Scientists have uncovered new details explaining why iron oxide minerals are such effective long-term carbon traps in soils.

The emission of carbon dioxide (CO₂) is one of the primary factors contributing to air pollution and climate change on Earth.

Researchers have uncovered surprising evidence that the deep ocean’s carbon-fixing engine works very differently than long assumed. While ammonia-oxidizing archaea were thought to dominate carbon ...

While scientists have long known that iron oxide minerals help lock away enormous amounts of carbon—sequestering it from the ...

One project aims to harness local geothermal resources to pull CO2 from the air. Will it prove that carbon removal can really ...

A geological formation in western Newfoundland is emerging as a potential solution for industrial decarbonization, offering a pathway to produce low-cost geologic hydrogen while permanently ...

Soil microbes remove carbon from the atmosphere and store it underground, revealing an overlooked pathway for storage in ...

To reduce the environmental burden of cement, the team ground discarded scallop shells into fine powders and substituted them ...

Scientists build a synthetic metabolism that converts CO2-derived formate into valuable chemicals outside living cells.

Plants do not rely only on their leaves to feed on carbon dioxide. A new study in Carbon Research reveals that maize roots ...

Webb spots a bizarre exoplanet with a carbon-rich atmosphere orbiting a pulsar, defying theories of how planets form.

Scientists cultivating partnerships of fungi and algae believe their invention has far-out implications for how we create the ...