Abstract

Accumulation of free proline in response to Cu, Cd and Zn was studied in nontolerant and metal‐tolerant Silene vulgaris (Moench) Garcke. In the nontolerant ecotype these metals induced a massive accumulation of proline, especially in the leaves. When compared at equimolar concentrations in the nutrient solution, Cu was the most effective inducer, followed by Cd and Zn, respectively. However, when compared at equal toxic strength, as estimated from the degree of root growth inhibition, proline accumulation decreased in the order Cd > Zn > Cu. The threshold exposure levels for proline accumulation coincided with the highest no‐effect‐concentrations for root growth. In the metal‐tolerant ecotype the constitutive proline concentration in the leaves was 5 to 6 times higher than in the nontolerant ecotype. Exposure to Cu and Zn, however, was without any effect on the leaf proline concentration, even at exposure levels that caused a 50% root growth inhibition. Only Cd, when present at concentrations above the highest no‐effect‐concentration for root growth, induced a further increase of the leaf proline content. Reducing transpiration by placing the plants under a transparent polyethylene cover almost completely inhibited proline accumulation, even at metal accumulation rates in the leaves that caused a 10‐fold increase of the proline level in leaves of uncovered plants. The results demonstrate that metal‐induced proline accumulation depends on the development of a metal‐induced water deficit in the leaves. Differential metal‐induced proline accumulation in distinctly metal‐tolerant ecotypes is a consequence, rather than a cause of differential metal tolerance.