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Journal of Experimental Biology 128,123-138 (1987)
Published by Company of Biologists 1987

Discontinuous Carbon Dioxide Release and Metabolic Depression in Dormant Land Snails

M. CHRISTOPHER ARNHART ¹ and B. R. MCMAHON ²

¹ Department of Biology, University of Calgary, Calgary, Alta T2N 1N4, Canada; Department of Developmental and Cell Biology, University of California, Irvine, CA 92717, USA.
² Department of Biology, University of Calgary, Calgary, Alta T2N 1N4, Canada

The respiration of dormant land snails (Otala lactea Müller) is characterized by periodic retention and release of CO₂. Rates of oxygen uptake (V_OO2) and CO₂ release (V_COCO2) of individuals were recorded continuously for up to 21 days. V_OO2 was usually low (5.6 µlg-1 tissueh-1) but increased up to five-fold at intervals between 20 and 50 h. Snails hypoventilated and retained CO₂ when V_OO2 was low, while periods of elevated V_OO2 commenced with hyperventilation and net CO₂ release. The ratio V_COCO2/V_OO2 varied between about 0.2 and 4.8 during these cycles. Calculated wholebody CO₂ content fluctuated over a range of about 4.3 mmoll^-1 H₂O, and was inversely correlated with V_OO2.

Cycles of CO₂ retention and release might be the result and/or the cause of changes in metabolic rate during dormancy. Ventilation is sensitive primarily to O₂, and O₂ transport appears to be diffusion-limited. A simple model based on these characteristics predicts hypoventilation and consequent CO₂ retention when V_OO2 is reduced. Also, the close correlation of V_OO2 and whole-body CO₂ content in snails suggests that CO₂ or acid-base balance might influence metabolic rate during dormancy. The relationship between discontinuous CO₂ release and respiratory water loss in insects and snails is discussed.

Key words: carbon dioxide, dormancy, snail, respiration

Accepted on November 14, 1986

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