Protoplast-derived colonies of haploid N. plumbaginifolia leaves were used to select for resistance to NaCl, KCl and polyethylene glycol 6000 (PEG). Salt-and PEG-tolerant cell lines were isolated on the basis of growth in a culture medium containing inhibitory concentrations of either NaCl or KCl (200 mM) or PEG (25%). The frequency of resistant lines ranged from 10(-5) to 10(-6). One resistant line from each treatment was regenerated into plants. All resistant lines produced 10-25 times more proline than the wild type when grown on a non-selective medium. Similar values were also observed in the leaves of resistant progeny plants. In each mutant line, salt or PEG resistance was transmitted as a single dominant nuclear gene as shown by segregation ratios in progenies of crosses between resistant and wild-type plants. The latter observation demonstrates clearly the existence of a genetic basis for increased salt tolerance.