American Journal of Botany, Vol. 66, No. 4 (Apr., 1979), pp. 404-411 (8 pages) Certain leaves of Triphyophyllum peltatum (Hutch. & Dalz.) Airy Shaw (Dioncophyllaceae) have an extended, erect midrib ...

Robots helped achieve a major breakthrough in our understanding of how insect flight evolved. The study is a result of a six-year long collaboration between roboticists and biophysicists. Robots built ...

Different insects flap their wings in different manners. Understanding the variations between these modes of flight may help scientists design better and more efficient flying robots in the future.

Mosquitoes are some of the fastest-flying insects. Flapping their wings more than 800 times a second, they achieve their speed because the muscles in their wings can flap faster than their nervous ...

About 350 million years ago, our planet witnessed the evolution of the first flying creatures. They are still around, and some of them continue to annoy us with their buzzing. While scientists have ...

Thrips don't rely on lift in order to fly. Instead, the tiny insects rely on a drag-based flight mechanism, staying afloat in airflow velocities with a large ratio of force to wing size. Researchers ...

The structure of fibrillar flight muscle / D.E. Ashhurst and M.J. Cullen -- Extraction, purification, and localization of [alpha]-actinin from asynchronous insect flight muscle / D.E. Goll [and others ...

As a flying machine, a mosquito is not efficient, but since its weight is low it gets 450 million miles per gallon of nectar, which it uses as fuel. In the Scientific Monthly, Professor Brian Hocking ...

When you watch an insect fly in slow motion, you get a whole new perspective on the complexity of movement and engineering. A new collaborative research project, funded by the U.S. Air Force, is ...