Reactive oxygen species (ROS) and nitric oxide (NO) are produced in all aerobic life forms
under both physiological and adverse conditions. Unregulated ROS/NO generation causes …

Root exudates are an essential carrier for material cycling, energy exchange, and
information transfer between the belowground parts of plants and the soil. We synthesize …

There seems to be no report in the literature on the effect of melatonin (MT) in relieving the
detrimental effects of combined application of salt stress (SS) and iron deficiency (ID) …

Iron plays a crucial role in biochemistry and is an essential micronutrient for plants and
humans alike. Although plentiful in the Earth's crust it is not usually found in a form readily …

Iron (Fe) is one of the essential micronutrients required by both plants and animals. In
humans, Fe deficiency causes anemia, the most prevalent nutritional disorder. Most people …

Plant roots forage the soil for iron, the concentration of which can be dramatically lower than
those needed for growth. Soil iron uptake uses the broad metal spectrum IRT1 transporter …

Although abundant in soils, iron (Fe) is poorly bioavailable for plants. Improving Fe uptake in
crops, enabling them to grow in Fe-depleted soils, has become a major focal interest. The …

Soil composition largely defines the living conditions of plants and represents one of their
most relevant, dynamic, and complex environmental cues. The effective concentrations of …

Deficiency of certain elements can cause leaf chlorosis in Areca catechu L. trees, which
causes considerable production loss. The linkage between nutrient deficiency and chlorosis …

Plants develop responses to abiotic stresses, like Fe deficiency. Similarly, plants also
develop responses to cope with biotic stresses provoked by biological agents, like …