The fixation of inorganic carbon has been documented in all three domains of life and
results in the biosynthesis of diverse organic compounds that support heterotrophic …

Changes in the mineralogy, microbial community structure and aquatic geochemistry of
bacteriogenic iron oxides (BIOS) deposited at a circumneutral groundwater seep were …

Although the biological fixation of CO2 by chemolithoautotrophs provides a diverse suite of
organic compounds utilized by chemoorganoheterotrophs as a carbon and energy source …

Geoglobus acetivorans is a hyperthermophilic anaerobic euryarchaeon of the order
Archaeoglobales isolated from deep-sea hydrothermal vents. A unique physiological feature …

Iron (Fe) redox-based metabolisms likely supported life on early Earth and may support life
on other Fe-rich rocky planets such as Mars. Modern systems that support active Fe redox …

A neutrophilic Fe (II)-oxidizing bacterium (FeOB) isolated from Fe-rich freshwater wetland
sediments has been phylogenetically and physiologically characterized. The 16S rRNA …

A dissimilatory Fe (III)-and Mn (IV)-reducing microorganism was isolated from freshwater
sediments of the Potomac River, Maryland. The isolate, designated GS-15, grew in defined …

Abstract Effects of extremely high carbon dioxide (CO2) concentrations on soil microbial
communities and associated processes are largely unknown. We studied a wetland area …

Nitrate-dependent ferrous iron [Fe (II)] oxidation (NDFO) is a well-recognized
chemolithotrophic pathway in anoxic sediments. The neutrophilic chemolithoautotrophic …

Increasing CO2 emission has resulted in pressing climate and environmental issues. While
abiotic and biotic processes mediating the fate of CO2 have been studied separately, their …