The dynamics of the sawfish's astounding sword-like weapon make it one of nature's deadliest stealth predators, new research has shown.
Rather than use this "sword" to sift for prey, as some previously thought, it uses it to fatally swipe its dinner with minimal disturbance in the water.
Sawfish's secrets revealed
University of Newcastle engineers uncover how the Australian sawfish uses its weaponised razor-edged snout.
"Moving the rostrum [or snout] just a few centimetres above the sea floor creates almost no disturbance at all," said Associate Professor Phil Clausen of Newcastle University.
"Our results show sawfish are an ultimate stealth hunter," he said.
The Newcastle University engineers worked with fish experts at Murdoch University and Sharks and Rays Australia to better understand how the critically endangered sawfish hunts.
"The hydrodynamic nature of their rostra [snouts] makes any movement barely detectable in water," said Associate Professor Clausen, lead investigator of the study which has been published in The Journal of Fish Biology.
"We were surprised at how fast the motion was. Our modelling clearly shows that with a lateral swipe, by the time the sword reaches the prey, it's already too late," he said.
The collaboration for the study emerged after Newcastle University PhD student Sam Evans watched a feature on TV show River Monsters featuring Associate Professor David Morgan from Murdoch University's centre for fish and fisheries research.
Associate Professor Morgan leads "Team Sawfish" at the university, which works closely with Aboriginal rangers in the Fitzroy River area of Western Australia to help conserve the fish.
"We have encountered instances of hunters removing the rostra as a kind of trophy," he said.
Barbara Wueringer is director and principal scientist of Sharks and Rays Australia in Cairns. She said the study builds on her 2011 PhD research on the sawfish's feeding behaviour.
"Using computational fluid dynamics, we have found that the shape of the rostrum reduces noise in water, increasing the ability of the sawfish to detect minute vibrations caused by prey in lateral swipes of the weapon," Dr Wueringer said.
Mark McGrouther at the Australian Museum, who was not connected with the study, said: "This research fits with our understanding the sawfish's rostrum is a slashing weapon to hunt for prey."
Mr McGrouther said in Australia the four species of sawfish were mainly found in northern tropical waters of Western Australia, Northern Territory and Queensland.
"There are some sightings in waters north of the Clarence River in NSW," he said. "There is even a historical sighting of the fish in the Parramatta River in 1851, but you won't find these fish in the harbour today."
The Newcastle University mechanical engineers in this study normally work on the the aerodynamics of wind turbine blades.
PhD student Mr Evans said: "Our work has been on wind turbines, so I'm incredibly interested in the movement and efficiency of blades."
David Bradney and Associate Professor Clausen said understanding the wing dynamics of birds of prey to move silently is being applied to large wind turbines to reduce their noise.
"These are tools we use every day for engineering problems but now the technology is able to cross boundaries into biology," Associate Professor Clausen said.
"We have the ability to apply engineering principles to something outside the engineering box."