Agricultural as well as industrial processes, such as mining and textile activities, are just a
few examples of anthropogenic activities that have a long-term negative impact on the …

Arsenic contaminations, often adversely influencing the living organisms, including plants,
animals, and the microbial communities, are of grave apprehension. Many physical …

Soil arsenic pollution issues have received increasing attention over the past decades. This
review focuses on recent advances in remediation practices of arsenic-contaminated soils …

Intercropping of arsenic (As) hyperaccumulator (Pteris vittata L.) with crops can reduce the
As concentration in soil and the resulting ecological and health risks, while maintaining …

Arsenic (As) contamination has been extensively recognised as one of the serious pollutant
in the environment, which is caused mainly by anthropogenic activities. Numerous …

The perennial fern Pteris vittata is an Arsenic-hyperaccumulator plant able to grow in
hydroponic cultures and hence used for phytoremediation of contaminated water. In order to …

Beneficial interactions between plants and some bacterial species have been long
recognized, as they proved to exert various growth-promoting and health-protective activities …

Increasing evidence suggests that in disease-suppressive soils, microbial volatile
compounds (mVCs) released from bacteria may inhibit the growth of plant-pathogenic fungi …

The arsenic (As) hyperaccumulator has become a model plant for the study of the interaction
between plants and trace elements. However, the change in As concentration, distribution …

In this work, arsenic (As) accumulation and distribution over time in Pteris vittata young
fronds from adult plants and in whole plantlets, grown on a highly contaminated As-soil, was …