Microfluidic technology has become increasingly important in many scientific fields, such as regenerative medicine, microelectronics, and environmental science. However, conventional microfabrication ...

You think all corn roots are the same? Then you’ve likely never paid close attention to roots on corn exhibited at county ...

Even if you don't know what 3D microfluidic networks are, that doesn't change the fact that they have some very valuable possible uses. Scientists have now devised a much easier method of making the ...

A mycelium/biomass composite structure grown by the La Saponara lab from a commercial kit. Photo courtesy of Valeria La Saponara. UC Davis researchers studying mycelium, the white filament-like root ...

For centuries, corn growers have focused almost entirely on what happens above ground in terms of plant health and yield. Today, scientists like Jim Schwartz are looking below ground – in the root ...

To feed a hotter and drier planet, Stanford scientists are building a smarter plant. The team has genetically reprogrammed plants, nurtured in a laboratory chamber, to grow roots that are long or ...

Scientists from the Max Planck Institute for Plant Breeding Research, the University of Cologne, and the University of Copenhagen have uncovered a hidden talent of the Casparian strip—a root structure ...