Invasive malaria mosquito spreading in Africa, researchers warn
New evidence has emerged that an invasive species of malaria-carrying mosquito from Asia is spreading in Africa, where it could pose a “unique” threat to tens of millions of city-dwellers, researchers warned Tuesday.
In Africa, home to more than 95% of the world’s 627,000 malaria deaths in 2020, the parasite is mostly spread in rural areas preferred by the dominant Anopheles gambiae group of mosquitoes.
However, the Anopheles stephensi mosquito, which has long been the main malaria spreader in Indian and Iranian cities, can breed in urban water supplies, meaning it can thrive during the dry season. It is also to resistant to commonly used insecticides.
Modelling research in 2020 found that if Anopheles stephensi spread widely in Africa it would put more than 126 million people in 44 cities at risk of malaria.
Djibouti became the first African nation to detect Anopheles stephensi in 2012. It had been close to eradicating malaria with just 27 reported cases that year.
However, the number has skyrocketed since Anopheles stephensi’s arrival, hitting 73,000 cases in 2020, according to the World Health Organization.
On Tuesday, researchers revealed the first evidence that a malaria outbreak in neighbouring Ethiopia earlier this year was caused by Anopheles stephensi.
In the eastern Ethiopian city of Dire Dawa, a transport hub between the capital Addis Ababa and Djibouti, 205 malaria cases were reported in all of 2019.
However this year more than 2,400 cases were reported between January and May. The outbreak was unprecedented because it took place during the country’s dry season, when malaria has usually been rare.
‘Surprising’
As the numbers were rising, Fitsum Girma Tadesse, a molecular biologist at Ethiopia’s Armauer Hansen Research Institute, and other researchers “jumped in to investigate,” he told AFP.
They quickly determined that “Anopheles stephensi mosquitoes are responsible for the increase in cases,” Tadesse said.
They linked Anopheles stephensi to the infections of the patients, and also found the mosquitoes — carrying malaria — in nearby water containers.
Tadesse warned that the mosquito’s preference for open water tanks, common across many African cities, “makes it unique”.
The research, which has not been peer-reviewed, was presented at the Annual Meeting of the American Society of Tropical Medicine and Hygiene being held this week in Seattle, US.
Also presented at the conference were early findings that identified Anopheles stephensi at 64% of 60 test sites in nine states of neighbouring Sudan.
“In some instances, we have found that up to 94% of households have stephensi” mosquitoes nearby, Hmooda Kafy, the head of the integrated vector management department at Sudan’s health ministry, said in a statement.
The findings come after the Nigerian Institute of Medical Research confirmed in July it had detected Anopheles stephensi in West Africa for the first time.
Sarah Zohdy, an Anopheles stephensi specialist at the US Centers for Disease Control and Prevention, told AFP it was “surprising” that the mosquito was detected so far west, as the focus had been on the Horn of Africa.
‘A major threat’
In the last couple of months it has been shown that Anopheles stephensi “is no longer a potential threat” in Africa, Zohdy said.
“In the Ethiopian context, this is a threat — we now have data to show that,” said Zohdy, who also works with the US President’s Malaria Initiative, a partner of the Dire Dawa study.
“The evidence now exists to suggest that this is something that the world needs to act on,” she added.
Anopheles stephensi has also been reportedly detected in Somalia, according to the WHO, which in September launched an initiative aimed at stopping the spread of the mosquito in Africa.
Because Anopheles stephensi can thrive in urban water tanks, “you get a shift from a seasonal disease to one that can persist year round,” Zohdy said.
That shift poses “a major threat” to recent gains made against malaria, she added.
Deaths from malaria had more than halved from the start of the century to 2017 — largely due to insecticide-treated mosquito nets, testing and drugs — before progress stalled during the COVID-19 pandemic.
Zohdy called for increased surveillance to find out exactly how far Anopheles stephensi has spread across the continent.
“The true extent of the distribution of the mosquito is unknown,” she said.
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