Column experiments for microbiological treatment of acid mine drainage: low-temperature, low-pH and matrix investigations

ABSTRACT Acid mine drainage (AMD) is a major environmental problem affecting tens of thousands of kilometers of waterways worldwide. Passive bioremediation of AMD relies on microbial communities to oxidize and remove iron from the system; however, iron oxidation rates in AMD environments are highly variable among sites. At Scalp Level Run (Cambria County, PA), first-order iron oxidation rates are 10 times greater than at other coal-associated iron mounds in the Appalachians. We examined the bacterial community at Scalp Level Run to determine whether a unique community is responsible for the rapid iron oxidation rate. Despite strong geochemical gradients, including a >10-fold change in the concentration of ferrous iron from 57.3 mg/liter at the emergence to 2.5 mg/liter at the base of the coal tailings pile, the bacterial community composition was nearly constant with distance from the spring outflow. Scalp Level Run contains many of the same taxa present in other AMD sites, but the community is dominated by two strains of Ferrovum myxofaciens, a species that is associated with high rates of Fe(II) oxidation in laboratory studies. IMPORTANCE Acid mine drainage pollutes more than 19,300 km of rivers and streams and 72,000 ha of lakes worldwide. Remediation is frequently ineffective and costly, upwards of $100 billion globally and nearly $5 billion in Pennsylvania alone. Microbial Fe(II) oxidation is more efficient than abiotic Fe(II) oxidation at low pH (P. C. Singer and W. Stumm, Science 167:1121–1123, 1970, https://doi.org/10.1126/science.167.3921.1121 ). Therefore, AMD bioremediation could harness microbial Fe(II) oxidation to fuel more-cost-effective treatments. Advances will require a deeper understanding of the ecology of Fe(II)-oxidizing microbial communities and the factors that control their distribution and rates of Fe(II) oxidation. We investigated bacterial communities that inhabit an AMD site with rapid Fe(II) oxidation and found that they were dominated by two operational taxonomic units (OTUs) of Ferrovum myxofaciens, a taxon associated with high laboratory rates of iron oxidation. This research represents a step forward in identifying taxa that can be used to enhance cost-effective AMD bioremediation.

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Reactive Transport Modeling of Column Experiments for the Remediation of Acid Mine Drainage

Environmental Science & Technology ◽

10.1021/es0349608 ◽

2004 ◽

Vol 38 (11) ◽

pp. 3131-3138 ◽

Cited By ~ 36

Author(s):

Richard T. Amos ◽

K. Ulrich Mayer ◽

David W. Blowes ◽

Carol J. Ptacek

Keyword(s):

Acid Mine Drainage ◽

Reactive Transport ◽

Mine Drainage ◽

Transport Modeling ◽

Column Experiments ◽

Reactive Transport Modeling ◽

Acid Mine

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Utilization of fly ash to improve the quality of the acid mine drainage generated by oxidation of a sulphide-rich mining waste: Column experiments

Chemosphere ◽

10.1016/j.chemosphere.2006.10.009 ◽

2007 ◽

Vol 67 (8) ◽

pp. 1637-1646 ◽

Cited By ~ 55

Author(s):

Rafael Pérez-López ◽

José Miguel Nieto ◽

Gabriel Ruiz de Almodóvar

Keyword(s):

Fly Ash ◽

Acid Mine Drainage ◽

Mine Drainage ◽

Mining Waste ◽

Column Experiments ◽

Acid Mine

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1-Dimensional numerical modelling of unsaturated water flow and oxygen diffusion in overburden material column using hydrus 1-D

IOP Conference Series Earth and Environmental Science ◽

10.1088/1755-1315/882/1/012064 ◽

2021 ◽

Vol 882 (1) ◽

pp. 012064

Author(s):

Jarwinda ◽

A Badhurahman ◽

G J Kusuma ◽

R S Gautama

Keyword(s):

Acid Mine Drainage ◽

Water Content ◽

Mine Drainage ◽

Negative Impact ◽

Low Ph ◽

Acid Mine ◽

Overburden Material ◽

Constant Head ◽

Unsaturated Condition ◽

And Diffusion

Abstract Coal mining activities, especially overburden material dumping can cause a negative impact into the environment, i.e., acid mine drainage, Acid mine drainage is characterized as low pH water with high sulphate and metal content produced from sulphidic-bearing overburden material with oxygen and water. In unsaturated condition, both of gaseous and water phases exist, acid mine drainage is generated. This study aims to characterize and model the water content in unsaturated condition and diffusion of oxygen of overburden material using the Hydrus 1-D software in a laboratory-scaled column. Laboratory-scaled column is initially filled with 75-cm height of dry overburden material and subjected into 5-cm constant head water level at the top of the column with free-flow condition at the bottom of column. The modelling result shows the water content of overburden material varies within depth and time elapsed and is saturated between 32400 minutes and 36000 minutes after initial wetting. Diffusivity of oxygen is linearly correlated with the water content of the overburden material at any given time and depth that varies between 1.34 × 10−7 m2/s and 8.80 × 10−12 m2/s. Water content and diffusivity of oxygen is expected to affect the generation of acid mine drainage in the overburden material.

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Mine Waste Stabilization with Biosludge and Ca Carbonate Residues: Column Experiments

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.20-21.291 ◽

2007 ◽

Vol 20-21 ◽

pp. 291-294

Author(s):

Roger B. Herbert ◽

Linda Höckert ◽

Mattias von Brömssen ◽

Helen Friis ◽

Gunnar Jacks

Keyword(s):

Acid Mine Drainage ◽

Mine Drainage ◽

Mine Waste ◽

Paper Industry ◽

Waste Rock ◽

Column Experiments ◽

Neutral Ph ◽

Acid Mine ◽

Waste Stabilization ◽

Ca Carbonate

Column experiments investigated the stabilization of waste rock from Ljusnarsberg mine in Kopparberg, Sweden. In order to inhibit the generation of acidic leachate from the waste rock, biosludge and a Ca carbonate – rich residue from the paper industry were mixed with the sulfidic mine waste. The results of the column experiments indicate that the stabilization of the waste rock with the reactive amendments succeeded in maintaining a near – neutral pH in the waste rock leachate, compared to a pH 3 leachate from untreated waste rock. Copper and Zn concentrations in leachate from the untreated waste exceeded 100 mg/L, while these metals were detected at concentrations less than 0.1 and 1 mg/L, respectively, in the leachate from the treated wastes. This study indicates that the stabilization of acid – generating waste rock with biosludge and Ca carbonate residues is effective in preventing the generation of acid mine drainage; the treatment is expected to continue until the reactive amendments are exhausted.

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Metagenomic analysis reveals adaptations to a cold-adapted lifestyle in a low-temperature acid mine drainage stream

FEMS Microbiology Ecology ◽

10.1093/femsec/fiv011 ◽

2015 ◽

Vol 91 (4) ◽

Cited By ~ 45

Author(s):

Maria Liljeqvist ◽

Francisco J. Ossandon ◽

Carolina González ◽

Sukithar Rajan ◽

Adam Stell ◽

...

Keyword(s):

Low Temperature ◽

Acid Mine Drainage ◽

Mine Drainage ◽

Metagenomic Analysis ◽

Cold Adapted ◽

Acid Mine

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Behaviour of Fe, Mg and Ca in acid mine drainage and experimental solutions in the presence of Aspergillus niger species isolated from various environment

Nova Biotechnologica et Chimica ◽

10.36547/nbc.1116 ◽

2021 ◽

Vol 10 (1) ◽

Author(s):

Alexandra Šimonovičová ◽

Jana Barteková ◽

Ľubica Janovová ◽

Alena Luptáková

Keyword(s):

Aspergillus Niger ◽

Acid Mine Drainage ◽

Mine Drainage ◽

Low Ph ◽

Model Solution ◽

Acid Sulphate ◽

Acid Mine ◽

Mining Region

This article analyzes the ability of micromycetes to accumulate Fe, Mg and Ca from acid mine drainage (AMD) at the locality Smolník. Four strains of the Aspergillus niger (An) species originating from various types of environment were used in the experiments: the An-G strain (the locality of Gabčíkovo, Eutric Fluvisol), the An-P strain (the locality of Pezinok-Kolársky vrch, mining region with elevated amounts of As and Sb), the An-N strain (the locality of Nováky, mining region with elevated amounts of As and S), the An-Š strain (Banská ŠtiavnicaŠobov, the locality impacted by an acid sulphate weathering and extremely low pH). In the most cases the accumulation of Mg was the highest in comparison to accumulation of Fe. Accumulation of Ca was very low. Among the tested microfungi, the highest accumulation was noted by the strain An-N 55 % of Mg and by the strain An-Š 54 % of Fe from the model solution of the elements (Fe [1.67 mg/L], Mg [2.35 mg/L] and Ca [1.14 mg/L]).

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