Can climate change accelerate transmission of malaria? New research sheds light on impacts of temperature

Can climate change accelerate transmission of malaria? Pioneering research sheds light on impacts of temperature
Oocyst bursting – showing a bursting oocyst (looking like a dandelion seed head) with sporozoites (eyelash looking) coming out of on the surface of midgut of An. gambiae mosquito. Credit: UF/IFAS

Malaria is a mosquito-borne disease caused by a parasite that spreads from bites of infected female Anopheles mosquitoes. If left untreated in humans, malaria can cause severe symptoms, health complications and even death.

In tropical and subtropical regions where malaria is prevalent, scientists are concerned that climate warming might increase the risk of malaria transmission in certain areas and contribute to further spread. However, there is still much to learn about the relationship between temperature and the mosquito and parasite traits that influence malaria transmission.

In “Estimating the effects of temperature on transmission of the human malaria parasite, Plasmodium falciparum,” a study published in the journal Nature Communications, researchers at the University of Florida, Pennsylvania State University and Imperial College, combined novel experimental data within an innovative modeling framework to examine how temperature might affect transmission risk in different environments in Africa.

“In broad terms, scientists know that temperature affects key traits such as mosquito longevity, the time it takes for a mosquito to become infectious after feeding on an infected host, and the overall ability of the mosquito to transmit the disease,” said Matthew Thomas, a UF/IFAS professor and UF/IFAS Invasion Science Research Institute (ISRI) director.

“But what might seem surprising is that these temperature dependencies have not been properly measured for any of the primary malaria vectors in Africa.”

“Our findings provide novel insights into the effects of temperature on the ability of Anopheles gambiae mosquitoes—arguably the most important malaria mosquito in Africa—to transmit Plasmodium falciparum, the most prevalent species of human malaria in Africa,” said Eunho Suh, joint first-author with Isaac Stopard at Imperial College, and assistant research professor at Penn State, who conducted the empirical research as a post-doctoral student in Thomas’ previous lab.

The study involved several detailed laboratory experiments in which hundreds of mosquitoes were fed with Plasmodium falciparum-infected blood and then exposed at different temperatures to examine the progress of infection and development rate within the mosquitoes, as well as the survival of the mosquitoes themselves.

“The novel data were then used to explore the implications of temperature on malaria transmission potential across four locations in Kenya that represent diverse current environments with different intensities of baseline transmission, and that are predicted to experience different patterns of warming under climate change,” explained Thomas.

The study supports previous research results in demonstrating that various mosquito and parasite traits exhibit intermittent relationships with temperature and that under future warming temperatures, transmission potential is likely to increase in some environments but could reduce in others.

Can climate change accelerate transmission of malaria? Pioneering research sheds light on impacts of temperature
Blood-fed Anopheles gambiae mosquito. Credit: Eunho Suh

However, the new data suggest that parasites can develop more quickly at cooler temperatures and that the rate of parasite development might be less sensitive to changes in temperature, than previously thought.

The data also indicate that the successful development of parasites in the mosquito, declines at thermal extremes, contributing to the upper and lower environmental bounds for transmission.

Combining these results into a simple transmission model suggests that contrary to earlier predictions, the anticipated surge in malaria transmission, attributed to climate warming, may be less severe than feared, particularly in cooler regions like the Kenyan Highlands.

“Some of the current assumptions on mosquito ecology and malaria transmission derive from work done in the early part of the last century. Our study is significant in highlighting the need to revisit some of this conventional understanding,” said Thomas.

“While the time it takes for a mosquito to become infectious is strongly dependent on environmental temperature, it also depends on the species and possibly strain of malaria and mosquito,” said Suh.

The comprehensive study and findings represent a significant step forward in understanding the intricacies of malaria transmission and paves the way for future research aimed at controlling malaria on a global scale.

“Our work focused on the malaria parasite Plasmodium falciparum in the African malaria vector, Anopheles gambiae. However, Plasmodium vivax is another important parasite species responsible for most malaria in Asia, as well as the recently reported malaria cases in the U.S.,” said Suh.

“Like Plasmodium falciparum, the established model describing the effects of temperature on development of Plasmodium vivax remains poorly validated.”

The same is true for other vector-borne diseases, such as dengue or Zika virus, added Suh.

“We need more work of the type we present in the current paper, ideally using local mosquito and parasite or pathogen strains, to better understand the effects of climate and climate change on transmission risk,” he said.

More information:
Eunho Suh et al, Estimating the effects of temperature on transmission of the human malaria parasite, Plasmodium falciparum, Nature Communications (2024). DOI: 10.1038/s41467-024-47265-w

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University of Florida


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Can climate change accelerate transmission of malaria? New research sheds light on impacts of temperature (2024, April 24)
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