Aerial Gas Exchange In Australian Freshwater/Land Crabs of the Genus Holthuisana

Abstract

Holthuisana valentula Riek and H. agassizi (Rathbun) both ventilate their lungs by lateral oscillations of the thoracic walls within the branchial chambers. Air enters and leaves the lungs via the prebranchial apertures and the Milne-Edwards apertures. At rest, active ventilation in H. transversa was low (0.95 ml g⁻¹ h⁻¹) and a high diffusional component was evident. After disturbance, V_A rose to 45.4ml g⁻¹ and % extraction was low (1.1%). Ventilation increased during moderate hypercapnia and marked hypoxia. MO₂ was high after disturbance (2.95μmol g⁻¹ h⁻¹) but declined to very low levels at rest (0.45μmol g⁻¹ h⁻¹). The haemocyanin had a relatively low affinity for oxygen during air-breathing (P₅₀ = 13 Torr) but it was saturated with oxygen at normal P_aO₂ (56.1 Torr). CCO₂ in the haemolymph (13 mmol l⁻⁷) was characteristic of air-breathing crabs. The respiratory performances of H. transversa in air and water are compared.