The ocean plays an important role in the global carbon cycle by absorbing about one-quarter of the carbon emitted by human ...

Cement-based materials provide a potential solution for mitigating climate change by trapping and storing atmospheric carbon dioxide as minerals, via a process known as carbonation. Despite extensive ...

The startup is taking a different approach to removing carbon dioxide from the air than most of its competitors.

The new findings reveal that Antarctic krill store amounts of carbon that are comparable to critical blue carbon habitats ...

How do microbial behaviour and interactions influence carbon storage in the deep sea? An international team of researchers, ...

The World Bank's white paper Understanding the Role of Fisheries and Aquaculture in Carbon Sequestration emphasizes the role ...

A study has uncovered how carbonation in cement-based materials is influenced by structural changes and water transport. The ...

Carbon dioxide (CO2) emissions are currently one of the leading causes of global warming. Cement-based materials have shown ...

The movement of carbon dioxide (CO2) from the surface of the ocean, where it is in active contact with the atmosphere, to the deep ocean, where it can be sequestered away for decades, centuries, or ...

Understanding this process is vital for improving our ability to forecast ... These microscopic organisms play a huge role in the world's carbon cycle - absorbing about as much carbon as all the ...

The ocean absorbs about a quarter of carbon emitted by human activities, but rainfall is responsible for about 6% of the ...

The ocean plays an important role in the global carbon cycle by absorbing about one-quarter of the carbon emitted by human activities every year. A ...