Since physical and chemical erosion yield comparable carbon fluxes, studying both together is essential to avoid biases in erosion-driven carbon flux estimates.

Sulfate-reducing bacteria break down a large proportion of the organic carbon in the oxygen-free zones of Earth, and in the ...

Princeton University and Xiamen University researchers report that in tropical and subtropical oligotrophic waters, ocean ...

A group of scientists from the University of Oldenburg, Germany, has discovered how special bacteria in the ocean break down ...

Poor air quality markers were discovered in Finland’s Outokumpu drill hole, marking concerns for carbon generation and ...

Aged soils with higher organic carbon levels were particularly responsive to photochemical activity ... This body of work provides a foundation for future research and informed policymaking in the ...

Virtually all organic material on Earth has been produced ... This process, called photosynthesis, is essential to the global carbon cycle and organisms that conduct photosynthesis represent ...

GEOS-Chem "Science Codebase" repository. Contains GEOS-Chem science routines, run directory generation scripts, and interface code. This repository is used as a submodule within the GCClassic and GCHP ...

Open fires and wildfires emit hazardous pollutants such as particulate matter, nitrogen oxides, carbon monoxide, sulphur ...

A modular metabolism may explain the environmental success of certain sulphate-reducing bacteria. This is the result of a study published this week in the journal Science Advances. A research team led ...