Since selenium (Se) was shown to be an essential element for humans in 1957, the
biofortification of Se to crops via foliar spraying or soil fertilization has been performed for …

The contamination of soil by heavy metals and metalloids is a worldwide problem due to the
accumulation of these compounds in the environment, endangering human health, plants …

Heavy metal (loid) s exert selective pressure on microbial communities and evolution of
metal resistance determinants. Despite increasing knowledge concerning the impact of …

Simple Summary The legume–rhizobium symbiosis is one of the most beneficial interactions
with high importance in agriculture, as it delivers nitrogen to plants and soil, thereby …

Heavy metals (HMs) and metalloids (Ms) such as arsenic (As), cadmium (Cd), mercury (Hg),
and lead (Pb) represent serious environmental threats due to their wide abundance and …

Cadmium (Cd) is the most widely distributed heavy metal pollutant in soil and has significant
negative effects on crop yields and human health. Rhizobia can enhance soybean growth in …

Miscanthus has good tolerance to heavy metals (HMs) and has received increasing
attention in studies of HM-contaminated soil remediation. In this study, four Miscanthus …

Multiple heavy metals (HMs) commonly coexist in mining areas, which highlights the
necessity to select multiple HM-resistant plant growth-promoting bacteria for improving …

The response of soil microbes to heavy metal pollution provides a metric to evaluate the soil
health and ecological risks associated with heavy metal contamination. However, a …

Rhizobia are bacteria that can form symbiotic associations with plants of the Fabaceae
family, during which they reduce atmospheric di-nitrogen to ammonia. The symbiosis …