Platinum in Salt Marsh Sediments: Behavior and Plant Uptake

Platinum is one of the least abundant elements in the earth crust with an average concentration of 0.51 ng g− 1, but its use in several human activities (mainly automobile catalytic converters) is leading its enrichment in surface sediments. Whereas, previous studies have assessed the Pt behavior in soils from urban areas, natural systems are still poorly studied. Accordingly, this study is aimed to characterize the behavior of the Pt released to coastal environments in sediments, ascertain the role of vegetation on the biogeochemistry of this element and assess the transference of Pt into the biological compartments. Several sediment cores were sampled in salt marshes (in unvegetated and vegetated areas) of the Tagus Estuary under different traffic pressure. Platinum concentration was analyzed in solid sediment, interstitial water and roots, leaves and stems of Sarcocornia fruticosa, a typical plant in south European salt marshes. In addition, interpretative parameters (e.g. redox potential, dissolved oxygen, pH, total reduced sulfur species, salinity and dissolved Fe and Mn in interstitial waters) were determined to better understand the biogeochemical cycle of Pt in salt marsh sediments. Although surface enrichment of Pt exists in the sediments at Low Traffic Station (2.8 ng g− 1), the highest enrichment was found at High Traffic Station where concentration was, in some cases, up to 40 ng g− 1, linked to traffic emissions. However, dissolved Pt in interstitial waters (from 0.14 to 0.70 ng L− 1) did not show this superficial maximum. This dissimilarity points out the unreactivity of traffic-borne Pt and the dissolution/precipitation cycle of natural Pt linked to Mn and O2 cycle, depending on the redox conditions, highly controlled by the vegetation. Platinum concentration in roots (0.9 ± 0.6 ng g− 1) is reflecting the Pt concentration in the interstitial waters in each moment, even though at the two peaks of dissolved Pt (up to 2.5 ng L− 1) found at deeper layers