The effect of sodium chloride on the Ca 2+ , K + and Na + concentrations of the seed coat and embryo of Acacia tortilis and A. coriacea

Summary. The uptake of Na + and the loss of Ca 2+ and K + by seeds of Acacia tortilis (Forsk.) Hayne (salt tolerant) and A. coriacea DC. (salt sensitive) were determined after 24 h soaking in 250 mol m ‐1,3 NaCl or in distilled water. Na + uptake was higher by the seed coat than by the embryo of both species and higher by A. coriacea than by A. tortilis. The greater Na + uptake by A. coriacea was associated with greater Ca and K + leakage. The Na + concentration of solution imbibed by the embryo of both species was lower than the Na + concentration in the external solution, indicating an exclusion of Na + . When A. tortilis and A. coriacea seeds were treated with a series of NaCl concentration (0–400 mol m ‐1,3 ), the exclusion mechanism was particularly clear with A. tortilis at lower concentrations (50 and 150 mol m ‐1,3 ) of NaCl. In contrast, the seed coat of both species accumulated Na + . Thus the seed coat may play an important role in ion exchange. These results show that it is important to consider the seed coat and embryo separately rather than the whole seed when considering ion exchange in relation to salinity tolerance.