Role of Fe dynamic in release of metals at Rio Doce estuary: Unfolding of a mining disaster

Role of Fe dynamic in release of metals at Rio Doce estuary: Unfolding of a mining disaster

The role of Fe oxyhydroxides dynamic on metal bioavailability was studied in the Rio Doce estuary after the largest mining disaster in the world. Soon after the disaster in 2015, metals were associated with Fe oxyhydroxides under a redox-active estuarine environment. Our results indicate that organi...

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Bibliographic Details
Published in:Marine pollution bulletin Vol. 166; p. 112267
Main Authors: Queiroz, Hermano M., Ying, Samantha C., Bernardino, Angelo F., Barcellos, Diego, Nóbrega, Gabriel N., Otero, Xosé L., Ferreira, Tiago O.
Format: Journal Article
Language:English
Published: England Elsevier Ltd 01-05-2021
Elsevier BV
Subjects:
Bioavailability
Brackishwater environment
Chromium
Colonization
Contamination
Copper
Crystal structure
Crystallinity
Disasters
Environmental contamination
Environmental Monitoring
Estuaries
Estuarine dynamics
Estuarine environments
Fe oxides
Heavy metals
Immobilization
Iron
Metals
Metals - analysis
Metals, Heavy - analysis
Mine tailings
Mining
Nickel
Organic matter
Oxides
Oxidoreductions
Redox processes
Samarco mining disaster
Soil
Soil contamination
Soil Pollutants - analysis
Soils
Trace metals
Zinc
Redox processes
Fe oxides
Environmental contamination
Samarco mining disaster
Trace metals
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Summary:The role of Fe oxyhydroxides dynamic on metal bioavailability was studied in the Rio Doce estuary after the largest mining disaster in the world. Soon after the disaster in 2015, metals were associated with Fe oxyhydroxides under a redox-active estuarine environment. Our results indicate that organic matter inputs from plant colonization on deposited tailings over estuarine soils led to a reductive dissolution of Fe oxyhydroxides within two years. Soil pseudo-total Fe content decreased by 70% between 2015 and 2017, while the total metal contents (Cr, Cu, Ni, Pb, and Zn) decreased by 79% in the soil. The losses of Fe and metals coupled to changes in Fe oxides crystallinity reveal a future ephemeral control of Fe oxyhydroxides over metal immobilization. Our results suggest a potential chronic contamination at the estuary and points to an aggravating scenario for the following years due to the increasing dominance of poorly crystalline Fe oxyhydroxides. •Massive Fe and metal losses took place within two years after the Samarco disaster.•Inputs of organic matter increase the dissolution of Fe oxides within mine tailings.•Loss in the crystallinity of Fe oxides weakens the soil capacity to immobilize metals.•A chronic contamination is expected at Rio Doce estuary for the following years.
ISSN:0025-326X
1879-3363
DOI:10.1016/j.marpolbul.2021.112267