Interactive Effects of AMD and Grazing on Periphyton Productivity, Biomass, andDiatom Diversity

Fuelling, Lauren J.

12 June 2013

No description available.

Aquatic Sciences

Periphyton

Diatoms

Biofilms

Acid Mine Drainage

Macroinvertebrate Grazing

Utilizing wood ash to stimulate algal growth in mine waters from northern Sweden

Murphy, Katelyn

January 2023

Acid rock drainage (ARD), caused by the oxidation of sulphide bearing minerals, continues to be an environmental impact of both closed and operational mines, leading to waters with low pH values and high metal concentrations (Park et al., 2019). A potential treatment method for ARD is controlled eutrophication, where algae growth is stimulated in the water and metals are accumulated within the algae cells or sorbed to the outside of the cell walls (Samal et al., 2020). The aim of this study is to determine if the addition of wood ash to acidic mine waters can increase the pH, stimulate algal growth, and lower metal concentrations in the water. Two types of wood ash, as well as KNO3 and KH2PO4 were utilized for this study, along with three water sample types: neutral (pH of 7.0) water from Åkerberg pit lake, acidic (pH of 5.7) water from Maurliden mine site (Maurliden East), and very acidic (pH of 2.3) water from Maurliden mine site (Maurliden West). Two experiments were performed, Experiment I (Exp. I) involved a one-time addition of wood ash and KNO3 to samples from each of the three sites, and Experiment II (Exp. II) involved a feeding style ash addition where ash was added every five days to samples from Åkerberg and Maurliden East. Exp. II also included one sample set where artificial nutrients only (KNO3 and KH2PO4) were added to Maurliden East samples. Samples were placed inside of a climate chamber to provide daily irradiation and pH, electrical conductivity (EC), and fluorescence signal measurements were taken daily. Additionally, absorbance samples and O2 saturation measurements were taken daily for Exp. II. At the end of each experiment, samples were sent to an accredited laboratory for elemental analysis and chl-a analysis.  Algal growth was observed in Exp. I in Åkerberg samples only, and in Exp. II in Åkerberg samples and in Maurliden East samples with artificial nutrient additions only. The algal growth rate was similar in both experiments; however, Exp. II yielded a higher concentration of chl-a than Exp. I. Precipitates were observed in all samples in both experiments, including in control samples. pH results cannot confirm the ability of the wood ash to increase the pH in the samples from Maurliden East or West, and metal concentration decreases in these samples are most likely due to precipitation reactions. Metal concentration decreases in Åkerberg samples could be due to precipitation reactions and/or algal uptake.

acid rock drainage

acid mine drainage

controlled eutrophication

Geochemistry

Geokemi

Microbial Treatment Strategies: An Integrative Approach

Brantner, Justin

10 September 2015

No description available.

Biology

acid mine drainage

iron

cystic fibrosis

silver

antimicrobials

mucin

Concentration-discharge behavior of contaminants in a stream impacted by acid mine drainage

Shaw, Meaghan Elizabeth

25 July 2018

No description available.

Geochemistry

Geology

Concentration-discharge

acid mine drainage

water chemistry

TREATMENT OF ACID MINE DRAINAGE USING MEMBRANE BIOREACTOR

RAO, PRASANNA

03 December 2001

No description available.

Engineering, Chemical

acid mine drainage

membrane

bioreactor

sulfate reducing bacteria

WHEN IS ECOLOGICAL RESTORATION A SUCCESS? A COMPARISON OF MACROINVERTEBRATE DIVERSITY AND ABUNDANCE IN IMPAIRED, UNIMPAIRED, AND RESTORED STREAMS IN SOUTHEAST OHIO

Miles, Austin R.

13 May 2016

No description available.

Ecology

Wildlife Conservation

Acid Mine Drainage

Remediation

MAIS

Southeast Ohio

Evaluation of the Impact From Two Point Sources of Acid Mine Drainage Upon Fish and Macroinvertebrate Assemblages in Sunday Creek, OH

Kanuckel, Corey

28 April 2003

No description available.

Biology, Ecology

Stream Ecology

Fish

Macroinvertebrates

Acid Mine Drainage

Rapid Removal of Toxicity of Acid Mine Drainage Contaminated Sediments in a Clean Stream: Relative Contribution of Acidity Vs Metals

D'Sa, Jean Vanita

21 June 2004

No description available.

Acid Mine Drainage

Heavy Metals

Daphnia Magna

Acidity

Sediments

Toxicity

Hydrologic controls on acidity and metals production in an abandoned underground mine complex in southeast Ohio, Perry county

McCament, Benny K.

25 June 2004

No description available.

Mine Hydrology

Acid Mine Drainage

Mine Geochemistry

Mine Recharge

REMEDIATION OF ACID MINE DRAINAGE AND METAL RETENTION BY NATURALLY OCCURRING ACID WETLANDS IN PIERCE RUN WATERSHED, RACCOON CREEK, OHIO

Hovart, Amy Lora

January 2006

No description available.

acid mine drainage

wetlands

metals retention

Raccoon Creek Watershed

remediation