Add to ORKGThis paper provides a risk assessment of pertinent toxic contaminants in the tailings of the Iron King Mine using a model of aeolian transport fated in human alveolar lung. Here, we studied particulate matter of tailings that are 10 microns () or less in diameter (₁₀) because these is most hazardous fraction. We used in-vitro bioaccessibility and in-vivo Microtox® data to determine the relationships between chronic inhalation of these tailings. Our data suggest that arsenic and zinc are the two principle drivers for toxicity of the Iron King Mine’s PM₁₀ tailings and that arsenic will solubilize in human alveolar biofluids at the expense of other noteworthy elemental contaminants in the tailings. The principle contaminant of concern for chro...
Centuries of metalliferous mining activities have resulted in a legacy of contamination throughout t...
Arsenic is a potentially toxic contaminant of concern even at relatively low concentrations in the e...
Inorganic arsenic compounds are known carcinogens. The human epidemiologic evidence of arsenic-induc...
Communities nearby mine wastes in arid and semi-arid regions are potentially exposed to high concent...
Exposure studies have linked arsenic (As) ingestion with disease in mining-affected populations; how...
Mining activities mobilize undesired trace metal(oid)s during extraction processes, exposing sedimen...
Environmental contamination from legacy mine-waste deposits is a persistent problem due to the long ...
Inorganic arsenic (As), a carcinogenic element to humans, is among the most dangerous and flammable ...
Due to the history of hardrock mining in the southwestern United States, environmental contamination...
Bioaccessibility (BAC) of fine surface dust (FSD, particle size ≤10 μm) and surface dust samples (pa...
Contamination from legacy sulfide mine tailings is a persistent problem due to elevated concentratio...
Arsenic is a naturally occurring trace element that poses a threat to human and ecosystem health, pa...
Arsenic (As) is a naturally-occurring environmental toxicant and carcinogen of concern.Exposure to A...
Legacy mine sites are of concern due to their prevalence and associated environmental and human heal...
Arsenic in dust and aerosol generated by mining, mineral processing and metallurgical extraction ind...
Centuries of metalliferous mining activities have resulted in a legacy of contamination throughout t...
Arsenic is a potentially toxic contaminant of concern even at relatively low concentrations in the e...
Inorganic arsenic compounds are known carcinogens. The human epidemiologic evidence of arsenic-induc...
Communities nearby mine wastes in arid and semi-arid regions are potentially exposed to high concent...
Exposure studies have linked arsenic (As) ingestion with disease in mining-affected populations; how...
Mining activities mobilize undesired trace metal(oid)s during extraction processes, exposing sedimen...
Environmental contamination from legacy mine-waste deposits is a persistent problem due to the long ...
Inorganic arsenic (As), a carcinogenic element to humans, is among the most dangerous and flammable ...
Due to the history of hardrock mining in the southwestern United States, environmental contamination...
Bioaccessibility (BAC) of fine surface dust (FSD, particle size ≤10 μm) and surface dust samples (pa...
Contamination from legacy sulfide mine tailings is a persistent problem due to elevated concentratio...
Arsenic is a naturally occurring trace element that poses a threat to human and ecosystem health, pa...
Arsenic (As) is a naturally-occurring environmental toxicant and carcinogen of concern.Exposure to A...
Legacy mine sites are of concern due to their prevalence and associated environmental and human heal...
Arsenic in dust and aerosol generated by mining, mineral processing and metallurgical extraction ind...
Centuries of metalliferous mining activities have resulted in a legacy of contamination throughout t...
Arsenic is a potentially toxic contaminant of concern even at relatively low concentrations in the e...
Inorganic arsenic compounds are known carcinogens. The human epidemiologic evidence of arsenic-induc...