Case Study: "The Jennings System" - Over a Decade of Successful Passive Treatment

Denholm, Clifford F.; Johnson, Daniel B.; Taylor, William Gavin; Shearer, R. C.; Danehy, Timothy; Busler, Shaun; Dunn, Margaret H.

doi:10.21000/jasmr10010154

Cited by 3 publications

(2 citation statements)

References 4 publications

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“…Strain TSed Te1 T was isolated from dried surface sediment on the bank of a stream contaminated by acid drainage from a coal mine. At this location, the stream water is rich in Fe, Mn and Al [23], with the pH of the sediment sampled being measured at pH 6.2. Cells used for all tests in this study were grown aerobically on rich organic (RO) medium [24] at 30 °C and pH 7.5 in the dark unless otherwise noted.…”

Section: Methodsmentioning

confidence: 99%

Gordonia metallireducens sp. nov., a tellurite- and selenite-resistant bacterium isolated from the sediment of an acid mine drainage stream

Grimm,

Guy,

Lengyel

et al. 2023

International Journal of Systematic and Evolutionary Microbiology

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A polyphasic taxonomic study was carried out on strain TSed Te1T, isolated from sediment of a stream contaminated with acid drainage from a coal mine. The bacterium forms pink-pigmented colonies and has a rod–coccus growth cycle, which also includes some coryneform arrangements. This bacterium is capable of growing in the presence of up to 750 μg ml−1 tellurite and 5000 μg ml−1 selenite, reducing each to elemental form. Nearly complete 16S rRNA gene sequence analysis associated the strain with Gordonia , with 99.5 and 99.3 % similarity to Gordonia namibiensis and Gordonia rubripertincta , respectively. Computation of the average nucleotide identity and digital DNA–DNA hybridization comparisons with the closest phylogenetic neighbour of TSed Te1T revealed genetic differences at the species level, which were further substantiated by differences in several physiological characteristics. The dominant fatty acids were C16 : 0, C18 : 1, C16 : 1 and tuberculostearic acid. The DNA G+C content was 67.6 mol%. Major polar lipids were diphosphatidylglycerol, phosphatidylethanolamine, phosphatidylinositol and phosphatidylinositol mannoside, while MK-9(H2) was the only menaquinone found. Mycolic acids of C56–C60 were present. Whole-cell hydrolysates contained meso-diaminopimelic acid along with arabinose and galactose as the major cell-wall sugars. On the basis of the results obtained in this study, the bacterium was assigned to the genus Gordonia and represents a new species with the name Gordonia metallireducens sp. nov. The type strain is TSed Te1T (=NRRL B-65678T=DSM 114093T).

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Section: Methodsmentioning

confidence: 99%

Gordonia metallireducens sp. nov., a tellurite- and selenite-resistant bacterium isolated from the sediment of an acid mine drainage stream

Grimm,

Guy,

Lengyel

et al. 2023

International Journal of Systematic and Evolutionary Microbiology

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“…Three locations were chosen for sampling, two of which were impacted by acid mine drainage (AMD) from coal mining, and one natural site as a reference. The first site chosen was an untreated AMD stream at the Jennings site (before remediation treatment) [38]. This location is a stream that is fed with water directly coming from an abandoned coal mine.…”

Section: Environmental Sampling Locations and Siderophore Screeningmentioning

confidence: 99%

Metallophore Activity toward the Rare Earth Elements by Bacteria Isolated from Acid Mine Drainage Due to Coal Mining

Skeba,

Snyder,

Maltman

2023

Microorganisms

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The field of microbe–metal interactions has been gaining significant attention. While the direct impact of metal oxyanions on bacteria has been investigated, significantly less attention has been placed on the ability of certain microbes to ‘collect’ such metal ions via secreted proteins. Many bacteria possess low-weight molecules called siderophores, which collect Fe from the environment to be brought back to the cell. However, some appear to have additional roles, including binding other metals, termed ‘metallophores’. Microbes can remove/sequester these from their surroundings, but the breadth of those that can be removed is still unknown. Using the Chromeazurol S assay, we identified eight isolates, most belonging to the genus Pseudomonas, possessing siderophore activity, mainly from sites impacted by coal mine drainage, also possessing a metallophore activity toward the rare earth elements that does not appear to be related to ionic radii or previously reported EC50 concentrations for E. coli. We found the strength of metallophore activity towards these elements was as follows: Pr > Sc > Eu > Tm > Tb > Er > Yb > Ce > Lu > Sm > Ho > La > Nd > Dy > Gd > Y. This is the first study to investigate such activity and indicates bacteria may provide a means of removal/recovery of these critical elements.

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Biogeochemical Analysis of Spent Media from a 15-Year Old Passive Treatment System Vertical Flow Bioreactor

Shepherd

Denholm²,

Dunn³

et al. 2020

Mine Water Environ

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Case Study: "The Jennings System" - Over a Decade of Successful Passive Treatment

Cited by 3 publications

References 4 publications

Gordonia metallireducens sp. nov., a tellurite- and selenite-resistant bacterium isolated from the sediment of an acid mine drainage stream

Gordonia metallireducens sp. nov., a tellurite- and selenite-resistant bacterium isolated from the sediment of an acid mine drainage stream

Metallophore Activity toward the Rare Earth Elements by Bacteria Isolated from Acid Mine Drainage Due to Coal Mining

Biogeochemical Analysis of Spent Media from a 15-Year Old Passive Treatment System Vertical Flow Bioreactor

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