Man arrested and X-rayed in Australia for rare pink diamondFriday 21 February 2014 10.16
Australian police have arrested and X-rayed a man over the theft of a pink diamond worth more than €130,000, with fears he had swallowed the rare jewel.
The 29-year-old, reported by Australian media to be British tourist Matthew Osborne, was arrested as he attempted to board an international flight in Melbourne.
"He is expected to appear in the Cairns Magistrates Court tomorrow charged with entering premises and stealing property," police said.
"The stolen diamond is still outstanding and investigations are continuing."
The pink diamond, from Rio Tinto's exclusive Argyle mine, was stolen Saturday from a jewellery store in Cairns, in northern Queensland.
Store owner Keith Bird told police the offender plucked the diamond from his hands after asking for a closer look and fled on a mountain bike.
Using his fingerprints and CCTV images, police tracked the suspect to Melbourne where he was arrested yesterday trying to board a flight for New Zealand, senior sergeant Greg Giles told reporters.
The man was put through an X-ray machine to determine whether he had ingested the diamond.
"The X-rays are inconclusive at this time," said Sgt Giles.
"They haven't shown that the diamond has been swallowed, so we are making some follow-up inquiries."
Mr Bird said he would love to have the 4.3 millimetre gem returned, adding that a local buyer is expressing interest. He described it as "rare as hen's teeth".
"We do have a buyer for it - a local buyer. A lot of people are buying them because they are going up in value."
Rio produces more than 90% of the world's pink diamonds from the Argyle mine, where high-quality jewels can fetch in excess of €730,000 per carat.
Soaring demand has seen pink diamond prices skyrocket in the past 20 years, with especially keen buyers in Japan and India.
It is not known how the diamonds acquire their pink tinge, but it is thought to come from a molecular structure distortion as the jewel forms in the earth's crust or ascends to the surface.