Add to ORKGA legacy of coal mining in the Appalachians has provided a unique opportunity to study the ecological niches of iron-oxidizing microorganisms. Mine-impacted, anoxic groundwater with high dissolved-metal concentrations emerges at springs and seeps associated with iron oxide mounds and deposits. These deposits are colonized by iron-oxidizing microorganisms that in some cases efficiently remove most of the dissolved iron at low pH, making subsequent treatment of the polluted stream water less expensive. We used full-cycle rRNA methods to describe the composition of sediment communities at two geochemically similar acidic discharges, Upper and Lower Red Eyes in Somerset County, PA, USA. The dominant microorganisms at both discharges were acidop...
Changes in microbial community composition during formation of an acid mine drainage were studied on...
International audienceThe acid waters (pH 2.7 to 3.4) originating from the Carnoulès mine tailings c...
An unusually thick (similar to 1 cm) slime developed on a slump of finely disseminated pyrite ore wi...
The geochemical dynamics and composition of microbial communities within a low-temperature (�8.5°...
The microbial community of acid mine drainage (AMD) fascinates researchers by their adaption and rol...
UnlabelledTwo acid mine drainage (AMD) sites in the Appalachian bituminous coal basin were selected ...
The Richmond Mine at Iron Mountain, Shasta County, California, USA provides an excellent opportunit...
This study presents population analyses of microbial communities inhabiting a site of extreme acid m...
<p>Indigenous Fe- and S-metabolizing bacteria play important roles both in the formation and the nat...
We evaluated the depth-dependent geochemistry and microbiology of sediments that have developed via ...
Waters draining from flooded and abandoned coal mines in the South Wales Coalfield (SWC) are substan...
Acid mine drainage (AMD) microbial communities contain microbial eukaryotes (both fungi and protists...
Acid Mine Drainage (AMD) is a consequence of mining activity; it results from bacterial and chemical...
Constructed wetlands are used to treat acid drainage from surface or underground coal mines. However...
Lower Red Eyes is an acid mine drainage site in Pennsylvania where low-pH Fe(II) oxidation has creat...
Changes in microbial community composition during formation of an acid mine drainage were studied on...
International audienceThe acid waters (pH 2.7 to 3.4) originating from the Carnoulès mine tailings c...
An unusually thick (similar to 1 cm) slime developed on a slump of finely disseminated pyrite ore wi...
The geochemical dynamics and composition of microbial communities within a low-temperature (�8.5°...
The microbial community of acid mine drainage (AMD) fascinates researchers by their adaption and rol...
UnlabelledTwo acid mine drainage (AMD) sites in the Appalachian bituminous coal basin were selected ...
The Richmond Mine at Iron Mountain, Shasta County, California, USA provides an excellent opportunit...
This study presents population analyses of microbial communities inhabiting a site of extreme acid m...
<p>Indigenous Fe- and S-metabolizing bacteria play important roles both in the formation and the nat...
We evaluated the depth-dependent geochemistry and microbiology of sediments that have developed via ...
Waters draining from flooded and abandoned coal mines in the South Wales Coalfield (SWC) are substan...
Acid mine drainage (AMD) microbial communities contain microbial eukaryotes (both fungi and protists...
Acid Mine Drainage (AMD) is a consequence of mining activity; it results from bacterial and chemical...
Constructed wetlands are used to treat acid drainage from surface or underground coal mines. However...
Lower Red Eyes is an acid mine drainage site in Pennsylvania where low-pH Fe(II) oxidation has creat...
Changes in microbial community composition during formation of an acid mine drainage were studied on...
International audienceThe acid waters (pH 2.7 to 3.4) originating from the Carnoulès mine tailings c...
An unusually thick (similar to 1 cm) slime developed on a slump of finely disseminated pyrite ore wi...