Animals can significantly enhance emissions reductions — sometimes matching smaller sectors and reaching 10–15% of larger ...

New research shows how engineered enzymes and cell-free systems can be combined to recycle CO2 into Acetyl-CoA and other ...

Researchers discovered that microbes respire three times as much CO2 from lignin carbons compared to cellulose carbons. When soil microbes eat plant matter, the digested food follows one of two ...

The carbon cycle is basically Earth's recycling system for the air we breathe. CO2 gets captured and transformed, then ...

Three modules forming a new-to-nature CO2 fixation cycle have been successfully implemented in E.coli. "Bringing parts of the THETA cycle into living cells is an important proof-of-principle for ...

Not only is water necessary for sustaining life, but it is also an important factor in maintaining the climate of a planet. The study of exoplanets re.

Phytoplankton are key players in the ocean carbon cycle. Comprised of a variety of microscopic photosynthesizing bacteria, algae, and other single-cell organisms, phytoplankton form the base of marine ...

The carbon cycle is Earth's natural balancing act, moving carbon between the atmosphere, oceans, land, and living organisms.