Microbial Community Dynamics Dominate Greenhouse Gas Production in Thawing Permafrost
Advances in simulating biogeochemical processes in permafrost will improve predictions of potential impacts on climate.
Advances in simulating biogeochemical processes in permafrost will improve predictions of potential impacts on climate.
Study reports first significant alcohol production by an archaeon.
Researchers use engineered bacteria to simplify biofuels production, potentially lowering cost.
Microbes often evolve and work together to thrive in no oxygen situations, hinting at how carbon and energy flow just below soils and sediments.
Understanding how iron minerals accelerate collaborative metabolism will expand insights into the global carbon cycle.
Researchers develop a new process for annotating cellulose-degrading enzymes.
Study shows that “stop” code can be assigned other meanings.
Genetic engineering allows biomass-degrading bacterium to make fuel in a single process.
Researchers identify genetic regulatory networks that influence poplar wood formation, a key bioenergy plant.
Genetic insights into nutrient movement will enhance bioenergy feedstock’s sustainability.
Duckweed sequencing reveals insights into genes for lignin, cellulose, and starch production.
Study reveals insights into plant structural changes during bioenergy pretreatments.