Search | Contact | Subscribe | Sign In or Register

Crisis Response Journal Crisis Response Journal

New malaria mosquito threatens African cities

Posted on 7th October 2020 at 10:11am

Africa has just months to react to an invasive malaria mosquito that thrives in cities, before the situation escalates beyond control, experts warn.

The mosquito, Anopheles stephensi, is one of the few malaria mosquitoes that thrives in urban areas because of its ability to find clean water to lay its eggs. Photo: Lauren Holden (CC license 4.0) 


Scientists predict that more than 125 million city dwellers across Africa will face a higher malaria risk from a type of Asian mosquito that is quickly moving across the continent. The mosquito, Anopheles stephensi, is one of the few malaria mosquitoes that thrives in urban areas because of its ability to find clean water to lay its eggs.

Malaria is traditionally considered to be a rural disease. In Africa, city centres can be completely free of malaria transmission, according to experts from the London School of Hygiene and Tropical Medicine (LSHTM). However, the invading mosquito could drastically alter the location and movement of malaria in Africa, which records 94 per cent of global malaria deaths, mostly in children under five.

“I think it’s really quite scary,” says Jo Lines, professor of malaria control and vector biology at LSHTM. “It’s part of our duty as [scientists] to be saying: ‘Look here, something’s happening here.’ If we don’t shout now it will be too late.”

Targeted vector surveillance

New research led by Marianne Sinka, a senior postdoctoral researcher at the University of Oxford, says that An. stephensi may already be adapting to its new environment and becoming active year-round. “If it continues its incursion into the African continent unchecked, there is a very real possibility of mass outbreaks of malaria,” Sinka’s team says. “In a continent striving to improve and strengthen its health systems, such a huge burden could be catastrophic. Targeted vector surveillance is therefore urgently needed.”

Sinka’s research is a warning bell, says Louisa Messenger, an assistant professor at LSHTM: “The key conclusions and observations are very striking. The numbers, if they turn into reality, are very dramatic.”

In 2012, an unusual outbreak of urban malaria was reported in the Horn of Africa’s Djibouti City, with Ethiopia and Sudan also reporting cases. This was the first recorded appearance of An. Stephensi in Africa.

By last year, the World Health Organisation had issued a vector alert, warning that the mosquito seemed to be spreading from Djibouti to neighbouring countries. Messenger says the mosquito likely arrived via ships entering ports in eastern Africa. Transmission mapping shows the mosquito’s spread follows the major transportation routes used by heavy vehicles to move freight.

The invasion of anopheline mosquito vector species into new areas poses a potential threat. Source: WHO Malaria Threats Map: tracking biological challenges to malaria control and elimination; 2019

“The incursion of An. stephensi into Africa is particularly worrying; over 40 per cent of Sub-Saharan Africans live in urban environments,” Sinka and her co-authors write in their paper, published in PNAS. “Within urban environments, mosquitoes can be much more difficult to control yet people may have better access to healthcare and treatment, so it is difficult to estimate what the consequences of this invading mosquito could be,” Sinka says.

Researchers are working fast to understand the scale of the spread of An. stephensi. “The more you look, the more you find,” Messenger says. “We don’t really understand the magnitude of the threat yet, but from the last few years it’s not looking good.”

Entomologist Fredros Okumu, the director of science at Ifakara Health Institute in Tanzania, agrees the study’s findings are significant. “For now, the best [strategy] is to assess the extent of its spread and its role in malaria transmission,” he says.

Governments must move to control An. stephensi within “a few months or a year, but not longer, after that it will be too late, it will have spread too far,” according to Lines.

In 1930, the world failed to react quickly to the invasion of the African mosquito Anopheles gambiae in Brazil, resulting in a major malaria epidemic in 1938. Lines says that the Brazil crisis should act as a warning, as well as an example of success – when a comprehensive management plan was enacted, An. Gambiae was eradicated in Brazil.

“The quicker you make this decision, the cheaper it is,” says Lines. “This is an emerging infectious disease disaster that we can still prevent – but only if we act decisively now.” Messenger says that bed nets and insecticide spraying are holding measures, but they will not push back against the mosquito’s spread. “In order to push back, you have to think of more source reduction,” she says.

Integrated strategies that include household behaviour modification and surveillance programmes, as well as conventional control measures, can be successful, according to Messenger and colleague Lines. “We have options, [we need] the co-ordination, the money and the political will do to it,” Messenger concludes.
  
This article is reproduced under a Creative Commons license and was created by SciDev.Net’s Sub-Saharan Africa English desk.

Back to News Back to Top