly established (Ferreira et al. 2002b); however, most researchers keep on


using the technique in an archaic and refutable way, surely because they think that


the possible errors in the ranking of odorants will be corrected in the subsequent


quantitative analysis. According to this technique, the flavor extract is sequentially


diluted (following a rate R, where R is usually 2, 3, 5 or 10, but could be as high


as 20) and each dilution is analyzed by GC-O by usually a small number of judges,


often (most incorrectly) by a single one. The Flavor Dilution of an odorant corre-


sponds to the maximum dilution at which that odorant can be perceived by at least


one of the judges. Numerically, if the last dilution at which compound c was per-


ceived was P (where P usually is 0, 1, 2,...n), its FD is RPor, more correctly, RP+^0.^5.


When several judges are used in a study, usually (and incorrectly) the maximum FD


is provided as the FD factor of that compound, although the result should be the


geometric mean of the FD factors recorded for each judge (Ferreira et al. 2002b).


Charm is similar in concept, but the recording of the signal is made with the help


of a computer and the judge records not only whether there is an odorant, but the
time that the odorant is perceived just by holding pressed one key of the keyboard.


Consequently, in this case the signal is a kind of peak called Charm peak defined by


its area and height. The height of the Charm peak is the same than the FD obtained


in an AEDA experiment. A basic scheme of the techniques is shown in Fig. 8E.1.


These techniques provide a ranking of aroma compounds relating to the ratio


concentration in the extract/odor threshold in air. Working properly (using a panel of


judges and 1/10 dilutions) it is possible to obtain, with reasonable effort, confidence


intervals for the results, which are most useful for comparative purposes, and to


relate them to the concentration of the odorant in the extract.


8E.2.1.2 Techniques Based on Frequency of Citations


In these techniques an extract is injected in the GC-O system and the effluent is


smelled by a group of judges. What is recorded is the number of people that are able


to detect the odorants. The proportion of people able to detect an odorant is called


the Nasal Impact Frequency (NIF), and if the time for which the sensation lasts is


also recorded, the product NIF by time is called Surface of Nasal Impact frequency


(SNIF). This technique obviously requires a group of judges and the experiment


is carried out at a single dilution of the extract. The theoretical background and


some interesting applications of the technique are well documented in the scientific


literature (Pollien et al. 1999; Debonneville et al., 2002). The technique is more

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