Microplastics in soil can create tiny microbial hotspots, potentially reshaping soil health and the long-term sustainability of agriculture.

Female bumblebees visiting flowers of Chamaecrista latistipula in the wild. The insect makes internal parts of the flower vibrate in order to extract protein-rich pollen grains, which it carries away ...

Overuse of antibiotics is currently the primary reason for the rise of antimicrobial resistance (AMR). Researchers at the Indian Institute of Science (IISc) and Kiel University, however, have shown ...

Antibiotic-resistant bacteria are already directly responsible for the deaths of an estimated 1.27 million people every year, and these challenging infections contribute to the deaths of millions more ...

Some soil bacteria can acquire sets of genes that enable them to pump the heavy metal nickel out of their systems, a study has found. This enables the bacteria to not only thrive in otherwise toxic ...

Certain bacteria isolated from soil could knock out "eternal pollutants," substances that, once dispersed in the environment, do not degrade and threaten human and planetary health: per- and ...

Image of soil with a close-up of a bacterium and the cellular pathways involved in carbon dioxide productions. Available substrates from soil organic matter are processed through specific pathways ...

Umbrella-shaped antibacterial toxin particles drifting toward and engaging a bacterial target cell. The toxins are derived from Streptomyces and potently inhibit the growth of competing species in the ...

Checking the health of soil could soon be as simple as asking the local bacteria. Drones or satellites could detect their answers, given as different-colored glows in response to triggers like ...