Berggren Kleja, Dan
- Department of Soil and Environment, Swedish University of Agricultural Sciences
- Swedish Geotechnical Institute (SGI)
Research article2019Peer reviewedOpen access
Soderberg, Uddh T.; Kleja, Berggren D.; Astrom, M.; Jarsjo, J.; Froberg, M.; Svensson, A.; Augustsson, A.
Risks associated with metal contaminated sites are tightly linked to material leachability and contaminant mobility. In this study, metal solubility and transport were characterized within a glass waste landfill through i) lysimeter-collection of pore water and standardized batch leaching tests, ii) soil profiles extending from the landfill surface, through unsaturated soil underneath, and into the groundwater zone, and iii) groundwater samples upstream, at, and downstream of the landfill. The soil analyzes targeted both pseudo-total and geochemically active concentrations of contaminant metals (As, Cd, Pb, Sb) and basic soil geochemistry (pH, org. C, Fe, Mn). Water samples were analyzed for dissolved, colloid-bound and particulate metals, and speciation modelling of the aqueous phase was conducted. The results revealed a highly contaminated system, with mean metal concentrations in the waste zone between 90 and 250 times the regional background levels. Despite severe contamination of the waste zone and high geochemically active fractions (80-100%) of all contaminant metals as well as elevated concentrations in landfill pore water, the concentrations of Cd and Pb decrease abruptly at the transition between landfill and underlying natural soil and no indication of groundwater contamination was found. The efficient cation retention is likely due to the high pH. However, the sorption of As and Sb is weaker at such high pH, which explains their higher mobility from the pore water zone into groundwater. The field soil:solution partitioning (Kd) displayed a high spatial variability within the waste zone (the highest Kd variability was seen for Pb, ranging from 140 to 2,900,000 1 kg(-1)), despite little variability in basic geochemical variables, which we suggest is due to waste material heterogeneity. (C) 2019 The Authors. Published by Elsevier B.V.
Soil and groundwater metal pollution; Glass waste; Soil:Solution partitioning (Kd); Leachability; Mobility; Colloids
Science of the Total Environment
2019, Volume: 668, pages: 1064-1076 Publisher: ELSEVIER SCIENCE BV
SDG6 Clean water and sanitation
Environmental Sciences
Geochemistry
DOI: https://doi.org/10.1016/j.scitotenv.2019.03.013
https://res.slu.se/id/publ/99643