Accounting for pH heterogeneity and variability in modelling human health risks from cadmium in contaminated land |
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Authors: | J. Rebecca Gay |
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Affiliation: | Mining and Environmental Engineering Research Group, Department of Earth Science and Engineering, Imperial College London, Royal School of Mines Building, Prince Consort Road, London SW7 2AZ, United Kingdom |
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Abstract: | The authors have previously published a methodology which combines quantitative probabilistic human health risk assessment and spatial statistical methods (geostatistics) to produce an assessment, incorporating uncertainty, of risks to human health from exposure to contaminated land. The model assumes a constant soil to plant concentration factor (CFveg) when calculating intake of contaminants. This model is modified here to enhance its use in a situation where CFveg varies according to soil pH, as is the case for cadmium.The original methodology uses sequential indicator simulation (SIS) to map soil concentration estimates for one contaminant across a site. A real, age-stratified population is mapped across the contaminated area, and intake of soil contaminants by individuals is calculated probabilistically using an adaptation of the Contaminated Land Exposure Assessment (CLEA) model.The proposed improvement involves not only the geostatistical estimation of the contaminant concentration, but also that of soil pH, which in turn leads to a variable CFveg estimate which influences the human intake results. The results presented demonstrate that taking pH into account can influence the outcome of the risk assessment greatly.It is proposed that a similar adaptation could be used for other combinations of soil variables which influence CFveg. |
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Keywords: | Geostatistical simulation Human health Probabilistic risk assessment Contaminated land Cadmium |
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