Differential antioxidant enzyme and thiol responses of tolerant and non-tolerant clones of Chloris barbata to cadmium-stress

Tolerant and non-tolerant clones of Chloris barbata Sw. obtained, respectively, from an erstwhile mercury contaminated solid waste dump site near a chloralkali plant and a non-contaminated (control) site were subjected to cadmium-stress by growing the rooted cuttings in water containing CdSO4, 13 and 130 muM Differences between the two clones in their response to cadmium-stress were noted in root growth, and also with respect to certain biochemical parameters. Whereas catalase activity decreased and non protein-thiol levels increased in the non-tolerant clone, the level of protein-thiol alone increased significantly in the tolerant clone in response to cadmium-stress. No remarkable differences between the clones, however, were noted with respect to total soluble protein, peroxidase activity and lipid peroxidation. Remarkably the two clones responded differently to buthionine sulfoximine, an inhibitor of glutathione and/or phytochelatin synthesis, which inhibited root growth significantly in non-tolerant clone but not in the tolerant clone. Buthionine sulfoximine, nonetheless, could potentate cadmium toxicity in either of the clones, but more effectively in the tolerant clone. The high sensitivity of tolerant-clone to the combined treatment of BSO and Cd in the present study could, therefore, be attributed to the cumulative oxidative stress generated synergistically by BSO and Cd.