It has been hypothesized that respiratory "gain" to hypoxic stimulus is not depressed in hypothermic animals though ventilation and that metabolic O(2) demand (Vo(2)) decreases with reduction in body temperature. The present study addressed this hypothesis by quantitative analysis of ventilatory and carotid chemoreceptor responsiveness to hypoxia during induced hypothermia in halothane anesthetized and spontaneously breathing rats. Rectal temperature was lowered from 37 degrees C (normothermia) to 30 and 25 degrees C by cooling body surface at comparable anesthetic depth without inducing shivering. Ventilation (V(E)), V(O2), PaO(2) and carotid chemoreceptor afferent discharges were measured during hyperoxic and hypoxic gas breathing. PaO(2) values at the same Fi(O2) (range 0. 35-0.08) decreased progressively as rectal temperature decreased. Both the V(E)/V(O2)- and chemoreceptor discharge-response curves shifted toward a lower PaO(2) range with a slight increase in the response slopes during hypothermia. The results indicated that the sensitivity of carotid chemoreceptor and ventilatory responses to hypoxia did not decrease at reduced body temperature. It is concluded that carotid chemoreceptor mediated regulation of ventilation is tightly coupled to changes in PaO(2 )range in halothane anesthetized rats during induced hypothermia.