Soils store more carbon than the atmosphere and vegetation combined, with soil microorganisms playing the main role. As a ...

The carbon cycle in our oceans is critical to the balance of life in ocean waters and for reducing carbon in the atmosphere, a significant process to curbing climate change or global warming. A study ...

Mesopelagic fish, long overlooked in ocean chemistry, are now proven to excrete carbonate minerals much like their shallow-water counterparts—despite living in dark, high-pressure depths. Using the ...

As global temperatures continue to rise, scientists are working to understand how warming affects the planet’s carbon cycle. A new study published in Biocontaminant reveals that higher temperatures ...

Soils store more carbon than the atmosphere and vegetation combined, with soil microorganisms playing the main role. As a ...

Narrow bands of ocean covering just over one-third of the world's seas are responsible for absorbing nearly three-quarters of ...

An Israeli laboratory is opening a new pathway for carbon sequestration by harnessing the millennial action of rock and water. This approach, inspired by a fundamental geological cycle, could offer ...

Mars has not always been a seemingly lifeless red desert. We have evidence that billions of years ago it had a warm, habitable climate with liquid water in lakes and flowing rivers, which is somewhat ...