. Comparative physiology of temperature regulation. Body temperature -- Regulation. DOMESTIC MAMMAL ADAPTATIONS Figure 23 shows a hydraulic model as an analog of animal energy utilization in which the effect of cooling power is coordinated with other effects such as stimulus for milk production and for growth on the regulation of food intake. This was an early sugges- tion (Kleiber, 1936) of the two great regulators of food intake, a chemostatic principle now worked out especially convincingly by J. Mayer (1953) and the thermostatic principle represented es- pecially by Strominger and Brobeck
. Comparative physiology of temperature regulation. Body temperature -- Regulation. DOMESTIC MAMMAL ADAPTATIONS Figure 23 shows a hydraulic model as an analog of animal energy utilization in which the effect of cooling power is coordinated with other effects such as stimulus for milk production and for growth on the regulation of food intake. This was an early sugges- tion (Kleiber, 1936) of the two great regulators of food intake, a chemostatic principle now worked out especially convincingly by J. Mayer (1953) and the thermostatic principle represented es- pecially by Strominger and Brobeck (1953). ENERGY IN: 0~® .regulator of appetite lAting capacity ABSORPTION capacity storage capacity heat. f ^f/^'\ S ) n stimulus FOR GROWTH *— MILK ENERGY STIMULUS FOR MILK PRODUCTION FASTING KATABOLISM REGULATOR Figure 23. Scheme of energy-utilization. 279. Please note that these images are extracted from scanned page images that may have been digitally enhanced for readability - coloration and appearance of these illustrations may not perfectly resemble the original Hannon, John P; Arctic Aeromedical Laboratory (U. S. ); University of Alaska (College). Geophysical Institute; Viereck, Eleanor. Fort Wainwright, Alaska, Arctic Aeromedical Laboratory
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