Insights into the oxidative status and antioxidative responses of germinating broccoli (Brassica oleracea var. italica L.) seeds in tungstate contaminated water.

The utilization of tungsten in traffic, smelting, mining, and other industrial applications allows its' accumulation in the environmental ecosystems. The present study included using a soluble form of tungsten (tungstate) at different levels (0, 1, 5, 10, 50, and 100 mg L) as a water contaminant. The germinating seeds experienced tungstate at 1-50 mg L exhibited stimulation of seedling dry and fresh matter stress tolerance indices, whereas retardation of these traits at the level of 100 mg L was manifested. The stimulation of seedling growth at the levels of 1-50 mg L was associated with the regulation of reactive oxygen status, higher stability of cell membrane, and elevated level of antioxidative responses. Regarding the oxidative stress of the seedlings exposed to tungstate contaminated water, only the concentration of 100 mg L induced accumulation of hydrogen peroxide, superoxide anion, and hydroxyl radical with apparent membrane deteriorations in terms of lipid peroxidation. Furthermore, reductions of phytochelatins, reduced glutathione, ascorbate, ascorbate peroxidase, glutathione peroxidase, as well as glutathione-S-transferase were the main symptoms of tungstate phytotoxicity at the same level. The accumulation of lignin, ionic peroxidase, soluble peroxidase, and lignin-related enzymes (phenylalanine ammonia-lyase and polyphenol oxidase) were the striking reasons for restricting seedlings growth at noxious tungstate level. The results could suggest that the elevated levels of defense systems, at least in part, were accountable for raising broccoli resistance against tungstate stress at low doses. Furthermore, these plants can grow in tungsten-polluted areas by modifying their physiological processes. However, this study shed the light to the eco-toxicity of tungstate and imparts evidence for the need to establishing environmental risk management of tungstate accumulation.