III. Analysis and Measurement of Odors        207

        flow conditions. With this type of apparatus and standard operating condi-
        tions, it is possible to determine the detection threshold and the recognition
        threshold. At high dilution, the panel will be able to tell only whether an
        odorant is present or absent. Only at concentrations higher, typically by a
        factor of 2-10, will the subjects be able to identify the odorant.
          The olfactometric procedure contains the following elements:

          1. Dynamic dilution.
          2. Delivery of diluted odorant for smelling through a mask or port.
          3. Schedule of presentation of various dilutions and blanks,
          4. Obtaining responses from the panelists.
          5. Calculation of a panel threshold from experimental data.
          6. Panelist selection criteria.
          The first element, dynamic dilution, provides a reproducible sample for
        each panelist. The system must minimize the loss of the odorant to the
        walls of the delivery apparatus, provide clean dilution air of odor-free
        quality, maintain a constant dilution ratio for the duration of a given test,
        and have no memory effect when going from high to low concentrations
        or switching between odorants of different character. The type of mask or
        port and the delivery flow rate have been found to influence the response
        of panelists in determining odor threshold and intensity.
          The schedule of presentation may influence the results. The sensory
        effects are judgment criterion, anticipation, and adaptation. The judgment
        criterion determines how the panelist will respond when asked whether
        or not an odor is sensed. Individuals differ in their readiness to be positive
        or negative. The anticipation effect is a tendency to expect an odor over a
        given series of trials. Subjects show some positive response when no odor-
        ant is present. The adaptation effect is the temporary desensitization after
        smelling an odorant. This is also called olfactory fatigue and often occurs in
        occupational settings. Because of olfactory fatigue, investigators evaluating
        odor concentration in the field must breathe air deodorized by passage
        through an activated carbon canister before and after sniffing the ambient
        air being evaluated.
          Individuals differ in their sensitivity to odor. Figure 14-7 shows a typical
        distribution of sensitivities to ethylsulfide vapor (17). There are currently
        no guidelines on inclusion or exclusion of individuals with abnormally
        high or low sensitivity. This variability of response complicates the data
        treatment procedure. In many instances, the goal is to determine some
        mean value for the threshold representative of the panel as a whole. The
        small size of panels (generally fewer than 10 people) and the distribution
        of individual sensitivities require sophisticated statistical procedures to find
        the threshold from the responses.
          Thresholds may also be determined by extrapolation of dose-response
       plots. In this approach, the perceived odor intensity is measured at several