Calculating “Run and Tumble” Behavior of Bacteria in Groundwater
A new study seeks to improve reactive transport models by more accurately factoring in how bacteria move in groundwater.
A new study seeks to improve reactive transport models by more accurately factoring in how bacteria move in groundwater.
Microbiome and soil chemistry at long-term bioenergy research sites challenge the idea that switchgrass increases carbon accrual in surface soils on marginal lands.
Microbial populations trade places to satisfy their nitrogen nutritional needs.
To help researchers examine important cloud processes, a DOE user facility activity combines high-resolution simulations with real-world observations
New in vitro platform prototypes and rapidly optimizes synthetic enzymes for cellular design.
New approaches shed light on arctic soil microbes and their potential to release greenhouse gases when permafrost thaws.
Elucidating the plant’s ability to tweak its defense response to specific pathogens.
Research identifies microbiome traits that might be harnessed to improve global carbon models and or help increase carbon storage in soil.
New root blotting technique visualizes relationship between root growth, microbial activity, and soil nutrients.
Incorporating sterols in the outer membrane of Yarrowia lipolytica makes it significantly more tolerant of ionic liquids.
SEER, a new method to rapidly search for proteins involved in rearranging DNA molecules, increases genome editing efficiency.
Environmental factors can change interactions among microorganism communities.
Signup for the Office of Science’s GovDelivery email service, and check the box for the Biological and Environmental Research Program in your subscriber preferences.
Subscribe