Plant Species Compositions Alleviate Toxicological Effects of Bisphenol a by Enhancing Growth, Antioxidant Defense System and Detoxification

Abstract

\n Bisphenol A (BPA), a broadly disseminated endocrine disturbing chemicals in environment, is harmful to creatures and plants. Plants can uptake and metabolize BPA, but a single plant species ability is limited. Undeniably, plant species compositions have a more vital ability to remove pollutants than a single plant species. However, the mechanisms of plant species compositions alleviating toxicological effects of bisphenol A are poorly understood. Here, we administered plant species compositions, which based on a full-factorial design of Phragmites australis(A), Typha latifolia(B) and Arundo donax(C), to unveil their role in BPA exposure. The comes about illustrated that with 1.5-10mg L−1 of BPA introduction, the mixed-hydroponic culture groups (e.g. sp(ABC)) significantly increased biomass production and photosynthetic pigments content as revealed by augmented the shoots fresh, dry weight, chlorophyll a and total chlorophyll content. While mixed-hydroponic culture groups (e.g. sp(AB), sp(ABC)) significantly increased antioxidant enzymes activity and antioxidant substances, it astoundingly diminished responsive oxygen species (ROS) and malondialdehyde (MDA) substance, proposing that mixed-hydroponic culture groups calmed oxidative stretch in takes off. Further analysis revealed that mixed-hydroponic culture groups (e.g. sp(AB), sp(AC), sp(ABC)) significantly increased detoxification enzyme activity of NADPH-cytochrome P450 reductase (CPR), glutathione S-transferase (GST) and glycosyltransferase (GT). Moreover, mixed-hydroponic culture groups (e.g. sp(AB), sp(AC), sp(ABC)) decreased the BPA substance in leaves, proposing that mixed-hydroponic culture groups advanced BPA metabolism by improving CPR, GST, GT detoxification. These results suggest that a mixed-hydroponic culture strategy can alleviate BPA phytotoxicity and possibly offer natural and potential phytoremediation of BPA way.