Multi-metal bioaccumulation ability of Sesuvium portulacastrum modulated by salinity in a high metal chelating substrate.

Halophytes are known to be potential phytoremediators of metal-contaminated saline soils. Sesuvium portulacastrum (L.) L., has been reported to accumulate metals and is a candidate for metal decontamination in saline conditions. Here, we aimed to assess the impact of salinity on the ability of S. postulacastrum present in New Caledonian estuaries to extract multiple metals under conditions that facilitate the understanding of the plant's extraction effectiveness. S. portulacastrum was cultivated in vermiculite and was watered twice a week with various concentrations of NaCl alone or combined with two concentrations (M1 and M2) of a multi-metal mix containing Ni, Co, Cr, and Mn. The results showed that shoot growth was at its maximum in the presence of 0 and 200 mM NaCl. At this last salt concentration, the M1 metal level in the substrate had no significant effect, but M2 decreased plant growth drastically. However, the total metal accumulation in shoots and roots was the highest under M2 multi-metal exposure. S. portulacastrum accumulated relatively high levels of metals in roots under varying salinity conditions. S. portulacastrum from the estuaries of New Caledonia exhibits significant potential for the phytostabilization of metals, even as salinity and metal concentrations increase in its growth areas.