A team at the Royal Veterinary College in London has identified a highly specialised ligament structure that is thought to prevent giraffes' legs from collapsing under the immense weight of these animals.
"Giraffes are heavy animals (around 1,000 kg), but have unusually skinny limb bones for an animal of this size," said lead investigator Christ Basu, a PhD student in the Structure & Motion Lab.
"This means their leg bones are under high levels of mechanical stress," Basu said.
In giraffes, the equivalents to our metatarsal bone (in the foot) and metacarpal bone (in the hand) are extremely elongated, accounting for roughly half the leg length.
This structure is found in other large animals, such as horses (which are well known for their ability to sleep whilst standing), but this is the first time that it has been studied in giraffes.
The researchers hypothesised that this arrangement may help solve the mystery of how the giraffes' spindly legs can support its weight.
To test this, the researchers received donations of limbs from EU zoos; these came from giraffes which had died naturally in captivity or been euthanised for reasons unrelated to the study.
It was found that the limbs remained upright and stable without any additional support and could even withstand greater loads.
As the suspensory ligament is elastic tissue, and not muscle, it cannot generate force itself so can only offer passive support.
This means that giraffes can support their weight without actively engaging as much muscle, thereby reducing fatigue.
The suspensory ligament is also thought to prevent the foot joints from overextending and protect the feet from collapsing.
"I'd like to link modern giraffes with fossil specimens to illustrate the process of evolution. We hypothesise that the suspensory ligament has allowed giraffes to reach large sizes that they otherwise would not have been able to achieve," Basu said.