For an insect to be able to efficiently attach to surfaces, the adhesive pads on the distal parts of its legs must establish large contact areas. In case of hairy adhesive pads this requires ...

The gravitropic response of Pellia epiphylla (L.) Corda sporophytes was analyzed using digitized images from infrared video recordings. Lateral transport of radioactively labeled auxin was followed ...

Few things are as disconcerting, or as curious, as the sight of a gecko or spider skittering effortlessly upside down along the ceiling. This ability is known to be facilitated by microscopic hairs or ...

Researchers view, for the first time, the protein and lipid molecules on the surface of the microscopic structures that give geckos their grip. The new images, created using a synchrotron microscope ...

Geckos are famous for their ability to scale vertical walls and even hang upside down, and now scientists understand more about how the expert climbers can pull off these gravity-defying feats: Geckos ...

Chinese scientists' latest findings in ancient seabed community illustrate a biological mechanism capable of shaping community structure, operating beyond passive environmental constraints or initial ...

Geckos, nature's supreme climbers, can race up a polished glass wall at a meter per second and support their entire body weight from a wall with only a single toe. But the gecko's remarkable climbing ...