Scientists used drones to collect whale breath and detect harmful viruses early, helping protect whales in Arctic waters.

Drones have been used to successfully collect samples from the exhaled breath—or "blow"—from wild humpback, sperm and fin whales in northern Norway, hailing a new era of non-invasive health monitoring ...

Learn how acceptance sampling improves quality control by evaluating random samples. Discover its methods, benefits, and historical significance in manufacturing.

The effort was launched in Germany in 2016 on a smaller scale. During Germany's 2020 turn leading the European Union, ...

Ocean Optics reports on how spectroscopy revolutionizes research by utilizing light to analyze materials, improving accuracy ...

For decades, soil management has relied on sparse field sampling and averaged recommendations. While effective in relatively uniform landscapes, this approach breaks down in real-world fields where ...

Machine learning methods have emerged as promising tools to predict antimicrobial resistance (AMR) and uncover resistance determinants from genomic data. This study shows that sampling biases driven ...

Experts are increasingly turning to machine learning to predict antibiotic resistance in pathogens. With its help, resistance ...

The most alarming discovery from the new data is the presence of cetacean morbillivirus in the high Arctic. The virus was ...

Research-to-action programme SPARC has six years of experience carrying out research and collecting meaningful data in some ...

A research team has introduced a novel spectral method for monitoring critical nutrient elements in vegetation within karst wetlands—environments ...

A new imaging technology can distinguish cancerous tissue from healthy cells by detecting ultra-weak light signals. It relies ...