Safety of food crops on land contaminated with trace elements
Language
en
Article de revue
This item was published in
Journal of the Science of Food and Agriculture. 2011, vol. 91, n° 8, p. 1349-1366
Wiley
English Abstract
Contamination of agricultural soils with trace elements (TEs) through municipal and industrial wastes, atmospheric deposition and fertilisers is a matter of great global concern. Since TE accumulation in edible plant parts ...Read more >
Contamination of agricultural soils with trace elements (TEs) through municipal and industrial wastes, atmospheric deposition and fertilisers is a matter of great global concern. Since TE accumulation in edible plant parts depends on soil characteristics, plant genotype and agricultural practices, those soil- and plant-specific options that restrict the entry of harmful TEs into the food chain to protect human and animal health are reviewed. Soil options such as in situ stabilisation of TEs in soils, changes in physicochemical parameters, fertiliser management, element interactions and agronomic practices reduce TE uptake by food crops. Furthermore, phytoremediation and solubilisation as alternative techniques to reduce TE concentrations in soils are also discussed. Among plant options, selection of species and cultivars, metabolic processes and microbial transformations in the rhizosphere can potentially affect TE uptake and distribution in plants. For this purpose, genetic variations are exploited to select cultivars with low uptake potential, especially low-cadmium accumulator wheat and rice cultivars. The microbial reduction of elements and transformations in the rhizosphere are other key players in the cycling of TEs that may offer the basis for a wide range of innovative biotechnological processes. It is thus concluded that appropriate combination of soil- and plant-specific options can minimise TE transfer to the food chain.Read less <
Keywords
IMMOBILISATION
METAL TRANSPORT
MICROBIAL TRANSFORMATION
PLANT SPECIES
CONTAMINATION DES SOLS
TRANSPORT DES MÉTAUX
TRANSFORMATION MICROBIENNE
English Keywords
CULTIVARS
FOOD SAFETY
LAND CONTAMINATION
MOLECULAR PROCESS
PHYTOREMEDIATION
RHIZOSPHERE
TRACE ELEMENT
RIZ
Origin
Hal imported