UC Davis researchers analyzed 1.4 million truckloads of tomatoes to find that California’s $1 billion processing tomato industry likely will be able to withstand higher temperatures and traffic congestion.

Ant colonies operate as tightly coordinated “superorganisms” with individual ants working together, much like the cells of a body, to ensure their collective health. Researchers at the Institute of Science and Technology Austria (ISTA) have now discovered that terminally ill ant brood, like infected cells, release an odor signaling their impending death and the risk they pose. This sophisticated early warning system facilitates rapid detection and removal of pathogenic infections. The study was published in Nature Communications.

Recent study led by Mount Sinai West doctors found AI technology helped identify more than 97 percent of serious congenital heart defects in babies

SAN ANTONIO — December 2, 2025 — Southwest Research Institute (SwRI) has upgraded its High-Viscosity Flow Loop (HVFL) to meet increased demands in the oil and gas industry. The expanded and upgraded facility now enables SwRI to offer more comprehensive, efficient, and cost-effective heavy oil testing.

Within tissues, cells are embedded in complex, three-dimensional structures known as the extracellular matrix. Their biomechanical interactions play a crucial role in numerous biological processes. Scientists at the Max Planck Institute for the Science of Light (MPL) have now developed a novel lab-on-a-chip system based on intelligent hydrogel structures, which enables precise pressure forces to be applied to cellular microenvironments. The recently presented method could find future applications in medical diagnostics for mechanical disorders in living tissues.

Researchers Dr. Gu-Gon Park, Dr. Yongmin Kwon, and Dr. Eunjik Lee from the Hydrogen Fuel Cell Laboratory at the Korea Institute of Energy Research (President Yi Chang-Keun, hereafter “KIER”) have developed a technology that uses carbon monoxide, typically harmful to humans, to precisely control metal thin films at a thickness of 0.3 nanometers. This technology enables faster and simpler production of core–shell catalysts, a key factor in improving the economic viability of fuel cells, and is expected to significantly boost related industries.