Extremely Acidic Eukaryotic (Micro) Organisms: Life in Acid Mine Drainage Polluted Environments—Mini-Review

Acid Mine Drainage (AMD) results from sulfide oxidation, which incorporates hydrogen ions, sulfate, and metals/metalloids into the aquatic environment, allowing fixation, bioaccumulation and biomagnification of pollutants in the aquatic food chain. Acidic leachates from waste rock dams from pyritic...

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Autores principales: Luís, Ana Teresa, Córdoba, Francisco, Antunes, Catarina, Loayza-Muro, Raul, Grande, José Antonio, Silva, Bruna, Diaz-Curiel, Jesus, Ferreira da Silva, Eduardo
Formato: Online Artículo Texto
Lenguaje:English
Publicado: MDPI 2021
Materias:
Review
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8751164/
https://www.ncbi.nlm.nih.gov/pubmed/35010636
http://dx.doi.org/10.3390/ijerph19010376
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author Luís, Ana Teresa
Córdoba, Francisco
Antunes, Catarina
Loayza-Muro, Raul
Grande, José Antonio
Silva, Bruna
Diaz-Curiel, Jesus
Ferreira da Silva, Eduardo
author_facet Luís, Ana Teresa
Córdoba, Francisco
Antunes, Catarina
Loayza-Muro, Raul
Grande, José Antonio
Silva, Bruna
Diaz-Curiel, Jesus
Ferreira da Silva, Eduardo
author_sort Luís, Ana Teresa
collection PubMed
description Acid Mine Drainage (AMD) results from sulfide oxidation, which incorporates hydrogen ions, sulfate, and metals/metalloids into the aquatic environment, allowing fixation, bioaccumulation and biomagnification of pollutants in the aquatic food chain. Acidic leachates from waste rock dams from pyritic and (to a lesser extent) coal mining are the main foci of Acid Mine Drainage (AMD) production. When AMD is incorporated into rivers, notable changes in water hydro-geochemistry and biota are observed. There is a high interest in the biodiversity of this type of extreme environments for several reasons. Studies indicate that extreme acid environments may reflect early Earth conditions, and are thus, suitable for astrobiological experiments as acidophilic microorganisms survive on the sulfates and iron oxides in AMD-contaminated waters/sediments, an analogous environment to Mars; other reasons are related to the biotechnological potential of extremophiles. In addition, AMD is responsible for decreasing the diversity and abundance of different taxa, as well as for selecting the most well-adapted species to these toxic conditions. Acidophilic and acidotolerant eukaryotic microorganisms are mostly composed by algae (diatoms and unicellular and filamentous algae), protozoa, fungi and fungi-like protists, and unsegmented pseudocoelomata animals such as Rotifera and micro-macroinvertebrates. In this work, a literature review summarizing the most recent studies on eukaryotic organisms and micro-organisms in Acid Mine Drainage-affected environments is elaborated.
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spelling pubmed-87511642022-01-12 Extremely Acidic Eukaryotic (Micro) Organisms: Life in Acid Mine Drainage Polluted Environments—Mini-Review Luís, Ana Teresa Córdoba, Francisco Antunes, Catarina Loayza-Muro, Raul Grande, José Antonio Silva, Bruna Diaz-Curiel, Jesus Ferreira da Silva, Eduardo Int J Environ Res Public Health Review Acid Mine Drainage (AMD) results from sulfide oxidation, which incorporates hydrogen ions, sulfate, and metals/metalloids into the aquatic environment, allowing fixation, bioaccumulation and biomagnification of pollutants in the aquatic food chain. Acidic leachates from waste rock dams from pyritic and (to a lesser extent) coal mining are the main foci of Acid Mine Drainage (AMD) production. When AMD is incorporated into rivers, notable changes in water hydro-geochemistry and biota are observed. There is a high interest in the biodiversity of this type of extreme environments for several reasons. Studies indicate that extreme acid environments may reflect early Earth conditions, and are thus, suitable for astrobiological experiments as acidophilic microorganisms survive on the sulfates and iron oxides in AMD-contaminated waters/sediments, an analogous environment to Mars; other reasons are related to the biotechnological potential of extremophiles. In addition, AMD is responsible for decreasing the diversity and abundance of different taxa, as well as for selecting the most well-adapted species to these toxic conditions. Acidophilic and acidotolerant eukaryotic microorganisms are mostly composed by algae (diatoms and unicellular and filamentous algae), protozoa, fungi and fungi-like protists, and unsegmented pseudocoelomata animals such as Rotifera and micro-macroinvertebrates. In this work, a literature review summarizing the most recent studies on eukaryotic organisms and micro-organisms in Acid Mine Drainage-affected environments is elaborated. MDPI 2021-12-30 /pmc/articles/PMC8751164/ /pubmed/35010636 http://dx.doi.org/10.3390/ijerph19010376 Text en © 2021 by the authors. https://creativecommons.org/licenses/by/4.0/Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license (https://creativecommons.org/licenses/by/4.0/).
spellingShingle Review
Luís, Ana Teresa
Córdoba, Francisco
Antunes, Catarina
Loayza-Muro, Raul
Grande, José Antonio
Silva, Bruna
Diaz-Curiel, Jesus
Ferreira da Silva, Eduardo
Extremely Acidic Eukaryotic (Micro) Organisms: Life in Acid Mine Drainage Polluted Environments—Mini-Review
title Extremely Acidic Eukaryotic (Micro) Organisms: Life in Acid Mine Drainage Polluted Environments—Mini-Review
title_full Extremely Acidic Eukaryotic (Micro) Organisms: Life in Acid Mine Drainage Polluted Environments—Mini-Review
title_fullStr Extremely Acidic Eukaryotic (Micro) Organisms: Life in Acid Mine Drainage Polluted Environments—Mini-Review
title_full_unstemmed Extremely Acidic Eukaryotic (Micro) Organisms: Life in Acid Mine Drainage Polluted Environments—Mini-Review
title_short Extremely Acidic Eukaryotic (Micro) Organisms: Life in Acid Mine Drainage Polluted Environments—Mini-Review
title_sort extremely acidic eukaryotic (micro) organisms: life in acid mine drainage polluted environments—mini-review
topic Review
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8751164/
https://www.ncbi.nlm.nih.gov/pubmed/35010636
http://dx.doi.org/10.3390/ijerph19010376
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