Evaluating metal phytorremediation and biondication potential of Spartina alterniflora in a South American estuary

NEGRIN, V.L.; LA COLLA, N.S.; SCHWAB, F.; DOMINI, C.; BOTTÉ, S.E.

MARINE ENVIRONMENTAL RESEARCH

ELSEVIER SCI LTD

Año: 2024 vol. 193

0141-1136

Soil metal pollution has been widely studied in salt marshes but mainly regarding non-essential metals. The aimof this study was to assess the levels of two essential metals (Fe and Mn) and one non-essential one (Cd) inSpartina alterniflora salt marshes in a South American estuary in order to evaluate the potential of this species as aphytoremediator and/or bioindicator of Fe, Mn and Cd and to analyze the distribution of these metals accordingto the edaphic conditions. The metals present in the soils varied among the three sites studied according to thecontent of organic matter and fine sediments. In comparison with other Spartina-dominated salt marshesworldwide, in this study Fe and Mn were approximately in the same range, whereas Cd levels were always lower,with a high number of samples below the method detection limit (MDL). All metals were highly correlated witheach other suggesting an association of Cd with Mn and Fe oxides/hydroxides or sulfides and/or a commonanthropogenic source. Metals in plant tissues also varied from site to site and between the aboveground andbelowground tissues. Compared to the metal levels in Spartina tissues in other salt marshes, our levels of Fe andMn were in the same range, whereas the Cd levels were lower, among most samples, especially those fromaboveground tissues that were below the MDL. The bioconcentration factor (metal in belowground tissues/metalin soil) was always lower than one for Fe and Mn meaning that there is no accumulation of these metals inbelowground tissues, but this factor for Cd was sometimes higher than one, even as hig h as 3.45, implying thatS. alterniflora can accumulate this metal in its tissues, pointing to a potential role of this species in Cd phytoremediation.Translocation factors (metal in aboveground tissues/metal in belowground tissues) were alwayslower than one for Fe and could not be calculated for Cd but were usually higher than one for Mn, showing therole of this element in photosynthetic tissues and a possible function of this species for phytoextraction of Mn. Inmost samples the Fe levels in plant tissues were higher than the permissible levels reported in the literature,suggesting a potential role of S. alterniflora in Fe phytoremediation. No correlation was observed between metalconcentrations in soils and aboveground tissues; therefore, S.alterniflora is not a good bioindicator for the metalsstudied. Although our results are not conclusive, they reinforce the importance of local edaphic conditions on thebehavior of metals in salt marshes and shed light on the potential role of S. alterniflora in the phytoremediation ofhighly toxic metals such as Cd or poorly studied metals such as Fe and Mn.