New research may have solved the mystery of how leaf vein patterns correlate with use of sunlight, carbon and other nutrients. This knowledge could help scientists better understand the complex carbon ...

You might assume that a leaf's vein patterns fork, like tree branches splitting into twigs as they get further from the trunk. But peer carefully and you'll see that the veins make innumerable closed ...

Elastic stresses may play a crucial role in determining a leaf's venation pattern, according to a new study. Biologists have developed a model that reproduces statistical properties of venation ...

UCLA life scientists have discovered new laws that determine the construction of leaf vein systems as leaves grow and evolve. These easy-to-apply mathematical rules can now be used to better predict ...

Tree branches have inspired efficient transit networks, but a new study finds inspiration in leaves. The curvy, connected leaf veins found in some plants are an efficient way to circumvent damaged ...

University of Alberta scientists say they have determined, in part, how patterns on leaves are formed. "For years people have been trying to understand this beautiful formation," said Enrico Scarpella ...

New University of Arizona research indicates that leaf vein patterns correlate with functions such as carbon intake and water use – knowledge that could help scientists better understand the complex ...

You might assume that a leaf's vein patterns fork, like tree branches splitting into twigs as they get further from the trunk. But peer carefully and you'll see that the veins make innumerable closed ...

New University of Arizona research indicates that leaf vein patterns correlate with functions such as carbon intake and water use – knowledge that could help scientists better understand the complex ...