The movement patterns of microscopic algae can be mapped in greater detail than ever before, giving new insights into ocean health, thanks to new technology developed at the University of Exeter. The ...

In laboratories around the world, scientists have long dreamed of building machines so small that they could grip, bend, and move objects thinner than a strand of hair. However, controlling something ...

New research has unraveled the mystery of how microscopic cilia coordinate to move and propel marine creatures through water. Cilia are tiny, hair-like protrusions found in many organisms, including ...

After exposing notoriously resilient microscopic animals called tardigrades to simulated Martian soil, they began to move extremely slowly ...

A new UBC study published recently in Proceedings of the National Academy of Science (PNAS) has unveiled insights into how microscopic organisms such as marine plankton move through water with ...

The movement patterns of microscopic algae can be mapped in greater detail than ever before, giving new insights into ocean health. The movement patterns of microscopic algae can be mapped in greater ...