Role of cadmium and ultraviolet-B radiation in plants, Influence on photosynthesis and element content in two species of Brassicaceae

Abstract: Plants are exposed to many different stress factors during their lifetime, often more than one factor at a time, which highlights the importance of research regarding interaction among stress factors. Cadmium and ultraviolet-B radiation (UV-B, 280-315 nm) are two potential stress factors in the environment, which have gained increased interest due to atmospheric pollution. In this work the interaction between Cd and UV-B radiation was investigated in two species of Brassicaceae; Brassica napus and Arabidopsis thaliana, the latter including the wild type and phytochelatin-deficient cad1-3. In both species photosynthetic parameters and element content were studied after the plants were exposed to Cd and supplemental UV-B radiation for 14 days. A separate Cd uptake study was carried out on Arabidopsis thaliana to investigate the effect of different Cd pretreatments on Cd uptake. The experiments showed that Cd was the dominant factor, but in Brassica napus, Cd+UV-B showed some interaction effects on energy dissipation and chlorophyll ratios. Generally, Cd decreased the chlorophyll content and influenced photosynthesis by altering oxygen evolution, non-photochemical quenching and the quantum yield. Cadmium had large effects on the content of essential elements, particularly in roots, that may be due to competition during uptake. The Cd uptake study showed that the wild type contained much higher amounts of Cd than the phytochelatin-deficient cad1-3, although Cd uptake is expected to be independent of phytochelatin content. Phytochelatins chelate and transport Cd to the vacuole, thus removing Cd from the cytosol. This compartmentation may disrupt a possible feedback mechanism in the cytosol.