biomass tagged posts

Harvard Chemist Daniel Nocera et al have engineered a bacterium that has made it capable of taking in carbon dioxide and hydrogen, and excreting several types of alcohol fuels, along with biomass that can be burned and used as an energy source. Nocera achieved a level of notoriety 5 years ago, when he and his team announced that they had created an artificial leaf that could be used to generate hydrogen for use as a fuel—that idea did not lead to hydrogen fuel cells displacing gasoline in automobiles, as he had hoped, so this go round, he has set his sights or providing a fuel source for those more in need—parts of India where there is still no electricity.

The new bacterium, named Ralston eutropha was first caused (via genetic eng...

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Coccolith disks made of calcium carbonate, formed by coccolithophores, which are single-celled algae such as E. huxleyi, one of the promising biomass resources reduces/ enhances light entering cells by light scattering. Elucidation of the physiological significance of coccolith formation can help promote efficient bioenergy production using microalgae.

The most important question concerning coccolith function is with regard to how they modulate solar light in the ocean, where huge blooms of E. huxleyi have frequently been observed as satellite images by SeaWiFS Color Senor from space...

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Tungsten is exceptionally rare in biological systems. Thus, it came as a huge surprise to researchers when they discovered this novel enzyme in hot spring-inhabiting bacterium, Caldicellulosiruptor bescii. This tungstoenzyme plays a key role in C. bescii’s primary metabolism, and its ability to convert plant biomass to simple fermentable sugars which could lead to commercially viable conversion of cellulosic (woody) biomass to fuels and chemical feedstocks, which could substantially reduce greenhouse emissions.

Cellulosic biomass’ advantage as a feedstock for fuel and chemical production is that it need not compete with food production for land. Its big challenge is that cellulose is highly resistant to enzymatic degradation...

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