Effects of Heavy Metals on Growth and Bioaccumulation of the Annual Halophytes Atriplex Hortensis and A. Rosea

Abstract

Abstract: Heavy metals such Zn, Pb, Cu and Cd can cause a non-degradable pollution in numerous sites in France as well as in Tunisia, or elsewhere. This pollution resulting from various human polluting activities, related to industry or mining, is often diffuse in soils. Vegetation can play an important role in decontaminating these soils, their rehabilitation, and making their environment safer. For a better understanding of metal reactivity, a review of general knowledge concerning this kind of polluting metals and plant tolerance mechanisms is presented. A study was also conducted on the accumulation of the following metals: Cd, Cu, Zn, Pb and Ni, in their localisation in plant tissues and their induced toxic effects. The most general visible, but nonspecific symptom of heavy metal stress is growth inhibition, which has been investigated in many plants, including Atriplex. A cultivation of annual Atriplex plants was conducted according to hydroponic experimental design. The experimental approach consisted of hydroponic cultures using simplified medium represented by a nutritive solution. Results showed that plant final biomass, leaf area and metal accumulation, all varied with the metals level of toxicity and the plant species considered. Hence, the plants of the three annual arroach species or varieties used, all showed an intermediate level of tolerance according to the imposed treatments. Metal induces a number of physiological changes, such as growth inhibition, a significant reduction in biomass production was observed in metal treated plants compared with the control plants. The bioaccumulation factor decreased at the highest metal level, the low transfer of metal from solution to above-ground organs at higher solution metal concentrations indicates an exclusion mechanism. Trace element accumulation in shoots and the bioconcentration factors were proportional to the initial concentration of individual metals in the growth medium and the duration of exposure. Annual orach : A. hortensis seem to have a good capability for tolerance and phytostabilisation areas containing heavy metals