Abstract Zinc (Zn) and iron (Fe) are essential micronutrients for all living organisms and the
major targets for crop biofortification. However, when acquired in excess quantities, Zn and …

Iron (Fe) and copper (Cu) homeostasis are tightly linked across biology. Understanding
crosstalk between Fe and Cu nutrition could lead to strategies for improved growth on soils …

Iron deficiency stress causes a severe reduction in plant growth. Although Fe deficiency
causes an imbalance in divalent heavy metal nutrients, the mechanisms underlying the …

Iron deficiency and cadmium (Cd) stress causes a rapid change in plant physiology. The aim
of this work was to characterize the effects of Fe supplementation on redox reactions in …

In plants, the excess of several heavy metals mimics iron (Fe) deficiency-induced chlorosis,
indicating a disturbance in Fe homeostasis. To examine the level at which heavy metals …

Background Iron is an essential micronutrient for all living things, required in plants for
photosynthesis, respiration and metabolism. A lack of bioavailable iron in soil leads to iron …

Iron deficiency is an important soybean [Glycine max (L.) Merr.] nutrient deficiency that is
easily identified by interveinal chlorosis of the leaves and reduced plant growth, both of …

Zinc (Zn) deficiency is a widespread agricultural problem in arable soils of the whole world.
However, the molecular mechanisms underlying Zn‐deficiency response are largely …

Iron (Fe) deficiency chlorosis (IDC) in soybean results in severe yield losses. Cultivar
selection is the most commonly used strategy to avoid IDC but there is a clear interaction …

Micronutrients like copper (Cu), manganese (Mn), Iron (Fe), and Zinc (Zn) are essential for
plants, and their functions are tightly linked for vital metabolism. The normal concentration …