Advances in Understanding Environmental Risks of Red Mud After the Ajka Spill, Hungary

In the 5 years since the 2010 Ajka red mud spill (Hungary), there have been 46 scientific studies assessing the key risks and impacts associated with the largest single release of bauxite-processing residue (red mud) to the environment. These studies have provided insight into the main environmental...

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Veröffentlicht in:	Journal of sustainable metallurgy 2016-12, Vol.2 (4), p.332-343
Hauptverfasser:	Mayes, W. M., Burke, I. T., Gomes, H. I., Anton, Á. D., Molnár, M., Feigl, V., Ujaczki, É.
Format:	Artikel
Sprache:	eng
Schlagworte:	Aquatic biota Bauxite Bauxite Residue Valorization Bayer process Biofuels Crop production Data recovery Dilution Dust Earth and Environmental Science Environment Environmental management Genotoxicity Hazard assessment Hazard identification Materials recovery Metallic Materials Particle size Particle size distribution Plant layout Rare earth elements Raw materials Red mud Sediments Soil water Soils Sustainable Development Thematic Section: Bauxite Residue Valorization
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container_issue	4
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container_title	Journal of sustainable metallurgy
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creator	Mayes, W. M. Burke, I. T. Gomes, H. I. Anton, Á. D. Molnár, M. Feigl, V. Ujaczki, É.
description	In the 5 years since the 2010 Ajka red mud spill (Hungary), there have been 46 scientific studies assessing the key risks and impacts associated with the largest single release of bauxite-processing residue (red mud) to the environment. These studies have provided insight into the main environmental concerns, as well as the effectiveness of remedial efforts that can inform future management of red mud elsewhere. The key immediate risks after the spill were associated with the highly caustic nature of the red mud slurry and fine particle size, which once desiccated, could generate fugitive dust. Studies on affected populations showed no major hazards identified beyond caustic exposure, while red mud dust risks were considered equal to or lesser than those provided by urban dusts of similar particle size distribution. The longer-term environmental risks were related to the saline nature of the spill material (salinization of inundated soils) and the release and the potential cycling of oxyanion-forming metals and metalloids (e.g., Al, As, Cr, Mo, and V) in the soil–water environment. Of these, those that are soluble at high pH, inefficiently removed from solution during dilution and likely to be exchangeable at ambient pH are of chief concern (e.g., Mo and V). Various ecotoxicological studies have identified negative impacts of red mud-amended soils and sediments at high volumes (typically >5 %) on different test organisms, with some evidence of molecular-level impacts at high dose (e.g., genotoxic effects on plants and mice). These data provide a valuable database to inform future toxicological studies for red mud. However, extensive management efforts in the aftermath of the spill greatly limited these exposure risks through leachate neutralization and red mud recovery from the affected land. Monitoring of affected soils, stream sediments, waters and aquatic biota (fungi, invertebrates and fish) have all shown a very rapid recovery toward prespill conditions. The accident also prompted research that has also highlighted potential benefits of red mud use for critical raw material recovery (e.g., Ga, Co, V, rare earths, inform), carbon sequestration, biofuel crop production, and use as a soil ameliorant.
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The key immediate risks after the spill were associated with the highly caustic nature of the red mud slurry and fine particle size, which once desiccated, could generate fugitive dust. Studies on affected populations showed no major hazards identified beyond caustic exposure, while red mud dust risks were considered equal to or lesser than those provided by urban dusts of similar particle size distribution. The longer-term environmental risks were related to the saline nature of the spill material (salinization of inundated soils) and the release and the potential cycling of oxyanion-forming metals and metalloids (e.g., Al, As, Cr, Mo, and V) in the soil–water environment. Of these, those that are soluble at high pH, inefficiently removed from solution during dilution and likely to be exchangeable at ambient pH are of chief concern (e.g., Mo and V). Various ecotoxicological studies have identified negative impacts of red mud-amended soils and sediments at high volumes (typically >5 %) on different test organisms, with some evidence of molecular-level impacts at high dose (e.g., genotoxic effects on plants and mice). These data provide a valuable database to inform future toxicological studies for red mud. However, extensive management efforts in the aftermath of the spill greatly limited these exposure risks through leachate neutralization and red mud recovery from the affected land. Monitoring of affected soils, stream sediments, waters and aquatic biota (fungi, invertebrates and fish) have all shown a very rapid recovery toward prespill conditions. The accident also prompted research that has also highlighted potential benefits of red mud use for critical raw material recovery (e.g., Ga, Co, V, rare earths, inform), carbon sequestration, biofuel crop production, and use as a soil ameliorant.</description><subject>Aquatic biota</subject><subject>Bauxite</subject><subject>Bauxite Residue Valorization</subject><subject>Bayer process</subject><subject>Biofuels</subject><subject>Crop production</subject><subject>Data recovery</subject><subject>Dilution</subject><subject>Dust</subject><subject>Earth and Environmental Science</subject><subject>Environment</subject><subject>Environmental management</subject><subject>Genotoxicity</subject><subject>Hazard assessment</subject><subject>Hazard identification</subject><subject>Materials recovery</subject><subject>Metallic Materials</subject><subject>Particle size</subject><subject>Particle size distribution</subject><subject>Plant layout</subject><subject>Rare earth elements</subject><subject>Raw materials</subject><subject>Red mud</subject><subject>Sediments</subject><subject>Soil water</subject><subject>Soils</subject><subject>Sustainable Development</subject><subject>Thematic Section: Bauxite Residue Valorization</subject><issn>2199-3823</issn><issn>2199-3831</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2016</creationdate><recordtype>article</recordtype><sourceid>C6C</sourceid><recordid>eNp1kF9LwzAUxYMoOOY-gG8BX63eNG2TPpYxnTARpvM1pE0yu3XpTNqB-_RmVMQXn-4fzjn38kPomsAdAWD3PgFOSQQkiwBSiI5naBSTPI9oWJ__9jG9RBPvNwAQM5owRkbovVAHaSvtcW3xyirtfCetqu0az-yhdq3dadvJBi9rv_W4NXipFX7uFS5Mpx3uPjQuNluJX_d109zieW_X0n1doQsjG68nP3WMVg-zt-k8Wrw8Pk2LRVTRnHdRqoGCrrIsZXEmKy7DnFYlJ5lKE8K5YlCWOk45i_M8YUbKPFU6Z2BMmXBj6BjdDLl713722ndi0_bOhpMi2AMVCpAFFRlUlWu9d9qIvat34U1BQJwIioGgCATFiaA4Bk88eHzQ2rV2f5L_NX0DSzZy4A</recordid><startdate>20161201</startdate><enddate>20161201</enddate><creator>Mayes, W. 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Metall</stitle><date>2016-12-01</date><risdate>2016</risdate><volume>2</volume><issue>4</issue><spage>332</spage><epage>343</epage><pages>332-343</pages><issn>2199-3823</issn><eissn>2199-3831</eissn><abstract>In the 5 years since the 2010 Ajka red mud spill (Hungary), there have been 46 scientific studies assessing the key risks and impacts associated with the largest single release of bauxite-processing residue (red mud) to the environment. These studies have provided insight into the main environmental concerns, as well as the effectiveness of remedial efforts that can inform future management of red mud elsewhere. The key immediate risks after the spill were associated with the highly caustic nature of the red mud slurry and fine particle size, which once desiccated, could generate fugitive dust. 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subjects	Aquatic biota Bauxite Bauxite Residue Valorization Bayer process Biofuels Crop production Data recovery Dilution Dust Earth and Environmental Science Environment Environmental management Genotoxicity Hazard assessment Hazard identification Materials recovery Metallic Materials Particle size Particle size distribution Plant layout Rare earth elements Raw materials Red mud Sediments Soil water Soils Sustainable Development Thematic Section: Bauxite Residue Valorization
title	Advances in Understanding Environmental Risks of Red Mud After the Ajka Spill, Hungary
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