Cadmium pollution of soil restricts growth and yield of crop plants. Arbuscular mycorrhizae
play significant roles in imparting tolerance to Cd toxicity by establishing symbiotic …

Understanding the cellular mechanisms mediating invasive plant adaptation to excessive
cadmium (Cd) in environments is crucial for designing phytoremediation strategies for Cd …

Cadmium (Cd) is the most hazardous heavy metal element to organisms. Cd can induce
oxidative stress in plants that disrupts cellular homeostasis, damages proteins and …

The success of Ericaceae in stressful habitats enriched in heavy metals has been ascribed
to the distinctive abilities of their mycorrhizal fungal partners to withstand heavy metal stress …

As a primary goal, cadmium (Cd) is a heavy metal pollutant that is readily adsorbed and
retained in rice, and it becomes a serious threat to food safety and human health. Fungi …

The anomalies of cadmium (Cd) in karst region pose a severe threat to plant growth and
development. In this study, the responses of Rhododendron decorum to Cd stress were …

To date, several species of Asteraceae have been considered as Cd-accumulators.
However, little information on the Cd tolerance and associated mechanisms of Asteraceae …

The co-cultivation of fungi with microalgae facilitates microalgae harvesting and enhances
heavy metal adsorption. However, the mechanisms of fungal tolerance to cadmium (Cd) …

Fungi bioaccumulation of heavy metals is a promising approach to remediate polluted soil
and water. Boletus griseus could accumulate high amounts of Cd, even in a natural habitat …

Abstract Background Cadmium (Cd) pollution of soils is a global concern because its
accumulation in plants generates severe growth retardation and health problems. Hibiscus …