Endogenous abscisic acid levels are linked to decreased growth of bush bean plants treated with NaCl

This paper studies the relative importance of endogenous ABA and ion toxicity in the leaf growth inhibition caused by NaCl in salt‐adapted and unadapted bush beans. Adaptation to salt‐stress was achieved by germination of seeds in 75 m M NaCl, while unadapted plants were germinated in tap water. The adaptation process caused a transitory increase in leaf ABA, Na + and Cl − concentrations, while leaf expansion was inhibited. However, when grown for 8 or 13 days in 75 m M NaCl‐containing nutrient solution, primary and first trifoliolate leaves of salt‐adapted plants had greater areas than those of unadapted plants. Concentrations of ABA, Na + and Cl − in these leaves were lower in adapted plants, and a strong negative correlation between leaf expansion growth and either leaf Na + , Cl − or ABA concentrations could be established. However, in the second trifoliolate leaves only the ABA, but not the Na + or Cl − , concentrations were significantly correlated with leaf expansion. Our results suggest that salt‐induced inhibition of leaf expansion growth in bush beans is mediated by ABA rather than Na + or Cl − toxicity. Moreover, the increase of ABA, induced by the salt‐pretreatment, seems to play an important role in limiting the accumulation of Na + and Cl − in the leaves, leading to adaptation of bush beans to salt‐stress.