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Journal of Experimental Biology, Vol 62, Issue 1 157-174, Copyright © 1975 by Company of Biologists

JOURNAL ARTICLES

The relationship between transepithelial sodium movement and potential difference in the larva of Camptochironomus tentans (Fabr.) and some observations on the accumulation of other ions

DA Wright

In fourth instar larvae of Camptochironomus tentans, net sodium uptake from 2 mM-NaCl has an electrogenic component. During net uptake the transepithelial potential (TEP) alters from a value of approximately - 40 mV (sign refers to haemolymph), in depleted animals, to approximately o mV. The TEP in depleted larvae is dependent upon external sodium concentration above about I mM-Na+, becoming increasingly electropositive (haemolymph relative to medium) at high sodium concentrations. This effect is exaggerated in Na2SO4 compared with NaCl. At an external concentration of 2mM-NaCl, chloride is carried by an electroneutral mechanism, probably a closely coupled Cl-/anion exchange. However, it is possible that chloride transport could become somewhat electrogenic at higher concentrations. Lithium competes with sodium for the electrogenic pump. Observed TEPs differ greatly from those required to maintain passively the haemolymph concentrations of sodium and chloride.