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Journal of Experimental Biology, Vol 200, Issue 16 2229-2236, Copyright © 1997 by Company of Biologists

JOURNAL ARTICLES

Developmental changes in chemoreceptive control of gill ventilation in larval bullfrogs (Rana catesbeiana). I. Reflex ventilatory responses to ambient hyperoxia, hypoxia and NaCN

X Jia and W Burggren

The time course of reflex changes in gill ventilation frequency, buccal pressure, branchial stroke volume and minute ventilation caused by a step-wise change in PO2 of inspired water and by the introduction of NaCN into the inspired water was measured in unanesthetized larval bullfrogs (Rana catesbeiana) at developmental stages TK V&shy;VII, IX&shy;XI and XVII&shy;XIX. The inspiration of hypoxic or hyperoxic water caused significant increases in gill ventilation within 7 s, while hyperoxic water had the opposite effect. Introduction of NaCN into the inspired water stream caused nearly instantaneous respiratory responses (<3 s). Early and middle stage larvae showed a significantly faster and more pronounced reflex response than the older group in all experiments. The rapid changes in gill ventilation indicate the presence of a population of branchial receptors monitoring inspired water O2 levels or possibly blood O2 levels in the efferent branchial circulation. The progressive decrease in both the amplitude and rapidity of onset of the responses with development are consistent with the progressive degeneration of the gills and a reduction in the importance of branchial gas exchange in late larval stages.

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