Abstract
During the National Geochemical Survey of Australia over 1300 top (0–10cm depth) and bottom (~60–80cm depth) sediment samples (including ~10% field duplicates) were collected from the outlet of 1186 catchments covering 81% of the continent at an average sample density of 1 site/5200km2. The <2mm fraction of these samples was analysed for 59 elements by ICP-MS following an aqua regia digestion. Results are used here to establish the geochemical background variation of these elements, including potentially toxic elements (PTEs), in Australian surface soil. Different methods of obtaining geochemical threshold values, which differentiate between background and those samples with unusually high element concentrations and requiring attention, are presented and compared to Western Australia's ‘ecological investigation levels’ (EILs) established for 14 PTEs. For Mn and V these EILs are so low that an unrealistically large proportion (~24%) of the sampled sites would need investigation in Australia. For the 12 remaining elements (As, Ba, Cd, Co, Cr, Cu, Hg, Mo, Ni, Pb, Sn and Zn) few sample sites require investigation and as most of these are located far from human activity centres, they potentially suggest either minor local contamination or mineral exploration potential rather than pollution. No major diffuse source of contamination by PTEs affects Australian soil at the continental scale. Of the statistical methods used to establish geochemical threshold values, the most pertinent results come from identifying breaks in cumulative probability distributions, the Tukey inner fence and the 98th percentile. Geochemical threshold values for 59 elements, including emerging ‘high-tech’ critical elements such as lanthanides, Be, Ga or Ge, for which no EILs currently exist, are presented.
Highlights
During the National Geochemical Survey of Australia over 1300 top (0–10 cm depth) and bottom (~60–80 cm depth) sediment samples were collected from the outlet of 1186 catchments covering 81% of the continent at an average sample density of 1 site/5200 km2
The National Geochemical Survey of Australia (NGSA) project, a cooperative venture between the Federal and State/Northern Territory geoscience agencies in Australia, was part of the 5-year Onshore Energy Security Program led by Geoscience Australia between 2006 and 2011 (Johnson, 2006)
Values bLLD were replaced by 2/3 lower limit of detection (LLD), and those NULD were replaced by 3/2 upper limit of detection (ULD)
Summary
During the National Geochemical Survey of Australia over 1300 top (0–10 cm depth) and bottom (~60–80 cm depth) sediment samples (including ~10% field duplicates) were collected from the outlet of 1186 catchments covering 81% of the continent at an average sample density of 1 site/5200 km. Some authors use the mean concentration of the investigated element in the average upper continental crust as the background for the expected concentration of this element in environmental samples This usage is probably based on the definition of the global clay standard of Turekian and Wedepohl (1961). Of importance is whether an element concentration is toxic or not (which relates to availability and speciation), and if so to what organisms, regardless of the source of the high concentration This approach would lead to the definition of toxicological threshold values, soil guideline values or maximum acceptable concentration levels. Even if toxicologically derived action levels are used to define clean-up levels, the geogenic distribution of the elements in question must be known first as naturally occurring high element concentrations due to the occurrence of a particular lithology or mineral deposit cannot be ‘cleaned up’
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