Warming Strongly Increases Nutrient Availability in a Nutrient-Limited Bog
Whole-ecosystem warming at SPRUCE exponentially increased available nutrients for plants, but observed responses were not captured by the ELM-SPRUCE model.
Whole-ecosystem warming at SPRUCE exponentially increased available nutrients for plants, but observed responses were not captured by the ELM-SPRUCE model.
Researchers use particle-resolved model simulations to quantify errors in simulations’ simplified optical properties.
The mixed metal waste common to industrial dumping sites causes metabolic stress in bacterial iron metabolism that cannot be explained by additive single metal exposure.
Experiment shows that even large, old, and presumably stable stores of soil carbon are vulnerable to warming and could amplify climate change.
Researchers use CRISPR to engineer a bacteriophage to deliver DNA into targeted members of microbial communities for precise genome editing.
New article describes how to extract and analyze genomes from microbiomes using the Department of Energy Systems Biology Knowledgebase
New improvements to an open-source platform streamline enzyme engineering.
Even microbes that can’t break down a plentiful food source can still be successful by interacting with fellow community members.
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.