Differential physiological, ultramorphological and metabolic responses of cotton cultivars under cadmium stress

Cadmium (Cd) stress may cause serious physiological, ultramorphological and biochemical anomalies in plants. Cd-induced physiological, subcellular and metabolic alterations in two transgenic cotton cultivars (BR001, GK30) and their parent line (Coker 312) were evaluated using 10, 100 and 1000 mu M Cd. Germination, fresh biomass of roots, stems and leaves were significantly inhibited at 1000 mu M Cd. Root volume tolerance index significantly increased (124.16%) in Coker 312 at 1000 mu M Cd. In non-Cd stressed conditions, electron micrographs showed well-configured root meristem and leaf mesophyll cells. At 1000 mu M Cd, greater ultramorphological alterations were observed in BR001 followed by GK30 and Coker 312. These changes were observed in nucleus, vacuoles, mitochondria and chloroplast. Dense precipitates, probably Cd, were seen in vacuoles, which were also attached to the cell walls. A considerable increase in number of nuclei, vacuoles, starch granules and plastoglobuli was observed in the electron micrographs of both roots and leaves at 1000 mu M Cd. MDA contents were higher in roots of BR001 at 1000 mu M Cd. Mean values of SOD activity in leaves of both BR001 and GK30 at 1000 mu M Cd significantly increased as compared to the controls. POD activity in roots of BR001 and Coker 312 was greater at all Cd (10, 100, 1000 mu M) levels over the control. Regarding APX, highest percent increase (71.64%) in roots of GK30 at 1000 mu M Cd was found. Non-significant differences in CAT activity were observed at all levels of Cd stress in leaves of BR001 and GK30. Both transgenic cotton cultivars and their parental line invariably responded towards Cd stress. However, Coker 312 showed Cd-resistant behavior as compared to its progeny lines (BR001 and GIGO). (C) 2013 Elsevier Ltd. All rights reserved.