Scientists have discovered that the ancient velvet worm uses a glue unlike anything seen before in nature.

The glue is easy to replicate and could have a range of applications, such as a medical glue for open wounds and burns.

CSIRO Entomology scientist Dr Victoria Haritos, who uncovered the worm's secret, says "it's a case of using disorder as a weapon".

Dr Haritos is looking for new types of silk and milked an Australian species of velvet worm called euperipatoides rowelli.

She found the silk produced by the worm is not silk at all - it is the exact opposite.

Silk is made up of well ordered, structured proteins. Dr Haritos says the sticky slime produced by the velvet worm is neither structured nor well ordered.

Getting slimed

Velvet worms are predators which use their silk to capture prey including insects, spiders and other small invertebrates.

The worm rapidly spits out slime from tubes on either side of its head. This quickly covers its prey and immediately begins to set hard, going very stringy and rope-like.

"It gets harder and harder and very sticky, immobilising the victim," Dr Haritos said.

She says the key ingredient in the slime is water.

"In fact the slime consists of 90 per cent water and just 3 per cent to 5 per cent protein," she said.

"As long as the proteins are covered in a film of water, they remain inert, the watery sheaths keeping the structure open and random. This prevents the protein molecules from interacting with one another.

"But once it hits the victim, this thin film of water quickly evaporates letting the proteins get tangled together to form tight chemical bonds and making them go sticky and hard."

The evaporation process is helped by the prey's waxy, water-repellent shell.

Ancient life

Velvet worms look like caterpillars, but are much more ancient, being among the first invertebrate animals to appear on Earth.

They first appeared about half a billion years ago in a time when most life was still confined to the oceans.

They are found in rain forest pockets worldwide, but mostly in the southern hemisphere.

Dr Haritos is now looking for a way to use the glue they produce commercially.

"It's very strong, not super glue, but getting towards that level," she said.