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Engineered Poplar Lignin Has More of a Valuable “Clip-off” Chemical
Scientists introduce a bacterial enzyme into bioenergy poplars to increase the amount of a valuable platform chemical.
Scientists introduce a bacterial enzyme into bioenergy poplars to increase the amount of a valuable platform chemical.
AI reveals relationships between weather systems and cloud physics.
Three common solvents for pretreating switchgrass yield lignin extracts with the potential for making different valuable bioproducts.
Using a novel combination of advanced research techniques, scientists show how the roots of various tropical plants react to harsh conditions.
Warming stimulates methanogenesis fueled by the release of plant metabolites.
Scientists investigate virus-host interactions at sub-freezing temperatures in Arctic peat soil.
Historical precipitation influences soil viruses and their functional potential in grassland soils.
Soil moisture influences the activity of soil DNA viruses and the composition and abundance of RNA viruses.
A new cultivation technology called a “porous microplate” reveals how photosynthetic microalgae interact with their micro-environment.
Scientists use engineered gene circuits in plants to control gene expression and root architecture.
Microbes in Arctic soils are equipped to respond rapidly to the diverse effects of ongoing permafrost thaw.
Cloud microphysics affect precipitation extremes on multiple time scales in climate models.