The presence of potentially toxic elements (PTEs) can induce phytotoxicity and growth
inhibition in plants. These elements are bioaccumulated and biomagnified in the food chain …

Understanding the molecular mechanism of tolerance to heavy metals in hyperaccumulators
is important for improving the efficiency of phytoremediation and is interesting for …

Main conclusion This review provides insights into As toxicity in plants with focus on
photosynthesis and sugar metabolism as important arsenic targets and simultaneously …

Arsenic is a ubiquitous toxic element that can be accumulated into plant parts. The present
study investigated the response of Pteris cretica and Spinacia oleracea to As treatment …

Brassica juncea has great application potential in phytoremediation of cadmium (Cd)-
contaminated soil because of its excellent Cd accumulating and high biomass. In this study …

Arsenic (As) contaminates the food chain and decreases agricultural production through
impairing plants, particularly due to oxidative stress. To better understand the As tolerance …

Serious concerns have recently been raised regarding the association of Fe excess with
neurodegenerative diseases in mammals and nutritional and oxidative disorders in plants …

The first-known As-hyperaccumulator Pteris vittata is efficient in As uptake and translocation,
which can be used for phytoremediation of As-contaminated soils. However, the underlying …

Background Arsenic toxicity induces a range of metabolic responses in plants, including
DNA methylation. The focus of this paper was on the relationship between As-induced stress …

Abstract Quinoa (Chenopodium quinoa Willd), an ancient Andean seed crop, exhibits
exceptional nutritional properties and resistance to abiotic stress. The species' tolerance to …