Many trace metals are essential micronutrients, but also potent toxins. Due to natural and
anthropogenic causes, vastly different trace metal concentrations occur in various habitats …

Poor iron (F e) availability in soil represents one of the most important limiting factors of
agricultural production and is closely linked to physical, chemical and biological processes …

The primary function of mitochondria is respiration, where catabolism of substrates is
coupled to ATP synthesis via oxidative phosphorylation. In plants, mitochondrial composition …

Iron is one of the essential micronutrients for plant development and fish growth in
aquaponic systems. Iron is an essential element for photosynthesis, DNA synthesis, and …

Iron (Fe) deficiency chlorosis is a major nutritional disorder for crops growing in calcareous
soils, and causes decreases in vegetative growth as well as marked yield and quality losses …

Iron is involved in various metabolic pathways of plants. Stress from iron deficiency and
toxicity in the soil adversely affects plant growth. Therefore, studying the mechanism of iron …

Background Nitrogen is a principal limiting nutrient in plant growth and development. Among
factors that may limit NO 3-assimilation, Fe potentially plays a crucial role being a metal …

Iron (Fe) is an essential element for human nutrition. Given that plants represent a major
dietary source of Fe worldwide, it is crucial to understand plant Fe homeostasis fully. A major …

A stunted root system is a significant symptom of iron (Fe) toxicity, yet little is known about
the effects of excess Fe on lateral root (LR) development. In this work, we show that excess …

Iron (Fe) is abundant in soils but generally poorly soluble. Plants, with the exception of
Graminaceae, take up Fe using an Fe (III)‐chelate reductase coupled to an Fe (II) …