Ionic relations and the regulation of turgor pressure in the marine alga,Valonia macrophysa

Summary Ionic composition and turgor pressure in the giant celled marine alga,Valonia macrophysa, were measured at environmental salinities ranging from 15 to 60 (11–44 atm). The steady-state turgor pressure, which is normally about 1.5 atm, changes only 2.5 atm in response to a 25 atm change in seawater osmotic pressure. Thus, turgor regulation is 90% effective. The salts important in turgor regulation are KCl and NaCl. During turgor regulation changes in intracellular KCl concentration account for 85% of the change in sap osmolality, and changes in NaCl account for the remaining 15%. Potassium is actively transported into the vacuole, whereas chloride appears to be passively transported as the counter ion. Thus, potassium transport, which we have shown previously to be sensitive to the turgor pressure, accounts for most of the turgor regulation at all salinities.