Elevated arterial PCO₂ (hypercapnia) has a major effect on CNS oxygen toxicity in diving with closed-circuit breathing apparatus. The purpose of the present study was to follow up the ability of divers to detect CO₂ and to determine the CO₂ retention trait after one year of active oxygen diving with closed-circuit apparatus. Ventilatory and perceptual responses to variations in inspired CO₂ (range 0-5.6 kPa, 0-42 mmHg) during moderate exercise were assessed in Israeli Navy combat divers on active duty. Tests were carried out on 40 divers during the novice oxygen diving phase (ND) and the experienced oxygen diving phase (ED). No significant changes were found between the two phases for the minimal mean inspired PCO₂ that could be detected. The mean (± SD) P_ETCO₂ during exposure to a P_ICO₂ of 5.6 kPa (42 mmHg) was significantly higher in the ND phase than in the ED phase (8.1 ± 0.7 kPa (62 ± 5 mmHg) and 7.8 ± 0.6 kPa (59 ± 4 mmHg), respectively, P 0.001). One year of shallow oxygen diving activity with closed-circuit apparatus does not affect the ability to detect CO₂, nor does it lead to increased CO₂ retention; rather, it may even bring about a decrease in this trait. This finding suggests that acquiring experience in oxygen diving with closed-circuit apparatus at shallow depths does not place the diver at a greater risk of CNS oxygen toxicity due to CO₂ retention.