Deaths of hundreds of elephants may have been cause by toxic algae
21 September 2020, 14:44
Botswana’s government said the animals died from a neurological condition possibly caused by drinking tainted water.
The sudden deaths of some 330 elephants in northwestern Botswana earlier this year may have occurred because they drank water contaminated by toxic blue-green algae, the country’s government has announced.
The elephants in the Seronga area died from a neurological disorder that appears to have been caused by drinking water tainted by “a toxic bloom of cyanobacterium in seasonal pans (water sources) in the region”, said Cyril Taolo, acting director of the Department of Wildlife and National Parks.
The unexplained deaths ceased after the water pans dried up, said Mr Taolo, in a press conference in Gaborone, the capital.
No other wildlife species were affected by the toxic water in the Seronga area, close to Botswana’s famed Okavango Delta, said Mr Taolo.
Even scavengers, like hyenas and vultures, observed feeding on the elephant carcasses showed no signs of illness, he said.
With an estimated 130,000 elephants, Botswana has the world’s largest population of the pachyderms which attracts international tourists.
After the mysterious deaths of the elephants in the Seronga area, the government conducted extensive tests to determine the cause of the fatalities.
Both male and female elephants of all ages died, with clinical signs limited to neurologic symptoms, said Mr Taolo.
The deaths happened mainly near seasonal water pans and did not spread beyond the initially affected region, he said.
“Mortality event characteristics and the field, clinical, postmortem, histopathological, and laboratory findings suggest the elephants died from neurotoxic cyanobacterium (blue-green alga) toxicosis associated with a toxic bloom of cyanobacterium in seasonal pans in the region,” said Mr Taolo.
Mr Taolo maintained neurotoxins from cyanobacteria living in contaminated water could have affected the transmission of neurologic signals within an animal, causing paralysis and death, predominately related to respiratory failure.
“Neurologic signs were reversed in an animal receiving an opiate antagonist during field immobilisation, suggesting the clinical signs arose from some process affecting the animal’s neurologic receptors,” said Mr Taolo.
He, however, could not explain why these toxins did not affect any other animals drinking the affected water.
He also ruled out human efforts like anthrax, poaching and sabotage.
“A monitoring plan of seasonal water-pans on a regular basis to track such future occurrences will be instituted immediately and will also include capacity building to monitor and test for toxins produced … by cyanobacteria,” said Mr Taolo.
