Summary
Identified as a dry receptive unit by transitory impulse frequencies up to about 200 imp/sec during rapid drops in humidity (Fig. 3) and which no other modality elicited, the dry unit on the antenna ofPeriplaneta americana is characterized by a regular (Fig. 4) and relatively high stationary impulse frequency (10–65 imp/s). Without exception the stationary discharge rate (tonic frequency) rose with falling values of stationary absolute humidity at constant temperature, and with rising values of stationary temperature of ambient air at constant humidity. Enthalpy and evaporation cooling appear to be ruled out as exclusive adequate explanations for this double dependence. No matter whether tonic frequency is plotted against absolute humidity based on either volume of moist air or weight of dry air, or against partial pressure of water vapor in ambient air, or the difference between saturation and partial vapor pressure, or against relative humidity, the dependence on the temperature is not eliminated (Figs. 5–7). Because a temperature range of about 20 °C and all humidities between 0 and 100% occupy the same large segment of the unit's tonic frequency spectrum (Fig. 8), the unit is termed bimodal.
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The author wishes to express indebtedness and gratitude to Prof. Dr. Hansjochem Autrum for backing the early stages of this project with the assistance of the Deutsche Forschungsgemeinschaft, to Prof. Dr. Helmut Altner for his prolonged support, to Dr. Hans-Jürgen Hinz for his helpful discussion of questions involving thermodynamics, to Prof. Dr. Friedrich Earth for helpful criticism of the text, and to Miss Christel Praeg for tireless technical assistance.
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Loftus, R. Temperature-dependent dry receptor on antenna ofPeriplaneta. Tonic response. J. Comp. Physiol. 111, 153–170 (1976). https://doi.org/10.1007/BF00605530
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DOI: https://doi.org/10.1007/BF00605530