Arsenic (As) is naturally present in soils and groundwater in agricultural areas, mainly in the
form of arsenate (AsV) and arsenite (AsIII). It can enter soybean plants and decrease their …

Selenate enhances arsenic (As) accumulation in As-hyperaccumulator Pteris vittata, but the
associated molecular mechanisms are unclear. Here, we investigated the mechanisms of …

Plants often up-regulate gene expression of P transporters under P deficiency, but down-
regulate them under arsenic stress. Different from other P transporters, PvPht1; 3 and …

Arsenic-hyperaccumulator Pteris vittata is efficient in taking up arsenate (AsV) and arsenite
(AsIII), however, their impacts on P. vittata growth and nutrient uptake remain unclear. The …

Metalloid contamination, such as arsenic poisoning, poses a significant environmental
problem, reducing plant productivity and putting human health at risk. Phytohormones are …

It is known that selenium (Se) enhances plant growth and arsenic (As) accumulation in As-
hyperaccumulator Pteris vittata, but the associated mechanisms are unclear. In this study, P …

Pteris vittata is an arsenic (As) hyperaccumulator that can accumulate several thousand mg
As kg− 1 DW in aboveground biomass. A key factor for its hyperaccumulation ability is its …

Arsenic (As) toxicity negatively impacts plant development, limits agricultural production,
and, by entering the food chain, endangers human health. Studies on the use of natural and …

The heavy metal ions of the Cd and As generally co-exist in soil to threaten crop growth and
human health. How to simultaneously reduce the activity of the soil Cd and As is still a big …

Given the possible benefits of phytoextraction, this study evaluated the potential of nine plant
species for phytoaccumulation/co-accumulation of selected nutrients, rare earth elements …