aedes aegypti

Disease-Bearing Mosquitoes Gain From Shrinkage of Green Spaces

Urbanization and the resulting shrinkage of green spaces in cities can be considered a boon for mosquitoes that transmit diseases, such as Aedes aegypti (dengue) and Culex quinquefasciatus (lymphatic filariasis). More adapted to urban areas, they benefit from the decline in populations of other mosquito species.

In Brazil's biggest city, São Paulo, this relationship is no different, as attested by a study conducted by researchers at University of São Paulo's Public Health School (FSP-USP).

Supported by the São Paulo Research Foundation - FAPESP under the aegis of its Research Program on Biodiversity Characterization, Conservation, Restoration & Sustainable Use (BIOTA-FAPESP, the study relied on the collaboration of the City's Animal Health Control Center and its Department of Parks & Green Areas to carry out a collection of 37,972 specimens of the family Culicidae (which gathers flies commonly known as mosquitoes) from nine municipal parks - later laboratory analysis would show that these mosquitoes belonged to 73 species and 14 genera.

Among the results published in an article in Scientific Reports are the findings that the number of mosquito species is decreasing and that species that act as vectors of pathogens that cause diseases in humans end up benefiting adaptively.

"The vector species have adapted to urban environments. As green areas are reduced, wild species gradually disappear, and urban-adapted species dominate the territory. They are precisely the species that transmit the most pathogens," said one of the authors of the study, Antônio Ralph Medeiros-Sousa, a PhD student at FSP-USP with a scholarship from FAPESP.

Five species accounted for 68 percent of the insects collected: Culex nigripalpus, Aedes albopictus, C. quinquefasciatus, A. fluviatilis and A. scapularis. Other vector species - C. declarator, A. aegypti, C. chidesteri, Limatus durhami and C. lygrus - were also found more frequently in the urban parks. Scientists also showed that vector species make out for seven out of the eight most common species found in the research's general sampling.

According to Medeiros-Sousa, fragmentation and reduction of green areas benefit vector mosquitoes owing to extinction of wild species.

"There's a correlation between the size of green spaces and species diversity. Smaller green areas tend to have a subset of the species found in larger green areas, and the range of species in smaller areas tends to comprise mainly vectors," he said.

The study also shows significant differences between the parks in terms of species richness. Sixteen species were collected from Ibirapuera Park, which is 1.58 km² in area, compared with 47 species from Anhanguera Park (9.5 km²). As expected, smaller green fragments are more susceptible to environmental disturbances, which mainly drive out the less abundant insect species.

"Collecting almost 50 mosquito species in an urban park is impressive," Medeiros-Souza said. "We didn't expect such a large number. It was a surprise, even though we knew some areas, including Anhanguera Park, must have higher diversity because of their size."

Despite finding higher concentrations of vector mosquitoes, the researchers stress that this does not necessarily entail a higher risk of transmission, but only a greater likelihood of contact between vector mosquitoes and humans.

"It doesn't mean there will be more disease. The other factor that determines the incidence of disease is the presence of pathogens, such as dengue, Zika or yellow fever virus. The study shows that there's an imbalance, with less species diversity in smaller and less conserved areas," said another author of the study, Mauro Marrelli, associate professor at FSP-USP and Medeiros-Sousa's PhD supervisor.

According to the authors, the data analyzed in the study highlight the need for further research to better understand how habitat loss and fragmentation due to urbanization affect vector insects and influence the risk of pathogen transmission.

The correlation between area and diversity is explained by the equilibrium theory of island biogeography, which US ecologists Robert MacArthur and Edward O. Wilson formulated in the 1960s. According to this theory, species richness on islands represents a dynamic equilibrium between immigration and extinction rates, which are affected by the island's size and degree of isolation. This theory can be applied to urban green spaces, since these form island-like habitats isolated by built-up areas.

In the case of mosquitoes, which do not live long or travel far (leaving aside mechanical dispersal, when they travel inside vehicles, for example), extinction has an even greater impact on species equilibrium.

"We show that the theory of island biogeography applies to the city of São Paulo," Marrelli said. "We also note that smaller green areas tend to have greater similarity of species, since species that have adapted best to the urban environment tend to be selected. Almost 70% of the mosquitoes collected in our study belonged to only five species. That really is a problem."

Mosquitoes are a highly diverse group, with more than 3,500 known species. Studies of mosquito diversity in urban green spaces are therefore useful both to elucidate processes that lead to patterns of diversity in urban ecosystems and to understand the role of biodiversity in reducing or increasing the risk of pathogen transmission.

For this study, the team of researchers performed monthly collections between 2011 and 2013 in nine of São Paulo's parks: Alfredo Volpi, Anhanguera, Burle Marx, Chico Mendes, Ibirapuera, Piqueri, Previdência, Santo Dias and Shangrilá.

Source: São Paulo Research Foundation - FAPESP

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