South Africa – South African scientists on Tuesday injected radioactive material into live rhino horns to make them easier to detect at border posts in a pioneering project aimed at curbing poaching.
The country is home to a large majority of the world’s rhinos and as such is a hotspot for poaching driven by demand from Asia, where horns are used in traditional medicine for their supposed therapeutic effect.
At the Limpopo rhino orphanage in the Waterberg area, in the country’s northeast, a few of the thick-skinned herbivores grazed in the low savannah.
James Larkin, director of the University of the Witwatersrand’s radiation and health physics unit who spearheaded the initiative, told AFP he had put “two tiny little radioactive chips in the horn” as he administered the radioisotopes on one of the large animals’ horns.
The radioactive material would “render the horn useless… essentially poisonous for human consumption” added Nithaya Chetty, professor and dean of science at the same university.
The dusty rhino, put to sleep and crouched on the ground, did not feel any pain, Larkin said.
The radioactive material’s dose was so low it would not impact the animal’s health or the environment in any way, he said.
In February the environment ministry said that, despite government efforts to tackle the illicit trade, 499 of the giant mammals were killed in 2023, mostly in state-run parks. This represents an 11 percent increase over the 2022 figures.
Twenty live rhinos in total would be part of the pilot Rhisotope project whereby they would be administered a dose “strong enough to set off detectors that are installed globally” at international border posts originally installed “to prevent nuclear terrorism”, a pleased Larkin said, sporting a green hat and a khaki shirt.
Did you know that Wits is spearheading an innovative project to save rhinos? The Rhisotope Project aims to use small doses of radioisotopes in rhino horns to enable detection by radiation monitors at borders, including harbours, airports & land crossings.https://t.co/N0TxPVcREF pic.twitter.com/sbPmmN6c1V
— Wits University (@WitsUniversity) June 26, 2024
Border agents often have handheld radiation detectors which can detect contraband in addition to thousands of radiation detectors installed at ports and airports, the scientists said.
‘Best idea’
Rhino horns are highly sought after on black markets, where the price by weight rivals that of gold and cocaine.
According to Arrie Van Deventer, the orphanage’s founder, dehorning the rhino and poisoning the horns have failed to deter poachers.
“Maybe this is the thing that will stop poaching”, the tall, slim-built conservationist said. “This is the best idea I’ve ever heard”.
Wildebeest, warthogs and giraffe roamed the vast conservation area as more than a dozen team members performed the delicate process on another rhino.
Larkin meticulously drilled a small hole into the horn, hammered in the radioisotope, then finished off by spraying 11,000 microdots all over the horn.
After 3-years of meticulous and dedicated hard work, the Rhisotope Project at Wits has successfully inserted low doses of radioisotopes into 20 live rhinoceros.
The Project aims to use radioisotopes in rhino horns to enable detection.
Read: https://t.co/0wE7WgZP7B#WitsForGood pic.twitter.com/eNknXoqpaR
— Wits University (@WitsUniversity) June 25, 2024
About 15,000 rhinos live in the southern African nation, according to an estimate by the international Rhino foundation.
The last phase of the project would be the animal’s aftercare following “proper scientific protocol and ethical protocol”, said the project’s COO, a bubbly Jessica Babich.
The team would then take follow-up blood samples to ensure the rhinos were effectively protected.
The material would last five years on the horn, which was cheaper than dehorning every 18 months, Larkin said.
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Source: AFP
Picture: Unsplash
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