THE NICKEL HYPERACCUMULATOR PLANT ALYSSUM-BERTOLONII AS A POTENTIAL AGENT FOR PHYTOREMEDIATION AND PHYTOMINING OF NICKEL

Experiments were carried out in Italy on the potential use of the hype raccumulator Alyssum bertolonii in phytomining of ultramafic soils for Ni. In situ experimental plots at Murlo, Tuscany were fertilized with various regimes during a 2-year period. The best fertilizer treatment (N + K + P) gave a threefold increase of the biomass of reproductive matter to 9.0 t/ha without dilution of the unfertilized Ni content. A Ni content of 0.8% in dry matter (11% in ash), would give a Ni yield o f 72 kg/ha without need of resowing for a further crop. There was no c orrelation between the age of a plant and its Ni content. The long-ter m cropping sustainability of the soils was simulated by sequential ext ractions with KH phthalate solutions at pH 2, 4 and 6 that showed a li miting available Ni content of 768 mu g/g. Thus just over seven croppi ngs at pH 6 in the rhizosphere would reduce the available Ni pool by 3 0%. A proposed model for phytomining involves harvesting the crop afte r 12 months and burning the material to produce a sulphur-free bio-ore with about 11% Ni. Utilising the energy of combustion is also discuss ed. It is considered that Alyssum bertolonii or other Alyssum species might be used for phytomining throughout the Mediterranean area includ ing Anatolia, as well as in Western Australia and the western United S tates. The economic limits of phytomining are proposed and at current world prices, the technique would only be feasible for Ni and Co with plants of at least the same biomass as Alyssum. Plants of higher bioma ss and similar uptake potential as for Ni, could extend the limits to other elements.