Abstract: | Abstract Two genotypes (Pusa 9531 and PS 16) of moongbean [Vigna radiata (L) Wilczek], differing in photosynthetic capacity were grown for 30 days in earthen pots at three field capacities (100, 75 and 50%), and the possible role of biochemical alterations and antioxidant metabolism in conferring photosynthetic capacity was determined by measuring Rubisco activity, photosynthetic traits, lipid peroxidation and assaying activities of the central components of antioxidant defence system. Growth, Rubisco activity, photosynthetic traits and soluble protein content decreased significantly with decreasing field capacity (FC) from 100 to 50%. Levels of TBARS, H2O2, electrolyte leakage and proline contents increased with decreasing FC. Activities of SOD and GR increased in both genotypes with decreasing FC; the CAT and APX activities over-expressed only at mild (75%) FC but not at severe (50%) FC. There were found genotype-dependent alterations in growth, photosynthetic traits, Rubisco activity and antioxidant metabolism when exposed to water deficit. Decline in efficiency of the H2O2-decomposing system at severe drought was responsible for oxidative damage occurring in both the genotypes. The differential responses of antioxidative enzymes in the two genotypes were the result of their ability to protect photosynthetic apparatus and alleviate water deficit stress. |