β-Radiation stress responses on growth and antioxidative defense system in plants: A study with Strontium-90 in Lemna minor

Abstract

In the following study, dose dependent effects on growth and oxidative stress induced by β-radiation were examined to gain better insights in the mode of action of β-radiation induced stress in plant species. Radiostrontium (90Sr) was used to test for β-radiation induced responses in the freshwater macrophyte Lemna minor. The accumulation pattern of 90Sr was examined for L. minor root and fronds separately over a seven-day time period and was subsequently used in a dynamic dosimetric model to calculate β-radiation dose rates. Exposing L. minor plants for seven days to a 90Sr activity concentration of 25 up to 25,000 kBq·L-1 resulted in a dose rate between 0.084 ± 0.004 and 97 ± 8 mGy·h-1. After seven days of exposure, root fresh weight showed a dose dependent decrease starting from a dose rate of 9.4 ± 0.5 mGy·h-1. Based on these data, an EDR10 value of 1.5 ± 0.4 mGy·h-1 was estimated for root fresh weight and 52 ± 17 mGy·h-1 for frond fresh weight. Different antioxidative enzymes and metabolites were further examined to analyze if β-radiation induces oxidative stress in L. minor.