University of Hawai‘i at Mānoa oceanographers discovered that microbial communities in the North Pacific Subtropical Gyre — ...

The subterranean environment of caves presents a unique laboratory for studying microbial ecology. In these isolated, oligotrophic habitats, microorganisms engage in diverse metabolic processes and ...

Hypersaline environments, such as solar salterns, soda lakes, deep-sea brines, salt mines, salted foods, and dry soils, are among the most challenging ...

Microbial ecology encompasses the study of diverse communities of microorganisms – including bacteria, archaea, fungi, viruses and protozoa – inhabiting environments as varied as soil, water, plants ...

Grassland ecology represents one of the most critical fields for understanding biodiversity maintenance, climate regulation, and sustainable land ...

The primary goal of the TOMI project is to help organic vegetable growers improve the productivity and sustainability of their tomato crops by developing new biologically-based approaches to manage ...

Researchers from the Institute of Applied Ecology of the Chinese Academy of Sciences have developed a "top-down" synthetic microbiome strategy to enrich microbial consortia capable of efficient lignin ...

Oceanographers from the University of Hawai'i at Mānoa discovered that microbial communities—from the sunlit surface to ...

A new study reveals how tailoring biochar with minerals and heat can influence soil bacteria and dramatically improve carbon storage in agricultural soils, offering new strategies to combat climate ...