X-ray microanalytical (EDX) investigation of potassium distributions in mesophyll cells of non-acclimated and cold-acclimated rye leaves

Electron probe X-ray microanalysis was used to analyse the effects of sub-zero temperatures on K⁺ distribution in compartments within non-acclimated and cold acclimated rye (Secale cereale L. cv Voima) leaf cells and to evaluate membrane leakage of ions caused by freezing-injury. The specimens were rapidly frozen from growing temperatures and from two different sub-zero temperatures (LT₅₀ and LT₁₀₀) to which the leaves had already been slowly cooled. Measurements were made in the cytoplasm, vacuole and cell walls in freeze-substituted mesophyll cells. At ambient temperatures, the mean K⁺ concentration in the cytoplasm (100 mol m^?3) differed significantly from that of the vacuole (49 mol m^?3) in the non-acclimated (NA) cells, while in cold acclimated (A) cells, the concentrations were similar (109 vs 93 mol m^?3, respectively). At LT₅₀ temperatures, the K⁺ concentration in NA-cells decreased significantly in the cytoplasm (59 mol m^?3) but increased in the cell walls. In the A-cells, on the other hand, the mean K⁺ concentration increased significantly (about three-fold) in all major compartments. At LT₁₀₀ temperatures, K⁺ concentrations in the cytoplasm and cell walls decreased when compared with corresponding LT₅₀ values in the A-cells but increased in the NA-cells. The increased potassium concentration in the cytoplasm of A-cells at LT₅₀ temperature is compatible with the observed cell shrinkage and an absence of plasma membrane damage. The decreased potassium concentration in the cytoplasm of NA-cells at LT₅₀ temperature is compatible with the slight cell shrinkage and suggests that the plasma membrane in these cells shows increased permeability due to freeze injury.