This story originally appeared in Hakai magazine and is part of the Climate Desk collaboration. Nestled in the heart of Philadelphia, Pennsylvania, the Academy of Natural Sciences of Drexel University ...

We examine diatoms via research-grade microscopes. Our lab also houses several thousand glass microslides and archived material, primarily from arctic, alpine and Antarctic lakes and streams. Our work ...

When it comes to diatoms that live in the ocean, new research suggests that photosynthesis is not the only strategy for accumulating carbon. Instead, these single-celled plankton are also building ...

A biosensor made of fluorescent proteins embedded in the shell of microscopic marine algae called diatoms could help detect chemicals in water samples. The same research could also lead to new, diatom ...

Diatoms, mighty microscopic algae, have profound influence on climate, producing 20 percent of the oxygen we breathe by capturing atmospheric carbon and in so doing, countering the greenhouse effect.

The key to effectively measuring damagingly high levels of nutrients in freshwater streams lies in the microscopic organisms living in them, according to a group of Drexel University scientists. A ...

Independent British brand Diatom Watches is the result of equal parts fascination with space exploration and horology, and has produced some true horological marvels in the last ten years. The ...

Since seeing his first diatom arrangement—an intricate pattern of algae crafted by German microscopist J.D. Möller—Matthew Killip has been enthralled with the Victorian art form. "I love seeing the ...