Add to ORKGPyrite survived extensive redox weathering in the Archean (4.0-2.5 Ga) due to lack of readily available atmospheric oxygen in coastal, shallow-water environments. However, instances of oxidized detrital pyrite are still found that date as far back as 3.22 Ga. Three hypotheses have been proposed to explain oxidation of pyrite in the Paleoarchean (3.6-3.2 Ga): (1) Oxygenic photosynthesis, (2) Anoxygenic phototrophy, and (3) Photooxidation. Each of these three hypotheses provide ample, yet debatable amount of evidence to support pyrite oxidation. In this research, we investigated prospective oxidation mechanisms of pyrite in the Paleoarchean Era utilizing the ferrozine assay. It was determined that it is possible to quantify the amount of pyri...
Pyrite oxidation is a significant process in many marine environments, including salt marshes, norma...
Iron in the early anoxic oceans of Archean age (4000-2500 million years ago) is believed to have bee...
Background Pyrite, the most abundant metal sulphide on Earth, is known to spontaneously form hydroge...
Pyrite survived extensive redox weathering in the Archean (4.0-2.5 Ga) due to lack of readily availa...
Pyrite oxidation in marine shales during weathering has been widely studied, however, the effects of...
The redox structure of the water column in anoxic basins through geological time remains poorly reso...
Global warming is expected to intensify the effects of coastal anoxia. Knowledge of the causes of ge...
International audienceFractures must be carefully considered for the geological disposal of radioact...
ACLThe oxidation of pyrite is one of the near field processes of the chemical evolution of clay rock...
This thesis describes a kinetib study of the oxidation of pyrite in aqueous suspension by molecular ...
Photogeochemistry, photochemical reactions with natural minerals and aqueous species, has influenced...
The mechanism of the initial steps of pyrite (100) surface oxidation was investigated in detail by m...
International audienceThe acidophilic iron-oxidizing bacterium, Acidithiobacillus ferrooxidans, play...
"Spontaneous oxidation and combustion of sulfides and resultant fires are serious problems in underg...
THE formation of pyrite (FeS2), an important factor in determining the global redox balance1, has re...
Pyrite oxidation is a significant process in many marine environments, including salt marshes, norma...
Iron in the early anoxic oceans of Archean age (4000-2500 million years ago) is believed to have bee...
Background Pyrite, the most abundant metal sulphide on Earth, is known to spontaneously form hydroge...
Pyrite survived extensive redox weathering in the Archean (4.0-2.5 Ga) due to lack of readily availa...
Pyrite oxidation in marine shales during weathering has been widely studied, however, the effects of...
The redox structure of the water column in anoxic basins through geological time remains poorly reso...
Global warming is expected to intensify the effects of coastal anoxia. Knowledge of the causes of ge...
International audienceFractures must be carefully considered for the geological disposal of radioact...
ACLThe oxidation of pyrite is one of the near field processes of the chemical evolution of clay rock...
This thesis describes a kinetib study of the oxidation of pyrite in aqueous suspension by molecular ...
Photogeochemistry, photochemical reactions with natural minerals and aqueous species, has influenced...
The mechanism of the initial steps of pyrite (100) surface oxidation was investigated in detail by m...
International audienceThe acidophilic iron-oxidizing bacterium, Acidithiobacillus ferrooxidans, play...
"Spontaneous oxidation and combustion of sulfides and resultant fires are serious problems in underg...
THE formation of pyrite (FeS2), an important factor in determining the global redox balance1, has re...
Pyrite oxidation is a significant process in many marine environments, including salt marshes, norma...
Iron in the early anoxic oceans of Archean age (4000-2500 million years ago) is believed to have bee...
Background Pyrite, the most abundant metal sulphide on Earth, is known to spontaneously form hydroge...
