Add to ORKGWalker, J.C.G. and Brimblecombe, P., 1985. Iron and sulfur in the pre-biologic ocean. Precambrian Res., 28: 205--222. Tentative geochemical cycles for the pre-biologic Earth are developed by comparing the relative fluxes of oxygen, dissolved iron, and sulfide to the atmosphere and ocean. The flux of iron is found to exceed both the oxygen and the sulfide fluxes. Because of the insolubility of iron oxides and sulfides the implication is that dissolved iron was fairly abundant and that oxygen and sulfide were rare in the atmosphere and ocean. Sulfate, produced by the oxidation of volcanogenic sulfur gases, was the most abundant sulfur species in the ocean, but its concentration was low by modern standards because of the absence of the river-b...
The formation of sedimentary pyrite (FeS2), the principal sink for reduced sulfur in marine systems,...
The environmental expression of sulfur compound disproportionation has been placed between 640 and 1...
Iron speciation in ancient sedimentary rocks is widely used to reconstruct oceanic redox conditions ...
Tentative geochemical cycles for the pre-biologic Earth are developed by comparing the relative flux...
The Earth’s atmosphere and oceans have not always been oxygenated. The exact pathway and timing of t...
The presence of relatively abundant bedded sulfate deposits before 3.2 Ga and after 1.8 Ga, the peak...
The Earth’s atmosphere and oceans have not always been oxygenated. The exact pathway and timing of t...
Significant links exist between the sulfur cycle, sulfur geochemistry of sedimentary systems, and or...
Sulfur is mainly fixed in sediments as iron sulfides and the biogeochemistry of iron in aqueous solu...
The coupled biogeochemical cycles of iron and sulfur are central to the long-term biogeochemical evo...
Ancient rocks record the redox conditions of the ocean-atmosphere system through the distribution of...
The exogenic sulfur cycle is tightly coupled with the carbon and oxygen cycles, and therefore a cent...
The environmental expression of sulfur compound disproportionation has been placed between 640 and 1...
The chemical composition of the ocean changed dramatically with the oxidation of the Earth's surface...
The sulfur biogeochemical cycle integrates the metabolic activity of multiple microbial pathways (e....
The formation of sedimentary pyrite (FeS2), the principal sink for reduced sulfur in marine systems,...
The environmental expression of sulfur compound disproportionation has been placed between 640 and 1...
Iron speciation in ancient sedimentary rocks is widely used to reconstruct oceanic redox conditions ...
Tentative geochemical cycles for the pre-biologic Earth are developed by comparing the relative flux...
The Earth’s atmosphere and oceans have not always been oxygenated. The exact pathway and timing of t...
The presence of relatively abundant bedded sulfate deposits before 3.2 Ga and after 1.8 Ga, the peak...
The Earth’s atmosphere and oceans have not always been oxygenated. The exact pathway and timing of t...
Significant links exist between the sulfur cycle, sulfur geochemistry of sedimentary systems, and or...
Sulfur is mainly fixed in sediments as iron sulfides and the biogeochemistry of iron in aqueous solu...
The coupled biogeochemical cycles of iron and sulfur are central to the long-term biogeochemical evo...
Ancient rocks record the redox conditions of the ocean-atmosphere system through the distribution of...
The exogenic sulfur cycle is tightly coupled with the carbon and oxygen cycles, and therefore a cent...
The environmental expression of sulfur compound disproportionation has been placed between 640 and 1...
The chemical composition of the ocean changed dramatically with the oxidation of the Earth's surface...
The sulfur biogeochemical cycle integrates the metabolic activity of multiple microbial pathways (e....
The formation of sedimentary pyrite (FeS2), the principal sink for reduced sulfur in marine systems,...
The environmental expression of sulfur compound disproportionation has been placed between 640 and 1...
Iron speciation in ancient sedimentary rocks is widely used to reconstruct oceanic redox conditions ...