Identification of cadmium tolerant and sensitive genotypes of castor and their contrasting responses to cadmium treatment.

Present study identified WM (T1) and DCH-177(T2) as cadmium (Cd) tolerant and GCH2 (S1) and GCH4 (S2) as Cd-sensitive genotypes of castor. Cd treatment (500 μM) led to a significant decline in leaf and root biomass, photosynthetic rate (Pn), stomatal conductance (C), transpiration rate (E), water use efficiency (WUE), photosynthetic pigments content, and altered chlorophyll fluorescence in S1 and S2 genotypes but no significant changes were detected in the T1 and T2 genotypes. The content of HO and malondialdehyde (MDA; stable end product of lipid peroxidation) increased significantly in S1 and S2 castor plants treated with 500 μM Cd, whereas no significant alteration was observed in T1 and T2 in comparison to their respective controls. In general, Cd tolerance is associated with its reduced accumulation. However, no significant difference in Cd accumulation in roots and leaves of S1 genotype was observed compared to T1 genotype. Significant enhancement in the concentration of redox-active metal copper (Cu) was observed in roots and leaves of 500 μM Cd-treated S1 plants but not in T1 plants. Overall, our results suggest that enhanced content of Cu, HO, and MDA and reduced photosynthetic parameters might be the cause of Cd sensitivity observed in the S1 genotype.