Microalgae, including cyanobacteria and green algae, represent the most important ... more than 40% of the global net ...

The microbes, known as blue-green algae or cyanobacteria ... works sheds new light on how cells control key processes in carbon fixation, a process fundamental for life on Earth.

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

Four autotrophic carbon-fixation pathways were already known and ... which is present in plants, algae, cyanobacteria and proteobacteria. A second autotrophic pathway (Arnon–Buchanan cycle ...

That process, called carbon fixation, resulted in the assembly of ... offering the light necessary to complete photosynthesis ...

This “greening” of the water column has caused decreased levels of dissolved oxygen (DO) in bottom waters as planktonic algae ... for nitrogen fixation. In exchange for these carbon sources ...

Three friends from North Wales were trying to come up with a way to use carbon dioxide to help grow algae to feed a fish farm and may have stumbled across a breakthrough that could clean up ...

To overcome the barrier of cell walls that photoelectrons cannot cross, they integrated the algae with carbon nanofibers (CNFs). These CNFs serve as conduits, guiding the photoelectrons from the ...

S. Silver and A. Jump Part II. Nitrogen Fixation by Free-Living, Blue-Green Algae: 9. Nitrogen assimilation and metabolism in blue-green algae W. D. P. Stewart, A. Haystead and M. W. N. Dharmawardene ...

Stanford researchers have found a surprising genetic twist in a lineage of microbes that may play an important role in ocean carbon storage. The microbes, known as blue-green algae or cyanobacteria, ...

While there are a number of small scale tests along with some larger scale commercialization projects, the UK's Carbon Trust wants to accelerate the process. The Trust has launched an Algae ...

But that algae needs its own power source — in the form of carbon dioxide, or CO2 — to produce the jet fuel. That's where Columbia professors Graciela Chichilnisky and Peter Eisenberger come in.