邬飞波,
Feibo Wu* and Guoping Zhang
Effect of cadmium (Cd) on biomass accumulation and physiological activity and alleviation of Cd-oxicity by application of zinc (Zn) and ascorbic acid in barley was studied, using semisolid medium culture including 15 treatments [four Cd concentration treatments: 0.1, 1, 5, 50μmolL-1, four treatments with addition of 300μmolL-1 Zn or 250mgL-1 ascorbic acid (ASA) based on these four Cd concentrations, respectively, and three controls: basic nutrient medium, and with Zn or ASA, respectively]. Cadmium addition to semisolid medium, at a concentration of 1, 5, and 50μmolL-1, inhibited biomass accumulation and increased malondialdehyde (MDA) content of barley plants, while the addition of 0.1μmolL-1 Cd increased slightly dry mass. There was a tendency to a decrease in Zn, copper (Cu) concentrations both in shoots and roots and iron (Fe) inshoots of barley plants exposed to 1 to 50μmolL-1 Cd. In addition, there were indications of a stress repose characterized by increased superoxide dismutase (SOD) and peroxidase (POD) activities relative to plants not ubjected to Cd. The physiological changes caused by Cd toxicity could be alleviated to different
extent by application of 300μmolL-1 Zn or 250μmgL-1 ASA in Cd stressed plants. The most pronounced effects of adding Zn or ASA in Cd stressed medium were expressed in the decreased MDA and increased biomass accumulation, e.g., MDA contents were reduced (p≤0.01) by 4.8%-17.8% in shoots and 0.5%-19.7% in roots by adding 300μmolL-1 Zn, in 50mmolL-1 Cd stressed plants, and by 1.3%-7.4% in shoots of barley plants exposed to 1 to 50μmolL-1 Cd. In addition, there were indications of a stress repose characterized by increased superoxide dismutase (SOD) and peroxidase (POD) activities relative to plants not subjected to Cd. The physiological changes caused by Cd toxicity could be alleviated to different extent by application of 300μmolL-1 Zn or 250μmolL-1 ASA in Cd stressed plants. The most pronounced effects of adding Zn or ASA in Cd stressed medium were expressed in the decreased MDA and increased biomass accumulation, e.g., MDA contents were reduced (p≤0.01) by 4.8%-17.8% in shoots and 0.5%-19.7% in roots by adding 300μmolL-1 Zn, in 50μmolL-1 Cd stressed plants, and by 1.3%-7.4% in shoots and 2.6%-4.5% in roots by application of 250μmolL-1 ASA, respectively. However, ASA addition may enhance Cd translation from root to shoot, accordingly, ASA would be unsuitable for the edible crops grown in Cd contaminated soils to alleviate phytotoxicity of Cd.
Barley (, Hordeum vulgare L., ), , Cadmium (, Cd), , Biomass, Physiological activity, Stress mitigation