Compatible solute accumulation and stress-mitigating effects in barley genotypes contrasting in their salt tolerance

Z. Chen, T. A. Cuin, M. Zhou, A. Twomey, B. P. Naidu, S. Shabala
2007 Journal of Experimental Botany  
The accumulation of compatible solutes is often regarded as a basic strategy for the protection and survival of plants under abiotic stress conditions, including both salinity and oxidative stress. In this work, a possible causal link between the ability of contrasting barley genotypes to accumulate/synthesize compatible solutes and their salinity stress tolerance was investigated. The impact of H 2 O 2 (one of the components of salt stress) on K + flux (a measure of stress 'severity') and the
more » ... itigating effects of glycine betaine and proline on NaCl-induced K + efflux were found to be significantly higher in salt-sensitive barley genotypes. At the same time, a 2-fold higher accumulation of leaf and root proline and leaf glycine betaine was found in salt-sensitive cultivars. The total amino acid content was also less affected by salinity in salttolerant cultivars. In these, potassium was found to be the main contributor to cytoplasmic osmolality, while in salt-sensitive genotypes, glycine betaine and proline contributed substantially to cell osmolality, compensating for reduced cytosolic K + . Significant negative correlations (r¼ -0.89 and -0.94) were observed between Na + -induced K + efflux (an indicator of salt tolerance) and leaf glycine betaine and proline. These results indicate that hyperaccumulation of known major compatible solutes in barley does not appear to play a major role in salt-tolerance, but rather, may be a symptom of salt-susceptibility.
doi:10.1093/jxb/erm284 pmid:18182428 fatcat:rv2ryttqarbhfhzfjs67zx6ytu