Plant science: the key to preventing slow cadmium poisoning

Plant science: the key to preventing slow cadmium poisoning

Practically all human populations are environmentally exposed to cadmium (Cd), mostly through plant-derived food. A growing body of epidemiological evidence suggests that there is no margin of safety between current Cd exposure levels and the threshold for adverse health effects and, hence, there is...

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Veröffentlicht in:Trends in plant science 2013-02, Vol.18 (2), p.92-99
Hauptverfasser: Clemens, Stephan, Aarts, Mark G.M, Thomine, Sébastien, Verbruggen, Nathalie
Format: Artikel
Sprache:eng
Schlagworte:
accumulating cd
adverse effects
arabidopsis
Biodegradation, Environmental
Biological Transport
Cadmium
Cadmium - administration & dosage
Cadmium - metabolism
Cadmium - toxicity
Cadmium Poisoning
Cadmium Poisoning - prevention & control
crops
Crops, Agricultural
Crops, Agricultural - adverse effects
Crops, Agricultural - standards
durum-wheat
Food
Food - adverse effects
Food - standards
foods
Genetic Variation
grain cadmium
heavy-metal atpase
human population
Humans
Life Sciences
margin of safety
Oryza sativa
plant organs
Plant Roots
Plant Roots - metabolism
Plant Shoots
Plant Shoots - metabolism
Plants
Plants - metabolism
poisoning
potato-tubers
quantitative trait locus
rice
rice oryza-sativa
shoot cd translocation
Soil
Soil - chemistry
Soil Pollutants
Vegetal Biology
wheat cultivars
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Beschreibung
Zusammenfassung:Practically all human populations are environmentally exposed to cadmium (Cd), mostly through plant-derived food. A growing body of epidemiological evidence suggests that there is no margin of safety between current Cd exposure levels and the threshold for adverse health effects and, hence, there is an urgent need to lower human Cd intake. Here we review recent studies on rice (Oryza sativa) and Cd-hyperaccumulating plants that have led to important insights into the processes controlling the passage of Cd from the soil to edible plant organs. The emerging molecular understanding of Cd uptake, root retention, root-to-shoot translocation and grain loading will enable the development of low Cd-accumulating crops.
ISSN:1360-1385
1878-4372
DOI:10.1016/j.tplants.2012.08.003