An ancient ancestor of spiders and relatives doubled its genome about 400 million years ago, setting the stage for the ...

Spider webs are nature’s perfect traps: sticky and delicate, yet strong enough to catch insects many times larger than the ...

The Darwin’s bark spider silk has a tensile strength of around 1.6 gigapascals, several times stronger than structural iron, ...

Spiderwebs are designed to trap bug-sized creatures. So how come spiders don’t get stuck? Hosted by: Hank Green ---------- ...

Scientists have officially brought genetic engineering to the spider's web. For the first time, researchers have created a gene-edited spider that spins red fluorescent silk. Led by a team at the ...

What makes spider silk so extraordinarily strong and elastic at the same time? This was the focus of recent investigations carried out by researchers from the University of Greifswald, the University ...

Dragline silk or major ampullate (MA) silk, the part of a spider's web that forms the main frame and spokes, is one of the toughest materials known to science. That is, it can absorb massive amounts ...

The spider doppelgängers are made of prey carcasses, plant debris, and other organic materials. They have a central structure ...

A newfound defensive tactic takes advantage of this idea: researchers documented spiders building giant spiderlike ...

In a narrow passage deep inside an underground cavern between Albania and Greece, scientists pushed through waist-deep black water and clung to ropes to make a startling discovery. In the beams of ...