Plant–microbe interactions underpin a wide array of processes critical to sustainable agriculture. Beneficial microbial communities associated with plants can enhance nutrient acquisition, bolster ...

University of California San Diego researchers have developed a new tool for understanding and modifying any microbiome, ...

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

Discovery of a unique microbial interaction offers potential for environmentally friendly control of rice blast disease Additionally, the study offers valuable insights into the ecological role of P.

The field of gut microbiota research has undergone rapid expansion, uncovering the intricate relationship between microbial communities in the vertebrate ...

A six-year analysis of marine microbes in coastal California waters has overturned long-held assumptions about how the ocean's smallest organisms interact. Researchers at UC San Diego’s Scripps ...

Scientists led by the University of Southampton have revealed that an imbalance of nutrients in seawater can cause coral disease—possibly to a greater extent than that from heat stress of warming ...

Study finds that a classically anaerobic bacterium, ETBF, can benefit from, and even help create, an oxygen-rich environment.

In a recent study, researchers investigated the interactions between Pyricularia oryzae, the rice blast fungus, and the beneficial soil bacterium Streptomyces griseus. They found that P. oryzae ...