Brassicaceae (Cruciferae) Family, Plant Biotechnology, and Phytoremediation

Abstract

Plants represent a natural environmentally safe way to clean or remediate contaminated sites. Members of the Brassicaceae or Cruciferae plant family have a key role in phytoremediation technology. Many wild crucifer species are known to hyperaccumulate heavy metals and possess genes for resistance or tolerance to the toxic effects of a wide range of metals. Metal uptake, sensitivity, and sequestration have been studied extensively in Arabidopsis thaliana, and a number of heavy metal-sensitive and ion-accumulating mutants have been identified. This species is a likely source of genes for phytoremediation. Within the Brassicaceae, Brassica and other crop species are likely candidates for phytoremediation. There is a wealth of information on the agronomics of the economically important members and biomass production can be extensive. Many of these species are well adapted to a range of environmental conditions. Some species are tolerant to high levels of heavy metals, and there is the potential to select superior genotypes for phytoremediation. They are well suited to genetic manipulation and in vitro culture techniques and are attractive candidates for the introduction of genes aimed at phytoremediation. Biotechnology and molecular biology are valuable tools for studies of metal accumulation and tolerance in hyperaccumulating species and for the transfer of relevant genes into crucifer species suitable for phytoremediation. The purpose of this article is to review the potential use of both wild and cultivated members of the Brassicaceae in phytoremediation.