Hyperosmoregulation in the red freshwater crab Dilocarcinus pagei (Brachyura, Trichodactylidae): structural and functional asymmetries of the posterior gills

Abstract

SUMMARY The osmotic and ionic status of the haemolymph and the structural and ion-transport characteristics of the posterior gills of Dilocarcinus pagei, a hololimnetic crab, were investigated. Haemolymph osmolality was 386±18 mosmol kg–1, while [Na+] and [Cl–] were 190±13 and 206±12 mmol l–1, respectively; [K+], [Ca2+] and [Mg2+] were 9.7±0.7, 10.2±0.5 and 2.8±0.4 mmol l–1, respectively (means ± s.e.m., N=12–17). The gill lamellae possess a central, osmiophilic area, which exhibits a marked structural asymmetry. The thick (18–20 μm) proximal epithelium is characterised by basal invaginations and a few apical vesicles, while the thin (3–10 μm) distal epithelium consists of apical pillar cell flanges populated by vesicles and membrane invaginations. Isolated gills, bathed and perfused with NaCl saline, spontaneously generate a negative transbranchial potential difference (Vte), which stabilises at positive or negative values. Ouabain shifts Vte to more positive values. When mounted in an Ussing chamber, distal split lamellae generate a negative, Cl–-dependent short-circuit current (Isc). Na+ substitution leads to more negative values of Isc. Internal ouabain is without effect, while diphenylamine-2-carboxylate and acetazolamide abolish Isc. Proximal split lamellae show a positive, Na+-dependent Isc, which decreases after internal application of ouabain. These data suggest that the thin epithelium actively absorbs Cl–, while the thick epithelium actively absorbs Na+.