Using a battery of tests to evaluate the potential toxicity of remediated and unremediated soils and dusts contaminated with metals. An in vitro model simulating the intact and immature infant intestinal epithelium will be used to determine the changes in solubility and uptake of metals following in situ remediation processes. The earthworm and bacterial luminescence toxicity tests indicate the ecotoxicity of contaminated soils.
Many garden soils, household dusts, and industrial sites are conta ....Using a battery of tests to evaluate the potential toxicity of remediated and unremediated soils and dusts contaminated with metals. An in vitro model simulating the intact and immature infant intestinal epithelium will be used to determine the changes in solubility and uptake of metals following in situ remediation processes. The earthworm and bacterial luminescence toxicity tests indicate the ecotoxicity of contaminated soils.
Many garden soils, household dusts, and industrial sites are contaminated with lead, cadmium, and other metals. These pose a risk to human health, especially of children, and ecosystem health
These tests will be applied to prioritise sites where metal contamination exists and to evaluate the effectiveness of remediation techniques in reducing metal uptake and toxicity.Read moreRead less