Syngas biomethanation—converting CO/CO₂/H₂ into renewable methane—relies on coordinated microbial interactions.

No matter where the body is buried, the microbial network behind the cadaver’s decomposition remains essentially the same. Researchers from Colorado State University (CSU) and the University of ...

Syngas biomethanation—converting CO/CO₂/H₂ into renewable methane—relies on coordinated microbial interactions. This study reveals that excess ...

Microbial necromass plays a crucial role in soil organic carbon (SOC) formation, yet the underlying abiotic and biotic factors remain poorly understood, particularly the trophic interactions between ...

In a breakthrough for the advanced study of gut health, scientists have developed a 3D microscopic version of the human intestines condensed into a small chip about half the size of a five-cent coin.

The authors identify artificial intelligence as a turning point for food safety research. High-throughput sequencing, ...

Soil microbes remove carbon from the atmosphere and store it underground, revealing an overlooked pathway for storage in agricultural soils.

A study reveals the underground interactions between fungi and oomycetes in twenty Andalusian dehesas, wooded pasturelands typical of the Iberian Peninsula, making it possible to identify the role of ...

Harnessing microbial formulations with a pre-emptive approach toward plant protection is an emerging area that seeks to revolutionize crop resilience by ...

UHPLC-QTOF metabolomics revealed garlic extract and B. subtilis alter key defense pathways, enhancing tomato resistance to Ralstonia solanacearum, an agent of bacterial wilt.