Acid mine drainage (AMD) treatment by neutralization: Evaluation of physical-chemical performance and ecotoxicological effects on zebrafish (Danio rerio) development

Acid mine drainage (AMD) treatment by neutralization: Evaluation of physical-chemical performance and ecotoxicological effects on zebrafish (Danio rerio) development

Acid mine drainage (AMD) represents a major problem in the mining industry worldwide due to the risk of water and soil pollution. Its active treatment involves the addition of alkaline reagents such as NaOH or Ca(OH)2 to increase the pH and precipitate the dissolved metals, although substantial amou...

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Bibliographic Details
Published in:Chemosphere (Oxford) Vol. 253; p. 126665
Main Authors: Carneiro Brandão Pereira, Talita, Batista dos Santos, Karine, Lautert-Dutra, William, de Souza Teodoro, Lilian, de Almeida, Vítor Otacílio, Weiler, Jéssica, Homrich Schneider, Ivo André, Reis Bogo, Maurício
Format: Journal Article
Language:English
Published: England Elsevier Ltd 01-08-2020
Subjects:
Acid rock drainage
Acids - chemistry
Adsorption
Animals
Brazil
Ecotoxicology
Environmental toxicity
Hydrogen-Ion Concentration
Iron
Metal toxicity
Metals - analysis
Mine wastewater
Mining
Mining remediation
Sulfates
Sulfides
Water
Water Pollutants, Chemical - analysis
Water Pollutants, Chemical - chemistry
Water Pollutants, Chemical - toxicity
Zebrafish - physiology
Brazil
Mining remediation
Acid rock drainage
Mine wastewater
Environmental toxicity
Metal toxicity
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Summary:Acid mine drainage (AMD) represents a major problem in the mining industry worldwide due to the risk of water and soil pollution. Its active treatment involves the addition of alkaline reagents such as NaOH or Ca(OH)2 to increase the pH and precipitate the dissolved metals, although substantial amounts of dissolved ions might persists. Under a remediation approach, the aim of this work was to assess the chemical and physical characteristics of treated effluent and to evaluate its ecotoxicological effects on zebrafish (Danio rerio) embryonic and larval stages, through developmental, functional, morphological, and behavioral end-points. The studied AMD sample, highly associated with pyrite, presented high sulfate and dissolved metal ions content and was submitted to the following treatment conditions: NaOH - pH 7.0 and 8.7, and Ca(OH)2 - pH 7.0 and 8.7. All neutralizing treatments resulted in a satisfactory reduction of the metals concentration, with best results achieved using Ca(OH)2 at pH 8.7; although Mn and As still remained above or very near the discharge maximum limits according to Brazilian legislation. Therefore, an additional step was employed to Mn and As adsorption by algal biomass. Regarding in-vivo toxicological assays, no significant lethality was recorded in all treated AMD groups, although adverse effects were observed in all endpoints analyzed. Ca(OH)2 groups performed closer to control than NaOH-treated groups. The additional polishing stage treatment with the algae Scenesmus sp. allowed tenuous improvements in terms of removal of residual amounts of As and Mn but not in the toxicological characteristics of treated AMD. [Display omitted] •Acid mine drainage (AMD) NaOH or Ca(OH)2 active treatments were evaluated.•All treatments improved physical-chemical characteristics of effluent sample.•Neutralization treatments showed in vivo sub-lethal effects, despite no lethality.•NaOH-treated groups displayed greater toxicity than Ca(OH)2-treated groups.
ISSN:0045-6535
1879-1298
DOI:10.1016/j.chemosphere.2020.126665