Bacteria permeate virtually every corner ... in contrast to the chemoautotrophic-based carbon fixation found at the deep-sea vents. Biofilms are also common in engineered systems and may ...

Scientists examining seawater from Blanes Bay in the north-western Mediterranean uncovered 26 new bacterial strains that ...

By recreating the conditions of primordial hot springs on an ancient Earth, scientists discovered that a similar carbon fixation process found in bacteria and archaea took place in ancient hot ...

Two new studies have outlined novel ways to capture small amounts of carbon, and which could be scalable for larger applications. In one study, investigators developed a system that uses bacterial ...

The discovery of how a critical enzyme "hidden in nature's blueprint" works sheds new light on how cells control key processes in carbon fixation ... found in some bacteria and algae—work.

One promising solution to climate change is Carbon Capture, Utilization and Storage (“CCUS”). CCUS involves capturing carbon oxides, primarily ...

Because of the scarcity of suitable carbon and energy sources for these organisms, their contribution to global nitrogen fixation rates ... and Bradyrhizobium bacteria. Important legumes used ...

If corn was ever jealous of soybean's relationship with nitrogen-fixing bacteria, advancements in gene editing could one day even the playing field. A recent study shows that gene-edited bacteria can ...

This process is essential for life as we know it, and is utilized by various organisms, including: ・Plants ・Bacteria ・Archaea The ability of iron sulfides to promote carbon fixation in both ...

Autumn olive engages in a symbiotic relationship with Frankia bacteria in root nodules, the location where nitrogen fixation occurs. Previous research has demonstrated that autumn olive is capable of ...

The reactions of carbon fixation are controlled by specific enzymes. The overall process of carbon fixation is summarised in the diagram below.